'^^^^^■\ 
 
 
 
 "■p. ■S 
 
 , % - : 
 
 ,^■^ 
 
 ■'c!- ciS "^d 
 
 
 ^^'■ 
 
 
 
 "-^^ 
 
 
 %'''^.'^y- 
 
 
 ' '■^c c,'^" 
 ^ V 
 
 
 ,%/ 
 
 v'''\\ 
 
 ^ 
 
 
 ■>^^'^. 
 
 .V ^*^ 
 
 
 
 O 
 
 
 
 •V 
 
 
 
 xx>" % 
 
 ;;%>^ '^PtK- 'W 
 
 > 
 
 S -^i- 
 
 .^^\>-, 
 
 
 
 
 v>^^.. 
 
 
 .x^'^'' % 
 
 *« A'^\ - " ' * O. 
 
 
 ^^.^' 
 ...S'^ "^ 
 
 
 
 ■^^■^ 
 
 
 A**'''*'^^25^',%, 
 
 
 
 .■\*" *\;*1^'. 
 
 \/ 
 
 .^"^ "*. 
 
 v^ 
 
 N"^-.. 
 
 
 
 V^"^ "^^^ . 
 
 
 c's <<, 
 
 A^- 
 
 .-^V."', 
 
 
 .\\ .V 
 
 .Oo 
 
.^^ 
 
 ,0 -, 
 
 
 "''^^r. ,<^' 
 
 
 
 
 
 
 
 
 ■>* ^ 
 
 
 -'^f <^ 
 
 * ■^^' 
 
 
 
 •^OO^ 
 
 
 ^^■^"•-. 
 
 
 .#■ "^^ 
 
 
 ^ \ ■ 
 
 ■^ 
 
 %.,^' 
 
 %<•* 
 
 .y'%- 
 
 i<-''% 
 
 x"^ ■^^-. 
 
 =>' -5- 
 
 o 
 
 r. 
 
 ^^' 
 
 .^<^'' •>-. 
 
 "^ >*^ ,:*/^ 
 
 r^. 
 
 
 .H -r-^. 
 
/'' 
 
>^^/^^> o-^ f4-^..aL, 
 
 
 Vt^yyL 
 
 lS^l 
 
FACTS FOR FARMERS; 
 
 ALSO FOB 
 
 THE FAMILY CIRCLE. 
 
 A COMPOST OF RICH IMATERIALS FOR ALL LAND-OWNERS, 
 
 ABOUT 
 
 DOMESTIC ANIMALS AND DOMESTIC ECONOMY; 
 
 FARM BUILDINGS; 
 
 ^arkns, ©rcljarts, ait^ fiuei|arbs; 
 
 AND ALL 
 
 FARM CROPS, TOOLS, FESCES, FERTILIZATION, DRAIXIXG, AND IRRIGATIOX. 
 
 EDITED 1!Y 
 
 SOLOX ROB IN SOX, 
 
 AGRICULTURAL EDITOR OF TUB XEW YORK "XRIBUHE," AND AUTHOR OF SEVERAL TOPULAR WORKS. 
 
 NEW YORK: 
 JOnXSON AXD WARD, PUBLISHERS, 
 
 No. 113 FULTON STREET. 
 1864. 
 

 
 /^ -^ 
 
 Entered, according to Act of Congress, in the year 18G3, by 
 A. J. JOHNSON, 
 
 In tlie Clerk's OflSce of the District Court of the United States for the Southern 
 District of New Yorli. 
 
 IoHL 
 
 / r 
 
 DAVIES & KENT, 
 
 1S3 WiUiam Street, N. Y. 
 
PREFACE. 
 
 THE AUTHOR TO HIS READERS. 
 
 "Facts for Farmers?*' "What facts?" "What new theories 
 have we here in a ponderous volume ? Is it filled with dry dis- 
 sertations about what farmers should or should not do?" "What 
 does this author know about farming?" 
 
 The author answers — ^the last question first. Nothing. Who 
 does? He does not advance new theories. He only collects old 
 ones. He has made a ponderous volume, not of dry dissertations, 
 but of short, crisp facts. The book is full of little things ; glean- 
 ings from many fields ; from all the agricultural papers ; from con- 
 versations of farmers ; from talks at farmers' clubs ; from books a 
 little ; from personal experience much ; — from the memory of a long 
 life devoted to the practice and study of agriculture, this volume is 
 born. It is the fruit of years of labor in a great and good field. 
 It certainly contains much that will be useful to all classes who 
 till the earth, or live in farmers' houses. It should be in every 
 rural home, as a work of reference. It is arranged in the most con- 
 venient form for this purpose. Each chapter comprises one general 
 subject. Each section embraces a separate branch. Each num- 
 bered paraOTaph is complete in itself, and conveys an item of infor- 
 mation. Each subject is completely indexed. As a whole, though 
 containing much, it is not an encylopedia of agriculture. It does 
 not pretend to teach all that a farmer should knoAV. That must be 
 learned by daily perusal of agi'icultural papers and books. 
 
Though not perfect, farmers will find this book a useful one. If 
 not invaluable, I hope it is one that they can not afford to do with- 
 out. In its compilation, the author has enjoyed many facilities 
 and much experience : he has also labored under many difficulties, 
 while daily engaged as an agricultural editor of a great daily and 
 weekly paper. You will find here stored up for future use man}' 
 of the valuable little items that you have read approvingly in the 
 Tribune, and many from other sources, useful to every farmer's 
 family, and worthy of preservation. 
 
 Usefulness instead of elegance has been aimed at. I have given 
 more facts than theories. I have often given the opinions of several 
 upon the same subject, and, as some of these vary, I leave the 
 reader to adjust differences. 
 
 In trying to avoid diffuseness, I have left much for inference, and 
 purposely treated subjects in such a manner as to induce readers to 
 make further research. A word of explanation. At the end of 
 the volume you will find a list of agricultural papers, which the 
 author had read for years previous to the commencement of this 
 compilation. Also a list of individuals, some of whoni' are eminent 
 authority in agricultural knowledge. From all these he has drawn 
 matter, sometimes with, and sometimes without, credit to individ- 
 uals, when facts have been condensed from their articles. Con- 
 ciseness has been a study ; else, how could twelve hundred subjects 
 be crowded into a thousand pages'^ Those whose articles I have 
 used, must not complain that I have pruned too closel}'', or failed to 
 give credit in all cases where credit is due. I freely acknowledge 
 my obligations to all. 
 
 This book is one that may be opened at any page, profitably, 
 to occupy five minutes' leisure. It is printed in such large, clear 
 type that it can be easily read. The author and publisher hope that 
 it will be. Then it is illustrated as no agricultural book published 
 in America ever has been. Look at the many large, handsome, 
 
PREFACE. 
 
 steel engravings I These alone are worth the cost of the whole 
 volume. 
 
 Farmers ! you are earnestly invited to read, if nothing more, the 
 titles and contents of chapters, and their subdivisions of. sections. 
 If you do that, and find nothing that promises instruction, lay the 
 volume aside. If so far it is promising, turn over its pages, glanc- 
 ing at the black-lettei- titles of paragraphs. Of one thing be as- 
 sured ; lengthy as the volume appears, it is not made so by extreme 
 dilution ; the last chapter is better than any that precedes it. 
 Throughout, no subject is lengthily treated ; no subject is treated 
 that does not contain something useful to some one ; something that 
 you can not always remember, but which you should always have ' 
 at hand, convenient for frequent consultation. 
 
 To those who know the name of the author — -and the number is 
 large — I hope this book will be a welcome bequest. I hope it 
 will be the means through which that name may live in love and 
 honor with your children and children's children around many an 
 American hearthstone. 
 
 Of the author's portrait, a word. It is the publisher, and not the 
 author, who inserts it. It represents him correctly, as he is at the 
 age of nearly sixty. 
 
 In conclusion, I earnestly hope these Facts will be an acceptable 
 offering to a very large number of those whose prosperity I would 
 promote, for I am one of the Brotherhood of American Farmers. 
 To them it is commended, with the love and respect of their old 
 friend, 
 
 SOLON ROBINSON. 
 
 New York, May 1, 1863. 
 
PLATE I. 
 
 (The Frontispiece.) 
 
 This is the genial face of a farmer, engaged in a work of love for 
 his calling. It is placed here in opposition to the wishes of the 
 author. He has been persuaded to allow his face to be seen»»by 
 those , who purchase this collection of things useful to a very 
 numerous class through the solicitation of the publisher, who 
 knows that it will be a satisfaction to them to see how their old 
 friend looks at the age of sixty. An old friend he will seem to 
 those who read his earnest appeals for agricultural improvement 
 twenty or thirty years ago. As a writer and lecturer upon agri- 
 culture, and extensive traveler to observe its condition in the United 
 States, few men are better known than the original of this portrait. 
 Therefore this likeness will be, the publisher believes, highly appre- 
 ciated as well by those who look upon a familiar face as those who 
 see it here for the first time. 
 
 The author was born a farmer, and will probably end his days 
 where ho now lives (a few miles out of the busy hum of the city), 
 in the peaceful quiet of his "home in the country," where this 
 volume of facts for farmers has been prepared as a last legacy of his 
 good-will to the brotherhood. 
 
 Like other farmers' sons of New England, he learned to follow 
 the plow there, thougli in early life he bec'ame a Western pioneer, and 
 while a prairie farmer, became widely known as a writer advocating 
 agricultural improvement, and more widely, in 1841, as the origin- 
 ator of the National Agricultural Society, and earnest advocate of 
 State and County societies. His connection with the New York 
 Tribune since 1850 will make this picture interesting to all its 
 readers. It is for these reasons that the pubhsher has incurred the 
 expense of its production. 
 

 
 
 
 
 CONTENT S. 
 
 PAOE 
 
 13 
 19 
 
 31 
 
 51 
 
 56 
 60 
 81 
 
 97 
 123 
 
 157 
 
 170 
 
 203 
 248 
 
 
 CHAPTER I. 
 
 DOMESTIC ANIMALS. 
 
 ■ 
 Section I.— INTEODUCTION TO FACTS ABOUT STOCK 
 
 Sec. II. SWINE 
 
 This section embraces facts about the best breeds, aud best mode of feeding, gross and 
 net weight, etc. 
 Sbc. m. — COWS : What is a good cow, and how to choose one ; food necessary ; health ; 
 
 . Sec. IV.— beeves : Record of the largest known, and their weights 
 
 Sec. v.— statistics OF THE NEW YORK CAITLE MARKET, and Improvements in 
 
 Sec. VI.— FEEDING CATTLE AND CARE OF FARM STOCK ; Selecting calves ; shelter ; 
 
 training ; kindness ; \alue of kinds of feed ; use of salt ; watering ; diseases of cattle. . . . 
 
 Sec. VII. — SHEEP HUSBANDRY ; Breeds of sheep ; care and management ; weight of hay 
 
 Sec. VIII— HORSES AND MULES : History of the horse ; varieties ; how to use ; proper 
 size ; color ; diseases ; treatment of colts ; how to shoe horses ; breeding horses and 
 
 Sec. IX. — POULTRY ; Full description of all kinds of poultry, and proper treatment 
 
 • 
 
 CHAPTER II. 
 
 SMALL ANIMALS AND INSECTS. 
 
 Sec. X. — BEES : Tlieir history, use, and value, management, and reasons for keeping 
 
 Sec. XI. — BIRDS : Reasons for preserving ; their food ; and laws for protecting 
 
 Sec. XII.— ENTOlIOLOGIC.iL : What are insects, and what kinds infest and injure various 
 
 crops, and how to detect friends from foes, and various remedies 
 
 Sec. XIII.— wild AND TAME ANIMALS OF THE FARM : Dogs, cats, rats, mice, moles, 
 
 CHAPTER III. 
 
 THE F A R M E K Y . 
 
 THB BUILDINGS, TARDS, WEft-S, CISTEEN8, AQUEDUCTS, AND STKUCTURES NECESSARY TC 
 CARRY ON THE BUSINESS OF THE FARM, BRIEFLY DESCRIBED. 
 
 Sec. XIV.— FARM-HOUSES : They should be convenient, roomy, light, ventilated ; their in- 
 
 
 
 
 
 
r- 
 
 
 
 
 viii CONTENTS. 
 
 
 
 PAGE 
 
 Sec. XV.— cellars, CHIMNEYS, AND ICE-HOUSES : How to build them, and their 
 
 
 
 
 
 
 Sec. XVI— THE BARN AND ITS APPURTENANCES : Location, size, and use of barns ; 
 
 
 
 stables, how to build ; stable yards and cheap sheds 299 
 
 
 
 Sec. XVII.— WATER FOR THE FARMERY: Cisterns, size, cost, and how to build ; aque- 
 
 
 
 ducts and wells, how to construct ; liydraulic rams 308 
 
 
 
 Sec. XVIII.— stacking AND STORING GRAIN ; CORN CRIBS, PIGGERIES, AND 
 
 
 
 PIG FEEDING ; SMOKE-HOUSE, AND CURING BACON ; FRUIT-DRYING HOUSE. 318 
 
 
 
 Sec. XIX.-ECONOMICAL FARM BUILDINGS : Balloon frames, concrete walls, and other 
 
 
 
 cheap styles of building ; how to make balloon frames, and their cost 325 
 
 
 
 Sec. XX.— ROOFS AND ROOFING : Paints and whitewash for farm buildings ; nails ; mor- 
 
 
 1 tar ; farm gates ; sawed shingles, their value, and how to preserve shingles 332 
 
 
 
 Sec. XXI.— LIGHTNING CONDUCTORS : Protection of farm buildings from fire ; windmills 
 
 
 
 and their use 342 
 
 
 
 CHAPTER IV. 
 
 
 
 DOMESTIC ECONOMY. 
 
 
 
 Sec. XXII.— the FOOD QUESTION : Quantity, quality, variety, adaptation, adulteration, 
 
 
 
 changes produced by cooking, water for cooking, and effect on health 3.51 
 
 
 
 Sec. XXIII —THE BREAD QUESTION : Varieties ; quality ; how to make bread and yeast, 
 
 
 
 
 
 Sec XXIV.— SUBSTITUTES FOR BREAD, in green corn, dried corn, pop-corn, hominy, and 
 
 
 cracked wheat, and how to cook them 389 
 
 
 
 Sec. XXV.-EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES: Economy of 
 
 
 
 lights ; use of tea, coffee, and sugar ; preserving fruits, pork, hams, and beef ; remedies 
 
 
 
 and disinfectants ; beds and bedding and carpets, etc 396 
 
 
 
 Sec XXVI.-D0ME3TIC WINES, CIDER, AND PRESERVES : Rules of wine-making 
 
 
 
 from various fruits, and cider and vinegar making 419 
 
 
 
 Sec. XXVII.— HYGIENIC : Preparation of food for the sick ; remedies for poisons, bites, 
 
 
 
 
 
 
 Sec XXVHI— THE DAIRY : Butter and cheese making ; how much milk for a pound of 
 
 
 
 
 
 
 CHAPTER V. 
 
 
 
 THE GARDEN AND ITS FRUITS. 
 
 
 
 Sec. XXIX.— PLEASURE AND PROFIT OF GARDENING : Origin and history of veg- 
 
 
 
 etables 461 
 
 
 Sec XXX.— garden: CULINARY VEGETABLES: Protection from insects; value of va- 
 
 
 rious things for food ; chiccory culture ; what should be gro^n in the garden ; number of 
 
 
 
 
 
 Sec XXXI.— THE FLOWER GARDEN : Varieties and cultivation of flowers ; suitable soil 
 
 
 and preparation ; lists of choice flowers ; flowers grown as a crop 500 
 
 
 
 
 

 
 
 
 CONTENTS. ix 
 
 
 
 PiOB 
 
 Sec. XXXII. — LAWNS : How to make and how to keep them ; trees and plants suitable for 
 
 
 
 
 
 Sec. XXXIII.— HOT-BEDS : Cold frames plant protectors ; liow to make and use hot-beds. 521 
 
 
 Sec. XXXIV.— small FRUITS OF THE GARDEN : Currants, varieties and cultivation ; 
 
 
 
 strawberries, variety and growth ; raspberries ; blackberries ; quinces 530 
 
 
 
 CHAPTER VI. 
 
 
 
 THE OECIIAKD. 
 
 
 
 Sec. XXXV.— propagation, PLANTING, AND CULTIVATION OF TREES : Tmie to 
 
 
 
 tran.splant ; preparation ; protection ; kibcls for trees 555 
 
 
 
 Sec. XXXVL— the ART OF PRUNING, GRAFTING, AND BUDDING : How and when 
 
 
 
 
 
 Sec. XXXVIL— APPLE AND PEACH TREES: Tlieir general management; select list of 
 
 
 apples, and descriptions ; pcivch- trees, how to grow ; how to treat an old orchard 579 
 
 
 
 Sec. XXXVin.— CHERRIES : Best varieties ; soil, situation, and cultivation ; history, use, 
 
 
 
 
 
 
 Sec. XXXIX. — PEARS : Soil, situation, cultivation, and varieties; select list of sorts; when 
 
 
 
 to gather and how to ripen ; is the cultivation profitable GOI 
 
 
 
 Sec XL.— plums, NECTARINES, APRICOTS, MULBERRIES, AND OTHER FRUIT ; 
 
 
 
 How to transplant fruit ; choice selection of plums G12 
 
 
 
 Sec. XLI.— MISCELLANEOUS MATTERS ABOUT FRUIT CULTURE : Cranberries as a 
 
 
 
 crop ; how to grow them ; best varieties ; cider-making 021 
 
 
 
 CHAPTER YH. 
 
 1 
 
 
 THE VINEYARD. 
 
 
 
 Sec XLH.— HOW TO PLANT AND CULTIVATE VINES : What sorts to plant ; historr of 
 
 
 
 varieties ; profits of culture ; grape-growing in California 600 
 
 
 
 Sec. XLIII.- CULTURE OK GRAPES FOR WINE: Rules for wine -making ; wine from 
 
 
 
 various kinds of grapes ; rules of a French wine-maker ; rules of American wine-makers 657 
 
 
 
 CHAPTER Vni. 
 
 
 
 C E R E A L I A . 
 
 
 
 Sec. XLIV.— wheat, RYE, OATS, BARLEY, MILLET, BUCKWHEAT: Preparation of 
 
 
 
 soil and fertilization ; quantity of seed ; harvesting, stacking, and storing ; thrashing and 
 
 
 
 cleaning ; profits of wheat culture ; oats, how and when to sow ; cultivation of barlev ; 
 
 
 
 buckwheat ; millet 667 
 
 
 Sec. XLV.— INDIAN CORN : Its history ; product ; profit as a crop ; when to plant, and 
 
 1 liow to cultivate ; great yieldrper acre, North and South ; how to Btorc com, and how to 
 
 
 
 measure in bulk ; seed com, and varieties ; broom corn 709 
 
 
 
 
 
 
 
CONTENTS. 
 
 CHAPTER IX. 
 
 THE GRASSES, T II E I E CULTIVATION AND USE. 
 
 PAGB 
 
 Seo. XL VI.— mowing and PASTURE LANDS : Seeding laud ; varieties of grass ; what 
 is grass ; wliat kinds are recommended for cultivation ; clover, its cultivation ; harvest- 
 ing seed 748 
 
 Sec. XLVII.— HAYING AND HAYING MACHINES : Hay caps ; stacking ; how much hay 
 land should produce, and how much it is necessary to provide ; how to measure hay in 
 hulk 772 
 
 CHAPTER X. 
 
 ROOT CROPS AND SUGAR CROPS. 
 
 Sec. XLVIII.— potatoes, TURNIPS, BEETS, CARROTS, PARSNEPS, ONIONS : How to 
 plant and cultivate, and how much they should produce ; history of the potato ; charac- 
 ter of varieties ; importance of the crop ; what seed should he used, and how planted ; 
 substitutes for the potato ; sweet potato culture ; turnip culture ; carrots as a crop, and 
 sowing and cultivation ; onions as a crop, how grown, and profits 785 
 
 Sec. XLIX.— CHINESE SUGAR-CANE, AND SORGO-SUGAR MAKING : Preparation and 
 time of planting cano ; soil and situation ; harvesting ; manufacturing, and yield and 
 profits as a crop 822 
 
 Sec L.— MAPLE-SUGAR MAKING : Tapping trees ; spouts, buckets, and boilers ; process of 
 manufacture ; cost, yield, and profit of maple-sugar 835 
 
 CHAPTER XL 
 
 FORESTS AND FENCES. 
 
 Skc. LI.— THEES AND TREE PLANTING ; WOOD OR COAL FOR FUEL : What trees to 
 plant, and how and where ; descriptive list of trees ; value of various trees ; how to make 
 timber durable ; how to season fuel 845 
 
 Sec LIl. — FENCES : Their cost ; kinds most economical ; laws regulating ; how to make 
 hedges, stone walls, wire fence, and farm gates ; how to kyanize fence posts ; waste of land 
 around fences ; portable fence, its use 8G1 
 
 CHAPTER XH. 
 
 FERTILIZATION. 
 
 Sec. LIII.— THE ART, USE, AND ECONOMY OF MAKING, SAVING, AND APPLYING 
 MANURES AND FERTILIZING FARM CROPS : Color, fineness, and moisture of ma- 
 nure affects its value ; nitrates, muriates, sulphates, lime, plaster, and bones, how to 
 ''PP'y ; guano, its history and use ; muck, its value ; sea-weed and other matters ; value 
 of salt ; special manures for various crops ; soiling to save manure ; manuring with 
 clover ; water, its value as a fertilizer 
 
CONTENTS. 
 
 CHAPTER XIII. 
 
 IRRIGATION. DRAINING. PLOWING. FARMING TOOLS. 
 
 PAQE 
 
 Sec. LIV.— irrigation AND TILE DRAINING : Value of irrigation ; its practice in Italy 
 and otber countries ; what lands are most benefited ; tile draining, its importance, cost, 
 practice, and profit ; how and what land should he drained ; the mole-draining plow. . . . 904 
 
 Sec. LV.— plows AND I'LOWING : History of cast-iron plows ; subsoil plows, and their 
 u.se and value ; steel plows and steam plows ; other farming tools ; labor saved by using 
 farm machinery 917 
 
 CHAPTER XIV. 
 
 SOUTnEKN STAPLE CROPS COTTON, CANE, RICE, TOBACCO. 
 
 Sec. LVI.— HISTORY, GROWTH, AND MANUFACTURE OF COTTON : History of the 
 cotton gin ; upland cotton ; sea island cotton ; how cotton is grown, picked, and pre- 
 pared for market ; profit of the culture ; flax cotton 928 
 
 Sec. LVn.— sugar CANE CULTIVATION : Statistics of its culture in Louisiana ; yield of 
 
 sugar per acre ; cost of making, and how it is made 943 
 
 Sec. LVIII.— rice : Its cultivation, production, and preparation for market ; yield per acre ; 
 
 value and profit ; statistics of rice plantations ; upland rice 948 
 
 Sec. LIX. — TOBACCO : Its history, cultivation, production, and profits ; exports and con- 
 sumption of tobacco ; effect of cultivation upon the soil ; its culture in New York and 
 Connecticut ; rules for cultivation, curing, and packing 953 
 
 Sec. LX.— CULTIVATION OF HEMP, FLAX, AND OTHER FIBROUS PLANTS : Hemp ; 
 soil and climate ; how it is sown, harvested, and yield per acre ; cost and profit ; effect 
 upon the soil ; flax cultivation ; how to prepare the soil, sow the seed, and quantity per 
 acre 965 
 
 CHAPTER XV. 
 
 GLEANINGS OF THE FIELD. 
 
 . LXI.— JIISCELLANEOUS TTEMS OF USEFUL KNOWLEDGE TO FARMERS : This 
 last chapter embraces many things not classed under other titles, such as temperature for 
 seeds to germinate and grow ; nutriment in food substances ; weights and measure of 
 grain ; measuring land ; proverbs and maxims for young and old farmers, farmers' wives 
 and children ; maxims of health ; things to be thought about ; how to dress skins, fix 
 pumps, mend pipes, and prognosticate the weather ; farmers' clubs ; farm laborers ; farm 
 accounts ; farm economy, and njiis 971-1 01 
 
INDEX TO ILLUSTRATIONS. 
 
 Plate I. — Likeness of the Author Fkontispiece. 
 
 Plate II. — Frontispiece of Chap. I. , illustratrating the subject of Domestic Animals Page 13 
 
 Plate III. — Frontispiece of Sec. III. This Plate is intended to answer the question, " What 
 
 is a good Cow ?" It also exhibits different breeds of Cattle 31 
 
 .Plate IV. — Different Breeds of Cattle — Durham, Devon, Hereford, Ayrshire, Dutch, and Al- 
 
 demey Bulls and Cows 44 
 
 J Plate V. — The Milk Slirror, showing how to select a good Cow, and form of Teeth at dif- 
 ferent Ages 48 
 
 Plate VI. — Breeds of Sheep and Swine 81 and 19 
 
 PL.tTE VII. — Frontispiece of Sec. VIII. — Portraits of celebrated Horses, and Illustrations of 
 
 different Breeds 1)7 
 
 , Plates VIII. and IX. — Illustrations of the Teeth of Horses at all Ages, showing how to 
 
 judge the Age from One to Eighteen Years IOC 
 
 ) Plate X. — Frontispiece to Poultry, Sec. IX 1 23 
 
 Plate XI. — Turkeys, Ducks, Geese, Swans, and Pea Fowls 140 
 
 Plate XII. Tlie Bec-Keeper at his Work 157 
 
 J Plate XIII. — The Farmery of Farmer Snug and Farmer Slack — Frontispiece of Chap. III. . 27-5 
 
 Plate XIV — Frontispiece of the Garden and its Fruits, Chap. V 401 
 
 Plate XV. — Frontispiece to the Flower Garden, Sec XXXI 500 
 
 Pl.\te XVI. — Frontispiece to the Orchard, Chap VI. — A Dessert lit for a Farmer — A Rural 
 
 Scene and rich collection of Fruit 555 
 
 .Pl.vte XVII. — Frontispiece to Chap. VIII. — Cerealia, representing Insects injurious to Wheat ; 
 
 also Grapevine Pests GC7 
 
 Plate XVIII. — Frontispiece to Sec. XLV. — Illustrations of Insects which arc injurious to 
 
 Farmers, and others which are beneficial 709 
 
 Plate XIX. — Frontispiece to Chap. IX. — The Grasses 748 
 
 Plate XX. — Frontispiece to Chap. XIV. — The Cotton Plant and Cotton Field - Gathering 
 
 the Crop 928 
 
 1 Plate XXI. — Insects injurious to Cotton and Corn 942 
 
 Plate XXII. — Frontispiece of Sec. LIX. — Tobacco in all stages of Growth and Curing for 
 
 Market 953 
 
PLATE 11. 
 
 (Page 13.) 
 
 Every American farmer will look upon this picture with pride. 
 It is a fitting illustration of a chapter upon Domestic Animals. It 
 contains representatives of a well-stocked farm, assembled in the 
 farm-yard on the south side of one of the farmery buildings in one 
 of the sunny days of spring, which are so weU calculated to make 
 such a collection of well-fed animals feel, as these look, full of 
 gladness. There is no danger that such hogs as these will destroy 
 young lambs and j^oultry. Here we see the sheep and lambs, goats 
 and kids — goats that yield valuable fleeces, which are described in 
 this chapter — the work-horses and brood-mare and colt — the mules 
 and their progenitor, who is in an attitude of war witli a well-fed 
 lieifer that is absorbed in admiration of the peacocks on the roof 
 of the poultry-house. How surlily the bull looks upon the white- 
 faced cow, which is deeply interested in contemplating the two hens 
 that the cock has just called to enjoy a few grains of corn ! By the 
 earnest looking of one cow and two horses, we judge that they see 
 their good friend and master approaching. Geese, ducks, turkeys, 
 rabbits, and pigeons, and a boat on the water, enUven the scene, 
 which, altogether, is one of tranquil beauty. It is a scene to con- 
 template and admire. It teaches a lesson. It will stimulate many 
 a young man to a determination to become the owner of such a one, 
 or something equally worthy of the artist who desires to represent 
 American farm life. It will stimulate all, we hope, who look upon 
 this pictorial index of this chapter to read it carefully. 
 

 
 
 ~. '^^M 
 
 
 W^ ll 
 
 '# 
 
 ^^^KlM 
 
FACTS FOR FARMERS. 
 
 CHAPTER I. 
 
 DOMESTIC ANIMALS. 
 
 SECTION. I-INTRODUCTION TO FACTS ABOUT STOCK. 
 
 HE very foundation of all farm improvement is the 
 
 domestic animals which consume the coarse products 
 
 of the farm, such as are not fit for human food, or 
 
 grown iu greater abundance than is needed for 
 
 that purpose, which, being so fed, are converted 
 
 into milk, butter, cheese, beef, pork, mutton, wool, 
 
 leather, and the many other valuable animal products. 
 
 But above all are animals valuable to the farmer, because 
 
 they convert the coarse products of the farm into manure, 
 
 without M'hich the owner can not produce food for his own 
 
 sustenance. 
 
 Viewing, then, as I do, successful farming as based upon 
 stock, it seems to me very fitting that I should make the 
 treatise of it the leading chapter of the volume. And as swine are more 
 universally kept by all classes of Americans, and tlie flesh more universally 
 used every week in the year, it will be very proper to make this branch 
 of farm-stock the leading subject. 
 
 I am not going to give learned dissertations upon stock-breeding, nor, in 
 fact, long essays upon this or any other subject, but such little fugitive focts 
 as come to hand, in short paragraphs, consecutively numbered for reference, 
 with black-letter titles lo each subject, to attract attention, and so arrantred 
 that facts may be gathered at a glance, and valuable information obtained 
 during leisure moments which miglit otherwise be lost. 
 
 Many of the statements given are not only for the purpose of giving 
 interesting information — such, for instance, as the weights of the largest 
 animals ever slauglitered — but as an incentive to others to try lo produce 
 tlie like. It is not to be expected that a man who never saw a bullock of 
 over 12 cwt. should attempt to make one of 36 cwt. ; nor will he be likely 
 to make the attempt before he learns the important fact, that the particular 
 breed which he has kept all his life never attain that weight. 
 
 It is for the purpose of inciting improvement that I give some statistics 
 
14: DOMESTIC ANIMALS. [Chap. I. 
 
 of the New York livestock market, which I have been familiar with for 
 many years. Farmers should know that there is a certain market for all 
 the meat-giving animals they can produce, and what they realize, as well as 
 what varieties sell best. 
 
 I have purposely adopted a desnltory method, because I think it will be 
 more satisfactory to my readers, whom I do not expect to read the work in 
 consecutive order, and because I find it more convenient to pick iip the 
 fugitive facts and jot them down in a sort of mosaic-work, something as 
 nature does its autumn tints, which are now glowing before my window in 
 the full effulgence of an October sun. 
 
 And here, too, as I look abroad upon my neighbors' fields, and at their 
 cattle gnawing the short pasture, and running after every chance apple 
 dropping from the trees, and then stretciiing up their necks, looking for 
 more, and browsing off the lower limbs of the trees, I am forcibly reminded 
 that this is not a profitable method of keeping farm-stock. Day by day the 
 milch cows fail to give the supply that good pasture will always give in this 
 good butter-making month of October ; and day by day the flesh of all the 
 animals is wasting, so that, by-and-by, when the cold and storms of November 
 force their owner to bring them into winter quarters, they are not in such 
 a condition that he may carry them economically through. There is a great 
 error in farming, that the scene before me forcibly reminds me of — it is the 
 error of keeping any kind of farm-stock upon short pasture, and most 
 particularly in autumn, so that they come to winter quarters falling off in 
 flesh, rather than gaining, which is the condition that all animals should be 
 in when brought from the pasture to the stable or feeding lot. 
 
 Some of the farmers of the Eastern States of the kind just alluded to, 
 who keep their stock upon the shortest possible pasture, and consequently 
 generally have scrubby animals, and always meet with great difficulty in 
 wintering those, would learn a useful lesson if they would A'isit the blue- 
 grass pastures of Kentucky, and see in what luxuriant feed the sleek 
 Durhams of that region are kept. They would there learn one of the 
 secrets of value of that breed, and why they attain at three years old a size 
 and weight of beef never equaled at six years old by the scrub breed 
 common in Virginia and in the hilly regions of Ohio and Indiana, which are 
 sometimes designated in the New York market as "pony cattle," or "old 
 style," and averaging, when fat, about six hundred pounds in the beef. A 
 similar scrub breed is known in Kentucky as "mountain cattle," and the same 
 style is very common in North Carolina, Georgia, and other Southern States, 
 where I have often seen full grown steers, and fat, killed for beef at four 
 years old, that M'ould not average four hundred pounds of beef. These 
 cattle were treated, too, all their lives, just like too many of the same class 
 in all the New England and Middle States — like those now before me, eking 
 out their existence upon the scanty herbage of autumn, in a closely-cropped 
 summer pasture, and never fed with forage prepared for winter, until the 
 owner is driven to it by an early winter storm. 
 
Sec. 1.] CATTLE ON A MISSISSIPPI STEAMBOAT. 15 
 
 Such is not the i-ight way to keep stock ; but so long as men M^ill keep it 
 thus, it is not of much advantage to try to improve the breed. 
 
 There is a great want of information, not only upon the subject of 
 improvements in tlie kinds of stock, but in the modes of keeping it. It is 
 not my intention, in this chapter upon domestic animals, to attempt to give 
 all this information, but only a few brief hints, which may lead to reflection 
 and improvement. 
 
 Above all things that will tend to improvement, are annual visits to great 
 cattle-shows, where the varieties in the breeds of cattle may be studied, and 
 judged as to which would be the most profitable, or whether either would 
 be more so than the old-style breed at home. 
 
 It would be of great importance, too, to all farmers to travel more. How 
 strange it would seem, at first sight, to a Yankee farmer, who had occupied 
 a forty-acre farm all his life, to see a thousand hogs, and half as many 
 bullocks, all turned into a grand-prairie corn-field, of a size large enough to 
 cover his entire farm and that of twenty or thirty of his neighbors ! His 
 first exclamation would probably be, " Oh, what a waste !" His subsequent 
 opinion would be about like tliis: " Well, after all, I begin to believe that 
 is not so bad a way of harvesting corn as I thought it was." 
 
 And tliis is not the only curious thing that he might see in relation to 
 farm-stock in traveling tiirough the West. He would see the same bad 
 management as at home, about bringing the stock into winter quarters, for 
 they are too often allowed to run in a corn-field, after the grain has all been 
 harvested, living upon the dry stalks until after the first snows of winter. 
 He might also see some very amusing, as well as instructive things, in 
 connection with cattle. 
 
 Shipping cattle on a Mississippi stcamhoaf, as I once witnessed, afforded 
 infinite amusement; and I am disposed to give a j^hotograph of it, before I 
 take up the more practical details of fiirra-stock. 
 
 Engagements for boats to stop and take cattle on board at various 
 landings are frequently made before leaving port, and it often happens that 
 the boat reaches these points in the night; and then a scene occurs which 
 might employ a more graphic pen than mine to describe, or which would 
 have been a fit subject for Hogarth to paint. 
 
 I will try to give my readers some idea of such a scene, although one so 
 common on the Mississippi it rarely meets a passing notice ; yet it is full 
 of interest. 
 
 Tlie steamer left St. Louis about sundown of a dark day, during the latter 
 part of which tlie rain came down in torrents, corresponding to the size of 
 the great river they were destined to fill. Of course mud was a component 
 part of all tlie little tributary streams; but it did not discolor the great 
 river — that is always muddy. 
 
 At ten o'clock we saw a light on the right bank, and run in for it. 
 Though the rain had ceased, the night was dark — one which gave the pilot 
 but little chance to see any but the most prominent landmarks. 
 
16 DOMESTIC ANIMALS. [Chap. I. 
 
 "Whose place is tliis?" sung out the captain, wlien he had approached as 
 near the light as he thought safe — for in time of "a fresh," the master of a 
 boat always approaches shore with great care. 
 
 " Why, dis is my massa's place ; what boat dat ? If you is de Heni-y 
 Clay, den dis nigger mighty glad, 'cause, gorra, cap'en, liab been watching 
 all dis two free nights for de old Clay." 
 
 " Have you got your cattle there ?" 
 
 "All in de lot— gorra bress you, den you is de Henry Clay, sure — right 
 here by de light." 
 
 " Is the water good in shore ?" 
 
 " Why, spec him is good for the steamboat, but not very good to drink." 
 
 " How deep is it near the bank ?" 
 
 " Oh, Lord, massa, dat mor'n dis nigger knows for sartin, 'cause him 
 mighty deep." 
 
 "That will do. Forward there. Get your lines ready. Light them- 
 torches — let's see where we are. Call all hands ; here is a hundred head of 
 cattle to be got aboard." 
 
 In a few minutes the lights flashed a bright glare over the boat and 
 shore, bringing to view a scene worth a long journey to behold. The 
 torches are composed of "liglit wood," which is the concentrated pitch of 
 old pine trees, of the long-leaf variety — the richest of all the family in 
 tui-pentine. This wood is split in small pieces and put in an iron frame, 
 with a staft' not unlike the common hod used to carry mortar, so it can be 
 carried about or stuck in the ground, where by a little replenishing it will 
 burn for hours, giving a light unequaled by any other portable contrivance 
 I ever saw. In the present case, it disclosed more mud than anything else. 
 The whole bank was alluvial clay loam. The face was steep, and sixty or 
 eighty feet Jiigh. The boat, made fast to stakes driven into the soft earih, 
 lay wuthin twenty feet of the shore, between which and the guards was a 
 gangway made of long planks lashed together, about six or eight feet wide, 
 without side-railing, or anything to prevent springing down in the center. 
 The cattle were in a yard on the top of the bank, where, around the watch- 
 fire, huddled about a d(«en sleepy negroes, amongst Avhich the anxious 
 face of niassa soon made its appearance, having been awakened at his house, 
 two miles distant, by the tremendous noise which is made by one of these 
 river steamers, by the puffs of her high-pressure engine. 
 
 " Halloo, Captain Smith, is that you ? I might have known it, though, for 
 no other fool would come here in the night for such a job as this. What 
 are you going to do — hold on till morning?" 
 
 "Hold the !" 
 
 "Well, I might just as well as hold you. I do believe, if the Clay's 
 engine should break going up stream, the boat would not stop — there is 
 steam enough in the captain to keep her going." 
 
 Evidently pleased M-ith this compliment, he jumped ashore, with that 
 most encouraging of all words, " Come, boys," and floundered up the muddy 
 
Seo. 1.] HANDLING A 'WILD STEER. 17 
 
 road, to greet his planter friend with one of those hearty shakes of the hand 
 which alone is equal to a whole volume on the man's character. 
 
 " Well, captain, you see how it is. I am all ready ; the cattle are here, 
 wet, wild, and muddy, and the bank awful. I couldn't help it. It would 
 rain, and the river is on the fall. I doubt whether your men can stand on 
 the slippery bank. My boys will take down some of the gentle ones, but 
 Lord help you with two or three ; we had to bring them in with the dogs." 
 
 '' So much the better, then, that the road is wet — the}- will slide the easier. 
 Kopes and men will bring them down ; don't you fret, colonel." 
 
 " Well, well, I'll leave it to you ; I'll risk the cattle, if you will your necks. 
 Better wait for daylight, though — what say?" 
 
 " Never ! what should I do with that surplus steam you say I carry ? Wait 
 — no ; I intend to have them all aboard, and win half of them playing poker 
 with you before morning; and at daylight 1 am going to take in Tom 
 Kilgore's, at Rocky Landing. So bear a hand, boys. Stir up your lights, 
 and rouse 'em out, one at a time, and often." 
 
 In a few minutes tliere was a line of men and bullocks from the top of the 
 bank to the boat. The first dozen or two came down very orderly to the 
 end of the gangway, where, if they hesitated, a rope was tlirown over so as 
 to encircle them behind, and two or three stout fellows at each end gave 
 them material aid about coming on board. The owner said we should see 
 fim directly, but not caring to participate in it personally, he took care to 
 make himself one of the spectators, in a safe, comfortable position on board 
 the boat. Upward of half were brought down without giving us a taste of 
 the promised amusement, though the whole scene was exceedingly interesting. 
 
 At length they got hold of one of the animals, wliich the colonel said was 
 wilder than forty deer, and vicious as an old buck in running time ; and then 
 there w-as fun. He was a great, long-legged, five-year-old steer, of the mouse 
 color, long taper-horned Spanish cattle, who had never before felt the weight 
 and strength of a man's hand upon his heretofore unrestrained wild-woods 
 liberty. Round and round the yard he went, carrying or dragging through 
 the mud as many negroes, sailors, and firemen as could find horn, ear, nose, 
 or tail to hold to. Finally they got a rope round his horns and drew him up to 
 a stake at the edge of the bank, to wait till others were caught to lead down 
 first, thinking that he would better follow than take the front rank. He did 
 follow. When about a dozen or fifteen head were on the way down, the 
 wild one was cast oft" from his moorings and led up to the edge of the bank, 
 wlien just at that moment the engineer blowed off" steam, at which tlie 
 frightened animal leaped forward on to the slippery path, lost his foothold, 
 and down he went against the next, and the next, and so on ; like a row of 
 bricks, one tumbled or slid against another, upsetting men and beast, till the 
 whole came down like an avalanche upon the end of the platform with such 
 force that the strain upon the mooring line of the bow drew out the stake, 
 when the strong current almost instantly swung her off shore so far, before 
 the men could get hold of the line and make fast again, that the platform 
 
18 DOMESTIC ANIMALS. [Chap. I. 
 
 dropped off into the water, and -with it eight or ten men and steers, among 
 wliich was the one that caused all the inischief. I must say the fun was not 
 so great as the friglit, for a minute, as it did not take much longer to finish 
 off the greatest feat of " sliding down hill" which I have witnessed since 
 the halcyon days of hand-sleds and boyhood upon the snow-clad, wintry hills 
 of my native land. That all were got out safe was owing to the instant 
 thought and action of the mate, who sprang ashore with a pole which he 
 placed in the wheel, so as to prevent the cattle from floating down past the 
 stern, where it would have been impossible for them to got np the soft, 
 slipjjery bank. As it was, some of them were in the water over an hour ; 
 the catamount, as the colonel called him, being purposely left until the last, 
 and severely threatened with being towed to New Orleans. But when he 
 was at length taken out, there was not a more docile animal in the herd ; he 
 had been completely subdued. The whole affair, though fraught with danger 
 at first, afforded all hands a scene of most uproarious mirth. Even at tlie 
 time when it looked as though half a score of men might be killed in the 
 grand tumble, it was almost impossible to avoid laughing, the whole thing 
 was so extremely ludicrous. 
 
 One big negro fellow, finding himself hard pressed by the bullock he was 
 leading and half a dozen more behind him, either for sport or to save his 
 shins, jumped uj^on the animal's back and came down with a surge into the 
 water ; but he never let go till he had him safe ashore again, where he met 
 some of the most hearty, though rude congratulations of his companions, for 
 his skillful feat of horsemanship on an ox. 
 
 Finally, in spite of mud and peril, the grand entertainment of shipping 
 cattle on the Mississippi was concluded, and the boat was off before dayliglit 
 for the next landing, where the operation was to be repeated. Owing to 
 better ground and a diftcrent plan adopted, this was not quite so entertaining. 
 The cattle were yarded in a loig, narrow pen, which came near the shore. 
 A rope being passed over the horns of the forward steer, with the other end 
 through a snatch-block on the boat, a dozen or fifteen men would lay hold 
 of it, while two men by the tail to steer, and one on each side to keep him 
 on the gangwa}', would have the fellow out of the pen and sliding ujj tlie 
 planks before he knew what he was bellowing for. 
 
 As in all cases where science and skill direct human efibrts, the labor 
 was lessened and business expedited. 
 
 And so in all cases where science and skill are exercised in regard to all 
 kinds of domestic animals, success may be looked for. 
 
 And now, after this little incidental digression from the main intent of 
 this chapter, in the exhibition of a life-like scene on the Mississippi, we will 
 begin to arrange our facts in order and shape for useful reference, always 
 aiming more at the practical than ornamental. 
 
 As we shall an-ange each subject undei- its separate and proper head, we 
 will begin the chapter \ipon domestic animals with that kind in most universal 
 use. 
 
Sec. 2.] 
 
 SWINE. 
 
 19 
 
 SECTION II.-SWINE. 
 
 ceding Pigs and Fatting Pork.— Next to procuring 
 a good breed of swine — that is, a breed suitable 
 to the purposes for which it is required — the 
 best way to feed the stock Iiogs, and the cheapest and 
 best way to fatten them, is the most important matter 
 for a farmer to consider. No man can say, " My breed 
 is the best of all," unless he specifies for what purpose it 
 is best for. A good grazing breed would be best for 
 some situations ; quite the contrary for some others. The 
 Berkshire, Essex, and Suffolk have each been denomi- 
 nated " the gentleman's pig," because well fitted for 
 keeping up in close pens, one or two to a family ; while a 
 much larger breed is required by the great corn-growers 
 of the West. And this brings us to the next most 
 important question. 
 3. Corn and Pork— How much Pork will a Bushel of forn make? — ^Tliis 
 is one of the most important questions that can be asked by every man 
 who raises a bushel of corn or feeds one to a hog. Yet it is a question that 
 not one in ten can answer. To see the ignorance of mankind upon subjects 
 of most importance to them, makes us ready to exclaim. Does anybody know 
 anything about anything? In conversation with many farmers, we have 
 not yet found a man who could say how much corn it required to make a 
 hundred pounds of pork, and consequently could not fix upon any relative 
 price of one or the other, at which it would be profitable to feed corn to 
 hogs. In some experiments made by Henry L. Ellsworth, at Lafayette, Ind., 
 in warm weather, with thrifty young porkers in a pen, fed with corn in the 
 ear, if we remember aright, he gained 12 lbs. of pork per bushel of corn. 
 Samuel II. Clay, of Kentucky, gained 17 jibs, per bushel, feeding the corn 
 in the form of cooked meal. As a general thing, we should like to know 
 if corn, fed as it usually is in the "West, averages six pounds of pork to the 
 bushel of shelled corn. 
 
 We have received several answers to this question, but they only proxr- 
 mately settle the point. Leroy Buckingham, of Cadiz, Cattaraugus Co. 
 N. Y., says, a pig that weighed 52 lbs. when connnenced with, fed on tho 
 spare milk from one cow and 800 lbs. of raw corn-meal, weighed 36i lbs. (live 
 or dead not stated) when killed at seven and a half months old. He thinks 
 each bushel of corn made about 20 lbs. of pork. 
 
 The two following letters we print entire, and commend them to the careful 
 attention of all formers, although they do not contain all that is necessary to 
 be known upon the subject : 
 
20 DOMESTIC ANIMALS. [Chap. I. 
 
 " Glenn's Falls, N. Y., Oct. 23, 1858. 
 
 "Sir: You think it important that farmers sliould hioio how much pork a 
 barrel of corn will make. It is an important question, and I am sorry to say 
 I think there are ten lawyers and mechanics to one farmer that can answer 
 the question correctly. I once made a very accurate experiment in New 
 York ; the first day of September I weighed into the pen two hogs, a year 
 and a half old, and three pigs, six months old. I measured old corn 
 accurately, and had it ground. At night I wet with boiling water (to a 
 consistency tliat would run freely) meal sufficient for the next day's feed. 
 The hogs had no slops from the house — nothing but the meal and water. I 
 killed them the first of December, deducted five cents per pound for what 
 they weighed the first of September, and found, at six cents per pound for 
 the pork, they had paid ninety-eight cents per bushel for the corn, which 
 would give about sixteen and one third jjounds of pork to the bushel. One 
 year since I fatted fifteen old hogs and thirty-five pigs on India wheat and 
 potatoes. I measured the feed accurately, steamed the potatoes, and mixed 
 the meal in while hot, twelve hours before feeding. At five cents per pound 
 for the pork, they paid forty-two cents per bushel for the India wheat, and 
 fifteen cents for the potatoes. Of course the relative value of the wheat and 
 potatoes is guessed at in that experiment. I "worked" the hogs in the 
 manure business, carting in muck, weeds, etc. I got 15 cords of manure 
 although less pork— -I suppose for the working the hogs. I would like much 
 to know if any one (especially in the Western States) has made the expei'i- 
 ment of turning liogs into the corn-field, with free access to water, and let 
 them help themselves. 
 
 " If any other class of business men knew as few facts in i-egard to their 
 business as farmers do, they would all fail every year. New Maksh." 
 
 A. G. Perry, of Newark (State not named), weighed a thrifty pig, five 
 months old, 150 lbs., and then fed it 56 lbs. corn- meal, mixed with hot water, 
 thin enough to answer for victuals and drink. Tliis was eaten in six and 
 a half days, and the gain was 18 lbs. 
 
 A correspondent writes from North Chatham, Columbia Co., N. Y. : 
 " The 24th of August I put up a sow to fatten — a large proportion Suffolk 
 — her weight, 235 lbs. Price on foot, 4 cents per pound. For food from 
 August 24th to October 4th, gave her 309 lbs. rye bran. Eye bran is worth 
 here $1 12^ per 100 lbs. October 4th her weight was 295 lbs., making 60 
 lbs. increase from the bran. From October 4th until November 17th I fed 
 her 10 bushels, by weight 560 lbs., of marketable corn. Killed her Nov. 
 17th. Her live weiglit, just before killing, was 413 lbs. Increase from the 
 10 bushels corn (or 56U lbs.), being 118 lbs. pork — it taking a fraction more 
 than 4i lbs. corn for 1 lb. pork — and is a fraction less tlian 12 lbs. pork from 
 1 bushel of corn, making tlie increase per day a little less than 2| lbs. Tiie 
 present price of corn here is 70 cents per bushel, and tlie pork 7 cents 
 per pound, being barely a paying business." 
 
Sec. 2.] SWINE— PROFIT OF FEEDING. 21 
 
 J. J. Carter, of Ilornville, Chester Co., Pa., sajs that B. P. Kirk kept a 
 debt and credit account witli his pig. He fed 49^^ bushels of corn, at CO 
 cents a bushel, and added the first cost of the pig, at two months old, $5, 
 making a total of $34 46. At 17 months old the animal weighed 649 lbs., 
 and sold for 7^ cents a pound, making $48 67, giving a profit of $14 21. A 
 little bran was fed, but that was reduced to the equivalent of corn, and 
 counted as above. The breed of hogs common in Chester County is one of 
 the best in the world. The hogs are of a white color, medium-sized, easily 
 fatted to weigh 300 to 400 lbs. at 10 to 15 months old, and have small 
 bones, fine-grained flesh, large hams, well marbled, and large leaves of 
 kidney fat. It is a distinct American breed, and one of the best for farmers 
 who desire to graze their hogs in part, and then fiitten them easily upon 
 house-slops, apples, potatoes, and coarse grain. Even for large farmers, and 
 for making pork upon a large scale, there are not many, if any, breeds of 
 swine in this country superior to that known as Westchester, or Chester County 
 (Pa.) hogs. And as I consider it an important fact that farmers should 
 know where to get a real good breed without paying fancy prices, I am glad 
 of the opportunity to make this breed better known. 
 
 D. C. Nye, of Lexington, Mass., in reply to an inquirer in the Genesee 
 Farmer, writes that — 
 
 "The Chester County hogs are distinguished for their early maturity, 
 great facility for fattening, and are very quiet and docile. They are well 
 covered with bristles, and, unlike the Suffolks, can endure the heat and cold. 
 The Chesters will probably make as much pork (and of a superior quality) 
 on a given amount of food as any other breed — some of them, when well 
 fed, having attained the weight of six or seven hundred pounds." 
 
 Another correspondent of the same paper says, in addition, that the 
 thorougli-bred Chester liogs are always white, and that " they are peculiar in 
 being fit for slaughtering at any time." 
 
 But to proceed with the subject of feeding hogs. The second letter is 
 very much to the point. It says: 
 
 "In answer to your question, 'How much pork will a bushel of corn 
 make?' 1 send you the result of two experiments, made some years ago, 
 while occupying a farm in the northern part of Chester County, Pa. 
 
 " My first experiment was with five very ordinary pigs that I bought of a 
 neighbor; weighed, October, 1851, 249 lbs ; fed on corn and cob meal, boiled 
 into mush, of which they consumed in 30 days 279 lbs., and gained 87 lbs. 
 live weight. 
 
 " In the next 32 days they consumed 375i lbs., and gained 75 lbs. live 
 weight, making a gain of 157 lbs. in 62 days, having consumed 654| lbs. of 
 corn and cob meal, which is equal to about 9i bushels pure meal ; or one 
 bushel pure meal cooked made 16.8 lbs. live weight. 
 
 "My second experiment was with a lot of five very superior pigs, of the 
 Chester breed; they weighed, Feb. 7, 1853, 695 lbs; consumed in 9 days 
 
22 DOMESTIC ANIMALS. [Chap. I. 
 
 252 lbs. corn and cob meal, scalded, and gained 78 lbs. In the next 9 
 days tliej consuiiiedl25 lbs. whole corn, boiled, and 128 lbs. of corn-cob 
 meal, scalded, and gained 57 lbs. 
 
 "In the next 9 days they consumed 278 lbs. corn-cob meal, scalded, and 
 gained 70 lbs., making a gain in 27 days of 205 lbs. on a consumption 
 of 658 lbs. corn-cob meal, and 125 lbs. whole corn. Assuming that 70 lbs. 
 of the cob-meal contains 56 lbs., or one bushel pure meal, we have 9f 
 bushels -of pure meal and 2i bushels whole corn, making a consumption of 
 11 1 bushels nearly, and a gain of 205 lbs., flesh; or 56 lbs. of pure meal, 
 scalded, made 17.44 lbs. of live weight. 
 
 "The above surprising gain for food consumed was the result of very 
 careful feeding, clean and warm bedding, and a tight house. 
 
 " RicHAED Thatcuee, Darby, Pa." 
 
 Thomas Iloag, of Somhanock, N. Y., lias sent us a detailed statement of 
 the feeding of ten i^gs, out of a litter of twelve from a native-breed yearling ■ 
 sow, taken from her at seven weeks old, and fed till slaughtered, at forty 
 weeks old, with the following substances, with estimates of expense added : 
 
 212} bushels of com, at 75 cents S150 38 
 
 63 bushels of oats, at 45 cents 28 35 
 
 Paid for grinding H 79 
 
 13 bushels of small potatoes, 12J cents. 1 63 
 
 loads of pumpkins, at $1 6 00 
 
 209 lbs. of carrots 1 00 
 
 Pasture S3 00 
 
 Wood used in boiling food 2 00 
 
 Extras 2 00 
 
 Value of pigs at seven weeks old 30 00 
 
 Total $248 15 
 
 These hogs weighed, dressed, 4,066 pounds, and sold, 
 
 (in 1853), at Lansingburg, N. Y., at S7 50 per cwt $304 95 
 
 Kough fat, 175 lbs ' 17 50 
 
 Total $322 45 
 
 Total cost 248 15 
 
 Balance $74 SO 
 
 This is the amount of profit, or, rather, pay for labor, and the sjiare milk 
 of four ordinary cows fed to them, and not estimated as above. 
 At six cents a pound the result would have been 
 
 4,066 lbs., at 6 cents $243 96 
 
 Kough fat 17 50 
 
 Total $261 46 
 
 Cost 248 15 
 
 Profit $13 31 
 
 This certainly docs not give a very flattering picture of the probable profits 
 of pork-makiug in this section of the country, where every kind of feed is 
 salable at high prices. 
 
 Other letters were subsequently received, from one of which we gather 
 the following information : Wm. Reuick, of Circleville, Ohio, a large farmer, 
 and long engaged in the raising of cattle and hogs, writes more extensively 
 than we can find room for. Mr. Eenick thinks that farmers are not ignorant 
 of the fact " how much pork will a bushel of corn make," and says : 
 
Seo. 2.] SWINE— GAIN IN FEEDING. 23 
 
 " Probably nine tenths of our best practical farmers could, without hesita- 
 tion, give you an approximate answer in general terms." 
 
 This is exactly what we supposed, and that they would give nothing but 
 an approximate answer in general terms, because there is a general lack of 
 positive information upon this and many other important matters connected 
 with the farming interest. Mr. Renick gives the gain upon five hogs fed by 
 himself in the common rough method of the West — that is, turned into the 
 corn-field, 200 head together. Three of these hogs weighed, at seven months 
 old, 140 lbs. each, and two older ones M'eighed 125 lbs. each. After feeding 
 120 days, the three weighed 286 lbs. net average, and the two 185 lbs. 
 
 " Now, say that hogs on an average will eat 20 bushels of corn per hundred 
 head per day for the first 60 days, 16 busiiels for the next 30 days, and 12 
 bushels per liundred head per day for the last 30 days, and we have 21 
 bushels per head for the whole time of 120 days (though tin's is under rather 
 than over the mark), and we have a production in the case of the three hogs 
 of lOilbs. of gross pork for a bushel of corn, and but a small fraction over 
 5 lbs. per bushel for the two hogs." 
 
 Now, this is exactly in proof of what we originally stated. It is all guess- 
 work. Mr. Eenick further says : 
 
 " The large feeders of hogs and cattle are oftentimes greatly mistaken in 
 their calculations in regard to the cpiantity of stock their corn will feed, 
 sometimes largely overrunning, and again falling largely short of their 
 calculations." 
 
 This is not to be wondered at, wlien it is considered that no one pretends 
 to have any settled rule of action, but buys as many lean cattle or hogs as 
 he guesses he can fatten. Mr. Renick thinks the most common answer to 
 the question would be something like this : 
 
 " That hogs fed in the ordinary way will gain from one pound to one and 
 a half pounds per day, and they will consume some twenty bushels or more of 
 corn in three and a half or four months; that it all depends u})oii tiie quality 
 of the hogs, quality of the corn, weather, and other contingencies." 
 
 Tlie gain varies from five to twelve pounds gross per bushel. So he says: 
 " "We will compromise the matter by (juesshuj that, all things favorable, one 
 bushel of corn, fed in the ordinary way, will make seven pounds gross weight." 
 It is, after all, then, nothing but guessing. And we guess that feeding corn, 
 where it is worth a dollar a bushel, as it frequently is in and about New 
 York, won't pay while dressed hogs are sold from the hooks, as they gener- 
 ally are, at seven or eight cents a pound, and the average price of live hogs 
 is less than six cents a pound. With our arithmetic we can not figure up any 
 profit for a farmer hereabouts to keep a single hog more than he wants to 
 eat up the milk and house-slops, and a little waste grain ; and ptobahly that 
 could be more profitably fed to poultry. 
 
 The greatest advantage from feeding grain to make pork in all the New 
 England States must be looked for more in the manure than in the meat. 
 Where manure must be purchased, it may be profitable to purchase corn- 
 
24: DOMESTIC ANIMALS. [Chap. I. 
 
 meal to convert into manure through the pig-pen manufactory. Tlie next 
 paragrapli is to the point in this connection, of feeding pigs to make manui'e. 
 
 4. Working PigSi — We once recommended farmers to make their pigs 
 working animals. To this a writer in an agricultural paper objected ; be- 
 cause, as he alleges, the same amount of food consumed by an idle hog will 
 make 12 pounds of pork as easily as it will make 8 pounds if the animal is 
 allowed to exercise his natural propensity to root. In this we entirely agree, 
 and have often contended that when a hog is shut up to fatten, if he was 
 confined in a slip so narrow that he could not turn round, having one side 
 of his narrow prison made so as to be moved out as he increased in bulk, he 
 would fatten faster than in any other position. Now, will the writer, Avho 
 thinks that we difl'er from him in opinion, read over again the article that he 
 criticises, and see that it is the pig-pen, and not the fatting-hog pen, that 
 we were talking about. Our facts are not intended to be elaborated into 
 proofs and arguments for farmers, but rather as texts for thinking men to 
 think over and reason upon with themselves and neighbors. Our opinion is, 
 that all the swine family should be kept imprisoned, if not in close pens, 
 certainly in strongly fenced lots ; and in all the Eastern States, where manure 
 is so valuable, it is very doubtful whether a farmer can afford to let any of 
 the family out of the pen — which, as we before hinted, should be a great 
 manure manufactory — except, perhaps, for a short season to eat clover, peas, 
 or glean a stubble-field. If there is a greater neighborhood nuisance than 
 hogs in the highway, we have yet to find it out ; and as we would always 
 keep " Mr. Pig" in the pen, we recommended to make him work in the 
 manufactory, furnishing a part of the materials to be worked, and the farmer 
 the remainder. In his immediate preparation for death we don't care how 
 idly he spends the last of his days. As long as farmers will persist in 
 making the flesh of swine their leading article of food, we shall contend 
 that the flesh of an animal that has worked his way up to a mature age, and 
 is then fattened ready for slaughter, will make more healthy food than the 
 oily fatness of one always kept in a state of obesity and idleness from his 
 birth to death. It is this great physiological fact that causes the flesh of the 
 Avild hog to be sought after and eaten with gusto. We fully agree with the 
 orthodoxy of E. M. Brewster, a model farmer of Griswold, Conn., who says 
 if he was to fatten a half-dozen hogs upon a flat rock, he would be sure to 
 have two rings in each nose. The latitude that we desire our readers to 
 give to our suggestions is just this : to make a distinction between working 
 and fattening animals, and make the pig a useful one. 
 
 " Keeping pigs eighteen months to fatten them the last three is not a 
 paying business. Feed a decent pig well from weaning i;ntil eight months 
 old, and you will get 250 lbs. to 300 lbs. of pork, and you do not usually get 
 50 lbs. more for those ten months older. There can be no question but an 
 animal can consume much more to produce in eighteen months about the 
 same quantity of meat which is made by another in half that length of 
 feeding. If the object of raising a hog is to make porlc, that end should be 
 
Seo. 2.] COOKING .FOOD FOR SWINE. 
 
 kept steadily in view — bis swiiieship should see it, and eat for it." This is 
 our view exactly. Winter none but autumn pigs, keep tliein in pens, and 
 alwaj's growing. "To keep a pig growing, one must keep him eating, and 
 eating about all the time. To do this, there is nothing like ' change and 
 variety' — now a little corn, then a little milk, a few boiled potatoes, a few 
 raw apples — now a pudding, then a dish of greens — anything to keep them 
 eating and stuffing when awake, even if it does require a little extra atten- 
 tion." 
 
 5. Cooking Food for Swine< — Circumstances must govern the feeder. K 
 corn is worth but twenty-five cents per bushel, it is plain that it will not pay 
 to expend much money either for cooking or crushing it ; but whei'e food is 
 high, a small quantity saved pays for considerable labor, etc. It will hardly 
 pay to expend dear labor upon cooking cheap roots to make low-priced pork. 
 It has been proved that crushed barley, soaked in cold water 46 hours, gave 
 more increase of weight to sheep than when not soaked ; but crushed malt 
 did not. Tiie figures are : Four sheep in 10 weeks ate 280 lbs. of crushed 
 barley 7ioi sicepe(U and 3,867 lbs. of mangel-wurzel, and increased in live 
 weight 81 lbs. ; while four sheep, with barley crushed and steeped, ate 280 
 lbs. and 5,321 lbs. mangel-wurzel, increasing lOl-J lbs. Four sheep, with 
 crushed malt, not steeped, ate in 10 weeks 2271 lbs., and 3,755 lbs. mangel- 
 M'urzel, and increased 8i lbs. ; while four sheep, with malt crushed and 
 steeped, ate 226i lbs. malt and 4,458 lbs. mangel-wurzel, and gained only 
 78 lbs. In the above experiment, the question is, Did the additional 20ilbs. 
 pay the extra trouble and extra feed of roots? 
 
 An experiment in Ireland, lately made, proves that hogs gained more 
 upon raw than cooked vegetables. Eigiit hogs were selected and divided 
 into two lots, as evenly as could be, and put in to fatten, on the 27th of 
 November. Each lot was fed regularly three times a day, having each 12 
 lbs. of bran and barley meal, tlie only difference being that one lot had 
 steamed ruta bagas, and the other pulped or rasjied ruta bagas. The experi- 
 ment was continued 39 days; the lot having cooked food ate 468 lbs. bran, 
 etc., and 10,920 lbs. ruta bagas, and increased 103 lbs. ; while the lot having 
 uncooked food ate 468 lbs. bran, etc., and only 5,460 lbs. ruta .bagas, and 
 gained 110 lbs. 
 
 Samuel H. Clay, of Bourbon, Ky., has been exj^erimenting in feeding several 
 lots of hogs, changing them from raw to cooked, and from ground to 
 unground food, with the following results : One bushel of dry corn made 
 5 lbs. 10 oz. of live pork ; one bushel of boiled corn made 14 lbs. 7 oz. of 
 pork ; one bushel of ground corn, boiled, made in one instance 16 lbs. 7 oz., 
 in another nearly 18 lbs. of pork. To get the value of corn, estimate the 
 pork at 8 cents a pound ; we have as the result of one bushel of dry corn, 
 45 cents' worth of pork ; of one bushel of boiled corn, 115 cents' worth of 
 pork ; and of one bushel of ground corn, 136 cents' worth of pork. 
 
 6. Pig Feed— Boiled Weeds. — A widow, who was short of feed for her pig, 
 said, in presence of her little boys, that she thought she would have to sell 
 
26 DOMESTIC ANPIALS. [Chap. I. 
 
 it, for she had so little to feed it with, and could not afford to buy feed. 
 One of the little fellows promptly answered that he knew what would be 
 good to feed piggy with, and of which they had plenty. 
 
 " What is it, my son ?" 
 
 " Greens, mother — ^boiled greens. They are good for us, why not for 
 pigs ? And we can gather them, and pick up wood and boil them in the 
 big kettle out doors, and it will be real fun." 
 
 So it was settled that pig should eat greens — all sorts of weeds boiled ; 
 and eat them he did, and liked them, and fatted on them, with the small 
 addition that could be made of bran and house-slops, mixing the slops and 
 greens together. 
 
 This is a hint worth remembering and acting upon. Tlie weeds were 
 destroyed, the boys employed, the pig kept growing, and the boys had the 
 satisfaction of feeling that they had been usefully employed. 
 
 7. Hog Pastures. — It being generally understood that hogs live by " special 
 providences" until it is time to fat tliem, there is little attention paid to 
 the most economical way of growing them up. Certain it is that a good, 
 easy-keeping variety will make commendable progress on grass. 
 
 It may be safe to calculate that a good-sized, thi-ifty pig will gain in six 
 months, on grass, 100 lbs. or more. If an acre of grass would keep three 
 hogs and add 100 lbs. to the weight of each, that would be $12 for the acre 
 of pasture, reckoning the 300 lbs. gain at four cents a pound, live weight. 
 Instead of being forced to bite twice at a short, dirty, dried, and battered 
 spear of June grass by the roadside before getting any off, imagine a clean 
 and comely Sutiblk in a fresh, green pasture of clover, four inches high, filling 
 himself with evident relish. 
 
 8. The Pig-Pen and its Value. — As a manure-maker, there is no animal 
 equal to the hog, provided he is furnished with suitable facilities. The 
 eating and sleeping apartments of Mr, Pig should always be a good frame 
 building, with a plank floor and shingle roof, and it will in many places be 
 found economical to give him an iron eating trough. His house should 
 be cleaned out every day, and washed as often as necessary to keep it clean. 
 All the wi^hings and cleanings should go into an adjoining pen, which may 
 as well be made of fence rails, on account of cheapness and convenience of 
 removal, into which the tenants of the hog-house must be invited by a little 
 corn, scattered in every day, to induce them to mix up a compost of their 
 own offal with sods, mold, leaves, weeds, and all sorts of trasli. This pen 
 should be equal to ten feet square for every two hogs, and so long as it is 
 worked every day it will not much injure by exposure to the weather ; but 
 it should afterward be covered, and it should always have stuflf enough put 
 in it to keep the hogs from getting into a very muddy condition. If you 
 have not mold enough to entirely absorb the ammonia, you must use plaster 
 or charcoal dust. It must be kept sweet, or you will lose much of its value ; 
 and where manu^ is valuable, if yon neglect to use your swine for the 
 purpose of increasmg it, you will lose about all the profit of making your 
 
Seo. 2.] SWINE— FEEDING THEM HONEY. 27 
 
 own pork. There is another way in wliidi you can make tlie pig-pen 
 valuable. If you Lave a spot of ground that you want to enrich and work 
 deeply and thoroughly for fruit-trees or for garden vegetables, plant it with 
 Jerusalem artichokes, and then yard your hogs upon it, taking care to give 
 them room enougli, so as not to necessitate them to make a quagmire. 
 Again, you may use these animals to advantage if you have a piece of grass 
 land infested with grubs. Fence ofi' a piece, and shut your swine in npon 
 it for a few days without feed, and if they leave a sod unturned or grub 
 uneaten it will be a wonder. It is the best preparation of such a spot for a 
 hoed crop, or for sowing again in grass, that can be given. There is no good 
 reason why the pig should be always kept in idleness or mischief. Let him 
 be trained to be useful in his life as well as at his death. 
 
 9. Hay Seed for Hogs. — A coYreS])ondentoi the Co untri/ Ge}itlema7i y.'rites: 
 In addition to the grain and meal given to growing hogs in the sty, they 
 should have a daily allowance of green clover, or in winter, when this is not 
 available, a liberal allowance of hay-seed from the barn, mixed with their 
 slop, which they will eat with avidity. lie knows of no mode by which so 
 great an amount of growth and weight can bo induced, with equal cost of 
 food, in the winter season, as by this haying system. 
 
 10. Cinders for Pigs. — J. J. Mechi, of Tiptree Hall, England, says, in 
 publishing his experience in fattening swine, that among otlier things, he 
 has learned the fact " that pigs are very fond of coal-ashes or cinders, and 
 that you can hardly fat pigs properly on boarded floors without giving them 
 a moderate supply daily, or occasionally." He says : " In the absence of 
 coal-ashes, burned clay or brick-dust is a good substitute. If you do not 
 supply ashes, they will gnaw or eat the brick walls of their sheds. I leave 
 to science to explain the cause of this want. It is notorious that coal- 
 dealers, whose pigs have access to the coals, are generally successful pig 
 feeders. Those who find that their pigs, when shxit np, do not progress 
 favorably, will do well to try this plan. A neighbor of mine found that a 
 score of fat pigs consume quite a basket of burned clay ashes daily. We 
 know that there is an abundance of alkali in ashes." 
 
 11. Parched Corn and Honey for Hogs. — A correspondent of the Highland 
 Democrat, published at Peekskill, N. Y., furnishes that paper with the fai- 
 lowing communication : 
 
 A few years ago I chanced in Albany to meet a farmer who is noted for 
 raising unusually heavy hogs. The year before he had brought to market 
 one that weighed over 700 lbs., and said that year that he shoidd have one 
 of 900 lbs., or near that mark. As there always seems to be a cause for every 
 effect, I was anxious to know the course he pursued. 
 
 " Well," said he, '• you must first select the right kind of a critter. Get 
 the right breed, and then pick out the good-natured ones from the litter ; I 
 can't afford to feed a cross critter ; I sell them when they are pigs." " How 
 can you judge ?" said I. "Well, if you watch them when they are feeding, 
 you will find that some pigs are allers fighting about their victuals, and 
 
28 DOMESTIC ANIMALS. [Chap. I. 
 
 some go in for eating. There is as much difference in pigs as there is in 
 folks." 
 
 " "Well, when you have selected the right kind of a pig, what next is 
 important ?" 
 
 " Well, then you must have a nice place for the critters to live in, and 
 feed them on the right kind of victuals." 
 
 " What kind of food ?" 
 
 " Well, the best and cheapest kind of food I have found, when it comes 
 time to put on the fat, is parched corn. I generally manage to buy a barrel 
 or two of Southern honey, if it is cheap, which I mix with the jjarched corn, 
 for my fatting hogs." 
 
 12. Feeding Standing Corn to Hogs— in the Field— or Gathered, Ground, 
 and Cooked— Comparative Advantages of these MethodSi — The method often 
 practiced by large farmers of turning fattening hogs into the fields of 
 standing corn, if properly conducted, has its advantages over that of 
 gathering the corn and feeding it dry to the hogs in the pen. 
 
 The earlier in the season the pi'ocess of fattening swine is begun the 
 better, after the grain has reached a certain period of maturity, whether it 
 be r^'c, oats, or corn, because all farm animals, and hogs in particular, will 
 fatten much faster in warm than in cold weather. And the grain between 
 the periods of its doughy state and full maturity, or rather, before it becomes 
 dry, is more easily digested, and assimilated, and converted into flesh and 
 fat than when it has passed into its dry state. It is clear, then, that the 
 sooner the hogs are turned into the iield after the grains of corn are fully 
 formed, and while yet in the milk, the more speedily they will fatten ; for 
 if the weather be dry, the corn hardens very rapidly. 
 
 A very interesting experiment in feeding hogs is detailed by Mr. James 
 Buckingham in the Prairie Farmer. On the 6th day of September (in 
 ordinaiy seasons corn, at this date, is too far advanced to commence feeding 
 to the best advantage), the hogs, 189 in number, were weighed, and footed 
 up in the aggregate 19,600 lbs. A movable fence was used, confining the 
 hogs to an area sufficient to afford feed for two or three days. The entire 
 field, thus fed, contained 40 acres, with an estimated average of 40 bushels 
 ]5fer acre. The consumption of this corn gave a gain of 10,740 lbs. Tlie 
 hogs, when turned into the corn, cost three cents per pound, equal to $588 ; 
 worth, when fed, four cents per pound, or $1,213 60 — giving a return for 
 each acre of corn consumed of $15 64. Adding to this $1 per acre for tlie 
 improvement of the land by feeding the corn on the field, making the 
 actual gain per acre $16 64, equal to 40 cents per bushel, standing in the 
 field. The whole cost of corn per acre, exclusive of interest on the land, is 
 set down at $3 65. 
 
 By way of comjjai-ing the advantages of ground and cooked food over 
 that which was merely ground, and that whicli was unground, Mr. B. put 
 up three hogs into separate pens. To one he fed two and a half bushels of 
 corn in the ear, during a period of nine days, fe -ding all he would eat ; this 
 
PLATE IIT. 
 
 (Page 31.) 
 
 This plate is intended to answer the question: "What is a good 
 cow ?" It shows a model cow, without regard to breed, as described 
 in ^ 45, and a portrait of the " Oaks Cow," which was one of the 
 most remarkable of the early age of stock improvement as a great 
 butter producer. She gave 467 pounds from May 15 to December 
 20, 1816. Another portrait gives the side view of what is taken 
 as a model of a good dairy cow. The Dutch dairy cow is also con- 
 sidered a model, not only of that breed, but of a form that shows 
 a good cow for milk. The Hereford cow and bull, and Devon cow 
 and bull, also give good studies, and make up a picture no where 
 else to be found in such compact form and such beauty of execu- 
 tion. 
 
m 
 
 \ 1 l)^ll•^ ( 
 
Sec. 2.] SWINE— EXPERIMENTS IN FEEDING. 29 
 
 gave a gain of 19 lbs. ; another ate in the same time one and three quarter 
 bushels of corn, ground, and gained also 19 lbs. ; and to the third he fed 
 one bushel of corn, ground and hoilcd, which gave a gain of 22 lbs. By this 
 it will be seen tliat one and three quarter bushels of corn, when ground, will 
 give a gain of flesh equal to two and a iialf busliols of unground corn, and 
 that one bushel, when ground and coolced, gave a gain greater than either. 
 
 Tiie comparative results of these three methods of feeding may thus be 
 set down : one bnsliel of corn, ground and cooked, is equal to nearly three 
 bushels when fed dry and unground ; and one and tliree quarter bushels 
 when ground and uncooked is equal to two and a half bushels when fed 
 whole. 
 
 Or it may be stated thus : one bushel of dry corn in the ear makes 8i 
 lbs. of pork, wliich at four cents per pound is equal to 33 cents per bushel 
 for tlie corn ; while one busliel of corn, ground and boiled, makes 22 lbs. 
 of pork at four cents per pound, and is equal to 88 cents per bushel for the 
 corn. This result about sustains our calculations made upon the experiments 
 by Mr. Samuel II. Clay, of Kentucky, as appears in T[ 5. 
 
 It is worthy of remark for those who wish to feed corn in the field, that 
 had the hogs been turned into the field when the corn was in the milk, 
 it would have given a result more nearly like that of the hog fed upon 
 ground and cooked food. 
 
 Tiie obstacles which seem to be in the way of adopting an improved 
 method of fattening hogs result from the imperfect apparatus used for 
 preparing the food. Sending corn a long distance to mill to be ground, and 
 then to cook the meal in an ordinary kettle, even if it holds a barrel, will 
 prove an expensive operation, as all have found who have undertaken it. 
 But to realize the full advantages of feeding prepared food, a complete 
 grinding and steaming apparatus must be erected on a large scale, with the 
 view to perform the grinding, cooking, and feeding with the greatest facility 
 and at the least possible cost. This may be done to advantage by employing 
 steam for grinding, using the same boiler to furnish steam for cooking the 
 meal. 
 
 13. Origin of the Chester County Hogs.— It is stated that Captain James 
 Jefferis, a sea-cajjtain, somewhere about 1820, or a little later, in one of his 
 voyages from England, brought over a pair of pigs of the Bedfordshire 
 breed, which he sent to his farm on the Brandywine, whence the breed has 
 been disseminated, and lost its original name. Some of the characteristics 
 of the Chester County hog are, large size, remarkably symmetrical form, 
 easy keeping, comparatively little offal, great depth and length of carcass, 
 and producing large quantities of lard. Spring pigs are often put in market 
 at nine or ten months old, and weighing at that age from 200 to 250 lbs. 
 This weight is of course produced by good feeding and proper attention. 
 
 14. To prevent Sows Killing their PigSt — A correspondent of the Maine 
 Farmer speaks of several cases of sows destroying their pigs — which, indeed, 
 is not unusual — and commends as an easy and sure prevention, " to give 
 
30 DOMESTIC ANIMALS. [Chap. I. 
 
 the sow about half a pint of good rum or gin, which soon produces intoxica- 
 tion, and the druulven mother becomes entirely harmless toward her young, 
 and will ever accommodate her position to the best advantage of tlie pigs, 
 retaining this disposition ever afterward." The editor conlirms this statement 
 from cases within his own knowledge. 
 
 15. Pig-Brecdiilgi — Notwithstanding the fact that more people are interested 
 in the breeding of jiigs than of any other class of domestic animals, the atten- 
 tion paid to improvement of the stock is very small. Plow few farmers know 
 that the sow should always be larger than the male, and that he should 
 always be of the most perfect form, of good color, and perfectly sound and 
 healthy, because almost invariably the pigs take the cpialities of the sire in- 
 stead of the mother; that is, his good or bad points will preponderate largely 
 over those of the sow. Farmers, please think of this fact, and profit by it. 
 
 16. Large UogSt — Isaac Harrison, of Burlington County, N. J., fatted, in 
 1858, 32 hogs that averaged 569 lbs. each ; and "William Taylor, of Ocean 
 County, fatted 30 that averaged 537 lbs. each. Thomas Hood, of Ocean 
 County, fatted 41 that averaged 533 lbs. each. So says C. W. Hartshorn, 
 of Burlington County, who sends us a list of weights, among which are vei-y 
 few under 500 lbs. ; the lightest that we notice weighs 428 lbs. 
 
 17. Gross aud Net Weight of Swine.— The rule of ascertaining the net 
 weight of fat hogs is to deduct one fifth of the gross weight. It is an easy 
 way to make the calculation, or reduction of gross to net weight, by using 
 the decimal 8-10 as a multiplier, cutting off one right-hand figure of the 
 product, to show the net sum. Thus: 10 hogs weigh 2,729 lbs. ; multiply 
 by. 8, which will make net 2,183.2 lbs. 
 
 If you have the gross weight of a drove of hogs at home, which you may 
 have taken to market and sold at net weight, and wish to ascertain how tiic 
 net and gross compare, take your sum of the net weiglit, say 2,183.2. Divide 
 by 8-10, and you will find the cpiotient 2,729. 
 
 This will be found a very convenient and useful rule. Sometimes a person 
 may be ofiered one sum as a gross price, and another as a net price of the 
 same lot, and would like to know at once which oft'er is the best. This is 
 quickly done. You have simply to appl}' the same rule of division by eight 
 tenths to the price, instead of weight. For instance suppose the offer is — 
 as it sometimes is in New York — $5 25 per cwt. gross, or $6 50 net. Divide 
 $5 25 by 8-10, the quotient will be $6 56.2, showing that it will be six cents 
 and two mills per cwt. gross to the owner's advantage to sell at $5 25 gross. 
 
 18. Salting Meat Warm.— C. Bovie, of Gnllprairie, Michigan, asks : " Will 
 pork cure, if packed before the animal heat is all out of it?" He then 
 answers : " Last year I killed my hogs and packed them while warm. I 
 have some of the pork now, and I never ate any sweeter pork than this is. 
 The most of farmers think pork salted, while warm, will not keep." 
 
 We have tried the experiment rei^eatedly of salting pork as soon as we 
 could cut it up after dressing, and certainly prefer it, as it will, when dry- 
 salted, cure much quicker. 
 
Seo. 3.] 
 
 COWS. 
 
 31 
 
 19. Species of AnimalSi — The Revue Horticole, of Paris, gives a very inter- 
 esting account of a discussion in the Academic upon tlie species of animals. 
 Tiie primitive source of animals is lost ; the fossil bones of the horse are 
 identical -vvitli those of the present day. There is no account of anything 
 new in animal life since the Mosaic account of creation. 
 
 20. Animal Strncture. — " The bony frame-work of the animal owes its so- 
 lidity to phosphate of lime, and this substance must be furnished by the 
 food. A perfect food must supply the animal with these three classes of 
 bodies, and in proper proportions. What proportions are the proper ones 
 we have at present no means of knowing with accuracy. The ordinary 
 kinds of food for cattle contain a large quantity of vegetable fiber or woody 
 matter, which is more or less indigestible, but which is indispensable to the 
 welfare of herbaceous animals, as their digestive organs are adapted to a 
 bulky and rough food. The addition of a small quantity of feed rich in oil 
 
 .«and albuminous substances to the ordinary kinds of food, has been found 
 highly advantageous in practice. Neither hay alone, nor concentrated food 
 alone, gives the best result. A certain combination of the two presents the 
 most advantages." 
 
 The above is the view of an eminent professor of agricultural chemishy 
 (S. W. Johnson), and it contains a great fact that should be adopted into the 
 every-day practice of every farmer, and not only for his stock, but his own 
 household. Every animal of a higlier organization than a worm needs a 
 diversity of food to make up a healthy animal structure. 
 
 SECTIOX III.-COWS. 
 
 J HAT is a Good Cow ?— This is a cjuestion that many 
 owners of cows can not answer, because there is no 
 standard. Every one has his own, and one person 
 may recommend a cow on sale as positively good, 
 that is not half as valuable as one that comes only 
 lip to the standard of another person's idea of good- 
 ness. Besides, one cow may be good for producing 
 milk for sale by the quart ; another good for making 
 butter, where that alone is the object ; a third one 
 may be good for a cheese dairy and very poor for 
 butter ; and a fourth not good for either purpose, 
 and should at once be turned out for beef. Farmers 
 do not experiment enough with their cows to ascer- 
 tain these facts. We have known one cow discarded 
 from a butter dairy because she gave less milk than another, when one was 
 to be sold, without any other proof that the rejected one was not equally 
 
32 DOMESTIC ANIMALS. Chap. I. 
 
 good. For butter-making, we think a cow which gives 14 quarts of milk a 
 day, when fresh, and 14 lbs. of butter a week, a good com', and that that 
 might be adopted into use as the meaning of a good butter-dairy cow. A 
 good many cows, it is true, go above that, but thej'^ should be ranked as 
 extra good. A cow that gives 12 or 14 quarts of milk a day, and 10 lbs. of 
 butter a week, might be called a fair medium cow ; and one that gives 8 to 
 12 quarts a day and 6 or 7 lbs. of butter a week, shoiild be called com- 
 mon, and all below that inferior, as in fact they are ; and so is a cow 
 that gives 15 or 16 quarts of milk a day that j'ields only a pound of butter, 
 and there are many of this description. The lowest rate we ever heard was 
 3 quarts of milk for 1 lb. of butter ; but that is very rare, the average being 
 over 12 quarts. 
 
 It would be an excellent plan for some leading agricultural society to 
 establish a standard for a good cow. We think a cow that comes up to the 
 standard of that owned by Otis Hunt, of Eaton Village, N. Y., will pass forv 
 a good one. He gives the following statement of the amount of butter 
 made from her: " Amount made from April 8 to July S, 191 lbs. ; amount 
 made during the month of June, 74 lbs. ; amount m;ide during the year, 
 516 lbs., besides furnishing all the milk and cream used in a fiimily of four 
 persons (and occasional visitors) all the time." 
 
 The breed of this good cow is given as " native," and the quality of milk 
 and butter excellent. 
 
 22. Garget in fowsi — A letter from Fort Independence, Castle Island, 
 Boston Harbor, Mass., says : 
 
 " Within the last two j^ears I have purchased at different times three 
 cows, say about one every six months. After they are on the island a few 
 months they become ' gargety ;' therefore I should think the complaint is 
 brought on from eating some weed peculiar to this island, which is limited 
 in extent, say about thirty acres." 
 
 No, sir ; it is because they have not eaten some weed — a weed called poke 
 or scoke, producing the " scoke-berries" tliat robins and school-children arc 
 both fond of gathering in the fall. This scoke is the natural cure for garget. 
 It is said that the disease never affects cows thnt run in pastures M'here it 
 grows. We have known the dried roots sell for $3 a lb. in Vermont to feed 
 cows, and to make little plugs to insert in the teats to cure the garget. It is 
 there known by the name of garget root, {jphytolacca decandra). 
 
 23. How to Increase the Value of a Cow.— Every one who owns a cow 
 can see at a glance that it would be profitable to increase the value of her, 
 but every one can not see how to do it. We can, and we think that we can 
 make it equally palpable to our readers. If a cow is kept for butter, it cer- 
 tainly would add to her value if the butter-making properties of her milk 
 should be improved. In summer or winter this can be done, just as the yield 
 of a cultivated crop can be improved by what is fed to each, and it is simply 
 a question of, will it pay, in manuring one or feeding the other. Indian corn 
 will add to the quantity and quality of the butter to a very sensible degree, 
 
Seo. 3.] COWS, AND THEIR FOOD. 33 
 
 and it is simply a question of easy solution, by experiment, -whether it will 
 add to the profit of the butter-maker to buy corn at one or two cents a pound, 
 and convert a portion of it into butter at 25 cents a pound, or whatever the 
 niai'ket price of corn and butter may be, and another portion of it into fat, 
 and another portion of it into manure, for that is the natural result of the 
 cliemieal change produced in the laboratory of the cow's stomach. The same 
 result will follow any other kind of feeding. Good pasture will produce an 
 abundance of milk, often as much as the cow can carry ; but does it follow 
 that even then it will not be profitable to feed her with some more oleagi- 
 nous food to increase the quantity of butter, just as it sometimes proves 
 profitable to feed bees, to enable them to store more honey? It certainly 
 does appear to us that the value of a cow feeding upon ordinary winter 
 food may be almost doubled by making that food suitable for the purpose 
 of increasing the quantity of milk, if that is the object, or the quantity of 
 butter, if that is the purpose for which the cow is kept. Farmers generally 
 understand that they can convert corn into beef, pork, and lard, and some 
 of them know exactly at what price per bushel it will pay to convert it into 
 these substances; but does any one know at what rate it will pay to convert 
 corn or any other grain into butter, or any other kind of feed into any of the 
 dairy products? Is the whole business a hap-liazard one? We fear so. 
 Some persons know that they can increase the salable value of butter by 
 adding the coloring matter of carrots to it. Does any person know the 
 value of a bushel of carrots fed to a cow to increase her value as a butter- 
 ju'oducing laboratory ? Experimental proof ujjon this point would be far 
 more worthy of agricultural pi'izes tiian it is to see who can show the largest- 
 sized roots ; for by a few carefully-conducted experiments we should be able 
 to increase the value of a cow almost at pleasure. 
 
 24-. Pasture— How ma;iy Cows lo au Aero. — In Cheshire, England, which 
 is a great grazing county, the land that has been under-drained and top- 
 dressed with ground bones, will carry one cow to each acre through the 
 summer, but the land not thus treated will only carry one cow to two acres. 
 The dressing of bones upon pasture land is 12 to 15 cut. per acre once in 
 seven years. But even if not repeated at that time, it still continues better 
 than it was before the bones were ajjplied. 
 
 Now, how many acres of pasture, on the average, does it require in this 
 country to the cow? Would it not be economy to improve our pasture 
 lands up to the Cheshire standard? 
 
 25. Food CoBsiiiatd by a Cow. — It is generally estimated that a cow needs 
 each day three per cent, of her weight in hay. That is, if she weiglis 8 cwt., 
 which a fair-sized cow will do, in working order, she will require 21 lbs., or 
 its equivalent, of hay. For five montlis' feeding — 150 days — you will require 
 3,600 lbs. In the New England States the feeding period averages nearer 
 six than five months, and therefore two tuns of hay should be allowed for 
 each cow. 
 
 20. Feed, Exercise, and Shelter have a powerful influence upon the health 
 
34 DOMESTIC ANIMALS. [Chap. I. 
 
 and comfort of all domestic animals, and upon none is it more marked tlian 
 upon the most valuable of all, the cow. Every judicious former, Avho has 
 au eye only to his purse, will see that his cows are bountifully supplied with 
 proper food to produce the largest flow of milk, and rich in cream, and tliat 
 his meadows and pastures are free from noxious weeds, that will impart a 
 disagreeable taste to the milk and butter. A mixture of timothy and white 
 clover is the most desirable pasture for the dairy ; and the best and sweetest 
 butter is generally produced in May and June ; for then kind JSTature sends 
 up a spontaneous supply of rich, juicy food, and the air is cool and jiure, 
 and all things combine to render the dairyman's task easy and delightful. 
 But when the sun has scorched the vegetation and impaired its nutritive 
 properties, and the temperature of the atmosphere is like an oveu, then there 
 is tieed of skill to counteract the opposing influences of nature ; and the task, 
 though difiicult, can be accomplished, and a cool atmosphere created in the 
 milk-room, and proper food supplied, as the reward of well-directed labor. 
 
 Every farmer should practice, at least on a small scale, growing extra feed 
 for his cows, when pasture fails. One of the easiest things grown for fall 
 feed is cabbage. It gives an immense amount of food per acre. 
 
 27. Feeding Cows for Butter-Making. — A writer in the Farmer and Gar- 
 dener (Phila.) says: "Tiie use of corn and cob-meal in my practice has 
 produced more fat than butter. The best feed I have' tried is two bushels of 
 ship-stufi' to one bushel of ground corn. In the use of corn fodder, I have 
 found great advantage in not only cutting, but steaming it. Many cows 
 will not eat it without its being steamed. Turnips are good enough, if the 
 taste they impart to the butter is not objectionable. Pumpkins add largely 
 to the quantity of milk, but the cream, iu churning, is always frothy, and 
 requires a longer time to be converted into butter. 
 
 " My plan of feeding is as follows : I always let my cows go dry about 
 the first of the new year, giving them, by this plan, a rest of some two 
 months. During this period of rest I feed them on hay, corn-fodder, and 
 straw. As soon as they begin to spring, I add four quarts of meal to each 
 cow, which, after being mixed with the long straw and foddei', is steamed, 
 and fed a little warm. Until tiie calves are separated from the cows, this 
 amount of food is given once a day, after which time I feed them three times 
 a day." 
 
 28. Health of Cows. — A sickly cow not only yields a diminished profit, 
 but she yields sickly milk, and sickly iu a liigher degree than her flesh. 
 
 If a cow eats anything that lias a strong or disagreeable odor, it appears 
 in her milk. 
 
 If she eats anything medicinal, it comes out in her milk. 
 
 If she is feverish, her milk shows it. 
 
 If she has sores about her, pus may be found in her milk. 
 
 If she is fed upon decayed or diseased food, her milk, since it is derived 
 from her food, will be unliealthy. It is as impossible to make good milk 
 from bad food, as to make a good building from rotten timber. 
 
Sec. 3.] COWS— DIRECTIONS FOR SPAYING. 35 
 
 If there is anything wrong about her, it will appear in the milk, as that is 
 an effective source of casting it from her organism. 
 
 Tliese facts should at all times be well impressed upon the minds of dairy- 
 men, but more esjiecially in the cold season of the year. Closely confined in 
 their narrow stalls thiough the long winter, where the air is not always 
 fresh and pure, nor Avater and exercise always had when desired, nor their 
 food always free from foul medicinal weeds, as thistles, daisies, white top, 
 etc., cows are very likely to vary from a perfectly healthy condition ; spriii"' 
 cheese will be faulty enougli, do the best we can — that every dairyman 
 knows. The health of the cows should not, at any rate, be allowed to 
 become a cause of deterioration. Green food should now, if it has not been 
 before, alternated as often as possible with the dry; for this purpose, beets, 
 carrots, turnips, potatoes, cabbages, parsneps, and apples are valuable. 
 
 Ventilation and watering should be j^roraptly attended to, and salt and 
 meal, made by pulverizing burned bones, should be kept where daily access 
 can be had to them, if desired, nor should their strength and flesh be allowed 
 to fail for the want of a sufficiently nutritious diet. The best flavored butter 
 and cheese can not be made from cows that are badly fed, or ailing, or poor. 
 
 As bad health in parents transmits a tendency to disease in the offsprin"-, 
 it is important that every kind of animal we desire to continue on our farms 
 should be kept vigorous and healthy. 
 
 As an unhealthy animal can not consume food to as good advanta"-e as a 
 well one, it is again economical to avoid disease. 
 
 29. The Amount of Hay required for Cows— The Cost of Milk.— Otis Brig- 
 ham, of Westborough, Mass., after seventy years' experience in farniin"- 
 says, in the Nno England Farmer, that good cows will eat, on an averaf^e 
 20 lbs. of hay per day when giving milk, and 15 lbs. when dry — not by 
 guess-work, but tested by actual weighing, for months at a time. Then it 
 is easy to calculate the cost of milk. In the neighborhood of N'ew York, 
 the average value of hay is one cent a pound, and the rpiantity of milk not 
 over six quarts. At three and a half cents a quart, it will pay the hay bill, 
 and one cent a day over. If other feed is given, the increase of milk must 
 pay for that. The manure will be worth at least the cost of attendance and 
 milking. If the milk is worth more than three and a half cents, it s:ives a 
 profit ; and if less, a loss. 
 
 30. For Kicking Cows. — Take a short strap, and fasten the ends together. 
 Next prepare a pin of some soft wood, about si.x or eight inches long, one 
 and a half inches in diameter. Take the cow by the off" fore-leg, and double 
 it at the knee-joint close; pass the strap or loop over the knee, pressino- it 
 back until you can insert the pin between that and the knee-joint, and she 
 can not kick. 
 
 31. Directions for Spaying Cows. — Dr. Dadd, vetevinary surgeon, in the 
 Anwrieaii StocJc Journal, says that the milk of spayed cows gives more cream 
 than ordinarj'^ milk, and that tiie butter made from it is more delicious in 
 taste. The milk is also invaluable for nursing infants. lie thinks there is 
 
DOMESTIC ANIMALS. [Chap. I. 
 
 110 danger in performing the operation, if skillfully clone, and the animal 
 jiut under the influence of sulphuric ether. 
 
 Dr. Eiggs, a veterinary surgeon, does not ajaprove of giving chloroform to 
 cows. He says: "It is no easy task to give ether or chloroform to animals 
 generally, and it is usually quite as distressing to them as so slightly painful 
 an operation as spaying. The operation of casting is a very aukwaid one, 
 and needless, and interferes with the ease, if not the certainty, of the opera- 
 tion. The ovaries are attached near the back-bone; hence, when a cow 
 stands up, the paunch and intestines fall away from them, and leave clear 
 working sjiace ; but when she is thrown nj)on her side, the case is different, 
 and M'hen the cow is in good flesh, there is none too much space any way." 
 
 Dr. Eiggs allows the cow to stand up, her head tied short, and an assistant 
 holds her by the nose with clasps ; a rope is tied loosely about her hind legs, 
 to keep her from kicking ; an assistant pushes her up against a partition or 
 wall, and another aids in the first part of the operation. Thus, tlie cow is 
 not at all alarmed or uncomfortable. 
 
 Tlie skin is folded so that the hair can be shaved off where the cut is to 
 be, and thus a straight line, three quarters of an inch wide and five inches 
 long, is laid bare. The skin is then drawn up in a fold, at right angles, to 
 this line and in the middle of it. The operator grasps this fold on one side 
 of the shaved line, in his left hand, and his assistant grasps it on the other 
 side ; then, with a single, Avell-directcd stroke, with a sharjJ knife, he severs 
 the two thicknesses of hide exactly' in the shaved line, letting go at the 
 same time; a straight, clean cut through the skin is seen, and the cow suffers 
 almost no pain at all — not so much as that produced by the blow from a 
 M-hip. If the cut is made slowly, it is the most painful part of the operation. 
 There is little feeling in the tissues forming the walls of the cavity of the 
 abdomen, and when these are cut through, the hand may be easily introduced. 
 The cow Avinces a little when the edges of the skin are rubbed, but shows no 
 signs of pain. 
 
 The removal of the ovaries appears very easy, but it is not. If the ojjcra- 
 tor has a strong, sharp thumb-nail, he can Avork or cut them loose ; but if 
 not, or if the ovary is strongly attached, the operator is obliged to do as the 
 books say — "in short, pull them away" — and in this is tlie great danger to 
 the cow ; internal hemorrhage or inflammation is apt .to ensue. Dr. Eiggs 
 avoids ail this by the use of the "steel thumb-nail." This is simply a sharp 
 knife, shaped like and bound upon the thumb-nail of the right hand. There 
 is no danger of cutting in the wrong j^hice. A clean cut does not produce 
 bleeding, as was feared at first, and it greatly simi^lifies and shortens the 
 operation. Dr. Eiggs has never operated upon a cow with this instrument 
 when she struggled or attempted to get down, but once, and then she was a 
 little nervous, and came down upon her knees, but soon got up again. 
 Usually there is no struggling throughout the operation. 
 
 32. Calomel for Cows. — ^A correspondent of the ^mmca/i i^(«v«c;' -writes: 
 " I wish you would say to your readers that calomel, in one-ounce doses, will 
 
Seo. 3.] COWS— DAIRY STOCK. 37 
 
 cure a cow of almost any disease. At least, let me give my experience. I 
 have two fine, vahiable cows ; they have had, it seems to me, some of the 
 worst diseases that prevail — black-tongue, murrain, dry ranrrain, elc. — and 
 when I saw tlie}' were dying, I mixed one ounce of calomel in dry corn-meal, 
 which tiiey would lick up, and it has never failed to cure." 
 
 33. Keep Cows GeutSe. — If you milk out doors, with the cow loose, provide 
 good stools for each milker. See that they are never used to pound the cow 
 with ; and never allow man or woman to kick or pound a cow in the stable 
 or milking yard. If gentle means will not make a cow gentle, harsh means 
 never will. Ifr may be necessary to reduce a cow to obedience by a little 
 ])unishinent — to teach her, as you would a liorse or ox, that you are master; 
 l)ut to accomplish tliis, never use anything but a light lash or smart switch, 
 and never use that in anger. An angry man is a fool, com^jared with a 
 sensible cow. 
 
 Si. Ayrshire €ows. — In Massachusetts, the improvement of dairy stock by 
 the introduction of Ayrshire blood has become so apparent, that no argu- 
 ment could induce those acquainted with their value to return to the hazards 
 of native breeding. We could point to farmers in Essex, Middlesex, an.d 
 Worcester counties, who, under the most prudent management, avail them- 
 selves of every opportunity to introduce Ayrshire blood into tlieir herds, and 
 our own observation teaches us that the importations of the Massachusetts 
 Society for Promoting Agriculture, of Capt. Eandall, of New Bedford, and 
 others, have been vastly beneficial to our dairy stock. The bulls of this 
 hrecd can be traced wherever they have been, by the good stock they have 
 left behind them. One of them was kept upon a secluded farm in Essex 
 County, and rendered it famous for its fine dairy cows. Another gave 
 superior character to tlie herd of one of our well-known farmers, and to all 
 the dairies in his neighborhood. An imported Ayrshire cow, not far from 
 us, has produced, through a variety of- mixtures and pure breeding, a little 
 herd of cows and heifers of the higliest uniformity of excellence. 
 
 35. Poor Butter Cows. — The Vetrrhuirian gives a remedy for this difficuliy 
 with cows that are well kept, and whose milk has been previously rich in 
 butter. It is to these that the remedy is principally directed. The remedy 
 consists in giving the animal two ounces of the sulphuret of antimony, M-ith 
 three ounces of coriander seeds, powdered and well mixed. This is to be 
 given as a soft bolus, and followed by a draught composed of half a pint of 
 vinegar, a pint of water, and a handful of common salt, for three successive 
 mornings, on an empty stomach. 
 
 This remedy, according to the author, rarely fails, and the milk produced 
 some days after its exhibition is found to be richer in cream. The first 
 churning j-ields a larger quantity of butter, but the second and third are 
 still more satisfactory in their results. 
 
 A letter from a farmer states that he had fourteen cows in full milk, from 
 which he obtained very little butter, and that of a bad quality. Guided by 
 the statements of M. Deneubourg, which had appeared in the Annales Vet- 
 
DOMESTIC ANIMALS. [Chap. I. 
 
 erinaires, lie had separately tested tlie milk of his cows, and found that the 
 bad quality of it was owing to one cow only, and that the milk of the others 
 yielded good and abundant butter. It was, therefore, clearly established that 
 the loss he had so long sustained was to be attributed to this cow only. lie 
 at once administered the remedy recommended by M. Deneubourg, which 
 effected a cure. 
 
 30. Winter Feed of Orange founty Dairy €ows. — Mr. C. Edward Brooks, 
 one of the best dairymen in the county, claims that rye makes more milk 
 than corn or oats, or other meal. Brewers' grains were formerly bought so 
 as to cost 6 cents delivered at the farm, but now, at 12 cents, they are 
 not so profitable as rye feed at 75 cents per bushel. Oats he esteems 
 the jjoorest kind of grain for milk. He thinks that by currying a cow, and 
 keeping her and her stable scruj^ulously clean, she will give her full quantity 
 of milk on half the feed required if she is neglected. His daily allowance 
 to each cow is five pounds of meal, either corn, corn and oats, or buckwheat 
 or wheat bran, changing the kind frequently — for practice approves what 
 thegry teaches, that animals thrive best on a frequent change of diet. The 
 animals are fed and milked at regular hours — generally at four o'clock in 
 the afternoon and six in the morning; in winter, somewhat earlier in the 
 afternoon and later in the morning. Care is taken to observe great punctu- 
 ality as to time of milking, for the animals give mudi less ti'ouble and thrive 
 better. Mr. Brooks chaffs his hay, steeps it in warm water to soften it, and 
 sprinkles the meal over it, mixing it thoroughly. Throughout the day as 
 much long hay is fed as the cows will eat. The feed is mixed in a long box, 
 shaped like an ordinary bath-tub, which runs on small iron truck-wheels, 
 one at either end, and two at»the sides, half way between. This is a very 
 convenient method for carrying the whole mess along the passage between 
 the stalls, and with a wooden scoop giving to each cow her share as her stall 
 is passed. The water to steep the hay is heated in a caldron, in a small 
 out-building, and conducted to the cow-stable through a small tin pipe. 
 
 Mr. Seeley C. Eoe, near Chester, a large dairyman and an intelligent 
 farmer, thinks that half-clover hay, well made, and half grain, is better for 
 milk production than twice as much timothy with grain. lie does not cut 
 and steep his hay, but dampens it with cold water, and adds meal, as usual. 
 He finds it an excellent plan to feed buckwheat whole, and prepares it by 
 boilinf the grain with the hulls on, and when it has become thoroughly 
 soaked, puts it into the feed-box at the rate of two quarts to each cow. He 
 adds to this two quarts of diy meal, and the heat and steam of the cooked 
 buckwheat cooks the meal. Four quarts of this mixture are allowed to 
 each cow — two in the morning and two at night — and the animals are kept 
 on this feed until turned out to grass. 
 
 Mr. Gregory has an eight-horse power engine for cutting hay, threshing, 
 grinding, etc., and uses the waste steam for steaming his hay. He has 
 constructed a large chamber, capable of holding one hundred bushels of 
 cut hay, which, before being steamed, is dampened. Tlie steam-pipe from 
 
Seo. 3.] 
 
 COWS— FEEDING EOQTS. 
 
 39 
 
 tlie engine empties into the chamber, and the hay is steamed for about a 
 quarter of an hour, and then fed to the stock unmixed with meal — that is, 
 given in the form of a warm mash. 
 
 37. Su^ai'-i'aue for €ows. — If the Chinese sugar-cane does not prove to 
 be a prolitable sugar-making plant, we think it will be a profitable one fi>r 
 forage. The Homestead says that Deacon Edward Hayden, of East Hartford, 
 Conn., has raised the Chinese sugar-cane for two years, and has used it for 
 feeding milch cows with great success. The first year the stalks were left 
 in tlic field, scattered about, we believe, and occasionally in dry weather 
 brought to thabarn to the cows, ^diich ate them up clean, stalks and all. This 
 was merely a sort of accidental experiment, as no especial value was set upon 
 tlie canes. The past year he raised more, shocked in the field, and left it 
 tliere. It cured well, and tlie cows ate it with great avidity, and Mr. Hay- 
 den esteems it as a great milk-producing diet. 
 
 38. Feeding Roots. — I have a word to say on winter feed for stock. It is 
 more by way of query, and for feeders to think of, than by way of instruc- 
 tion. My experience in feeding domestic animals is not sufficient to wai-rant 
 me in giving instruction. I have served my time in too rough a school for 
 tliat. I have fed a good deal of liay, worth from $1 50 to $5 a tun ; and 
 corn from 10 to 25 cents a busliel, and otlier grain in proportion, and 
 straw absolutely valueless. While living in such a district, I have often 
 been asked the question. Why I did not raise more roots for my cattle? I 
 answered : Simply because it would not pay. I did bi;y a lot of ruta bsgas 
 one autumn, delivered at my house at six cents a bushel, and the use of them 
 taught me that they were dear food. I Avould now, if living in such a dis- 
 trict, feed roots to stock just so far as I thought necessary to keep the animals 
 in good health, and no more ; not if I could buy at the same price, which 
 was one fourth the price of sound corn ; and I question the economy of feed- 
 ing any kind of roots at the same rate of value to any greater extent than is 
 required for health. That roots, particularly white turnips, are too largely 
 fed in cold weather to young cattle, I have no doubt. They are so full of 
 water that too much of it is taken into the stomach with the food. If roots, 
 or any otlier watery food, are too largel_y fed to milch cows before and after 
 calving, you will be sure to have a mean calf. If we will think, and take 
 reason for a guide, as to what man requires for healthy food, \vc shall not go 
 far wrong with domestic animals. Man likes roots occasionally, and so he 
 does soup, or other sloppy food ; but what would he be good for if fed week 
 after week upon such watery stuff as turnips, or such porridge as some people 
 compel their cattle to eat ? After all, this question of winter feeding is a 
 question of values ; and it is not alone the value, counted by first cost, but 
 the value of results. Now, what is the use of giving my opinion that this or 
 that kind of food is the best, or most economical, when I can not say of a 
 single thing, I Icnov}. I don't know, and don't know anybody M'ho does. 
 It is all guess-work, and at the present price of cattle-food, it is expensive 
 guessing. 
 
40 DOMESTIO ANIMALS. [Chap. I. 
 
 39. Wintering Cows. — The method of feeding cows in winter is not so im- 
 portant as it is to malie the cliange from grass to hay and from hay to grass 
 without producing any deterioration in their condition. It is higlily import- 
 ant, if your cows are giving milk upon autumn pasture, that you do not 
 allow tliem to fall off in nulk or flesh for want of a little extra feed. I have 
 never found anything quite equal to corn-meal for cow-feed, particularly 
 when you are making butter. It may not be necessary nor economical to 
 feed cows meal in autumn, even if pasture does fail, if you have green corn- 
 stalks, pumpkins, turnips, cabbage, etc., which must be consumed, because 
 not good to keep through winter. But in spring, when cows are first turned 
 to grass, they are very apt to fall away, and then it will be found to be good 
 economy to feed meal every night-in the yard, and so it will before the cows 
 are turned out, if not in first-rate condition. 
 
 I see the calculation of one writer that corn-meal, thus fed, was worth $3 
 a bushel, fed at the rate of one quart a day to a cow, for twenty or thirty 
 days. He says : 
 
 "4have also found, by other experiments, that there is a great difference 
 in the manner of getting animals to grass. When turned out early, with 
 little or no other feed, they fall away greatly ; on the contrary, if fed all the 
 good hay they will eat, night and morning, with a judicious feeding of meal 
 of some kind (and I prefer mixed feed — that is, mixing the different grains 
 together before they are ground — to any one variety), they will soon begin 
 to gain finely by such a course, and carry their extra weights through the 
 season. In an experiment now being conducted, I have a cow that has, since 
 the first of December last, been quietly laying on her two pounds per day 
 (or nearly so), and her feed has been only moderate, as I am no advocate for 
 forcing, but simply good fair keeping and care ; then, with good animals, we 
 are sure of a fair remuneration for care and feeding. 
 
 "I woidd that what I have already written could reach the eye of every 
 farmer in these United States, and that each one would set himself about 
 making at least one experiment in the care of farm-stock." 
 
 40. Cows Badly Wintered arc UnprofifabJe. — A farmer can not afford to 
 winter any stock poorly, and least of all, milch cows, or those which are to 
 produce calves in the spring. Look at the following statement, and see if the 
 "Western Reserve farmers can afford thus to winter cows. 
 
 A letter from "Warren, Trumbull County, Ohio, written in April, ISGO, 
 says : "The- present times are the worst we have ever known in this country. 
 Cows and cattle are dying by the hundred ; six hundred head have died 
 within tlie three adjoining counties this winter for want of food. The 
 weather is still dry and cold." 
 
 This is only one, among many illustrations, of the folly and wrong com- 
 mitted by "Western farmers in keeping more stock than can be housed and 
 fed. This is the case all through the Western country. Travel over any 
 portion of it, and you will see scores of cattle shivering in the cold storms 
 of winter, without shelter, and so poorly fed that if they live through the 
 
Seo. 3] COWS— HOW TO CHOOSE A GOOD ONE. 41 
 
 severe season it is more by chance than for any care which they receive. On 
 the prairies, cattle can be kept so easily in siunnier that every one is temjjted 
 to overstock himself to such a degree, while the grass is green, that a portion 
 must die in winter. Now we would say to the farmers, you can not alford 
 this. Every one of these six hundred cattle which perished in Ohio could 
 have been sold at a low price by the owners, who were short of feed, to 
 others who would have carried them through the winter. And how infinitely 
 better this would have been than to allow such an amount of stock to die 
 of starvation ! 
 
 It is not only in Trumbull County that cattle have perished in winter ; 
 the entire "West has suflered equally in this respect with Ohio. On the 
 Illinois prairies, where there is no limit tj^the aiaount of hay that might be 
 cut, cattle have died in large numbers for the want of a quarter more hay 
 than they had eaten during the winter. And yet the farmers of those dis- 
 tricts persevere in their criminal folly, although the result of each year's 
 experience ought to be sufficient to open their eyes to a proper realization 
 of tlie truth. Xo farmer can aiford to keep more cows or horned cattle than 
 he can provide hay for at the rate of two tuns per head ; he should never 
 attempt to keep more cattle than he can house warmly, unless he has hay to 
 waste, and is willing to sacrifice at least one fourth of the stock. 
 
 It is one of the most painful sights to be met with in traveling through the 
 West, while jiassing the little cabins of the new settlers, to see cows and 
 calves, oxen and young stock, all huddling together, without any shelter from 
 the cold winter storm. Is it any wonder that one half of these famished, 
 neglected things should perish before spring? Farmers, you must learn 
 wisdom from the calamities of severe winters. Keep fewer cattle, and 
 keep them better, and you will make more money. We might give hundreds 
 of extracts from country papers to convince you that feed is scarce every 
 year, but it would be superfluous. The richest corn country of Indiana 
 has suffered quite as much as its sister States during many hard winters ; 
 and this is because it is a rich corn country, and ricli in nothing else. Large 
 farms without grass ; cattle without food, dying by thousands ; farmers 
 losing all their stock, "because it is a late spring," or, rather, because they 
 undertook to winter an unreasonable number. Will the farmers of our 
 country never take advantage of the ex}ierience of the past, and learn that 
 they can not aftord these wasteful and ruinous sacrifices ? 
 
 4-1. To Choose a Good Milch Cow. — Select from a good breed. We ju-efer 
 the Devons — bright bay red. The Durhams arc roan, red, white, and mix- 
 tures of these colors. Ayrshire cows are generally red and white spotted. 
 Ileretords, red or darker colored, with white faces. Alderneys, pale red and 
 mixed with white. These are the principal colors of the several breeds of 
 which the Durhams are the largest and Alderneys the smallest. Different 
 individuals will contend for each breed being the best and only one that 
 should be selected for their milking qualities. But animals of each breed 
 and of crosses of them, often prove remarkable milkers, and so do some of the 
 
42 DOMESTIC ANIMALS. [Chap. I. 
 
 native stock of the countiy. Two families of cows — one owned by Colonel 
 Jaqnes, of Ten Hills Farm, near Charlestown, Mass., and one owned by 
 Major John Jones, of "Wheatland Farm, near Middietown, Del. — were called 
 native breed, yet were the most remarkable butter-makers we have ever seen. ■ 
 We have seen Col. Jaqnes produce good butter in three minutes, by simply 
 stirring the cream in a bowl. If we were about selecting a milch cow, we 
 •would endeavor to get one out of such a herd of good milkers ; one with a 
 soft, velvety-feeling skin, slim neck, fine legs, broad stern, with what is 
 called a large escutcheon — that is, the hair of the stern pointing inward ; a 
 large udder, slim teats, and large veins, commonly called milk veins, on the 
 belly. Above all things, select your cow of a gentle, pleasant countenance, 
 because a first-rate milker may be^so vicious as to be worthless. Do not look 
 for flesh, as the best cows are seldom fat ; their hip-bones are often very 
 prominent, and they have the appearance of being low in flesh. A beefy 
 cow is seldom a good milker. 
 
 The next thing is, what is a good milker? That is, how much milk must 
 she yield per day ? A cow that will average 5 quarts of milk a day through 
 the year, making 1,825 quarts, is an extraordinary good cow. One that will 
 yield 5 quarts a day for 10 months is a good cow, and one that will average 
 4 quarts during that time is more than an average quality. That would 
 make 1.200 quarts a year, which, at three cents a quart, is $36. We believe 
 the Orange County milk dairies average about $40 per cow, and the quality 
 of the cows is considerably above the average of the country. 
 
 It is as important to keep a cow good as it is to get her good. This can 
 never be done by a careless, lazy milker. Always milk your cow quick and 
 perfectly clean, and never try to counteract nature by taking away her calf. 
 Let it suck, and don't be afraid " it will butt her to death." It will distend 
 the udder, and make room for the secretion of milk. Be gentle with your 
 cow, and you will have a gentle cow. Select well, feed well, house well, 
 milk well, and your cow M'ill yield well. 
 
 42. The Different Breeds of Cowsi — We advise you to examine, in this 
 connection, the difierent breeds of cows, so that the general appearance, so 
 far as outline of form is concerned, may be very well understood. Good 
 and full descriptions may be found in a standard work upon " Milch Cows 
 and Dairy Farming," edited by Charles L. Flint, secretary of the Massachu- 
 setts State Board of Agriiculturc, and we give a few short extracts from that 
 work, upon each breed, as follows : 
 
 43. Ayrshire Cows Described. — "Tlie Ayrshires are justly celebrated 
 throughout Great Britain and this country for their excellent dairy qualities. 
 Though the most recent in their origin, they ai-e pretty distinct from the 
 other Scotch and English races. In color, the pure Ayrshires are generally 
 red and white, spotted or mottled — not roan, like many of the short-horns, 
 but often presenting a bright contrast of colors. They are sometimes, 
 though rarely, nearly or quite all red, and sometimes black and white ; but 
 the favorite color is red and white brightly contrasted, and by some, straw- 
 
Sko. 3.] COWS— BREEDS COMPARED. 43 
 
 berry color is preferred. The head is small, fine, and clean ; the face long, 
 and narrow at the muzzle, with a sprightly, yet generally mild, expression ; 
 eye small, smart, and lively ; the horns short, fine, and slightly twisted 
 upward, set wide apart at the roots ; the neck thiu ; body enlarging from 
 fore to hind quarters ; the back straight and narrow, but broad across the 
 loin ; joints rather loose and open ; ribs rather flat ; bind quarters rather 
 thin ; bone fine ; tail long, fine, and bushy at the end ; hair generally tliin 
 and soft; udder liglit color and capacious, extending M^ell forward under the 
 belly ; teats of the cow of medium size, generally set regularly and wide 
 apart ; milk-veins prominent and well develojied. The carcass of the pure- 
 bred Ayrshire is light, particularly the fore quarters, which is considered by 
 good judges as an index of great milking qualities; but the pelvis is capa- 
 cious and wide over the hips. 
 
 " On the whole, the Ayrshire is good-looking, but wants some of the sym- 
 metry and aptitude to fatten which characterize the short-horn, which is 
 supposed to have contributed to build up this valuable breed on the basis 
 of the original stock of the county of Ayr." 
 
 44. Yield of Milk of Ayrshire Cows. — " Youatt estimates the daily yield of 
 an Ayrshire cow, for the first two or three months after calving, at five 
 gallons a day, on an average; for the next three months, at three gallons; 
 and for the next four months, at one gallon and a half. This would be 850 
 gallons as the annual average of a cow; but, allowing for some unproductive 
 cows, he estimates the average of a daily at COO gallons per annum for each 
 cow. Three gallons and a half of the Ayrshire cow's milk will yield one 
 and a half pounds of butter. He therefore reckons 257 lbs. of butter, or 
 514 lbs. of cheese, at the rate of 24 lbs. to 28 gallons of milk, as the yield 
 of every cow, at a fair and perliaps rather low average, in an Ayrshire 
 dairy, during the year. Alton sets the yield much higher, saying that 
 " thousands of the best Ayrshire dairy-cows, when in prime condition and 
 well fed, produce 1,000 gallons of milk per annum; that in general three 
 and tliree-quarters to four gallons of their milk will yield a pound and a 
 half of butter ; and that 27^ gallons of their milk will make 21 lbs. of full- 
 milk cheese." Mr. Eankin puts it lower — at about 650 to 700 gallons to 
 each cow ; on his own farm of inferior soil, his dairy produced an average 
 of 550 gallons only." 
 
 45. Yield of Milk of Breeds Compared. — " In a series of experiments on the 
 Earl of Chesterfield's dairy farm, at Bradley Hall, interesting as giving 
 positive data on which to form a judgment as to the yield, it was found that, 
 in the height of the season, the Holderness cows gave seven gallons and one 
 quart per diem ; the long-horns and Alderneys, four gallons and three 
 quarts; the Devons, four gallons and one quart; and that, when made into 
 butter, the above quantities gave, respectively, 38^ ounces, 28 ounces, and 
 25 ounces. 
 
 "The Ayrshire, a cow far smaller than the Holderness, at five gallons of 
 milk and 34 ounces of butter per day, gives a fair average as to yield of 
 
4:i DOMESTIC ANIMALS. [Cdap. I. 
 
 milk, and an enormous production of bxitter, giving within four and a half 
 ounces as much from her five gallons as the Holderness from her seven gal- 
 lons and one quart ; her rate being nearly seven ounces to the gallon, -while 
 that of the Holderness is considerably under six ounces. 
 
 " According to Mr. Harley, the most approved shape and marks of a good 
 dairy cow are as follows : Head small, long, and narrow toward the muzzle ; 
 horns small, clear, bent, and placed at considerable distance from each other; 
 eyes not large, but brisk and lively ; neck slender and long, tapering toward 
 the head, with a little loose skin below ; shoulders and fore quarters light 
 and thin ; hind quarters large and broad ; back straight, and joints slack 
 and open ; carcass deep in the rib ; tail small and long, reaching to the heels ; 
 legs small and short, with firm joints ; udder square, but a little oblong, 
 stretching forward, thin-skinned, and capacious, but not low hung; teats or 
 paps small, pointing outward, and at a considerable distance from each other ; 
 milk-veins capacious and prominent ; skin loose, thin, and soft, like a glove ; 
 hair short, soft, and woolly ; general figure, when in flesh, handsome and 
 well proportioned." 
 
 46. The Ajrshires for the Dairy — Thoir Value Cousidered.— Upon this 
 point Mr. Flint quotes and indorses the following opinion : 
 
 " For purely dairy purposes, the Ayrshire cow deserves the first place. 
 In consequence of her small, sj'mmetrical, and compact bod}^ combined with 
 a well-formed chest and a ca^jacious s'omach, there is little waste, compara- 
 tively speaking, through the respiratory system ; while, at the same time, 
 there is very complete assimilation of the food, and thus she converts a large 
 proportion of her food into milk. So remarkable is this fact, that all dairy 
 farmers who have any experience on the point, agree in stating ihat an 
 AijrsJure cow generaVy gives a larger return of milk for the food consumed 
 than a cow of any other hreed. The absolute quantity may not be so great, 
 but it is obtained at a less cost ; and this is the point upon Avhich the question 
 of profit depends." 
 
 47. The Jersey or Alderney CoWi — Tliere is a great diversity of opinion 
 about the value of this breed of cows. It is our opinion that they are the 
 most valuable of all, where only one or two are to be kept, and when butter 
 is the main object. The milk of an Alderney cow is the richest of all for 
 household consumption, and makes the most and best butter ; and the cow 
 is generally very docile, and in her native country is frequently kept upon 
 very much such food as we keep a pig upon in this country. The greatest 
 objection that we have heard urged upon them is their small size and lack 
 of beauty, as compared with the symmetrical forms of Durhams, Devon.?, 
 Ayrsiiires, and some of our natives. It is objected, too, that butter and 
 cheese made from Alderney cows' milk will not keep, because it is " too rich." 
 If it is mixed with other milk, it improves both, for then the butter ai]d 
 cheese are rich, and have no 1 ick of keeping qualities. 
 
 48. Origiu and Description of Jersey Cows. — "The Jersey race is supposed 
 to have been derived originally from Normandy, in the northern part of 
 
ifr ( > i.i ^ 1 I I r,(..j.. 
 
 t IM ( K«» '^'I.V (IjS 
 
PLATE IV. 
 
 (Page 44.) 
 
 This picture is a study of four of the improved breeds of cattle 
 which are briefly described in Chapter I., pages 31 to 51 ; and with 
 the other two upon Plate III., the reader has, as it were, at one 
 view, representatives of the Durham, Devon, Hereford, Ayrshire, 
 Jersey or Alderney, and the improved Dutch — six of the most im- 
 portant breeds of imported cattle. These beautiful pictures, with 
 what we have said of the animals, will give those who have no op- 
 portunity of studying them alive, a very good insight of their varied 
 form and character. For this they should be highly valued, as they 
 are true representations from life. 
 
Sec. 3.] COWS— BREEDS COMPARED. 45 
 
 France. The cows have been long celebrated for the production of very 
 rich milk and cream, but till witliin a quarter of a century they were- com- 
 paratively coarse, ugly, and ill-shaped. Improvements have been yery 
 marked, but the form of the animal is still far from satisfying tlie eye. The 
 head of the pure Jersey is fine and tapering, the cheek small, the throat 
 'clean, the muzzle fine and encircled with a liglit stripe, the nostril high and 
 open ; the horns smooth, crumpled, not very thick at the base, tapering, and 
 tipped with black; ears small and thin, deep orange color inside; eyes full 
 and placid; neck straight and fine; chest broad and deep; barrel hooped, 
 broad and deep, well ribbed up ; back straight from the withers to the hip, 
 and from the tojj of the hip to the setting on of the tail ; tail fine, at right 
 angles with the back, and hanging down to the hocks ; skin thin, light color, 
 and mellow, covered with fine, soft hair; fore legs short, straight, and fine 
 below tlie knee; arm swelling and full above ; hind quarters long and well 
 filled ; hind legs short and straight below tlie hocks, with bones rather fine, 
 squarely placed, and not too close together ; hoofs small ; udder full in size, 
 in line witli the belly, extending well up behind; teats of medium size, 
 squarely placed, and wide apart, and milk-veins very prominent. The color 
 is generally cream, dun. or yellow, with more or less white, and the fine 
 head and neck give the cows and heifers a fawn-like appearance, and make 
 them objects of attraction in the park ; but the hind quarters are often too 
 narrow to look well, particularly to those who judge animals from the 
 amount of fat they carry." 
 
 49. FalteiiiHg Properties of a Jersey Cow.—" It is asserted by Colonel Le 
 Couteur, of the island of Jersey, that, contrary to the general opinion here, 
 the Jersey cow, when old and no longer wanted as a milker, will, when dry 
 and fed, fatten rapidly, and produce a good quantity and excellent quality 
 of butchers' meat. An old cow, he says, was put up to fatten in October, 
 1850, weighing 1,125 lbs., and when killed, the 6th of January, 1851, she 
 Meighed 1,330 lbs., having gained 205 lbs. in 98 days, on 20 lbs. of hay, a 
 little wheat-straw, and 3o lbs. of roots — consisting of carrots, Swedes, and 
 mangel-wurzel — a day." 
 
 50. The Sliort-horu Durham Cow.— There is no room for dispute about the 
 Durhams being good for beef. For butter or for general dairy purposes, I 
 should not choose them. Mr. Flint says: 
 
 " In sections where the climate is moist and the food abundant and rich, 
 some families of the short-horns may be valuable for the daii-y ; but they 
 are most frequently bred exclusively for beef in this country, and in sections 
 where they have attained the higliest perfection of form and beauty, so little 
 is thought of their milking qualities, that tJiey are often not milked at all, 
 the calf being allowed to run with the dam." 
 
 Crosses, however, of this breed upon other breeds have produced excellent 
 milkei's. In Wesfchester County, N. Y., there is a valuable strain of dairy 
 stock known as " Dutch and Durham." 
 
 51. The Dalch Cow. — The old Holland stock shows a very syramet- 
 
46 DOMESTIC ANIMALS. [Chap. I. 
 
 rical, liandsome form, but not quite as mucli so as the Durham, which was 
 made up, it is generally supposed, by a cross of the Dutch breed upon the 
 Teeswater stock. The Dutch cow is not as heavy an animal as the improved 
 Durham, but she is more highly esteemed for dairy purposes. 
 
 53. The Hereford €ow. — " Tlie Hereford cattle derive their name from a 
 county in the western part of England. Tlieir general characteristics are a 
 white face, sometimes mottled ; white throat, the white generally extending 
 back on the neck, and sometimes, though rarely, still farther along on the 
 back. The color of the rest of the body is red, generally dark, but some- 
 times light. Eighty years ago the best Hereford cattle M^ere mottled or 
 roan all over ; and some of the best herds, down to a comparatively recent 
 period, were either all mottled, or had the mottled or speckled face. The 
 expression of the face is mild and lively ; the forehead open, broad, and 
 large ; the eyes bright and full of vivacity; the horns glossy, slender, and 
 spreading ; the head small, though larger and not quite so clean as that of 
 the Devons; the lower jaw fine; neck long and slender; chest deep; breast- 
 bone large, prominent, and very muscular ; the shoulder-blade light ; shoulder 
 full and soft ; brisket and loins large ; hips well developed, and on a level 
 with the chine ; hind quarters long and well filled in ; buttocks on a level 
 with the back, neither falling otf nor raised above the hind quarters ; tail 
 slender, well set on ; hair fine and soft ; body round and full ; carcass deep 
 and well formed, or cylindrical ; bone small ; thigh short and m'cU made ; 
 legs short and straight, and slender below the knee; as handlers very excel- 
 lent, especially mellow to the touch on the back, the shoulder, and along the 
 sides, the skin being soft, flexible, of medium thickness, rolling on the neck 
 and the hips ; hair bright; face almost bare, which is characteristic of pure- 
 bred Ilerefords. They belong to the middle-horned division of the cattle 
 of Great Britain, to which they are indigenous." 
 
 There are individual good milkers among the Ilerefords, as there are 
 among the Durhams, but like them, we must say they are better for beef 
 than milk. We certainly never should select the Herefoi'd breed for dairy 
 purposes. The form of the cow, as represented among the specimens we 
 have seen of the best herds in this country, is that of a beef-producing ani- 
 mal, or a breed for good working oxen, for which it is noted. 
 
 53. The Devon Cow. — "This beautiful race of cattle dates farther back 
 than any well-established breed among us. It goes generally under the 
 simple name of Devon ; but the cattle of the southern part of the county, 
 from which the race derives its name, differ somewhat from those of the 
 northern, having a larger and coarser frame, and far less tendency to fatten, 
 though their dairy qualities are superior. 
 
 " The North Devons are remarkable for hardihood, symmetry, and beauty, 
 and are generally bred for work and for beef rather than for the dairy. 
 The head is fine and well set on; the horns of medium length, generally 
 curved ; color usually bright blood-red, but sometimes inclining to yellow ; 
 skin thin and orange-yellow ; hair of medium length, soft, and silky, making 
 
Seo. 3.] COWS— BREEDS COMPARED. 47 
 
 the animals remarkable fine handlers; muzzle of the nose white; eyes full 
 and mild ; ears yellowish, or orange-color inside, of moderate size ; neck 
 rather long, with little dewlap ; shoulders oblique ; legs small and straight, 
 and feet in proportion ; chest of good width ; ribs round and expanded ; 
 loins of first-rate quality, long, wide, and fleshy; hips round, of medium 
 width ; rump level ; tail full near the setting on, tapering to the tip ; thighs 
 of the bull and ox muscular and full, and high in the flank, though in tlie 
 cow sometimes thought to be too light; the size medium, generally called 
 small. 
 
 " As milkers, they do not excel, perhaps tliey may be said not to equal, 
 the other breeds, and they have a reputation of being decidedly below the 
 average. In their native country the general average of a dairy is one 
 pound of butter per day during the summer. 
 
 "Tliey are bred for beef and for work, and not for the dairy, and their 
 yield of milk is small, though of a rich quality. 
 
 "On the whole, whatever may be our judgment of this breed, the faults 
 of the K^orth Devon cow can hardly be overlooked from our present point 
 of view. The rotundity of form and compactness of frame, though they 
 contribute to her remarkable beauty, constitute an objection to her as a dairy 
 cow, since it is generally thought that tlie peculiarity of form which disposes 
 an animal to take on fat is somewhat incompatible with good milking quali- 
 ties, and hence Youatt says: 'For the dairy, the North Devons must be 
 acknowledged to be inferior to several other breeds. The milk is good, and 
 yields more than the average proportion of cream and butter; but it is 
 deficient in quantity.' He also maintains that the value of this breed for 
 milk could not be improved without probable or certain detriment to its 
 grazing qualities. 
 
 "But the fairest test of its fitness for the dairy is to he found in the 
 estimation in which distinguished Devon breeders themselves have held it 
 in this respect. A scale of points of excellence in this breed was established 
 some time ago by the best judges in England ; and it has since been adopted, 
 with bnt slight changes, in this country. These judges, naturally prejudiced 
 in favor of the breed, if prejudiced at all, made this scale to embrace one 
 hundred points, no aniujal to be regarded as perfect unless it excelled in all 
 of them. Each part of the body was assigned its real value in the scale : a 
 faultless head, for instance, was estimated at four ; a deep, round chest at 
 fifteen, etc. If the animal was defective in any part, the number of points 
 which represented the value of that part in the scale was to be deducted /iro 
 rata from the hundred, in determining its merits. But in this scale the cow 
 is so lightly esteemed for the dairy, that the udder, the size and shape of 
 which is of the utmost consequence in determining the capacity of the milch 
 cow, is set down as worth only one po bit, while, in tlie same scale, the horns 
 and ears are valued at two points each, and the color of the nose and tiie 
 expression of the eye are valued at four points each. Supposing, therefore, 
 that each of these points was valued at one dollar, and a perfect Nortli 
 
48 DOMESTIC ANIMALS. [Chap. I. 
 
 Devon cow was valued at one hundred dollars ; then another cow of the 
 same blood, and equal to the first in every respect, except in her udder, 
 Avhich is such as to make it certain that she can never be capable of giving 
 milk enough to nourish her calf, must be worth, according to tlie estimation 
 of the best Devon breeders, ninety-nine dollars ! It is safe, llierefore, to say 
 tliat an animal whose udder and lacteal glands are regarded, by those ■vrlio 
 best know her capacities and her merits, as of only one quarter part as much 
 consequence as the color of her nose, or half as much as the shape and size 
 of her horns, can not be recomuiended for the dairy. The improved North 
 Devon cow may be classed, in this respect, with the Hereford, neither of 
 which have well-developed milk-vessels — a jjoint of the utmost consequence 
 to the practical dairyman." 
 
 5i. The 3IiIk-Mirror. — Tliis is a term given in the Guenon method of 
 selecting good cows, to the eseutclieon formed by the change of direction in 
 the hair on tlie rear part of the udder and parts adjacent. If this mirror is 
 large, it is supjiosed to indicate a good milker. For tlie better understanding 
 of it, we recommend a careful study of the "milk-mirror," and see how it 
 is generally developed upon all real good milkers — that is, good for quantity 
 rather than quality. 
 
 " Milk-mirrors vary in position, extent, and the figure they represent. 
 They may be divided, according to their position, into mirrors or escutcheons, 
 properly so called, or into lower and upper tufts, or escutcheons. The latter 
 are very small in comparison with the former, and arc situated in close 
 proximity to the vulva, as seen in different breeds of cows. They are very 
 common on cows of bad milking races, but are very rarely seen on tlie best 
 milch cows. Thej' consist of one or two ovals, or small bands of up-growing 
 hair, and serve to indicate the continuance of the flow of milk. The period 
 is short in proportion as the tufts are large. They must not be confounded 
 with the escutcheon proper, which is often extended up to the vulva. They 
 are separated from it by bands of hair, more or less large, as you M'ill find 
 from careful examination." 
 
 It requires some skill to determine the exact size of a milk-mirror, since it 
 is not equally m'cU defined in all cows, being at first sight apparently large 
 in some, which, upon close examination, will show faults — that is. that the 
 escutcheon of out-growing hairs is broken by tufts of down-growing hairs. 
 Mr. Flint says : 
 
 " We often find cows whose milk-mirror at first sight appears very large, 
 but which are only medium milkers ; and it will usually be found that lateral 
 indentations greatly diminish the surface of up-growing hair. Many errors 
 are committed in estimating the value of such cows, fi'om a want of attention 
 to the real extent of the milk-mirror. 
 
 " All the interruptions in the surlace of the mirror indicate a diminution 
 of the quantity of milk, with the exception, however, of small oval or 
 elliptical plates, which are found in the mirror, on the back part of the 
 udders of the best cows. 
 
PLATE V. 
 
 (Page 48.) 
 
 This is a very instructive picture to every young farmer, and there 
 are a good many old ones who may make of it a valuable study. 
 Many persons are not aware that the age of a suckling calf, week by 
 week, can be told by examining the teeth. Look at these drawings 
 and see how easy it is to learn the art — an art which every farmer's 
 boy should understand. So the age of a cow, as well as a horse, 
 can be told from year to year, by looking at the teeth, more cer- 
 tainly than by the horns. For this purpose this plate possesses 
 great value ; but it has a greater one in the illustration of what is 
 now well known as the "milk mirror," which is described at *f[ 54, 
 and much more fully in Guenon's work, from which the theory is 
 derived. In this plate the mirror is rejDresented by coloring the pic- 
 ture so as to show the field of upturned hair around the udder in its 
 most fully developed form upon No. 1, and quite defective in No. 4. 
 By studying these, and comparing them with living cows, something 
 of the theory may be learned. It is very fully illustrated in Flint's 
 work upon milch cows and dairy farming. It is a subject worthy 
 of the attention of all farmers. 
 
Seo. 3.] COWS— THE MILK-MIRROR. 49 
 
 In a fat cow, with an inflated udder, the mirror would appear larger 
 than it really is; while in a lean cow, with a loose and wrinkled udder, it 
 appears smaller. Fat will cover faults ; this is a fact to be kept in mind in 
 selecting a cow ; because good fatting qualities are not the qualities which 
 the purchaser is desirous of obtaining. 
 
 " These marks, though often seen on many good cows, should be considered 
 as certain only when the veins of the perineum form, under the skin, a kind 
 of net-work, which, without being very apparent, may be felt b^' a pressure 
 on them, when the milk-veins on the belly are well developed, though less 
 knotted and less prominent than in cows of the first class ; in fine, when the 
 udder is well developed, and presents veins Avhicli are sufficiently numerous, 
 though not very large. 
 
 "There are cases where a knowledge and careful examination of the form 
 and size of the mirror becomes of the greatest importance. It is well known 
 that certain signs or marks of great milkers are developed only as the 
 capacities of the animal herself are fully and completely developed by age. 
 Tiie milk-veins, for instance, are never so large and prominent in heifers and 
 young cows as in old ones, and the same may be said of the udder, and the 
 veins of the udder and perineum, all of which it is of great importance to 
 observe in the selection of milch cows. Those signs, then, which in cows 
 arrived at maturity are almost sufficient in themselves to warrant a conclu- 
 sion as to their merits as milkers, are, to a great extent, wanting in younger 
 animals, and altogether in calves, of which there is often doubt whether they 
 shall be raised ; and here a knowledge of the form of the mirror is of 
 immense advantage, since it gives, at the outset, and before any expense is 
 incurred, a somewhat reliable means of judging of the future milking 
 capacities of the animal, or, if a male, of the probability of his transmitting 
 milking qualities to his offspring." 
 
 55. What Kind of fows lo Buy.— "In buying dairy stock, tlie fanner gen- 
 erally finds it for his interest to select young heifers. They give the promise 
 of longer usefulness. But it is often the case that older cows are selected, 
 with the design of using them for the dairy for a limited period, and then 
 feeding them for the butcher. In either case, it is advisable, as a rule, to 
 choose animals in low or medium condition. The farmer can not ordinarily 
 aflFord to buy fat; it is more properly his business to make it and to have i 
 to sell. Good and well-marked cows, in poor condition, will ra]iidly gain in 
 all flesh products when removed to better pastures and higher keeping, and 
 they cost less in the original purchase." 
 
 56. General Conclusions. — We have now devoted all the space that we can 
 afford to the subject of cows. We have given them a large share of our 
 attention, because we consider them of more importance than any other 
 single branch of our domestic animals. They not only furnish a great 
 amount of food, in milk, cream, butter, cheese, and meat, when done fur- 
 nishing milk, but they are the foundation of prosperity in American farmiiio-. 
 " A good cow may produce a bad calf," but it is only a may-be — it does rot 
 
50 DOMESTIC ANIMALS. [Chap. I. 
 
 hold as a rule. It is therefore very important to select good cows, and keep 
 none but good cows — certainly nfever breed from a poor one. 
 
 We shall now give some important facts relative to other branches of neat 
 stock. And lirst we refer the reader to the following facts concerning bulls 
 of various breeds. 
 
 57. The Ayrshire Bulli — In comparing this with those of other breeds, it 
 should be borne in mind that the Ayrshires are not bred for beef, in their 
 own country, as much as they are for dairy purposes. For working oxen, 
 they are of fair quality, but not the best. For feeding purposes, they should 
 be crossed with Durhams. 
 
 " It is the opinion of good breeders, that a high-bred short-horn bull and 
 a large-sized Ayrshire cow will produce a calf which will come to maturity 
 earlier, and attain greater weight, and sell for more money, than a pure-bred 
 Ayrshire. This cross, with feeding from the start, may be sold fat at two or 
 three years old, the improvement being especially seen in the earlier matu- 
 rity and the size." 
 
 58. The Jersey Bull. — So far as beauty is concerned in the sexes, the 
 males of llic Jersey or Alderney stock have the largest share. It is a 
 somewhat curious physiological fact, that the Alderney cows in this country 
 produce two or three times as many bulls as heifers, so that bulls can gener- 
 ally be purchased at lower prices than cows. 
 
 "The bulls are usually very different in character and disposition from 
 the cows, and are much inclined to become restive and cross at the age of 
 three or four years, unless their treatment is uniformly gentle and firm. In 
 all portraits of Jersey bulls, they are represented as handsomer animals 
 than they are generally considered by American farmers. 
 
 59. Short-horn or Durham Bull. — This breed has been more largely 
 imported and bred from in the United States than anj^, in fact all, others. 
 It is the great beef-producing breed of the AVest, particularly in Ohio and 
 Kentucky. 
 
 " The desirable characteristics of the short-horu bull may be summed up, 
 according to the judgment of the best breeders, as follows: He should have 
 a short but fine head, very broad across the eyes, tapering to the nose, will 
 a nostril full and prominent; the nose itself should be of a rich flesh-color; 
 eyes bright and mild ; ears somewhat large and thin ; horns slightly curved 
 and rather fiat, well set on a long, broad, muscular neck ; chest wide, deep, 
 and projecting ; shoulders fine, oblique, well formed into the chine ; fore 
 legs short, with upper arm large and powerful ; barrel round, deep, well 
 ribbed home; hips wide and level; back straight from the withers to the 
 setting on of the tail, but short from hip to chine; skin soft and velvety lo 
 the touch ; moderately thick hair, plentiful, soft, and mossy." 
 
 This picture gives only a fair impression of the fine form of the best 
 animals of this breed. 
 
 60. The Dutch Bull. — The foim of Dutch and Durham bulls is not unlike. 
 "W. W. Chenery, of "VVatertown, Mass., whose name has since become famous 
 
Sec. 4.] 
 
 BEEVES. 
 
 51 
 
 as being identified with tlie alarming cattle disease prevailing in Massachu- 
 setts iu the summer of 18G0, is one of the largest importers of the A'aluable 
 stock known as the Dutch breed. 
 
 61. Thg Hereford Bull.— This always fairly represents this good breed of 
 cattle. Good, at least, for beef, and excellent for working oxen. Their 
 beef rates highest of all in the London market, and the few grades which 
 have been brought to New York have been highly esteemed. The objection 
 to them is, that they do not come so early to maturity, or, rather, to a salable 
 condition, as the Durhanis. The breeders of Herefords contend that the 
 keeping that will starve Durhams will keep the Herefords in a thriving 
 condition. 
 
 62. The Devon Bull. — In color and form a Devon bull is perfect ; always 
 of a pure bay-red color, of medium size, and progenitor of the handsomest 
 working oxen in America. The deficiency in size of the pure Devons, for 
 working oxen, is made up by crossing upon larger animals. These grade 
 oxen make as fine beef as any brought to the New York market. 
 
 SECTION IV.-BEEVES. 
 
 ross and Net Weight of Beef Cattle. — The ordinary 
 rule of ascertaining the net weight of beef cattle 
 from the live weight on the scales varies, accord- 
 ing to quality, size, and age, and after all, is no rule 
 at all, because it is entirely' a matter of agreement 
 between the parties at the time. 
 
 It also depends upon the localitj'. In New York, 
 the net weight of the beef in the quarters only is 
 wanted. In Boston, the hide and fat are included, 
 counting those products equal to one quarter of the 
 beef, or, rather, calling the wliole five quarters. There 
 the net weight of a fat bullock is estimated at 60 to 
 68 lbs. of each 100 of live weight. In extra fine 
 animals the per-centage is higher. 
 In New York, where the hide and fat are left out of the calculation, the 
 bullocks are estimated at 55 to 60 lbs. net to each 100 lbs. gross; and if the 
 animal is very fine, the estimate runs from 61 to 61 lbs. net to each 100 lbs. 
 gross. Extraordinary animals sometimes dress 65 or 66 lbs., and even higher, 
 and ordinary and lean stock run from 55 down to 47 lbs., though not often 
 below 50 lbs., or one half the live weight at home. The common practice 
 at the "West is, to weigh fatted cattle some hours after feeding and a little 
 exercise, and calculate the net weight at 55 lbs. per 100 of the live weight. 
 
52 DOMESTIC ANIMALS. ' [Chap. I. 
 
 64. The Largest Bullock— The Great Massachusetts Steer.— The question 
 of " what is the greatest weiglit of any bullock ?" we definitely answer and 
 place on record in the following notices. The heaviest alive and dead was 
 sold by John Sanderson, of Eernardstown, Mass., in February, 1862, to 
 Bryan Lawrence, butcher, Centre Market, New York, by whom he Avas 
 publicly exhibited, killed, and weighed. His live weight at home was 36 
 cwt. Here, when very empty, 33 cwt. His dead weight was, fore quarters, 
 743, 732—1,475 lbs. Hind quarters, 496, 502—998 lbs. Total, 2,473 
 lbs., after shrinking a week. This is within 2 lbs. of 75 per cent, of live 
 weight. This steer liad been kept in a small yard and stable, eating meal 
 and hay two years; was eight years old; a cross of Durham and native 
 Vermont stock. He girted back of shoulders, 10 ft. 8 in. ; forward of hips, 
 11 ft. 8 in. ; hight, 6 ft. 3 in. ; length from horns to tail, 9 ft. 8 in. ; breadth 
 across hips, 3 ft. 6 in. This is the largest bullock of which we have any 
 certain record. We also place upon record the weights of several other 
 remarkable large bullocks. All stories of bullocks of 40 cwt. we disbelieve. 
 
 65. The Washiugton Ox. — The ox George "Washington was 5 years, 9 
 months, and 14 days old when slaughtered, in the year 1840. 
 
 His live weight was 3,204 lbs. 
 
 Weight of one fore quarter 612 " 
 
 Weight of the other fore quarter 698 " 
 
 Weight of one hind quarter 487 " 
 
 Weight of the other hind quarter 477 " 
 
 2, 174 lbs. of beef — 70 lbs. per cwt. of live weight. 
 
 Measurement from button to root of tail 9 ft. 7 in. 
 
 Girth 10 " 4 " 
 
 Hight 5 " 9 " 
 
 From hip to hip .■ 2 " 9 " 
 
 The ox Eed Jacket, killed March 5, 1851, 
 
 Weighed alive 3,080 lbs. 
 
 Weight of meat 2,114 " 
 
 Loss, 31 per cent. 
 
 The OX John Hancock, killed the same time, 
 
 Weii,'hed alive 2,9101bs. 
 
 Weight of meat l,946i " 
 
 Loss, 33 per cent. 
 
 Eobert L. Pell's two-year-old heifer, fatted at Pellham Farm, 30 miles up 
 the Hudson, 
 
 Weighed alive 2,000 lbs. 
 
 Weight of beef 1,380 " 
 
 Loss, 31 per cent. 
 
 66. A Big Ox in Olden Time.— "We print, as we find it, the following 
 extract from " Thacher's Military Journal of the Kevolution," under date of 
 June 24, 1779 : 
 
 "I have just had the satisfaction, with a number of gentlemen, of viewing 
 a remarkably large /at ox, which has been presented by some gentlemen in 
 Connecticut to his Excellency, Gen. Washington. He is 6 ft. 7 in. high, and 
 weighs on the hoof 3,500 lbs., the largest animal I ever beheld." 
 
 67. The Ox Leopard. — An ox called "Leopard," raised and fed by Dr. 
 
Sko. 4.] 
 
 BEEVES OF GREAT WEIGHT. 
 
 63 
 
 ^m. Elmer, of Eridgton, N. J., was slaughtered, Feb. 24, 1832, at llie age 
 
 of 6 years and 8 months. His live weiglit was 3, 300 lbs. Size — length from 
 
 nose to rumiJ, 10 ft. 6 in. ; from nose to end of tail, 15 ft.; girth behind fore 
 
 shoulders. Oft. Sin. ; around the body, 10ft. 9 in. ; around the brisket, 10ft. 
 
 3 in. ; length from shoulder to rumi?, 7 fr. ; along tlie back from horns, 9 ft. ; 
 
 width across the hip, 2 ft. 10^ in. ; Light of fore shoulder, 5 ft. 6 in. ; behind, 
 
 5 ft. 8 in. ; circumference of leg below the knee, 1 foot. 
 
 C8. Two Big Oxen iu Pennsylvania. — We have a letter from James Stewart, 
 
 Pennsylvania, and another from Andrew M. Frantz, giving the weight of 
 
 two bullocks heavier than the Washington. One known as the " Lancaster 
 
 County Ox," Mr. Stewart writes, " M-as owned and fed by Emanuel Landis, 
 
 near this city ; was a half-bred Durham, deep red, large fore quarters, long, 
 
 fine horns, and was over seven years old. Wm. F. Miller, of Lancaster, 
 
 purchased him for $800, and slaughtered him on the 22d of February, 1858. 
 
 This ox weighed : 
 
 Live weight 3,387 lbs. 
 
 Net weight 2,409 " 
 
 Weight of one fore quarter ": 747 lbs. 
 
 Weight of the other fore quarter 760 " 
 
 Weight of one hind quarter 469 " 
 
 Weight of the other hind quarter 442 " 
 
 2,418 lbs. 
 
 Deduct weight of hooks for weighing 9 
 
 Total net weigh.t 2,409 lbs. 
 
 "The Berks County ox, that was butchered some years ago in Philadelphia, 
 
 weighed as follows : ^ ■ 
 
 Live weight 3,350 lbs. 
 
 Net weight 2,388 " 
 
 Weight of one fore quarter 732 lbs. 
 
 Weight of the otlier fore quarter 728 " 
 
 Wi'iu'ht of one hind quarter 464 " 
 
 Weight of the other hind quarter 464 " 
 
 Total net weight 2,338 lbs. 
 
 " There has long been a generous rivalry between the farmers of Berks 
 and Lancaster counties in regard to which could grow the fattest and largest 
 oxen. As it now stands, Lancaster is ahead, but we may look out for some- 
 thing ere long greater still from Old Berlcs, for the resources of that county 
 are astonishing, as even jDoliticians can testify. 
 
 "There was another steer butchered in this city, in February, 1856, by 
 David Killinger, owned and fed by Abram Landis, of Manheim towilsliip, 
 that netted 2,108 lbs., but that weight, and greater, has been frequently 
 attained in this State, and even in this county. The first two (whose weights 
 I have given) I will not say are the largest cattle ever slaughtered, even in 
 Penosylvania, but they are the largest that have ever come under my obser- 
 vation, and in regard to whose weight there was no dispute. I, however, 
 entirely concur with the writer in the Tribune, that there ticver was an ox 
 fed to the weiglit of 4,000 lbs. gross. An animal that will weigh 613 lbs. 
 more than the one butchered in this city in February last, has certainly never 
 been yet produced." 
 
54 DOMESTIC ANIMALS. [Chap. I. 
 
 Mr. Frantz says the Berks County ox was fed by a man named Soetz, 
 and was slaughtered, lie tliinks, in 1846. If so, his weight should have been 
 known here and remembered, but it was not by one of the butchers and 
 others that we thought likely to know, of the many of whom we sought 
 information. "We have often heard of heavier bullocks, but lack the proof, 
 as in the case below. The above figures are now matters of record, where 
 they can be referred to in future. 
 
 69. The Saratoga Bis Bullock. — Since writing the above, we see the fol- 
 lowing in the Country Gentleman of May 27, 1860 : 
 
 " The Saratoga County Press says that J. M. Cole, of Saratoga Springs, 
 slaughtered an ox, in 1847, whose live weight was 3,520 lbs. ; dressed, 
 2,567 lbs." 
 
 Let Mr. Cole give us the vouchers. If he has made an ox of that 
 weight, he has probably beaten the world, and should give the world the 
 proof. It wants to know certainly the weight of the heaviest bullock. 
 
 70. Weights of the Crystal Palace Show Cattle. — The following are the net 
 weights of the nine head of fat bullocks, exhibited as a show at the Crystal 
 Palace. Some of them were full-blood Kentucky and Ohio Durhams, aftd 
 others, grades of that blood. They were bought by Jim Irving, of Washing- 
 ton Market, and fairly weighed as follows : 
 
 Tlie best pair weighed — one, 2,178 lbs. — and his quarters, 60-4 and 612 lbs. 
 for the fore quarters, and 480 and 482 lbs. for the hind quarters. Tlie other 
 weighed 2,066 lbs. — the fore quarters 570 and 568 lbs., and the hind ones 
 470 and 458 JJ)s. 
 
 Another pair weighecl together 3,680 lbs. The old cow, which was 
 excessively fat, weighed 1,460 lbs., dressing, it is said, 73 lbs. per cwt. Tiie 
 best steer dressed 72ilbs. per cwt. The other four head weighed 2,024, 
 2,008, 1,930, and 1,860 lbs. 
 
 Forty head of Illinois grade Durhams, five and six j'ears old, sold in 1858, 
 in the New York market, averaged 22 cwt. each alive, and one hundred 
 head averaged over 20 cwt. each. 
 
 71. The llaxtun Steer. — The Ilaxtun steer was raised by E. Ilaxtun, in 
 Beeknian Township, Dutchess Co., N . Y. He was out of a cow bought from 
 a drove that came from near Cleveland, Ohio, which was probably three 
 fourths Durham, and a full-bred short-horn bull, of Mr. Sheaf's (Dutchess 
 County) importation. The steer was called jfths Durham, part of the blood 
 appearing to indicate a descent from the long-horn of the old Kentucky 
 importation. His color was nearly all red, having some whitish roan spots, 
 and he was, notwithstanding his great size and fatness, one of the hand- 
 somest-formed fat bullocks we have ever seen, and as firm on his legs almost 
 as he ever was, and was in appearance as fresh and healthy as ever, taking his 
 rations regiilarly. His feed Avas 14 qiiarts a day of meal, made of two parts 
 Indian corn and one part oats, and as ninch hay as he would eat. His feeding 
 commenced in the fall, after he Avas four years old, and he was seven years 
 old the spring before he was killed. His weight at home, Dec. 1, 1859, was 
 
Sec. 4.] 
 
 BEEVES OF GREAT WEIGHT. 
 
 55 
 
 3,472 lbs. He was probably weigbed full at tliat time ; bnt after a railroad 
 passage of 75 miles, he was weighed here, Jan. 9, ISOO, before he was filled up 
 with food and water, and his fair, honest weight, as given by David Allerton, 
 who weighed him, was 3,452 lbs. Three days afterward, weighed upon the 
 same scales, by the same man, M'ith scales carefully balanced, he weighed 
 3,418 lbs. Afterward, upon two other scales, his weight was 3,419. He was 
 sold Jan. 10, 1860, to Wm. Lalor, of Centre Market, for $850; and was 
 slaughtered and dressed at Patterson's slaughter-house, Jan. 19, by the same 
 man who dressed the Washington, and hung until Jan. 26, when the quarters 
 were weighed, under the careful supervision of Barney Bartram, John Harris, 
 John M. Seaman, and James L. Stewart, and in the presence of a large 
 company of lookers-on, many of whom were considerably interested, having 
 invested largely in the way of bets upon the net weight. 
 
 The following was the result: fore quarters, 700 and 668 lbs.— 1,368 lbs. ; 
 the hind quarters, 4S2 and 469 lbs.— 051 lbs. ; total, 2,3l9 lbs. This was 2?- 
 Ibs. over 67f lbs. per cwt. of tlie last live weight. Tlie shrinkage was esti- 
 mated at 50 lbs. ; but he was hung just the same length of time as the 
 Washington, and, like him, has had his hide stuffed and form preserved, 
 being, up to that time, the largest bullock ever brought to ISTew York. The 
 fatting of this steer has been one of the most perfectly successful experiments 
 to produce a monstrous animal, so evenly formed and faultlessly shaped, 
 tliat no one could say where he could be improved. 
 
 72. Other Large BullOCks.^A pair of oxen, called the " Cayuga Prize 
 Oxen," was also sold in the New York market, the same week, for $700, which 
 was considered remarkable ; their live weight, however, was 2,865 lbs. each ; 
 they were six years old. 
 
 file Michigan Farmer of Jan. 20, 1860, says : " We lately gave an account 
 of several fat cattle v.'hich were killed in this city on the week before the 
 jS'ew Year. The pair weighed 6,437 lbs., or 3,218 lbs. each. The net weight 
 was estimated at 68 lbs. per cwt." Of some others the Farmer said: '-'The 
 actual yield of the cattle killed by William Smith, in this market, was 66 lbs. 
 to tlie 100 lbs. of live weight, or 2,150 lbs. from 3,218 lbs. It will be seen 
 by this, therefore, how those great oxen killed in the Detroit market 
 approximated to what is considered the largest and fattest animal ever killed 
 in the United States." 
 
 We have a letter before us from Isaac Hubbard, of Claremont, N. H., 
 who is ninety years old, but not too old to read with interest the accounts 
 of these fat bullocks. He says that, seeing an account of the Haxtun 
 steer, which interested him very much, induced him to give the history of 
 a fat bullock fed by him twenty odd years ago. 
 
 Tlie calf was dropped Jan. 4, 1832, and was then estimated to weigh 100 
 
 lbs.; Jan. 4, 1833, he weighed 8741bs.; Dec. 3, 1833, 1,280 lbs. ; Jan. 5, 
 
 1835, 1,800 lbs. ; Dec. 26, 1835, 2,350lbs. ; Feb. 15, 1837, 2,9101bs. 
 
 ■ In Oct., 1838, Mr. H. sold him, and he was conveyed to Hartford, Conn., 
 
 and weighed 3,370 lbs. This steer was bought by Paran Stevens, since of 
 
56 
 
 DOMESTIC ANIMALS. 
 
 [Chap. I. 
 
 great hotel notoriety, and was extensively exhibited in this country as " the 
 largest ox ever seen." Perhaps some persons in this State may remember 
 the exhibition of this mammoth ox. 
 
 In 1840, this great show animal was sent to England for exhibition there, 
 and, it is said, attracted much attention. From there he was taken to 
 France and Belgium, and exhibited as the great bullock of the world. He 
 was brought back to England and slaughtered, but his weight at the time, 
 either alive or dead, was not published, but it was less in this country than 
 that of several whose weights we have published. This is one of the great 
 show bullocks which have been exhibited and advertised as weighing over 
 4,000 lbs., a weight that never has, so far as we have any satisfactory records, 
 yet been attained ; and although we believe that 4,000 lbs. is above the 
 limit that can be attained by one of the bovine race, we would not discourage 
 the efforts of those who have made noble attempts to improve this class of 
 livestock, both in form and quality, and who will not be content until the 
 utmost possible limit of weight is accomplished. 
 
 The name of Mr. Hubbard's steer was " Olympus," in this country, but in 
 Europe he was exhibited iinder the name of " Brother Jonathan." He was 
 of the " native stock," common in New Hampshire ; his color a dapple-bay 
 or red, a little changeable in tlie sun, with white spots on the face and legs. 
 
 It is not, however, generally profitable to feed such great bullocks as we 
 iiave noticed ; but, to see what has been done, it will always be an interest- 
 ing matter of reference. So will be the matter we shall give in the next 
 section. 
 
 SECTION V.-STATISTICS OF THE NEW YORK CATTLE MARKET, 
 
 umbers of Butchers' Animals Annually Sold in New 
 
 York. — Farmers are very justly accused of a 
 neglect of statistical information in relation to the 
 business upon which all their prosperity depends. 
 In the very important matter of furnishing the 
 cities with bullocks, the producers had no means 
 of forming estimates of the needed supply, until we 
 instituted reports of the cattle markets of all the prin- 
 cipal cities, and particularly the city of New York, 
 which is an enormous consumer of fresh beef. To this 
 market we have devoted many years, attending almost 
 every weekly market, and have given the farmers statis- 
 tical tables of immense value to them. "We now 
 embody some of this useful statistical information, 
 where it can stand as a table of permanent reference ; and we earnestly 
 commend it to all who are engaged in agricultural pui-suits. 
 
Seo. 5.] STATISTICS OF THE NEW YORK CATTLE MARKET. 57 
 
 ANNUAL EECEIPTS FOE. TEN YEA.KS — 1854-1863. 
 
 Tears. Beeves. Cows. Calves. Sheep. Swine. Ann. Totals. 
 
 1854 169,864.... 13,131.... 68,584.... 555,479.... 252,328.... 1,059,380 
 
 1855 185,564.... 12,110.... 47,969.... 688,741.... 318,107.... 1,152,491 
 
 1856 187,057.... 12,857.... 4.3,081.... 402,739.... 345,911.... 1,051,645 
 
 1857 162,243.... 12,840.... 34,218.... 444,036.... 288,984.... 942,321 
 
 1858 191,874.... 10,128.... 37,675.... 447,445.... 551,479.... 1,238,601 
 
 1859 205,272.... 9,492.... 48,769.... 404,894.... 399,665.... 1,068,092 
 
 1860 226,933.... 7,144.... 39,436.... 518,750.... 323,918.... 1,116,181 
 
 1861 222,835.... 5,749.... 32,868.... 512,306.... 559,421.... 1,. 333,239 
 
 1862 239,486.... 5,378.... 30,465.... 484,342. ... 1,148,209. .. . 1,907,880 
 
 1863 264,091.... 6,470.... 35,709.... 519,310. ... 1,101,617. .. . 1,927,203 
 
 Total ^,055,219. . . . 95,299. . . . 418,774. . . . 4,938,108. . . . 5,289,639. . . . 12,797,039 
 
 Av. pr. year . . . 205,522.... 9,530.... 41,877.... 493,811.... 528,964.... 1,279,704 
 
 WEEKLY AVERAGE OF ALL ANIMALS FOR TEN YEARS — 1854-1863. 
 
 Years. Beeves. Cows. Calves. Sheep. Swine. Tolai. 
 
 1864 3,257 253 1,315 10,682 4,852 20,359 
 
 1855 3,565 233 922 11,322 6,117 22,009 
 
 1856 3,597 247 828 8,898 6,650 20,224 
 
 1857 3,120 245 658 8,539 5,657 18,119 
 
 1858 3,680 195 724 8,004 10,605 28,809 
 
 1859 3,947 182 841 9,709 7,686 22,365 
 
 1860 4,304 139 758 9,976 7,229 21,405 
 
 1801 4,285 110 632 9,853 10,758 25,637 
 
 1862 4,518 101 574 9,138 21,664 36,000 
 
 1863 5,079 125 687 9,987 21,185 37,002 
 
 The increase of bullocks in this decade is 55 per cent. Cows have 
 fallen off more than half, and calves nearly the same. The supply of sheep 
 remains nearly stationary, but swine have increased enormously. The fol- 
 lowing is the estimated number of pounds of meat, derived from slaughtered 
 animals in 1863, and the wholesale value. In the estimate, cows are added 
 to the bullocks, because the most of them, eventually, go to the butcher. 
 
 Beeves— 270,561, av. 700 lbs. net 189,392,700 lbs. at 9ic. per lb. net $17,513,824 75 
 
 Veal— 35,709 calves at 75 lbs 2,078,175 " at 10c. per lb. net 267,817 50 
 
 Sheep and Iambs— 519,316, at 42 lbs.... 21,811,272 " atlOc.perlb.net 2,181,127 20 
 
 Swine— 1,101,617, at 150 lbs 165,242,550 " at G.]c. per lb. net 10,740,705 75 
 
 Total 379,124,097 lbs $30,708,535 20 
 
 It is also very important for farmers to know where the supply comes 
 from. Of 210,3S-1: bullocks sold in 1863, the six following States furnished 
 the respective numbers, viz. : Illinois, 118,692; New York, 28,985 ; Ohio, 
 19,269; Indiana, 1-1,232; Michigan, 9,074; Kentucky, 6,782. As the same 
 proportion holds good for all the cattle received in New York, it will be seen 
 that Illinois furnishes 56i per cent. True, a good many credited to that 
 State come from Iowa, Missouri, and other States. 
 
 The proportion of hogs from Illinois is probably greater than upon beef 
 cattle. The great bulk of pork from the hogs slaughtered here is packed 
 and sent to other places for consumption ; large quantities of it to Europe. 
 A small portion of the beef is packed and sent abroad. The great bulk of 
 it, and all the veal and nearly all of the sheep, and a vast quantity besides 
 that comes in ready dressed from the country, goes to furnish fresh meat to 
 the cities of New York and Brooklyn, three small cities in New Jersey, and 
 several towns within fifty miles, ships in port, and most of our armed ships 
 and forts and soldiers ou the coast between Hampton Roads and Key "West. 
 
DOMESTIC ANIMALS. [Chap. I. 
 
 Estimated average price of beef cattle per net i^ound eacli year, 1854—63 : 
 1854, 9 cents full; 1855, 10 cents; 1856, 9i cents nearly; 1857, lOi cents 
 nearly; 1858, Si cents nearly; 1859, 9 cents; 1860, 8 cents full ; 1861, 7| 
 cents; 1862, 7| cents ; 1863, 9i cents. Up to March, 1864, prices liave ranged 
 from 9 to 16 cents a pound net, which was higher than before since 1857. 
 
 During 1863, the live-weight price of corn-fed hogs ranged from 4 to 7 
 cents per pound. In February, 1864, it reached 8| and 9 cents per pound, 
 which was the highest price for Western stock ever attained. 
 
 That all who read this page may see what an immense interest is involved 
 in the live-stock trade of the country with New York city, we add the fol- 
 lowing calculation of number of pounds of meat and estimated value : 
 
 CONSUMPTION OF TEN TEAKS — 1854-1863. 
 
 Peeves— 2,100,518 head av. 700 lbs. net. ..1,505,362,600 lbs. at 9 cents per lb. net. . $135,482,6.34 
 
 Calves^l8,774headav. 75 lbs. net .31,408,0-50 " atlOcentsperlb.net.. 3,140,805 
 
 Sheep and lambs-^,938,108 head av. 42 lbs. 207,390,536 " atlOcentsperlb.net.. 20,739,053 
 
 Swine— 5,289,639 head av. 125 lbs 661,204,800 " at cents per lb. net. . 39,672,288 
 
 Total 2,406,305, 986 lbs $199,034,7>-0 
 
 Average per annum for the ten years.. . . 240,.536,598 " 19,903,478 
 
 Farmers, look at these figures. They teach you au important lesson ; one 
 well worthy of being placed ujDon this permanent record, to remind you and 
 your children of the great importance of the live-stock interest of the country. 
 You sec by the tables the rapid increase of the trade, and the enormous sum' 
 tliat it amounts to in ten years. Lest you sliould be confused by tlie sum in 
 numerical figures, let us repeat it in words. Two billions four hundred and 
 five millions three hundred and sixty-five thousand nine hundred and 
 eighty-six pounds of meat, amounting to one hundred and ninety-nine 
 millions thirty-four thousand seven hundred and eiglity dollars. Tiiis is 
 the sum that New York city has disbursed to the farming interest for leu 
 years' supply of meat, derived from tlie slaughter of twelve millions seven 
 hundred and ninety-seven thousand and thirty-nine animals. 
 
 These statistics enable us to realize tlie vast resources of America. The 
 country is now feeding a million of men in tiie army, fighting for freedom, 
 full rations of meat, and sending nearly two millions a year of animals to 
 the city shambles of New York, for which the city is sending back to the 
 country twenty millions of dollars. 
 
 This is the greatest meat-eating country in the world ; it produces all that 
 it consumes and a great surplus to send abroad. 
 
 74. Cattle Transportation! — Nearly all the stock sold in the New York 
 market is transported upon railway cars. We assume that the beeves for 
 ten 3'ears' supply have paid a tarifi" of $10 a head average to railroads, 
 making the sum of $21,505,180; calves at fifty cents a head, $209,387; 
 sheep at seventy-five cents, $3,703,681; hogs at $1 25 each, $6,612,048. 
 Total $32,030,296, as the estimated amount paid for the transportation of 
 animals butchered in New York for ten years. 
 
 Improvement is needed in transportation. Animals are forced to stand 
 without food or water two or three days, or as long as their tired legs will 
 
Seo. 5.] 
 
 STATISTICS OF THE NEW YORK CATTLE MARKET. 
 
 59 
 
 6ustain'tliem, and when they fail, as sometimes they do, the fainting creature 
 falls and is trampled to death. 
 
 We must have an improvement in cattle-cars. It certainly would not be 
 difficult to construct them so that cattle should stand with heads to one side, 
 where water could be given them in a trough by means of hose ; and if this 
 can not be done, it must be made a criminal oflense to keep the animals on 
 a car more than 30 hours without water. In fact, it would be better for all 
 parties if the number were limited that a car should contain, and that in no 
 case should the stock remain on the cars over 30 hours, without being 
 unloaded, rested, fed, and watered. The present practice is a loss to owners 
 and an injury to consumers, by making the beasts feverish and imhealthy, 
 besides being an outrageous act of cruelty to animals. The whole commu- 
 nity is interested, and should cry out against tlie wicked practice, wliich is 
 enough to make humanity shudder. 
 
 75. Comparative Measurenicnfs of fattle« — Inquiries are often made in 
 regard to the relative size of difierent breeds of cattle. It is not easy to give 
 a very definite answer to questions of this kind ; but as several of the leading 
 breeds of this country were derived fi;om England, where they are bred in 
 greater numbers than they are here, an idea of their comparative size may 
 be had from certain measurements taken of prize animals at the English 
 shows. We give the following tables in reference to Sliort-horns, Herefords, 
 and Devons, which took prizes at the shows of the Royal Agricultural 
 Society, in 1858 and 1859. The first was prepared for the Society by Mr. 
 Robert Smith. 
 
 CLASS. Aver 
 
 Short horns. J" 
 
 Aged bulls 4 
 
 Yearling bulls 1 
 
 Bull calves 
 
 Cows 3 
 
 Two-year-old heifers. 2 
 Yearlings 1 
 
 Average Girth. 
 
 Herefords. 
 
 Aged bulls 4 
 
 Yearling bulls 1 
 
 Bull calves 
 
 CLASS. Avoro 
 
 Herefords. jrs. 
 
 Cows 7 
 
 Two-year-old heifers . 2 
 Y'earlings 1 
 
 Devons. 
 
 Aged bulls 3 6 7 6 
 
 Yearling bulls 1 .6J 6 2 
 
 Bull calves 8i 5 2 
 
 5 8 3 Cows 6 2i 6 9| 
 
 Wi 7 0^ Two-year-old heifers. 2 G C 10 
 
 10| 5 11^ Y'earlings 1 7} 6 1 
 
 The next table was furnislied by Mr. Thos. Duckham, the editor of the 
 " Plerd-Book of Hereford Cattle." As far as it goes, it comprises measure- 
 ments of Short-horns and Herefords, which received prizes at the Warwick 
 show that year, the rank of the awards having been according to the order 
 observed in the table. 
 
 CLASS. Averi 
 
 Short-horns, yrs. 
 
 Aged bulls 4 
 
 4 
 
 Yearling bulls. 
 
 Average Girth. 
 
 CLASS. Average Age. 
 
 Herefords. J". mos. 
 
 Aged bulls 2 10 . . 
 
 4 6 .. 
 
 Y'earling bulls . 
 
 Cows 4 
 
 4 
 
 9i 
 10.V 
 0' 
 
 Average Girth. 
 
 Bull calves 
 
 Cows 3 
 
60 
 
 DOMESTIC ANIMALS. 
 
 [Chap. I. 
 
 76. The Improvement in Breeds and Weights of Cattle. — What has raised 
 the average weight of beef cattle from 500 to 800 lbs., and some individuals 
 up to 3,600 lbs. ? What has raised the crops of corn to double their former 
 yield, and in several instances produced over 190 bushels of corn to the acre 
 — that was in Kentucky ; but in the State of New York whole fields have 
 averaged 100 bushels. In Connecticut, 13i bushels of ears of corn have been 
 produced upon half an acre, at an expense for culture and harvest of less 
 than $3. What has induced men to root up old orchards of natural fruit, 
 "five to the pint," and plant pippins, baldwins, greenings, russets, etc., some 
 of which have been sold from $8 to $20 a barrel, and retailed at a guinea 
 a dozen ? What has induced ingenious men to devote the best energies of 
 their minds to inventing plows, harrows, drills, reaping-machines, and evei'y 
 other implement of husbandry, while every class of domestic animals has 
 also been improved — neat cattle probably the most of all ? 
 
 The answer is, the publication of just such facts as we are now giving, 
 which tend to show what has been done by some men, and may be done by 
 others. This encourages us to continue our labor. 
 
 SECTION VI.-FEEDING CATTLE AND CARE OF FARM-STOCK. 
 
 electing Calves for Rearing. — Use judgment in 
 selecting such heifer calves as are to be reared. 
 Select only those whose mothers are good milkers, 
 and whose sires have come fi-om good milking 
 stock ; at the same time, the calf itself should have 
 those characteristics that indicate an aptitude to develop 
 good milking qualities, viz. : small, fine head, rather long 
 ^\ in the muzzle; bright eyes; thin, tapering neck; small, 
 well-shaped legs ; long body ; large hind quarters, set wide 
 behind ; soft skin ; fine hair — the color of which is immate- 
 rial ; and, above all, the milk-mirror or udder veins should 
 be large and well developed. 
 
 The raising of bull calves for breeders had better be left 
 to those who have time and means to devote their attention 
 to it, who procure the best animals to begin witli. It would be no loss to 
 the country, were the, numerous specimens of scrub bulls, too often seen, 
 condemned to perpetual exile. 
 
 But there is no reason why a portion of the male calves, at least, should 
 not be reared as bullocks, either for the team or the butcher; and it is 
 important that such as are reserved for this purpose should possess certain 
 points indicative of future excellence, viz.: well-shaped head; small ears; 
 short, thick neck; deep brisket; broad chest and shoulders; fine bone; long 
 
Sec. 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 61 
 
 body, well rounded behind the shoulders ; straight back ; wide loins ; full 
 quarters ; tail tliiu and tapering ; skin soft, and not too thin. 
 
 It is too often the case that animals are selected for rearing from being of 
 pretty color — that takes the fancy of some member of the family — or the 
 calf of some pet cow of the dairy-maid, without attention being paid to its 
 promise of excellences. Not unfrequently valuable calves are fattened for 
 veal, simply because their color is unpleasing to tJie eye. 
 
 This is about the most important branch of the stock-raiser's business. 
 Too many persons pursue the careless mode of the person who wrote the 
 ibllowing item : 
 
 " In the spring of 1S5S my two cows had bull calves, which I determined 
 to raise for sale, and so gave them a good chance to grow, adding an extra 
 iu the shape of a handful of barley meal, M-ith their feeds of milk. They 
 grew finely, or rather Bobby did, for Billy, taking a sudden dislike to sour 
 milk, had rather slim rations for the last six weeks befoi-e weaning. I told 
 liim lie might starve if he liked, and took no special pains to humor his 
 fancies. In September I had an ofler of §G for Bobby, and concluded to 
 let him go, but the buyer was behind time about two weeks, and thought 
 the additional keepi'ig worth nothing, so I did not turn him oif. So, of 
 course, Bobby was kept, and grew up to propagate the race of Bob calves." 
 
 78. Calves — Give them Shelter. — It is almost impossible to winter calves 
 without shelter ; if they survive the winter, they are mere skeletons, and 
 liave to be lifted up before spring, and never make anything but poor, raw- 
 boned, unprofitable stock. Sheep are many times allowed to pick up what 
 they can get for half the winter; but the dead iambs, and probably dead 
 sheep, that lie scattered over the fields, tell the profit of such a course. 
 When protected, all food not required to maintain the natural waste of the 
 system goes toM'ard increasing the growth of the animal. To obtain perfect 
 form, animals should be kept continually growing until they arrive at 
 maturity. They are often turned out in the spring so poor that it requires 
 half the summer to make them as good as they were the fall before — a loss 
 of three quarters of the year in the growth of the animal. A grazier lately 
 said to us, in speaking of such a lot of cattle that he bought, "It took the 
 whole summer to soak their hides loose, so that they could begin to grow. 
 They seemed as hard and dry as a pair of old boots, and in some spots as 
 destitute of hair." 
 
 79. Training Steers. — At the Maine State Fair, a boy of fifteen years, 
 from the town of Woodstock, had a pair of three-year- old steers, which 
 obeyed him as an obedient boy will his parents. By a motion of his liand 
 they would go forward, halt, and return, go to the right or left, kneel down, 
 and perform other things, much to tlie surprise of some older farmers, who 
 are in the habit of putting the brad through the hide. At a New York 
 State Fair there was a perfect Karey of an ox-tamer, who practices breaking 
 steers for farmers, and as he never treats thera inhumanly, he soon has them 
 under perfect control, and as bidable as well-trained children. 
 
62 DOMESTIC ANIMALS., [Chap. I. 
 
 80. Unruly Animals. — As a general rule, our domestic animals are never 
 unruly, except wlien taught to be so. For instance, some persons, in turning 
 stock from one field to another, only let down a few of the top rails or bars, 
 and force the animals to jump over. Too lazy to put up as well as to let 
 down, they leave the gap half closed, as a temptation to tlie stock to jump 
 back again. A few practical lessons of this kind make stock unruly. Care- 
 lessness in regard to putting up fences wlien thrown down, or in repairing 
 weak spots, coniirms the habit. A writer says his practice has always been 
 to teach his cows, calves, sheep, and hogs to go tiirough or under, rather 
 than over, the bars or fences, always leaving a rail or bar up at tlie top. 
 Taught this way, they never think of jumping, and he has never been 
 troubled with unruly animals, even when his fences were low. 
 
 81. Kindness to BruteSi — No man can afford to be unkind to his domestic 
 animals, because animals which are treated the most kindly are the most 
 gentle and obedient, and also thrive the best ; hence, no one can afford to 
 use them unkindly. By kindness, mingled with fii-raness, the most ferocious 
 animals are subdued, and it is vain to suppose that the same means would 
 not be effectual in training domestic animals. Sui'clj', no one should degrade 
 himself by continuing a practice which is both unprofitable and inhuman — • 
 a practice that makes man the brute instead of tlie quadruped. There is no 
 economy in half starving any stock tlirougli the winter, and causing them to 
 take all the storms without any shelter ; but, on tlie contrary, it is a clear 
 waste and loss to the owner. 
 
 82. Shelter for Cattle. — Next to the necessity of an adequate supply of 
 food for stock, comes the importance of shelter. It needs no argument to 
 prove the truism that animals can not live without food; and it is just as 
 certain that our domestic stock, artificially susceptible to the storms and 
 clianges of our Northern climate, can not thrive without proper slielter. It 
 seems now to be well settled, that a due degree of warmth is equivalent, in 
 a measure, to food; and we all know that an entire ahamhii to ease and 
 comfort, while in a state of rest — a perfect freedom from apprehension of 
 any kind, which may arise from a lack of food, or from exposure, or any 
 other cause — is necessary to the maximum of thrift or usefulness. 
 
 On old, improved, rich lands, it would be policy in the fiirmer to stable or 
 yard his cattle and horses during the whole year ; but I should prefei- yarding 
 in the summer season, as more air and room for exercise would be allowed, 
 both of which would be conducive to the health of the animals. 
 
 One acre of land, in good condition, sown to corn, and cut and fed from 
 the time it begins to tassel until it begins to glaze, will keep six liead of 
 cattle during the time, and perhaps more— say two months — while it would 
 have taken six acres of pasture to keep them the same length of time. 
 
 On farms where tlie pasture is generally the roughest, poorest part of the 
 farm, and that which could not be applied as profitably to other purposes — - 
 on such lands the cattle must be allowed to get their own living in summer. 
 
 The above are cxcerpta from several excellent essays in the Genesee 
 
Seo. 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 63 
 
 Farmer^ and might have been much more extended, only that we have a 
 great many other good things to glean from other sources. 
 
 83. Straw for Cattle. — Mr. Johnson says, in a letter to the Genesee 
 Farmer : " You say that I put straw in my boxes for my cows. This is not so. 
 No man ever saw me feed straw to cattle, at least for the last twenty- -five years. 
 If they choose, they can eat the straw sjsread out for litter, but I never 
 compel them to eat straw. I know cattle can be fatted on grain and straw, 
 but I don't think so profitably as part grain and part hay, or part oil-cake 
 and part ha}'. Grass is the natural food of sheep and cattle ; and hay made 
 from grass, if properly made, puts on fat, even if very little else is fed. I 
 am satisfied that either cows or fatting cattle do much better in yards, with 
 ample sheds and plenty of straw for clean, dry beds. I can not feed any 
 kind of stock pi'otitably unless they have such beds." 
 
 84. Wintering Cattle. — There is yet a good deal of Avisdotn to bo learned 
 upon this subject, even by those whose talk is of bullocks, and particularly 
 in wintering calves. The one great error is in neglecting them in autunni, 
 after the frost has destroyed the sweetness of the grass, and allowing them 
 to commence getting poor before winter feeding is commenced. There is no 
 error more fatal to success than such neglect. It is often the foundation of 
 disease that the animal never recovers from. There is no condition so good 
 for an animal going into winter quarters as a thriving fatness ; and if that 
 can be kept up till mid-winter, the danger of starvation upon very light 
 feed in the spring is greatly diminished. It is one of the worst things in all 
 farm economy to neglect feeding stock in the fall, because it is not yet time 
 to begin to fodder. You had better begin in July, if your pasture fails, 
 so that your animals begin to lose flesh. All that is saved of fodder in tlie 
 fall, upon the plea that " cattle can shift a while longer," exactly verifies the 
 old saw about " saving at the s2)igot and wasting at the bung." 
 
 85. FeediE,? Pcmpkins. — A subscriber sends a long communication against 
 feeding pumpkins to cows. The writer's reasoning is not entirely sound, and 
 does not agree with our own experience and observation. As a general rule, 
 we are quite snre that pumpkins increase rather than diminish the quantity 
 of milk ; and instead of making neat stock grow poor, we have fattened 
 large numbers of cattle on pumpkins alone. There is one suggestion in our 
 correspondent's letter, however, wliich may be worthy of attention. He 
 refers to the fact that the seeds of pumpkins have a decided diuretic (urine- 
 producing) efl'ect upon the human organs, and that if they have the same 
 effect upon cows, the excessive .flow of urine must necessarily reduce the 
 flow of the milky fluid. He advises that when pumpkins are fed, the seeds 
 should be taken out. The idea is plausible, and -worth being acted on. 
 
 86. Keeping Stock Warm, and Variety of Food. — Man craves a variety of 
 food ; that is, a variety of substances, either one of which would sustain life, 
 but would not be satisfactory. Nature demands the variation, and the mix- 
 ing together the several substances. "Why ? Simply because no one will 
 give all the elements that go to make up the animal economy. One article 
 
G4r DOMESTIC ANIMALS. [Chap. I. 
 
 furnishes phosphate for bones, which another article is destitute of, yet it 
 may contain matter that will clothe the bones with muscle. Food that con- 
 tains neither fat nor sugar will be found sufficient to keep up the animal 
 heat. Food that contained all the elements of bone, muscle, fiber, fat, and 
 heat-producing qualities, might be bo concentrated as to be unhealthy. 
 
 A man fed upon pemmican, would have a disposition to eat straw, husks, 
 and twigs, or gnaw the bark from trees, to get something to distend the 
 stomach and enable it to perform its functions healthily. Let this be thought 
 of in feeding domestic animals. It will furnish an easy rule for your 
 guidance. Judge them by yourself, and act accordingly; you will find it 
 an easy and sure road to success. We do not for animals, quadruped or 
 biped, recommend a variety of food at the same meal — only a change from 
 time to time, so as to give variety, and consequently all the elements neces- 
 sary to produce growth. 
 
 Never neglect to give your cattle water until you learn to do without it 
 yourself, and never ofler them drink where you would vomit if compelled 
 to slake your own thirst. 
 
 Never leave a horse, a cow, a sheep, out in a cold winter storm, until you 
 arrive at that condition of unfeelingness that you could endure it younelf. 
 When you think you could find comfortable sliclter under a common rail 
 fence, jon may leave your cattle there. No domestic animal can ever reach 
 tlie highest state of perfection its nature is capable of unless always kept in 
 a healthy, growing condition, in an equable climate, or in warm shelter if 
 the inhabitant of a cold one. 
 
 Farmers do not pay sufficient attention to the warmth of their stock, but 
 sufier them to roam about in the open air, exposed to the inclement weather. 
 The amount of exercise is another most important point to attend to. The 
 more an animal moves about, the quicker it will breathe, and the more 
 starch, gum, sugar, fat, and other respiratory elements it must have in its 
 food; and if an additional quantity of these substances be not given to 
 supply the increased demand, the fat and other parts of the body will be 
 drawn upon, and the animal will become thinner ; also, as before observed, 
 every motion of the body produces a corresponding destruction of the mus- 
 cles which produce that motion. It is therefore quite evident that the more 
 the animal moves about, the more of the heat-producing and flesh-forming 
 principle it must receive in its food. Hence we see the propriety of keeping 
 our cattle in sheds and yards, and not suifering those (particularly which 
 we intend to fatten) to rove about, consuming more food, and wasting away 
 more rapidly the various tissues of the body already formed, and making it 
 more expensive and difficult to fatten them. 
 
 87. Fattening Cattle upon llay^ — Speaking upon this subject, a committee 
 of the Massachusetts Board of Agricultui-e, of wliich John Brooks and Paoli 
 Lathrop are members, remark : 
 
 *' Fattening cattle in winter upon hay alone is a i-esort of many farmer?, 
 and where hay is plenty and distant from market, the practice is not incou- 
 
Seo. 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 65 
 
 sistent with economy. If well attended, good animals consuming four per 
 cent, of their live weight of good hay daily, will gain daily two pounds of 
 flesh. Suppose the flesh gained to be worth 16 cents, it will be equal to $8 
 a ton for the hay. The better practice, however, is to give only three per 
 cent, of the live weight of the animal in hay daily, and an equivalent for 
 the other one per cent, in Indian meal or roots. The gain would be greater 
 for the same cost of food." 
 
 Another remark worth qiioting is the following : 
 
 "The best age for feeding cattle for beef is from four to eight years. 
 Young growing cattle may be fattened, but it Avill require more food in pro- 
 portion, and longer time." 
 
 88. How to Feed Roots. — ^There seems to be much diversity of opinion as 
 to the value of turnips, carrots, etc., for feeding. One man feeds his hogs a 
 great amount of them, but neglects to provide a bed secure from the intru- 
 sion of cold winds and snow, and then wonders they do not grow ; or feeds 
 a cow four bushels per day, and wonders she does not fat. How could she? 
 She is almost physicked to death, and her urinary organs are injured by 
 over-exertion ; and although she is thoroughly littered with straw, still her 
 feet are in the water ; and when she lies down, her side is wet. 
 
 After many trials in a similar Avay, many have come to the conclusion 
 that root feeding is an unprofitable business in our climate. If hogs must 
 sleejj in snow-banks, give them corn by all means, and give them plenty of 
 it. If cattle can not be stabled, or kept so sheltered that they may be dry, 
 then roots will not give one half tlie return they would under a judicious 
 system of management. 
 
 After many trials of fattening sheep and horned cattle, and feeding store 
 stock of all kinds with roots, I came to tlie conclusion that tliey are all valu- 
 able when properly fed witli hay and grain, but that their j-elative value to 
 grain is often overrated in this country of cheap corn. Roots, unless cooked, 
 are not economical food for swine. 
 
 The great error in relation to feeding roots is, that tliey are too mucli fed 
 to the exclusion of grain. A farmer has shoats to winter, or horned cattle 
 to fatten ; ho first feeds his turnips, carrots, beets, small potatoes ; next his 
 corn or meal. This is wrong. The corn should be fed from the first. A 
 dozen shoats of 100 lbs. each woidd profitably receive a bushel per day of 
 roots, if cooked with corn. A fattening ox should have one busliel, or not 
 over two, per day, with six or eight quarts of meal. Cows should have one 
 half bushel per day, whether being milked or not. That amount will bring 
 them out, in the spring, fat and ready to do good service at the pail, provided, 
 of course, that the}' liave hay and stalks in due proportion. Calves and 
 yearlings should always have one fourth bushel per day, Avith a very small 
 allowance of grain. 
 
 The above is partly from tlie Stoclc Journal, and the following from the 
 Working Farmer ; both of which are good authority. 
 
 We beg again to remind our readers, particularly tiiose who are engaged 
 
6G DOMESTIC ANIMALS. [Chap. I. 
 
 in dairy and stock fiinning, to appropriate a full anionnt of land to root- 
 growing. Carrots, beets, turnips, parsneps, njay all be raised with protit 
 wherever stock is to be fed. For horses, carrots are invaluable. For milch 
 cows, they not only furnish a milk of superior flavor, butter of fine color and 
 odor, but, when used as a portion of tlieir food, they guarantee a healthful 
 condition. The power of the pectic acid of tlie carrot to gelatinize all veg- 
 etable matter held in solution in the stomach, puts its contents in such a 
 condition that the peristaltic motion of the intestines can manage it. Flat- 
 ulence is prevented, and thorough digestion secured. The dung of the 
 horse fed partly on carrots, never contains the undeconiposed shell of the 
 oat, nor large amounts of starch unappropriated ; and it is for this reason 
 tliat a bushel of oats and a bushel of carrots will do more for the horse than 
 two bushels of oats ; and not because the carrot contains as much flesh- 
 making material as the oat, but because it causes all the flesh-making ma- 
 terial of the oat to be appropriated, instead of being voided with the excretia. 
 For cows and oxen, other roots may occasionally be substituted with profit, 
 as variety to all animals is pleasing in their food ; and no one root should 
 be so continuously used. Since the introduction of pulping machines, pulped 
 roots mixed witli cut hay, cut straw, and other cheap material, add much to 
 the economy of tlie fiirni as well as to the health of the cattle. 
 
 89. Feeding Liusced aud ('olton-secd Oil-fake. — Never having had per- 
 sonal experience enough in feeding oil-cake, having always preferred corn- 
 meal, to give an opinion which we would ask others to rely upon, we select 
 the following from a lecture by Prof. Voelcker, before the meeting of the 
 council of the Eoyal Agricultural Society of England, in June, 18G0. It is 
 worthy of attention from all cattle-feeders. lie says : 
 
 " It is not my object, in giving a practical turn to the lecture to-daj^ to 
 record any experiments of my own, or in any way to presume to teach the 
 feeder of stock in what way he may best expend his money in the purchase 
 of food, but I shall endeavor simply to give to the practical man some indi- 
 cations whereby I hope lie will be enabled to form for himself a trustwortliy 
 opinion respecting the relative value of difterent cakes, and likewise what is 
 perhaps of more importance to him, to introduce some remarks which will 
 enable him to distinguish a good from a bad cake; and in conclusion, shall 
 allude briefly to the various substances with which oil-cakes are at the pres- 
 ent time often largely adulterated. 
 
 90. Fat ill Food. — " Let me first point out to you some peculiarities in 
 the composition of oil-cakes. A reference to their composition is necessary 
 to the understanding the remarks wliich will follow. I would then observe, 
 that what characterizes oil-cakes, distinguishing them from all other articles 
 of food pre-eminently, is the large amount of oil that is left in the cakes, 
 obtained by expression of the oil-seeds. If you glance at the diagram (see 
 table on page 71), you will find that they contain a considerable quantity of 
 oil — from 6 to 12 per cent. ; and in some instances, as in the decorticated 
 cotton-cake, even 16 per cent, of oil. I may observe at once that the value 
 
Sec. G: 
 
 FEEDING CATTLE AND CARE OF FARM-STOCK. 
 
 67 
 
 of oil-cake in a very great measure depends upon the amount of oil wliicli is 
 left in the cake. And I may further say, that the tendency of the manufac- 
 turer at the present day is to produce an inferior description of cake, inas 
 much as improved machinery enables him to sfjueeze out more oil than 
 formerly, and thus to render tlie refuse less fattening, less valuable to the 
 feeder of stock. I am very much inclined to believe that tlie oil is ^j far 
 the most valuable constituent of all oil-cakes. I am aware that it was the 
 fashion, not many years ago, to measure the feeding properties and even the 
 fattening qualities of articles of food by the amount of nitrogenous or flesh- 
 forming matters ; but these views are not supported by any practical 
 experiments, nor, indeed, by the every-day experience that we have respect- 
 ing not only human, but cattle food. "We pay more for food ricli in starch, 
 mucilage, and matters capable of producing fat, than we pay for food which, 
 like bean-meal, is extremely rich in nitrogenous matter, but wliich does not 
 produce so much butchers' meat. It is a matter of much importance to the 
 farmer to know how much he gets back for the money he expends in the 
 piirchase of food. I have no hesitation in saying that more money is made 
 by the purchase of food rich in oil, starch, or sugar, than in the purchase 
 of food which contains an excess of nitrogenous matters. 
 
 91. Flesh ia Food. — "Still, we ought not to leave unnoticed that tlic 
 flesh-forming matters are very important indeed, and that oil-cakes are 
 peculiarly rich in them. In one sense they are perhaps most essential — per- 
 haps even more essentially necessary than the other constituents of food 
 which produce fat, or are employed in the animal economy to keep up the 
 animal heat. They are more important in this sense ; whereas the animal or- 
 ganization has the power to make fat from gum, sugar, mucilage, and even 
 from young cellulose or young vegetable flber, it has not the power of making 
 a particle of flesh. Unless, therefore, food is given to animals which contains 
 ready-made flesh, an animal can not grow, and the other constituents of food 
 remain unavailable. It is in this sense that the nitrogenous matters of food 
 are extremely valuable ; but in a purely practical sense the}' are not so val- 
 uable as tlie oil, starch, or sugar of food, because by spending a certain amount 
 of money in food, we do not get so great a return in the shape of butchers' 
 meat by purchasing these flesh-forming matters as by purchasing feeding 
 substances rich in oil or starch. However, in speaking of the relative value 
 of the various constituents, especially the oily and the flesh-forming constit- 
 uents, we are not to overlook that tlie quantity of nitrogenous matter which 
 is not applied for the formation of flesh, ]>asses tlirough the animal, and is 
 obtained again in the dung, with the exception of a small quantity tliat 
 escapes by evaporation through the skin or tlirough the lungs. A certain 
 quantity of nitrogenous food evaporates through the skin, or with the jier- 
 spiration ; but by far the largest proportion, according to some experiments, 
 nineteen twentieths, of the flesh-forming or nitrogenous matters of food are 
 found again in the dung ; according to others the amount is seven eighths. 
 But, speaking in round numbers, I think we are not far wrong in saying that 
 
68 DOMESTIC ANIMALS. [Chap. L 
 
 we may fairly expect three fourths of the nitrogeuized matters of oil-cake back 
 a^ain in the manure ; and periiaps we are safe, likewise, in asserting that 
 fully one half of the money value of rape and the best cotton cakes is ob- 
 tained back again in the manure. So we must not put down these constit- 
 uents, which are called nitrogenous, as useless, because they alone do not 
 produce much butchers' meat ; nor must we estimate the value of oil-cake 
 entirelj' by the increase in the live weight of cattle fed upon the cake, but 
 also, and chiefly, I believe, by the increased value of the^manure which is 
 produced througli the instrumentality of oil-cake. 
 
 92. Bone in Food. — " I will now direct attention to the inorganic matters 
 or ash of oil-cakes. These inorganic matters may be called bone material ; 
 for the ash of oil-cakes is particularly rich in phosphates of lime, or the ma- 
 terial of which the greater part of the bone is composed. Now, the large 
 proportion of oil ; next, the large proportion of flesh-forming matters ; and 
 third, a considerable proportion of bone material are characteristics that 
 confer a particular value upon oil-cake, either directly as food, or indirectly 
 as useful material for increasing the value of farm-yard manure. For let me 
 observe, that oily matters and substances that make butchers' meat are the 
 most valuable constituents in all feeding materials, and therefore also in an 
 oil-cake. On the other hand, the flesh-forming constituents and the bone- 
 forming materials — in other words, the nitrogen and the phosphates of the 
 cake — are the two most valuable fertilizing constituents. We have thus in 
 oil-cakes, in a concentrated state, materials ihat produce butchers' meat, 
 and, at the same time, yield the most valuable fertilizing constituents. There 
 is no other description of food which unites tliese useful properties. 
 
 93. Linseed-Cake. — " You are all aware we distinguish chiefly the follow- 
 ing kinds of linseed-cake : English cake, American cake, and foreign cakes. 
 Among foreign cakes there are various descriptions. There is the Baltic, 
 the Marseilles, the Naples cake, and various others. We have here an ex- 
 cellent specimen of good English cake. The English cake is made now of 
 two qualities, tliick and thin cake ; the latter is made in imitation of the 
 American barrel cake, of which specimens are before you. You observe 
 how closely the thin English cake resembles the American barrel cake. The 
 latter has gained much favor, and therefore the manufacturers in England 
 have found it to their advantage to imitate the form in which it is sold. In 
 the first place, notice that the American cake occasionally is as bad as 
 English and foreign cakes. It is not every description of American cake 
 which is good, but generally speaking, as it comes into the market, espe- 
 cially the barrel cake, it is of a very superior character. But the question 
 whether it is generally superior to the English cake or not, is one which is 
 not very i-eadily decided ; you may get English cake quite as good, if not 
 better, than the American cake. 
 
 " Some years ago it was the fashion to buy the English cake in preference 
 to any other, but it is now the fashion to buy the American barrel cake. I 
 can only account for this by the fact that the English cake, being produced 
 
Sko, 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 69 
 
 in good quality, was rapidly consumed ; the American cake was usually 
 sent in a very damaged condition to this country, coming as it did in bags ; 
 our sharp American friends very soon found that they must send their cake 
 here in a good condition. They dried it previously to sending it over, and 
 imported it in barrels, and this improved condition of the American cake 
 greatly increased its reputation, which has been kept up ; so that at the pres 
 ent time in most markets, American cake, especially the barrel cake, fetches 
 a higher price than the English. But a reference to the diagram will show 
 you tliat tliere is no essential difference between good English cake and 
 good American ; indeed, if anything, the advantage is in favor of the speci- 
 mens of English cake. The difference is extremely small. There is the 
 same qiiantity of oil in both cases. The proportion of flesli-forming matteis 
 is rather larger in the English than in the American. There is the same 
 amount of ash in both. The proportion of sand hardly amounts to one per 
 cent, in the English cake, and in the American it is only a half per cent. 
 These differences are extremely small and unimportant, so that yon may 
 get, and often do get, as good English cake as American. And occasion- 
 ally, also, yon get bad American cakes ; but on the whole, the exporters 
 of American cake are very jealous as to the kind of article they send to this 
 country, especially if they go to the expense of j^acking it in barrels. 
 
 94. Cotton-faliCi — " We distinguish now principally two kinds of this cake 
 — the one made of the whole seed, and the otlicr of the shelled seed. TJie 
 diflerenco in the two qualities of cake will at once become intelligible by 
 an examination of the seeds, or the raw materials from whicli the cakes are 
 made. The decorticated or shelled cake is made of the kernel of the cotton 
 seed ; the whole cake, in which we recognize an abi;ndance of the husk, is 
 made of the entire seed ; and inasmuch as the cotton seed contains full half 
 its weight, and some descriptions contain as much as 60 per cent, of the hard 
 husk, we must not expect that the cake made of the whole seed should be 
 so valuable as the decorticated cake. Tliere are several specimens of cotton- 
 cake on the table. There is very little value in the husk itself; the difference 
 in tlie two kinds of cotton-cake, then, arises from the different mode in which 
 they are made. The one, the decorticated cake, is made from tlie kernel ; 
 the otlier kind is made from the whole seed. The difference in the compo- 
 sition of the two kinds of cake is very great. The decorticated cotton-cake 
 contains 16 per cent, of oil (more than any other description of cake), while 
 the wliole-seed cake contains only 6 per cent. The proportion of albuminous 
 or flesh-forming matfers in the decorticated cake amounts to 41 per cent. • 
 in the wliole-seed cake it is only 23 per cent, or just one half. So witli 
 respect to the other constituents, the proportion of woody fiber is very much 
 larger in the whole-seed cake than in the other. The husk in tlie whole- 
 seed cake for a long time was a great impediment to the general use to 
 which cotton-cake is now applied in this country. I remember when tlie 
 first cargoes of cotton-cake came info England, before flie decorticated 
 cotton-cake was known ; trials were made of it, which proved quite unsuc- 
 
70 
 
 DOMESTIC ANIMALS. 
 
 [Chap. I. 
 
 cecsfiil. People did not like it at all, and I believe the cotton-cake would 
 never have been extensively used if it had not been for the invention of a 
 very useful machine, patented in America, by means of Avhich the hard 
 husks can be removed from the kernel. The use of this machine gives us a 
 superior oil and a superior cake. The cotton-seed oil made from the kernel 
 alone is a very useful article, and so is the cake, whereas the oil expressed 
 from the whole seed is dark-brown in color, and can not be used except for 
 the commonest purposes for which oil is employed. Tlie difference in the 
 value of the two descriptions of cake is so great, that I almost think two 
 tuns of the oil-cake, made of the whole seed, do not go further than one tun 
 of the best decorticated cotton-seed cake. Moreover, there is a certain 
 danger in using the whole-seed cake. Several cases of so-called poisoning 
 have been brought under my notice within the last year or two. Animals 
 that have freely partaken of tlie whole-seed cake have died suddenly, and 
 people have imagined that there was something injurious in the husk; but 
 examination has shown that the eflect produced is very much like that which 
 is occasionally produced in the case of boys who die from inflannnation of 
 the bowels in countries where cherries are very abundant. Being very 
 greedy, and eating the cherries with the stones, they get a stoppage of the 
 bowels, and so die from inflannnation. There is nothing poisonous in the 
 husk of the cotton-seed, and when given judiciously, no injury will result; 
 but if animals are supplied with an unlimited quantity of dry food with the 
 whole seed, there is indeed a dangei-. The hard husk is indigestible, and 
 may roll together in such large masses that inflammation of the bowels will 
 ensue. There is no such danger, however, in the use of decorticated cotton- 
 cake. The decorticated cake occurs of various degrees of quality. And 
 allow me to observe, with respect to all kinds of cake, that not only the 
 composition, but, even in a higher degree, the condition of the cake, deter- 
 mines in a great measure its value. I have here a specimen which you 
 would hardly recognize as of the same description as another specimen also 
 on the table, of a very beaiitiful character ; it is the same kind of cake, only 
 it is in a bad condition. I say, then, the condition of a cake determines 
 everything. 
 
 95. Condition of fake. — " Some lime ago I was very much gratified in 
 finding what great care Mr. Stratton, of Broad Ilinton, a celebrated short- 
 horn breeder, takes in selecting the very best of American barrel cake for 
 his stock. We often forget that animals have appetites as we have, and that 
 they like food in a good condition better than food in a bad one. The com- 
 position of two samples of the same food may not vary much, yet the prac- 
 tical eftect produced by them may vary exceedingly. There is nothing 
 remarkable in this, for we know that if we get good, wholesome bread, which 
 is one or two days old, we do well upon it ; but if it remains in a damp 
 cellar and gets moldy, stale, and moist, it loses its fine flavor, and in this 
 condition may do us harm. So it is with stale, moldy cakes. Animals 
 never do well on very old cakes. In examining, thei'efore, the diflerent 
 
Sec. C] FEEDHsTG CATTLE AND CAEE OF FARM-STOCK. 71 
 
 cakes, we ought to examine particularly their condition. I allude especially 
 to tlie examination of cotton-cake, because every person has the means _of 
 examining its condition with very little trouble. It is not so easy to examine 
 the condition of linseed ; it presupposes an extensive acqx;aintance with 
 various descriptions of linseed-cake. You must have seen a great many 
 samples of cake before you can give a trustworthy opinion. Not so with 
 decorticated cotton-cake. In this the color affords an excellent criterion as 
 to its freshness. The freshest cotton-cake is as yellow as mustard. I hold a 
 jiiece of cake in my liand, the exterior of which is brown ; but if I cut away 
 a portion, you will observe that the interior is bright yellow — veiy diflerent 
 from the part that has been exposed to the air. Tiiis was an excellent cake 
 when we first got it for feeding purposes, and we are feeding it extensively 
 on our farm at Cirencester. "When we first had it, it was of a bright yellow 
 color; but you observe how it has since changed. From this we may learn 
 a very useful lesson, that we may take the color as a guide to the condition 
 and age of the cakes. If we are presented with a cake Mdiich is as brown 
 as the specimen before me, and if you find on cutting it that the brown color 
 has penetrated deep into the interior, we may at once conclude that it is a 
 stale old cake. The deeper it has penetrated, the older the cake, and the 
 more it has suffered by bad keeping. If it is kept in a damp place, its color 
 and condition are rapidly deteriorated. 
 
 COMPOSITION OF LINSEED AND OF OIL CAKES. 
 
 T insHori Mii«t,r,i Cot'on-secd cakc Poppy- 
 Linseed. Linseed- E.,pe.cake. ""7"''" made of seed 
 '^'"'"' '-'^"' whole seed. cake. 
 
 Water 7.50 12.44 10.68 11,90 11.19 11.63 
 
 Oil 34,00 12,79 11.10 6,69 9,08.... 5.75 
 
 Flesli-forming matters 24.44 27.69 29,53 23,48 25,16 31,46 
 
 Heat-giving constituents 30,73 40,95 40,90 52,14 48.93 38,18 
 
 Inorganic iiiatters (ash) 3.33 6,13 7,79 5.79 5,64 12,98 
 
 100,00 100,00 100,00 100 00 100,00 100,00 
 
 06. Salt for Stocki — A great deal has been written upon the use of salt 
 for animals, and much reasoning employed to prove various positions ; but 
 very few accurate experiments have been made. Loose and general observ- 
 ations have been the basis for most of the opinions formed. A certain 
 quantify of salt is unquestionably useful ; an excess is as certainly hurtful. 
 The proper amount is what we want to have determined. All ordinary food 
 of animals contains more or less salt — as, for examjile, a tun of barley or 
 oats straw, and of some kinds of hay, contains six pounds of salt ; a tun of 
 carrots contains four pounds. We can not, therefore, speak of animals eating 
 no salt — they all partake of it, but we wish to know the right quantity. 
 
 The Genesee Farmer, from which we have frequently extracted useful 
 facts, and to which we are indebted for the next half dozen, says of salt for 
 cattle feeding for thg shambles : 
 
 " We have had our doubts whether it was good economy to allow animals 
 feeding for the lutcher the free use of salt. Salt is doubtless conducive to 
 health, favoring the formation of bile, and aiding in carrying eft'ete matter 
 
DOMESTIC ANIMALS. [Cuap. I. 
 
 from the system ; but there is no reason to suppose that it favors the accu- 
 mulation of fat. Liebig, indeed, asserts tliat ' the absence of common salt is 
 favorable to the formation of fat,'' and that tlie ' fattening of an animal is 
 rendered impossible, when we add to its food an excess of salt, although 
 short of the quantity required to j^roduce a purgative effect.' Recently, 
 however, in allusion to experiments made since the publication of the work 
 in which the above sentences occur, Liebig says : ' Salt does not act as a 
 producer of flesh ; but it neutralizes the injurious actions of the conditions 
 which must be united in the unnatural state of animals fed or fattened in 
 order to produce flesh ; and the advantages attending its use can hardly be 
 estimated too highly.' 
 
 " Boussingault is also in favor of salt. Two lots of steers were fed thirteen 
 months, one with and one without salt. The average weight per head of 
 the salted lot, at the commencement of the experiment, was 995 lbs. ; at the 
 end of thirteen months, 2,090 lbs. Increase, 1,135 lbs. They consumed per 
 head 15,972 lbs. of hay. One tun of hay, therefore, produced 143 lbs. of 
 increase of animal. 
 
 "The second lot, which received no salt, averaged at the commencement 
 of the experiment 896 lbs. ; at the end of thirteen months, 1,890 lbs. 
 Increase, 094 lbs. They consumed per head 14,553 lbs. of hay, or one tun 
 of hay produced 137 lbs. of increase of animal. 
 
 "The steers receiving salt produced six pounds more increase for each tun 
 of hay consumed than those which were not allowed salt. This may be 
 considered only a slight advantage, and in France did not pay the cost of 
 the salt; in this country, however, where salt is much cheaper, its use will 
 doubtless be profitable. Boussingault remarks : ' The salt exercises no con- 
 siderable influence on the growth, yet it appears to exert a beneficial eflect 
 on the appearance and condition of the animal.' Up to the first fourteen 
 days no perceptible difference was observed between the two lots ; but in the 
 coui-se of the month following, the diflerence was visible, even to the 
 unpracticed eye." 
 
 With such good authority, it is presumed feeders will continue the use of 
 salt ; but let us give them this one word of caution — do not give it in excess. 
 K you can not get rock-salt, or if that is too expensive, mix fine salt with 
 soft clay, and dry that in large cakes, and lay them under cover for the cattle 
 to lick. 
 
 97. Rock-Salt. — We reiterate that rock-salt is not only the most econom- 
 ical, but the most convenient for the farmer to salt his cattle, since it can be 
 placed where they can lick it at their leisure, and there it will remain, sum- 
 mer and winter ; the rains have very little effect upon it while in a lump, 
 as it comes from the quarry, it being really what its name indicates, a piece 
 of rock. When broken fine it dissolves easil}', but not \jefore. 
 
 A farmer who has the least idea of economy shoiild learn how much he 
 can save in a year, or a lifetime, by the simple operation of substituting rock- 
 salt in place of that in ordinary use for farm-stock.^ A lump of rock-salt 
 
Sec. C] feeding CATTLE AND CARE OF FARM-STOCK. . 73 
 
 may be placed in any out-door situation, where cattle can go and lick it 
 whenever their appetite inclines them to do so, and it will not waste by 
 exposure to dew or rain, because it is not hygrometric, as is the manufactured 
 salt in common use. Another thing in its favor is this — your stock, M'ith 
 salt always before tliem, will never eat too much. Neither will they eat it 
 too fast, as they almost always do when salted with fine salt ; nor waste it 
 by scattering it in the dirt, or leaving it to dissolve and sink into the earth. 
 Another difficulty is obviated by the use of rock-salt constantly within reach 
 of stock, and that is, the hooking and punching of the weaker animals by 
 the strong ones, in fighting their way to the once-a-week, or perhaps once- 
 a-month, salting-place. 
 
 Rock-salt is a mineral as much as marble, and almost as solid and hard, 
 and is quarried out of mines, like coal or other mineral substances. The 
 most extensive salt mines are at Cracow, in Poland, where there are regular 
 cartways, streets, and villages of miners' huts, where men, women, and 
 children, and domestic animals live deep down in the earth. Our principal 
 supply of rock-salt comes from Cheshire, England, where there are extensive 
 mines. In its mineral state, the salt is of a slightly reddish color, and dingy 
 white, and some of it needs to be melted and purified for culinary purposes. 
 The purest portion may .be reduced at once to powder by breaking and 
 grinding, and is then quite white. The salt known here as Liverpool salt is 
 refined rock-salt from the Cheshire mines. 
 
 A lump of rock-salt as big as a man's head may be fixed by pins upon a 
 rock or block, where the water will not stand around it, and it will remain 
 until all licked away by the cattle's tongues. In case of stock in stables, a 
 lump may be placed in each manger. 
 
 OS. Bones for Auintals. — A good deal has been lately said about feeding 
 animals with bone-meal. We give several opinions upon the subject : 
 
 E. C. Wright, of Gallatin County, 111., states, on the authority of the Rev. 
 John Crawford, of Crawford, in that county, that the bones of swine dying 
 with what is called hog cholera, decay as rapidly as the flesh, and that portions 
 of the skin outlast the bones. He wants scientific men to give attention to 
 this strange consumption of the solids, and thinks that it may be the means 
 of suggesting a remedy for the disease so fatal and so pecuniarily distressing 
 to a vast number of farmers in the West. Now, as we know that feeding 
 bone-meal to animals and phosphate of lime to plants that need it, has 
 proved beneficial, is it impossible or improbable that feeding it to swine 
 suftering from a disease that produces the effect described, may not be the 
 means of curing or preventing the disease ? 
 
 Dr. Waterbury says : " There are some new theories in relation to feeding 
 phosphates to animals. It is possible that this may have some effect. There 
 is an idea prevailing that feeding material that makes bones will increase 
 their size. It is a subject well worthy of more attention." 
 
 Prof. Mapes states^hat, when a calf is deficient in bone, that is, too weak 
 to stand, feeding bone-meal to the cow that suckles the calf will furnish it 
 
74 DOMESTIC ANIMALS. [Chap. I. 
 
 with the necessary materiaL This fact is well known to many farmers, and 
 that cows eat old bones with great avidity. We also know that pliysicians 
 are using a solution of phosphate of lime in their practice, and there is no 
 doubt it may be administered to domestic animals with cr|ually good ettect; 
 and whether, in the case named, it worked a cure or not, it is well worth 
 trying. Many things much more simple have produced wonderful results. 
 
 99. Water for Stock. — See that your stock have an abundance of clear, 
 good water in hot weather. If it is pumped from wells, it should always be 
 standing in boxes or troughs, so that stock can have access to it. Select, for 
 liot days, fields with plenty of shade trees in them, to protect stock from the 
 burning sun. Pastures should always contain shade trees, and they should 
 be planted, if not there. 
 
 Mr. Strawn, the great Illinois farmer, has successfully tried this method 
 of keeping water on a stock farm : 
 
 Dig a basin five or ten rods square, and ten feet deep, upon a high knoll ; 
 feed corn in the basin to your hogs and cattle, until it is well puddled by 
 the tramping of their feet, which Avill make it almost water-tight. Mr. 
 Strawn says the rains of a single winter sulficed to accommodate several 
 hundred head of stock, and that it had been dry but once in twelve years. 
 
 For watering at the barn, in all situations where digging wells is expen- 
 sive, cisterns should be provided, if running water from some brook or 
 spring can not be brouglit in pipes, or sent up by a water-ram. 
 
 100. Chaffing Food for Stock. — There is no disputing the fact that chafling 
 food, particularly all coarse forage, will pay well, where it is as dear as it is 
 in the vicinity of New York. At the State Fair Farmers' Club, at Elmira, 
 October, 1860, the following opinions were given upon the subject : 
 
 A. B. Dickenson said : " On good hay you can fat cattle, but you can not 
 upon corn-stalks, but they are better than poor hay. -I can not make an 
 acre of corn-stalks as good as an acre of grass. If you want to raise a big 
 crop of corn, put on barn-yard manure year after year on grass, and after- 
 M'ard plow it in and make it mellow and rich, sixteen inches deep, and then 
 corn Avill never exhaust the soil. Corn-stalks must always be chafled to 
 obtain their full value." 
 
 Col. Butterfield, of Utica, said : " Up to two or three years ago, I thought 
 but little of corn-fodder. I then cut the top stalks ; now I cut up by the 
 ground, and my cattle do first-rate on corn-stalks till March. To get the 
 greatest benefit from corn-stalks, they must be chafi"ed and steamed." 
 
 Hon. T. C. Peters, of Darien, JST. Y., said : " I grow corn for fodder as well 
 as grain, and cut up from the ground, and chaff the stalks for feeding. There 
 is no other feed for milch cows in winter equally valuable if it is well cured 
 and then chafted ; and if steamed, it is still better." 
 
 Mr. Lyman Barnard, of Steuben County, said : " I cut up my corn from 
 the ground, and ciit the stalks up fine in a stalk-cutter, and mix with cut 
 straw, and I find my cattle and horses do as well, or better, than upon good 
 timothy hay." ♦ 
 
FEEDING CATTLE AND CARE OF FARM-STOCK. 
 
 Mr. Plumb, of Onondaga County, said : " We don't raise any crop as val- 
 nable as corn, and we do raise good wheat. I foddered 150 sheep and 12 
 cows till March upon ten acres of corn-stalks, allowing the stock to run at a 
 straw-stack besides. I raise tlie large eight-rowed yellow corn with a small 
 oob, and like it better than Dutton corn. It yields better than any white 
 corn." 
 
 It is tlie opinion of some really scientific men we have conversed witii 
 npon the subject, that in all places where hay usually sells as high as $2(1 a 
 tun, and power is not unusually expensive, that it would pay, not only to 
 chafi" all hay, stalks, straw, etc., but actually to grind tliese substances into 
 meal — not very fine, to be sure, but so that none of the particles would be 
 more than an eighth of an inch in length. We saw, a few years ago, the 
 model of a newly-invented mill that was most admirably well calculated for 
 doing such work as reducing hay and straw to meal. It was the invention 
 of Mr. Blanchard, of Boston. 
 
 Flint, in his " Dairy Farming," in speaking of feeding milch cows, says : 
 " One of the best courses is, to feed in the morning, either at the time of 
 milking — which I prefer — or immediately after, with cut feed, consisting 
 of hay, oats, millet, or corn-stalks, mixed with shorts, and Indian, linseed, 
 or cotton-seed meal, thoroughly moistened with water. If in winter, hot 
 or warm water is far better than cold. If given at milking-time, the cows 
 will generally give down the milk more readily. The stalls and mangers 
 ought always to be Avell cleaned out first." 
 
 101. Nutritive Value of Tarious Kiuds of Fodder.— Tlie following tables 
 will be useful, as showing the relative value of various substances : 
 
 ^— Per centage of Nitrogen.^ 
 Net. equivalent. Dried. Undried, 
 
 1. Meadow hay 100 1.34 1.15 
 
 2. Red clover hay 75 1.70 ] .54 
 
 3. Rye-straw 479 0..30 0.24 
 
 4. Oal-straw 383 0.36 0..30 
 
 5. Wheat-straw 426 0.36 0.27 
 
 6. Barley-straw 460 0.30 0.25 
 
 7. Pea-straw 64 1.45 1.79 
 
 The following is the composition of these several substances, in which 
 their relative value will more distinctly appear : 
 
 Simen,' elc^ ^""J' '°='"«'^- Valine matter. 
 
 7.1 2 to 5 5 to 10 
 
 9.3 3 to 5 9 
 
 1.3 ....... - 4 
 
 1.3 0.8 6 
 
 1.3 ....... 2 to 3 5 
 
 1.3 — 5 
 
 12.3 ;. 1.5 4 to 6 
 
 From these tables it will be seen that, taking good English or meadow 
 hay as the standard of comparison, and calling that one, 4.79 times the 
 weight of rye-straw, or 3.83 times the weight of oat-straw, contains the same 
 amount of nutritive matter ; that is, it would take 4.79 times as much rye- 
 straw to produce the same result as good meadow hay. 
 
 Water. 
 
 Woody fiber. 
 
 Starch, Gum, G 
 
 14 
 
 ..^.. 30 ... 
 
 .... 40 
 
 14 
 
 25 ... 
 
 .... 40 ....... 
 
 12 to 15 . 
 
 45 ... 
 
 .... 38 
 
 12 
 
 45 ... 
 
 .... 35 
 
 12 to 15 . 
 
 50 ... 
 
 .... 30 
 
 12 to 15 . 
 
 50 ... 
 
 .... 30 
 
 10 to 15 . 
 
 25 ... 
 
 .... 45 
 
76 
 
 DOMESTIC ANIMALS. 
 
 Chap. I. 
 
 NUTRITIVE EQUIVALENTS. (Pkactical and Theoretical.) 
 
 ARTICLES OP POOD. 
 
 English hay,. 
 
 Red clover hay 
 
 Ked clover (green) 
 
 Rye-3traw 
 
 Oal-3traw 
 
 Carrot-leaves (tops) 
 
 Swedish turnips 
 
 Mangel-wurzel 
 
 White silician beet .... 
 
 Carrots 
 
 Potatoes 
 
 Potatoes kept in pita... 
 
 Beans 
 
 Peas 
 
 Indian corn 
 
 Buckwheat 
 
 Barley 
 
 Oats 
 
 Rye 
 
 TBEOBETICAL VALUES. 
 
 n.n 
 
 l.M 
 
 16.6 
 
 1.66 
 
 10,1 
 
 1.70 
 
 76,0 
 
 — . 
 
 i8.r 
 
 .30 
 
 21.0 
 
 .36 
 
 70.9 
 
 2.94 
 
 91.0 
 
 1.33 
 
 SS.B 
 
 1.43 
 
 K7fi 
 
 2.40 
 
 75.9 
 
 1.60 
 
 76.S 
 
 1.19 
 
 7.9 
 
 5.50 
 
 8.6 
 
 4.20 
 
 1S,0 
 
 2.O0 
 
 12 5 
 
 2.40 
 
 13.2 
 
 2.03 
 
 12.4 
 
 2.22 
 
 ll.-i 
 
 2.27 
 
 10.5 
 
 2.38 
 
 1S.4 
 
 6.U0 
 
 llOO 
 
 1.38 
 
 1.54 
 
 .64 (811 
 
 .24 1479 
 
 .30 183.3 
 
 .85 I 185 
 
 .17 676 
 
 669 
 
 1 to 2.8 
 
 1 to 2.14 
 
 1 to 6.55 
 
 1 to 6.05 
 
 1 to 4.25 
 
 1 to 4."8 
 
 1 to 4.42 
 
 1 to 2.42 
 
 84 5-12 
 84J 
 
 53 11-12 
 6.3 1-16 
 S3 5-0 
 
 afited by experimcDts IQ 
 
 Oats in tlie bundle, well cut up, straw and all, make excellent, cheap feed 
 for horses oi- other stock ; in many cases it is much better than threshing 
 them. For heavy teams hard at work, a little sound corn-meal mixed wet 
 with them, makes a feed that can not well be beaten. It is a highly econ- 
 omical and satisfactory way of feeding, both to man and beast, where oats 
 sell at a low price by the bushel. 
 
 102. A Treatise ou Feeding. — A valuable treatise on feeding, which might 
 be studied with profit by all farmers, has been made by Mr. Horsefall, an 
 English farmer, and published in the journal of the Royal Agricultural 
 Society, which may be found complete as an appendix to Flint's " Dairy 
 Farming." 
 
 103. Soiling Cattle. — Soiling is a term applied to the practice of confining 
 animals to the stable, and growing a green crop, such as sowed corn, sorgo, 
 wheat, rye, or oats, clover, c^tc, which is cut up as needed, and carried to the 
 animals, instead of allowing them to have the range of the pastures. Mr. 
 Philo Gregory, of Chester, Orange Co., JST. Y., sowed a patch of half an 
 acre, with corn for fodder, making the rows thirty inches apart. With the 
 product he kept twenty-five cows for six loeeks without other food. 
 
 The most extensive and successful system of soiling is pursued by Hon. 
 Josiah Quincy, Jr., of Boston, who has published a small volume giving 
 details of his practice. One of the great advantages of soiling is the saving 
 of manure, the quantity being largely increased over that made by an equal 
 number of cattle at pasture, or fed in the ordinary way. "We recommend 
 any one disposed to attempt the soiling system to read Mr. Quincy's book. 
 
 104. Diseases of Cattle. — We shall not attempt to give a treatise upon the 
 
Sko. 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 77 
 
 diseases of cattle and the remedies ; for this, we must refer the reader to 
 Dr. Dadd, veterinary surgeon, Boston, and his valuable writings, as ■well as 
 several other good publications, not forgetting the Sioclc Journal, New 
 York. We will give, however, the following sensible remarks upon one 
 of the most common diseases, or symptoms of disease, from Thos. E. Hatch, 
 Iveene, N. H. 
 
 105. The Uoru Ail.— Mr. Hatch says : " ' Horn Ail,' or ' Hollow Horn,' 
 is an absurd misnomer for an imaginary disease in many cases, and for a 
 symptom of fever in others. Many a farmer has reluctantly ' cut oif one 
 inch,' or more, from the tail of a beautiful animal, when it was turned out 
 to pasture, under the erroneous impression that it would do better, 'for the 
 hair hung in curls,' although the animal was in perfect health and good 
 condition, and needed no remedy of any kind. In fever, the degree of 
 arterial excitement is estimated in part by the heat at the base of the horn, 
 which is very thin, and covers the most vascular bone in the animal, thereby 
 dis[ilaying symptoms of great value to those cajiable of appreciating them. 
 
 " But even in fever there can never be the slightest occasion for ' cutting 
 off one inch of the tail,' nor for pouring hoiling water upon the horns of a 
 suffering animal until he '■dodges.'' A cathartic of epsom or glauter salts, 
 sulphur or linseed-oil, combined with ginger, red pepper, or any stimulant 
 aromatic, 'will do all the good, and much more, than the slight bleeding from 
 the cut can do, and not leave the animal to thump its sides the remainder 
 of its life with a mutilated stump, a living monument that all the darkness 
 of the dark ages has not yet passed away. 
 
 "The hope tliat I may be the means, in a single case, of preserving intact 
 one of the beauties of the bovine race, to the unfortunate animal suffering 
 from 'Horn Ail' or 'Tail Sickness,' is the only apology that I can offer for 
 tliis comnninication. I would as soon knock off' the horn, or slit the ears of 
 a favorite animal, as to ' cut off one inch of the tail,' and should have as 
 good physiological reasons for so doing. The disfigurement in either case 
 would be about equal, but the inconvenience which the animal would suffer 
 from the loss of the long, silky brush so kindly furnished by nature, espe- 
 cially in ' fly time,' would be immeasurably greater." 
 
 The Ohio Kerciima, an ounce to a dose, given in whisky a few times to 
 a cow with this disease, is recommended as a valuable cure. In our opinion, 
 good feed and warm stables as a preventive are worth more than all the cures. 
 
 106. Cure of Scours iu Cattle. — An English farmer recommends the use 
 of acorn-meal as a sure cure of diarrhea in horned cattle, sheep, and lanib«, 
 and young stock generally. He says : 
 
 " I sent the dried acorns to the mill to be ground into flour, and when I 
 found symptoms of scour or diarrhea in my cattle, I ordered two handfuls 
 to be mixed in a bran mash, and given warm immediatelj', and to continue 
 it once a day, until the disease disappeared. This proved a never-failing 
 cure — insomuch that I never had any trouble from the disease afterward ; 
 and my neighbors, seeing this, had recourse to me for a little of my acorn 
 
78 DOMESTIC ANIMALS. [Chap. I. 
 
 flour, when the disease appeared in their cattle, which, of course, I was glad 
 to give them, the result being the same as in my own case." 
 
 107. To Cure Lice on Cattle. — Some farmers have great; faith in the 
 efficacy of oiiious for ridding cows or oxen of lice. Mr. Eoe, of Orange 
 County, N. Y., claims to have found them an infallible remedy in his prac- 
 tice. Tiiey also give a tone to the stomacli, and are especially valuable in 
 hot weather, when working cattle will lie in the shade at noon-time, and 
 refuse to eat. Mr. Eoe uses the " scullions," or small, unsalable onions, and 
 those which become soft or sprouted toward spring. He gives a feed of half 
 a peck once a daj', at noon, and says that two feeds are sufficient to extirpate 
 any number of vermin. 
 
 A correspondent recommends the following remedy for lice or ticks : " One 
 tablespoonfal of sulphur to one pint of salt, mix thoroughly together, and 
 feed to cattle or sheep once a week, in cjuantities, as Ave usually feed cattle, 
 for two months in succession, and there will be no ticks or lice on them." 
 
 lOS. Cattle Poisoned Mitli Brine. — Many formers have learned to their 
 sorrow that old brine, placed within the reach of hogs, cattle, and perhaps 
 other farm stock, will cause death ; and as there are others who may not have 
 learned this fact, we now place it on record for their benefit. We will also 
 give the results of certain investigations made at the Veterinary School, at 
 Ayort, France, by M. Reynal, which throw additional light npon the subject. 
 It is ascertained that the poisonous properties of brine are not immediately 
 accpiired ; but it assumes this condition only after it has been in contact for 
 several months with the meat, when, if mixed with the food of stock, even 
 in small quantities, it will produce death ; but wdien hogs and other stock can 
 get to it, unmixed with food, its effects are still more speedily fatal. The 
 poison acts as a local irritant, exciting violent intestinal congestion and 
 inflammation. It likewise increases the secretion of the skin and kidneys, 
 and exerts a direct effect npon the nervous system, giving rise to trembling, 
 loss of sensation, convulsions, etc. 
 
 The salt of the worst brine may be saved in a pure state by boiling the 
 brine and carefully skinnning off all the scnra. The remainder may then be 
 used as brine, or reduced to salt b}' still more boiling. 
 
 109. Cattle Poisoned by Wild Cherry Leaves. — It is not an unusual thing 
 for cattle to be poisoned with the leaves of the common Avild cherry-tree, 
 which are almost sure death if eaten in a wilted state, unless a remedy is 
 immediately administered. The most convenient, readj' remedy which a 
 farmer can Tise is hog's lard and molasses, mixed in about equal quanti- 
 ties, by melting the lard and warming the molasses. It should be given in 
 doses of a pint or a quart, by means of a black bottle, pouring it well down 
 the animal's throat. 
 
 110. Overstocking the Farm. — Tliis is about the worst practice in farming, 
 as regards stock, either in summer or winter. It is not only unprofitable to 
 keep useless animals, such as horses or oxen, but if you are overstocked, the 
 whole must deteriorate. There is nothing about a fann that has a more 
 
Seo. 6.] FEEDING CATTLE AND CARE OF FARM-STOCK. 79 
 
 distressed appearance than half-starved animals, and there is nothing about 
 farming that is more unprofitable. Even the manure accumulated from 
 such stock is far less valuable than that saved from well-fed animals. 
 
 The most important thing in farm-stock is a good team, and that should 
 be the first consideration. Have a team or teams sufficient to do all your 
 work, except some particular things, such as threshing, and for such extra 
 work have a standing arrangement, if possible, with a neighbor to exchange 
 team work. You can not afford to keep any extra team. You may be 
 overstocked in any other kind of animals with less damage than working 
 ones, but j'Ou can in no way afford to do without enough of them, and the 
 better they are, the better it will be for you. Farm-stock must be adapted 
 to circumstances to be profitable. AYhen milk sells at two cents a quart, at 
 or near the farm, milch cows are profitable stock, because if one average five 
 quarts a day, her milkAvill bring $3G 50 a year, and some of the milch dairy 
 cows near New York double that. The average we have heard estimated 
 at Sis for all the cows kept on a farm. We have known the profit of 
 grazing a herd of fatting bullocks through the season often to range from 
 S38 to $-iO a head, but we could not recommend every one to go into the 
 business, because it requires skill in buying, keeping, and selling that all" do 
 not and are not hkely to possess. In all cases fiirm-stock should be adapted 
 to circumstances, and there is certainly a want of judgment in this respect 
 that is amazing. Men in Mississippi have tried to raise fine-wool sheep 
 suited to Yermont, and men in Yermont have tried to use mules for farm- 
 work, instead of their own hardy breed of horses, because they had read 
 that they were much the most economical foivfarm-work in all the Southern 
 States. The pastures of New England are noted for their sweet grass and 
 excellent red cattle ; and the blue-grass fields and fat Durhams of Kentucky 
 are equally noted, and all should know that it would not serve either section 
 to advantage to exchange breeds of cattle. The adaptability of stock to the 
 farm is a subject that we do not wish to dictate upon, bat we ask reasonable 
 men to take counsel with reason, and apply that in all cases to their own 
 circumstances. 
 
 111. Imported vs. Native Stock. — Eobert Purvis, of Byberry, Penn., has 
 a farm in a high state of cultivation, one of the best in Pennsylvania, and 
 consequently, in our opinion, his ideas are entitled to a share of our respect. 
 He says : 
 
 "For many years I have made it my business, as it has been my pleasure, 
 to do what I could to promote the improvements of farm-stock. My chief 
 attention has been given to cows, hogs, and fowls, though I have not been 
 mnnindful to other varieties. Of cows, 1 have raised the Durham, Ayr- 
 shire, and the Devonshire ; of hogs, the Berkshire and the Suffolk ; and of 
 fowls, a great variety. I have confined my attention chiefly to those of for- 
 eign growth or origin. That I have succeeded as well as others, may bo 
 inferred from the fact that at the various shows I have taken a fair share of 
 the premiums. Nevertheless, my success, though encouraging, has not been 
 
80 DOMESTIC ANIMALS. [Chap. I. 
 
 altogether satisfactory ; that is, it has not proved to me that any of tliese 
 foreign breeds, whether of cows, hogs, or fowls, are the best that we can 
 have in this country, or arc just the thing we want. On the contrary, it has 
 demonstrated to me quite the opposite, viz. : That before we can attain the 
 desired success in this field of experiment, we must give more attention than 
 we are now giving to animals luhich are the growth of our ow7i soil. Not 
 that I would undervalue the advantages of importing the best varieties of 
 foreign breeds, for too- much praise can not be rendered those public-spirited 
 men who spend their money liberally in bringing to our shores the best 
 specimens they can obtain of European animals ; but, at the same time, too 
 little credit may be given to others who are doing what they can to improve 
 our native breeds. 
 
 " I don't know how it may be with others, but according to my experience 
 and observation, there is an unvarying tendency in all imported stock to 
 deterioratio)!'. "Whether it is owing to the climate, or soil, or what, I 
 don't pretend to say ; but this tendency to degenerate in all foreign animals, 
 whatever pains may have been taken with tliem, has been, according to my 
 knowledge, without an exception. Now, assuming this to be true, wliicli, 
 understand me, I do not aver, the question arises : Would it not be better tor 
 us, in trying to improve our stock, to make our selections for the purpose 
 witliout I'egard to the animal's origin ? In milch cows, for instance, ouglit 
 we not to choose the finest-looking animal and best milker we can find, 
 M'hether native, imported, or mixed ? and ought we not to see that the ofi- 
 spring are the product of a sire chosen on the same principle ? Is it not 
 likely, and does not experience, so far as it has been made, show that the 
 tendency of this sort of breeding is to a continual improvement in the stock ? 
 I would ask the same questions in regard to hogs, fowls, horses, sheep, and 
 all other kinds of animals. In other words, ought we not to make more ac- 
 count of our native breeds, and seek, by judicious crossing and care in other 
 respects, to attain the end which we have not yet readied in the matter of 
 stock-raising ?" 
 
 Do farmers generally sufficiently appreciate the reason why imported or 
 high-bred cattle look so much better than tlie natives ? Is it not because 
 one class is high-fed as well as high-bred, and treated with the greatest pos- 
 sible care, while many of the poor natives arc treated with the greatest 
 possible neglect — exposed to storms, summer and winter, and kept upon 
 short pasture while it is possible for the animals to get a living, and then 
 grudgingly fed coarse herbage to carry them alive through tlie winter. 
 With such treatment, the poor natives have no fair clrance to com[)ete with 
 the pampered stock lately imported ; yet, with equally good treatment and 
 constant care in breeding, we believe as good cattle may be raised up out 
 of some of the natives as can be found among those imported and maintained 
 at such great exh-a expense. At least, we believe that if as inuch care had 
 been bestowed on our native stock as has been on the imported breeds for the 
 last thirty years, the natives would now be nearly equal to the imported. 
 
PLATE YI. 
 
 (Page 81.) 
 
 The subject of feeding swine is treated of in Section II., but to 
 enable readers to understand the style of the different breeds, fed 
 to a condition for show, we have preferred to direct his attention to 
 this picture rather than to a written description. Upon the left 
 hand he will see representatives of the Berkshire, black and white. 
 In the center are the beautiful white, thin-haired Suffolk, and on 
 the right the black, thin-haired Essex, a favorite breed in England, 
 lately introduced into this country. Indeed, all three of these 
 named are favorite English breeds. On the right, in the rear, an 
 American breed, the Chester County, is represented. All that is 
 known of the history of this breed is briefly told in ^ 13. This 
 picture of four families of swine is equal to any other ever printed. 
 It is worthy of careful attention. 
 
 Above the swine, as they always should be, in tlie estimation of 
 farmers, are the sheep, showing good representatives of the three 
 great families of long wool, fine wool, and medium. On the right, 
 the long-wool variety, under the name of Cotswold, are well repre- 
 sented. In the center, the pair of merinos stand as fair types of 
 the fine wool, and are handsome portraits of the large-sized sheep 
 of this variety. The noble South Downs on the left show what this 
 breed looks like. Their black faces and legs and round, full bodies 
 are characteristics of the famil}*. Altogether, these four families of 
 swine and three of sheep make a picture that is not to be passed 
 lightly over. 
 
Seo. 7.] 
 
 SHEEP HUSBANDRY. 
 
 81 
 
 "Why should we import hogs ? All the improved English breeds are 
 made vp. And why we can not just as well make a breed here that sliall 
 suit our circumstances, and need no acclimating, we can not imagine. Tlie 
 fecundity of pigs gives the breeder a greater facility in improving his hogs 
 than he possesses with any other large domestic animal. Let him have an 
 object in view and steadily pursue it for a few years, and success and great 
 profit are certain. 
 
 SECTIOX VII.-SHEEP HUSBAIsDRY. 
 
 reeds of English Sheep. — At a recent meeting of 
 
 the Central Farmers' Club at London, Mr. Charles 
 
 Howard delivered an address on the subject of 
 
 "The Merits of Pure-Bred and Cross-Bred Sheep." 
 
 > In tliis address he gave the origin and merits of 
 
 several of the " establislied" breeds. "We condense as 
 
 follows : 
 
 I. SoTTTHDOWNS. — " The South, or Sussex Downs, are de- 
 scended from small, gray, and dark-faced sheep which 
 were found on the hilly and mountainous districts through- 
 -^^ \\\" c\ \ <^"'' England. John Ellman was the original improver. 
 ^*^^)^ V2,^ He was followed and surpassed by Jonas "Webb, who has 
 made the Southdown perfect. The peculiarity of this sheep is its supe- 
 rior quality of mutton and wool. Average weight, from thirteen to fifteen 
 months, is 12G lbs. ; weight of fleece, 6 lbs. The ewes are capital breeders, 
 and generally produce one third twins. They are best adapted to elevated 
 situations and bare pasturage. Among the nobility and fancy farmers tliey 
 are regarded as the elite of slieep. 
 
 IL Hampshiee Downs. — -" This valuable sheep has been established from 
 various crosses, commencing with the century. They present as great a 
 uriformity in wool, color, and general appearance as their smaller but hand 
 somer cousins, the Southdowns. They have risen into favor i-apidly. They 
 are very hardy, and of good constitutions, and good wool-bearers, the aver- 
 age fleece being 6 to 7 lbs., of early maturity, and have plenty of lean as 
 well as fat meat, and will graze to almost any weight you may choose to 
 make them. The ewes are good breeders and sucklers. 
 
 • in. Leicesters. — " These originated with Bakewell. To this breed all 
 other long-M^ooled sheep are indebted for their improved shape and greater 
 disposition to fatten. Their chief characteristics are, great aptitude to fatten 
 with a comparatively small consumption of food, and early maturity; fleece, 
 7 lbs. ; carcass, at fourteen or flfteen months, 140 lbs. They are not very 
 good breeders, and it is a rare thing to have more Iambs than ewes. 
 
 IV. The Cotswold. — "This is one of the oldest of the established breeds. 
 
82 DOMESTIC ANIMALS. [Chap. I. 
 
 They were originally heavy, coarse animals, with a thick, heavy fleece, well 
 adapted to the bleak, uniuclosed Cotswold hills. They are now very hardy, 
 and will succeed well in almost any situation, and produce a great amount 
 of wool and mutton at an early age. They sometimes reach SG lbs. to the 
 quarter. The average weight of an ordinary flock when flt for the butcher, 
 at fourteen or fifteen months old, is about 180 lbs., and the weight of wool 
 of the whole flock would be about 7^ lbs. each. Many of these sheep are 
 now being exported to Australia to produce mutton for the miners. 
 
 V. LiNCOLNSHiEES. — " As the western part of Great Britain is famous for 
 its Cotswolds, so is the northeastern esteemed for the heavy-wooled and 
 large-framed Lincolns, to which district they especially belong, and where 
 for many years they held their own. Tlicy, like the Cotswolds, have been 
 improved by an admixture of Leicester blood. The present improved Lin- 
 coln sheep partakes largely of the peculiarities of the Cotswold and Leices- 
 ter, having the expansive frame and nobility of appearance of the one, with 
 the quality of flesh, compactness of form, beauty of countenance, and pro- 
 pensity to fatten of the other ; but they far exceed either in weight of fleece. 
 Three-year olds sometimes weigh 96 1 lbs. to the quarter, and yearlings Yl 
 lbs. The weight of wool of an entire flock, under fair average management, 
 is about 8ilbs. each; weight of carcass at twenty-eight months, IGOlbs. 
 The Lincoln breeders consider the mutton excellent, having less fat and a 
 greater proportion of fine-grained, lean flesh than tlie Leicesters. The ewes 
 are good breeders, but, like the Cotswolds and Leicesters, they are not good 
 Bucklers. 
 
 VL SriKOPSHiEES.^ — ^" These are crosses. Tiieir merit consists in their su- 
 periority over any other breed in their own country. They possess hardiness 
 of constitution, excellent quality of mutton, and are prolific breeders ; but 
 they are not equal to other breeds. 
 
 VIL OxFORDSHiKE DowNS. — " This breed of sheep was produced twenty. 
 seven years ago by crossing the ILampsliire, and in some instances South- 
 down ewes, with Cotswold rams, and tlien putting the crosses together. 
 They drop their lambs in February, and at thirteen or fourteen months old 
 they are ready for market, weighing, on an average, 140 lbs. each, with a 
 fleece vailing from 7 to 10 lbs. The ewes are good mothers, and produce a 
 great proportion of twins." 
 
 "We might add here, as these last two breeds are crosses, that Mr. Howard 
 stated, at tlie conclusion of his experience and address, " that from a judicious 
 pairing of cross-bred animals, it is practicable to establish a new breed alto- 
 gether," and for some locations better fitted than most of the existing breeds. 
 
 113. Production of Sexes among Sheepi — The Journal d' Agriculture Pra- 
 tique has a paper giving a variety of facts on this subject — from which the 
 deduction is made, that the sex depends on the greater or less vigor of the 
 individuals coupled. This has long been known and acted upon. It is fur- 
 ther stated, as shown by careful observation and experiment, that more 
 males are born among the first and last births in a flock reared by a single 
 
Sko. 7.] SHEEP HUSBANDRY. 83 
 
 ram, than among the lambs bom in the intervening period, wlien the male 
 is weakened by excessive exertion; and that the ewes wluch produce males 
 are on an average lighter than those which produce females, and lose more 
 weight than the latter during the nursing period. Thus vigor in tlie male 
 tends to produce males, but more from tiie M'eaker than tlie stronger ewes ; 
 and the opposite fact in regard to females tends to keep up the equilibrium, 
 and secure the perfection and preservation of the sj^ecies, by confining the 
 reproduction of either sex to the most perfect type of each respectively. 
 
 114. First Importation of Merinos. — The first importation of Spanish sheep 
 into the United States took place in 1801. Four were shipped by Mr. Deles- 
 sert, a banker of Paris, three of which perished on the passage. In 1802 a 
 large importation was made by Col. Humphreys ; and iu 1809, '10, and '11, 
 the Hon. Wm. Jarvis, the American consul at Lisbon, sent home large and 
 valuable flocks to his farm in "Weathersfield, Vt. 
 
 115. Gcueral Care and Mauasoment of Sheep. — There are not many men in 
 this country more capable of giving information upon this subject than T. S. 
 Gold, of Cornwall, Connecticut. In the series of Yale College lectures, in 
 the winter of 1859,' '60, Mr. Gold gave a lecture upon sheep husbandry, in 
 which he made the following points, worthy of note by all sheep farmers : 
 
 " Thrift. — It should always be the object of the flock-master to keej) his 
 sheep in a thriving condition. The quality of the wool, as well as its quan- 
 tity, and the general productiveness of the flock, demand this sj'stem. 
 
 " Shelter is the first necessity in providing for wintering sheep success- 
 fully. The Sotithdowns will bear exposure better than any other class of 
 sheep. The open fleece of the long-wooled parts on the back when wet, and 
 admits the water, which completely drenches the animal, so that his abund- 
 ant fleece is no longer a protection from cold. 
 
 " Economy in feedimj demands shelter for all sheep, as. not only less food 
 is required, but also it is better preserved from waste. Water-soaked hay, 
 or that which is in any way soiled, is alwaj's rejected. The improvement 
 in the qtiality of the mayiure- forms another argument in favor of shelter. 
 That this is not only healthful but grateful to the sheej) at all seasons of the 
 year, we see in the fact that even in summer they will seek their winter 
 sheds at the approach of a storm if they are within their reach. 
 
 " Ventilation is of paramount importance as connected with shelter ; and 
 to insure this, sheds open to the south are to be j^referred. A stable with 
 an open window will answer for a small number, but the crowding of a 
 large flock in such a place affects the organs of respiration, and may result 
 in serious disease, and should never be tolerated. 
 
 " The best form of racJc has posts three feet high in the corners, a bottom 
 of boards, the sides and ends of two boards each, and the lower one the 
 widest, with narrow perpendicular strips nailed on to keep the stronger 
 sheep from crowding the weaker. The spaces are larger in their perpen- 
 dicular than their horizontal opening. The size of these, as well as the 
 width of the rack, must be iu proportion to the size of the sheep. Not more 
 
84 DOMESTIC ANIMALS. [Chap. I. 
 
 tlian one lumdred of the line-wooled sheep should be confined in the same 
 yard, while the long-wooled will not thrive with more than twenty-five. A 
 hospital, sung and comfortable, should receive any slieep that may be weak 
 from age or disease, until, by careful feeding and nursing, they can be re- 
 turned to the flock. 
 
 " It is the worst possible practice to allow the sheep to fall away in flesh, 
 as the grass falls in autumn. The increasing wool conceals the shrinking 
 carcass, much to the disappointment of the careless flock-masters. Better 
 confine them in the yard than allow them to ramble about in search of some 
 field of winter grain, which furnishes a little green food, but too light to be 
 of any real value. 
 
 " Winter fodder should embrace, in addition to the dry food, a due pro- 
 portion of that which is green and succulent. Fine early-cut clover hay, 
 well cured — that from old meadows, consisting of a variety of grasses — 
 forms the best dry fodder. Economy demands that the quality should be 
 good, else much waste ensues ; yet the sheep is very fond of variety, and al- 
 ,most all of the so-called weeds become a choice morsel. The botanist knows 
 full well that a sheep-range will be most barren of the objects of his search. 
 The immortal Linnajns tested the plants most indigenous to Sweden by 
 offering them, fresh gathered, to the various domesticated animals. Horses 
 ate 263 species, and refused 212; cattle ate 27G species, and refused 218; 
 while sheep took readily 385, and refused only 141 species. For fattening, 
 add to the hay, root^, grain, or linseed, or cotton-seed meal. The English 
 system of winter feeding on turniijs in the field is here prevented by e.v- 
 cessive cold. Use them in the yards in moderate weather. Sudden changes 
 from green to dry food, and the reverse, should be avoided. Regularity in 
 the hours of feeding is very important. 
 
 " The amount of fodder varies with the kind of sheep, though it is not 
 directly proportioned to the live weight. Ten small, fine wooled sheep will 
 eat as much as a cow, the larger ones requiring more. Two to two and a 
 half, or even three and one third per cent, of the Jive weight in hay value is 
 estimated by diflerent authors as daily required. 
 
 " No other animals except calves should lie in the yards with sheep. The 
 losses from the horns of steers and the heels of colts more than balance any 
 supposed gain. As the breathing of the sheep on the hay does not of itself 
 render it distasteful to cattle, it may be gathered from the racks and fed in 
 another inclosure. 
 
 " It is estimated that 300 lbs. of good hay will winter a small sheep, while 
 larger ones may take three times the amount. 
 
 " Water is absolutely necessary to the thrift of the sheep in the winter. It 
 is best brought into the yards, as the steep banks of streams prove danger- 
 ous to the sheep. 
 
 " Salt may be provided in winter by a moderate salting of the hay — 
 two to four quarts a tun ; but excessive salting must be avoided, for with ib 
 neither sheep nor cattle will thrive. 
 
Sko. r.] SHEEP HUSBANDRY. 
 
 "As the lambing season approaches, snug quarters must be provnded for 
 the breeding ewes, where they can be clean, warm, and dry." 
 
 116. Graia for Shcopi — Major Wm. Lee, one of the most successful wool- 
 growers of western Pennsylvania, manages his sheep as follows, according to 
 the Ohio Farmer : " They are not confined to sheds ; they are only provided 
 with a dry ^Jlace for slielter and rest. After they r se of tlieir own accord, in 
 the morning, he feeds again, two thirds corn, and one third barley or oats. Af- 
 terwards he feeds hay, and also at three o'clock again, so that the sheep have 
 finished eating before nightfall. He considers that corn will make more 
 wool than oats, and general opinion favors out-door feeding. Sheep housed 
 •will not eat as much, nor will they shear as much wool." 
 
 Another sheep-farmer saj's : " I am willing to make affidavit that with 
 me, in many years' experience carefully' tested, sheep of the same kind, weigh- 
 ing from 110 to 130 lbs., will put on more fat and gain a great deal more 
 weight on 1 or li lbs. of grain or oil-cake per day, in three or four months, 
 xolth only sf rata for fodder, than those weighing 80 to 90 lbs. ; and I value 
 a sheep weighing 125 to 130 lbs. as worth half a cent more per pound of live 
 weight, for me to feed fat than one weighing 90 or 100 lbs. Now, no man 
 will suppose that the straw will put on any fat, or make sheep gain in weight. 
 If you feed sheep straw only, they would lose weight, and that greatly ; but 
 with a pound of meal or grain daily, they will gain daily. I can prove all I 
 have said by neighbors who have been feeding for a few years past, and who 
 will now only buy the largest sheep of their class, or the largest cattle of 
 their age." 
 
 117. Weight of Hay for Sheep. — The question. How much hay do sheep 
 or cattle require per day ? is thus answered by Alexander Speck von Stern- 
 berg, of Lutzchena, Saxony, to the Hon. Joseph A. Wright, American min- 
 ister at Berlin. He says : " 0>ie thirlleth part of the weight of the live 
 animal, in good hay, is considered necessary per day for its sustenance. 
 According to the quality of the fodder, and its abundance or scarcity, this 
 may be increased to one twentieth part ; but less than one thirtietli ]iart 
 ought not to be given. Taking good meadow hay as the fodder standard, a 
 ram should receive about 3^ lbs. per day, a ewe about 2| lbs., yearlings, 
 etc., in that proportion— taking the average of a full-grown ram at 110 lbs., 
 of a ewe at 72 lbs., the weight of each varying, according to age, size, and 
 condition, between 105 and 125 lbs. as regards the full-sized rams, and fi'om 
 70 to 85 lbs. as regards the full-grown ewes. The weight of a ■wether varies 
 between 80 lbs. in lean condition, and 110 to 115 lbs., if strong and fat for 
 the butcher. One pound of good meadow hay is considered equivalent to 
 1^ lbs. of oat, pea, wheat, or barley straw, 4 lbs. of turnips, or 2 lbs. of grains 
 in the wet state, as delivered from the brewery in winter. When the time 
 for stabling' for winter arrives, the sheep-master has his supi)lie9 of straw, 
 hay, and turnips allotted to him on the basis of the above calcula'ion, and 
 he is bound to make them serve out the proper time, under-feeding being as 
 much guarded against as over-feeding and waste." 
 
86 DOMESTIC ANIMALS. [Chap. I. 
 
 Another writer says : " The usual rate of the consumption of food is at 
 the rate of 3^ lbs. of hay daily for every 100 lbs. of live weight. K we take 
 the avera"-e of flocks, the live weight of 100 common sheep would be about 
 7 500 lbs., or from that uj) to 8,000 lbs. It is rare tliat a whole flock of 
 fine-wooled sheep will average more than 70 lbs. for each head, though it may 
 be that tliis weight is exceeded in some instances. At the rate mentioned, 
 a flock of 100 sheep should use up or consume 280 lbs. of hay per day, or a 
 total of 25 tuns in the M'inter season that lasted 180 days. This would also 
 equal 50ilb8. to each single sheep ; or it may be stated as a general rule, 
 that a full-grown Merino sheep, averaging in live weight from 75 to 100 lbs., 
 will consume during the winter season a quarter of a tun of hay, or its equiv- 
 alent, if comfortably kept. If grain forms a part of the ration, of course 
 some of the hay may be saved ; but if the animal is to be kept growing 
 wool, it will need its full ratio of hay, and a little grain, too." 
 
 118. Changing Pasture. — Some sheep-farmers are very particular about 
 changing pastures. This is right, if the inclosures are small. If there is a 
 wide range, it is of no particular advantage to confine sheep to one portion 
 of it, and then shift, them to another. 
 
 119. Feeding Sheep ts. Beeves. — Mechi, who is a highly enlightened and 
 practical English agriculturist, says he is convinced that beef must sell at 
 20 per cent, higher than mutton to make them pay alike. He also remarks, 
 that he agrees with a friend of his, who says, that he who keeps many bul- 
 locks will never need to make a will. 
 
 Our observation in relation to the comparative profits^ in this country 
 coincides with Mr. Mechi. 
 
 Thos. Bell, of Monmouth County, K". J., makes the following statement in 
 regard to the profits of feeding sheep : 
 
 " I usually keep about 100 sheep, and renew my flock every year. My 
 neighbors and myself agree with a drover to take certain numbers, and he 
 goes up the Delaware into the State of New York, where he obtains a large 
 strain of common sheep. I buy the best ones in the flock, paying the high- 
 est market price, which this year was $3 50 a head, while my neighbors prefer 
 to take the lower-priced sheep, graduating down to $2 50 or $2 25 a head. I 
 get my new flock in about the 1st of October, and immediately put the ewes to 
 full-blood Southdown bucks, so as to have the lambs dropped early in April. 
 I have good autumn pasture, so as to keep the flock in good condition to go 
 into winter quarters, where I keep them in yards with open sheds, fifty sheep 
 in a pen, with feeding-racks, and freedom to lay under cover or out in the 
 open weather. Their own instinct governs them about seeking shelter when 
 it storms. I feed the flock once a day upon hay, and once a day upon wliole 
 stalks of Indian corn cut from the ground as soon as it is hard enough to 
 ripen in the shock, when the shocks are well cured, and afterward the corn 
 is husked and stalks stored for winter. The sheep trim them of leaves, 
 and the dry stalks make good bedding for them. I watch my ewes and take 
 them out of the flock as the time approaches to drop their lambs, and put 
 
Sec. T.] sheep HUSBANDRY. 87 
 
 tliem ill other yards, where tliey are fed on grain and good hay, and I sel- 
 dom lose a lamb. I graze my flock upon less than eighteen acres of good 
 pasture, which has been made to produce sweet grass by the application of 
 green sand marl, by which I have renovated a worn-out farm. By the end 
 of July I have my lambs, which are large and fat, and well marked with the 
 Southdown characteristics, all off to the butcher — this year at $i 75 each, 
 selling the whole lot to one man. I could have sold them in small lots so as 
 to average $5 a head. The ewes, after the lambs are taken off, become fat 
 upon grass alone, so as to bring the best market price of tliat class of sheep 
 in September. I have just sold all off, and find that the 100 head which I 
 purchased at $3 50 one year ago, have yielded me in wool, lambs, and old 
 sheep $7 50 a head over the cost of the stock. Last year I realized $7 a 
 liead profit, or rather, I got that for keeping 100 head of sheep one year, and 
 I think that sum may be safely calculated upon every year. And besides 
 this profit, I find my sheep are enriching my land and are more advan 
 tageous in every way than any other kind of stock. Every farmer keeping 
 sheep shoxild have a lot of movable fence, and inclose small plots— say half 
 an acre at a time — of the poorest parts of the farm, such as gravelly knolls, 
 upon which to yard the flock nights. Tlie only drawback to keeping sheep 
 upon hundreds of farms near New York is the worthless cur dogs. In New 
 Jersey we have a good law which gives out of the general tax $5 a head for 
 all slieep killed by dogs. That insures every common sheep, but does not 
 warrant me in keeping full-blood Southdown or other valuable breeds. The 
 State of New York needs a stringent law against dogs to protect the interest 
 of farmers who keep sheep, particularly in the counties near the city." 
 
 The above statement of Mr. Bell is a very encouraging one, and would 
 doubtless encourage many of tlie farmers convenient to the city market to 
 adopt the same course if the State Lcgislatui-e would protect tliem against 
 dogs. The question resolves itself into this simple form : Is it of more gen- 
 eral advantage to the State to grow wool and mutton than it is to grow dogs 
 — dogs, too, of the most worthless sorts ? It is one of the rarest things in the 
 world that a shepherd dog or a good house watch-dog ever kills sheep. It 
 is only the meanest, prowling, thieving, worthless curs, of no value to their 
 owners, that destroy sheep. Let lis have a law to annihilate them, and then 
 every man can keep sheep with the same results as Mr. Bell. 
 
 Mr. Carpenter, of Elmira, said : "A neighbor of mine makes just about 
 the same average upon his flock of grade Southdowns. He shears six pounds 
 of wool per head, and he sells his lambs at Si." 
 
 Samuel Tliorne, of Dutchess County, N. Y., pursues the same course, 
 with the same results, as Mr. Bell. 
 
 Mr. Wade, of Canada West, says: "That he prefers the long-wool sorts, 
 because they are more hardy. The mutton sells readily, and the wool, 
 though not worth so much a pound as the fine-wool sorts, weighs so 
 much more that the value of the fleece is equal. We don't grow much 
 corn, but we feed a great many roots, and feed well. It is foolish to try to 
 
DOMESTIC ANIMALS. [Chap. I. 
 
 keep any animal upon low diet. "We feed anything that sheep eat best, and 
 I fatten principally upon turnips and hay, with a little meal. The long-wool 
 sheep are better adapted to Canada than the fine-wool. We shear eight 
 pounds of clean wool per head. The Cotswold variety are preferi-ed ; they 
 have stronger constitutions than the Leicester sheep." 
 
 Gen. Harmon, of Monroe County, says : " I commenced with fine-wool 
 sheep, forty years ago. I then tried Leicestershire, and then came back to 
 Merino. I have less than 200 acres, and grow 30 or 40 acres of wheat every 
 year ; the land improves by sheep. My average weight of fleece is five pounds. 
 I keep 330 head, and get over $700 a year for wool and increase. I stable 
 50 sheep in a room 14 by 40 feet, without change in the winter. I wash my 
 sheep clean and let them run six or eight days, and then shear. I don't 
 breed from gummy sheep. I feed in board-racks, with straight sticks, so 
 the sheep can put in their heads. There are about 25 acres of reclaimed land 
 on my farm that will keep sheep alive, but won't fiit them. My farm is 
 limestone, and I prefer fine-wool sheep to any other for profit; and I con- 
 sider sheep twice as profitable as cattle upon any grain farm. I never 
 breed from ewes less than three years old. I don't like the cross of Lei- 
 cester bucks upon fine ewes. I have sold of wool and sheep over $900 a 
 year." 
 
 Lewis F. Allen, of Black Eock, says : " I have kept sheep twenty-five 
 years upon a clay loam, natural to sweet grasses, limestone formation, on the 
 Niagara River. There is no general rule as to the profit of keeping sheep. 
 All depends upon circumstances. In Canada I have seen the best long-wool 
 sheep I ever saw, but these sheep are too fat for eating. You might as well 
 dine off a cake of tallow as such meat. Such sheep may be profitable in 
 Canada. With me those sheep require good shelter. They are not kept 
 warm by their long fleeces. My sheep sheared five to eight pounds of wool. 
 I don't approve of feeding many roots except to breeding ewes. They are 
 likely to scour sheep ; at least they do mine. 
 
 " On some soils it may be best to plow in clover ; on other soils it is not. 
 As to mutton sheep, I have fed Southdowns, and the cheapest way that I 
 can make mutton is upon grass, and wethers of 150 lbs. bring five cents a 
 pound gross at Buffalo. I would keep mutton sheep if I had a good farm on 
 a railroad. I can always sell my lambs at $2. My Soxxthdown fleeces bring 
 $1 50 average. Southdown mutton is the best we have, and the sheep 
 always sell well for mutton. The fine-wool sheep mutton is apt to taste of 
 the greasy wool. Tlie Merino sheep are a hardy race of sheep, but they are 
 not a good breed to feed for mutton." 
 
 Mr. Bowen, of Orleans County, says: "I have bred both coarse and fine 
 sheep. I have raised coarse- wooled sheep that weighed 150 lbs. each at one 
 year old. I find the coarse-wool breed the most profitable. My sheep 
 average six pounds of wool, that sells at 31 cents a lb. My sheep are a 
 cross of Cotswold, and are close-wooled and hardy. I live on a gravelly 
 loam, wheat soil, and 1 think it desirable to increase the stock of sheep in 
 
Sect.] sheep HUSBANDRY. 
 
 this State. A field of clover fed oif by sheep will yield more wheat than 
 if not fed off." 
 
 Mr. Pettibone, of Vermont, says : " If a man keeps but few sheep he 
 should keep a mutton breed. If he keeps a large flock, or say 200 or 300, 
 he should keep fine-wool sorts. The trouble in sheep-breeding is in letting 
 them run down in October. I winter 300 head, and 100 ewes will give 100 
 lambs. I use 400 acres, but many of them are on the mountain, and valued 
 at only $7 an acre. I do not let all my ewes breed. I keep my sheep in 
 very close winter quarters on hay. I feed breeding ewes one jjeck of corn a 
 day to 100 head. In eleven years I have not had a lamb die, and ewes are 
 kept without grain, but always with water and salt by them. There is a 
 material difl'erence in the value of the fleece, according to the way sheep 
 are kept. I prefer always to have my sheep fat. In January I select )ny 
 ewes, and never sell the choice ones. I have a ewe that has produced 
 eighteen lambs and shears four pounds of good wool. I do not select the 
 most gummy sheep for my use ; they are much more tender than those less 
 gummy. Still, you must have greasy wool if you have fine wool. I feed 
 generally twice a day — sometimes only once. The sales of my wool last 
 year produced over $2 a head for my flock, and the average for fifteen yeai's 
 has been four and three quarter pounds, such as sold this year at 50 cents 
 a pound. My land is limestone clay loam. I have picked out and sold 
 twenty wether lambs to a neighbor who sheared eight pounds a head, and 
 sold two sheep for mutton at $3 50 a head. A flock of 300 head of sheep 
 ought to average five pounds of clean wool. I select in the fall eight or ten 
 wethers, and feed them with meal through the winter, and give them good 
 grazing in summer, and kill through the summer, and the tallow averages 
 10 or 12 lbs. and the meat 10 or 15 lbs. per quarter. The pelts sell at 75 
 cents. A three-year old wether, pure Merino breed, often weighs 75 lbs. 
 I have sheared H lbs. of wool per head from bucks, which sold for 50 cents 
 a lb., and 8 lbs. of wool from ewes." 
 
 A. B. Dickinson says : " I have sheared 11,000 sheep in a year, and know 
 sometiiing of them. The man who raises sheep for mutton had better raise 
 the largest kind, for they produce the most money, though they may not make 
 the best kind of mutton. For wool, I would keep none but the fine-wooled 
 variety of sheep, but I would not keep the gummy sort, because the clean 
 wool will always produce the most money. In washing sheej), I am sure 
 that the wool can always be made cleaner when the sheep are washed in a 
 vat than in a stream. If 20 sheep will weigh 20 cwt., they will eat just 
 about as much as two bullocks of that weight — that is, if they are ma- 
 ture sheep. Young sheep eat more, according to live weight, than old 
 ones." 
 
 Mr. Johnston bought thirty Leicesters one fall, put them in his yards, fed 
 them each twelve ounces of oil-meal with wheat straw, and no hay, all 
 winter. In spring he sheared from them five pounds of wool each, pastured 
 them all summer, kept them over imtil the following February, and sold 
 
90 DOMESTIC ANIMALS. [Chap. I. 
 
 tliein for nitie dollars and twenty cents each. They cost him two doUars. 
 Slieep fed with oil-cake meal or grain eat but little salt, make riclier manure, 
 more wool, and more carcass. He gives usuallj' one pound of oil-meal when 
 feeding with straw, and half a pound with hay. If there should be any 
 signs of foot-rot in the flock, he pares the hoof, and rubs into the sores a 
 salve of blue vitriol and lard. In very hot weather he mixes tar with the 
 salve, to make i^ adhere. Sheep are never let out of the yards in winter, 
 but to the yard they have free access at all times from the low, open sheds, 
 and every part of the sheds and yard are deeply bedded with clean straw. 
 Tiie shepherd, instead of wading through a slough worse than that described 
 by Banyan, walks on a soft bed of straw, so clean at any time as not to soil 
 the white ileece of the cleanest Leicester. 
 
 Wm. H. Ladd, of Ohio, says : " My practice is to turn the lambs in with 
 their mothers, after tliey have been separated some twelve hours, and as soon 
 as they nurse, separate them again; then, after twenty-four hours, allow 
 them to nurse once more. Since I have adopted this plan, I have never had 
 a ewe's udder injured. Lambs should have a very little salt frequently, 
 when first weaned, as the herbage lacks the large proportion of salt which 
 the mother's milk contains. But great care should be used not to give them 
 much salt at once, or it will set them to purging; and if a lamb commences 
 to purge soon after being taken from the mother, it seldom, if ever, recovers 
 from it. 
 
 " Lambs that come eai-ly are invariably the largest, strongest, and most 
 healthy ; consequently they are the best breeders. The ewe that has her 
 lamb early has sufiicient time to get in good order before winter, and after 
 the lamb is weaned, she is not subject to weakness and disease, as those of 
 late weaning, and is consequently a better breeder the next season. Poor, 
 late feeble lambs and ewes should never be permitted to breed, for if such 
 are, it invariably follows that the flock will degenerate. Generating or 
 breeding ewes should be carefully selected. Ewes sometimes continue strong 
 and productive \mtil twelve or fifteen years of age ; this depends on their 
 general health and constitution." 
 
 120. Age of Sheep for Mutton. — A late English writer says: " A sheep, to 
 be in high order for the palate of the epicure, should not be killed earlier 
 than five years old, at which age the mutton will be rich and succulent, of a 
 dark color, and full of the richest gravy— whereas, if only two years old, it 
 is flabby, pale, and flavorless." 
 
 121. Grub in Sheep. — ^Take one quart of whisky and two ounces of yellow 
 snuff, mix, and warm to blood-heat. Let one man hold the sheep, and 
 another take a small syringe, and discharge about a teaspoonful of the mix- 
 ture into each nostril. It is said to be a certain cure. 
 
 122. Gross and Net Weight of Sheep. — The usual estimate of gross and net 
 weight of sheep is, that the dressed carcass will weigh one half as much as 
 the gross weight, and therefore, when the sheep are sold at, say five cents a 
 pound alive, the price is equivalent to ten cents a pound for the meat, sinking 
 
Sec. 7.] SHEEP HUSBANDRY. 91 
 
 the pelt and all the oifal, so that the butcher, if he could sell the carcass at 
 cost, would still have the pelt, rough fat, head, etc., for a profit. Hence it 
 will be seen how it is that mutton in the carcass is often quoted in market 
 reports at less than it appears by livestock reports to have actually cost. 
 
 123. Western Mutton. — It is one of the incomprehensible things in "Western 
 agriculture that so little attention is paid to the business of fattening sheep. 
 "VVith a vast country, as well adapted to making mutton as pork, and in many 
 respects even better, it is one of the rarest tilings to see a farm devoted to 
 the raising of sheep for their meat alone, while it is equally rare to find a 
 farmer who does not raise hogs and fatten them for their pork. 
 
 "We are aware that the "West is full of sheep, and that the business is not 
 considered very profitable. There are some good flocks — in fact, some large 
 flock-masters, whose principal business is to raise sheep — but it is for their 
 fleece alone. Very few farmers. East or "West, have ever made a business of 
 making mutton. The sheep are almost entirely bred for wool, not for meat. 
 And besides this, more than one half of all the sheep in the United States 
 are not bred distinctly for meat or wool, but simply because they are sheep, 
 and will answer in some sort for botli purposes ; but their fleece is often of 
 a coarse, unprofitable kind, and their bodies lean and light. Such sheep are 
 naturally slow to acquire fat, when fed for that purpose, just as their fleece 
 is naturally of light weight or coarse fiber. Such sheep are not profitable, 
 although so common all over the country. 
 
 Of all varieties of domestic animals, the flesh of sheep is least used, except 
 in cities, in proportion to the quantity that is, or rather might be, profitably 
 consumed. "\Ye esteem mutton almost the very best kind of meat provided 
 for a civilized people. That its production would be found among the most 
 profitable we have no doubt, pi-ovided a good breed of sheep were selected, 
 especially for their meat-producing qualities. For this purpose we esteem 
 the Southdown variety the very best. "We have known flocks of fat sheep 
 of this sort sold here for $25 per head. Certainly this is a paying price. 
 We have several times reported sales of sheep in New York, of the long-wooled • 
 kind, at $12 to $20 per head, which was equal to 12 to 16 cents a pound 
 for the meat. Is this a profitable price for the farmer, particularly the 
 farmer of the West, the greatest country in the world for tlie j^roduction of 
 pork ? 
 
 All the long-wooled varieties of sheep, known as Bakewell, Leicester, 
 Cotswold, New Oxfordshire, etc., are fat-producing animals ; that is, they 
 are as naturally inclined to acquire fat as other animals are to produce only 
 lean meat. In England, such mutton is much esteemed. In this country 
 the lean kinds are preferred. In Ohio and other Western States there is a 
 grade of sheep called common, that are as well fitted for the purposes of the 
 AVestern farmer as any he could obtain in this country (except the South- 
 downs) to breed for mutton, if careful selections were made, and some care 
 exercised in breeding and feeding. If is true they are a mongrel breed, 
 made up of crosses of all the varieties ever imported, but they are strong 
 
92 DOMESTIC ANIMALS. [Chap. I. 
 
 and hardy and long-legged, Avliicli are valuable qualities for the drover. 
 Their bodies, when well fatted, at two or three years old, will weigh from 
 fifty to sixty-five pounds, and the meat is just fat enough to suit the Ameri- 
 can taste. The heavier carcasses of the long-wooled variety are generally 
 too fat, though we think the taste for fat mutton is an acquired one, like that 
 for fat pork. 
 
 But, fat or lean, mutton will always find ready sale in this city at remu- 
 nerating prices. Western farmers should turn their attention more earnestly 
 to the subject of raising sheep, not for wool, but meat for the supply of all 
 the Eastern cities. We profess to be tolerably well acquainted with the 
 great prairies of the West, and fully believe that there is no branch of agri- 
 culture so certain to produce sure and profitable returns as that of raising 
 sheep of the kind we have indicated. We know of no other pursuit that 
 the new settlers in Kansas could adopt at all to compai'e with this. Such a 
 town, for instance, as Lawrence, might own a hundred thousand sheep, all 
 of which should be kept out on the broad prairies in summer, under the care 
 of shepherds and their dogs, to guard them night and day from their greatest 
 enemy, the prairie wolf In winter they could be provided for on a hundred 
 farms, under cheap shelter, with earth walls and grass roofs. They winter 
 well upon •\vell-cured wild hay, without grain, except for those in hospital, 
 if fed occasionally upon any kind of roots, such as can be grown in great 
 abundance in tliat soil. In the fall or latter part of summer, select the best 
 animals for market, and start them eastward across Iowa and Illinois, feeding 
 them on cheap grain when the grass fails on the great prairie pasture. 
 
 The raising of cattle must be the business of Kansas settlers, and we 
 believe the best of all will be mutton sheep. The new settlers, too, must for 
 a time make meat their principal diet — in fact, it is the national diet of that 
 region, just as vegetables are in China. We do not know of a greater act 
 of folly, or a greater humbug, than inducing people to go to Kansas to 
 practice the peculiar, not to say stupid, doctrine of vegetarianism. 
 
 What the peojjle of the West want — what all who grow meat and all who 
 consume it want — is to have the great sea of prairie grass converted into 
 meat — cheap meat. This should be the leading object of all emigrants to 
 the West. The business of grain-growing naturally belongs to a pastoral 
 people, upon old farms, rather than to new settlers. It is a subject to be 
 thought of both by emigrants and old settlers, which is the most profitable, 
 stock or grain, and if stock, wliich particular kind. 
 
 124. Sheep iu Texas. — ^There is, or has been, a sort of mania about sheep in 
 Texas. The start made a few years ago by G. W. Kendall, and his success, 
 after going through all the phases of ill luck, losses, and discouragements, 
 which perseverance overcame, has induced many others to establish great 
 sheep-farms in that State. Major Wm. Leland, one of the proprietors of 
 the Metropolitan Hotel in tliis city, is one of the number who has followed 
 the lead of Mr. Kendall, with every prospect of success. There is, besides 
 the fine wool-flocks established in Texas, a constant and large importation 
 
•Sec. 7.] SHEEP HUSBANDRY. 93 
 
 of the coarse-wool sheep of Mexico. It is estimated that a fourth of a 
 million of Mexican sheep have crossed the line into Texas since the first of 
 1859, and the number is constantly increasing. These Mexican sheep are 
 crossed with Northern stock, and make a valuable progeny, both for wool 
 and mutton. We shall expect before many years more to see Texas mutton 
 sheep in the New York market more frequently than we now see Texas 
 beef-cattle, and that they will be mnch better liked, both by butchers and 
 mutton-eaters, than the bullocks are. 
 
 A Massachusetts correspondent wants to know more than we do about 
 sheep-farming in Texas. We commend him to Wm. Wilkinson, Comal 
 Ranche, near New Braunfels, Texas. 
 
 We don't know " what part of the State is most suitable for sheep 
 husbandry," but we do know that part of it is, as above indicated, for there 
 George W. Kendall and others have succeeded. 
 
 "What breeds of sheeji are to be chosen?" We can answer: All breeds 
 that have succeeded in the Northern States have succeeded in Texas. 
 
 " What are the pecuniary advantages?" This question we can answer by 
 stating that the first cost of land for a location is very small compared witli 
 the cost in Massachusetts, while there is a boundless range of open country 
 upon which great flocks can be grazed, in charge of the shepherd and his 
 dogs ; and as for winter feeding, that is not worth mentioning, and the rudest 
 shelters — mere earth walls— to break the force of the wind, will answer at 
 first in place of costly barns. Subsistence, too, for hirelings, is also quite 
 inexpensive, and, taken altogether, Texas certainly ajipears to have many 
 advantages for sheep husbandry. 
 
 There are, to be sure, some drawbacks. It is a long way from the great 
 center of commerce to which wool must be transported, and so far as we can 
 see, it is so far away from mutton-eating communities, that the meat is nearly 
 valueless. We very well remember, however, when the same thing was 
 true of Ohio, where thousands of sheep have been slaughtered for the pelts 
 and fat, and the meat fed to the pigs. Now, sheep are worth in Ohio within 
 a dollar what they are in New York. Time may work a similar change for 
 Texas, and then it will rival all other States as a sheep-producer, for that is 
 a business that can and will he conducted without slave labor. 
 
 125. ProdilciBg TwinSt— A large sheep-breeder has declared " that sheep 
 highly fed with meal or other good provender, about tlie time the buck is 
 with them in the fall, will almost invariably have two lambs apiece, and that 
 these may nearly all be raised by proper attention to the mothers. The 
 great mistake in regard to sheep is in not keeping them well enough. If 
 you wish them to be prolific or profitable, give them plenty of the best hay 
 through the winter, and meal daily, and for shelter a warm barn-cellar, 
 wherein is an open tank of pure water. No kind of grain need be ground for 
 feeding sheep — the hardest is thoroughly masticated and digested by them. 
 The importance of good feeding is unquestionable." 
 
 It is by no means an unheard-of thing for all the ewes of a flock to average 
 
94 DOMESTIC ANIMALS. [Chap. I. 
 
 twins. An average of 130 per cent, to 150 per cent, is quite usual, and with 
 some breeds a much greater increase is tlie general rule. The sheep offers 
 her owner more sources of profit than any other animal. First, her natural 
 increase ; second, her wool ; third, her flesh ; and this is the most important 
 of all tiie considerations connected with sheep husbandry, because a greatly 
 increased consumption of the flesh of sheep will greatly promote health. 
 
 Sheep " come in play" wonderfully in well-managed farms, especially such 
 as are pushed to their utmost capacity, as a means of increasing fertility in 
 various ways, feeding off" green crops, such as clover or rye, previous to 
 plowing them under, securing thus the advantage of passing the crop through 
 the animal system without moving it from the field, scattering the manure 
 very evenly previous to plowing, and giving what remains of the green crop 
 when plowed in the advantage of undergoing its decomposition in contact 
 with animal excrements. The sheep possesses other and greater advantages 
 over other kinds of stock, which recommend it for general culture. Among 
 these is its great fecundity. 
 
 12G. Nunibcriug Sheep.— W. D. Dickinson, of Victor, Ontario Co., N. Y., 
 gives, in the Stock Journal, the following plan of numbering sheep: 
 
 " About twelve years since I commenced numbering, classifying, and 
 registering my flock, whicli has been of great advantage to me, enabling ine 
 to select at all times for sale (which I invariahly do myself) such as are of 
 the least value, wliether with regard to age, weight of fleece, quality of 
 wool, or value as breeders. 
 
 " My method of numbering is by notches in the ear, as follows : A notch 
 in the fore part of the left ear stands for 1, one in the back part of the same 
 for 3. With these I number up to 10 ; thus, two notches in the fore i:)art, 2 ; 
 two in the back j^art, 6 ; two in each, S, etc. A notch in the fore part of 
 the right ear stands for 10, one in the back part of the same, 30. Witii 
 these I number to 100. Tliis is as far as I have occasion to go in my flock, 
 as I seldom have over 300, and consequently never have as many as 100 
 lambs of each sex in one year. This might be carried much fartlier by 
 cut'ing off the end of the left ear for 100, and of the right for 200 ; a notch 
 might then be made in the end of the left ear for 400, and in the end of the 
 right for 800. 
 
 "The age of my sheep is known by the holes through the ears. A hole 
 through the left ear stands for 1 — that is, the year 1841, '51, or '61, showing 
 the year in which the slicep was born ; one in tlie right ear for 3, so that a 
 sheep born in the year '5G would have two holes through the right ear ; if in 
 '57, two holes through the right and one through the left ; for '58 would re- 
 quire two through each, instead of which I simply make a notch in the end 
 of the left ear ; and for '59, one in the end of the right. The years '40, '50, 
 '00, etc., the ears are left without any holes — thus commencing anew every 
 ten years, by wliich time those of that age are usually gone. I number my 
 lambs as they are dropped, commencing each year with No. 1, both buck 
 and ewe lambs. 
 
sko. r.] 
 
 SHEEP HUSBANDRY. 
 
 95 
 
 " My book is kept in the following manner : 
 
 
 
 
 
 No. of 
 Ewes. 
 
 . Year 
 born. 
 
 Class. 
 
 Live • 
 weight. 
 
 \1ete°' Buck used. 
 
 Teaned. 
 AprU. 
 
 Sheared. 
 June. 
 
 Buck 
 Lambs. 
 
 Ewe 
 Lambs. 
 
 Remarks. 
 
 7 
 
 15 
 3 
 
 '51 
 '51 
 
 '51 
 
 3 
 
 1 
 
 84 
 93 
 
 83 
 
 6-1 34-53 
 4-1 39-53 
 4 51-53 
 
 12 
 13 
 13 
 
 ^ 11 
 
 26 
 
 24 
 
 1 
 2 
 
 1 
 
 
 " In tlie first column is the number of the ewe ; in the second, the year in 
 which she was born ; in the third, the class denoting the quality of the wool, 
 which is regulated by the number of curves to the inch ; the first containing 
 24 and upward ; the second, 22 to 2-i ; the third, 20 to 22 ; the fourth, 18 to 
 20. The fourth column gives the weight of the sheep when sheared;' the 
 fifth, the weight of fleece ; the sixth, the number of buck used and the year 
 in which he was born ; the seventh, the month and day the lamb was 
 dropped ; the eighth, the time when the ewe was sheared ; the ninth and 
 tenth, the number of the buck and ewe lambs. My flock now numbers 267, 
 principally breeding ewes and yearlings. Mj* average weight of fleeces, 
 when well washed, is usually abcait 4i lbs., the quality of wool equal to me- 
 dium Saxon, numbering from 20 to 28 curves to the inch, averaging about 24." 
 
 Another plan is given as follows, for numbering sheep, which, though not 
 quite as permanent as the method detailed above, may be preferred by some 
 persons on the score of humanity. 
 
 " We were handed a sheet of paper xqjon which was noted the weight of 
 fleece of each sheep in the flock ; opposite was set the number of the sheep, 
 a corresponding number having been branded upon the animal itself at the 
 time of taking its last clip, by applying a mixture of lampblack and tar with 
 cast-iron figures. This course had been ])ui-sued for some years, and its 
 results were apparent in a wool crop brought up from an average of four 
 pounds to over five, and a corresponding increase in tlie size and quality of 
 sheej). The practice had been to slaughter and otherwise dispose of all ani- 
 mals ranking lowest in weight of fleece and to improve upon the quality of 
 the remainder by judicious crossing." 
 
 127. Shearing Sheep. — An old sheep-shearer, who can clip a sheep hand- 
 somely in three minutes, or shear and tic up the fleece in four minutes, who 
 has often clipped 100 sheep a day, wants us to give our readers the benefit 
 of his plan of doing it. First, have two pairs of good shears; one pair to 
 trim with, and the other to do the principal M'ork, and never use dull shears. 
 A good oil-stone is the best sharpener. What is termed a down-set shear, 
 with blades five inches long, he considers best. In using them, never draw 
 the shears backward while making the clip, but rather push forward and 
 keep the shears level and close, and never clip twice in one spot, as that cuts 
 the wool. 
 
 To hold the sheep, have a bench as high as the lower part of the knee- 
 cap ; or if the sheep is large, it may be lower. Lay the sheep back to you, 
 witli head to your right hand. Put your right knee gently on the sheep's 
 neck, with its right fore leg in the bend of yours as you kneel, having the 
 sheep close to the edge of the bench, with its back braced against your left 
 
96 DOMESTIC ANIMALS. [Chap. I. 
 
 leg. Rest jour left arm on the sheep's left flank, ■while you hold its right 
 hind leg in that hand, stretched out to the edge of the bench, and holding to 
 it if you wish, if tlie sheep is disposed to struggle. 
 
 Commence shearing at the opening on the left side of the breast, and trim 
 off all the wool on the belly and inside of the hind legs, and remove it to 
 one side till the fleece is ofi", when the trimmings of clean wool are to be 
 wrapped in it. 
 
 To shear the body, place your left leg on the bench astride of the sheep, 
 taking the jaws in your left hand, and clipping the foretop and right side 
 of tlie neck, and down on the left breast. Then you change position, step- 
 ping back a little and raising the sheep on its hips, by catching hold of the 
 left hind leg with your right hand without laying down the shears. Pull 
 the sheep close to the edge of the bench and place your right leg between 
 its hind legs, with its neck and shoulders on your left knee, as it rests on the 
 bench. Now clip over the point of the shoulder, and then straighten the 
 neck with your left hand, without stopping the shears, and finish ofi" the 
 brisket and the neck, and then clip on down the side, and over the hip and 
 back, letting the sheep down gradually, so as always to have the skin you 
 are clipping free of wrinkles. Now take your left knee off the neck, and 
 hold it with your left hand while you remove your right leg and place the 
 left one in its place, so that you can bring tlic right knee upon the bench, 
 keeping the shears going all the time with tlie right hand. Then lift the 
 head with the left hand, and cV\p that side over the point of the shoulder, 
 and, raising the sheep gently, bring its head between your legs, while you 
 finish clipping. Take care that the sheep docs not struggle, and when done, 
 lift it clear of the fleece, so as not to tear it. Fold the fleece with all tlie loose 
 wool that is clean inside and roll it very snug, with the cut end of the wool 
 out, and tie with cotton twine, so as to look neat and bear handling without 
 getting loose and ragged. 
 
 Following the above directions, you will need to stop but twice for a mo- 
 ment to turn the sheep, so that the shears are almost incessantly clipping 
 from the time you begin till you have finished. 
 
 128. Taggiog. — One of the cares of sheep most important for their health 
 and comfort is tagging, and this is most often neglected. Probably the 
 only attention ever given to this matter is at shearing-time, and we have 
 seen, even then, sheej^ sent off out of the shearer's hands with the tag-locks 
 untouched. If there is anything in farming more slovenly than this, we 
 don't know what it is. 
 
 129. To CleaDse Fine Wool. — ^There are a few old-fashioned houses from 
 which the spinning-wheel is not yet entirely abandoned. Tiie inmates of 
 such do not always know how to cleanse the gum out of Merino wool before 
 sending it to the carding-machine. Let them be sure to remember this 
 direction, by which we have cleaned many a hundred-weight, some of which 
 was almost as black as my hat, with dirt and gum, characteristic of all fine- 
 wool sheep. 
 
PLATE VII. 
 
 (Page 97 ) 
 
 In this plate we present to the reader such a collection of excellent 
 portraits of the most celebrated horses in America as can nowhere 
 else be procured. The four upper figures will be at once recognized 
 as correct likenesses of animals that have won a name that makes 
 them famous in equine history. That of the Justin Morgan horse 
 will be found in this chapter. He is the progenitor of a family that 
 has won the hearts of the people. Flying Childers stands as the 
 rej^resentative of the race-course. Patchen and Flora Temple are 
 the most noted of the great family of American fast trotters. The 
 Arabian here represented is a portrait of one of the noted horses 
 presented to Hon. William H. Seward, and by him to the New York 
 State Agricultural Society, and tliis picture gives one a good idea 
 of the spirited appearance of that breed. The Cleveland Bay is the 
 representative of a class of noble carriage horses which has given 
 character to many of the same class in this countr}^, ^particularly in 
 Central New York. 
 
 The Norman horse, as we see him here, gives a good idea of the 
 appearance of the heavy diligence and common work-horses of France, 
 having a thick neck, short, strong legs, and round, compact body, 
 capable of sustaining great burdens, and pulling immense loads at 
 a slow gait, as compared with some of our American fast horses. 
 This breed was made quite notorious in this country by the import- 
 ation of the late Edward Harris, of New Jersey, about twenty years 
 ago. The portrait of the Canadian horse is a fine representative 
 of his class, Avhich was formed by a mixture of the Norman horses 
 of the early French settlers of Canada with some smaller breed, 
 which, by neglect and exposure, and carelessness of improvement in 
 breeding, has produced a race of small, hardy horses, known as 
 Canadian, which are sometimes, though erroneously, called ponies. 
 A careful study of these portraits will be useful to all farmers, as 
 well as many other persons. 
 
JlTieTPKKKya' MHaKEaJs nm m.«bmis.» , 
 
Sko. 8.] 
 
 nOESES AND MULES. 
 
 97 
 
 For 100 lbs. of wool, take four gallons of urine and eight gallons of rain- 
 water; mix and beat a little above blood-lieat, until the scum rises, which 
 skim off. Keep it at the same heat in a kettle on coals or a little tire out of 
 doors. Put in what wool the kettle will conveniently hold, and let it remain 
 about five minutes ; take it out on a board that will drain the liquid back 
 into the kettle, or else put it in a basket over a tub, so as not waste the liquid, 
 for it will be equally good for the last batch as the first. When it is drained, 
 put the basket under a stream of water running on it if convenient, or in a 
 running stream if you can, or else with plenty of clear water in a large tub ; 
 it will wash very easily, and lie as " wliite as wool." 
 
 Don't forget to sprinkle the dirty liquid upon the poorest spot in the gar- 
 den, for it is a powerful manure. 
 
 The same kind of liquid is the best thing known to take the dirt and 
 grease out of any kind of foul woolen clothes or yarn. 
 
 SECTION VIII.-HORSES AND MULES. 
 
 GENERAL history of the horse and his uses, and 
 how to use him, will not be looked for in a work 
 that only professes to give little items of informa- 
 tion upon a great many things. It would occupy 
 a volume larger than this one to give a tolcral)ly 
 full history of the equine race, since it has been sub- 
 jected to the use of man. 
 Eqmisis the generic name of the quadrupeds which 
 lave a single digit and hoof upon each foot, as has 
 lie horse, ass, zebra. The horse has been a domestic 
 as well as a wild animal from a very early time. He 
 is mentioned in Genesis as being in harness when 
 Joseph transferred the remains of his father fi-om 
 Cgypt to Canaan. 
 Horses exist in a wild state in various jiarts of the 
 globe. Tliey were once quite numerous in the territory embraced in some 
 of our most western States. Domestication works material change, the mi'st 
 marked of which is an increase in the size of the trunk. Then follows an 
 increased size of all parts, and a loss of the fleetness natural to the horse in 
 his wild state. 
 
 The Arabian horse, though domesticated by a semi-savage race, still re- 
 tains some of his wild characteristics, one of which is fleetness and long 
 endurance. Tlie Arab tradition in regard to the horse is, " that he was 
 created out of the wind, as Adam was out of the earth." Hence, " fleet as 
 the wind," is often applied to the horse. The tradition is, that the male of 
 the horse was created first, as the more noble of the two, and that the horse 
 
98 DOMESTIC ANIMALS. [Chap. I. 
 
 was created before man, and after he was created he was told to choose the 
 most beautiful of all animals, and he chose the horse ; upon which God said 
 to Adam : " You have chosen that which is a glory to j'ou, and will be to 
 your children." The Arabs profess to know the pure Arabian horse, the 
 descendant of Zad-el-Iiakeh, which Solomon presented to their tribe, by the 
 firmness of his lips and cartilage of the lower part of the nose ; by the dilata- 
 tion of his nostrils ; by the leanness of the flesh about the veins of his head ; 
 by the elegance of the neck and shoulders ; by the softness of his hair, mane, 
 and skin ; by the fullness of his breast ; by the large size of his joints ; and by 
 the dryness of his extremities ; and also by his moral indications, for a noble 
 horse has no malice in him. He loves his master, and frequently will suffer 
 no other to mount him. He refrains from doing what nature prompts as 
 necessary while his master is on his back. lie will not eat food left by 
 another horse. He loves to splash limpid water whenever he meets it. His 
 instinct, smell, sight, hearing, intelligence, and address are all used for his 
 master ; and he will fight for him. Hence the Arab's love of his horse. It 
 will be well for us all to remember some of the traditions of the Arab, for 
 they describe valuable points in a horse. 
 
 130. Tliorougb-Rred> — This term does not appear to have any very def- 
 inite meaning in this country. It is generally supposed to trace back to 
 something in the way of pure blood, of a better stock than the common one 
 of the country ; but what that stock is, perhaps not one in ten who owns 
 horses can tell. A writer in the (English) J^ur/iier^s Magazine says : 
 
 " The term thorough-bred is an expression not clearly defined as regards 
 any of our domestic animals, but it would be very desirable to have some 
 rule established. It may be accepted as a principle that breeding from ani- 
 mals endowed with certain properties and perfections through several gen- 
 erations, constitutes the claim to distinction ; hut there is no adopted rule to 
 determine how many generations are sufficient to edahlish the title.'" 
 
 Yet, according to our understanding of tlie term, a " thorough-bred" horse 
 must trace back, free from contamination of baser blood, to the pure Arabian 
 stock. The original of that stock in England, so far as pedigrees are at- 
 tempted to be traced, was the " Darley Arabian," brought from " Araby the 
 blest" by a Mr. Darley. That horse was the sire of Flying Childers, and 
 grandsire of Eclipse, one of the most remarkable horses ever on the English 
 race-course. He was not what would be considered a handsome horse, by a 
 breeder of Morgan stock, but his fleetness and endurance vt'cre beyond com- 
 petition, and his stock have followed in his footsteps. He died at the age 
 of twenty-five years, after having begotten a greater number of prize-win- 
 ning colts than any other horse that ever lived. 
 
 If a horse can trace back to old Eclipse, or any of his famous colts, there 
 is no mistake about his being " thorough-bred." So he would be if he 
 traces back to the "Godolphin Araliian," a Barb that was introduced into 
 England at a later period than the Darley Arabian. 
 
 There should be some definite rule established among horse-breeders and 
 
Seo. 8] nORSES— ENGLISH BREEDS. 99 
 
 our several State agricultural societies as to how far back and to what stock 
 the pedigree of a horse should go to make hiui eligible to a prize as a '' thor- 
 ough-bred " 
 
 131. Euglish Hunters* — Tliis is a term given to a breed of English liorses 
 which are liigh up in thorough-bred blood, with a strain of other blood 
 possessing great powers of endurance. The head of a hunrcr of perfect form 
 is small ; his neck thin, particularly below; a firm and arched crest; jaws 
 wide, and very light on the bit. 
 
 132. Au English €oach-!!orse. — The type of this variety is the " Cleveland 
 Bay," some of which have been imported into this country, and have left 
 their nuirk upon the finest coach-Iiorses we have in the United States — such 
 as are to be found more abundantly in Central liew York, than in any other 
 locality. 
 
 133. English RoadsterSo — Tlie term more common for this class in En- 
 gland is "Hackney" — -a terra seldom lieard in this country, and if heard, 
 would be more likely to be understood as meaning a " hack-horse." The 
 nearest type of a hackney that we have, as a distinct breed, is the Morgan ho: se. 
 
 Youatt says : " A hackney is a hunter in miniature. His hight should 
 rarely exceed fifteen hands and an incli. He will be sufficiently strong and 
 more pleasant for general work below that standard. He should be of a 
 more compact form than the hunter, of more bttlk according to his hight. 
 It is of essential consequence that the bones beneath the knee should be 
 deep and flat, and the tendon not tied in. The pastern should be short, and 
 less oblique or slanting than that of the hunter or race-horse. The foot 
 should be of a size corresponding with the bulk of the animal — neither too 
 hollow nor too flat, and open at the heels. The forelegs should be perfectly 
 straight; for a horse with his knees bent will, from a slight cause, and espe- 
 cially if overweighted, come down. The back should be straight and short, 
 yet sufficiently long to leave comfortable room for the saddle between the 
 shoulders and the luch without pressing upon eitlier. Some persons prefer 
 a hollow-backed horse. It is generally an easy one to go. It will canter 
 well with a lady, but it will not carry a heavy weiglit, or stand much hard 
 woi'k. The road-horse should be high in the forehead, round in the barrel, 
 and deep in the chest." 
 
 134:. Tlie English Dray-Horse. — Tliere is a variety of horses known as the 
 dray-horse, or more generally in this country as the English cart-horse; a 
 very heavy, strong, slow-gaited horse, originated by a cross of the Flanders 
 or Norman horse with the Suffolk Punch, a sorrel horse of fifteen or sixteen 
 hands high,- with low, rounded shoulders; thick on the top; low back; 
 deep, round chest ; long back ; high croup ; large, stron^ c_[uarters ; full 
 flanks ; round legs, and short pasterns. This is a good description of a 
 strong work-horse. We have something like it, though rather increased in 
 size, in the Pennsylvania -wagon-horse. 
 
 135. Morgan HorseSi — The most distinct strain of American horses — in 
 fact, the only one which assumes the character of a race — is that now widely 
 
100 DOMESTIC ANIMALS. [Chap. I. 
 
 known as the Morgan. The origin of this race is given in the following ox- 
 tracts from letters written by a son and a relative of tlie original owner of the 
 old Morgan horse : 
 
 The following is an extract from a letter of Justin Morgan, originally 
 furnished for the CuUlvaior (vol. ix., p. 99), dated Slockbridgc, Vt., March 
 1, 1842. After stating that his father owned the horse from which the race 
 of Morgan horses sprung, he says : 
 
 " I will now relate the facts relative to said Morgan horse as I recollect 
 them. My father, Justin Morgan, brought said horse, or rather said colt, 
 into Randolph, Vt., in the summer or autumn of 1795. Said colt was onl^' 
 two yeuis old when my father brought him to Randolph, and had never 
 been handled in any way, not even to be led by a halter. My father went 
 to Springfield, Mass., the place of his nativity, and tlie place from which he 
 removed to Randolph, in the spring or summo- of 1795, after money that 
 was due to him at that place, as he said ; and instead of getting money, as 
 he expected, he got two colts — one, a three-year-old gelding colt, which he 
 led ; the other, a two-year-old stallion colt, which followed all the way from 
 Springfield to Randolph ; having been, as my father said, always kept with 
 and much attached to the colt he led. Said two-year-old colt was the same 
 that has since been known all over New England by the name of the Morgan 
 horse. My father broke said colt himself, and, as I liave befoi-e remarked, 
 owned and kept him to the time of his decease, which took place in March, 
 1798, and said horse was five years old the spring my father died ; and, as 
 before stated, soon after my father's decease, he passed from my father's 
 estate into the possession of AVm. Rice, of Woodstock, Vt. I can not state 
 positively that my father purchased said colt in Springfield, Mass., but I am 
 very confident that he purchased him in that town or in the immediate 
 vicinity, on Connecticut River." 
 
 "\Ve next offer an extract from a letter of John Morgan (see Cultivator, 
 vol. ix., p. 110), in which it Avill be seen that the material points set forth 
 by Justin Morgan are confirmed, and some further light given in regard to 
 the blood of the first Morgan horse. John Morgan resides at Lima, New 
 York, and is, we believe, a relative of Justin Morgan, Sr., and was a near 
 neighbor of the latter previous to his removal from Springfield to Vermont. 
 In reference to the colt above described by Justin Morgan (2d), John Mor- 
 gan says : " ne was sired by a horse owned by Sealy Norton, of East Hart- 
 ford, Conn., called the ' True Briton, or Beautiful Bay.' He was kept at 
 Springfield one season by the said Justin Morgan [Sr.], and two years after, I 
 kept him two seasons. This horse was said to have been raised by General 
 Delancy, commander of the refugee troops on Long Island, and rode by him 
 in the Revolution. It was said that one Smith stole the horse from the 
 General at King's Bridge, while the General was in the tavern ; ran him 
 across the bridge and took him to the American army, near White Plains, 
 and sold him to Joseph Ward, of Hartford, Conn., for $300. It was also 
 said at that time that he was sired by the imj^orted horse called ' Traveler,' 
 
Sko. 8.] HORSES— THE MORGAN BREED. 101 
 
 said to have been kept in New Jersey. Ward was a m^-cliant, and kept tlie 
 liorse three or four years for a saddle and carriage horse, and then traded 
 liini off to Norton, and Norton kept him for mares while he lived. The 
 description of the Morgan breed given by Mr. G. Barnard {Cultivator, vol. 
 ix., p. 33), answers well to the stock of ' True Briton.' I have always under- 
 stood that Morgan kept the colt for a stallion at Randolph, and was very 
 celebrated for his stock." 
 
 The above statements of Justin and John Morgan comprise, as we believe, 
 the true history, so far as it is known, of the origin of the far-famed Morgan 
 horses. From the position of the Messrs. Morgan, they have had the best 
 possible facilities for obtaining correct information on this subject, and we 
 are not aware of anything which should hinder their statement from receiv- 
 ing full credence. 
 
 " Of the old Morgan's progeny, three became famous as stallions, viz., the 
 Sherman Morgan, the Woodbury or Burbank, and the Chelsea. Of these 
 the Sherman Morgan was greatly the most distinguished. I have ascer- 
 tained to a certainty that he died in the winter of 1835. Black Hawk was 
 sired by him." 
 
 136. Black-Hawk Morgans. — Fifteen years ago, S. W. Jewett, of Vermont, 
 wrote of these as follows : 
 
 " I believe the Morgan blood to be the best that was ever infused into the 
 ' Northern horse.' They are well known, and are esteemed for activity, 
 hardiness, gentleness, and docility throughout the New England States ; 
 well adapted for all work; good in every spot, except for racers on tlie turf. 
 They arc lively and spirited, lofty and elegant in their action, carrying them- 
 selves gracefully in the harness. They have size in proportion to hight ; 
 bone clean; sinewy legs; compactness; short, strong backs ; powerful lungs; 
 strength and endurance. A mixture of the Morgan blood, though small, 
 may be easily known from any other stock in the country. There is a re- 
 markable similax'ity prevailing in all of this race. They are known by their 
 short, lean heads, wide across the face at the eyes ; eyes lively and prom- 
 inent ; open and wide in the under jaws, large windpipe, deep brisket, 
 heavy and round in the body, broad in the back, short limbs in proportion 
 to size, broad quarters ; a lively, quick action ; indou:itable spirit ; move 
 true and easy in a good round trot ; fast on the walk. Color : dark bay, 
 chestnut, brown or black, with dark flowing wavy mane and tail ; head up, and 
 move without a whip; about fifteen hands high ; action powerful and spirited. 
 
 "They are highly celebrated for general usefulness, make the best of 
 roadsters, and live to a great age. In fact, they are the perfect ' Yankee 
 harness horse.' 
 
 "The Morgans are very like the noble Arab, with similar eyes, upright 
 ears, high withers, powerful quarters, hocks well placed under their weight, 
 vigorous arms and flat legs, short from the knee to the pastern, close jointed, 
 possessing immense power for their size, with great fire and courage. But 
 a few of the Morgans, however, evince extraordinary speed. 
 
102 DOMESTIC ANIMALS. [Chap. I. 
 
 " It is said that the best stock of horses in the New England States are 
 found among the progeny and descendants of the Sherman Morgan, which 
 was owned by Mr. Bellows, of Vermont. 
 
 " The fignre given on another page is a portrait of Black Hawk, ' a colt 
 of the Sherman Morgan, which was got by the old Justhi Morgan horse. 
 The dam of Black Hawk was a three-quarter-blooded English mare, raised 
 in the province of New Brunswick. She could trot a mile in less than three 
 minutes, and weighed 1,025 lbs., and was in every respect a most perfect 
 animal. ' 
 
 " Black Hawk was bred by Mr. Matthews, of Durham, N. H. He is a 
 jet-black color ; weighs, in good flesh, 1,0-10 lbs. ; his hight is fifteen hands 
 and one inch. A line drawn from the hip even with the ham, just below 
 the setting on of the tail, is four inches longer than the back, or the distance 
 from the hip to the withers. A line dropped perpendicular from the neck, 
 parallel with the fore leg, is nineteen inches forward of the junction of the 
 withers. The distance between the hip and the ribs is only one and a half 
 inches. He has a broad and vigorous arm, fat and clean leg, large muscles, 
 short from the knee to the pastern, large windpipe and nostril, Avell open 
 when under motion. He is one of the best proportioned and most elegant 
 moving horses that can be produced. He is perfectly sound, a close-jointed, 
 clean-limbed animal, and carries a beautiful waving head, mane, and tail. 
 His legs are flat and hard, clean from long hairs on the fetlock ; his eyes 
 stand out prominent ; his disposition kind and playful. He keeps fat with 
 very little feed of oats and bran, three quarts of each daily, and five or six 
 pounds of timothy each day. 
 
 " No fault can be found with the horse, unless it be in his size ; however, 
 his stock are sufiicicntly large for roadsters and for general usefulness in 
 this State." 
 
 137. The Faults of the Morgan Horse.— Of the Morgan horses as they 
 were at the time Mr. Jewett wrote, particularly the Black Hawk strain of 
 the blood, we have no fault to find — we rather indorse his statement. But 
 fifteen years have wrought a change. As a general thing, Morgan horses 
 have been bred too much in-and-in, and without regard to size. They are 
 DO longer " lofty" in proportion to the weight, but, on the contrary, are 
 " squatty," and to the eye of a good judge of horses, far less attractive than 
 they were formerly. "What is needed, is an infusion of blood of a taller race 
 —such as gave character to the Black Hawks. "Wherever they have been 
 crossed with Messenger stock, Cleveland Bay, or others of similar form, the 
 improvement has been marked, and some of the very finest roadsters and 
 carriage-horses have resulted. The Morgans, crossed upon other good 
 breeds, do not improve those as much as it improves theirs. It is still a 
 favorite breed of horses in New England, but not as much so as it was some 
 years ago. Tlie uniform color of the family has been a great recommenda- 
 tion, and there has been also a greater degree of general beauty in the Mor- 
 gan family of horses than in any other ever extensively bred in this country. 
 
Sko. 8.] HORSES— SIZE OF ROADSTERS. 103 
 
 We shall now give a few useful items for owners of horses of whatever 
 breed, mongrel or thorough-bred. 
 
 138. Driving— The Start. — The first mile is the most important of the jour- 
 ney. More horses are injured in the start than in the balance of the whole 
 day. You should carefully avoid rapid driving immediately after a horse 
 has been full fed. Many old travelers feed over-night all the grain they 
 intend the horse to eat in the twenty four hours. Others feed at night and 
 at noon, and then give time after the horse has eaten his mess before start- 
 ing, or else drive very slowly for an hour, making up time as night 
 approaches. In all cases when a horse has been fed and watered an hour or 
 two before starting upon a journey or drive of several miles, it is proper to 
 drive slowly for the first mile or two ; but when the feeding and watering 
 have been more recent, the propriety of going along at a jog or easy pace 
 is still more iirgent. Colic, founder, broken wind, have all of them resulted 
 from too rapid driving when a horse was full. A friend of ours, a pliysi- 
 cian, who had occasion sometimes to violate this dictate of good manage- 
 ment in his haste to reach some case of great urgency, once informed us 
 that when he drove at a rapid rate immedlatehj after feeding, his horse 
 would scour almost invariably, and seem to suffer considerably. 
 
 Even in such cases where a horse must be driven upon a full stomach, it 
 is better to divide the distance into equal parts — say ten miles, which you 
 intend to drive in an hour, and give forty minutes to the first half, and do 
 the other five in twenty minutes. In that case be careful, when you stop, 
 not to leave the horse to cool suddenly. If the weather is hot, and you have 
 driven hard, don't mind trying to get your horse in a cool shade. The sun 
 won't hurt him. 
 
 There is another great error in driving which has often been suggested to 
 us. It is that of constantly urging a horse to exert himself beyond what is 
 natural to him. For instance, if a horse is urged to perform in two hours 
 a distance that he would, at his natural pace, require three hours to do, it 
 will injure him more than four hours' driving at his regular pace; and if 
 this urging is continued all day, he will break down, just as a man would, if 
 urged to double his speed in walking. 
 
 139. Size of RoadsterSi — A road horse should be about fifteen hands high 
 (a hand being four inches), measured from the top of the shoulder or withers 
 to the ground, when the horse stands naturally ; his weight should be about 
 1,000 lbs. ; for such weight in an animal fifteen hands high, in moderate 
 flesh, indicates compactness and power someiohere. Experience has ]>roved 
 that horses of this size carry their weight better on long journeys, injure 
 their feet less on the pavements and hard roads, and are apt to be more fleet 
 than those of a larger class ; for while greater length and hight will give an 
 increased stride, either running or trotting, the power to gather rapidly, and 
 especially for long distances, requires much greater muscular exertion in 
 large than in small horses, from the greater weight to be propelled. Our 
 fastest trotters have generally been from this class. 
 
104 DOMESTIC ANIMALS. [Chap. I. 
 
 140. Walking Horses. — ^The best gait a horse ever had for every-day use 
 is a good walk. It is a gait that uot one in ten possesses. Colts are not 
 trained to walk in all the Eastern States. Young America wants more speed. 
 Kentucky has more good walking horses than any other State, for there horse- 
 back traveling has long been in fashion for men and women over a country 
 where muddy roads, at some seasons, rendered any other gait impossible, and 
 so horses have been bred for the saddle and trained to a walking gait. This 
 is also the case in all the Western States, and perhaps might have been so in 
 New England, when our grandmothers rode to meeting on a pillion behind our 
 grandfathers. But one-horse wagons have put horseback riding out of fashion, 
 and now a good walking horse is more rare than one that can trot a mile in 2.40. 
 
 At the Springfield (Mass.) horse show of 1860, the writer was one of a 
 committee to award prizes to the two best walking horses. Out of seven- 
 teen entered, the committee found but one which was considered a first-rate 
 walker. This was a Morrill mare, which walked five miles an hour with ease. 
 Two others were fair walkers, and the others knew no gait that could be 
 called walking. At the New York State Fair the same state of facts was 
 again developed. A letter from Wisconsin says : " I think horses trained to 
 walk fast would be a greater benefit to farmers in general than fast trotters, 
 as almost all of his work has to be done with a walk. I once knew a man 
 in Massachusetts who, before the railroads were built, kept from two to four 
 teams at work on the road, and never allowed them to trot at all, and made 
 the distance in quicker time than his neighbors, who made their horses trot 
 at every convenient place. He said that when a liorse commenced to walk 
 after a trot, he walked much slower than his common gait if kept on a walk, 
 and thereby lost more than he gained." Will farmers think of this, and jjay 
 more attention to walking horses ? 
 
 141. Iiistrumcuts of Torture Used by Ilorseimen. — The following sensible 
 remarks are from the Irish F'armer''s Gazette. They are quite applicable 
 here : 
 
 " The good old English roadster's style of walk, trot, or canter is too steady 
 for your fast young man ; he thinks it far beneath him to speak a kindly 
 word to his horse, or to control him by an easy signal ; and however quiet 
 the horse may be, he is rarely seen on his back without at \Qa,s,tfour unnec- 
 essary instruments of torture — namely, two spurs with sharp rowels, one 
 whip, and a severe curb bridle. Why should it be the universal custom in 
 this country for men armed with these cruel instruments of torture to ride 
 quiet, docile horses, and often punish them for a fanciful fault which they 
 themselves bring about by their own want of experience and knowledge of 
 the horse's nature ? 
 
 " If a man has not the ability to handle a horse lightly, and at the same 
 time keep his balance in the saddle, he has no business to ride one of value 
 and high courage. It would be better for the horse and safer for the man 
 to keep his feet on terra firma. 
 
 " The more a horse's mouth is iised to a severe bit, the less he will care 
 
Sko. 8.] HORSES AND HORSE STABLES. 105 
 
 for it, as he will soon leani to neutralize its eflects by pulliiuj and keeping 
 the reins in a state of tension, and thereby j^revent the rider from checking 
 or wriggling the bit — to jDunish him. The dead, steady pull is far less pain- 
 ful to him than the jaw-breaking the rider would be able to inflict upon him 
 if allowed to keep his reins slack and ready for a jerk. 
 
 " One of the many causes which makes pulling horses is the lansteady seat 
 of their riders. Many men can not ride a light-mouthed horse, but they can 
 sit a puller with ease, because the firm hold this horse allows them to have 
 on the reins is the main thing upon which they depend to keep their balance. 
 
 "I have seen the most inveterate pullers in some people's hands ridden in 
 bits invented by their owners, regular jaw-breaking or choking power, and 
 still pulling so hard as to tear the skin of their rider's hands. And I have 
 no hesitation in saying — having frequently proved my assertions by prac- 
 tice — that if one of these tear-away pullers changed hands, and his new 
 owner would bridle hiui with an easy snaiHe, and let him stand in the stable 
 — to feel the diflerence— an hour before he was mounted he would forget his 
 old habit." 
 
 142. Saddle-Horses. — One of the meanest things ever taught a saddle- 
 horse is to cavort and curve, and go dancing and prancing about as though 
 trying to keep within a circle ju?t large enough to hold his four feet closely 
 drawn together. If you are selecting a saddle-horse, see that he does not 
 stand sqiuire upon his forward feet. They should reach well forward, and 
 then there will be such an easy spring that you may ride at a smart trot 
 without feeling as though you are struck with a sledge at every step, as you 
 may upon some horses whose hoofs are square under the legs, and appear to 
 have about the same degree of spring that you would have upon wooden 
 pins stepping along, and brought down at every step like a pavier's rammer. 
 Never select a very round-backed horse for the saddle. It does not hold 
 its place well upon such a back. A good saddle-horse must possess good 
 sense as well as a good gait and gentleness. 
 
 143. Color Indicative of GentleuesSt — It is asserted that the reason why 
 circus managers select parti-colored horses is not their fancy color, but be- 
 cause it indicates gentleness and tractability, and that the animals Avill 
 submit to training better than horses of one color. A little thouglit and 
 observation upon this subject will enable any farmer to settle the question 
 in his own mind. Perhaps there is more than appears at first view in the 
 common expression, " a fiery black horse." Is it not because black indi- 
 cates a fiery temper ? Independent of color, we would look in the counte- 
 nance of a horse to see whether he would bear training. In some animals 
 there is a general appearance of an ugly disposition. A face broad and full 
 between the eyes indicates good sense, which is one of the most important 
 things in a horse. 
 
 144. Horse Stables should be light, roomy, and well ventilated. Never 
 put a horse in a cellar. Build your stables high ; that is, high between 
 floors. Most stables are built low " because they are warmer." But such 
 
106 DOMESTIC ANIMALS. [Chap. I. 
 
 people forget that warmth is obtained at a sacrifice of pure air and the 
 health of the animal. Shut a man up in a tight, small box; the air may 
 be warm, but it will soon lay him out dead and cold if ho continues to 
 breathe it. If stables are tiglit, they should have high ceilings ; if they 
 are not tight, but open to admit cold currents of air from all directions, they 
 are equally faulty. 
 
 Slatted floors are getting into vogue. My own stable is built with a tight 
 floor nine feet long and four and a half feet wide for each stall, with a pitch 
 of two inches. At the end of the plank there is a slatted portion, four feet 
 wide, two inches lower than the plank. Through these slats all the urine 
 runs into the manure pile in the cellar, and so leaves the beds of the horses dry. 
 
 145. Sand for Ilorses' Beds. — Mr. Small, of Dundalk, Scotland, a veteri- 
 nary surgeon of considerable experience, states that sand is not only an ex- 
 cellent substitute for straw for horses' beds, but superior to straw, as the 
 sand does not heat, and saves tiie hoofs of tlie horses. He states that sand is 
 exclusively used for horses' beds in his repository. 
 
 146. To Remove Horses from a Building on Fire. — Tlie great difliculty of 
 getting horses from a stable, where surrounding buildings are in a state of 
 conflagration, is well known. Wilkes' Sjjirit of the Times says, a gentleman 
 whose horses had been in great peril from such a cause, having in vain tried 
 to save them, hit upon the experiment of having them harnessed, when, to 
 his astonishment, they were led from the stable without difflculty. Tlirow- 
 ing a blanket over a horse's head will often answer, also, and may be easily 
 tried before harnessing. 
 
 l-tT. Proportion of Horses to Men. — The following curious account is given 
 in Appleton's Encyclopedia, of the number of horses in the various parts of the 
 world : "The general estimate has been eight to ten horses in Europe for every 
 hundred inhabitants. Denmark has 45 horses to every hundred inhabitants, 
 which is more than any other European country. Great Britain and Ire- 
 land have 2,500,000 horses ; France, 3,000,000 ; Austrian Empire, exclusive 
 of Italy, 2,500,000 ; Eussia, 3,500,000. The United States have 5,000,000, 
 which is more than any European country. The horses of the whole vi'orld 
 are estimated at 57,420,000." 
 
 148. What Constitutes Legal Unsoundness in Horses. — A Knee-sprung horse 
 can hardly be said to be imsound. He may be a very fast horse, and can 
 eudure with ease the labor of any common, ordinary horse, although there 
 is an alteration of structure which unfits him for the race-conrse. Tliis 
 would not be likely to produce disease or lameness ; he would be more 
 likely to grow better than worse, if used for common purposes. But if so 
 bad as to produce stumbling and falling, he would be unsound, and a war- 
 ranty should be taken against such defects. 
 
 Capped Hocks can not be considered unsoundness, if produced by an un- 
 even stable floor or by kicking ; but if produced by a sprain, and a perma- 
 nent thickening and enlargement of the membranes, there would be unsound- 
 ness. A special warranty should be required in such cases. 
 
ysL 
 
 BOJRSIKS TkiRTH at f I WFIRIRIEWT AfiES , 
 
# 
 
PLATES VIII., IX. 
 
 (Pijges 106, 107.) 
 
 These plates need no description ; they require study. As they 
 contain all that could be said to fully understand the subject illus- 
 trated, we have written nothing about the art of "telling the age 
 of horses by examining their teeth." Whoever studies these plates 
 will learn that art. Observe the steady change, year by year, as 
 it is mapped out before you. Open the mouth of your horse, and 
 compare its appearance with the illustration of the year correspond- 
 ing to his known ago, and so on of all others. Thus you will learn 
 the art and the value of these engraved representations. 
 
Sao. 8.] HORSES— "WHEN UNSOUND. 107 
 
 Contraction of the Iloof is a considerable deviation from the natural form 
 of the foot, but does not necessarily constitute unsoundness. It requires, 
 however, a most careful examination by the purchaser to ascertain that there 
 is no fever or ossification of the cartilage ; that the frog is not diseased ; that 
 the animal is not tender-footed or lame. Unless some of these symptoms 
 are indicated, he must not be jjronounced nnsound. A special warranty 
 should be required where the feet are contracted. 
 
 Coims manifestly constitute imsoundness. Although few men lay much 
 stress on this malady, still much inconvenience, and many times serious 
 difficulties, must be encountered by them, as they are seldom thoroughly 
 cured. Many horses are almost constantly lame with corns, through a scrof- 
 ulous habit of the system. A warranty against such animals would be safe. 
 
 Tremhling Knees. — This can not be considered unsoundness, yet it is a 
 precursory symptom of knee-sprung. Trembling of the knees, after a smart 
 exercise, indicates weakness, and should be regarded as objectionable. 
 
 A Cough constitutes unsoundness, however slight or of short standing. 
 If a horse is noticed to cough before the purchase, or immediately after- 
 ward, he is diseased ; but if warranted sound, and the cough is not discov- 
 ered till one or two days afterward, he is not returnable ; for a few honrs are 
 sufficient to contract a cough, by taking cold M'hile standing in a damp, 
 musty stable, or by eating different feed, mustj- hay, etc. 
 
 Roaring, Wheezing, or Whistling is unsoundness, being the result of alter- 
 ation of structure or disease in the air-passages. Although there have been 
 decisions to the contrary, courts and jurors are often at a loss for the want 
 of intelligent witnesses ; and if a veterinary surgeon is called to the stand, 
 not having seen the animal, he is liable to be mistaken from misrepresenta- 
 tion. BroTcen Wind is still more decidedly unsoundness. 
 
 Crib Biting. — A difference of opinion exists as to this being unsoundness, 
 and courts have given opposite decisions in respect to it. There are cribbers 
 that can scarcely be said to be unsound, as they are not perceptibly injured, 
 and it does not interfere with their condition or endurance. Others inhale 
 and swallow a great amount of wind ; they bloat and are subject to colic, 
 which interferes with their health and strength ; this would constitute un- 
 soundness. A warranty should always be taken against injury from crib- 
 bing ; then if he breaks his teeth or injures Inmself, recompense may be had. 
 
 Ciirh constitutes unsoundness as long as it lasts, and perhaps while the 
 swelling remains, although no inflammation exists ; for a horse that has once 
 thrown out a curb, is liable to do so again on the slightest exertion. A 
 horse, however, should not be returned if he spring a curb five minutes after 
 purchase, for it is done in a moment, and does not indicate any previous 
 imsoundness. 
 
 149. Soiling Horses. — We commend the following statement of J. C. Ad- 
 ams, of Seymour, N". Y., to the attention of all owners of small farms, like 
 the little one where we practice the same course : 
 
 " I have in close proximity to my barn a patch of ground, ^\ rods by 16 
 
108 DOMESTIC ANIMALS. [Chap. I. 
 
 (three quarters of an acre), seeded to clover, from which I kept one span of 
 horses in thriving condition from the first day of June last to the last day 
 of August, besides cutting 900 lbs. of good hay, which I put into the barn, 
 and harvested of the second mowing seed sufficient to stock an acre or two 
 of ground. This may, and undoubtedly will, seem to many like a big barn 
 well stretched. In fact, I should doubt the reality of such a story myself, had 
 not my eyes seen and my hands felt the truth of such a statement. By the 
 time I had mowed two thirds of this little patch, the remainder was fit to be 
 made into hay, which I accordingly did up after the most approved fashion. 
 And that part mowed first was sufficiently large to mow again. I fed them 
 three times a day all they could eat. They smelt not, touched not, tasted 
 not one particle of grain during the three months ; used them more or less 
 every day, and at the end there was a perceptible gain in flesh. Never, 
 since I could say my team, have I sunmaered a team so cheaply. The great- 
 est cost is cutting and putting it before the horses. I off"ered them water, 
 but they did not drink to exceed a pailful a week. 
 
 " I am of the opinion that if they had been turned loose npon this piece 
 of ground, ten days would have been sufficient time to oat up and trample 
 into the earth everything green upon it. As five acres of good pasture is 
 little enough to summer a span of horses when allowed to run, there is almost 
 an incalculable saving in soiling them." 
 
 150. Breeding for Longevity. — We have had a few instances of horses liv- 
 ing to the age of thirty years, but they are so rare, that such an old horse is 
 looked upon as a curiosity. Lewis B. Brown, of Westchester County, N. Y., 
 has a team of four, the aggregate age of ■which is 108 years, the oldest being 
 over 30 years, and all in such vigor of constitution that but few teams can 
 hold their own with this upon the road. Tiie exhibition of this old team at 
 the Springfield show, in 1860, attracted universal attention. This shows that 
 such old horses are rare, and it proves that old horses are not worthless. It 
 also induces the question, whether we can not breed with a special reference 
 to longevity. If selections were made upon both sides, of stock which had 
 ancestors noted for longevity, and this course continued through several 
 generations, with mares and stallions which have arrived at mature age, still 
 retaining a vigor like that exhibited in Mr. Brown's team, who can say that 
 we should not obtain a breed noted for longevity, and that horses forty or 
 fifty years old would then be no rarity ? This is a subject worth thinking 
 about. 
 
 151. Treatment of folts. — Wlien first foaled, if parturition is at maturity, 
 the colt should have eight front teeth, four in each jaw ; but it sometimes 
 happens that these are not all cut through, and the gums are inflamed and 
 so tender that the colt can not suck well. This should always be looked to, 
 and the gums cut with a sharp knife, and, if need be, the colt fed until it can 
 suck freely. 
 
 Colts as well as calves are sometimes aff'ected by lice ; these may be got rid 
 of in various ways. Take white-oak bark, boil it in water, making a strong 
 
Sec. 8.] HORSES AND THEIR DISEASES. 109 
 
 decoction ; wash the animals on the back and on the sides. In twenty-four 
 hours the lice will be completely tanned. Tanner's oil is also first-rate. So 
 is snuff or a decoction of tobacco ; and we have heard of Peruvian guano 
 being used and answering the same purpose as snuff. 
 
 152. Remedies for Some of the most Common Diseases of Horses.— There 
 are a great many little simple complaints that can be cured without sending 
 for a veterinary surgeon. We can afford room for only a few, because every 
 farmer should take an agricultural paper, and such papers are stored with 
 valuable remedies such as the following : 
 
 153. To Cure ScratclieSt — When the horse comes in at night, his legs 
 should be washed clean and rubbed as dry as may be ; then apply good 
 vinegar, rubbing it well to the skin. Two applications a day are sufiicient. 
 1 have always found it a sure preventive and a certain cure. If the legs 
 have become cracked and sore, apply the vinegar freely and add a piece of 
 copperas the size of a common liickory nut to a quart of vinegar. 
 
 Another excellent remedy, M-hich we have used a great many times, is 
 beef brine. If the dirt is carefully washed off witli warm soap-suds, and then 
 tlie legs well bathed with the brine, it will require but two or three applica- 
 tions to cure a very bad case of scratches. 
 
 The Maine Farmer gives another remedy. It says : " Take fresh slaked 
 lime, and dust the affected parts well with it twice a day. It will not cause 
 the horse any uneasiness, and will be sure to effect a cure in a few days. 
 
 151:. For lleaves in Horses. — ^Take smart-M-eed, steep it in boiling water till 
 the strength is all out ; give one quart everyday for eight or ten days. Or mix - 
 it with bran or shorts. Give him green or cut-up feed, wet up with water, 
 during the operation, and it will cure. 
 
 155. ChaGu^ irnder the Collar. — A gentleman who has tried the plan suc- 
 cessfully for five years, communicates the annexed method of preventing 
 horses from chafing under the collar. lie says he gets a piece of leather, and 
 has what he terms a false collar made, which is simply cutting the leather 
 in such a shape as to lie singly between the shoulders of the horse and the 
 collar. This fends off all the friction, as the collar slips and moves on the 
 leather, and not on the shoulders of the horse. Chafing is caused by fric- 
 tion, hence, you sec, the thing is entirely feasible. Some jjersons put pads 
 or sheep-skins imder the collar ; these, they say, do as much hurt as good, 
 for they augment the heat. A single piece of leather, like that composing 
 the outside of a collar, without any lining or stufling, is better than any- 
 thing else. 
 
 156. For Fistula. — Salt, one tablespoonful ; soft soap, one tablespoonful ; 
 whisky, one tablespoonful ; turpentiiie, one tablespoonful. Mix in a tin 
 cup ; place on the liorso's nose a twitch, to prevent his moving ; have your 
 mixture placed on a little fire, and as soon as it boils up, pour immediately 
 upon the diseased part ; repeat the operation every ten or twelve days, till ap- 
 plied three or four times, if necessary. It will not take off the hair or leave 
 any scar. 
 
110 DOMESTIC ANIMALS. [Chap. I. 
 
 This is not more effectual than the following much simpler remedy, which 
 we have proved for both fistula and poll-evil. Take a lump of potash 
 or saleratus, as big as you can crowd into the pipe of the fistula, and it 
 causes it to discharge more freely for a day or two, and then it begins to 
 heal. In one case of poll-evil, a large mare would not allow any one to 
 touch her head to appl^^ the remedy, or in fact to be bridled. For this case 
 we took about two ounces of saleratus and tied it in a cloth, in the form of a 
 pad, inside the strapof a halter, where it crossed the top of the head, and by dint 
 of perseverance succeeded at length in getting it on and firmly secured, when 
 we bid her go and live or die, as she liked — we would do no more for her. 
 A shower fell soon after, and the next time we saw our patient she was par- 
 tially healed : the caustic had taken the hair off, and it had also affected the 
 disease. A fortnight later wo caught her, and found she did not object to 
 being handled. The disease was cured, and the mare was worth a hundred 
 dollars. When turned out, she could not have been sold for a hundred 
 cents, and the cure had not cost five cents. 
 
 Here is another remedy which may be tried, if it is preferred to the other. 
 The following is sent us as a valuable prescription for several of the ills that 
 horse-flesh is heir to, such as fistula, poll-evil, ring-bone, big head, etc. : 
 12 oz. of alcohol, 1 oz. of spirits of turpentine, 1 oz. of corrosive sublimate, 
 1 oz. of camphor gum, 1 oz. of oil of spike, 1 oz. of castile soap, 1 oz. of aqua- 
 fortis — mixed and dissolved, and applied with a swab for a day or two, and 
 then intermixed, and apply again. Take care only to touch the part af- 
 fected ; and, to prevent injury to the hair or hoof adjacent, rub it well with 
 grease. 
 
 157. White Lead, its Value on Sores.- — White lead in oil, as an external 
 application or remedy, has no equal. In abrasions, or galls from the sad- 
 dle or collar, or from any other cause, it will speedily aid the part in liealing. 
 Applied to the leg of a horse — the outer coating of hair and skin of which 
 was torn off — with a painter's brush, caused it to heal and leave no scar. It 
 is good for scratches and all sores upon horses or other animals, and equally 
 good for men. It forms an air-tight coating, and soothes pain. Every farmer 
 should keep a pot and brush ready for use, and he should not fail to apply it 
 to all abraded spots on tools, as well as stock. White lead is the carbonate 
 of the metal, and, when pure, is very white. That having a grayish tint-is 
 impure, being generally adulterated. For use as a paint, a lead color is 
 produced by adding lampblack, and a drab or stone color, by adding burnt 
 umber. 
 
 15S. Liniment for Sweeney in Horses.— One oz. of oil of spike, 1 oz. of oil 
 of amber, 1 oz. of Venice turpentine, and a small quantity of rock-oil. 
 
 159. Blind Staggers. — This disease is more common in the Southern than 
 it is in the Northern States. The Cotton Planter newspaper gives the fol- 
 lowing remedy : " Take 1 gal. of green hickory wood aslies, 1 half pint of 
 spirits of turpentine, 1 oz. of gum camphor, and a sufiiciency of lye to make 
 a thin mush. Fill a horn with this mush, while boiling hot, and with a thin 
 
Seo. 8.] HORSES— IMPERFECT VISION. Ill 
 
 cloth stretched over the end of the horn, apply it four times iipon or over 
 the region of the brain, each time filling the horn with the boiling mnsli, 
 which will blister the skin. In connection with this, it is necessary to burn 
 rags wet with spirits of turpentine under the horse's nose until you produce 
 a free discharge. You should also bleed freely from the neck, and give one 
 pint of linsecd-oil as a purge. 
 
 160. How to Detect Imperfect Vision or Blindness in Horses. — Ton may 
 have good grounds for suspicion of imperfect vision when the horse moves 
 his ears in a constant and rapid motion, directing them in quick succession 
 to every quarter from whence the least sound proceeds. Also if his action is 
 lofty and faltering, and he lifts up his feet and replaces them on the ground 
 as if stopping over some obstacle, when there is actually nothing to impede 
 his free progression, notwithstanding these symptoms would be sufficient to 
 create suspicion, there are other causes by which similar symptoms would 
 appear iu horses. If a horse with perfect eyes were led from a dark stable 
 into the sunshine, the sudden contraction of the pupil of his eye Avould 
 render it impossible, for a few moments, for him to see but very indistinctly ; 
 hence symptoms of uncertainty in his movements, imtil the pupil becomes 
 steady after the sudden contraction. The dilating and contracting of the 
 pupil furnish means of ascertaining whether blindness exists in one eye or 
 both, as this pupil varies in size according to the degree of light which is 
 brought to bear upon it. In a dark stable the pupil is expanded, so that a 
 greater portion of light falls upon the cornea ; but if the horse is led to the 
 door of the stable, the pupil will contract so as to exclude more light than 
 could be endured, and if suddenly exposed to the sun, the aperture will be 
 all but closed; therefore carefully notice the eyes, whether they contract or 
 expand equally by the increase and decrease of the light. If the hoi-se 
 should be examined in the open air, notice whether both pupils are of ex- 
 actly the same size. After this, carefully place the hand, so as not to alarm 
 the horse, over each eye, to shade off the light, and hold it there for a short 
 lime, noticing the extent to which the pupil dilates ; then pass the hand 
 over the other eye, and ascertain whether it also dilates to the same extent, 
 and if still it be uncertain, place both hands in the positions of shades over 
 both the eyaa of the horse, and you will at once perceive whether they are 
 perfect, and if not, which of the two is imperfect. 
 
 Nothing tends more to injure the eyes of a horse than dark or badly venti- 
 lated stables. Attention to the lighting, draining, and ventilation of horse 
 stables is an imperative duty. There are thousands of stables in which the 
 door is the only aperture for the ingress or egress of pure air, and even this 
 is in most instances closed, both when the horse is at rest, or at work or ex- 
 ercise; thus he has, while in the stable, to constantly bi'eathe vitiated air. 
 
 161. Remedy for GaHs on Horses. — Use whisk3', saturated with alum, 
 to wash the parts liable to chafe, which tends to harden the skin and pre- 
 vents its rubbing off. For galls already formed, the following receipt for a 
 salve is good ; so it is for human flesh-sores. 
 
112 DOMESTIC ANIMALS. [Chap. I. 
 
 " Take of honey, twelve oiinces ; yellow beeswax, four ounces ; compound 
 galbanum plaster, six ounces ; sweet oil, lialf a pint. Put the honey into a 
 jar by the fire, then melt the other ingredients and mix them together; 
 spread very thin on linen, and apply twice every day." 
 
 162. llorse-Shoelngi — It is wonderful how little the mass of smiths who 
 shoe horses know of the anatomy of a horse's foot ; of its delicate organiza- 
 tion, and susceptibility to injury by improper paring of the hoof, formation 
 of the shoes, and attachment of the same ! Horses are peculiarly sensitive 
 to lameness, and it is obvious that great care in the particulars mentioned 
 should be observed, in order that a firm, positive, and comfortable tread 
 should be given the feet, so as to make them capable of exerting the won- 
 derful degree of muscular strength of which they are possessed without 
 injury to the exquisitely constructed parts which are brought into jilay. In 
 one of the numbers of the Dublin AgrimlturalBevieiov^e find a long article, 
 written by William Miles, extracted from the Journal of the Eoyal Agri- 
 cultural Society of London. "We heartily commend this able production to 
 the perusal of those of our readers interested in this important subject. It 
 commences as follows : 
 
 " If I were asked to account for my horses' legs and feet being in better 
 order than those of my neighbors, I should attribute it to the four following 
 circumstances : First, that they are all shod with few nails, so [>laced in the 
 shoe as to permit the foot to expand every time they move ; secondly, that 
 they all live in boxes instead of stalls, and can move whenever they please ; 
 thirdly, that they have two hours' daily walking exercise when they are not 
 at work ; and fourthly, that I have not a head-stall or rack-chain in my 
 stable. These four circumstances comprehend the whole mystery' of keeping 
 horses' legs fine, and their feet in sound working condition up to a good old age. 
 
 " All that is really required is, to take one anatomical and one i>liys- 
 iological fact on trust, and believe that the horse's hoof is lined by a very 
 sensitive membrane which must on no account ever be wounded, and that 
 the hoof itself is elastic, and expands when the weight of the horse is thrown 
 on the foot, and contracts when it is taken oft' again ; all tlie rest is purely 
 mechanical, and merely calls for the exercise of a little thought and jjatience 
 to understand the principle and apply it. 
 
 " Tlie result of the numberless experiments I have made at various times 
 on all sorts of horses doing every kind of work is, that there is but one prin- 
 ciple to be observed in horse-shooing which will admit of no variation or 
 compromise : the shoe must fit the foot, whatever the shape of the foot may 
 happen to be, and it must be nailed to the hoof in such a manner as will 
 permit the foot to expand to the weight of the horse ; this latter condition 
 will be best complied with by placing three nails in the outer limb of the 
 shoe, and two in the inner limb between the toe and the commencement of 
 the inner quarter ; a larger number than five nails can never be required in 
 any shoe of any size, or under any circumstances, excepting for the sole pur- 
 pose of counteracting defective and clumsy fitting. 
 
Sko. 8.] HORSES AND HORSE-SHOEING. 113 
 
 "No horse should have more than one foot bared at a time; however 
 strong his feet may happen to be, he is sure to stand quieter on a shod foot 
 than he can on a bare one, and it will prevent his breaking the crust. A 
 horse with weak flat feet is in positive misery when forced to sustain his 
 whole weight on a bare foot, while the opposite foot is held up. 
 
 " A strong foot with an arched sole, when the roads are in good order, 
 M'ill require to have the toe shortened, the quarters and heels lowered, and 
 the sole pared, until it will yield in some slight degree to very liard pressure 
 from the thumb ; but on no account should it ever be pared thin enough to 
 yield to moderate pressure ; the angles formed by the crust and the bars at 
 the heels must be cleared^out, and all the dead horn removed therefrom, and 
 tlie bai:s should be lowered nearly to a level with the sole. 
 
 " A weak flat foot, on the contrary, will bear no shortening of the toe, and 
 very little paring or lowering anywhere ; the heels of such feet are sure to be 
 too low already, and the sole too thin ; in fact, the less that is done to them the 
 better beyond clearing out the dead horn from the angles at the heels, and 
 making the crust bear evenly on the shoe ; but the hollow between the bars 
 and the frog, or the frog itself, must never be touched by a knife in any foot, 
 whether it be a weak one or a strong one ; and as these latter directions 
 diflFer materially from the usual practice of smiths, I may, perhaps, be ex- 
 pected to state my reasons for wishing to enforce them in opposition to what 
 they no doubt consider a time-honored custom ; I mean the inveterate habit 
 they all have of trimming the frog, and opening out the heels at every 
 shoeing ; but I think I shall be able to show that 'it is a custom more hon- 
 ored in the breach than in the observance.' 
 
 " The shoe should be neither too light nor too naiTow in the web ; light 
 shoes are apt to bend before they are half worn out, and narrow-webbed 
 shoes expose the sole and frog to unnecessary injury from stones in the road. 
 Every fore-shoe should be more or less seated on the foot-IRirtace, to jireveiit 
 it pressing on and bruising the sole ; but a -perfectly flat surface should be 
 preserved around the edge of the foot-surface of the shoe, from heel to lieel, 
 for the crust to rest upon. The amount of seating to be employed must be 
 determined by the description of foot to be shod ; for instance, a broad foot, 
 with a flat sole and weak horn, will require a wide web, considerably seated, 
 to prevent it coming in contact with the sole and bruising it ; but a narrow 
 foot, with an arched sole and strong horn, will require less width of web 
 and less seating, otherwise the dirt and grit of the road would become im- 
 pacted between the shoe and the sole, and cause as much pressure and injury 
 as the iron would have done." 
 
 Many men who own and use horses seem to be indiff'erent as to' the man- 
 ner in which they are shod, so much so that they take them to any one wlio 
 can drive a nail, leavQ everything to him, and take it for granted that if the 
 horse has got four good stout shoes on his feet that will stay on as long as 
 they last, it is all right. This is a great mistake, and will often lead to the 
 discomfort and ultimate ruin of the horse. 
 
 J 
 
114 DOMESTIC ANIMALS. [Chap. I. 
 
 No horse that is badly shod can travel easilj^, safely, or well ; and many 
 M'ho use horses that cut their legs or trip, suppose that the fault is in the 
 horse, while in fact no one is in fault but the shoer. There are hardly two 
 horses that require precisely the same shaped shoe, or that it be put on in 
 precisely the same way ; hence to shoe every horse so as not to pinch, and 
 consequently injure the feet, and at the same time so that he can perform 
 his work easily and well, requires considerable experience and more than 
 common skill and intelligence on the part of horse-shoers. 
 
 One of the objects in applying the shoe is to preserve the natural con- 
 cavity of the sole of the foot. A horse in his natural state, and, indeed, up 
 to the period of his first introduction within the precincts of the " smithy," 
 has generally n concave sole ; and wisely is it so ordained. Were it other- 
 wise, the animal would be unable to secure foothold ; as it is, the inferior edge 
 of the hoof — that is, the ground surface — projecting beyond the sole, may be 
 compared to the point of a cat's claw or the nails of a man ; they grasp, as it 
 were, bodies with which they come in contact, and thus secure a point of 
 refiistance which aids in advancing limb or body over a smooth surface. 
 Now, in order to preserve the natural mechanical functions of the horn and 
 sole, the ground surface of the shoe must correspond to the ground surface 
 of tlie foot ; that is to say, the ground surface of the shoe must be beveled 
 cup fashion ; its outer edge being prominent, takes the place of the hoof; its 
 inner surface being concave, corresponds to the natural concavity of the foot. 
 It is a custom among some blacksmiths to reverse the above procedure, and 
 place the concave surface ne.xt the foot, and often the ground surface appears 
 to be more convex than concave. An iron shoe tacked on to a horse's foot 
 is one of the unavoidable evils of domestication, yet, when properly applied, 
 is not so great an evil as some persons might suppose. 
 
 R. Jennings, veterinary surgeon, Philadelphia, gives his views as follows 
 upon this subject : 
 
 163. Contraction of the Feet of Horses— The Cause and Remedy.—" The 
 tendency of a horse's feet, in a healthy condition, is to expand whenever 
 the weight of the body is thrown upon them. Being a very complicated 
 piece of mechanism, they are very easily disarranged, and, once out of order, 
 are difficult of repair ; hence the necessity of preserving them in a sound 
 condition. 
 
 " Contraction is caused, 1st, by cutting away the bars of the feet, which 
 are the main stays for the support of the quarters ; 2d, by (opening the 
 heels, as the smith calls it) cutting away a portion of the frog, in conse- 
 quence of which the moisture of the frog becomes absorbed, losing its elas- 
 ticity and destroying its function, thus exposing the feet to injury by 
 concussion ; 3d, by standing upon plank floors ; 4th, by improper shoeing. 
 
 " An ordinary observer will, upon an examination of the common shoe, 
 notice that it inclines from without inward at the heels, thus forming a con- 
 cavity for the feet to rest in ; the consequence is a lateral resistance to the 
 expansion of the hoofs when the weight of the animal is thrown upon them. 
 
Seo. 8.] HORSES AKD MULES. ' 115 
 
 The effects of this resistance are to force the heels together, creating pressure 
 upon the sensitive parts within the horny case; estahlishing fevei", \>y wliicli 
 the moisture of the hoofs is rapidly absorbed, rendering the hoofs hard, 
 brittle, and liable to crack, and frequently causing corns, navicular joint 
 lameness, bony deposits to be thrown out from the lateral wings or processes 
 of the coffin bones, rendering the animal permanently lame or unsound. 
 These are but few of the bad effects arising from contraction — enough, liow- 
 evei', to serve our purj^ose at present. 
 
 " Remedy. — Preserve a level bearing by making t^ shoes perfectly flat 
 on the quarters, so as not to interfere with the expansion of the feet. 
 Should contraction already exist to considerable extent, bevel the shoes 
 slightly outward at the heels, in order to facilitate expansion. Care should 
 be used not to bevel too much, or bulging of the lower part of the hoofs at 
 the quarters will be the result. The shoes should in all cases be forged, and 
 not twisted, as is sometimes done to save trouble by the bungling smith. 
 Proper applications, to soften the horny parts and promote elasticity, should 
 also be used. Such prejiarations are put up in the form of hoof ointments." 
 
 164. MuIeSi — Few of the farmers of this country are aware what a delit of 
 gratitude they owe George Washington for the introduction of mules into 
 general use for farm purposes. 
 
 Previous to 1783 there were but very few, and those of such an inferior 
 order as to jirejudice fiirmers against them as unfit to compete with horses in 
 work upon the road or farm. Consequently there were no good jacks, and 
 no disposition to increase the stock ; but Washington became convinced that 
 tlie introduction of mules generally among Southern planters would prove 
 to them a great blessing, as they are less liable to disease, and longer lived, 
 and work upon shorter feed, and are much less liable to be injured by care- 
 less servants than horses. 
 
 As soon as it became known abroad that the illustrious Washington de- 
 sired to stock his Mount Vernon estate with mules, the King of Spain sent 
 him a jack and two jennies from the royal stables, and Lafayette sent another 
 jack and jennies from the island of Malta. 
 
 Tiie first was of a gray color, sixteen hands high, heavily made, and of a 
 sluggish nature. He was named the Eoyal Gift. The other was called the 
 Knight of Malta ; he was about as high, but lighter made, black color, and 
 lithe and fiery, even to ferocity. 
 
 The two different sets of animals gave him the most favorable opportunity 
 of making improvements by cross-breeding, the result of which was a favor- 
 ite jack which he called Compound, because he partook of the best points in 
 both of the original jacks. Tlie General bred his blooded mares to these 
 jacks, even taking those from his family coach for that purpose, and pro- 
 duced such superb mules that the country was all agog to breed some of the 
 same sort, and they soon became quite common. This was#ie origin of 
 improved mules in the United States ; though over seventy years since, there 
 is no doubt ihere are now some of the third and fourth generations of 
 
116 
 
 DOMESTIC ANIMALS. 
 
 [Chap. T. 
 
 Kniglit of Malta and Royal Gift to be found in Virginia, and the great ben- 
 efits arising from their introduction to the country are to be seen npon almost 
 every cultivated acre in the Southern States. Notwithstanding liie enor- 
 mous increase of late years, arising from a systematic course of breeding in 
 the Northern States for the Southern market, mules were never more valua- 
 ble than at present, or more ready of sale at high prices. 
 
 105. Longevity of MuleSi — We have numerous reports of mules attaining 
 the age of forty, fift^^ or sixty years, and Col. Middleton, of South Carolina, 
 stated some years a^ that he had one at work on his plantation eighty years 
 old ; and we have seen an account of a mule in Ireland certified to have been 
 at work since 1707, making him over 150 years old. This is, of course, a 
 very uncommon age, but we are satisfied that, with proper usage, mules 
 would commonly attain to about forty years, being serviceable to the last, 
 and this should be counted as one of their elements of value. 
 
 166. The Largest Mule in the World.— If the following statement is cor- 
 rectly given, it tells of the largest mule, probably, over produced. "We 
 found it in the Commercial, of Cincinnati, in 1800. It says : . 
 
 " The largest mule ever produced in the world is now in this city. It is a 
 mare mule, nineteen and a half hands high, and weighs eighteen hxmdred 
 and thirtij-tioo pounds. This extraordinary animal is the property of Charles 
 Frost, of Wayne County, Ind., recently purchased near Lexington, Ky." 
 
 167. Mules, Horses, Oxen. — We read in almost every agricultural paper, 
 we hear in most agricultural addresses, and we often hear in conversation, 
 that one or the other of these animals is the one, and the only one, that 
 farmers should use, yet we have nev«r seen a farmer who could say, " I 
 know." One who has always done liis farm-work with oxen is sure that 
 they are the best in all respects ; while fifty miles away he would search a 
 hundred farms to find as many yolce of oxen, and wliere he did find them he 
 would probably be told they were only fit for drudgery — that liorses only 
 are suitable i(^ faim-work, and their owners are ready with loads of reasons 
 to substantiate their theory. But take another day's journey, and the theory 
 is upset with mules — mules here, there, everywhere ; nothing but mules, 
 and nothing fit for a farm but mules, because they are so strong and hardy 
 they never tire, and live upon almost nothing for their daily rations, and are 
 the very personification of life everlasting. 
 
 Now, while the advocates of each class of animals disagree so widely, how 
 are the seekers aftei- truth to satisfy themselves ? Do they look to us for an 
 opinion ? We can give it ; here it is. All are best, and upon a large farm 
 all would be found economical to keep for diflPerent classes of work ; and it 
 is our opinion that no man who farms a hundred acres can afi'ord to do with- 
 out oxen, mules, and at least one horse. If his oxen are well trained, they 
 will travel as fast before the plow and wagon as mules ; but the latter are so 
 much more Enduring in hot weather, at all sorts of hard work, that their 
 services are then particularly valuable. They are better, too, to go off upon 
 the road, or to carry produce to market, because they may be, though nat- 
 
Seo. 8.] HORSES AND MULES. 117 
 
 urally about as slow as oxen, trained to travel liomeward without a load at 
 a round trot. For working singly in the cultivation of crops, mules are far 
 superior to horses, and of course can do a great deal of work tliat could not 
 be done by oxen. We have seen mules that were fair substitutes for saddle- 
 horses, having one good quality, that of sure-footedness. There is one ob- 
 jection to mules on a farm where the stock is generally pastured : there is 
 nothing sliort of a Mississippi fence that will hold them — that is, twelve rails 
 liigh, and stake-and-ridered ; and we have heard planters declare that they 
 had often known the brutes to climb over such a fence as that. In advising 
 a Northern farmer to keep mules, we therefore advise him to make his cal- 
 culation to keep them in a stable all the time the}' are out of harness. 
 
 168. Breeding of Horses aad Mule'So — ^There are certain universal laws of 
 breeding which can not be ignored, except at the sacrifice of all success. In 
 Kentucky and Tennessee, a very large strain of mules have been obtained 
 by using jacks of immense size. "We recollect seeing one at R. Cockrill's, 
 near Nashville, over eighteen hands high. We have seen several mules of 
 that hight, and numerous ones of sixteen and seventeen hands high. It is 
 still a question whether such large mules are as economical as the smaller 
 sizes, which cost less at first and cost less for sustenance ; and some persons 
 contend that at ordinary labor the small mule will do as much and last 
 longei'. 
 
 In breeding either horses or mules, a writer upon the subject says : " If we 
 would have sound stock, we must have constitutional soundness in both dam 
 and sire. There are hundreds, ay, thousands, who will scour the country and 
 compare the merits of a dozen horses — will give time and money to secure 
 the services of a good stallion — and all with the expectation of procuring a 
 fine colt from a miserable, puny, ill-shaped, broken-winded, spavined old 
 mare. How often do we hear it said, ' Oh, she will do to raise a colt 
 from ;' or — after hard service and cruel usage have left a mere wreck of 
 what, away back in the farmer's memory, was once a beast of power, activ- 
 ity, excellent temper, and noble bearing — 'we must now turn the old mare 
 out to breed from.' The start is wrong, the foundation is defective — what 
 wonder should the structure tumble to the earth ? 
 
 " In the mare we need size and symmetry ; if there be blood, all the bet- 
 ter — it will tell. Without the first two, liowever— even though all the 
 blood that has flowed through thorough-breds, from the days of Godolphin 
 to the present, were in her veins — she is utterly unfit for a breeder. Many 
 animals possess some favorable peculiarity which owners wish to transmit, 
 and though there may be a structural deficiency in some other part, the 
 mare is brought to the breeding paddock in the hope that the desirable 
 features will be prominent in the colt, even if it be at the expense of other 
 points of strength and action. The breeder here commits an error. It 
 would be better to let the mare go, for in the very large majority of cases 
 the deficiencies will be transmitted while the excellences Avill not. 
 
 " In choosing a mare for breeding purposes, she should be so formed in 
 
118 DOMESTIC ANIMALS. [Chap. I. 
 
 frame, as to be capable of carrying and well nourishing her offspring ; that 
 is, she slionld be what is called " roomy." Tliere is a formation of the hips 
 which is particularly unfit for breeding purposes, and yet which is some- 
 times carefully selected, because it is considered elegant ; this is the level 
 and straight hip, in which the tail is set on very high, and the end of the 
 haunch bone is nearly on a level with the projection of the hip bone. 
 Nearly the opposite form is the more desirable, where, on examining the 
 pelvis, it will be seen that the haunch bone forms a considerable angle with 
 the sacrum, and that there is, as a consequence, plenty of room, not only for 
 carrying the foal, but for allowing it to pass into the world. Both of these 
 points are important, the former evidently so, and the latter no less so on 
 consideration ; because, if the foal is injured in the birth, either of necessity 
 or from ignorance, it will often fail to recover its powers and will remain 
 permanently injured. Tlie pelvis, then, should be wide and deep — that is to 
 say, large and roomy, and there should also be a little viore than the average 
 length from hip to the shoulder, so as to give plenty of bed for the foal, as 
 well as a good depth of back ribs, which are necessary to give the strength 
 to support this increased length. Beyond this roomy frame, necessary as 
 the egg-shell of the foal, the mare only requires such a shape and make as 
 is well adajited for tlie purpose she is intended for— that is to say, for pro- 
 ducing colts of the style and form she is intended to j^roduce. We will add, 
 that she must have four good legs under her, and those legs standing on a 
 foundation of good, well-shaped, large feet, open heeled, and by no means 
 flat-soled.' 
 
 "'In health,' says the same writer, 'the brood mare should be as near 
 perfection as the artificial state of the animal will allow ; at all events, it is 
 the most important point of all, and in every case the niare should be very 
 carefully examined with a view to discover what deviations from a natural 
 state have been entailed upon her by her own labors, and what she has in- 
 herited from her ancestors. All accidental defects, such as broken knees, 
 dislocated hips, etc., may be passed over; the latter, however, only when 
 the stock from which the mare is descended are famous for standing their 
 work without this frailty of sinew and ligament. Spavins, ring-bones, large 
 splents, side-bones, and, in fact, all bony enlargements, are constitutional 
 defects, and will be almost sure to be perpetuated, more or less, according to 
 the degree in which they exist in the particular case.' 
 
 " Having said thus much upon the requisites on the side of the clam, let 
 us see what shonld be sought for in a sire. It is maintained by all writers 
 upon this subject, that hlood should be possessed by a stallion in an eminent 
 degree ; that the essential on the part of the sire is the greatest amount of 
 pure blood compatible with size, weight, and power according to the pur- 
 poses for which we intend to breed. Our best veterinarians argue that the 
 degree of strength in the bone, sinew, and frame of a blooded horse is, in 
 proportion to extent, vastly superior to that contained by his coarser and 
 more mammoth brother, the English cart-horse. The difference in the form 
 
Seo. 8.] HORSES AND MULES— BREEDING. 119 
 
 and texture of the muscular system, and in the lesser tendency to form 
 flabby, useless flesh, is also in favor of blood. In addition to all this, the 
 general constitution of the animal is calculated to furnish him with gi'eater 
 vitality, recuperative energy, and physical power — in proportion to size and 
 weight — and, as a consequence, quicker movement, greater courage, and 
 better powers of endurance. 
 
 "Herbert, in his 'Hints to Horse-Keepers,' gives his views upon this 
 branch of our subject so coiicisely and clearly, that we can not refrain from 
 quoting a paragraph, as follows : ' To breed from a small horse with the hope 
 of getting a large colt ; from a long-backed, leggy horse, with the hope of 
 getting a short, compact, powerful one ; from a broken-winded, or blind, or 
 flat-footed, or spavined, or ring-boned, or navicular-joint diseased horse, with 
 the hope of getting a sound one ; from a vicious horse, a cowardly horse — 
 what is technically called a dunghill — with the hope of getting a kind-tem- 
 pered and brave one ; all or any of these would be the hight of folly. The 
 blood sire (and the blood should always be on the sire's side) should be, for 
 the farmer-breeder's purposes, of medium hight, say 15i hands high, short- 
 backed, well ribbed up, short in the saddle-place, long below. He should 
 have high withers, broad loins, broad chest, a straight rump, the converse of 
 what is often seen in trotters, and known as tlie (joose-rump y a high and 
 muscular, but not beefy crest ; a lean, bony, well-set-on head ; a clear, bright, 
 smallish, well-placed eye ; broad nostrils and small ears. His fore legs 
 should be as long and as muscular as possible above the knee, and his hind 
 legs above the hock; and as lean, short, and bony as possible below those 
 joints. The bones can not by any means be too flat, too clear of excres- 
 cences, or too large. Tlie sinews should be clear, straight, firm, and hard to 
 the touch. From such a horse, where the breeder can find one, and from a 
 well-chosen mare (she may be a little larger, more bony, more roomy, and 
 in every way coarser than the horse, to the advantage of the stock), sound, 
 healthy, and well-limbed, he may be certain, accidents and contingences set 
 aside, of raising an animal that will be creditable to him as a scientific stock- 
 breeder, and profitable to him in a pecuniary sense." 
 
 With these general remarks upon what we require in breeding, we think 
 we may close the section upon horses. We hope what we have given in re- 
 lation to breeding horses will be carefully studied and breeds compared, and 
 that what we have said will be just sufficient to awaken an interest that will 
 tend to the improvement of this most faithful beast in the service of man. 
 If we have not got the right breed, let us inquire where is the deficiency, 
 and amend it. Above all, let ns think what purpose we are breeding for, 
 and not attempt to get an animal suitable for a lady's saddle from an English 
 cart-horse or tlio Norman diligence. 
 
 169. Horse-Gparing. — If a New Mexican, or even a full-blood North Caro- 
 lina mountaineer, should appear in the city of New York with his horse 
 harnessed, as we have have often seen, it would attract much attention, as 
 the whole gearing might not have a particle of leather or iron in its compo- 
 
120 DOMESTIC ANIMALS. [Chap. I. 
 
 sitiou, the collar being made of braided coru-sliucks, the hames of natural 
 crooked sticks, the traces of raw hide, fastened to the hames by a hole and 
 a knot, and to the whiffletree by a loop around the end. Rude as this gear- 
 ing is, it answers a good jJUi'pose, and does not gall or sweat the horse like 
 the great English collars, or like those known in our boyhood as the " old 
 Dutch collar," wliicli was so much like the breeching of the same harness 
 that it was rather difficult to tell which belonged forward and wiiich behind. 
 
 The old English collar, specimens of which may be seen occasionally in 
 this country, was a most cumbersome piece of horse-gearing which a sensible 
 man will not be likely to copy. It is made like our American collars, only 
 very much heavier, and has attached to its upper end as an ornament two 
 pieces of stiff sole leather as big as the skirts of a saddle, with a great deal 
 of ornamental stitching around its edge. Some of these collars weigh 12 to 
 15 lbs., and the hamcs arc furnished with two brass horns that stick up sev- 
 eral inches above the flaj). 
 
 The Scotch collars are also made with a great superfluity of leather, and 
 are very heavy, though diftering in form from the English collars. 
 
 The weight of a Scotch plow harness is given in Stephens' book of " The 
 Farm" at 38 lbs. We have often seen a horse equally M'ell harnessed to a 
 plow in this country when the whole gearing would not weigh half as much, 
 nor cost half as much, as an English collar. These English collars are often 
 ornamented with red worsted fringe and tassels, and give a six-horse team, 
 wearing bells, a very formidable appearance. 
 
 We recommend as an improvement upon our own light, easy, and, we 
 think, handsome collars — handsome, because fitting for their purpose — that 
 they should be made open at the bottom. We drove one pair of horses from 
 Chicago to New Orleans, and from New Orleans to New York, making 
 many detours, and in all driving some five thousand miles in one journey, 
 with a pair of collai's open at the bottom ; and although out in all sorts of 
 weather, never had a sore shoulder or even chafed off the hair. Neither did 
 we use breeching in all that journey, yet we traveled over some very rough 
 and mountainous roads. We are satisfied that a horse will hold back a light 
 carriage with a good strong i)added girt as well as with breeching. Our plan 
 of a harness is exactly the contrast of an English one. Theirs is, to use up 
 all the leather and labor possible, and ours to use just as little as possible. 
 We do not believe in blinders, check-reins, breeching, nor heavy collars. 
 The harness should be made as light as it can be and be strong. Strength is 
 an important particular. For a farm-wagon or plow harness we recommend 
 short leather tugs and chains as preferable to long tugs or long chains. 
 
 170. Working Three Horses Abreast. — In the north part of this country it 
 is not very common to see three horses worked abreast. It is quite common 
 in Louisiana, particularly in working horses to carts. It is much practiced 
 in England, and perhaps would be more so here if farmers had proper gear- 
 ing. We have seen it practiced sometimes by hitching the middle horse to 
 the center of the swing-bar. This gives no chance of equalizing the draft 
 
Sec. 8.] HORSES AND HARNESS. 121 
 
 between the three horses. The English have what are called compensating 
 bars between the swing-bar (which we call the double-tree), and the three 
 single-trees, so that each horse may be seen to pull equal to the others. 
 
 Tliese bars should be made of iron, one and a half inches wide and three 
 eighths of an inch thick. Two of the bars are each 27 inches long, and these 
 are attached, as the single-tree usually is, to the ends of the swing-bar, by a 
 fulcrum just one third of the length from the outer end. Then a center 
 bar, 20 inches long, is attached by working joints to the ends of these out- 
 side bars, and the single-tree of the center horse is attached to the center 
 of this bar, and the single-trees of the outside horses are attached to the 
 ends of the other bars. This equalizes the strain upon all the horses, for it 
 is impossible for one to start ahead without imparting motion backward to 
 both of the other horses. 
 
 The irons of a single or double-tree should always be made so as to clasp 
 the wood, which should never have a hole bored through it to pull by. 
 
 171. Dimensions of Double aud Siagle-Trecs. — Perhaps every farmer knows 
 how to gear a horse, and what are the proper dimensions of a set of double 
 or single-trees. But there are many persons who take to farming in aftei'- 
 life, and others who may have occasion to make this part of a set of horse- 
 gearing, and these will be glad to have the following directions to refer to. 
 
 The bar of a double-tree should be three feet nine inches long and three 
 and a half inches wide at the center, and one and a quarter inches thick, and 
 it should be made of the strongest kind of wood that can be procured, and 
 straight grained and free from knots. The best wood we have for this pur- 
 pose is second growth white ash, such as all of our best hoe and shovel 
 handles are made of in the United States. 
 
 A single-tree should be three feet three inches long, two and a half inches 
 wide, and one and a quarter inches thick. The irons of double and single- 
 trees may be all made of the same form and strength ; that is, a piece of the 
 very best flat bar iron, one and three quarter inches wide and one fourth 
 of an inch thick, is bent so as to clasp around the back part, and the ends 
 come about two thirds of the width toward the front edge, with half-inch 
 holes through the end and through the wood. In this hole a piece of half- 
 inch iron is to be inserted by tapering the ends so that they will go through 
 the hole from each way and clinch fast on the flat iron, leaving the bend 
 forward so as to form a loop in which to put the hook of the single-tree, or 
 the chain, or a loose ring, as may be required. Tliese irons can not come 
 oS", even if they should get loose, and the wood is not likely to break, be- 
 cause there is no strain upon it. The strain is all upon the irons, and when 
 the loop wears out, a new one is easily insei'ted in its place. The center irons 
 of the double or single-trees are put on after the same fashion, the loop of the 
 round iron being back, instead of forward, and both the flat and round irons 
 for the center may be a little stronger than the ends. 
 
 This plan is far better than making the irons to drive on like a ring, fast- 
 ening them by a few stub-nails driven in the end of the single-tree. Acci- 
 
122 DOMESTIC ANIMALS. [Chap. I. 
 
 dents often occur fi'om the irons of single-trees, put on like rings, getting 
 loose and working off. Such things seem alwaj's to happen at the most un- 
 propitious times. We knew one man well, who lost his life in consequence 
 of just such an accident. lie was crossing one of the Western prairies upon 
 a cold, stormy night, when the accident occurred, by which he was unable 
 to proceed, and, as was supposed, while getting his horses loose, that he 
 might ride to the nearest house, some miles distant, he became so chilled as 
 to be unable to mount on horseback, and before morning his horses left him 
 alone to perish — all in consequence of having bad gearing. 
 
 We have ourselves had some very unpleasant experience in our prairie 
 traveling, arising from broken swing-trees, and therefore warn you to make 
 them very strong — no matter about the looks. Utility is everything. 
 
 Flowing vnthfour horses, though not much practiced in this countrj', is 
 sometimes necessary, and, for want of practice, but few know how to attach 
 four horses to a plow so as to work in the easiest manner. 
 
 The common way is to hitch the double-tree of the leading pair to a hook 
 in the center of the double-tree of the rear pair. This gives a dead pull to 
 the leaders without affecting the other pair. To obviate this, and give a 
 compensating balance to both jjair, the following plan has been adopted : 
 Attached to the hook of the plow-beam is an iron pulley, about six inches 
 diameter. The chain from the first set of double-trees, instead of being 
 hooked to the plow-beam, is rove through this pulley, and the end carried 
 forward and hooked to the forward double-trees. The working of this is, 
 that neither pair can give a dead pull independent of the other pair. If you 
 touch up the hind pair so that they start suddenly forward, tlie pull does 
 not give the plow a jerk, because the chain yields around the pulley and 
 soon draws back upon the leaders, giving them a hint to press forAvard, and 
 tlms keep the strain even. To prevent either pair from drawing too much 
 of tlie chain through the pulley, you can insert an open ring into a link at a 
 suitable distance on either side. 
 
 There is no other plan that we have ever seen in operation, so simple as 
 this is, to give a perfect equilibrium and balance the forces of each pair of 
 horses. In fact, the whole four, by the aid of the swing-trees and pulley, are 
 all kept in equilibrium. 
 
 It will be well for the hind pair of horses to wear a common wagon neck- 
 yoke, and pass the chain that extends to the double-trees of the forward 
 horses through the ring, or if that is too high, through a loop attached to 
 the ring. The chain is sometimes supported by a strap swinging between 
 the rear horses, each end attached to a back band on to the hames. 
 
PLATE X. 
 
 (Page 123.) 
 
 This picture speaks for itself, and does credit to the artist. It is 
 one that will interest more persons than any other. The descrip- 
 tions of these fowls will be found in Section IX., ^ 180, 181, 182, 
 together with several other kinds. Those here illustrated comprise 
 most of the best improved varieties, and quite as many as any farmer 
 will care to possess. By comparing the descriptions with the pic- 
 tures, it will enable any one to make a suitable selection. The de- 
 scription of poultry fails to give satisfaction without pictorial aid. 
 It is here complete. We may well feel proud of this picture. 
 
Sec. 9.] 
 
 POULTKT. 
 
 123 
 
 SECTION 1X.-P0ULTRY, 
 
 r 
 
 W^W ^^^^ ^^^ Poultry Keepers.— Those who expect to 
 
 t^^lL- be successful in raising or managing poultry, or 
 
 liope to make it a paying part of farm business, 
 
 should observe a few simple rules which will 
 
 save them from much disappointment and trouble. 
 
 It is not advisable to keep large numbers of hens 
 
 ^ether, or go into the poultry business on a large scale. 
 
 is found impracticable and unprofitable; besides, they 
 
 not be kept in so healtliy a condition as where but 
 
 are together. 
 
 . It is impossible to keep hens to advantage without 
 ,'ing a properly arranged house for their accommoda- 
 This is as necessary as that a farmer should have 
 a stable for his cattle or a dwelling for his family. 
 
 3. In connection with the house, a poultry-yard should be provided, which 
 should contain a grass-plot, gravel, some quantities of slacked lime, and dry 
 ashes. 
 
 4. Tlie inside of the poultry-house should be whitewashed twice a year, or 
 oftener, which will serve to keep it free from vermin, and the hens will be 
 kej^t in better condition. 
 
 5. Pure water, in sufficient quantities, must be provided several times a 
 day, in winter and in summer. 
 
 6. Feed should be given at regular periods. To fatten fowls, they must 
 not be allowed to run at large. 
 
 These rules are subject to variation under certain circumstances. A new 
 settler in the woods woiild not consider them applicable. It woxdd be more 
 profitable to let his poultry run at large. So it is upon all forms at some 
 seasons, but there" are but few farmers who would not sometimes find it prof- 
 itable to shut up all his poultry, the gallinaceous portion of it particularly. 
 For this purpose a poultry-yard will be found always a great convenience, 
 if not a great profit. It should be so constructed that its first cost will not 
 be money unprofitably spent. Many persons have found it profitable to 
 have a tolerably large iuclosure for poultry, and plant that with plum-trees. 
 It is asserted that curculio insects never disturb plums upon such trees. It 
 is our opinion that it would be found very profitable to have a portable 
 poultry house and yard, which could be conveniently moved from place to 
 place, keeping it upon one spot one year, and upon another the next. By 
 this means some bad brier-patches would be subdued, and some poor spots 
 cheaply enriched. 
 
 If poultry are kept in a yard, the ground should be often dug up. If the 
 yard is large enough, it may be plowed. It is a good way to have a lai-ge 
 
124 DOMESTIC ANIMALS. [CnAP. I. 
 
 yard in two parts, and plow and sow grain in one, and when it gets large 
 enough for the hens to eat, turn them in and plow and sow the other. 
 
 Hens that run at large are often very troublesome, sometimes doing 
 "more mischief than their necks are worth." The following device is for 
 such mischievous pests. 
 
 173. Shoeing Heus. — " We observe a recent notice, in some paper, of the 
 practice of making woolen shoes (or rather boots), to prevent hens from 
 scratching. A flock of fifty fowls, like our owQ, would require considerable 
 labor in the manufacture of a hundred woolen boots, which might be worn 
 through in a short time and need renewing. It is much better, we think, to 
 procure a breed that will not scratch. There is another point of import- 
 ance — that is, to keep the animals well fed during the season Avhen scratch- 
 ing is most feared." 
 
 One man says : " I keep from thirty to fifty of the white Shanghae — a 
 very qniet, well-behaved, and profitable fowl — and adopt the most econom- 
 ical mode, namely, regular feeding with grain ; and although there is no 
 barrier between their ordinary range and the kitchen garden, they do not 
 scratch. yearly enough to do twenty-five cents' damage." 
 
 174. Number of Hens to Keep, and Time to Sell.— A correspondent of the 
 Illinois Prairie Farmer says: "We have kept as many as 150 fowls, and 
 fed them three pecks of shelled corn daily. But our experience has been, 
 that we could get more than half as many eggs from twenty-five fowls as 
 wc could from one hundred. We have carried chicks the size of quails to 
 market and found them ready sale at twenty-five cents each. We might 
 have kept them four months longer, and found them dull sale at a dime 
 apiece." 
 
 176. Feeding liens itieat. — We liave been advised to feed plenty of meat to 
 our hens, if we wanted them to lay steadily. Now there is a time to feed 
 meat and a time not to feed it. When the temperature is low and the 
 ground is frozen, feed meat, but when the weather is warm, or even mod- 
 erate, if the chickens can scratch the ground and find worms and insects, 
 they need no meat. The insects and worms furnish meat suflicient, and too 
 much in many cases, causing them to lay eggs without any shell. They 
 should then have plenty of lime or old mortar, gravel, etc. 
 
 Young chickens generally do best in coops, raised some inches from the 
 ground, until they are six or eight weeks old ; if they droop after this, the 
 next hour of warm sunshine will bring them up again. A correspondent 
 says, the last time he tried to raise them on the ground, he lost 59 out of 
 60. He has often raised 60 or 70 at a time since without losing one, simply 
 by cooping them away from the ground until six weeks old. 
 
 A writer in the English Agricultural Gazette recommends that a piece of 
 iron be kept constantly in the water to which fowls have access. Iron rust, 
 he says, is an excellent tonic. A roll of brimstone is also recommended to 
 be kept in the water. 
 
 176. How to Keep Hens Shut up. — It is one of the most important matters 
 
Seo. 9.] POULTRY. 125 
 
 about poultry keeping, particularly to small fanners and villagers, to know 
 how to keep hens in continement. It is very convenient for many persons 
 who could not allow them to run at large to annoy themselves and neigh- 
 bors, to keep enough to supply the family with fresh eggs, and perhaps a 
 few cliickens. 
 
 As continement is an nnnatural condition for fowls, it is often an un- 
 healthy condition. Tlie question is, can they be kept shut up in close quar- 
 ters and keep healthy ? If large numbers are together, they are very ajit to 
 get a disease which makes them lose their feathers. Sometimes they pull 
 them off of one another. Great attention should be paid to cleanliness, 
 where fowls are shut up. Lime for the hens to eat — lime scattered over the 
 flooi' — lime used as whitewash, should never be neglected. The following 
 rules are very good : 
 
 1st. Do not keep more than ten hens confined in one small yard. They 
 will be more profitable than fifty. If you wish to keep a large number, have 
 several places for tliem. 
 
 2d. Do not confine them in a damp or shaded place, but in a dry one, 
 where they can have both shade and sunshine. The latter is very important. 
 
 3d. As they can not remove from the filth that accumulates, it should be 
 removed from them. Tliere is no permanent success in keeping fowls in 
 confinement without the utmost neatness. Their droppings should be daily 
 removed from the roosting-place, and the yard should be well littered witli 
 fresh straw, tan, or other material, as often as is necessary. 
 
 4th. The hen is omnivorous — that is, she eats almost ever^'thing ; insects, 
 flesh, grain, and fruit are taken with avidity. All attempts, therefore, to 
 confine hens to a single article of diet will fail. Give them a good supply 
 of grain and butchers' scraps, boiled potatoes, sour milk, and the refuse of 
 the kitchen, and dui'ing the summer months an occasional taste of fruit, and, 
 in additiort, egg-shells and oyster-shells crushed ; or, if you can not get 
 these, pound up the bones that always collect about yards. It is wonderful 
 with what avidity fowls, especially when confined, will eat broken bones. 
 
 5th. Plenty of clean water is always necessary. Stagnant or filthy water 
 will not do. It alone is sufficient to c'huse disease. Running water is best, 
 but clean, fresh water will answer. 
 
 6th. Exercise is quite an important part of the plan. Turn them out an 
 hour before sunset to pick up insects, gravel, and other substances, and it 
 will quicken their circulation and add much to their poM'ers of resisting dis- 
 ease. "We have heard a poultry keeper say, who followed these rules, that 
 with him the balance-sheet gave a large profit. * 
 
 Although the above remarks are aj^plicable principally to residents of 
 towns or villages, yet we would like to add a word for the benefit of farmers. 
 How few of them keep poultry at a profit ! Indeed, as generally kept about 
 the farm, with free range of the barn, grain, and often portions of the house, 
 they are of no profit, and very often are an almost intolerable nuisance. 
 
 177. The Food of FowlSi — This is a very important question. A great 
 
126 DOMESTIC ANIMALS. [Chap. I. 
 
 many expedients have been resorted to in order to cheapen the food of fowls. 
 Chandlers' greaves are largely used by parties in the vicinity of New Yoi'k 
 to fatten poultry for market. These are good for an occasional feeding, but 
 for exclusive food we have our doubts, and think otiiers will, after reading 
 the following extract: 
 
 ITS. Arc Fowls Wholesome which are Fed on Putrid Meat ?— Such is the 
 quesiion considered by Dr. Duchesne in the January number of the Annales 
 (TITyglene Puhlique. 
 
 It is well known that man can not indulge in putrid meat with impunity, 
 and numerous cases are on record where accidents have occurred from this 
 kind of food. Little is known, however, of the effects produced by the flesh 
 of animals otherwise in good health, but nourished with flesh in a state of 
 putrefaction. Certain animals can undoubtedly be nourished on such putrid 
 matters ; but it is important, in a hygienic point of view, to determine the 
 modifications which the exclusive use of putrid viands may produce in the 
 quality and the preservability of fowls destined for the market. 
 
 On the occasion of a complaint agaiust a farmer in the neighborhood of 
 Paris, Dr. Duchesne visited his establishment on a warm day in July, and 
 toward the afternoon. The food of the poultry he found to consist of flesh 
 in a state of putrid decomposition, which had been obtained from the 
 slaughter-houses of Paris. The fat is first removed by cooking, and bran is 
 added; and this mixture is given morning and evening to the fowls, who 
 fight for it with avidity. A very fetid odor came from the barrels in which 
 the food was contained, from the vessels where it was supplied to the fowls, 
 and also from the ground round about tliem. The fowls, however, ajjpeared 
 to be in perfect health. Dr. Duchesne supplied himself with three eggs laid 
 that day, and also with a fowl and duck of a year old, which were killed 
 before him. In three hours' time the poultry gave out a very strong odor, 
 and the intestines were so offensive that they had to be removed to a dis- 
 tance. Decomposition rapidly set in. The fowl, at the end of twenty hours 
 after being cooked, had an impleasant, strong taste, and the duck, at the end 
 of twenty-four hours, was in such a state that it could not be eaten. Next 
 da}', when the flesh was cold, and ttie smell abated, portions of the duck 
 were partaken of hy the servants. The eggs, too, were found, if kept a rea- 
 sonable time, to become very unpalatable. In fine, it was shown that 
 though fowls nourished in this way were apparently healthy, and could be 
 eaten at a pinch without great inconvenience, yet that it was most probable 
 that the continued use of such articles of diet would be attended with danger. 
 The Council of Health at once interdicted the sale of fowls fed in this ob- 
 jectionable manner. 
 
 Dr. Duchesne continued his inquiries at the great knackery of Aubervil- 
 liers, where pigs and fowls are fed in great numbers on flesh, raw and 
 cooked, and where similar animals arc reared on a mixed food, consisting of 
 flesh and grain. The results of his observations are embodied in the follow- 
 ins conclusions: 
 
Sec. 9.] POULTRY. 127 
 
 1. Fowls and pigs may be fed on sound flesh, raw and cooked ; on flesh, 
 raw and cooked, of animals aflected with contagious diseases, as glanders, 
 malignant pustule, hydrophobia, etc. ; and even on flesh, raw or cooked, in 
 a very advanced state of putrefaction, without any alteration in their health. 
 
 2. Chickens are reared with difliculty if their food be restricted to flesh, 
 raw or cooked, even when sound ; and a larger number of them jjerish than 
 ■when fed on ordinary kinds of food. 
 
 3. Tiie eggs of fowls thus nourished are as palatable as the eggs of fowls 
 nourished in the coiumou way. The shell, however, is thinner and more 
 easily broken. 
 
 ■ 4. The flesh of fowls and pigs nourished on flesh raw or cooked, is softer, 
 more diflicult to preserve, and the fat is yellow and more diftiuent. 
 
 5. The doctor has still doubts as to the absolute wholesomeness of fowls 
 and pigs fed on animals dying of glanders, etc., and recommends that the 
 use of the flesh of such animals should be prohibited for the rearing of fowls 
 and pigs. 
 
 6. The use of flesh in a state of putrefaction, for similar purjioses, should 
 be absolutely prohibited as unwholesome. 
 
 7. Fowls should not be fed too long or too abundantly on worms, cater- 
 pillars, beetles, etc., as such food communicates a strong taste to the flesh. 
 
 8. The continued use of flesh, otherwise healthy, and either raw or cooked, 
 ultimately injures the growth of the fowls and the quality of their flesh. 
 
 9. The best method of rearing undoubtedly is, to give flesh but once a 
 day, and to finish with a meal of grain. 
 
 10. For market use, the use of flesh should be stopped, and the fowls re- 
 stricted for some time to the use of a vegetable diet. 
 
 179. Choice of a Cock. — In breeding, the choice of a cock is a very import- 
 ant matter. The following are some of the " points" insisted upon by 
 poultry fanciers : 
 
 It is accounted that he has every requisite qualitj', when he is of good 
 size, caiTies his head high, has a quick and aniyiated look, a strong, shrill 
 voice, the bill thick and short, the comb a fine red, and in a manner var- 
 nished ; a membraneous wattle of a large size, and colored the same as the 
 comb, the breast broad, the wings strong, the thighs very muscular, the legs 
 thick, the claws with nails rather bent, and with a very keen point ; when 
 he is free in his motions, crows often, and scratches the earth with vigor and 
 is constantly in search of worms — not so much for himself as his mates — 
 when he is spirited, ardent, and clever in caressing them, quick in defending 
 them, attentive in soliciting them to eat, in keeping them together in the 
 day, and assembling them at night. 
 
 There are some cocks, which, by being too high mettled, are snappish and 
 quarrelsome. The way to quiet the turbulent ones is plain : their foot must 
 be put through a leather, in a round shape ; they become as quiet as men 
 who are fettered at their hands, feet, and neck. 
 
 180. The Varieties of Conunou Fowls.— As-to the variety to be chosen, that 
 
128 
 
 DOMESTIC ANIMALS. 
 
 [Chap. I. 
 
 must be left to tlie fancy of those who are to raise the fowls. In a farmer's 
 family, this will generally be the female portion of it, and the gudewife or 
 children who take the fowls under their charge, should be consulted. At 
 least the different varieties should be made known to them, by placing in 
 their hands some good treatise upon poultry. Several volumes have been 
 published, with portraits and full descriptions, and how to conduct the 
 business of poultry raising on a large or small scale. "We can not give this 
 information in full ; we will only name the several sorts which are to be 
 found among poultry fanciers in this country, with short descriptions, and re- 
 fer readers, for comparison of size and form, to the beautiful engraved illus- 
 trations of varieties, found in standard English works on Domestic Poultry. 
 
 181. The Shanghae and China Breed.— A few years ago a good many 
 people in tliis country, afflicted with the " hen fever," went into ecstasies over 
 the Shanghae, or China, breed of fowls, sorne of which are enormously large. 
 Cocks are spoken of as being twenty -eight inches high. The wings are 
 short, and placed liigh upon the body. The tail is short, with a thick clump 
 of feathers over the root of the tail feathei-s. Tiie cocks have large combs 
 and wattles ; the hens are seldom large. Tlie legs are feathered. The eggs 
 are not lai-ge in proportion over the size of eggs of our old-style fowls ; the 
 color is nankeen, and the ends rather blunt. 
 
 Those who breed Shanghae fowls consider the flesh very good, and the 
 full-grown bodies of cocks weigh eight or ten pounds, and pullets six or 
 eiglit pounds. There are varieties of colors among the Shanghaes — some 
 being pure white ; others, a reddish brown, etc. 
 
 The variety known as Cochin-China fowls differ very much in quality, 
 habits, and general appearance from the Slianghaes, to which they are closely 
 related. Their eggs are nearly the same shape, size, and color. The main 
 difference is in the somewhat deeper and fuller breast, and being generally 
 smooth-legged. They also have the same hollow, harsh voice, when crow- 
 ing, in their peculiar sonorous tone, long drawn out, and very unlike the 
 shrill ringing clarion of om- old-style barn-door cock. 
 
 The Malay, or Chittagong, is another name of one of the varieties of the 
 China breed of fowls, which are supposed to be larger than the Cochins ; 
 the size, bj' weight, accorded to some of them seems enormous. 
 
 "We believe the variety called Malay fowls are considered identical with 
 the variety called Chittagong. The full-grown Malay cock is said to weigh 
 12 lbs., and the hens 8 to 10 lbs. Tiiey are of all shades of color, and have 
 small, thick combs and small wattles, and no top-knot ; the legs not feath- 
 ered. Their eggs are larger than those of the other large varieties. The 
 crow of the Malay cock is loud and harsh, but terminates abruptly. 
 
 182. OrnamPiital Varieties of Fowls. — As the China breed, which we have 
 described, can not be said to be ornamental around a genteel farm-house or 
 rural residence, we will name some which are so, and at the same time are, 
 at least some of them, very valuable for all domestic purposes. The general 
 appeai'ance of the various sorts ^may be judged from reading the short notes 
 
Seo. 9.] POULTRY. 129 
 
 which we append. The most ornamental thing about a yard full of fowls 
 is to have them all of one variety ; for instance, Dominiques, all looking so 
 much alike that individuals would be hardly distinguishable. 
 
 The Pheasant-Malay is the name given to a variety of inijjorted fowls, 
 wliich are esteemed by some as quite desirable, particularly as ornamental 
 stock. They are called good layers, good sitters, and good mothers. The 
 cocks have black tails, and black on the neck and wings. Full-sized eggs 
 weigh two ounces each. The newly liatched chicks are yellow, with a black 
 mark down the back. Some of the hens are described as of a pheasant 
 color, with long velvety black necks. 
 
 Oudderland fowls is the name of another variety ; they are jet black in 
 the plumage, without combs, and small wattles ; bodies short and plump ; 
 legs long and feathered ; eggs large, white, oval-shaped, and rich. Tlie 
 hens are not esteemed good layei-s nor sitters. This variety comes fi-ora the 
 north of Holland. 
 
 The Dorkings. — This, in our opinion, is one of, if not the, best varieties we 
 have in this country for the cvery-day purposes of farmers. It is tiie sort 
 mostly used for caponizing in England. There are white, gray, and brown 
 Dorkings. The legs are white or flesli-colored, smooth, and terminate in 
 Jive toes. They feed well, to a good size, and the flesh is considered partic- 
 ularly delicate. The cock's comb is large and erect, and deej) serrated, free 
 from top-knot ; wattles, large. They are noted for hardiness ; are prolific, 
 and cliickcns easily raised. The eggs are large, pure white, very round, and 
 nearly equal in size at the ends. Tlie chicks are brownish yellow, with a 
 broad stripe down the middle of the back, and a nari'ower one on each side ; 
 feet and legs yellow. 
 
 Black Sjxinish is the name of a variety of very ornamental as well as 
 useful fowls. The plumage is glossy black ; the combs of both cocks and 
 hens large and red ; and their general appearance spirited and handsome. 
 Tliey have a singular mark, which distinguishes the variety — it is a Avhite 
 mark on each cheek, not of feathers, but a fleshy substance, M-hich in the 
 cocks is very conspicuous. The hens are great layers, but not inclined to 
 sit. The eggs are large and white, and so is their skin and flesh, which is 
 tender and juicy. Tlie chicks are black, with a white spot on tlie breast, 
 and are long in getting feathered ; so none but early spring chickens should 
 be attempted, and these must be obtained by setting hens of another variety 
 upon the Spanish eggs. 
 
 Game Fowls. — There are several distinctly marked sorts of game fowls — 
 black, white, gray, and brown, all having the same general characteristics, 
 the most marked of M'hich is pugnaciousness. The general size is 3^ to 5i 
 lbs. The eggs are smaller than the eggs of the most common fowls, uni- 
 formly shaped, and cook ricli and delicate. In form tlie game fowl is tlu 
 handsomest of the race. The liead is thin and long; eyes large and full; 
 beak stout and crooked ; long neck ; body compact, short, and round in the 
 breast ; thighs thick, stout, liandsome, taper-shaped ; legs long and thick 
 
 n 
 
130 DOMESTIC ANIMALS. [Chap. I. 
 
 and colored like the beak ; feet thin, broad, strong, with very long claws. 
 The cock walks with a proud, defiant courage, and appears always ready for 
 a fight. It is a good variety to breed from for domestic purposes, if care is 
 taken not to allow cocks of any other sort upon the premises, and not to 
 allow cocks ever to be pitted against each other. 
 
 The Mexicans appear to have a variety of game fowls quite distinct from 
 the English varieties. It was first introduced into the United States in ISW, 
 by General "Waddy Thompson, of South Carolina. The cocks and hens have 
 but few marks to distinguish one from the other. The original stock are 
 pheasant-colored, and in some of those bred iu South Carolina, black tail 
 feathers, and a tendency to gray or light yellow plumage. This variety are 
 great fighters ; they have strong, muscular frames, and are quick and firm 
 in action. The cocks have large lustrous eyes and strong bills and upright 
 combs. The hens are good layers and sitters, and good nurses. This is the 
 breed of game-cocks patronized by General Santa Anna, who was the great- 
 est cock-fighter in Mexico. 
 
 The Java fowl is a very large variety, of black color, said to be found, 
 though probably not pure, on Long Island, and around Philadelphia. They 
 arc sometimes called Saddle-backs, on account of being so broad across the 
 rump. 
 
 The Jersey Blue is the name of a variety quite common in New Jersey, 
 the excellence of which is so great, that anything particularly good is figura- 
 tively sjjoken of as " one of the old blue hen's chickens." The color is light 
 blue, sometimes approaching a dun ; legs generally dark, and sometimes 
 lightly feathered. Cocks weigh 7 to 9 lbs. ; and hens, 6 to 8 lbs. 
 
 The Poland fowls take their name, not from Poland, but from a resem- 
 blance to the tuft of white feathers worn by Polish soldiers. They are 
 glossj' black, except the top-knot, which resembles a full, white rose. Like 
 the Black Spanish, the Polands arc great layers and bad sitters. The skin 
 and fiesli are white, and good for the table. The cocks weigh 4 to 4i lbs., and 
 hens, 3 to 3^ lbs. Their form is plumj), and legs not ver}' long, being well- 
 proportioned and handsome-shaped, and they are particularly ornamental 
 to a country seat. The eggs are of good size, and white, but thougli abun- 
 dant, are not as rich as some others. 
 
 Another variety of the so-called Poland fowls are white, with black top- 
 knots ; and another sort are gold-spangled. These are exceedingly' orna- 
 mental ; the crest being large, golden, and brown ; legs, light blue, and 
 toes partially webbed. 
 
 The Silver Polands are spangled with silver instead of gold, and the hens 
 are the most ornamental. Even the chicks of this variety are pretty. 
 
 The Poland variety of fowls are only fit for neat places, where they can 
 run upon grassy yards or lawns. In dirty pens the crest becomes loaded 
 with dirt, and blinds the poor birds. Where they can run at large around 
 the house, even if the hens were not, as they are, such good layers, they 
 might well be kept for ornament alone. 
 
Sec. 9.] POULTRY. 131 
 
 The Spangled Hamhurg fowls are another ornamental variety, with top- 
 knots and beautiful plumage, both gold and silver spangled. The weight 
 of male birds is about 4^ or 5 lbs., and the hens, 3 or 3j lbs. The cock 
 stands twenty inches high, and heu eighteen inches. 
 
 The Bolton Gray is another ornamental variety, and also a very useful 
 one, tlie hens being excellent layers. They are said to have come from 
 Holland to Bolton, England. The color is remarkable ; the ground work 
 pure white, delicately penciled with black over the body. Tlio neck is 
 wliite, and heads surmounted with large, red, serrated combs. The weight 
 of cocks may be 4 to 4i lbs., and hens, 3 to 3i lbs. They belong to the 
 small-sized varieties, but are the most perfect patterns of neatness and sym- 
 metrical beauty of the domestic fowl family. The chicks are white, except 
 a davk streak on the head and back of the neck, which seems curious, as, 
 when grown, the necks are white and bodies marked with black. The 
 chicks are rather hard to raise. The eggs are small, tapering at one end, 
 and pure white. 
 
 The Silky folds are also classed among the ornamental, and compi-'.se sev- 
 eral varieties, originating in India. Some have white plumage, with dark 
 skin and bones. The combs of some are black, with black plumage and 
 black bones ; and the feathers are so unlike feathers, the hens get tlie name 
 of silky. They are not considered a valuable bird. 
 
 The Frizzled fowls is another variety, but not one that we can recommend 
 any one to cultivate. This sort may be known by the description given to 
 us when we first saw any of the kind in our boyhood, and asked the reason 
 of their singular appearance, and were told that the chickens got turned in 
 the shell in an earthquake, which upset things generally and turned the 
 chickens' feathers wrong end foremost. That is the appearance of the pure 
 breed. Every feather looks as though it had been curled and turned wrong 
 end foremost with a pair of such curling-tongs as the girls used to frizzle 
 their hair with in olden time. To our mind, the Frizzles are ugly beasts, 
 not worth raising on account of any good qualities, and only to be indulged 
 in by those who can afford to keep curiosities. 
 
 The Cuckoo fold is a variety found in some English farm-yards, and per- 
 haps in this coimtry. It has a barred plumage, comewhat resembling the 
 breast of a cuckoo. The general color is a slate blue, tinged with white ; the 
 comb is small ; the iris of the eyes, bright orange ; feet and legs, light flesh 
 color ; so that it will be seen tliat the breed is rather an ornamental one. 
 The birds grow to a large size ; the eggs are very white, smooth, and about 
 two ounces weight. 
 
 The Blue Dun fowls originated in Dorsetshire, England, and are rather an 
 ornamental variety, under size, slender made, with high, deeply serrated, 
 single combs. Sometimes the Blue Dun cock is gold or scarlet spangled, 
 and very pretty. The hens are good layers, and make good pets. The 
 cocks are rather gamy. The hens are good mothers, and the chicks are real 
 little curiosities. This variety is esteemed for the table. 
 
132 DOMESTIC ANIMALS. [Chap. I. 
 
 The Large-Crested fowl is another old English ornamental variety, the crest 
 beino- larger than the Polands, and the fowls of various colors, some of them 
 very brilliant white — more dazzling than the white Guinea fowl, which gives 
 them and the homestead where they are kept a very lively apisearance. 
 When dressed for market, their appearance is very clean and attractive. 
 Tlioir general good qualities make them favorites upon many a farm in 
 England. 
 
 The Bantams are also I'ated among the ornamental fowls. Some of them 
 are really so. The Sebrights have beautiful plumage of a delicate speckled 
 dark and golden color. Tliere are also black, white, and nankeen colored 
 bantams. Their model is perfect and plumage beautiful, and of only about 
 a pound average weight for the hens, and one and a quarter to one and a 
 half pounds for cocks. They are great pets with many persons in England, 
 and are held at fabulous prices. The bantams are good layers, and good 
 sittei's, and good mothers. Some of the cocks are very gamy. We de- 
 cidedly approve of keeping bantams as' ornaments of the farm-yard. And 
 we recommend that the feather-legged variety be avoideil, as they are not 
 so neat in muddy weather in their appearance as the naked-legged sort. 
 The color is a mere matter of taste. 
 
 The Dominique fowl is not only an ornamental variety, but a very good 
 one for every-day purposes on the farm. Tiie true color is a peculiar ar- 
 i-angement of white and blue, that gives a sort of greenish tint to the 
 plumage. The combs are double ; the wattles small ; the legs white or yel- 
 low. The Dominiques are hardy ; above medium size ; very domestic ; and 
 the hens are good layers, and most excellent sitters and mothers ; the eggs 
 good size and quality, and the birds excellent for the table. 
 
 There are many other sorts of ornamental fowls not entirely worthy of 
 recommendation for domestication in this country — among wliich is the 
 Bankiva cock, fi-om the East Indies, of the bantam order, but twice as large 
 as the common bantams. 
 
 The Forlced-Tall cock is another India variety, something like the Bankiva 
 cock. This is a wild sort in Java. 
 
 Sonerafs wild cocJc is also an Indian variety, which has been attempt- 
 ed to be domesticated on account of its beautiful plumage, which is a deep 
 gray, tinged with lighter gray on the edges, with deep green tails ; beak, 
 legs, and feet yellow. 
 
 183. Chicken foops.— " Anybody knows how to make a chicken coop." ISTo 
 ho don't. Not one farmer in ten can make a decent chicken coop. Conse- 
 quently, old barrels and boxes are siibstituted. They may be "good enough ;" 
 they are not ornamental, and for ornamental poultry you should have orna- 
 mental coops. To make a convenient, light coop, take half or three-eiglith- 
 inch boards, six inches wide, and nail them upon posts exactly like siding 
 on a house, if that is the way your house and farm buildings are sided, so as 
 to have a uniformity. If buildings are boarded up and down with battens, 
 make coops in the same way. Board three sides close, and the other side fix 
 
Sbo. 9.] POULTRY. 133 
 
 with slats two incbes wide and two inelies apart, witli extra slats tliat can be 
 sboved in between, being held in place by a bar in front at top, and one at 
 bottom. One of the other slats should also be made movable, so it can 
 be raised to allow the hen to go in and out. If the coop is double, which we 
 prefer, make a movable slat for each room. The dimensions of a double 
 coop may be two feet long, one and a half feet wide, one and a half feet 
 high on the bach, and two feet in front, with a close partition in the middle. 
 Make the roof of five pieces of boards — one at each end and one in the mid- 
 dle, nailed fast, and two others hinged and buttoned down on the others, so 
 as to make openings about six inches wide into the coops. One room is for 
 the nest and one for the brood. If two hens are very docile, they may oc- 
 cupy one Coop. Outside of the front slats nail a little trougli, one foot long, 
 to serve both rooms for water, which will be comeatable outside and in. 
 These are the dimensions of a coop of the smallest size, which will be so 
 light that a child can move it from place to place. It should have a floor; 
 and if rats are troublesome, it can be set up from the ground, particularly at 
 night. Tlie dimensions in lengtli may be increased as much as desired. Set 
 it face to the sun, and in case of storm, or in cold nights, close all the slats, 
 leaving open a hole in each end, high up, about two inches square or round, 
 " for ventilation. If you wish to raise your chickens without a mother, line 
 one room of tlie coop with old carpet, and put a board, covered with woolly 
 sheep-skin, about six or eight inches square, in one corner, just high enough 
 for the chiqks to creep under, and look well to them for a few days, and they 
 will do better than with a bad mother. As they grow large enough to go 
 out of doors, let them in a small yard, in front of the coop, to scratch and 
 bask in the sun. Tlie best fence for such a yard is wove-wire, one and a 
 half or two feet high. With nice, warm, dry coops, early chickens can bo 
 raised almost as sure as late ones, and where grown for sale, will generally 
 sell for as much when half grown as late ones will full grown. 
 
 Stoves ill Chide?!- Houses. — It has been found profitable, in raising early 
 chickens, to use artificial warmth. A small, warm room, warmed in cold 
 weather by a stove, so as to keep the temperature at about 55 degrees, 
 will allow you to set your hens in January or February, and get chickens 
 which will sell, when the size of quails (say 75 cents a pair), for as much as 
 old fowls. These M-arm-house chickens must not be allowed to nm out in 
 the cold or wet grass, but will be benefited by allowing them to run out in 
 the sun. If we made a business of raising poultry for market, we would set 
 hens in a stove-room all winter. A tun of coal, costing say six dollars, 
 would warm a room all winter, large enough to raise two or three hundred 
 chickens, which would sell in the city markets, certainly at twenty-five cents 
 apiece, when tlie size of quails. 
 
 184. Set Hens Early.— It is a great object to set hens as early as possible 
 in spring, as early chickens will begin to lay in October, and give eggs in 
 November and December. Be careful to give your early sittei's a warm, 
 dry nest. After the hen has been sitting ten days, examine the eggs to see 
 
134 
 
 DOMESTIC ANIMALS. 
 
 [Chap. I. 
 
 if all are good, and tliro^v out the bad ones. To tell ■which are good, hold 
 an egg np to a hole or crevice of a dark room, and look at it, and if all below 
 the vacuum in the butt is dark-colored opaque, it is in a fiiir way to hatch. 
 If it is light-colored and yellowish, so that the suidiglit can be seen through 
 it, you may throw it out at once ; and if all are so, you can dismiss the old 
 hen with your thanks for her good intentions. 
 
 " Double eggs" rarely hatch, and wlien they do, are just as likely to pro- 
 duce two distinct chickens as a Siamese one. 
 
 Nests should be made shallow. If boxes are used, not over five inches 
 deep. 
 
 185. Periods of Incubation. — A common fowl hen sits 20 days ; a Guinea 
 fowl hen, 25^ days ; a duck, 2C days ; a turkey hen, 27 days ; a goose, 29 
 days ; a musk duck, 32 or 33 days ; a pea-hen, 27 to 29 days. 
 
 To hatch healthy chicks in these periods, the birds must have good warm 
 nests in a sheltered situation. Chickens have been hatched in nineteen 
 daj's, and the period has been prolonged to twenty-seven days. 
 
 186. Weights of Various Breeds of Fowls and other Poultry : 
 
 Black Polish cock, three years old 
 
 " hen, " " " 
 
 ' ' pullet 
 
 Golden Polish cock 
 
 ' ' hen 
 
 Another hen 
 
 Golden Polish pullet 
 
 Malay hen 
 
 Creole (Silver Hamburgh) hen 
 
 Black Nondescript hen 
 
 Globe-crested Polish hen 
 
 Silver Polish hen 
 
 Game-cock 
 
 " hen 
 
 Young Blue Dun cock , 
 
 Blue Dun hen 
 
 Large Dun Hybrid hen 
 
 Pheasant-Malay cocks, two years old, 
 average each 
 
 " cockerel, five months old 
 
 ' ' hen 
 
 " pullet, seventeen months old 
 
 " (crossed with Dorking hen), four 
 
 years old 
 
 Speckled Surrey hen, two years old 
 
 Spanish hen 
 
 Two Dorking cocks, each 
 
 " hens 
 
 Cock turkey, two years and a half old . . 
 Hen ' ' one year and a half old ... . 
 
 5 
 
 3 
 
 a 
 
 4 
 
 2 
 
 6 
 
 5 
 
 
 
 Turkey cock, si.xteen months old. . . 
 ' ' hen, three or four years old 
 
 Musk drake (molting) 
 
 White China gander, six years old 
 
 White China goose 
 
 Common China goose, Cynoides, hix. 
 years old 
 
 Cochin-China cock, about sixteen months 
 old, molting 
 
 Coehin-China hen, " " " " . , 
 
 Malay cock, about sixteen months old . 
 " hen, " " " " . . 
 
 Pheasant-Malay cock 
 
 " " hen, molting 
 
 Game-cockerel, about five months old . 
 
 Golden Hamburgh cockerel, just anived 
 from a long journey, about five 
 
 months old 
 
 " pullet, " " " 
 
 Cochin-C'hina cockerel, six months old. 
 
 Another, " " " . 
 
 Silver Hamburgh cockerel, after travel- 
 ing, about five moutlis old 
 
 " pullet. " " " " 
 
 Black Polish hen, molting 
 
 Golden Hamburgh, " 
 
 Andalusian cockerel, four months old . 
 " pullet, " " " . . 
 
 Black Spanish cockerel " " .. 
 
 " pullet, " " " . . 
 
 Silver Polish cockerel, four months and 
 a half old 
 
 Golden Poland pullet, about five months 
 old 
 
 White-crested Golden Poland pullet, " 
 
 Lbs 
 
 Oz. 
 
 9 
 
 12 
 
 12 
 
 13 
 
 11 
 
 13 
 
 10 
 
 10 
 
 
 
 ■ 5 
 
 4 
 
 fi 
 
 G 
 
 14 
 
 4 
 
 8 
 
 5 
 
 7 
 
 3 
 
 « 
 
 4 
 
 2 
 
 3 
 
 8 
 
 2 
 
 4 
 
 4 
 
 14 
 
 4 
 
 13J 
 
 3 
 
 1 
 
 2 
 
 8 
 
 3 
 
 
 
 2 
 
 3 
 
 3 
 
 8 
 
 2 
 
 6* 
 
 2 
 
 11 
 
 2 
 
 11 
 
 2 
 
 m 
 
 2 
 
 8 
 
 187. Capons and Poulardes.— These are terms applied to emasculated cocks 
 and pullets. Every person who makes a business of poultry raising to 
 supply a city market, should learn the art of making capons and poulardes, 
 because they will always sell for nearly twice as much as other fowls. 
 
Seo. 9.] POULTRY. 135 
 
 Tlie instruments used to perforin the operation are few and simple, and 
 inexpensive, and tlie art easily learned. 
 
 A set of first-class caponizing instruments is included in tlie following 
 list : a scalpel, G2i cents ; silver retractor, $1 50 ; spring forceps, 87i cents ; 
 spoon, with hook, 75 cents ; double silver caniila, $1 75 ; total, $5 50. 
 
 A much cheaper set of instruments would answer all practical purposes. 
 
 Tlie proper ago for caponizing chickens is from one to three months. The 
 cock is confined upon a table by weights upon the wings and legs, with the 
 right side up ; the feathers are tlien plucked off a spot on the right side near 
 the hip joint, about an inch across, where the incision is to be made, by 
 which the parts are exposed that are to be removed. The operation takes 
 but a few minutes for a skillful operator. 
 
 ISS. Pea-FowlSi — Of all the ornamental poultry ever kept on a place, the 
 pea-fowls take the lead, and well they might, for they are the most useless, 
 and a very expensive luxury. They will not bear confinement ; will not 
 even roost in a house, but occupy the tops of the highest buildings or tall 
 trees. And for mischief, from whicli they can not be restrained, they excel 
 all the feathered tribe. They are cunning beyond belief. They will watch 
 opportunities to visit the garden and steal fruit, and be out before they are 
 suspected. Driving them out with all ^^ossible marks of ill-treatment has 
 no effect upon them, as it does upon other poultry. The pea-fowls will bear 
 a repetition of abuse every day, and every day return to their tliieving. So 
 no one Avho has a garden and lawn in one inclosure should attempt to keep 
 pea-fowl ; nor where there is any chance for them to get into mischief. 
 
 A gardenless mansion may, and should have numbers of pea-fowls. A 
 single pair makes but little show, while a flock makes a most dazzling, 
 splendid appearance. Peahens are two or three years in coming to maturity. 
 They then lay four to seven eggs, which require twenty-seven to twenty-nine 
 days' incubation. Peahens always steal tlieir nests, and their eggs must 
 never be touched, if you wish the hen to incubate them. They may be taken 
 and incubated under a common fowl, or, better, under a turkey, and then the 
 peahen may find another sly place and lay again. Tlie peacock has the 
 reputation of being a bad father, and killing his own progeny. Therefore 
 the hen hides from him as well as from men. 
 
 IS!}. Turkeys. — Every farmer can and should keep turkeys, and as there 
 are several varieties, he should get the best and keep no other. 
 
 Turkeys are less mischievous than most other poultry, and in some cases 
 they are of great assistance to the farmer in destroying insects. The tobacco 
 planters keep turkeys purposely to assist them in ridding the plants of the 
 destructive worms. 
 
 The turkey is a much more recent introduction to the poultry-yard than 
 the other varieties. It is said that the black sort was carried from its na- 
 tive wilds of America to England, and that the American. stock has been 
 all drawn from the woods, and that the different sorts have come from a 
 Southern and Northern race. "We think, though, that it has come from 
 
136 DOMESTIC ANIMALS. [Chap. I. 
 
 mixing the black wild variety with a white or party-colored one imported 
 from the other side of the Atlantic. We prefer the pure black breed, for it 
 gives us the largest and hardiest birds, and we think, also, the handsomest. 
 The pure while turkey, it is true, is quite ornamental, but it is not as hardy 
 a sort as the black. As for yellow or party-colored turkeys, we would not 
 have them on a place a moment longer than necessary to fatten, kill, and 
 eat them. , 
 
 The wild hen turkey is wild in the extreme, while the tame one is so do- 
 mestic that you may rob her secret nest every day of the new-laid egg, yet 
 she will return again and again until she has finished her season, and then 
 commence her period of incubation upon the empty nest. Now, if you have 
 a nest prepared under cover, with the eggs in it, you may bring home the 
 hen and put lier gently upon her eggs, and she will manifest great satisfac- 
 tion, and after carefully examining and placing them all right, will sit upon 
 them as though the nest was all her own. Thirteen eggs are enough for an 
 ordinary-sized turkey, and if she has a good nest she will cover that number, 
 so as to give all a fair chance to hatch. It is not necessary to turn the eggs, 
 as some persons do — the hen attends to tliat — nor look at thena until about 
 the time tlie four weeks are up, when it will be well to remove the chicks as 
 they come out, or else take out all the shells and rotten eggs, if there are 
 any, to give the chicks room, for they generally are better off in a good nest 
 than out of it. Shut the hen in a coop, where the chicks can bask in the 
 sun, and not get in the wet grass. You need not feed much the first day ; a 
 few bread crumbs will answer. Then give all they will eat of hard-boiled 
 egg, chopped fine ; chopped meat, fat and lean ; curds, boiled rice or hom- 
 iny, with cress, lettuce, and green onions. Don't stuff them with pepper- 
 corns. The idea that that is necessary is all stuff. Liver, boiled and chopped 
 up, is good food ; so is barley meal and suet. Melt the suet and pour over 
 the meal and mix, and then crumb up when cold. Many green things may 
 be chopped up and mixed with milk and water and meal. Don't try to cut 
 up feed very fine. The young turkeys, you will find, can swallow big 
 lumps. After ten days you may let the hen run, if the weather is fine. In 
 bad weather they are apt to take cold, and cramp, and die. Care and high 
 feeding are all that are needed to raise turkeys. 
 
 "We knew a woman in Louisiana who raised fifteen hundred out of sixteen 
 hundred hatched. She had an old negro woman and a boy to attend to the 
 wants of the turkeys, and in wet, chilly weather the young broods were all 
 gathered into a log-cabin, warmed by a generous wood fire. 
 
 "VVe have also before us another example of successful turkey raising by a 
 woman, that is worthy of attention by some other farmers' wives, who may 
 go and do likewise. Lydia Eldridge, of Andover, Mass., writes her expe- 
 rience in raising turkeys, under date of Dec. 25, 1858 : 
 
 " Last spring my husband purchased a farm in this town, and I obtained 
 one turkey, and she laid 2-± eggs, hatched them all out at one litter, and I 
 raised them all. Yesterday we dressed the last of them. The united weight 
 
Sko. 9.] POULTRY. 137 
 
 of the whole, when dressed, was 212i lbs. ; 108 lbs. were sold for a shilling 
 a pound, New England currency, amounting in the aggregate to $33. The 
 whole number at tliat price would have amounted to $35 41. Now I think 
 that is doing quite well, and if anybody among your army of readers can do 
 better than that, I think they deserve a premium ; but until that is done, I 
 think I can claim the palm." 
 
 And, in our oi^inion, she is fairly entitled to it. We hope, however, that 
 some other woman will try to win it from her by fair competition in this ap- 
 propriate field of woman's labor. 
 
 And here is another of the same sort, which should tend to encoiirage 
 other women to attempt the same plan to make a little " pin [feather] 
 money." It is to encourage others that we collect and publish these 
 facts. 
 
 " J. E. Alton, of Quinsigamond, Mass., writes us that Mrs. M. Bennett, of 
 Auburn, Mass., had a three-fourths wild turkey, of very large size, which 
 laid 11 eggs, all of which she hatched and raised. At six mouths old tlie 
 united weight of the eleven was 220 lbs. Some of the male birds weighed 
 34 lbs., and the lighted hens 17 lbs. One male sold for $7, and the whole 
 for $55." 
 
 These, however, are fancy prices ; but at the steady market prices of 
 dressed tiirkeys, which will average 10 cents a pound wholesale, in New 
 York, and considerably more for choice birds, the raising and fatting of 
 turkeys is a profitable branch of farming. 
 
 It is true that young turkeys, from the time they are old enough to turn 
 out to range for themselves, are voracious eaters, and would destroy some 
 crops, and so would swine, if permitted to run at large. The farmer finds it 
 profitable to keep a lot for swine, and so would he to devote a whole field to 
 turkeys ; and if he will do that, where they can forage for themselves, they 
 will need very little attention, and will not be likely to get into much mis- 
 chief. If rightly managed, a flock of turkeys will do more good than harm 
 on a farm, for they are great destroyers of insects. It will be found profit- 
 able to plant cabbages, turnips, bagas, peas, oats, wheat, and clover pur- 
 posely for the turkeys to feed upon. This can be managed on a small scale 
 to advantage by using a movable fence. We have no doubt about the fact 
 that a turkey farm would be as profitable as a sheep farm, or a milk farm, 
 or a beef or porC-making farm. In all new sections of country, where mast 
 is abundant, turkeys will fatten upon it entirely ; and in all sections where 
 field feeding is practiced, there is no better stock to run in a corn-field than 
 turkeys. Even where corn is worth a dollar a bushel, it has been found 
 profitable to feed it to turkeys to fatten them for market. One considerable 
 item in the account in all the old States would be the value of the manure 
 made from such feeding. 
 
 The most important fact in turkey raising is not to overstock yourself, for 
 then your flock of turkeys will become pests to yourself and neighbors — a 
 set of mai'auding, piratical thieves. 
 
138 DOMESTIC ANIMALS. [Chap. I. 
 
 A writer in the Germantown Tclcfiraph furnislies that journal with the fol- 
 lowing statement : 
 
 " Much has been published of late in our agricultural journals respecting 
 the alimentary properties of cliarcoal. It has been repeatedly asserted that 
 domestic fowls may be fattened on it without any other food, and that, too, 
 in a shorter time than on the most nutritive grain. I made an experiment, 
 and must say that the result surprised me, as I had always been rather 
 skeptical. Four turkeys were confined in a pen, and fed on meal, boiled po- 
 tatoes, and oats. Four others of the same breed were at the same time con- 
 fined in another pen and fed with tlie same articles, but with one pint of 
 finely pidverized charcoal mixed daily with their meal and potatoes. They 
 also liad a plentiful supply of broken charcoal in their j^en. The eight were 
 killed on the same daj^, and there was a difference of one and a half pounds 
 each in favor of the fowls that had been supplied with charcoal, tliey being 
 much the fattest, and their meat greatly superior in point of tenderness and 
 flavor." 
 
 R. n. Avery, of "Wampsville, Madison County, N. Y., is entitled to the 
 first prize of honor for improvement in the breed of turkeys. From a cross 
 of the American M'ild turkey, made fourteen years ago upon the best domes- 
 ticated birds of pure black color that could be obtained, and by careful at- 
 tention to breeding since that time, he has succeeded in producing a male 
 bird of superlative beauty, of glossy black plumage, which, at two and a 
 lialf years old, weighed 34 lbs. alive ; and a female bird, two years old, 
 weighing 20 1 lbs. alive ; and a female bird, one year old, dressed ready for 
 the spit, 15i lbs. weight ; and as the stock lias been continuously improving 
 both in size, beauty of form, and plumage for years, it is impossible to 
 determine any limit. He has lately procured a pair of pure wild birds from 
 Canada for the purpose of infusing a new strain of wild blood into his stock 
 whenever he sees a chance to improve. The ordinary weight of male tur- 
 keys, two years old, as they are prepared for the market, will not exceed 15 
 lbs., and a female of 8 lbs. is accounted a very good one. 
 
 Just after the election of Mr. Buchanan, a cock turkey from Mr. Avery's 
 farm, that weighed 35 lbs., was bought at $1 a pound, and sent to the Pres- 
 ident to serve as one of the menibei'S of his (kitchen) cabinet ; and another 
 of still larger size was presented to President Lincoln. 
 
 Turkeys grow big in Illinois, according to a corresponclent who writes 
 from Stebbinsville, who says that 28 to 36 lbs. is not an uncommon weight 
 for a wild tui-key, and one old gobbler that he shot weighed 41 lbs., and spread 
 a tail over nine feet around the circle. He thinks some of the brag " im- 
 provers of the breed" had better send for some of the Illinois wild stock for 
 a cross upon the biggest in all Yankeedom. 
 
 B. F. Langworthy, of Alfred Center, objects to our directions to scald tur- 
 keys. He says : 
 
 " Scalded turkeys and chickens sell about two cents a poiind less in Bos- 
 ton than those picked dry — do not look as well, and certainly will not keep 
 
Seo. 9.] POULTRY. 139 
 
 as long, nor please the customer as much; while the advance price will 
 amply pay for the difference of time in dressing." 
 
 On the contrary, in New York, dry -picked poultry does not sell as well as 
 that which is scalded. 
 
 190. The Guinea-Fowl.— A union of two breeds of fowls is seen in some 
 measure united in the Guinea-fowl. It appears to have some of the charac- 
 teristics of tlie turkey and tlie pheasant. Its head is bare like the turkey ; 
 its body and plumage, and general form and appearance, somewhat like the 
 pheasant. The plumage of the most common sort in this country is of a 
 bluish ground, delicately spotted with white. The wing feathers are nearly 
 white. There are also fowls of this family entirely white. The greatest ob- 
 jection to the Guinea-fowl is the almost continual noise they make, which to 
 some is intolerable. It is about as musical as the sharj) squeak of a grind- 
 stone or old cart. The noise is, however, tolerated for their good qualities, 
 which are not a few. Their noise tends to keep oif hawks and other pests 
 of the poultry-yard. They are very ornamental, and give a place a lively, 
 pleasant appearance. Their flesh is pretty good for the table ; they are 
 good layers, and their eggs are large, and rich, and good for cookery, but 
 not so good as common liens' eggs for the table. 
 
 The young chicks are hardy, and very pretty. Tliere is no prettier sight 
 in connection with poultry than a fine Guinea-hen with her brood. The 
 hen sits a month, and nine eggs are enough for her to cover. The eggs may 
 be hatched under a common hen, but a good sitter must be selected, because 
 the time is longer than her own. Hard-boiled eggs chopped line, bread 
 crumbs, chopped meat or suet, are good food for young chicks. Some per- 
 sons procure maggots on purpose to feed chicks. Any kind of small worms 
 are devoured greedily by the young Guineas, which are real cormorants. 
 They will eat a dozen times a-day, and a full supply of food is one of the 
 great secrets of success in raising these as well as turkeys. 
 
 There is no domestic hen that gives such a bountiful sujjply of eggs all the 
 year round as a Guinea-hen ; consequently they are not good sitters, and 
 other hens have to be used when it is desired to increase the stock rapidly. 
 
 191. DuckSt — "Wherever suitable conveniences exist for keeping ducks, 
 they are not only ornamental to the farm, but profitable. Some of the vari- 
 eties are particularly ornamental — the little Wood duck the most so of all. 
 The Pintail duck is a very neat-looking bird. The Aylesbury sort are pure 
 white. The plumage of the drakes of some of the wild sorts which have 
 been domesticated, is very beautiful. A few ornamental ducks might be 
 kept upon almost every farm, and furnished with artificial water. We 
 would never raise but a single brood or two a year, except we had natural 
 water. A drake and pair of ducks, with their progeny, would cost but 
 little, and the amount of good they would do is incalculable. They are 
 great destroyers of slugs, snails, worms, and all larvfe ; and if you should 
 see an old duck pitch into a nest of young mice, you would learn what good 
 she can do in that way of ridding the farm of pests. 
 
140 DOMESTIC ANIMALS. ^ [Chap. I. 
 
 Ducks' eggs are not esteemed for the table, but are in cookery. The birds 
 when well fatted are alwaj's salable, or good for home consumption, and 
 pay as well for the corn they eat as anything in the poultry-yard. 
 
 In selecting a variety of ducks, the purposes for which they are to be bred 
 must be considered. If for ornament, select the prettiest. If for scaven- 
 gers, we would use the common gray duck and drake with green head. 
 
 The best white duck is the Aylesbury. It has yellow legs and feet and 
 flesh-colored bill. White ducks should never be kept except where water 
 and grass are both abundant. In the water or on a lawn they are pretty. 
 In a muddy yard they are not so. 
 
 There is a great variety of colors, biit we recommend you to confine yours 
 to a single color, whether white, black, gray, blue, or slate. Tiie feathers 
 of ducks arc as good as geese feathers, and some housewives pluck them in 
 the same way. 
 
 The duck sits thirty days ;_ and the hen should be confined an equal length 
 of time, where the ducklets can go out, and into natural or artificial water. 
 You can not feed them too much, and thej^ are no way dainty. Wlien 
 large enough, give them a wide range, bringing them home at night. The 
 best food for grown ducks is Indian corn, and the best ducks for the table 
 are domesticated wild ones, fatted on corn, or wild ones that have had a 
 full range in corn-fields. Beech-mast also makes the flesli of wild ducks 
 excellent. 
 
 192. GecsCi — As geese are generally kept by farmers, they are neither 
 profitable nor ornamental, but, on the contrary, an unmitigated nuisance, 
 befouling grass and water, door-yards and roadsides, and always poking 
 their heads throiigh holes into mischief. 
 
 Geese never sliould be kept upon or about any farm, except in a lot 
 appropriated to their particular use. A man who would turn out a flock of 
 geese upon the public highway to pirate their living, we would not trust 
 about our hen-roost of a dark night. 
 
 If geese are kept on a large scale, where water is good, and pastured like 
 any other stock, and flnally fatted for market, npon the same principle that 
 pigs are fed and fatted, we will insure the largest profit from the geese, 
 particularly if the best breeds are selected. 
 
 The Chinese or Hong-Kong geese and the Bremen geese are much larger 
 varieties than the breed common in this country. The Bremen geese have 
 pure white plumage, with clean yellow legs and bills. They attain to 
 great weight and age — twenty or thirty years, and as many pounds. The 
 flesh of a young, fat Bremen goose is esteemed above all the domesticated 
 tribe, and the feathers are salable at the very highest rates. 
 
 This breed is very prolific, laying twelve or fifteen eggs a year, and the 
 geese are good sitters and nurses. They are somewhat inclined to commence 
 laying too early in the season. To prevent this, shut the whole flock in a 
 dark room, about the twentieth of February, and feed and Avater once a day, 
 and allow them an hour out once a week to wash and have a run. In a few 
 
PLATE XT. 
 
 (Page 140.) 
 
 Here is another picture, more beautiful, if possible, than No. X, 
 It comprises some of the most ornamental, and some of the most 
 substantially useful birds that help to adorn our landscape. Many 
 who read this book will have no opportunity to see the graceful 
 swans that adorn the ponds in Central Park, New York. Let them 
 study these life-pictures. The peacock is more common, yet many 
 will get their first idea of its appearance from this picture. The 
 Hong-Kong goose is also rare, and so are some of the ducks, and in 
 many places the Guinea fowls are unknown. The turkey is com- 
 mon, still his likeness adds to the beauty of this scene. 
 
Sko. 9.] POULTEY. 141 
 
 days after they are let out of jail, the geese will make nests and begin their 
 work. 
 
 The eggs should be removed carefully every day, and deposited in cotton 
 in a dry, temperate room. Then when all your flock are ready to sit, which 
 they will be about the same day, have capacious nests filled with chaffed 
 straw, in which place twelve eggs for each goose. Where a good many 
 geese ai'e kept, it will pay to have an attendant, who should be careful to 
 allow only one sitter to leave the nest at one time. When one comes off, 
 shut tlie doors of the other boxes till she returns. Tliis will prevent con- 
 fusion of getting on the wrong nests. By attention, nearly all the goslings 
 of a large flock may be brought out in one day. 
 
 Goslings should be left in the nest twenty-four hours after they hatch, par- 
 ticularly if the weather is rough ; and as they are tender animals, they should 
 be carefully nursed for a month, allowing them a small pool of water to 
 bathe in, and plenty of green grass. The whole censer family belong to the 
 graziers. It is not necessary to feed goslings on much grain. 
 
 The white China goose is as pure white as the Brenaen, and should not 
 be mistaken for that — -tlie Bremen is preferable. 
 
 The Brent and Sandwich Island goose are both very small varieties, well 
 suited to situations on the salt water. 
 
 The Berwick goose is said to be a great weed-eater. 
 
 The Canadian or wild goose variety are quite ornamental ni>on a well- 
 watered location. This breed are greater worm and insect eaters tlian any 
 other variety of the rmscr family. The hens do not lay until two years old 
 in their domesticated state. 
 
 193. SwanSi — ^This variety of ornamental birds has been but little culti- 
 vated in this country. The greatest collection is at the New York Central 
 Park. This bird, of all others, puts the finishing stroke to the landscape 
 inclosing a still lake ai* pond. 
 
 There are wliite and black swans; both are magnificent, but the white 
 ones are the most showy on the water, where they float by the hour as still 
 as the water beneath them. Although domestic and tame, swans are apt to 
 go astray— to prevent which the last joint of one wing is skillfully dissec'el. 
 They are weed-feeders, but in places where they are generally kept they re- 
 quire feeding. Their feed is most abundant in foul, shallow water, and they 
 are often seen abroad at night in pursuit of food. Besides vegetables, they 
 eat minute insects found in the water, and probably fish-spawn. 
 
 Tlie hen birds are very curious about their nests, and will select them, if 
 possible, in some low bushy islet or headland, and under favorable circum- 
 stances will hatch eight or nine young cygnets — the name which young swans 
 are known by. The male birds allow no intruders about the nests or young. 
 A man would find a terrible antagonist if attacked by a swan while swimming. 
 
 The cygnets, -when fat, are esteemed a great delicacy upon the table, 
 stufted with the lean part of a round of beef, seasoned merely with cayenne 
 pepper and salt, and served with rich gravy and currant jelly. 
 
142 DOMESTIC ANIMALS. [Chap. I. 
 
 19i. The Pleasures of Poultry Raisingi — Besides the profit of a well-con- 
 ducted poultry business, there is an actual pleasure attending it over that 
 of keeping any other kind of domestic animals. Although the aim appears 
 always to be profit, we think if those who can keep poultry would look at it 
 in anotlier point of view, they-would be better satisfied if it did not always 
 ■pay. One advocates having a lawn and a flower garden attached to his 
 house, saying that it will give new life and beauty to all around, and 
 exert a beautiful and ennobling influence upon every member of the house- 
 hold, ami even visitors and passers-by will catch from it a sweet spirit of 
 love and good-will ; but the question with the calculating and careful farmer 
 is, Wdl it pay? So with every improvement iipon his house and around 
 his farm ; if he does not see a prospect ahead of a return in hard money for 
 his outlay of time and his work, the close-calculating man sets it down as 
 being a thing that won't pay, and consequently abandons it entirely. 
 
 It is just so in regard to poultry. Nothing is kept for ornament ; yet we 
 have already shown that several varieties are not only ornamental, but prof- 
 itable. But setting all other considerations aside, we would keep poultry 
 just for the pleasure attending the sight of the birds, particularly the dear 
 little chicks. Quoting from a sensible writer upon this subject, we adopt 
 his words : 
 
 " One of my neighbors says it will pay to keep just as many hens as will 
 get their living around the barn through the winter ; but he thinks it will not 
 pay to keep them if they have to be fed. I will own that I have a few notions 
 in common with all poultry fanciers ; I look somewhat to the profit, but make 
 it a point of secondary importance. Farmers, in general, who keep hens, are 
 more troubled with them than with any other one thing upon their farms, 
 considering the amount of work which they do. They are always scratch- 
 ing in the garden, digging up corn, or committing other depredations which 
 keep the farmer and his girls running to keep them out of mischief." 
 
 Of course they are, because they must scratch for a living. If you don't 
 want hens in mischief, feed them ; and at times when it is really necessary, 
 shut them in a poultry -yard and feed them, and adopt this simple rule for 
 feeding fowls, known to most housewives in the country who have charge 
 of the poultry, but it may be useful to amateurs, and as it is very short, we 
 print it. Here it is : Don't feed too much. That is all ; though we may 
 add that food should never be given to fowls unless they are hungry enough 
 to "run crazy" after it; and just as soon as they stop running crazy, you 
 stop throwing feed, and never — no, never — leave feed lying by your fowls 
 " for them to eat at leisure." This same rule does jiretty well for all other 
 domestic animals— children included. 
 
 If you don't feed your hens, and let them run in the garden, and they 
 scratch, don't swear. It is natural for them to scratch, and altliough they do 
 mischief, they also do good. Then, don't set the dog upon them ; it only 
 makes matters worse. There is a cure for your trouble : build a yard in 
 which to shut the hens when they are troublesome in the garden, and train 
 
Sec. 9.] POULTRY. " 143 
 
 them so that they will follow 3-ou like a dog, and then just at night take 
 them out on a walk and see what an immense number of hurtful insects 
 they will destroy. Your hens are the most profitable stock you have if you 
 treat them rightly. Don't swear at them ; keep your temper and build a 
 poultry -yard, but don't keep it always closed. It is better for you, and the 
 hens too, to let them run at large at all times when they are not liable to 
 do mischief. 
 
 We know of nothing around a country residence which gives the whole 
 such a delightful and pleasant aspect as all kinds of poultry. IIow Down- 
 ing loved them when he wrote : " "With proper conveniences for managino- 
 them, they are among the most agreeable, profitable, and useful objects in 
 country life. To children especially, fowls are objects of exceeding interest, 
 and form an almost necessary part of the means of developing the moral and 
 industrial energies of a country household." Oh, who would be without 
 them ? What country resident would neglect to have a noble collection of 
 hens, ducks, and turkeys — with right modes to keep and manage them — to 
 give a lively aspect to the scenery of his home, and impart beauty to the 
 whole place ? The merry cackle of the " old yellow hen" in the beautiful 
 spring-time ; the love and kind protection manifested for her brood of young, 
 and then to see them huddle together under her wing ! The shrill sound of 
 the cock as he proclaims the dawn of morning ! Oh, who would not keep 
 poultry, even if it didiit pay ? We would not keep 
 
 Shanghacs. — These Chinese monstrosities, on the contrary, we recommend 
 every one to get rid of as soon as possible. Tliey have had their day, and 
 in spite of their crowing, Barnum's showing, and their owners' blowing, they 
 are about blown out. It begins to be found out that 10 lbs. of meat can be 
 produced upon two pairs of legs just as cheaply, and of much better quality, 
 than upon one pair. No Shanghae, Cochin-China, Chittagong, or any other 
 imported breed of fowls has ever been, or will ever be, more esteemed on 
 all accounts than the old yellow-legged Dominique, a domestic, handsome, 
 and good-sized fowl. 
 
 A particular friend, candid and intelligent, said to us lately : " I have 
 tried almost all varieties of hens, and have settled upon the Black Spanish, 
 or crosses of them upon the old stock, such as I can pick up in market at 
 fifty cents a pair. I have also tried the experiment of keeping hens in the 
 city and the cost of eggs. I keep them in a house at the back of the yard, 
 letting them out for exercise just before roosting time, feeding them on 
 scraps from the kitchen, potatoes, moat, etc., and corn, and find my eggs 
 cost just three cents a dozen on an average through the year." 
 
 Another one, alluding to the fact of feeding poultry upon dead horses at a 
 great poultry establishment near Paris, said : "Tlie less hens I keep, I think 
 the better for me. I have fed dead horses and all sorts of food, but I can't 
 make it profitable to myself, or neiglibors either." Of course not. The last 
 •words tell the reason ; he lets them run at large, half fed. 
 
 195. Hen-Roosts and Poultry Vermin.— The poles or ladders should be 
 
144 .• DOMESTIC ANIMALS. [Chap. I. 
 
 such tliat they can be whitewashed thoroughly every June, and the whole 
 hen-liouse should undergo the same operation. Poultry that are lousy 
 should have wood-ashes to wallow in, and a few handfuls of flour of sulphur 
 stirred in among them makes them much more efficient. Good ashes will 
 efiect a cure, however. The fowls should have also dry earth or a dusty 
 road, for it Avill be found that they will usually alternate from one to the 
 other. Tiie best means for supplying lime to hens is to crack up fresh 
 oyster-shells with a hammer or a sledge. Nests never should be made or 
 allowed in the room where fowls roost. Keep it clean of all trash, straw, 
 or nest-boxes. Have them in another apartment. 
 
 • A poultry raiser asks us to tell him how to get rid of the great nui- 
 sance of lice upon poultry. He says lie feeds well, and gives the hens the 
 range of a grass lot, and has used turjientine sprinkled in the nests, and 
 applied blue vitriol mixed with grease to their bodies, and anointed them 
 with lamp oil, and yet they are infested. The breed is that called Black 
 Spanish, but that, we think, has nothing to do with the* difficulty, which is 
 so great that he is ready, if there is no remedy, to sacrifice his hens and buy 
 his eggs and chickens. In a case like this, we should endeavor to purify 
 the roost of everything that could give shelter to an insect, and perhaps 
 abandon the old roost altogether, and take care that the hens had a wallow- 
 ing-box, well supplied with dry wood-ashes, renewed by a little addition 
 every day or two, and feed sulphur occasionally in the food, and have a 
 constant supply of lime for the hens, and keep them fat ; and if all these 
 would not preserve them free of lice, we would abandon the business. 
 
 We have received several letters upon the important subject noticed under 
 this liead, giving "infallible" remedies to rid poultry of lice. The following 
 looks as if it might be a " dead shot :" 
 
 " I have had the care of a poultry-yard for a number of years. During 
 that time a continual war of extermination was waged, and many expedients 
 were resorted to, but never did anything, in a single instance, prove a safe- 
 guard until tobacco was tried. Tins weed, in my case, has never failed in 
 answering all practical purposes ; and this fact goes far to show that il> was 
 intended to act out higher and nobler ones than are commonly assigned to it. 
 The fine-cut is the best kind, and in using it spread it thickly over the sur- 
 face of the nests, scatter it upon the floor, and suspend large leaves about the 
 different parts of the house. This, used in connection with your directions, 
 will put the enemy to flight, and with it will disappear all the annoyances 
 your subscriber complains of.*' 
 
 Another letter says : " Sprinkle Scotch snuff plentifully on the fowls, so 
 it will reach the skin, and I'll warrant that the vermin Avill be more scarce 
 than even money in these ' tight times.' As you say, ' the roost must be 
 kept clean ;' also lime must be sprinkled on it to destroy the eflfect of the 
 ammonia arising from their manure." 
 
 Another says : "All the remedies named are not equal to onions, chopped 
 fine and mixed with their food every day for a week. This will exterminate 
 
Sec. 9.] POULTRY. 145 
 
 them entirely from the hens ; and if the roosts and pen be washed with onion 
 water, they will trouble your hens no more." 
 
 Another writer says, hens that roost npon sassafras jjoles are never 
 troubled with lice. 
 
 Now all these facts are worth knowing, as the vermin some years are un- 
 commonly numerous, and will eat more poultrj^ than the people will, unless 
 we can head them off with some of the remedies named. 
 
 196. Water your Door-¥ard Fowls. — Fill a bottle with water and place it 
 bottom up through a hole in a board, so that its nose shall be inserted into a 
 saucer, or any shallow, open vessel. As the fowls exhaust the water from 
 the shallow vessel, the bottle will pay out new supplies. 
 
 197. Mode of Killing Fowls. — A favorite mode of killing fowls with some 
 persons is sticking an awl in the neck. They say that the blood adds to the 
 good looks and value of all sorts of poultry. 
 
 198. Corii-Fe«l Geese — Value of Corn. — The following detail of an experi- 
 ment in feeding corn to geese, by Eufus Brown, of Chelsea, Orange County, 
 Vt., is well worthy the attention of all farmers, and goes to prove that corn 
 may be as proiitably fed to poultry as pigs. Mr. Brown writes : 
 
 " In answer to your question, ' Does anybody know anything about any- 
 thing V I answer. Yes. I know how much ten quarts of corn is worth. On 
 the 22d of November I shut up a flock of goslings, which, allowing the 
 usual shrinkage for dressing, would not have dressed over six pounds per 
 head, and would have been called scalawags, and sold accordingly at six to 
 seven cents per pound. Taking the maximum (seven cents), they would 
 have brought 42 cents each, dressed, at the time mentioned. They were put 
 in a warm, well-littered stable, allowing three to four square feet of room for 
 each, and kept constantly furnished with corn in the kernel and plenty of 
 water; this constituted their entire feed. They were thus kept till Dec. 9 ; 
 they had then consumed 10 quarts each ; when, after allowing them one day 
 of fasting, they were dressed according to the custom practiced from boyhood, 
 and which I respectfully recommend to others, viz. : after life had become 
 extinct they were carefully scalded by immersing head first in boiling water, 
 and allowed to remain about one minute, and then taken out head first and 
 allowed to drain, and then covered in a thick woolen blanket and allowed 
 to remain about five minutes; then carefully picked clean; then the intes- 
 tines were drawn, their legs tied together and laid upon their backs on 
 boards in a cool place, with their necks turned under and laid close to- 
 gether to keep the wings close to their sides. They were then considered 
 choice, and sold readily to the dealer at 10^ cents per lb., and averaged 
 10 lbs., amounting to $1 05 each. Deduct 42 cents, and this leaves 63 cents 
 for the 10 quarts of corn, the market-price of which, at the time of feeding, 
 was 75 cents a bushel. 
 
 199. Prices of Poultry. — At the time of the great " poultry show" at Bar- 
 num's Museum, in 1857, there was an auction sale, and the following prices 
 were realized, and although fancy birds brought fancy prices upon the more 
 
146 DOMESTIC ANIMALS. [Chap. I. 
 
 common sort there was a dead loss upon the cost in England of about an 
 average of 7 per cent. The following are decidedly among the fancies : 
 
 1 pair of white swans, $100 ; 1 white female swan, $50 ; 1 black female 
 swan, $60 ; 1 pair of black swans, $99 ; 1 pair of Japanese peacocks, $100 ; 
 1 pair of Barnacle geese, $40 ; 3 hoop-bill ducks, $75 ; 1 pair of golden 
 pheasants, $18 ; 4 pair of English pheasants, at $10, $11, and $15 per pair ; 
 3 male golden pheasants, at $5, $8 50, and $12 50 each ; 3 male silver 
 pheasants, at $10, $10 50, and $16 each; 1 pair of Call ducks, $15 ; 1 shel- 
 drake duck, $10 ; 3 spoon-bill ducks, $15 ; 1 pair of pin-tail ducks, $19 ; 
 1 pair of widgeon ducks, $12 ; 1 pair of widgeon ducks, $7 ; 3 widgeon 
 ducks, $9. 
 
 But the climax of fancy prices was reached in tlie sale of one pair of Man- 
 darin ducks for $150. This was a beautiful pair of very rare birds, and we 
 hope will remain rare — that is, that no more will ever be imported at that 
 price. It was said that they cost 75 guineas in England. Mr. Barnum 
 ofit'ered $35 advance upon the purchaser's bargain. They are about the size 
 of our common wood duck, and of just about equal beauty. It is certainly 
 somewhat extraordinary that, with money " tight" witli most people, any 
 one can find loose change enough to buy ducks at $150 a pair. 
 
 The sales of Shanghaes, and birds in tliat line, went off at what the owner 
 called " sickly prices." The following indicate the prevailing rates : 
 
 1 pair of gray Dorkings, $10 ; 3 gray Dorkings, $15 ; 6 Sebright bantams, 
 in two lots, $5 each ; 2 Sebright bantams, hens, $2 each ; 3 Golden bantams, 
 $1 67 each ; 3 English bantams, $1 25 each ; 3 English bantams, $2 37 
 each ; 4 Bramahpootras, 1 cock and 3 hens, $2 50 each ; 1 Poland hen, 
 $1 25 ; 1 Bolton Gray hen, $1 25 ; 1 pair of Golden Hamburghs, $2 25 ; 1 
 pair of black Spanish fowls, $10 ; 1 pair of black Spanish fowls, $5 60 ; 2 
 black Shanghae hens, $3. 
 
 Turkeys. — 1 pair of beautiful white turkeys, $5. 
 
 Geese. — 2 pair of Barnacle geese, $12 and $14 ; 2 pair of Egyptian geese, 
 $10 and $16. 
 
 200. Cousum})tioii of Poultry in New York. — To give some idea of the 
 quantity of poultry consumed in New York, we give the following extracts 
 from an article published about Christmas, 1857 : 
 
 " On Dec. 23d the American Express Company had tliree car-loads to 
 deliver from their depot in Duane Street, and about 11 tuns received from 
 Albany by the steamer. On Dec. 24th their receipts are stated in round 
 numbers at 40 tuns, making about 80 tuns received in two days by only one 
 transportation line. 
 
 " lliis Company's freight was nearly all from this State and Vermont, 
 with a little from western Pennsylvania, and a very small portion from 
 Ohio. A large quantity also came from the river counties by steamers and 
 barges on the Hudson, as the mildness of the winter has enabled them to 
 keep running. Western New York also sent in great quantities by the Erie 
 Railroad, while every New Jersey railroad and numerous wagons brought 
 
Seo. 9.] POULTRY. 147 
 
 vast quantities from that State, and some from Pennsylvania. A great deal 
 also came from Long Island, and considerable from Connecticut. 
 
 " The Messrs. Beatty, who make a business of feeding poultry, had on sale 
 at once by a commission-house, two days before Christmas, four tuns, all pre- 
 pared upon their own premises, and some of the turkeys were as handsome 
 birds as we ever saw, and sold for $3 and $3 50 each." 
 
 Mr. "White, of Chautauqua County, another great poultry feeder and packer, 
 had as much more. It is reall}^ a blessing, both to producer and consumer, 
 to have such men as those engaged in the business. Tlie fanner particu- 
 larly reaps a decided advantage, because such skillful poulterers can and do 
 give them more for their birds than they would get if killed b}' themselves 
 and sent to market in the rough condition that much of the poultry comes 
 into this market. For instance, we noticed, while one commission-house was 
 Belling well-prepared geese at 13 cents, a lot of geese, side by side of these, 
 were offered and refused at 65 cents, the fault being that they were not well 
 fatted, and were picked dry and roughly packed. 
 
 Another lot of well-fatted poultry, well packed, and received in good con- 
 dition from Vermont, the owner was fully convinced would have netted him 
 from one to two cents a pound more if he had followed the directions given 
 in No. 201, for killing and preparing poultry for market. 
 
 Relative to the effect of the weather upon the business of fatting poultry 
 and some other facts, we are indebted to the Messrs. Beatty for the follow- 
 ing. They say : 
 
 '• Owing to the lateness of the season, turkeys did not grow sufficiently to 
 fat well for the early market. It is unprofitable to feed these birds to fatten 
 them until they get their growth ; and in such warm weather as we have 
 had this season they do not fatten well, being inclined to wander. To fat 
 turkeys well and cheaply we must have cold weather. It is owing to this, 
 and having to feed a longer time, that we have not been as successful as last 
 year ; and it was so warm when our Cliristmas lot was dressed, consisting 
 of four tuns, that with all our appliances it required not only experienced 
 skill, but great care to preserve the whole in good order till i-eady for ship- 
 ment. The fault with that lot [alluding to one then unpacking] is, that the 
 birds were packed before all the animal heat was out of them. This must 
 be carefully guarded against in such weather as we have had this season. 
 
 " It has been very difficult for farmers to raise turkeys the past summer 
 on account of cold and wet, so that the stock in the country is probably not 
 more than half as large as it M'as last year, and that is the only reason that 
 the price, notwithstanding the money pressure, has kept up so well. We 
 have fed this year 1,000 turkej's in one lot together, having had in all 1,300, 
 and between 200 and 300 geese, with other poultry in proportion. We use, 
 and recommend to others, to feed good, sound Indian corn, and with it a lib- 
 eral supply of charcoal, which we consider indispensable. It promotes health 
 and improves the quality of the flesh." 
 
 Will all poultry-raisers remember this important fact, which alone is 
 
148 DOMESTIC ANIMALS. [Chap. 1. 
 
 worth more to them than all we shall ever receive for preparing this volume 
 of valuable information ? 
 
 201. Preparing Poultry for 3Iarkcti — "We have repeatedly published di- 
 rections for prejDaring poultry for market, and we can not make a more 
 valuable finish to this section upon poultry than by giving in brief such 
 directions as all must rigidly follow, who send such farm produce to the 
 great market of New York. The professional poultry feeders and packers 
 need no instructions, but many farmers do. Many of them have already 
 saved a handsome per-centage on the value of their poultry by giving it a 
 proper preparation, and others may. 
 
 As a preliminary rule, and make it unalterable, never kill a bird imless 
 it is fat. Never cut off the head of a turkej' or goose, but hang them by the 
 heels where they can not bruise themselves in the death-struggle, and stick 
 them with a small knife and bleed them to deatli. Ducks and common 
 fowls, if decapitated, should be held or tied and hung up to bleed to death. 
 Never kill your birds until quite fat ; yon will lose in price, in reputation, 
 and in weight. Never strangle them, so as to leave the blood in. The bo.-t 
 plan is to tie all kinds of birds to a line drawn from post to post or tree to 
 tree, and stick them just in the forward end of the neck, either with a broad- 
 bladed awl or a penknife. It is undoubtedly the best mode of killing. If 
 the head is cut oif, the skin recedes, and the neck-bone looks repulsive. To 
 obtain the best prices, the birds must look good as well as be good. 
 
 There is an exception, however, to the above recommendation about stick- 
 ing, for some dealers prefer the birds witli heads on, and some do not. In 
 some towns it is always customary to cut oif all the heads. "When this is to 
 be done, draw the skin back from the head as far as possible, so that when 
 you cut off the head, Avhich should be done close to it, there will be some 
 loose skin to draw over the end of the neck bone, where it should be tied 
 close. We doubt whether it is not worth while to pay freight upon heads. 
 It is worth while to pay freight on the intestines, because the meat can not 
 be kept sweet long after they are drawn and the air admitted inside of the 
 body. Therefore, never draw a bird. 
 
 It is a practice of some of the best poultrymen, while the birds are bleed- 
 ing, to hold them firmly by one hand, and pluck the feathers with the other, 
 as they come out easily while the fowls are warm. This treatment is only 
 for turkeys and connnon fowls. They are then ready for scalding. Take 
 hold of the legs, and plunge the body in (piick succession, two or three 
 times, in boiling water. This should be done in a warm room, and the birds 
 hung upon a line to pick clean, taking care not to tear the skin. Geese and 
 ducks are plunged two or three times in boiling water, drawing them out by 
 the head, and then wrapped in a woolen blanket to steam ten minutes. 
 Take them on your lap to pick. Do not scald the legs, nor heat the bodies 
 of birds against the sides of the kettle. After the birds are neatly picked, 
 they are put through the plumping pi-ocess. This gives them a finish, and 
 increases their value in market. 
 
Seo. 9.] POULTRY. 14:9 
 
 The rule for " phiinping" is to dip the birds about two seconds into water 
 nearly or quite boiling hot, and then at once into cold water about the same 
 length of time. Some think the hot plunge sufficient without the cold. Tiie 
 neatest poultry-dressers use both the hot and cold plunge. The poultry 
 should be entirely cold, but not frozen before being packed. If poultry 
 reaches market sound, without freezing, it will sell all the better. 
 
 After j^lumping, hang or lay the birds where they will dry, and then 
 remove tliem to the cooling-room, laying the bodies nicely arranged upon 
 clean boards in a cold room till perfectly cool, but not frozen, and then pack 
 in boxes, with clean rye straw, about 300 or 400 lbs. in a box, filled full ; 
 mark the contents on a paper inside, and on the lid outside, and direct it to 
 your commission-mercliant plainly, and send it by express, and one invoice 
 by mail, and place another in one of the boxes, if there is more than one, 
 and mark on that, ■invoice, and then it will be opened first, and the merchant 
 knows whence it comes, and what the consignment consists of. It is also a 
 good plan to mark the contents of each box outside, tlius : In box 
 
 1^0. 1—12 turkeys, 144 lbs. ; 20 geese, 160 lbs. ; 50 spring chickens, 125 lbs. 
 
 ]Vo. 2—100 fowls, 300 lbs. ; 24 ducks, 96 lbs. 
 
 This lot will pack in two square dry-goods boxes. If clean hand-threshed 
 rye straw can not be had, wheat or oat straw will answer, if clean and free 
 from dust. Place a layer of straw at the bottom of the box, then alternate 
 layers of poultry and straw — taking care to stow snugly, backs upward, 
 filling vacancies with straw, and filling the package so that the cover will 
 draw down snugly upon the contents. Common dry -goods boxes, holding 
 not over 300 lbs., are the best packages. 
 
 Never kill your birds on a damp day, nor pack them, if you can avoid it, 
 except in a clear, cold, dry atmosphere ; and try to avoid night-work, when 
 you are tired and your helj) sleepy, and all of you careless. 
 
 No matter how light your boxes are, they must look clean, or your poultry 
 will not sell at first prices. In packing, press the wings close, and press 
 the bird down hard on the breast, the legs extending back, and fill each 
 course full, and then lay on straw and another course of birds. Nail tight, 
 but don't let a nail project inward to tear the birds. 
 
 Give your name and residence in full on the bill in the box and on the 
 invoice by mail. Don't think because you know in what State you live, that 
 everybody else will know it if you name the town. 
 
 Never pack in barrels if you can get good dry-goods boxes, as the rolling 
 of barrels injures tlie poultry, where it is likely to be much handled, unless 
 very closely packed. Besides, it does not pack to as good advantage to the 
 shape of the birds as it does in boxes. Small lots may be packed in "shoe 
 or hat boxes,'" but they must be carefully hooped, and so should be all boxes. 
 Don't use a rough, black board for a cover; you had better spend an hour 
 to plane it. Don't acknowledge, by sending unplaned boards, that you 
 don't own a plane. It is bad economy to use heavy packages, or have any 
 waste room, because freight is charged by the pound, and for long distances 
 
150 DOMESTIC ANIMALS. [Cuap. I. 
 
 the express charges may amouiit to four or five cents a pound, and all the 
 weiglit of tlie box counts equally with the contents. 
 
 It is a practice Avith some — and a very foolish practice it is — to stuff fowls 
 just before they are killed, thinking to sell corn at the price of meat. Better 
 give no food for twenty-four hours previous to killing. Food in the crop is 
 liable to sour, and always injures the sale, for it looks to purchasers as though 
 there was a design to cheat. 
 
 You may pick turkeys and fowls dry if you will not tear the skin, and 
 tlien scald them afterward by dipping them suddenly in and out of boiling 
 water. Geese and ducks must always be scalded. Do not scald the legs too 
 much, whether you pick first or afterward. Be careful of that. Yon must 
 pick them clean, and the after-scalding makes them look plump and good. 
 Well-packed boxes of well prepared birds will keep sweet a long time in 
 cool weather, and may be transported by express from Ohio for three cents 
 a pound ; from Chicago and most of Illinois for five cents ; from Iowa for 
 six or six and a half cents, and arriving in good order, will be sold at good 
 prices, and your money remitted to you, less 10 per cent. Now, following 
 these directions, and getting these prices, if it is better for you Ohio, Indiana, 
 Illinois, Iowa, Wisconsin, and Michigan farmers to send j'our poultry East- 
 ward for sale, you know how to do it ; and if it opens to you a new and im- 
 proved market, it will be wortli more to you than tlie whole cost of this 
 volume upon every box of poultry sold. In fact, these directions, given in 
 part heretofore to the public, have been the means of saving great sums of 
 money to the poultry producei's. 
 
 After boxes are packed, if there is any chance of not getting them imme- 
 diately into market, or if a cliange in prices makes it desirable to hold back, 
 it will be a good plan to place them where the contents will freeze solid ; 
 then they will stand a long spell of warm weather, such as makes badly- 
 packed poultry slimy. If you could be sure of cold weather, so that the 
 birds would remain frozen, very little straw would be i-equisite in packing; 
 but as a general thing, a liberal allowance of straw will more than pay its 
 cost of transportation in keeping the birds in good order. 
 
 When packages are frozen before shipment, it will be well to advise con- 
 signees of the fact, as we have known a thaw to come on gradually, until 
 very warm, and have then seen packages opened in perfect order that were 
 frozen up two or three months before. In fact, we knew one such that got 
 mislaid and covered M-ith empty boxes in a cellar, that kept sweet till it was 
 accidentally discovered in May. 
 
 Water for scalding any kind of poultry should bo as near to the boiling 
 point as possible, without actually boilina:; the bird being held by the legs, 
 should be immersed and lifted up and down in the water three limes ; the 
 motion helps the hot water to penetrate the plumage and take proper effect 
 upon the skin. Continue to hold the bird by the legs with one hand wliile 
 plucking the feathers with the other without a moment's delay after taking 
 it out ; if skillfully handled in this way, the feathers and pin-feathers may all 
 
Seo. 9.] POULTRY. 151 
 
 be removed without breaking the skin. A torn or broken skin greatly 
 injures the appearance, and the price will be low in proportion. 
 
 Do not send the birds with tail and wing i'eatliers in, xmless it may be 
 occasionally in a very handsome turkey. 
 
 Geese always sell best the week before Christmas, and they should always 
 be stall-fed. Christmas jsrices are usually for well-fed geese, such as will 
 warrant their increased production, since it is contended by persons whose 
 opinion is entitled to great respect, that with proper care and skill, upon a 
 farm well fitted for the business, a tun of geese can be made at the same 
 cost as a tun of beef, leaving the feathers as an excess of profit. 
 
 Now let all who read, remember that common-sense attention to these 
 rules, in regard to preparing poultry, will often insure 25 per cent, higher 
 prices than poultry of the same value originally will bring, if slovenly dressed 
 and packed, and carelessly directed and stupidly forwarded, as often hap- 
 pens. To bring the highest market-prices, poultry must be good and well 
 handled. 
 
 202. Preparing Game for Market. — Wild turkeys, wild ducks, and the 
 smaller birds should be packed in the natural state. In cold weather they 
 may be packed snuglj^, backs up, with or without clean straw, taking care 
 to keep the piluraage as smooth as possible. If the weather becomes warm 
 during the transit, straw between the layers acts beneficially as an absorbent 
 of moisture. Birds should never be drawn, and if mutilated by gan-shot, 
 the market value will be much reduced. 
 
 Woodcock, quails, and other small birds are in cool weather sometimes 
 each wrapped in paper, and packed in dry sawdust. In hot weather they 
 may be packed without the paper in coarse sawdust and ice. They seldom 
 arrive in good order if more than twenty-fours on the way in hot weather. 
 
 In venison it is best to send only the hind part of the carcass, including, 
 say, two or three ribs with the saddle. The skin should be stripped from 
 the fore part and carefully wrapped about the saddle, thus keeping it clean 
 and in good order. 
 
 By the " game laws" of the State of New York, the killing of any wild 
 deer, partridge, quail, woodcock, or snipe during the months of February, 
 March, April, May, June, and July is prohibited under penalty of $25 for 
 each offense. 
 
 Common carriers or their agents may, in the discharge of their legitimate 
 business, transport deer or game during the inhibited period without viola- 
 tion of the law ; and commission merchants and dealers are protected if they 
 can show, to the satisfaction of the court, that the game in question came 
 from any other State, or foreign country, or that it was not killed during the 
 inhibited period. 
 
 The taking of speckled or brook trout is prohibited between the 15th day 
 of September and the 15th day of February, under the same penalties and 
 provisions as in the case of game; but the Cayuga, Seneca, Crooked, and 
 Otsego lakes are excepted from this prohibition. 
 
152 DOMESTIC ANIMALS. [Chap. I. 
 
 203. Eggs — How to Produce them in Wiuteri — Pork scraps or greaves, fed 
 iu moderate quautitj, are found to liave a marvelous eflfect in the j)roduc- 
 tioii of winter eggs. Give hens also sand, and gravel, and lime, and see 
 that they have water. Egg-shells should never be fed whole, but they may 
 be maslied up fine and mixed with feed to good advantage. Some bens 
 are much more productive of eggs than others. Eighty hens, belonging to 
 Capt. Thos. A. Norton, of Yarmouth, Mass., have laid during one year 637 
 dozen eggs. At the average price of eggs, that would be about $1 25 for 
 each hen. 
 
 20i. How to Detect the Sex in Domestic Fowls' Eggs. — A person who has 
 paid attention to the subject declares that he can tell the sex of eggs in the 
 following manner. He says : 
 
 " I began examining; eo-o^s classin<r them according to the difference I 
 found in the formation of each, marking each class, and putting them under 
 hens as soon as opportunity offered ; when, in less than twelve mouths, I 
 was fully convinced that I had discovered either a method or the method 
 of foretelling the sex in the egg, which was proved by ocular demonstration 
 in the chickens ])roduced. 
 
 " At the large end of the egg there is a circular space or cavity containing 
 air, Mdiich country folks call the ' crown' of the egg ; its proper name I know 
 not. When you examine the egg, hold it, the large end uppermost, before 
 a candle or gaslight, and in looking through it you will observe a dark cir- 
 cular mark, something similar to the moon when partially eclipsed. This 
 dark circular mark is the space filled with air or ' the crown' of the egg, and 
 when in the center it indicates that the egg will produce a male. 
 
 " My method of examining the egg is as follows : I make use of the thumb 
 and forefinger of my left hand as two points, placing the small end of the 
 egg on my thumb, my forefinger covering the large end of it, and as near 
 the center of the end as possible. I tlien place the egg in this position 
 steadily before a candle and gently turn it around ; if the crown be in the 
 center it will be scarcel}^ visible, the forefinger nearly covering it. On the 
 contrary, Tf the crown be on the side you will onl}^ see it on one side of the 
 egg as you turn it around." There is a little contrivance, called the ooni- 
 Bcope, to detect bad eggs. The egg is placed in a hole of a box, and the 
 light reflects on a mirror inside and tells unerringly the true condition of 
 the egg. A little practice enables any one to discover whether eggs are 
 fresh or not. 
 
 205. Vitality of Eggs Affected by Transportation. — It has been stated upon 
 good authority that railroad transportation injures the vitality of eggs. That 
 pack them as you will, if they are carried any considerable distance, say 100 
 miles, the continued shaking will shake the life out of them. Traveling on 
 the Harlem Eoad one day, we met an acquaintance carefully carrying a 
 small basket in his hands. "We remarked that he handled his basket as 
 carefully as though he was carrying eggs. "And so I am," he replied ; " I am 
 taking them about a hundred miles to a friend, and will insure every one to 
 
Sec. 9.] POULTRY. 153 
 
 hatch out a chicken, so far as transportation may afiect them. But I learned 
 this by experience. I had a lot sent up tlic road only twenty -five miles, in 
 the ordinary way, and did not get one chicken to fifty eggs, while out of 
 another lot, carried in my hands in this way, not one missed." He said : " As 
 a general rule, it may be set down for fact, that eggs that have been trans- 
 ported by railroad will never bring forth chickens." This is important in- 
 formation, and should be well remembered. So, too, let it be remembered 
 that eggs intended for incubation can not be too carefully handled in taking 
 them from the nests and keeping them about the house till the hen is ready 
 to take them in charge. 
 
 200. Selling Eggs by Weight. — We have frequently recommended that eggs 
 should always be sold by weight, instead of by count. "We recommended it 
 because we thought it more fair both for producer and consumer ; but really, 
 with the present system of trade, we do not see much to encourage the change, 
 and nothing to encourage the production of eggs of a large size while small 
 ones sell at the same price as the largest, per dozen or hundred, and consumers 
 are guilty of the great folly of making no distinction. Do they ever think of 
 the difi'erence in weight? Do they know how many eggs there should be 
 to the pound ? The largest-sized eggs of the common barn-door fowl weigh 
 three ounces each, but the average is about .ten to the pound. "We inquired 
 once of a retail groceryman, " Have you any fresh eggs ?" " Yes ; there is a 
 lot of fine ones, just in, all of this State, in good order." " At what price ?" 
 " Twelve cents a dozen." " May I pick them out at that ?" " Oh, yes, cer- 
 tainly ; they are all alike, good." Of this we had no doubt as to the good ; 
 but that they were otherwise alike, we intended to prove that he was mis- 
 taken. So we picked out a dozen and laid them in the scales, with a 1| lb. 
 weight opposite, thinking they were just the size that takes eight to the 
 pound, for that is just what good, fair-sized hen's-eggs always will average. 
 These were a little heavier, and we added two more, and balanced two 
 pounds — seven eggs to the pound. Then we picked out of the same cask 
 thirteen more, and these weighed just one pound, not quite 100 per cent, 
 difference whether you buy large or small eggs. Now, if farmers and fools 
 meet, is it right that the one should take advantage of the other in this way ? 
 or is it right that one man should keep a brood of small hens, the keeping 
 of which costs less than half that of larger ones, and get the same price for 
 the eggs ? If honesty is the best policy in all of our dealings, then it is the 
 best policy to sell eggs by the pound, and not by the dozen. 
 
 207. To Preserve Eggs. — We can not vouch for the following. If it is as 
 stated, it is much more simple and convenient than packing in lime, salt, 
 etc. "Provide a small cupboard, safe, or tier of shelves; bore these shelves 
 full of holes one and a quarter inches in diameter, and place the eggs in 
 them, point downward. They will keep sound for several months. Other 
 modes, such as packing in salt, etc., depend for their success simply on 
 placing the points down ; the shelves are more convenient and accessible." 
 
 208. Eggs Consumed in England. — In the statistics of British commerce, 
 
154 DOMESTIC ANIMALS. [Chap. I. 
 
 the home production is put down at 75,000 tuns annually, which are vaUied 
 at $16,000,000. The importation of eggs for eight years, ending with 18-17, 
 ranged from 96,000,000 in 1840, to 77,500,000 in 1817, and the importa- 
 tions of the succeeding years are given in the following table : 
 
 Number. 
 
 1848 .^ 88,012,585 
 
 1849 97,745,849 
 
 1850 105,689,060 
 
 1851 115,526,240 
 
 Number. 
 
 1852 108,281,233 
 
 1853 123,450,678 
 
 1854 121,966,226 
 
 1855 100,005,200 
 
 The first six months of 1856, 68,062,600. This was nearly 11,000,000 in 
 excess of the number received in the first six months of 1855, l)ut not so 
 large as in 1854. The imports of eggs in 1854 were, from 
 
 Number. Number. 
 
 Belgium 10,415,517 Spain 5,983,161 
 
 France 104,126,918 Channel Islands 794,400 
 
 Portugal 419,866 Other parts 226,424 
 
 Up to the 8th of August, 1854, eggs were entered by number, but since 
 that they have been entered by cubic feet, internal measurement. In order 
 to reduce the whole to a uniform standard, 200 eggs are estimated to be 
 packed in one cubic foot. The duty charged is 8d. per cubic foot of eggs 
 from foreign countries, and hajf that duty from British possessions. In 
 the metropolis the egg trade is a very important branch of commerce, giving 
 employment to sixty egg merchants and salesmen on a large scale, exclusive 
 of tlie number of shoj^keepers who sell eggs. These salesmen distribute the 
 boxes of eggs over the various consuming localities in light carts. 
 
 The principal importation is from France and Belgium. Quantities of 
 Portuguese eggs are occasionally imported into England by the Peninsular 
 Mail steamers. The eggs of the Spanish fowls being very large, are much 
 esteemed, and valued at Id. to l^d. each. Spain imports a certain quantity 
 from the French province of Oran, in Algeria. The eggs of the Bedouiu 
 fowls are sold in the European markets at 5d. to 6d. the dozen. 
 
 The supplies of eggs sent from Ireland to Liverpool, and thence into the 
 manufacturing districts, are enormous, frequently exceeding 1,000,000 a 
 day. They are packed with straw in crates, boxes, or hampers. The crates 
 contain from 6,000 to 8,000 eggs, the boxes about 3,500. Sometimes large 
 boxes contain 13,000 or more eggs. 
 
 Ill 1852, 9,260 tuns of Irish eggs were imported into Liverpool, and it is 
 estimated that that is not more than one fifth of the product of that island. 
 
 209. Eggs in FrancCo — M. Legrand, a French statistical writer, estimated 
 the consumption of eggs in 1835 in Paris at 138 per head of all the inhab- 
 itants, and in the provinces at double that ratio. " The consumption of 
 eggs for the whole kingdom," he observes, "is estimated at 7,231,160,000; 
 add to this number those exported and those necessary for reproduction, and 
 it will result that 7,380,925,000 were laid in France during the year 1835." 
 
 Since that time the production has largely increased. M. Armand IIus- 
 son, in his interesting book on the " Consommation" of Paris, just pub- 
 
Number. Av, pr. per 1,000. 
 
 1851 129,732,299 42f. 69 centimes. 
 
 1S.52 160,000,000 41f. 35 centimes. 
 
 1S63 175,000,000 
 
 Seo. 9.] POULTRY. 155 
 
 lished, returns the number of eggs consumed in the French metropolis at 
 175,000,000, or 175 to each head of the population, worth about $1 35. 
 The value of the eggs consumed in Paris one year would be also about 
 £300,000 ; but probably three quarters of a niilliou sterling would be a 
 nearer estimate of the poultry and eggs consumed annually in Paris. 
 
 The consumption and prices may be judged of from the following figures: 
 
 Number. Av.pr. per 1,000. 
 
 1847 120,940,724 57 francs. 
 
 1848 106,747,222 48f. 40 centimes. 
 
 1849 113,587,732 46f. 70 centimes. 
 
 1850 124,597,150 43f. 93 centimes. 
 
 A number of GalignanPs Messenrjer says that, in 1815, the number of 
 eggs exported from France was 1,700,000 ; in 1816 it rose to 8,000,000. 
 Six years later, in 1822, the number was 55,000,000 ; and 99,500,000 in 
 1824. In 1830 the number declined to 55,000,000 ; then gradually increased 
 until 1845, when it was 88,200,000, for which an export duty of 114,000 
 francs was paid. ]S"early all these eggs go to England. The yearly consump- 
 tion of eggs in Paris is estimated at 165,000,000, and the total consumption 
 of all France at 9,000,000,000 ; so that, reckoning eggs at a sou, this single 
 article represents 465,000,000 francs. 
 
 210. The Egg Trade in this Country. — Steamboats and railways have done 
 much to increase and improve the trade in poultry and eggs, in butter and 
 milk, as well as in carcass meat and fish of all kinds, for the supply of large 
 cities and dense populations in Europe and America, situate far from the 
 chief seats of production or fishing. The poultry dealers of New York 
 made their appearance on the shores of the great American lakes within a 
 few days after the regular trains were in motion on the Erie Kailroad. 
 Poultry and eggs were swept away by them at an advance of 25 to 30 per 
 cent, on their ordinary value, and a decided stimulus has been given to the 
 production of poultry and eggs. 
 
 Tlie British American provinces are now supplying tlie United States 
 towns with eggs, which are imported duty free under the Reciprocity Treaty. 
 1,260 dozen eggs from Nova Scotia were entered very recently at the Cus- 
 tom-house, Boston, in one day. In the season of 1852, about 8,000 barrels 
 of eggs, containing 84 dozen per barrel, were shipped from the port of Mon- 
 treal to the United States, and sold at about 16c. tlie dozen. 
 
 One merchant in Marion County, Ohio, has shipped in one season 124,950 
 dozen of eggs, in 1,785 barrels, costing, at 7 cents a dozen, $8,746 50. 
 
 211. Packing Eggs for Market. — There is probably in no one article of the 
 same relative value so much depreciation and loss from injudicious manage- 
 ment and unskillful packing as in eggs. This is best illustrated in the 
 Western trade, especially during the warm season, when the average price 
 of Western eggs rules, say, three to five cents per dozen below tliose from this 
 State ; but at the same time we have some Western marks that bring nearly 
 or quite as much as the best State, showing conclusively that it is entirely 
 practicable to forward them in prime order from the far West. If the fol- 
 
156 DOMESTIC ANIMALS. [Chap. I. 
 
 lowing directions are intelligently carried out, there will be very little doubt 
 of success. 
 
 Be sure (esjjecially in the summer season) that your eggs are not only 
 sound, but recently laid. Eggs may be "candled" or examined by the 
 " ooniscope," and repacked at the AVest ; but if they are stale, though still 
 apparently sound, they will be sure to reach this market in bad order, or 
 will so rapidly change, on being opened, that dealers will be sure to lose 
 money on them. The motion of the cars over such long distances so mud- 
 dles all eggs, not entirely fresh, that they appear cloudy and stale, and will 
 soon spoil, if indeed they are not already unsalable. 
 
 Use very strong, stift" barrels, put a little soft straw or hay evenly over 
 the bottom with a stiff paper on the top of the sti-aw, then oats or cut straw, 
 say, two to three Inches, then a layer of eggs, laid snugly together upon the 
 sides, evenly imbedded in the oats, with the ends toward but about one inch 
 from the staves. Cover the layer with oats and shake down gently but thor- 
 oughly, leaving, say, one inch of oats upon the layer of eggs ; thus continue 
 shaking down thoroughly with each layer until the barrel is full. Place 
 about three inches of oats over the last layer, then a stiff paper and a 
 little soft hay or straw next the head, filling so high that the head must be 
 pressed to its place by a lever or other mechanical power, that the contents 
 may be held so firmly that tliey can never shift or loosen in the barrels. In 
 the winter, to guard against frost, use more packing, leaving the eggs farther 
 from the sides of the barrels. Use clean, bright oats; they are salable at 
 all seasons, though of late merchants seem to prefer cut straw. Mark plainly 
 the number of dozen and the qnautity of oats in each barrel. Be very par- 
 ticular to have the count riglit. A good reputation for accuracy is very 
 valuable. 
 
 One person says: "I use a board some six or eight inches square, with a 
 loop or staple in the center for pressing each layer of oats firmly down. 
 There will be something gained by lifting and dropping the barrel square on 
 the end, but not by shaking, as it disturbs the layers. When it gets too 
 heavy to lift, use a board three fourths as large as the head, and get on it, 
 increasing your weight with a spring, and on the head driving it in. The 
 secret lies all in packing the oats. Oats are better worth sending to market 
 than hay, and just as safe. I have sent ten barrels at a time without losing 
 a single egg. You must pack tight. Remember that." 
 
PLATE XTT. 
 
 (Page 157) 
 
 This picture is intended to be bolli suggestive and instructive. 
 First, it suggests to any one who may chance to open the book at 
 tliis page, the study of bee-culture, and tlie propriety of adding this 
 kind of farm-stock to tlie larger animals already owned. It is placed 
 here for that purpose. It is to attract attention to the subject, and 
 induce readers to turn over a few pages and read just enough to 
 whet the appetite for more knowledge. It is instructive, as it 
 shows the different form and size of the three classes of bees, so 
 that any one, after studying this picture, need make no mistake. 
 It shows how a swarm issues from a hive and settles upon a limb 
 of a neighljoring tree, and how fearlessly the bee-keeper ajoproaches 
 the swarm and puts it in the hive, which he will cover up and carry 
 to its place on the stand. The author has frequently climbed to the 
 top of a tree as high as this appears, and sawed off the limb upon 
 which the swarm had alighted, and brought it down a long ladder 
 to the hive, with no protection to face or hands. This picture, 
 therefore, is intended to induce you to keep bees, and as a hint that 
 you can easily learn all the art of bee-keeping. 
 
TasB AiPiMnr. 'tetiB jB}G«''-K'(<iaiP-iBm at bus ^Toiix. 
 
CHAPTER II. 
 SMALL ANIMALS AND INSECTS. 
 
 SECTION X.-BEES, AND THE PROFITABLE PRODUCTION OF HONEY. 
 
 TJR oj^ening chapter was devoted to a general sur- 
 vey of farm-stock. This will be devoted to oLserv- 
 ations upon bees, birds, bugs, insects, and worms ; 
 gs, cats, rabbits, rats, mice, moles ; camels as beasts 
 burden ; goats of Cashmere, their value as farm- 
 stock ; fish-breeding, for domestic use or market ; ahi- 
 yielding fur, and alpacas, and other small stock of the 
 
 the leading article of this chapter we shall notice what 
 very appropriately be ranked as profitable stock upon 
 a farm, for the product of the hive often aifords a consid- 
 erable income, and it is nearly all clear profit. Birds, 
 although they do not produce a direct income, are among 
 the greatest helps to that end, for they are great destroyers 
 of those pests, the bugs, insects, and worms, which we shall also introduce 
 into this chapter. Dogs, as an adjunct of the farm, and when only kept in 
 very limited numbers, are not, perliaps, unprofitable stock ; but as they at 
 present exist, they are pests of the very worst kinds. Cats are a necessity, 
 for without them we should be over-run with rats and mice, and so we give 
 each a small space in this chapter. Eabbits, too, tliough small, must have a 
 place ; and camels, though large enough to fill a chapter, like the rabbit, 
 must be contented with a paragraph. And the Cashmere goat, the only one 
 of any value to farmers, is as yet so little diffused among them, that we can 
 only aftbrd space to give it a passing notice ; and the alpaca, an ecpially im- 
 portant domestic animal, we must treat in the sauae short-hand way. 
 
 Fish-breeding is of vast importance to every farmer who has the facility 
 for making a fish-pond, and therefore we have added it to this second chapter 
 of animals, domestic or wild, upon the farm. And finally, we add fur ani- 
 mals, merely to call the attention of those who own suitable locations, to the 
 fact that it is possible that such animals may be bred for their skins, to say 
 nothing of the value of their flesh. 
 
 So much by way of introduction. Now let us take up our subjects, item 
 by item, each under its appropriate head. 
 
 212. Bees. — History of their Introduction. — It is not quite certain whether 
 the honey-bee is indigenous to America or not. Our opinion is that it is. 
 
158 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 because several varieties now exist upon tlie continent, and certainly those 
 in Central America appear to be natives, so far as it is possible to trace their 
 history. It is possible that the early immigrants, not finding bees in the 
 districts first occupied by them, either in New England or Virginia, did 
 import them, though this supposition appears doubtful when we consider 
 thu length of v'oyages in that age of ocean navigation. And it is still further 
 against the theory of importation, to know that as early as 164S — forty years 
 only after Captain John Smith's advent — George Pelton, of Virginia, was in 
 possession of a good stock of honey-bees ; and they were noticed by Beverly 
 as a common thing among the Virginia planters previous to 1720. 
 
 In 1755, beeswax was an article of export from Savannah, Georgia. It is 
 impossible to state the quantity, because it is combined with myrtle-berry 
 wax, and both are set down at 969 lbs. Five years later the quantity of both 
 is given at 3,910 lbs., and in 1770 at 4,058 lbs. 
 
 In 176T, the export tables show 35 barrels of beeswax, sent from the port 
 of Philadelphia ; and only four years later the quantity is given as 29,261 lbs. 
 
 The history of Cuba credits Florida with bees imported from there in 1764. 
 
 The above facts prove that if there were no honey-bees in this part of the 
 continent when our forefathers came to it, their importations were very suc- 
 cessful, and the original stock was widely disseminated, and multiplied with 
 great rapidity, for the census of 1850 gives the annual product of honey and 
 wax at 1'4,853,790 lbs ; and that at a time when the bee-moth epidemic had 
 greatly lessened the stock in the country, and consequently the production 
 was not as great as it had been. 
 
 It is a fact, too, that the immigrants of the Northwestern Territory found 
 wild bees scattered all through the forests of what is now Ohio, Indiana, and 
 Illinois. 
 
 As an offset to this, it is a fact that the first American settlers of California 
 found no honey-bees in that State, notwithstanding the fact of its early occu- 
 pancy by the Spanish ; and the first bees ever seen in that State have been 
 carried there from New York, by sea, since 1850, and already the stock of 
 bees has multiplied to an extent which would populate the State to as great or 
 greater extent than the Atlantic States have been with both wild and domes- 
 tic stocks, in a far less time than has elapsed since the landing at Jamestown 
 or Plymouth rock, of those who may have introduced the bee from Eui-ope. 
 
 Bee-culture in California has already assumed such an importance that 
 associations of apiarists have been formed there, and the exhibition of bees is 
 quite a feature at the State fair. Bees have become so numerous in the 
 neighborhood of Sacramento, that they have been charged with extensive 
 depredations upon the vineyards, by sucking the sweets out of the ripe 
 grapes. Mr. Harbison, a large bee-keeper, who went from Pennsylvania 
 with a large shipment of them, two or three years ago, however, denies the 
 charge of bees injuring the fruit, and asserts that he has proved by actual 
 experiment that they will only attack the grapes after the skin has burst by 
 the pressure of the interior growth. Still, tiiere are many persons who are 
 
Sko. 10.] BEES, AND THE PROFITABLE PRODUCTION OF HONEY. 159 
 
 deeply interested in grape-growing in that State, who think this business 
 and bee-keeping never can flourish together. It is a matter that will prob- 
 ably be investigated, since it involves two so great interests, particularly in 
 California, where both branches flourish in so remarkable a degree of health- 
 iness. Certainly, in no part of the United States has bee-keeping given such 
 a promise of success. 
 
 Bees, although they appear to thrive best, or at least with but little care, 
 in warm latitudes, are not confined to those regions. An article now before 
 us gives ail account of the successful introduction of bees into Aroostook 
 County, Maine, where the thermometer sometimes freezes, and afterward 
 the discovery of a wild swarm in a hollow tree, which was removed to a 
 hive and wintered in a dark, dry cellar, where they consumed very little 
 honey. Tiiis is a very good way to winter bees in all cold regions ; for one 
 of the greatest difficulties attending bee-culture in the most northern local- 
 ities where they are found, is winter killing, not by freezing up in the hive, 
 though that sometimes occurs, but by the bees being aroused from tiicir 
 torpid state by a few sunny days, till they come out of the hive and are 
 overcome by cold before they can return again, and thus perish. We have 
 sometimes lost great quantities in this way, no farther north than hit. 41^. 
 
 Notwithstanding bees appear to possess a considerable degree of reason, 
 and the power of ratiocination (a power that many men do not possess), 
 they are, like men and Avomen, very apt to be caught by outside appear- 
 ances, and venture forth from their warm homes upon sunny wings, to meet 
 the chilling blast of the outside world, and perish. 
 
 Certainl}', many acts of the honey-bee seem to be results of a reasoning 
 faculty ; or is it that undefined something tliat mankind call instinct ? It 
 is indeed wonderful that so tiny an insect should possess a faculty scarcely 
 possessed by man, of constructing its domicile, or rather store-house, so as 
 not to waste an iota of material or space ; for that is a fact, in relation to 
 the honey-bee's comb. And all their interior household arrangements, the 
 order of their work, family government, and perfect order and harmony, are 
 such as should make mankind blush at their own inefficiency. Many of 
 them should blush to think such an insect is so much more industrious and 
 frugal than themselves, and so much more careful to lay up winter stores. 
 
 One of the marks of reason, judgment, or instinct in the bee is manifested 
 in their never leaving the hive, although ready to swarm, in a stormy day, 
 nor when a storm or very high wind is approaching, which would be likely 
 to blow away one portion of the swarm from the other. 
 
 "When the swarm does come forth it seems to be all by a given signal, and 
 the movement is sudden and simultaneous, guided by the call of their queen. 
 If by any accident or mistake the queen gets separated, or fails to cluster 
 with the swarm, it is idle to try to hive them. They will not take a new 
 abode without a queen. Is it reason that teaches them that they must re- 
 turn to the old hive, M'here they can make a new queen out of the young 
 larvae in the cells of the old brood-comb ? 
 
160 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 213. Bee-HiveSi — The best hive is one with movable supports for each 
 sheet of comb. Although hives of this kind may have been patented, the 
 patent is not good for anything, nor should it bar any one from the use of 
 sucli a hive, because the invention is not new. Bevan, an English writer 
 upon bees, described such a hive many years ago, as in use by him, and 
 recommended it to others. More tlian twenty years ago, I described a hive 
 for movable frames to sustain the separate sheets of comb, in the Alhany 
 Cultivator, and although the plan might have been patentable, it was dis- 
 tinctly stated that it was not, nor would be j^atented, and any one who liked 
 it was recommended to use it. The form of the hive there recommended 
 was to hang the frames by hook-and-eye hinges to the back of the hive, so 
 that all would swing like the leaves of a book standing on its end. The 
 front, or cover to the edge of the leaves, being opened, by turning it around 
 to the left hand, leaf after leaf could be swung around to the right, and a 
 sheet of comb cut out of any one, or the frame could be lifted off its hinges 
 and taken away, and a new one put in its place. We thought the plan a 
 more convenient one than lifting the frames out at the top of tlie hive. 
 
 There is an objection to all movable frame hives, that they furnish har- 
 boring-places for moths. They also, on the other hand, aflbrd facilities for 
 searching after them, and removing any infested comb. 
 
 Bees are like any other wild insect or animal that has been domesticated. 
 By good treatment they can be made very domestic, so that their keeper can 
 liandlc them about as easily as any other pets. 
 
 The next best form of hive is a square box, madg of planed boards one- 
 and-a-ha.i or full one-and-a-quarter incli stuff, well seasoned, and tongned, 
 and grooved, and firmly nailed together, so as to be water-tight, and nearly 
 air-tight, and well painted. A box fifteen inches deep, and twelve inches 
 across each way, contains 2, ICO cubic inclies — ten in excess of a bushel. 
 Tills is a good size and form for a hive. It will add much to the conveni- 
 ence of the liive to insert a jiane of glass in the side opposite to the oj^en- 
 ings where the bees enter, which should be six three-eighth-inch holes, an 
 inch above the bottom. The glass should have a tight-fitting shutter ; and 
 the bottom shoidd be screwed on, or hinged and fastened with a hook so 
 that it could be opened. If it is screwed on, make an opening two inches 
 across in the center of the bottom board, with a close-fitting shutter that you 
 can take out occasionally to allow the bees to sweep out their room. Open 
 this only in the morning, and close it before niglit. There will tlien be no 
 entrance for the moth except through the bee holes, and these the sentinels 
 will guard. Bore four inch holes in the top, and fit corks in tliom. Plave 
 a cap fitted on top to cover four boxes, five or six inches square, made with 
 one glass side. When the lower part is filled, wiiich you can tell by observ- 
 ation at the glass in the back, or by weighing, tlien open the top holes, and 
 put on the boxes, open side down, and shut the cap over them, and the bees 
 will soon find that they have extra store-room, and go to work and fill it 
 with new comb, and fresh honey, free of bce-brend or brood-comb. As soon 
 
Sec. 10.] BEES, AND THE PROFITABLE PRODDCTIOX OF IIOXEY. 161 
 
 as a box is full, take it off, and put an empty one in its place. A stock of fifty- 
 swarms in the spring will produce two thousand pounds of surplus honey, 
 and increase to a hundred swarms in the autumn. Counting all labor be- 
 stowed in the care of a stock of bees, and all expense of hives, etc., and the 
 cost of honey is estimated at only three to six cents a pound ; var^'ing with 
 locations, and favorable or unfavorable seasons. But if it always costs ten 
 cents a jiound, the bee-keeper would find sale for it at a profit. 
 
 214. Straw HivcSi — There are a few bee-keepers who still adhere to the 
 opinion that sti-aw hives are the best, that can be used. We can not think 
 so. Their greatest advantage is, that they maintain a more even tempera- 
 ture than board hives, and are inexpensive. They can be manufactured by 
 the winter fireside, and packed away for future use in a small space, one 
 within another. "When wanted for use, a couple of cross-sticks must be put 
 in to support the comb, as the hive is in the shape of an inverted bowl, and 
 not as good to support comb as a straight-sided box. It is a good plan, 
 however, to use the supports in all hives. They should be so arranged that 
 they can be easily taken out, as it would greatly facilitate the removal of 
 comb. If straw hives are used, they should be made to hold a bushel, of 
 clean rye straw, tied very tightlj'- together, so as to make the walls full an 
 inch and a half thick, and smooth outside and in. Never use them after tliey 
 get old, and never place them where they will get wet. If kept dry, the 
 bees winter in straw hives better than board ones. 
 
 It has been recommended to make cases for board hives, to set over them 
 in winter as protection from the changes in the weather. If this is done, the 
 cases should be taken off as soon as possible in the spring to prevent moths 
 making harbors in them. 
 
 215. Patent Hives. — "We have never seen a patent for a bee-hive, nor " bee- 
 palace," that we would give a dime for. They are no better than any handy 
 man with tools can make himself. As to " bee-palaces," where bees are to 
 live in community, the thing is preposterous. It is founded upon wrong 
 principles. 
 
 Bee-houses, where collections of swarms in separate hives are' to be kept, 
 we have tried as well as the community system, and repudiate both. 
 
 Movable comb-hives may be made without buying a patent, by making a 
 chest of the capacity to hold a bushel, besides tlie frames, or say 15 inches 
 square inside, and make 10 frames of strips of boards an inch and a half 
 wide, nailed together flatwise at the ends so as to form sashes that will set 
 in the box and just fill it. Bore holes for the entrance of the bees, through 
 the sides of the box and frames. The lid of the chest shuts tight, and may 
 be locked. When you want to draw a frame, insert a common wood-screw 
 or two to pull it out by. You can tell as soon as you lift it a little, whether 
 it is full or not, and, if not, try another. 
 
 We have tried several patent hives, and if choosing between any one of 
 them and a " bee gum," would take the latter for all practical purposes ; 
 not that we would recommend farmers always to use hollow logs, though 
 
162 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 we certainly have seen some most successful bee-keeping where the swarms 
 were kept oi\\y in that rough way. 
 
 216. Where to Keep HiveSi — The location and mode of support are im- 
 portant matters in placing bee hives. And here again, the most " rough 
 and ready" way has always appeared to be the best. "We have frequently 
 seen the hives standing about here and there, without any regard to order ; 
 some directly on the ground, and some on a flat stone or board ; notwith- 
 standing sucli apparent disregard to all cai-e, the bees were doing better than 
 others where every attention was paid to them. We do not advocate quite 
 so much negligence, but we do believe the best situation for hives is in an 
 open field, set a rod or two apart, or, rather, suspended to stakes. An 
 orchard, where the trees are somewhat scattering, and tlie grass short, or kept 
 short by mowing or pasturage of some geese, turkeys, or sheep, is a good 
 place for bee-hives, one under each tree. A hive may be fastened to a tree 
 or post by two hooks and staples, care being taken to fix it so it will be firm, 
 and not liable to be shaken by wind. It may also be fixed upon two stakes 
 set in the ground just wide enough apart for the hive to slip in between 
 tiiem and rest upon a block nailed upon each side of the hive, notched on 
 the lower edge so as to clasp the top of the stake to prevent slipping side- 
 wise. Hives placed about in the open ground should have a board laid 
 over the top, wide enough to give some shade to the hive. Lay this board 
 on four pebbles, or four nails driven in to keep it half an inch or an inch 
 from the top. This shade-board may be held in its place by a screw or nail, 
 or a stone. The hive need not be placed more than six inches from the 
 ground. A little strip, an inch wide, should be nailed on level with the 
 entrance holes, for the bees to alight upon. 
 
 If hives are placed under a shady tree, they will need no other protection. 
 If placed close together, a rough shed may be built over a row of hives, so 
 placed that it will shade them from nine till four o'clock in the day. A hive 
 should be painted white, because that color does not absorb the rays of heat 
 as much as a dark color. Sometimes a hive becomes heated so as to soften 
 the cement,"and let the comb fall to the bottom. 
 
 217. Swarming. — The location of bee-hives should be convenient to low 
 bushes, such as lilacs, altheas, or small peach or plum trees, for them to 
 light upon when swarming. We have heard of clustering bees upon a large 
 woolen stocking, stretched over the end of a pole, and held up in the midst 
 of the swarm as they collected after leaving the hive. When all have been 
 gathered in the cluster, it is gently laid upon the table and the pole with- 
 drawn, and a hive set over the bees. After they go up into the hive, the 
 stocking is taken awa}'. 
 
 Swarming is just as natural for bees as calving for cows. It increases 
 the stock. The process can not be interfered with advantageously, either to 
 retard or increase the operation. 
 
 The owner of bees should make them as well acquainted with his person 
 as his horse or dog is, and then he can handle them as easily. 
 
Seo. 10.] BEES, AND THE PROFITABLE PRODUCTION OF HONEY. 163 
 
 It is true there are some persons witli whom the bees never will become 
 friendly, or allow of any familiarity. Such persons slioiild never try to 
 handle bees. Others (the writer is one) can handle them with impunity. 
 I have often had them light upon ray face, and head, and hands, and remain 
 as long as tliey liked, and then go away again. 
 
 When a swarm comes out, go immediately right into the midst of it, and 
 do not be alarmed if it should cluster upon your hat. Such things have been, 
 and no harm come of it. You must show no excitement ; be moderate and 
 calm in your movements, as if surrounded by a flock of wild birds which 
 you M'ere afraid of scaring away. An excitable man wilt be very apt to 
 alarm the bees, and an angry one will be sure to make them angry and 
 drive him from the field. 
 
 It sometimes hajjpens that bees leave the hive pre-determined to fly away. 
 In such cases it is difiicult to stop them. If it is a dusty time, and tliey are 
 gathering for flight so low that joi\ can throAV handful after handful of dust 
 among them, you may succeed in confusing them until the^' will alight. 
 Swarms have been stopped on the wing by firing a musket directlj^ forward 
 of them, so that both noise and smoke would confuse them. It is idle to 
 fire after them, and shot sent into the swarm may kill tiie queen ; when the 
 bees must be returned to the hive, or put into one with a piece of brood-comb. 
 
 Some people make a great noise, beating drums, tin kettles, barrels, or 
 blowing horns, when a swarm comes out. The philosophy of this is, that 
 the noise may drown the voice of the queen, and thus confuse the bees, 
 when they may alight ; but, as a general thing, noise will have no more 
 efi'ect toward stopping runaway bees than runaway horses. 
 
 The very best thing that we can recommend to a new bee-keeper is : Be 
 gentle, and keep yourself on familiar terms with your bees. Make them 
 familiar with your presence and personal appearance, and always go among 
 them, as near as possible, in the same garb ; and never in a filthy garb, 
 right from the manure-yard, perhaps ; and never in your shirt-sleeves, reek- 
 ing with perspiration. There is nothing more offensive to bees ; for they 
 are as neat as they are industrious, and never sweat anything out of their 
 little bodies but clean white wax, of which they build their cells. 
 
 Thoroughly domesticated bees seldom ofifer to fly away when they swarm, 
 if you have conveniences for them to cluster ; and such bees are always 
 easily handled, so that they can be hived without difficulty, even by the 
 ffudewJfe or children, if the gudeman is awa\ 
 
 If you are afraid of stings, put on gloves and tie your sleeves down ; tuck 
 your pants in your boot-tops ; put on a broad-brimmed hat, with a piece of 
 mosquito-netting over it, tucked in close around j^our neck, and thus pro- 
 tected, the most timid may go among his own, or strange bees, which always 
 are the most dangerous. 
 
 If you happen to go near bees, and one comes at you, do not fight, run, 
 nor scream. Walk away gently, and aim to get behind a bush, tree, fence, 
 or building. 
 
164 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Place your hive in the place where it is to stand, as soon as possible after 
 the swarm is in ; because the workers commence comb-building immediately, 
 and moving disturbs them, and if only a day or two at work, moving may 
 break down the comb. 
 
 218. What a Swarm Consists of. — A swarm of bees in working order con- 
 sists of one queen, two or three hundred drones, and from ten to fifty 
 thousand workers. The queen would more properly be called a mother, as 
 she is so, in fact, of all the colony. The drones are the males ; they never 
 work nor fight — they are stingless. The workers are imperfectly developed 
 females. According to T. B. Miner, author of a bee manual, the swarm in 
 the spring consists of the queen and about two or three tliousand workers, 
 and these increase as soon as food can be provided in spring, enough to make 
 a new swarm, which goes off, led by the old queen, while a new one is pro- 
 vided for the old colony, which also goes off" sometimes, with another swarm ; 
 and occasionally a third one is sent off", and finally, the swarm remaining con- 
 sists of about 20,000 bees, and all but two or three thousand die off" before 
 spring ; the life of a bee being calculated at only about nine months. 
 
 A queen-bee is so distinguished from other bees by her shape, size, and 
 color, that when you have once learned how, you can always distinguish 
 her. So you can by the noise she makes. A queen is larger than a worker, 
 but not as large around as a drone, though longer ; and the rings of her 
 abdomen are less fully developed, and consequently not so plainly distin- 
 guishable. In short, a queen is more wasp-like in her form than a drone; 
 and is of a darker color, particularly upon the back jDart of the abdomen; 
 while on its under side it is of a yellowish hue. Tlie wings of the queen, in 
 proportion to her body, as compared to either of the others, are wider, 
 stouter, and shorter. She is seldom on the wing ; only at swarming time, 
 and when she cohabits with the males. It is supposed that she is always 
 impregnated during her flight, and that impregnation in the fall, before the 
 drones are destroyed, serves for the eggs she will lay in the spring. Those 
 who have made observations upon tlieni, declare that a queen-bee is capable 
 of laying hundreds, perhaps thousands, of egscs a day. 
 
 Drones are idle fellows ; their only service being attendance upon the 
 queen. Their life is a very short one ; generally from April to August ; say 
 four months. None are allowed to live over winter. You must not mis- 
 take the slaughter of the drones for war with other bees, which sometimes 
 occurs. 
 
 The workers are always busy whenever it is possible for them to carry on 
 their labors. Tliey often begin the very hour they enter a new hive to 
 build comb, and the second day the honey and pollen gatherers begin to 
 bring in their stores. To work to advantage they must have a good house. 
 Sometimes when a swarm goes into a hollow tree, the labor is immense, to 
 clear out and fit the room for use. So it is when put into a mean, dirty hive. 
 It requires a great deal of labor sometimes for the bees to stop up the cracks 
 of an old hive with bee-glue — a substance gathered in the forest, and not 
 
Sec. 10.] BEES, AND TEE PROFITABLE PRODUCTION OF HONEY. 165 
 
 made by the bees. It is harder and stifl'er M-hen dry than wax, and entirely 
 unlike it. 
 
 219. Weight of a Swarm. — It is estimated that a full swarm of bees should 
 weigh 11 to 12 lbs. Hence all excess over that is honey and comb, so that 
 the quantity can be ascertained by weighing the hive, if the weight of that 
 is known, as it always should be, and marked upon it when new. 
 
 Hives should always be constructed with some conveniences for weighing, 
 such as a staple in the top, if that is a fixed one, or one in each side, and 
 then have a movable bail to book in, to attach to the hook of the weighing 
 balance. 
 
 220. Bee-Pasture aud Bee-Feeding. — It has been a question for a long time, 
 whether a country could be overstocked with bees so that their pasturage 
 would be short. In a conversation with Mr. Qtiinby, one of the greatest 
 apiarists in the country, we learned his opinion was that it was next to 
 impossible to overstock any section with bees. We find from the " Bee 
 Journal," published in German}', that the same opinion prevails there. Mr. 
 Dzierzon, president of a convention of apiarists at Munich, says : 
 
 " I have numerous accounts of apiaries, in close proximity, of from 200 to 
 300 hives each. Ehrenfels had 1,000 in three separate establishments, but 
 so close that he could visit all in half an hour's ride. In Russia and Hun- 
 gary, apiaries numbering from 2,000 to 5,000 are not nnfreqnent ; and we 
 know that as many as 4,000 colonies are often congregated together on the 
 heaths of Germanj'. Hence I think that we need not fear that an}' district 
 of this country, so distinguished for abundant natural vegetation and divers- 
 ified culture, will very speedily become overstocked, particularly after the 
 importance of having stocks populous early in the spring comes to be under- 
 stood and appreciated. Mr. Kaden, one of the oldest contributors to the 
 ' Bee Journal,' says that a district of country can not be overstocked with 
 bees, and that however numerous the colonies, all can procure sufljcient sus 
 tenance, if the surrounding country contain honey-yielding plants in the 
 usual degree ; Avhere utter barrenness prevails, the case is different, of courcO, 
 as well as rare. 
 
 " According to statistical tables, there are 600,000 colonies in the pr.ivince 
 of Lunenburg, or 141 to the square mile. The number of square miles in 
 this country stocked even to this extent are, I suspect, 'few and far be- 
 tween.' 
 
 " A German writer alleges that the bees of Lunenburg pay all their taxes, 
 and leave a surplus besides. The importance attached to bee-culture accounts 
 in part for the fact, that the people of this district (so barren that it has been 
 called the ' Arabia of Germany') are almost without an exception in easy 
 circumstances. 
 
 " In the province of Attica, Greece, containing 45 square miles, 20,000 
 colonies are kept, or one colony to each inhabitant, producing annually 30 
 lbs. of honey and two of wax each. East Friesland (Holland), containing 
 1,200 square miles, has an average of 2,000 polonies to the square mile. In 
 
166 SMALL AKIMALS AND INSECTS. [Chap. II. 
 
 1857, tlie yield of lioney and wax, in the Empire of Austria, was estimated 
 to be worth over seven millions of dollars ! !" 
 
 Could not still more favorable results be obtained in this country, under 
 a rational system of management availing itself of the aid of science, art, and 
 skill ? The island of Corsica produces about SOO lbs. of honey to the square 
 mile, per annum. 
 
 There is no probability that any section of this country will reach such a 
 state of productiveness in this generation. Yet we hope all who read these 
 extracts will think what an immense loss is sustained annually by our neg- 
 lect to cTuploy hafvesfcrs to gather the great crop of sweets that might be 
 saved if our bee population were large enough to gather it all. 
 
 Upon the subject of bee-jjasfurage, and those plants from which bees draw 
 their stores of honey, we find some useful hints in Harbison's work ou Bees 
 and Bee-keeping. Tie says : 
 
 " The best kinds of early pasturage are the alders, hazel, and willows, some 
 of which yield honey and others pollen ; most species of flowers yield both. 
 My observations lead me to believe that tlie male flower yields pollen, and 
 the female honey ; I have frequently seen bees gathering both honey and 
 pollen from the same kind of flowers at the same time. It can be tested by 
 examining both the honey-sack and the baskets on the thigh. These trees 
 are the first to aflbrd the bees provision in the spring ; where these abound, 
 the bees advance earlier than elsewhere. Tlie soft maple {aoer ruhrum) 
 yields a considei-able quantity of honey very early, if the weather is fine ; 
 the golden or yellow willow also yields supplies quite early ; peach, cherry, 
 and pear trees put forth early ; gooseberries, currants, strawberries, etc., all 
 afford rich supplies. To close this list of early flowers, the dandelion and 
 apple come forth in rich profusion, all of which are of the utmost importance 
 for the prosperity of the bees during the season. If this early pasturage 
 fails, or i^the weather should be so unfavorable as to prevent the bees from 
 gathering a supply of provisions, they will fail to rear a sufficient quantity 
 of brood to swarm early or to harvest the clover honey to advantage. 
 
 " It is but seldom, if ever, that a sufficient quantity of honey is gathered 
 from these early flowers to cause the bees to store it in surplus boxes, yet 
 enough is frequently obtained to fill up a large portion of the combs from 
 which the honey has been consumed during the winter, and serves to supply 
 their immediate wants until clover blooms. 
 
 " The next pasturage comes from turnips, cabbage, and the hard maple 
 {acer saccharinum), which yield a considerable quantity of honey, but later 
 than the soft maple. Turnips produce a very copious supply of both honey 
 and pollen, and if left standing in the ground over winter, they bloom just 
 at a time to fill the interval between the fruit-tree flowers and the clover. 
 This is also the case with the cabbage family, all of which yield large quan- 
 tities of honey. A field of either turnips or cabbage at this early season is 
 of greater value to the bees than the same quantity of either clover or buck- 
 wheat. 
 
Sec. 10.] BEES, AND THE PROFITABLE PRODUCTION OF HONEY. 167 
 
 " I would here impress upon the minds of all bee-keepers the importance 
 of cultivating a field in turnips each year. In the fell gather in all the large, 
 fine ones, either for marketing or for feeding sheep and cattle during the 
 winter, for which they are very valuable, and %vill well repay the expense of 
 raising them ; enough small ones will be left standing in the ground over 
 winter to make a rich field of jjasturage for the bees in the spring, leaving 
 the ground in fine condition for a crop of buckwheat, or to sow down in wheat 
 in autumn, or to again put down in turnips. 
 
 " The various kinds of blackberries, and the wild or bird cherry {ce?-asns 
 serotina), yield honey, and serve to supply to some extent the interval above 
 referred to. We have also a species of kale, or wild turnip, which if sowed 
 very early in the spring will commence to bloom toward the latter part of 
 May, and is very valuable. 
 
 " Raspberries of all kinds yield an immense amount of honey, and con- 
 tinue blooming, giving a succession of fresh flowers, for about three weeks. 
 But few if any flowers produce such quantities of honey as the raspberry, in 
 proportion to the number of flowers. 
 
 " Catnip, mother-wort, hoarhound, honey-suckles, and various other kinds 
 of flowers, put forth about the same time ; each would be of great value, if 
 in sufficient quantities. 
 
 " Then come other early summer flowers. At the head of this list pre-em- 
 inently stands Avhite clover {trifolium rejyens), which is found along the road- 
 sides, in meadows, grain-fields, gardens, pasture-fields, in fact, it may he seen 
 everywhere. The seeds, which are very abundant and very small, are 
 driven in every direction by the winds ; this has been overlooked by previous 
 writers. The heads, which contain the seed, are quite small and very light ; 
 the stalks stand erect until winter sets in and the ground is frozen, by M'bich 
 time the stalk of it has become brittle, and every wind breaks off and rolls 
 along the ground a portion of these little seed-pods, until they meet some 
 obstruction ; here they will germinate. Thus they are scattered in every 
 direction. I have frequently seen them driven furiously on the crust of u 
 shallow snow, through which the heads would project. The value of this 
 clover is entirely underrated as a pasture for cattle or horses, as well as bees ; 
 it is always selected by stock in preference to the red clover. The honey 
 gathered from it is of the highest excellence, both in beauty and flavor ; and 
 I believe in good seasons, all the bees, in any neighborhood where it 
 abounds, could not gather the fourth part, so great is the quantity produced. 
 
 "The tulip-tree (liriodendron), or poplar, as it is called by some, by others 
 white wood, is a great producer of honey. Nothing of the tree kind that I 
 have ever seen exceeds it ; the flowers expand in succession, are of a bell- 
 like shape, mouth upward. In dry, warm weather I have seen a teaspoonful 
 of pure honey or saccharine matter in a single cup or flower. Bees work 
 upon it with the same vigor they manifest when carrying honey from some 
 other hive, or when it is fed to them. 
 
 "The yellow and black locust trees yield large quantities of honey. 
 
168 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 " The linden, or bass-wood {tilia Americana), produces honey to a large 
 amount. All of these varieties of trees should be extensively cultivated, 
 both as shade and ornamental trees, as well as for their timber and the vast 
 quantities of honey they yield. Sumach also produces honey bountifully ; 
 the difficulty, however, is, that there are but few places where these are 
 found in sufficient quantities to be of importance. I trust they will be 
 extensively cultivated. 
 
 '• The common black mustard is one of the most valuable plants to culti- 
 vate as a pasture for bees ; it is easily raised, by simply sowing it on ground 
 when well plowed and pulverized by harrowing smooth, and then brushing 
 it in with a light brush or very light harrow. It should be sown early in 
 the spring, on good ground. 
 
 " Those interested in bee-keeping should give the cultivation of mustard 
 some attention. As a bee-pasture it has few superiors, yielding both pollen 
 and honey in great abundance ; it begins to open its flowers when quite 
 young and continues as the bush expands, until it becomes very large-; each 
 day brings forth new blossoms. A field of mustard in full bloom is a most 
 magnificent sight ; it is like a vast pile of golden flowers ; the plants are 
 comjjletely enveloped with flowers, from the ground up as high as a man's 
 head. There is no other plant that I ever noticed that produces so mauy 
 flowers to any given quantity of ground, nor yields so much honey. 
 
 " In almost any of the Atlantic States it serves to fill the interval that occurs 
 between the closing of the white clover and the opening of the buckwheat 
 flowers, a period of about four weeks, wliicii is the very best part of the year 
 for gathering honey, as the weather is generally warm and calm ; hence the 
 propriety of raising this crop to employ the bees profitably. 
 
 " The honey produced from it resembles that yielded from the linden, both 
 j in color and taste. 
 
 " Mignonette, a modest, unpresuming little flower, found in all well- 
 assorted collections, is one of the greatest value as a bee-pasture, if grown in 
 sufficient quantities to be an object. It is low growing and spreading in its 
 habits, similar to white clover, and yields both honey and pollen ; it will 
 bloom continually, from the middle of June until killed by frosts in the fall. 
 It is easily raised in large quantities if the ground is clear of weed seed, 
 plowed, and well pulverized by harrowing before sowing. Sow thinly and 
 brush it in with a light brush ; all that is required after this is to jjull out 
 any large-growing weeds that may chance to make their appearance before 
 the mignonette spreads over the ground ; where it takes possession of the 
 ground, it needs no further care. A bed of these flowers will perfume the air 
 for quite a distance around, so rich is it. Bees will work on it from daylight 
 until dark ; two or three may be seen at once on a single head or flower. 
 
 " The cephalanthus Canadensis, or butter-bush, which grows in swamps, 
 and low, wet, marshy grounds in almost every part of the United States, 
 preserving the same appearance wherever found, produces honey of the 
 highest excellence. The honey gathered from this shrub is of a very light 
 
Seo. 10.] BEES, AND THE PROFITABLE PRODUCTION OF HONEY. 169 
 
 straw color, of a thick, heavy body, and very excellent flavor. Bees thrive 
 and store honey very rapidly when they have access to large quantities of 
 these flowers. The time of blooming varies with difierent localities, but it 
 generally begins to put forth flowers about the first of July, and continues 
 for three or four weeks. 
 
 " In all places where buckwheat is raised, it becomes an important acces- 
 sion to bee-pasturage. A field of buckwheat yields an incredible quantity 
 of honey, which perfumes the air for a considerable distance around. "When 
 the weather is favorable, the bees store honey from it very rapidly, faster at 
 times than they can build combs to receive it. I have seen them fill pieces 
 of old combs laid close to the entrance of the hive, with honey, and have 
 known colonies to fill four boxes of honey, or about 50 lbs., during the con- 
 tinuance of buckwheat. This is by no means an uncommon occurrence, and 
 goes to show that this honey harvest is one of great importance to the bee- 
 keeper. Buckwheat may be sown about a month earlier than usual, to fur- 
 nish pasturage to come in about the close of clover, to great advantage." 
 
 In relation to artificial feeding there are many opinions. There is prob- 
 ably no better food for bees than brown sugar, moistened with honey, such 
 as can be bought at a low price by the barrel or gallon in any town. Add 
 just enough honey to the sugar to make it into a dough by kneading. Put 
 this feed in a shallow tray, with a few straws on top, and let the bees take 
 their own way and time with it. It is well to give a little salt to bees, if 
 they can not get it conveniently. The best way is to place a lump of rock- 
 salt near the hives, and there let it remain year after year. 
 
 A practical bee-keeper says : " If the season has been nnpropitions, the 
 hives should be carefully looked after. If any contain less than 20 lbs. of 
 honey, the swarm will need to be fed either with honey alone or mixed with 
 sugar diluted to the consistence of honey, poured on to pieces of empty 
 comb, and placed in the hive in such a manner that bees from other hives 
 will not find it. Perhaps the best method is to introduce the feed into the 
 boxes directly over the bees ; but should it be a common box hive, it may 
 be placed on the top of the hive, where there is a communication through 
 the top, and placing a cap over the whole ; and then gently rapping on the 
 top of the hive, the bees will press up through and find the feed. The feed- 
 ing should be done during warm weather." 
 
 221. New Food for Bees. — The fact has been discovered in France, that 
 bees will feed upon the oil-cake (soaked in water) that is made in the manu- 
 facture of oil from the Sesamiiin Orienfale, known here as the bene plant, so 
 that they can be much easier wintered ; and it is said the increase of stocks 
 is wonderful in comparison with those not thus fed. 
 
 The Flore des Seizes, from which we borrow this, assures us that the results 
 have been astonishing, not only in a large increase of honey-comb, but in 
 enabling the bees to multiply beyond all belief; nearly ten times the quantity 
 being bred in consequence of the facility afl'orded of obtaining abundant 
 and, as it would seem, excellent nourishment from this unexpected source. 
 
170 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 The experiment could be tried in this country by apiarians planting the 
 bene seed, and bruising and soaking the seed of the crop, and feeding it to 
 the swarms after the natural food fails. 
 
 One of the greatest troubles in bee-keeping appears to be the want of suit- 
 able food early in the spring to enable the swarm to prepare for a new col- 
 ony that may go out early enough in the season to lay up, not only their 
 own stores for winter, but a surplus for their owner. Many swarms that 
 have an abundance of honey for their own use and to spare in the spring, 
 are inactive for weeks after the spring has become warm enough for them to 
 work, because they have nothing to work upon. The first business is not to 
 gather honey, but pollen, to make bread for the young bees. So, although 
 the weather is warm enough, and the bees lively enough, until the buds 
 aiTord pollen, they have nothing to work upon to enable them to be in season 
 with the new brood, to produce early swarms. This is a serious drawback 
 in late seasons, and in situations where pollen-producing plants arc not 
 plenty. 
 
 Mr. E. T. Stnrtevant, of Cleveland, Ohio, claims that he has discovered a 
 remedy for this difficulty, and that he can bring forward his bees some two 
 months earlier, and get good swarms the first of May. His plan is to feed 
 his bees with unbolted rye-meal, strewn upon boards convenient to the hive, 
 the bees pitching into it at once and working diligently, and in such an earn- 
 est way as fairly to scramble over one another. It is a hint worthy the 
 attention of all beekeepers. 
 
 A few years ago, a bee-keeper in "Wurtemherg discovered that bees ex- 
 tracted food from carrots which had been rasped and cooked for stock, and 
 thereupon he boiled some to a jelly and placed it near the hives, at a time 
 when the fields aflbrded no food, and he found tliat they worked upon it as 
 though the saccharum it contained was particularly agreeable. 
 
 We suggest an experiment with carrots cooked in this way, by bee-keepers" 
 in this country. We would also try parsneps ; and, where they are grown 
 abundantly, sweet potatoes. And since wo know that bees are so fond of 
 sweet apples in summer, why not keep them to feed swarms when needing 
 artificial feeding in winter. It may add as much to the health of bees to 
 feed green food, as it does to health of other farm-stock. Let the experiment 
 be tried. 
 
 222. Ventilation of llives> — A great deal has been said about the necessity, 
 on account of ventilation, of making hives open at the bottom. In reply to 
 this, let men think that bees in a wild state prosper well in the hollow of a 
 tree where there is but one small hole for entrance of the bees or ventilation, 
 and that open-end hives, standing on a bench, are often cemented fast to it, 
 and sometimes holes left, for ventilation, are sealed up as closely as though 
 air was poison to the inmates of the hive. 
 
 If you wish to ventilate, bore a two-inch hole into the upper part of the 
 large box, and cover it on the inside of the box and on the outside of the case 
 with wire gauze, fine enough to keep oiit ants and other insects, for a venti- 
 
Seo. 10.] BEES, AND THE PROFITABLE PKODUCTIOISr OF HONEY. 
 
 171 
 
 lator. Bore inch holes through into both of the upper boxes, and cover in 
 tlie same way. 
 
 Mr. Quinby says that he regards f roper ventilation as very important, 
 and yet projx'r ventilation is very imperfectly understood. He also says : 
 " Any way to get rid of the moisture." The presumption is, that he would 
 not freeze the bees at the outset as one of the ways, for that would surely 
 prevent moisture ; and if the modus operandi of some who give directions 
 how to ventilate should be put in practice in very cold situations, the bees 
 are just as surely frozen. 
 
 Moisture accumulating on the inside walls of the hive has caused the de- 
 struction of more strong colonies of bees than any one other casualty, except 
 the fatal way of some bee-keepers to get rid of the moisture by opeiiino- wide 
 the apertures in the top and also in the bottom of the hive, and thus causing 
 a current of external air to pass up through the interior — precisely the 
 method to cool a hive in hot weather — and also thus rendering the bees more 
 exposed and liable to bo frozen than they would be situated on the exterior 
 of the hive. Proper ventilation is simply to give free vent for the air at the 
 top of the hive, and not admitting any or but very little air through the 
 bottom. Under all circumstances it is requisite to regulate the openings in 
 the bottom with those in the top, which amounts to about the same thing 
 without the drawbacks of inverting the hive. 
 
 There is a new form of beti-hives, used by J. L. Scribner, of Montpelier, 
 Vt., a successful producer of honey, so much so that he carries off all prizes 
 at the county fair. 
 
 This hive, being made of straw, serves admirably for ventilation. It is 
 made of a frame of square sticks, say one inch diameter, and in capacity 12 by 
 13 inches, and 13 inches in hight, with a flat board roof projecting two inches 
 each way. The frame is nailed together ; the lower girts are placed \ inch 
 above the bottom of the posts. The frame is covered with straw sewed 
 together, just as it is in straw hives, with a hoop at the bottom, made of 
 strips of boards one inch thick and two inches wide nailed together. In this 
 hoop a notch 2i inches long, \ inch deep, is cut for the bees. Plane all the 
 wood, and use none but clean i-ye straw. On the roof, over suitable holes, 
 the boxes for storing honey are placed. It is thus described by Mr. Scribner: 
 
 "The advantages of this hive over all others that I have used arc very 
 material in my view. It is generally conceded that straw hives are the best 
 to winter bees in ; not altogether because they are so much warmer, but 
 because they will ' 'keep dry^ and the frost does not accumulate as in board 
 hives. Every experienced apiarian knows that in wooden hives there is a 
 continual dampness, arising in part from the breath and effluvia of the bees. 
 Not so in straw hives. Straw being of a dry and absorbing nature, the 
 moisture is taken up. Now, I have learned that straw hives are as much 
 better in summer as in winter, especially in the season of breeding, when we 
 are subject to frequent and sudden changes of the weather, such as damp, 
 chilly nights and hot days. The temperature of a straw hive is more even : 
 
172 SMALL ANIMALS AND INSECTS. [Chap. IT- 
 
 it does not heat excessively in hot weather nor cool suddenly, as do board 
 hives. The natural warmth of the bees is retained, whieli is particularly 
 conducive to their health and prosperity. Hence there should be no unnec- 
 essary ventilation by leaving an ' open space,' as has been recommended by 
 some, ' all around the bottom of the hive.' Especially in damp, chilly 
 weather, bees will breed faster and gather more honey in straw hives than 
 in board hives, according to my experience. One reason for their gathering 
 more honey, probably, is because the young brood comes to maturity faster, 
 consequently there are more ' laborers in tlie field' in the earl}- honey sea- 
 son. This hive combines all the real advantages of every patent hive that 
 has come to my knowledge, while it obviates all the objections and retains all 
 the good qualities of ' the old-fashioned straw hives.' 
 
 " The less a farmer bothers himself with patent hives and bee-palaces, and 
 the less he tries to counteract nature, the better he will be off. I am heartily 
 sick of 'patent bee-hive=,' and it is time to abandon them." 
 
 223. Taking Honey, and How to Keep the Bees from Stinging.— When bees 
 are alarmed for the safety of their stores, they immediately rush to the cells 
 and fill their sacks with honey, apparently to provide against any contingency 
 that might arise. When in this condition, they arc perfectly harmless, never 
 volunteer an attack ; consequently, to tame bees, or render them docile and 
 easily driven or handled, simjjly take advantage of this peculiar instinct. To 
 conline them closely to their hive, rap repeatedly on its sides for a few min- 
 utes; this alarms them, and they will gorge themselves with honey, when 
 they can be handled and controlled at pleasure. But we have adopted the 
 following plan, which we find best adapted to our use, and recommend it to 
 others, with the assurance that it will give satisfiiction : Take clean cotton or 
 linen rags, such as are used in the manufacture of paper ; make a nice roll of 
 these, about an inch in diameter, and from six to twelve inches long; wrap 
 this pretty tight, either with narrow strips or shreds torn from cloth, or, what 
 is more convenient, nse wrapping yarn of some kind ; prepare a number of 
 such rolls, and keep on hand in some box, or any dry place, near the apiafj^, 
 together with some matches. When you wish to ojjen a hive or perform any 
 operation, set fire to one end of a roll of rags; it makes quite a smoke, with- 
 out any blaze. Upon opening the hive, blow the smoke vigorously among 
 the bees for a minute or two, whicli terrifies tiicni, without doing any perma- 
 nent injury ; they immediately rush to the cells and fill their sacks with 
 honey, when you can proceed to lift out one comb after another, and perform 
 any operation with perfect impunity, without any fear of being stung, unless 
 by those from other hives near at hand. Should there be some, however, 
 that would show signs of battle, blow a little more smoke upon them, and 
 repeat it from time to time nntil the close of the operation. Toward the 
 close of the honey season, when they ai-e rich and increased in stores, they 
 are harder to control than at any other season of the year ; when this occurs, 
 put a small portion of tobacco or a few grains of sulphur in your roll of 
 rags; this renders the smoke more pungent, and will easily subdue the 
 
Sec. 10.] BEES, AND THE PROFITABLE PRODUCTION OF HONEY 173 
 
 bees. Dried puff-ball makes a sinoke that subdues bees without injury to 
 them. 
 
 22-1. Bee Moths, and How to Protect Bees from Them.— Numerous patents have 
 been taken out to sell bee-keepers, to keep the moths out of the hives. All of 
 these contrivances fail in their object, or else have objections to them which 
 have prevented their genei-al introduction. One now before us consists of a 
 set of swinging doors, just such as we have often seen at cat-holes, hung at 
 the to23 so as to fall into place as soon as pussy gets through. For the bees, 
 a small tin, about the size of a dime, is hung in the entrance hole, M-hich the 
 bee can push open, but tlie moth can not — that is, so says the patentee. 
 
 Where open-end hives stand upon a bench, we have seen motlis prevented 
 fi-om injuring the swarm by raising the hive, during the moth season, about 
 lialf an inch from the bench. The theory of this plan is, that the moth in- 
 serts her eggs between the bottom of the hive and bench, wher* they hatch, 
 and the bees can not get at the worms ; but if it is raised up, there is no op- 
 portunity for the moth to deposit her eggs where they will be safe. 
 
 A cheap, good moth-trap is made in the following manner: Take a piece 
 of thin pine board, or a shingle, a few inches square, and witli your pocket- 
 knife cut three-cornered grooves on one side, and lay it, grooved side down, 
 on the bench under the hive. Tlie moths will find a secure place from tlie 
 bees, and deposit their eggs, which you will find, or the worms, and destroy, 
 by looking at your traps every few days. 
 
 Mr. Quinby recommends the following mixture as a moth-trap : Sugar or 
 molasses and a little vinegar and water, making the "contrast" agreeable — 
 the sweet and the sour. Put this in shallow dishes, saucers, or tin baking 
 dishes, and set them among the bees at evening. Next morning, moths of 
 all kinds will be found in the liquid, and may then be strained out and de- 
 stroyed, and the mixture used the following evening. 
 
 225. lutroductioa of Bees into faHfornia.— The honey-bee is not a native of 
 California. The credit of introducing them is due to a man by the name of 
 Shelton, who, after doing much for the interest of agricultural improvements 
 iu that State, lost his life, while still a very young man, by the explosion of 
 a steamboat boiler on the S.acramento Hiver. lie imported, in March, 1853, 
 the first bees into Califoi-nia. He left New York with twelve stands, or 
 hives, and arrived Avith but one ; from this one about one hundred and fifty 
 swarms were credited in ISoS, and, of course, have largely niultiiilied since 
 that time. There have also been very large exportations made by steamer 
 from New York. The Messrs. Harbison, of Pennsylvania, have been very 
 successful in shipping and selling swarms, and have also established an ex- 
 tensive apiary at Sacramento. The common price of some of the first stocks 
 sent to or produced in California has been fifty to one hundred dollars a hive. 
 The Harbisons made their first shipment, we believe, in 1858-9. 
 
 It has been thought singular that our people found no bees in California, 
 when they M'ere so abundant in Mexico and Central America. Since the 
 introduction of bees from New York, a California paper states that several 
 
174 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 attempts to import bees from Mexico have failed. Captain Macondray had 
 one or more Mexican swarms, but they soon dwindled away. In 1S59, Mrs. 
 Sutter, daughter-in-law to General Sutter, had forty-four hives packed on the 
 hacks of Indians to Acapulco, and brought on the steamer to San Francisco; 
 two or three weeks after their arrival, there remained but two hives contain- 
 ing bees; they were taken to San Jose, but in a sliort time they also died. 
 
 It also says, and so does every one we have conversed with on the subject, 
 that California is admirably adapted to the honey-bee, as the experience of five 
 years fully demonstrates. In San Jose Valley, Sacramento Valley, Sliasta, 
 Bidwell's, Stockton, Columbia, and Napa they multiply rajjidly and store 
 abundance of lioney. The willow affords the first material for pollen. The 
 bees commence gathering it by the 1st of January; about the loth of Janu- 
 ary it is in bloom, and affords considerable honey, though slightly bitter. 
 The bees gather pollen and honey from the willow till March. The wild 
 mustard aftbrds an inexhaustible supply of honey from the 1st of April to 
 the middle of June. Later iu the season, honey is obtained from buckwheat 
 and hone^'-dew. 
 
 Honey made from mustard blossom, from which most of the honey is 
 gathered in San Jose Valley, is excellent, and has sold in San Francisco at 
 from $1 25 to $1 50 per pound. New swarms issue as eai'ly as the 15th of 
 April, and the swarming season continues to the 16th of June. 
 
 220. Sf iugless BeeSi — There is a good deal said of late about going to Brazil 
 after "stlngless bees." What is the utility? We have a better sort here, 
 and their stings are in no manner objectionable. In fact, they are advan- 
 tageous to the apiarian. They guard the store from thieves of all sorts, and 
 they are nnich better honey-makers than the South American variety, which 
 has no sting, all of Avhich are of a much smaller size than our common 
 honey-bee, and some of them make honey that is sour, and others give it a 
 bitter flavor. This may be owing to the flowers it is extracted from, as we 
 have known bees here to make uneatable honey. 
 
 Wells, in his explorations of Honduras, gives the names of fourteen varie- 
 ties of honey-bees. Honey is very abundant and low priced. He was 
 charged but ten cents a quart for it. He says: "The bees are diminutive, 
 and mostly stingless. Swarms of them may be seen every day, when travel- 
 ing in the open country, hovering around some decayed tree, and but little 
 trouble is necessary to bear the whole establishment to the nearest hacienda. 
 One of the pi-oprietors said he had sold enough, since owning the estate, 1o 
 buy all the drilling, mantos, and articles of that description, required at the 
 hacienda." 
 
 The most cui-ious thing about most of these bees is that they do not store 
 honey like our bees, in combs of hexagonal cells, but in little sacs, two inches 
 long, arranged in rows along the sides of the hive. The cells for the young 
 are placed in the center. 
 
 227. Italian BecSi — During the year 1860, a good deal has been said about 
 the advantage to be derived from the introduction of Italian bees into the 
 
Sec. 10.] BEES, AND THE PROFITABLE PRODUCTION" OF HONEY. 175 
 
 United States, and importations have been made for that purpose. The plan 
 is to breed queens, which, after being impregnated, are introduced into com- 
 mon hives, after removing tlie okl queen. 
 
 A writer in the Country Gentleman newspaper gives the following as the 
 history of the introduction of Italian bees into tliis country. lie says: 
 
 "Mr. P. J. Mahan, of Philadelphia, is mentioned 'as being the first to 
 land this new variety on our shores.' As a matter of history, I would state 
 that this is not so. For several years past the attempt has been made yearly 
 by Mr. Richard Colvin, of Baltimore, Samuel Wagoner, of York, Pa., and 
 Rev. L. L. Langstroth. These attempts Avere unsuccessful, owing to bad 
 packing and mismanagement in transportation, until the autumn of 1859, 
 when Mr. Colvin received some Italian stocks, and hoped to have queens 
 from them for sale the past season, but these stocks, unfortunately, did not 
 survive the winter. Ne.xt in order of date is Mr. Malian's importation from 
 Germany, which was successful on account of his personal supervision. 
 Sliortly after Mr. Mahan's importation, Mr. S. B. Parsons, of Flushing, Long 
 Island, succeeded in getting a few swarms alive from Italy. From them he 
 has succeeded, aided by several skillful apiarians, in raising a large number 
 of queens, which have been sent to nearly every State in the Union, includ- 
 ing California, under the supervision of Mr. Bigelow, a successful apiarian. 
 
 "The last successful importation was by Messrs. Colvin and "Wagoner. 
 All the above named are exerting themselves to multiply their stocks of 
 Italian bees, and they will doubtless have a demand for all the queens and 
 stocks they can supply next season, as the interest in this new bee is deserv- 
 edly increasing. The question will naturally arise. Of whom shall I pur- 
 chase ? Are these importations equally reliable, and if so, have all taken 
 the same pains and been equally successful in keeping the breed pure ? I 
 would here remark that some situations are more favorable for maintaining 
 purity than others. The Italian bees now in this country are from three 
 different sources, and every one should decide for himself to which stock he 
 should give the preference, and if the most reliable man and the most i-eli- 
 able bee can be found working together. 
 
 "Two of the importations are from Germany, and one from Italy. Of tJie 
 importation from Italy there can be no reason to question ils purity. The 
 two importations from Germany are from different breeders. One of the 
 importations from Germany I have the fullest confidence in from personal 
 inspection ; and if the other be equally good, we are in a fair position to 
 have the country well supplied with pure stock in a few years, provided 
 sufficient interest is taken to maintain purity." 
 
 228. Reasons for Keeping Bees. — In this section we have only aimed to say 
 just enough to encourage every reader to keep bees, who has anything like 
 fair facilities for them to obtain a supply of honey from gardens and fields, 
 which they will do if within a mile, and some bee-keepers say if within two 
 miles. But it is not profitable to allow bees to go so far, when the bee-keeper 
 has land upon which he can grow bee-food just- as well as he can grow food 
 
116 
 
 SMALL ANIMALS AND INSECTS. 
 
 [Chap. II. 
 
 for any other fjirm-stoct. The fact that bees obtain a great deal of food 
 from fruit-trees should encourage farmers to cultivate both together. And 
 if lie plants along the roadside long rows of willows, maples, lindens, pop- 
 lars, he will not only have the advantage of them for shade and ornament, 
 but his bees, if he has them — and if not, let him be encouraged to get them — 
 will find a great field up in the branches, that they can use as pasture. 
 
 The strongest reason that can be given for keeping bees is this simple fact: 
 They afford more clear profit than any other stock ever kejjt on the farm, 
 and, generally speaking, the more labor is bestowed upon them in providing 
 good hives and pasture, the better they pay. 
 
 SECTION XL-BIRDS. 
 
 eason and Re!ii?ioii in Preserving Birds. — "We don't 
 know how much we have written, said, and sung 
 to induce farmers not to destroy the birds, nor 
 allow them to be destroyed, because we look upon 
 them as part and parcel of the farm-stock, and of 
 more importance to the farmer than some animals lie 
 keeps, at much more expense than his stock of birds. 
 We say his stock, because we consider the birds on the 
 trees just as much the property of him who owns the 
 trees as the trees themselves ; and he who would steal 
 one would steal the other. A man who would come upon 
 my farm and shoot my birds, witliout my permission, is 
 not one of the noblest works of God. No man who takes 
 reason for a guide, who owns a farm in any of the old 
 States, can consent to have his birds destroyed. lie certainly M'ill not de- 
 stroy them himself, after he has taken time to think upon the suliject. It is 
 our object to induce him to think, and the best place to do so is to go out 
 among them in a bright spring morning, and hear their music. 
 
 Go out among the trees in the orchard or through the grove, or look into 
 the hedge-rows or peep under the old bridge down the lane, or go to the 
 barn ; go anywhere, everywhere, where you will, and at this season — that is, 
 lovely May season — you will find the birds — busy, merry, singing birds ; 
 hard at work they are, too, building their houses — cradles, rather — and all the 
 time keeping up a concert of sweet music. Various too are their tastes in 
 selecting their sites for their nesting-places, some hiding away from man, 
 some coming up to his very door, or, like the martin and swallow, under his 
 roof and protection. Kobin-red-breast almost invariably comes into the 
 orchard, sometimes on the trees, sometimes on the fence, sometimes, where 
 kindly treated, under the shed by the barn or house. 
 
Seo. 11.] BIRDS. 177 
 
 The woodpecker — the same one that was tapping " the hollow beech-tree" 
 — makes holes in the old apple-trees, into which for years afterward the 
 pretty bluebird creeps and rears its annual brood. 
 
 The blackbird, the most numerous of the family of small birds, mostly 
 nests in the swamp ; except one variety, imitating the crow, that goes into 
 the highest trees, such as the spruce, with a dark, thick top, where boys nor 
 small shot can not come. 
 
 In the meadow we find the sly nest of the quail and lark and several 
 small birds ; and in the thickest bushes, the home of the brown thrush. He 
 is a natural musician, a sweet bird full of glee and cheerfulness ; but the 
 merriest and most amusing of the whole family is the noisy little bobolink. 
 
 We look upon birds as among the essentials of a landscape, and would as 
 soon think of chopping down the orchard, shooting the turkeys, and wring- 
 ing the necks off of the barn-yard fowls, or making mutton of the sheep or 
 giving the lambs to the dogs, as to think of destroying the birds or ilriving 
 them from the premises. • 
 
 " Going a gunning," with the murderous intent to kill such birds, oiight to 
 consign a man to the infiimy that we are apt to attach to a savage or a brute 
 who wantonly kills the finest of God's creation. 
 
 Without birds, a country is desolate; with them, it is always cheerful. 
 Their songs would enliven the heart of a stone, or make a miser for the 
 moment forget his money. 
 
 The association of children with birds, when taught to love them and not 
 destroy their nests, has as direct and certain a tendency to improve their 
 natures as the church or family fireside. Teach a child that birds are among 
 the good gifts of God to mart, and it is hardly possible that the child will 
 grow up to manhood without being possessed of some of the attributes of the 
 sweet songsters of the grove. 
 
 And j'et there are parents who allow their children to wage incessant war 
 upon the birds, never thinking of the injury the}- are doing their young 
 minds, or how many destructive enemies they are entailing upon the crops in 
 the shape of countless caterpillars, grubs, and worms. 
 
 We do not know of a higher Christian duty for a minister to engage in 
 than an effort to preserve the birds in his parish. 
 
 We would impress upon the mind of every child that the command, " thou 
 shalt not kill," meant these dear little birds as well as things of a higher 
 degree. Thou shalt not wantonly kill a single thing of all creation that is 
 not necessary for man's sustenance, or that is not detrimental to his interest. 
 
 Children should be taught not only to love the music of birds, but to look 
 upon them as models of beauty and aftection to their mates and to their 
 young. Instead of driving them away from the house, encourage them to 
 come and pereh upon the window-sill and build their nests under the eaves. 
 
 Do not tell us they destroy the small fruit. Plant enough for birds and 
 men. If ihey do eat fruit, they also eat worms, and you can well aff'ord to 
 give then) a few cherries and ciiri-ants for what they have done for vou. 
 
178 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Around the city there is a difficulty in preserving the birds, because all 
 the groves are infested with an abominable nuisance in the shape of big boys 
 and prowling loafers " out for a day's shooting." 
 
 They ought to be out for a day's shooting, and that should be at their own 
 idle carcasses, with fine salt and pepper-corns, and every owner of land 
 should be allowed by law thus to salt and pepper any of these idle vagabonds 
 who come upon his grounds without leave to doom the birds to destruction. 
 
 Farmers ! let your motto be— and impress it upon all your family — Never 
 kill a bird ! 
 
 In the early settlement of this country', there was such an abundance of 
 birds that the people who were striving to raise grain enough for the support 
 of their families, looked upon them as their enemies, because they were nat- 
 urally disposed to come in for a share of the crop, and some of them, such 
 as the crow and the large blackbird, sometimes depredated upon the seed, 
 by which the crop was effectually cut off. 
 
 So a war of extermination was declared without discrimination against all 
 birds, and it was carried to such a bitter end that the children of the first 
 settlers grew up with a fi.xed opinion that they were doing a Christian duty 
 whenever an opportunity offered, in destroying birds and birds' nests, and 
 they entailed the same disposition upon their children and their children's 
 children ; and so the poor birds have been almost exterminated from the face 
 of the earth with scarcely a thought wliy or wherefore, except that they were 
 birds, and birds must be destroyed — " father says so." Upon that ipse dixit 
 some of the best friends of the farmer, instead of his worst enemies, have 
 been almost annihilated, while others have come to regard him as a being 
 to be so avoided that they make their abodes in deep forests, and hide their 
 nests and young from man as carefully as nuxn would hide his young from 
 a tiger. 
 
 Experience teacheth wisdom ; and after two hundred years of teaching, 
 the American farmer is just beginning to learn that birds are his best friends. 
 He shot them upon his plum and cherry trees because they took a sliare of 
 the fruit, and then came the insects that the birds used to prey upon, and the 
 days of plum-growing were over. So of many other insects, real pests of the 
 farmer, everywhere multiplying as the birds decrease. 
 
 Not one of the species upon which man has made such unceasing war, but 
 has its use. Even the owl, although it will eat chickens, is a great mouse- 
 destroyer ; and the hated hawk is sometimes shot witii a snake in its bill. 
 Crows should be treated with as much care about a farm as domestic fowls. 
 Do they pull up your sprouting corn seed ? Feed them and tliey will not. 
 Sow corn broadcast through tiie field and they will not touch that which 
 you have planted. Birds of all desci-iptions should be taught that man is a 
 friend and not an enemy, and they will return the friendship. 
 
 Some lover of birds — and he who is not such is " fit for treasons, strata- 
 gems, and spoils"— may demur to our assertion, that they are less influenced 
 by gratitude than their four-footed fellows. If our assertion is incorrect, we 
 
Seo. 11.] BIRDS. 179 
 
 shall be liappy to be set right, but we believe that facts are agaiii>' tiio birds ; 
 yet if this be so, the circumstance is not to their discredit. Tiiej are the 
 humorists, the musicians, the conversationists of the animal world ; so fully 
 occupied in talking, singing, joking, eating, and rearing their tamilies, that 
 they have little time to devote to those immense beings, pantaiooned or 
 hooi^ed, whom they undoubtedly regard from their airy bights with a sort 
 of contempt, as they behold them slowly plodding along, confined to the dull 
 earth and unable to take a flight even equal to that of one of their newly- 
 fledged otfspring ; and if they condescend to pick up a few crumbs scattered 
 by some gentle hand, they feel as little of the emotion of gratitude to their 
 benefactor, as the squirrel to the chestnut-tree whicli rains upon him his , 
 winter's supply. A certain degree of brain development is necessary for the 
 existence of this emotion, and birds, in this respect, are inferior to most of 
 the quadrupeds with which we ai"e familiar. 
 
 Birds do not seem to be as susceptible as quadrupeds to kind treatment, 
 and those species which have been domesticated appear to have lost what- 
 ever " smartness" they may originally have possessed. The whole tribe of 
 domestic fowls — cocks, hens, ducks, geese, guinea-fowls, turkeys, pea-fowls — 
 are unmitigatedly stupid — acute in nothing but picking up corn and devas- 
 tating gardens. 
 
 Tlie eroio is one of the birds that unthinking men destroy, because they 
 pull up a little corn in the spring. Will you think what else he does ? 
 
 He consumes in the year vast quantities of grubs, worms, and noxious 
 vermin ; he is a valuable scavenger, and clears the land of otfensive masses 
 of deceased animal substances ; he hunts the grain fields, and pulls out and 
 devours the underground caterjiillars, whenever he perceives the signs of 
 their operations, as evinced by the wilted stalks ; he destroys mice, young 
 rats, lizards, and small snakes ; lastly, he is a volunteer sentinel about the 
 farm, and drives the hawk from its inclosure, thus preventing greater mis- 
 chief than that of which he himself is guilty. It is chiefly during seed-time 
 and harvest that the depredations of the crow are committed ; during the 
 remainder of the year we witness only his services, which are so appreciated 
 by those who have written of birds, that I can not name an ornithologist 
 who does not plead in his behalf. 
 
 Frighten the crows, but do not kill them, except one to use to keep his 
 fellows off your corn. Pick off part of his feathers and scatter them on some 
 spot in the field easily seen, and near by lay tlio carcass of the dead crow 
 and you will see his late companion sailing over the field and looking down 
 upon what has been done, but very careful not to light where he too might 
 fall a victim. If you can not kill a crow, you may make a very good show 
 of a dead one with a black hen. Crows are too valuable as vermin-destroy- 
 ers on a form to be wantonly destroyed because they pull up a little corn. 
 
 A writer at Eaton, N. Y., sends us the following item in favor of the per- 
 secuted crow, which makes him out not quite so black as he looks — that is, 
 when seen by the eyes of some of his enemies. He says : 
 
ISO SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 " For the interest of the farming portion of tliis country, I communicate 
 the following : Mr. Alpha Brown, an enterprising fanner of this town, 
 informed me that, having acted this year upon the somewhat late suggestion 
 of yours, of sowing corn broadcast over the planted ground, he experienced 
 a new result. Upon four acres, where heretofore liis crop had been greatly 
 injured by the devastations of the "white grub" and "gray corn-worm," he 
 sowed broadcast, after planting, a half bushel of corn. This, of course, 
 attracted the nrows, which, coming to the ground in the cooler part of the 
 afternoon and morning, found the worms on their usual visit to the surface, 
 and, preferring the latter to the corn, devoured them instead. The result is, 
 that out of the whole field he has not lost to exceed five hills." 
 
 230. The Reverse of (he Crow Qiicstiou. — Having given our opinion in fixvor 
 of the crow, in the preceding paragraph, "wo feel that it is due to a fair in- 
 vestigation of the question not to make it an arbitrary opinion, and rest 
 there, but to give the opinions of others also. It is facts, not theories, that 
 ■we wish to give farmers. 
 
 One who signs himself a " Farmer's Boy," writes from liidgefield. Conn., 
 about crows, as follows : 
 
 " Having lately read your article upon the subject of crows and others 
 of the feathered tribe, I can not hold still my rusty old steel any longer. I 
 agree with you very well until you advocate the protection of crows ; thei"e I 
 think you miss your mark. There is but one thing you name that is in their 
 favor — the digging of grubs. They are the enemies of all our small birds, 
 which you advocate preserving. They commence with the eggs, and con- 
 tinue their depredations until the young are nearly grown. They arc never 
 found destroying insects of any kind that could not be of more use than the 
 crow, and even the grub can be made a source of income to the farmer. An 
 intelligent farmer told me, some years ago, he made 1,000 pounds of i:)ork by 
 letting his hogs feed on them in his meadows, which damaged his grass but 
 little the first year, and thought it better the second by having the surface 
 stirred. You speak of their devouring carrion. Now, in my opinion, no 
 farmer that is a good economist will allow any dead animal to lie and rot in 
 the sun to make food for the crows. I consider the carcass of a horse, a cow, 
 or an ox worth from three to five dollars to any farmer. If so, it is quite 
 too dear food for crows. Some say crows catch grasshoppers and crickets. 
 I prefer a nice brood of turkeys, that will not look bad on the table when 
 they have performed their work on the farm. 
 
 " You see I am a friend to almost everything bnt a crow. If there is any- 
 thing made in vain, it is the crow. They destroy our little warblers ; they 
 catch our chickens, ducks, turkeys, and goslings; they dig our potatoes, pull 
 our corn and beans, from the time they ajipear above ground until they grow 
 out of their way. Then, as soon as the grain is formed on the ear; they 
 commence their work again. Now, if such a pest as this is to be protected, 
 it must be by some one who has a heart softer than I have ; a creature that 
 but one thing can be said in its favor, and the rest must go against it. I 
 
Seo. 11.] BIRDS. 181 
 
 have not the least doubt but our town was taxed $500 hist year to feed 
 crows." 
 
 Upon this we simply remark : If " Farmer's Boy" has a breed of crows 
 about him that really catch turkeys, goslings, etc., and dig potatoes, he is 
 welcome to be tlieir enemy. Our crows are of another sort. But is our 
 "boy" sure that he "can tell a hawk from a hernshaw?" Because the 
 raven, though one of the cnrvus family, is not a crow, as we understand the 
 word ; and it is just possible that the bird that catches turkeys and other 
 birds is a raven. 
 
 We have another opinion, coming from a citizen of Montgomery County, 
 Penn. He says : 
 
 " Leaving T/our crows under your protection, to enjoy their excellent repu- 
 tations, we desire to say a word on the character of ours. That we have 
 real, veritable crows that catch young chickens, is a 'fixed fact,' well estab- 
 lished. The present season, notwithstanding our care, we lost by them, I 
 suppose, from ten to fifteen, and avoided the loss of others only by the use 
 of gunpowder. Our experience on this subject, I may add, is that of many 
 others. This thing, then, our ' breed' of crows do, and also carry off spoiled 
 eggs that may be thrown away, birds' eggs, etc. In reference to ducks and 
 goslings, I am unable to speak, but have no reason to believe that they are 
 distasteful, or that they do not catch them. 
 
 "They love, it appears, a variety. A near and reliable neighbor informs 
 me tliat quite recently he saw one of our tribe in hot pursuit of a rabbit, 
 which, after sundry dodgings, secreted itself under the fence. So you see 
 New York crows difler from ours, and, I incline to think, from most other 
 crows." 
 
 Here is another opinion. Tiiis comes from Theron Wales, Windham, 
 Portage County, Ohio. He says, in relation to our remarks upon the state- 
 ment of " Farmer's Boy :" 
 
 "I conclude you received it as doubtful. I can add testimony in part to 
 the same effect. I have seen the crow aligiit into the nest of the robin and 
 carry away the yoiing birds to feed their own young. They are pa-sionately 
 fond of the eggs of other birds, and I have caught tliem in traps with egg- 
 shells. Hunters of the wild turkey can testify to the hatred between the 
 crow and the gobblers. From the frequent presence of the crow over the 
 gobbling turkey, it appears they watch for their nests. At least every cry 
 of the crow is answered defiantly by the turkey, and tlins I have often been 
 led to approach the turkey and slioot him. Wiiile we were living upon tlie 
 Berkshire Hills, in Massachusetts, it was not unfrequent that our neighbors' 
 and our own young lambs had their eyes picked out by the early returning 
 crows in the spring. But I do not say these things for the sake of engaging 
 in an exterminating war upon them. All things were created for some wise 
 purpose. Every creature lias in nature its enemy and destroyer, and every 
 attempt on the part of man to give iireponderance to one ])art of the wild 
 creation over another, will fail. Civilization will of necessity drive away 
 
182 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 the beaver, otter, deer, and a host of forest birds, and their places will be 
 rapidly supplied by the wren, the robin, the bluebird, the honey-bee, etc. 
 
 "The raven is more carnivorous than the crow. I once saw one alight 
 into a kingbird's nest and carry away the young, in spite of the cries and 
 efforts of the old ones." 
 
 The crowning charge against the crows comes from Freeport, Me., in a 
 letter written by E. Pratt, Jr., who says : 
 
 "Now what '■your croM's' are, or what they eat, or how they get their liv- 
 ing, I know not ; but the crows in Maine both dig and eat potatoes, incredu- 
 lous as it may appear. 
 
 " In some seasons I have known many acres, planted on light soils, in 
 exposed situations, devastated by these miscreants, and that in my own 
 neighborhood. 
 
 "Their manner is, when the plant first breaks gronnd, to dig and pull it 
 up with the tubers attached, thougli it appears by the partially eaten ones 
 left here and there on the field, that they do not eat them with much 
 avidity. 
 
 " I know that popnlar writers think the crow a great blessing to farmers, 
 but I am yet to be convinced of this, and can only wish that those who think 
 their comjjany so desirable should have the benefit of my share." 
 
 There is but little doubt in our mind that most of these bad birds were 
 ravens, and not crows, particularly as Mr. Wales acknowledges the presence 
 of the raven, and says that lie is a carnivorous bird. 
 
 Now, having said our say, and allowed others to say theirs, about crows, 
 we will drop down to wrens, by way of contrast. 
 
 231. Wrens. — We waked one morning — one of those May mornings — 
 when our domicile was a city one, with delightful sounds coming in at the 
 window. They were the notes of sweet singing birds. What lovely music ! 
 It was the first of the season that had come to our ears, and it struck a chord 
 that called to mind scenes of youth, long, long ago. We hastened to the 
 window and looked out. " Ha ! ha ! my old friends," we cried, " and so you 
 have come back again." It was tlie wrens, the same ones undoubtedly that 
 we built a nesting-place for last year. There was one pair then, now two 
 pair — the progeny, we suppose, of those that sung for ns last year. " And 
 so," we said, " you have both come for a nesting-place, have you ? Well, 
 there is the old one — but you must have another. An increasing family 
 needs more room. You shall have it." Notwithstanding the morning was 
 a rainy one, we feared our pets might feel neglected, and so down we went 
 to provide for their necessities. How amply were we repaid the little labor! 
 for all the time we were engaged, they were hopping about the peach limbs, 
 picking off tlie insects, and singing all the while most merrily. Who would 
 not cultivate such society as this? Who would not like to have their trees 
 protected from insects that destroy foliage and fruit? Every one, surely. 
 Then protect the wrens. Build nesting-places for them, and they will come 
 every spring and send their sweet notes into your open window, some pleas- 
 
Sec. 11.] BIRDS. 183 
 
 ant May morning, to waken you to see the beauty of sunrise, or lull you 
 into dreams of the old ftirm-house, orchards, and singing birds. 
 
 A paper from Prof. Nash says he has domesticated the common wren in 
 this city, by building them a suitable house, very much to the amusement 
 and pleasure of the family. One pair hatched and reared ten young ones in 
 one season, and tliey acted as jjerfect scavengers of bugs and worms in the 
 neighborhood. Mr. Nash says two hundred wren-houses were built last year 
 about Union Square, which were not only occupied by wrens, but several 
 other kinds of birds, and these served to keep the park and neighborhood 
 almost free of insects. 
 
 A writer in Hoveys Magazine recommended tlie use of wrens to drive 
 other birds away from the cherry-trees. He says : 
 
 " I have seen the experiment of placing a wren-box on a cherry-tree, tried 
 in several instances with apparent success. The best thing for this purpose 
 is an olive jar. A hole should previously be drilled into the side of the jar, 
 which should be fixed upon the tree, by thrusting the stump of an amputated 
 branch, the more upright the better, into the mouth of the inverted jar, of 
 just sufficient size to admit a wren, but too small to allow a bluebird to en- 
 ter ; since, if it were otherwise, the latter would be sure to get j^ossession of 
 it. The wren being a very jealous and pugnacious bird, is diligent in driv- 
 ing all birds from the tree in which his nest is built, and does not hesitate 
 to attack birds as large as the robin. It is doubtful, however, whether the 
 wren would persevere in his attacks, when the robins had become very numer- 
 ous, but the expedient might be used with some advantage in all cases." 
 
 232. Protecting Trees from Bir<Is< — Some persons advise throwing a net 
 over the trees, during tlie few days while the fruit is becoming mature. This 
 may be done in some cases, if tliei-e are but few trees to be protected, and 
 the owner can afford to undertake a job that must be both troublesome and 
 expensive. Such an expedient Avould be hardly advisable except in extra- 
 ordinary cases. Some fix a little windmill in the tree ; but as the wheel is 
 constantly turning, the birds soon become accustomed to it, and cease to 
 regard it with suspicion. If anything of this kind is to be used, it shoukl be 
 kept motionless, until the birds fly into the tree, and then put suddenly into 
 action by some person who is watching it. Something like a watchman's 
 rattle elevated on a pole, and fastened firmly to each of the trees, witli a cord 
 to be pulled when the machine is to be set in motion, might answer a good 
 purpose. A boy might be hired in this case to watch the trees, and to pull 
 upon the cords as the birds arrived. Cherries require so short a time to 
 ripen, that no tree would need to be watched more than one week. 
 
 As birds always give the greatest offense, by their depredations upon fruit, 
 to those who own but few trees, our argument is, that the best protection is 
 to plant trees enough to serve you and the birds too, with all that all of you 
 can eat. You would then not only have the satisfaction of having what 
 cherries you wanted, but the pleasure of seeing the birds. From experience 
 every season, we are satisfied that the robins save us more cherries than 
 
184: SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 they eat. Our trees were infested with tlie same kind of yellowish bugs that 
 ate the roses, and are commonly called rose-bugs. We have seen half a 
 dozen of them eating upon a single cherry, attacking them before they were 
 ripe, and before the birds did. When at length the robins came in goodly 
 numbers, the bugs decreased, and if the robins ate cherries, they also ate 
 bugs, and we believe more than they did cherries. At any rate we had 
 more cherries than the birds and all the family could dispose of, and some 
 for our friends. So we did not begrudge the dear little birds their share. 
 
 As there are some who can not aftbrd to share their cherries with the 
 birds, and others who are unwilling, we give a way of keeping them off, 
 which we find in the Gardener^s Chronicle, London. 
 
 " The following is a plan I once saw succeed very well for some time, but 
 the birds at last got familiar with it ; still I think it might answer for two 
 months or so. An old gardener being greatly troubled with birds, applied 
 to his master for nets to cover liis fruit with ; but no, they would be too 
 expensive. He therefore got a hawk stuffed in what he called a hovering 
 position, put it on the end of a long wire, attached the wire to the top of a 
 tree, and thus had the hawk suspended in the air as if it had been alive. He 
 had, however, another hawk which really was alive put into a cage, and had 
 the cage put into the same tree where the dead hawk was. The gentleman 
 in the cage was l)y no means mute, and I may add that I scarcely ever after- 
 ward saw birds in that garden, except perhaps a few sparrows." 
 
 Another plan that has succeeded very well at times is to suspend small 
 looking-glasses, or bits of a broken mirror, to the limbs of the tree. Where 
 the sun shines, and the wind blows a little, this device answers a good pur- 
 pose. It is of no use at other times, except that having previously frightened 
 the birds, and prevented them from getting a haunt in the tree, they will not 
 be so likely to come when the mirror is still. 
 
 233. The Food of Birds.— A few facts to show what the food of birds really 
 is, will do something, we hope, to dispel the prejudice which has made man 
 their bitter enemy. 
 
 Wilson, the great ornithologist, computes that a red-winged blackbird 
 destroys, on an average, 50 grubs a day through the summer. Many other 
 birds are equally useful to the farmer. No gold would buy the services per- 
 formed by the birds. One often may be seen following the plowman hour 
 after hour. 
 
 Then look at the eternal labor of the birds in fall, winter, and spring, pick- 
 ing up the seeds of weeds, and upon these they live until grain ripens, before 
 it is possible fjr them to harm the farmer. 
 
 We therefore iirge farmers to spare the birds. They pay more rent than 
 the worth of all they eat. Robins have been thoroughly proved to be insect- 
 eaters, and great destroyers of noxious pests to the farmers, by a committee 
 of the Massachusetts Horticultural Society. 
 
 This Society has done a deed worthy of commendation by all the lovers of 
 birds. A resolution was moved to get the Society to ask the Legislature to 
 
Sbo. 11.] BIRDS. 185 
 
 repeal the law for protectioa of robins, upon the ground that these birds 
 were noxious to the farmer ; it being contended tluit their food being veg- 
 etable, they were great destroyers of valuable fruits. Upon this, Prof. 
 Jenks (Prof, of Zoology) suggested that the Society should first learn the 
 habits of the robin, and a committee, consisting of Prof. Jenks, C. M. Hovey, 
 and E. S. Rand, Jr., were appointed, and have reported the following facts : 
 " Plan Adopted for the Investigation. — 1. To obtain birds at daybreak, mid- 
 day, and sunset. 2. To obtain birds from both the village and the country. 
 3. To preserve in alcohol the contents of each gizzard. 
 
 Results in Procuring Specimens. — Beginning with the first week in March, 
 1858, specimens have been examined at least iveeklg, and most of the time 
 daili/, to December, and during the winter months, at least semi-monthly to 
 the date of the report, in the spring. 
 
 Results of Investigation. — 1. Early in March, numbers of this bird made 
 their appearance in tliis vicinity (Boston) ; but, until the second week in 
 April, only the male birds. 
 
 2. The gizzards of those kQled in the morning were, as a rule, either 
 entirely empty, or but partially distended with i'ood, ivell macerated ; Avhile 
 those killed in the latter part of the day were as uniformly filled with food 
 freshly taken. 
 
 3. From the almost daily examination of their gizzards from the early part 
 of March to the first of May, not a particle of vegetable matter was found in 
 the gizzard of a single bird. On the contrary, insects in great variety, both 
 as to number and kind, as well as in every variety of condition as to growth 
 and development, were the sole food. 
 
 But nine tenths of the aggregate mass of food thus collected during this 
 period consisted of one kind of larvas, which, through the aid of Baron Osten- 
 sacken, secretary of the Russian legation at "Washington, I was enabled to 
 identify as the Bihio aXbipennis (Sag), and whose historj^ and habits, by the 
 aid of Dr. Asa Fitch, entomologist of the New York State Agricultural 
 Society, I was enabled to make out quite satisfactorily. 
 
 From one to two hundred of these larvte were frequently taken from a 
 single gizzard, all in a fresh, unmaceratcd condition ; and usually, when these 
 larvo3 were found, they were the only food in the stomach. 
 
 To quote from a communication received from Dr. Fitch, he says : ' My 
 attention was first directed to this fly some twelve years ago, when I was 
 occupied in investigating the wheat midge. T observed it to be so very 
 common in fields of growing wheat that I suspected it of living at the expense 
 of that grain ci'op ; but on looking around I found it was equally as common 
 everywhere else — resting upon the grass, leaves, and flowers in my yard and 
 garden, as well as in meadows, pastures, and forests. « * * * * Jt 
 comes abroad about the 20th of May, and continues about a fortnight. You 
 will readily recognize it by its commonness, and its white transparent wings ; 
 its body being black, clothed with soft, white hairs. It is very sluggish, 
 moving around but little, and is easily picked up by the fingers. * * * 
 
186 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 On page IGi of the London Gardener's Chronicle of the year lS4i, is a val- 
 uable article of Euricola, (J. O. Westwood), giving a full history of the 
 Blhio Marci^ the European analogue of the one in question. 'It appears 
 tliese insects (unlike most others of the family Tipulida; to which they per- 
 tahi) are most pernicious, the larviB feeding upon the roots of plants, some- 
 times to such an extent as to cause them to wither and die. Kuricola states 
 that the larvae of the Merci, and other allied species of Bibio, are frequently 
 sent to liiiu by gardeners, who find them to be miscliievous in their straw- 
 berry beds, vine borders, flower pots, and other situations where the soil 
 remains undisturbed during the autumn and spring.' And another writer, 
 Bonche, says 'that his bed of ranunculuses was completely demolished, for 
 several successive years, by tliese worms eating the roots.' From tlieae facts 
 every one will perceive that the robin, consuming, as 3'ou found it to do, 
 from one to two hundred of these Blbio larvse daily, during the month? of 
 March and April, has probably been ridding our gardens of these verniin 
 every j'car hitherto ; thus rendering us an important service, of which we 
 have been wholly unaware. * * * The larvse are gregarious ; living 
 together in swarms, and perforating the ground so that it resembles a honey- 
 comb. 
 
 ' This is probably caused by the parent fly depositing her whole stock of 
 eggs in one spot, she being too lazy and slothful to wander about and dis- 
 tribute them in diflerent places. Hence the robin, on finding one of these 
 worms, knows that there is a host of others at the same place, and thus re- 
 pairs to that spot, day after day, and gluts himself witli them till the whole 
 colony is exterminated.' 
 
 To this extract I may be allowed to add, that my own observations, during 
 the past year, confirm the conclusions of Dr. Fitcli respecting this larva in 
 every particular, having found its colonies in November, and observed the 
 fly in early summer. I may also here introduce an extract from a commu- 
 nication of a lady friend, under date of Oct. 7, 1858. She says : " On speak- 
 ing of your remarks concerning the food of the I'obin, at the Teachers' Asso- 
 ciation at Bridgewater, in June last, to my fatlier, he told me of a little 
 circumstance which I thought just proved your statement. It was formerly 
 the custom to have a shooting match on election day in May. On such an 
 occasion in North Bridgewater, about the year 1820, a great many birds 
 were killed, so many that a man bought them by the cart-load for tlie pur- 
 pose of enriching liis land. In consequence, there was a great scarcity of 
 birds in that vicinity, and a great amount of grass land seemed to be injured, 
 but from what cause no one knew. The grass withered and turned dark- 
 colored, as though it had been burnt, commencing in small tufts and spread- 
 ing in large circles." It would seem that the insect under consideration 
 would, growing undisturbed, produce precisely this result. 
 
 4. During the month of May, the Bibio larva3 entirely disappeared from 
 the gizzards, but up to the 21st of June, was replaced by a variety of insects 
 or worms only, including spiders, caterpillars, and beetles of the family 
 
Sko. 11.] BIRDS. 187 
 
 Elateridce, the parents of the well-known wire-worms, so destructive to corn 
 and various other seeds when committed to the ground. 
 
 The earth-worm I found to be a favorite food for tlie young bird, bnt 
 sparingly enployed by the adult for its own use. 
 
 5. From tlie date of June 21, I began to find strawberries, cherries, and 
 j)nl2:)y fruit generally, but in a majority of the examinations intermingled 
 with insects, which led me to conclude that they were not fond of an exclu- 
 sively vege'able diet, but rather adopted it as a dessert, and from the ease 
 of procuring it, particularly during the enervating season of molting. At 
 this season of the year, I discovered a marked difference in the food of the 
 birds killed near or in tlie village, and those killed in the country at a dis- 
 tance from gardens and fruit-trees, the latter having less stone fruit and more 
 insects in their gizzards, which led me to conclude that the robin is not an 
 extensive forager. 
 
 6. The mixed diet of the robin seems to continue from the ripening of the 
 strawberries and cherries to October, the vegetable portion consisting, during 
 August and September, in great part of elderberries {Samhucus canadensis) 
 and pokeberries {Phytolacca clecandrct). 
 
 7. During the month of October the vegetable diet is wholly discarded, 
 and its place supplied by grasshoppers and ortliopterous insects generally. 
 
 S. Early in November — the robin migrates southward — the few remaining 
 eking out a miserable existence, during the winter months, on bayberries 
 {Myrica ccrifera), privet berries {Ligudnim vuhjarc), and juniper berries 
 {Juni/pei'us communis). " 
 
 Here is something further upon the food of robins : In the report of the 
 proceedings of the Boston Society of Natural History in September, 1858, 
 we find an instructive paper from Prof. Treadwell, of Cambridge, giving a 
 detailed account of the feeding and growth of two American robins {Tardus 
 migratoriu^, Linn.), during a period of 32 days, commencing from the 5th of 
 June. 
 
 " When caught, the two were quite young, their tail feathers being less 
 than an inch long, and the weight of each about 25 pennyweights — less than 
 half the weight of the full-grown bird. Both were plump and vigorous, and 
 had evidently been A^ery recently turned out of the nest. He began feeding 
 them with earth-worms, giving three to each bird that night ; the second 
 day, he gave them ten worms each, which they ate ravenously ; thinking 
 this beyond what their parents could naturally sujiply them with, he limited 
 them to this allowance. On the third day, he gave them eight worms each 
 in the forenoon ; but in the afternoon, he found one becoming feeble, and it 
 soon lost its strength, refused food, and died. On opening it, he found the 
 crop, gizzard, and intestines entirely empty, and concluded, therefore, that it 
 had died from want of sufficient food, the effect of hunger being perhaps 
 increased by cold, as the thermometer was about 60^. -The other bird, still 
 vigorous, he put in a warmer place and increased its food, giving it the third 
 day 15 worms, on the fourth day 2i, on the fifth 25, on the sixth 30, and on 
 
188 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 the seventh 31 worms. They seemed insufficient, and the bird appeared to 
 be losing plumpness and weight. He began then to weigh both the bird 
 and its food, and the results were given in a tabular form. On the fifteenth 
 day, he tried a small quantity of raw meat, and finding it readily eaten, in- 
 creased it gradually, to the exclnsiou of worms ; with it the bird ate a large 
 quantity of earth and gravel, and drank freely after eating. By the table, 
 it appears that though the food was increased to 40 M-orms, weighing 20 dwt. 
 on the eleventh day the weight rather fell oif ; and it was not until the 
 fourteenth day, when he ate 68 worms, or 34 dwt., that he began to increase. 
 On this day the weight of the bird was 24 dwt. ; he therefore ate 41 percent, 
 more than his own weight in twelve hours, weighing after it 29 dwt., or 15 
 per cent, less than the food he had eaten in that time. The lenglh of these 
 woi-ms, if laid end to end, would be about fourteen feet, or ten times the 
 length of the intestines. To meet the objection that rhe earth-worm contains 
 but a small amount of nutritious matter, on the twenty-seventh day he was 
 fed exclusively on clear beef, in quantity 23 dwt. ; at night, the bird weighed 
 52 dwt. — but little more than twice the amount of flesh consumed during the 
 day, not taking into account the water and earth swallowed." 
 
 A man eating in the same proportion would consume 70 lbs. of flesh and 
 five gallons of water. Four young robins would require, according to the 
 consumption of this bird, 250 worms, or their equivalent in insects or other 
 food, daily. After the thirty-second day the bird was fed for eighteen days 
 on an average of 15 dwt. of meat, two or three earth-worms, and a small 
 quantity of bread each day ; the whole being equal to 18 dwt. of beef, or 
 36 dwt. of earth-worms ; and it has continued to eat this amount to the 
 present time. The food was never passed undigested ; the excretions were 
 made up of gravel and dirt, and a small quantity of white semi-solid urine. 
 
 Every admirer of trees may derive from these facts a lesson, showing the 
 immense power of birds to destroy the insects by which our trees, especially 
 our apples, elms, and lindens, are every few years stripped of their foliage, 
 and often many of them killed. The food of the robin, while with us, con- 
 sists principally of earth-worms, various insects, their larvse and eggs, and 
 a few cherries ; of worms and cherries they can procure but few, and those 
 during but a short period, and they are obliged therefore to subsist princi- 
 pally upon the great destroyers of leaves, canker-worms, and some other 
 kinds of caterpillars and bugs. If each robin, old and young, requires for 
 its support an amount of these equal to the weight consumed by this bird, it 
 is easy to see what a prodigious havoc a few hundreds of these must make 
 upon the insects of an orchard or a park. Is it not, then, to our advantage, 
 to purchase the service of the robins at the price of a few cherries ? 
 
 Speaking upon this paper, the editor of the Newark (N. J.) Advertiser 
 says : 
 
 " There is so little knowledge of the habits of birds, and their ways and 
 means of gaining a living in the world, that anything which promises to 
 produce better acquaintance with them ought to be generally made known. 
 
Skc. 11.] BIRDS. 189 
 
 " It will be seen by this account, that quite a yt>ung robin died from 
 starvation, because it was allowed but eight or ten earth-worms a day. The 
 survivor was afterward freated more generously, and hisfare was increased 
 from day to day, till he iiad lor his diuner 68 worms, or 34 dwt., though the 
 robin himself weighed only 24 dwt., thus cousumiug in twelve hours 41 per 
 cent, more than liis own weight. 
 
 "■ After the bird was fully grown, lie continued to eat one third of his own 
 weight in clear flesh daily ! A man with such voracity (inferior, however, 
 we have seen to that of the young bird while growing) would have some 
 difficidty in finding board in any of our cities. But nature is not obliged to 
 go to market to sustain her children with comfortable food. This same 
 robin, if permitted to be free to satiate his prodigious appetite, not chiefly 
 on cherries or other fruits valued by man, but upon man's enemies, would 
 range himself on the side of man, and slaughter the numberless insects of 
 every variety which are destructive to his crops. Here we have reason to 
 be grateful for the prodigious appetite of the robin, and thank him for his 
 extraordinary gormandism. This guest at the table of nature is addressed 
 in very diflerent language from guests generally. She says to him. Will you 
 take something further ? pray don't spare, but help yourself to the spider, the 
 canker-worm, the measurer, the caterpillar, grub, slug, and bug, and help 
 yourself also to a score or two of curculio's eggs. Thus, ' more the merrier' 
 is the sentiment of nature's feast. How the insect tribe, and all the wicked 
 fry who infest our fruits and cereal crops, fall before the all-devouring robin ! 
 Even the ugly bug tliat is said to infest and feed upon the tubers and tops 
 of the potatoes, producing theijeby tlie blight or rot, might be exterminated, 
 if the robin and other birds were not destroyed or frightened away by boys, 
 or men as stupid or mischievous as boys. 
 
 " For what had been remarked of the voracity of the robin, is probably 
 true with respect to other birds. Men have but recently come to the knowl- 
 edge that they are the most efiectual protectors they can have of tbeir fruits 
 and crops ; but nobody till now has been aware of the full extent of the 
 obligation they are under to even a few birds in consequence of their being 
 such enormous eaters. If their board costs them anything, they never could 
 be able to stand it. But it does not — -only now and then a life or two among 
 them, taken l)y some rascal or vagabond, who should be tlieir true benefac- 
 tors, for they are busy in the service of man.'' 
 
 This bird, tiio robin, is probably known to nearly every one wlio will 
 read this volume ; but we will add the following shprt description : 
 
 The robin measures nine inches and a half in length. His bill, which is 
 about an inch long, is strong, yellow, and dusky near tlie tip ; the head, back 
 of the neck, and tail are black ; the back and rump, asli color ; the throat 
 and upper part of the breast are black, the former streaked with white ; the 
 whole of the rest of the breast down as far as the thighs is of a dark orange ; 
 belly and vent, white ; legs, dark brown ; claws, black and strong. 
 
 It builds a large nest, often on an apple-tree, which it plasters on the 
 
190 SMALL ANIMALS AND INSECTS. [Chap. XL 
 
 inside fwitli nnid, and iines with hay or fine grass. The eggs are from four 
 to six, bhiish green, imsjjotted. They feed o^i worms, insects, fruit, and 
 berries, especially those of the sour gum-tree {JVi/ssa sylvatlca). When 
 fat, tlie robin is in considerable esteem for the table. 
 
 These birds are among our earliest songsters. Even in March, while the 
 snow yet mantles the fields and woodlands, he will mount a post or leafless 
 tree, and make an attempt at a song. 
 
 They are ornamental to every farm, and should be encouraged to build 
 their nests in every garden. 
 
 23J:. Birds Destroying Cirasshoppers aud Worms. — Last year, in the neigh- 
 borhood of Philadelphia, there was a swarming pest of grasshoppers. By- 
 and-by, when every one was at his wits' end to know what to do to get rid 
 of this scourge, there was a sudden appearance of immense flocks of plover, 
 which spread themselves over the fields, and devoured with avidity the 
 grasshoppers. Some of them have been shot to test the matter, and their 
 crops have been found full of gi-asshoppers. The ravages of the latter soon 
 cease wherever the flocks of plover appear, as the great number and voracity 
 of the birds render them more than a match for the insects. Up to this 
 visit of plover, the only relief from this calamity was the eagerness with which 
 the fowls devoured the grasshoppers. Turkeys, the most eflicient adversaries 
 of these insects — because the largest and most active— have thriven wonder- 
 fully upon them. So have the ducks, geese, and chickens. If fiirmers pre- 
 fer to be annually eaten up by insects, they will continue their insane war- 
 fare upon birds. On the contrar}', let them be protected, and encouraged to 
 build their nests in the very windows of our c|wellings, and see what myriads 
 of pests they will destroy ! 
 
 In one of the years that I lived on the "Western prairies, there was an 
 irruption of greedy devourers of farm crops, known as the army worm, 
 coming from no one knows where, nor when to look for its march. It is 
 easy to trace it, however, after it has marched over a country, for it con- 
 sumes every leaf of grass and grain, wherever the army spreads itself 
 j I Farmers someiimes plow a deep furrow around a field as the army 
 approaches, and this furrow will soon fill up with worms, which arc crushed 
 by a log drawn over them ; repeating the operation every day. This is 
 troublesome, and not always efi'ective. In the year alluded to, the army 
 approached just at the time it would be destructive to the wheat crop, and 
 the owners of the most exposed farms were in sore trouble at the prospect 
 before them. For two days they looked on in dread. " One more day," they 
 said, " and we shall be swept." One more day came, and with it one of man's 
 best friends, the worm-eating birds. Looking out southward where the 
 worms were at work on the prairie grass, a black cloud was seen hovering 
 close to the ground. It was a cloud of blackbirds, coming up from their 
 great nesting-place in the Kankakee marshes, to feed on the worms. They 
 saved the wheat crop. It is true that this variety of birds, when they come 
 in great flocks into the grain-fields, are pests, but not half as bad as worms 
 
 i I 
 
Seo. 11.] BIRDS. 191 
 
 and bugs would be if not destroyed. Besides, birds can be watched and 
 driven away from fields, where no efforts of man would serve to drive away 
 an army of worms, marching to destroy, nor prevent his farm from being 
 devastated by such a flight of grasshoppers as swept every green thing from 
 a portion of Minnesota a few years ago. Birds, then, in countless numbers, 
 will be found to be man's best friends. 
 
 235. The Sap-Suckers. — The name of " sap-sucker" has been given to a 
 very useful class of birds, under the erroneous impression that they sucked 
 the sap from the fruit-trees, where they are often seen, hour after hour, 
 clinging to the bole of an apple-tree, patiently drilling, drilling, drilling 
 their little bills through the bark, leaving it, sometimes, as full of holes as a 
 honey-comb. It is a slander upon these beautiful, busy little birds to sui> 
 pose their object is to suck out the sap, and thus destroy the trees. To say 
 that the " sap-sucker" girdles apple trees and destroys them, or taps the 
 Austrian and Scotch pines so as to cause them to bleed to death, we must 
 have stronger proof than slipshod statements. 
 
 In argument against the birds, it has been stated that they have been shot 
 wliile in the very act of 
 
 "Tapping the hollow beech-tree," 
 
 and their craws examined without finding a worm, and nothing but pieces 
 of bark, thus proving their object to be eating- the bark, if not sucking the 
 sap, and tli'at they were therefore very injurious to trees. These microscopic 
 examinations only prove what we have long believed, that the bird can not 
 always tell where the worm is that he wants, and so has to bore until lie 
 finds him. It is not likely that he goes far* amiss, and probably hits him 
 oftener witli tiie first hole than he fails. It is thought by many persons that 
 that troublesome little destroyer of fruit, the cureulio, deposits its eggs in 
 tlie bark of trees, and that that is what the sap-sucker is after. It is certain 
 that when sap-suckers abounded in our orchards, there was no complaint of 
 cureulio." In our opinion, a perfectly healthy tree, free from insects, is never 
 attacked by any of the nut-hatch family— vulgarly called " sap-suckers." 
 "We believe that, on the contrary, they are of essential service to man ; and 
 that it was one of the admirable provisions of nature, where everything 
 works on an even balance, until one scale is overloaded by man, tliat the 
 nut hatcli should stand sentinel over the fruit-trees, and keep the pestiferous 
 insects from getting the balance of power. 
 
 236. Do Birds Eat Bees ? — It has long been a mooted question whether the 
 birds known as " kingbirds" (the Jihtscicajxc tyrcmmis) destroy bees ? 
 This bird has obtained liis name from a spirit of boldness in attacking and 
 driving away birds of much larger size and power, enough to kill him at a 
 single stroke. He has obtained the name of a destroyer of honey-bees, and 
 war to the death has been declared against him, on the evidence of liis bad 
 name, and, as we think, without anything like a fair trial. 
 
 A few years ago we elicited a great deal of testimony upon this question. 
 One witness, Mr. Nathaniel M. Tobey, of Tompkins County, says he is an 
 
192 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 ojd fanner, has kept bees ten years, and always encouraged birds to make 
 their homes upon his premises. One season, observing two kingbirds about 
 liis hives, he was curious to know what they were after, and ascertained to 
 his satisfaction that they caught bees on their return to the hive, not to eat 
 them bodily, but to disembowel them and despoil them of tlie " honey-sack." 
 
 He attributed the non-swarming of the bees to this pair of kingbirds, but 
 says his bees have never been molested since. 
 
 That the kingbirds caught Mr. Tobey's bees wc have no doubt, since he 
 says he saw the disemboweled carcasses under the trees where they alighted, 
 but that one single one of them was a worker we do doubt, and that a single 
 pair of kingbirds were the cause of the non-swarming of several hives of 
 bees, we have no doubt upon the subject — we know it was not the case — it 
 would be a preposterous absurdity to believe such a wild tale. We do not 
 believe that all the kingbirds in the world ever destroyed a hive of working- 
 bees, and a man who M'ill kill the innocent birds without better proof of 
 their guilt, than all that we have heard, is at heart a — bird murderer. 
 
 Other persons declared that they had often seen kingbirds catch bees, on 
 the wing, near the hive. This we do not doubt, because others have seen 
 the same thing, and have killed and dissected them and found bees in tlieir 
 craws. But in every case M'here they were examined by persons competent 
 to decide, tliey have declared that none but drones were ever found. Upon 
 this point the instinct or observation of the bird is perfect ; anfl this may 
 have been one of nature's provisions, that these birds should be assistants 
 of the workers, and not their destroyers. Certainly, until we have some 
 better evidence against the birds, we shall advocate their protection. Surely, 
 if thc}"^ eat bees, they also cat other flics, and if permitted to live and multi- 
 ply around our dwellings, might keep us free of a great many pestiferous 
 insects. If a bird can eat a stinging-bee Avith impunity, it can also eat a 
 wasp or hornet, and so destroy that family. 
 
 237. Swallows, Swifts, and Marlins.— In our boyhood, swallows were looked 
 upon as pests of the farm, or rather the barn, and war was often waged upon 
 them by the boys, with the countenance of those who s'.iould liavc been well 
 enough informed to teach them better. Wc hope the day is past when any 
 one would wantonly destroy tliese beautiful birds. 
 
 Ilinmdo is the generic term applied to the class of birds comprised in the 
 several species of barn swallows, bank swallows, chimney swallows, and a 
 large, strong sort known as swifts, and the common martin, for wliich many 
 New England people are careful to provide boxes, which are often attached 
 to the dwellings. Their first appearance in spring is hailed with delight, 
 and the time of their coming often noted, so as to compare one year with 
 another. Although " one swallow does not make it spring," people have 
 learned to think that many never come until spring is fixirly opened. 
 ' The Hlrunilo family are all birds of passage. They go far south to win- 
 ter, and return with great regularity to their old haunts, to build their nests, 
 rear their young, and catch flies, till autumn approaches, and then they are 
 
Seo. 11.] BIRDS. 193 
 
 off. They cross the parallel of 40°, on their northern journey, abont the 
 first of May. 
 
 The barn is often tenantless at night, and alive with the twitter of swal- 
 lows the next morning. To talk about their hybernating in the mud, or in 
 hollow trees, is simply ridiculous. You might just as well expect wild geese 
 .to go down into the nnid to winter, as for the swallows to do so. 
 
 The following description of some of the rare varieties of the Ilirundo we 
 found in the Countnj Gentleman newspaper, and thought it interesting: 
 
 "The Cliff, or Republican Swallow, Ilirundo lunifrous, or Il.fulva, is a 
 well-known swallow among farmers. Its crown and back are of steel blue, 
 belly white, length five inches, plus, and the stretch of the wings twelve 
 inches, plus. They formerly occupied the clifi's of the Rocky Mountains and 
 the fur countries. One of the first records of their appearance in the States 
 was. at Henderson, and Newport, Ky., on the banks of the Ohio, in 1815. 
 In 1817 they M-ere observed at Whitehall, N. Y., near Lake Champlain. 
 These birds are of social habits, building their nests in clusters, or near each 
 other. Vieillot observed one at sea, off Nova Scotia, long before this. They 
 have long been known in that jjrovince. In 1818, it is stated that they began 
 to build at Crawford's, near the base of the White Mountains. General 
 Dearborn saw their nest at Winthrop, Me., in 1830 ; also in Gardiner. 
 The writer first saw them in Worcester County, Mass., about 1838. Their 
 nests are arranged frequently along under the eaves of a barn, in the form 
 of a projecting retort, constructed of pellets of earth, with an internal lining 
 of dried grass, in which are laid four eggs. Their note is not a twitter, but, 
 according to Audubon, resembles in sound tlie rubbing of a moistened cork 
 in the neck of a glass bottle. Within a quarter of a century they have be- | 
 come the favorites of many New England farmers. 
 
 " The Violet-green Swallow, Ilirundo thalassina, tail acutely emarginate; 
 back a soft, velvety green, shaded with purplish violet; length five inches, 
 and the stretch of the wings twelve inches; is common in the Rocky Mount- ' 
 ain region. They are tlie associates of the cliff swallow, just described, I 
 their note being more like that of the barn swallow. Their nests resemble 
 those of the clifl' swallow, wanting, however, the pendulous neck. They ! . 
 sometimes occupy the deserted nests of their associate species. They are not j j 
 common east of the Mississippi River. j < 
 
 " The White-bellied Swallow, Ilirundo hicolor, is of a glossy, metallic green i ! 
 above, and white below ; hence its common name. Its length is six inches, ; 
 and the stretch of the wings is twelve and a half inches. It is not as com- j , 
 mon as the barn swallow, and is allied somewhat to the purple martin. 
 Their note is a shrill, lively, warbling twitter. They are usually the first ■ 
 swallows that appear in the spring. They breed in some deserted house or j \ 
 hollow tree. Tlicy use no mud in building their nests, which are lined M-ith 
 feathers. 
 
 "The Rough-winged Swallow, Ilirundo sennpmnis of Audubon, and Cotylc 
 serripennis of Bonaparte ; color above a light, sooty brown, and beneath j ; 
 
194 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 a whitisli gray ; lengtli five and a half inches, and the stretch of the wings 
 twelve inches. 
 
 " The Chimney Swift or Swallow, Hlrundo pelas(jfia of Linnsens, and Chce- 
 turapelasgia of Ste-phens; color a sooty brown ; length five inches; the stretch 
 of wino-s twelve inches; the tail is short and mucronate. They build their 
 nests frequently in chimneys, sometimes in hollow trees. They are small and 
 shallow, and are attached to the side of the chimney or tree by an adhesive 
 gum or mucilage secreted in the stomach of the architect. They feed their 
 young through the greater part of the night, as the writer has frequently ob- 
 served. The noise they make in passing down and up the chimney resembles 
 distant thunder. 
 
 " Vaux's Chimney Swift, or the Oregon Swift, resembles the one described 
 above ; length three and a half to four and a half inches ; stretch of the 
 wings ten inches, plus. This species is not rare on the Western coast. 
 
 "The swallow tribe are remarkable for their social habits, living generally 
 in colonies, constructing their nests together ; and when the season for mi- 
 gration arrives, they leave in large flocks. They usually rear two broods or 
 more per pair during the summer. They frequent watery places or swampy 
 lands, ponds, etc., in pursuit of winged insects, which they take on the wing. 
 In fair weather they usually fly high in the air. As the air becomes less 
 dense, the insects fly nearer the earth, and the swallows skim near the sur- 
 face of the earth or water, M-hicli prognosticates rain at hand. The number 
 of flies, gnats, etc., annually consumed by swallows exceeds all calculation. 
 Ilenoe the truth of the observation of a farmer, whose barn-eaves had be- 
 neath them one connected line of cliff swallows' nests : ' I am very glad to 
 have these birds here, for my cows and milkers are much less troubled with 
 gnats and flies than before these swallows came in such numbers.' 
 
 "Some farmers try, unwisely, to exclude swallows from their premises, 
 because, say they, ' these birds make dirty work.' Granted, but it is far less 
 troublesome and annoying than the insects of the kinds named, which greatly 
 multiply in the absence of the swallows, swifts, and martins." 
 
 Barn swallows and martins are too widely known to make a description 
 of them interesting in this place. Children, however, should always have 
 an opportunity of seeing their portraits and reading their history in Audu- 
 bon or Wilson, as well as that of every other bird, and, by learning their 
 habits, judge which is and which is not beneficial to the farmer. Swallows 
 and martins would certainly not then be doomed to destruction. D. W. War- 
 ner, of Sharon Springs, N. Y., says : 
 
 "My father repeatedly attempted wheat-growing, but as often failed, the 
 weevil taking the whole crop, until a large colony of martins established 
 themselves under the eaves of the barn, since which time he has raised good 
 crops of spring wheat. The wheat has been grown within one hundred rods 
 of the barn. Query — Had the -martins anything to do in preventing the 
 appearance of the weevil ?" 
 
 238. Skylarks and Imported Birds. — Several attempts have been made to 
 
Sec. 11.] BIRDS. 195 
 
 iutroduce skylarks into this country. In February, 1853, John Gorgas, of 
 Wihnington, DeL, received a lot of twenty, which were kept confined until 
 the 19th of March, when they were set at liberty. Another lot of twenty- 
 two arrived April 18th, and were set at liberty the next day. This was 
 only twenty-two days from the time they were trapped in England. These 
 birds propagated in the neighborhood that season, and strong hopes were 
 entertained that the English skylark had been introdnced permanently 
 into this country ; but these hopes have not been realized. A letter 
 from Mr. Gorgas, in the summer of ISGO, indicates that the birds have all 
 disappeared. 
 
 There was also another lot of skylarks imported, and liberated in Green- 
 wood Cemetery, on Long Island, in the spring of 1853, and still another lot 
 wei-e set free in "Washington city, at a later period ; bnt, so far as wo can 
 learn, all of these birds have disappeared. Tliis is greatly to be regretted ; 
 for besides the interest of their enrions flight and song, they are great insect 
 destroyers. Their home is in the grass and grain fields, and their food in 
 summer is entirely composed of insects and worms that are pests to the 
 farmer. In Europe they inhabit a wide range of latitude, feeding in winter 
 npon seeds of grass and weeds, and, if located too far north, making a short 
 migration to a milder clime. It can not be owing to the cold that they do 
 not succeed here ; but it is not improbable that the cold has prompted them 
 to move southward, and they have not felt disposed to return. We still hope 
 the skylark will have its home with us, as common as in England, where it 
 is so noted as a song-bird. Its flight skyward is also very curious. It as- 
 cends perpendicularly, as though it screwed itself through the air, until 
 quite out of sight, and after a little descends in the same way. The skylark 
 in Europe is a fine table luxury, notwithstanding they afford but half an 
 ounce each of meat to the epicure. Vast numbers of just as diminutive 
 birds are sacrificed upon the epicurean tables of all our large cities in the 
 United States. 
 
 To those who may take an interest in the importation of birds, the follow- 
 ing account Avill be useful, as given by Mr. W. Brodie, of his successful 
 transportation of English pheasants, gold pheasants, and partridges from 
 England to New Zealand. He says : 
 
 " I left the St. Katherine's Dock with thirty-six pheasants and partridges 
 on board, and after a long and most disagreeable voyage of 261 days, landed 
 in Auckland, New Zealand, with the same number as I had left England 
 with. It is a pastime to cabin passengers going a long voyage to have some 
 occupation to break the monotony of shipboard imprisonment. I therefore 
 looked after my own birds, cleaned them out every morning, gave them 
 fresh red gravel (coarse) every other day, supplied them bountifully with 
 fresh water (not water caught on deck after a heavy rain, as there is a cer- 
 tain quantity of tar in it), never allowed them a fresh-water bath, fed them 
 with buckwheat, wheat, canary-seed, and hemp-seed alternately, week and 
 week about, kept them in wicker cages made on purpose, three feet long. 
 
196 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 two feet wide, and one foot high, and padded the toj) inside tlie lids of the 
 ca^es, to protect their heads. 
 
 " These birds were kept on deck the whole of the voyage, with a painted 
 canvas cover to protect them from the salt water in bad weather. Hence 
 my success. The increase of my birds has amounted to tens of thousands. 
 In the northern part of New Zealand they breed twice a year, and they have 
 stocked the province of Auckland, 200 miles distant from the point where 
 they were first sent adrift, which was upon one of my estates, near the North 
 Cape of New Zealand. In the early part of 1859 I sent out 400 house and 
 hedge sparrows and yellow-hammers to Auckland ; and I hope in September 
 to send out 400 singing birds to the same port gratuitously. Birds should 
 not be sent out between March and September ; those sent in April or May 
 are sure to pine away and die, it being their pairing season." 
 
 By pursuing the course adopted by Mr. Brodie, we might liave some of 
 the most rare birds of California brought to the Atlantic States, with un- 
 doubted profit to the importer. 
 
 239. Laws for the Protectiou of Birds.— The State of New York has had 
 what is called a " game law" for a good many years ; but it was a law for 
 the protection of a class of men and boys Avho, without any claim to tlie 
 title, called themselves "sportsmen" — such sportsmen as would shoot a 
 robin-red-breast on her nest, or an imported skylark in the midst of his song. 
 The law was only incidentally beneficial to farmers, so far as it protected 
 game birds, t!ie most of M'hich are great insect-caters. There is not a farmer 
 in all the old States that, can afford to have a quail killed upon his farm, if 
 he was paid a dollar a head. This species of wild bird would be semi 
 domesticated, if man would allow it to be so. "VVe have seen them so gentle 
 that they often came around the barn for food in winter, and only walked 
 slowly away at the approach of man. At such a time we would not ftill one 
 for ten times its value as food. All the past sunmier we had the delight of 
 knowing that a pair of these beautiful birds were safely rearing their young 
 only a few rods from our home. Often, as we M'alked about the little farm, 
 they were seen dodging along some path, or between the corn-rows, or into 
 the shelter of the grass or shrubbery. Then, with what sweet satisfaction 
 we listened to " Bob "White," sitting upon the wall, telling us almost uner- 
 ringly of the approach of " more wet !" 
 
 An Illinois farmer declares that a flock of quails made him a crop of corn, 
 having voluntarily taken upon themselves to rid the field of cut-worms. "I 
 never," says he, " can again consent to the destruction of these valuable 
 birds. I used to shoot and trap them, but I was ignorant of their value on 
 the farm. 
 
 A neighbor of ours, a true sportsman, said to us, the other day: "I have 
 done shooting quails. I used to think it real sport to wing these beautiful 
 birds; and the temptation to do so was enhanced by the delicious food they 
 afiford. I really think that I never shall shoot another quail in my life." 
 
 In answer to our " Why ?" he said : 
 
Skc. 11.] BIRDS. 197 
 
 " I had never studied their liistorj, and the nature of their habits, and 
 character of their food, until this season. I was incited to do this from 
 meeting with a pair of the birds every time I walked over a certain portion 
 of the farm. They were almost as gentle as the fowls in the door-yard, and 
 frequently I noticed them so busily engaged picking up worms in the corn- 
 field, that it led me into a train of thought and study that has taught nie 
 not to kill quails. A few days ago I saw my pets — for such I had come to 
 regard them — with sixteen young ones, each nearly as large as its parent. 
 If I could guard that flock from the depredation of idle boys, no money 
 would buy them. Why, what useful as well as interesting birds they are ! 
 "We want stringent laws, well enforced, to protect quails.'' 
 
 Yes, but, most of all, we %vant information for farmers of their value. 
 
 The following arc the penalties of the ISTew York Game Law, jjassed April 
 14, 1860: 
 
 It is $'2.5 fine to kill a deer in the first seven months of the year. 
 
 It is $2 fine to kill a woodcock between Januarj' 1 and July 4 ; or a par- 
 tridge (ruffled grouse) between January 15 and September 1 ; or a quail be- 
 tween January 1 and October 15; or any wild duck between February 1 
 and August 1. 
 
 It is $10 fine to kill a prairie fowl, or pinnated grouse, at any time within 
 five years. 
 
 It is $10 fine to trap or snare quail or grouse. 
 
 It is 50 cents fine to kill, trap, or snare a nightingale, night-hawk, blue- 
 bird, yellow-bird, oriole, finch, thrush, lark, sparrow, wren, martin, swallow, 
 woodpecker, or any other harmless bird, at any time ; and bobolinks and 
 robins only between February 1 and October 1. 
 
 It is $5 fine to catch brook or lake trout, or muscalonge, between Sejjtem- 
 ber 1 and March 1 ; and it is $2 fine to catch them in any way but by a hook 
 and line. 
 
 It is $5 fine for any person to enter the premises of another with fire-arms, 
 or other hunting or fishing implements, with the intent of using them ; and 
 if he enters upon a cultivated field, orchard, or garden, or where crops are 
 growing, in pursuit of game, without the consent of tlie owner, he is finable 
 $10 for each ofi'ense. 
 
 Such is the law now in force in this State. Let all who are interested see 
 that it is made effectual. The ditficulty in the way of its enforcement is a 
 very lax state of morals among the people, many of wliom consider birds 
 free plunder; and they have so long enjoyed the privilege of rambling over 
 everybody's land, as freely as though they owned it, that it is hard to con- 
 vince them that they do not. The contrary can never be taught in courts, 
 nor by fines and prisons; it must be taught in our common schools and 
 around the farmer's fireside. 
 
 New Jersey has a good law upon her statute book for the pi-otection of 
 small birds. It is difficult of enforcement, because the mass of people have 
 been educated to look upon all birds as noxious, or else worthy of destruc- 
 
198 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 tion for food, and of no other value. They do uot even look upon poultry 
 in any other light. Yet the truth is, poultry is worth ten times as nuich to 
 the farmer for the work of destruction it does iipon his pests, as it is for the 
 food it aflTords him. It is just so with game birds ; and if the owners of land 
 well situated for game preserves were able to preserve the birds, the culti- 
 vated portions might be benefited, aud the owners could make the keeping 
 of wild birds as profitable as tame ones. 
 
 From time to time laws have been devised and statutes enacted for the 
 preservation of game ; but nntil recently such legislation has been originated 
 by the wealthy men of cities, the men of the educated and leisure classes of the 
 community, the consumei's and killers, not the feeders and possessors, of the 
 game or the owners of the acres. This has generally given to these statutes 
 the appearance, though in no degree the reality, of partaking of the odious 
 character of class legislation ; of being enacted for the benefit of the rich 
 against the poor, the proud against the humble, the men of leisure against 
 the men of labor. The farmers, who knew little and cared less for the game 
 which ran wild in their woods, fluttered in their tangled swamps, or screamed 
 over their boggy morasses, did not conceive how it could have any real value 
 in the eyes of any rational being ; regarded all legislation forbidding its 
 slaughter, except at stated periods, as a device cunningly framed for depriv- 
 ing them of their own natural and indefeasible rights, and for giving amuse- 
 ment and gratification to finely-dressed, flashy strangers from the towns, 
 who came periodically into country places to break down fences, trample 
 nnder foot growing crops, and kill the game reared on the farmer's land, 
 which was, in its very nature, and from the mode of killing it, useless to the 
 farmer himself. In a word, they looked upon the Game Laws as an offensive, 
 aristocratic, imrepublican, European invention ; a sort of scheme for making 
 the rich richer, aud the poor poorer — an idea sedulously encouraged by all 
 the brawling foreigners and pot-house village loafers, who, too lazy to work, 
 found their own profit in poaching a few starveling parent birds on the 
 lies' s, or half-grown fledgeling young fry on other men's lands, which they 
 iiiiglit trafiic or truck away to railway conductors and stage-coach drivers, 
 for transmission to the eating-houses of the cities. 
 
 Gradually, however, they — -the farmers, we mean — have come to open 
 their eyes on this question. The fearful increase of insect life, the prodigious 
 deterioration of the crops of all kinds, tiic threatened utter extinction of 
 some of the most valuable American staples in the very localities of which 
 they were formerly the pride and boast — as, for instance, the wheat crop of 
 the famous Genesee Valley, where it is already questionable, from the yearly 
 aggravated ravages of the Hessian-fly and the weevil, whether it is any 
 longer profitable, or perhaps prudent, to sow wheat — have forced them to 
 perceive that this growth and superabundance, daily and hourly aggravated 
 and exaggerated, of insect pests is to be attributed wholly to the imprece- 
 dented destruction of small birds. At the same time, the vast and hourly- 
 increasing demand for game in the large cities, the immense freights and 
 
Sec. 11.] BIRDS. 199 
 
 cargoes of wild animals sent clown j-early, so soon as cold weather allows its 
 sate transportation by express companies and railroad cars — immense, yet 
 still inadequate to meet the call of the markets, although the illimitable 
 West is fast suffering deplctPon, and is in some States legislating against ex- 
 portation — have quickened the perception of agriculturists to the fact, that 
 if game bo worth as much money in the market as poultry, or more, and can 
 be raised at no cost and less than no trouble, it is better to have the woods, 
 which they necessarily keep up as timber lots, the hillsides, which are too 
 craggy and sterile of soil to rear anything but brambles and ferns, and the 
 morasses, which it would be too costly to drain, swarming with profitable 
 wild animals, than waste and unprofitable ; and to the other fact, that if 
 money is to be made by killing game on their lands, it is as well at least, if 
 not better, to make it themselves, and to go on making it, year after year, 
 by maintaining a sufficient breeding stock, as to suffer it to be made out of 
 'their pockets by every landless, shiftless vagabond who chooses to stampede 
 every head of game out of every farm, and who has no earthly reason or 
 inducements why he should not kill as speedily as possible the goose which 
 lays the golden eggs — seeing that the goose, if slain by himself, is clearly 
 his, while the eggs, infuturo, may fall to the lot of any other Tom, Dick, or 
 Harry of his own reputable or disreputable order. 
 
 The farmers and land-owners being thus convinced of the loss directly 
 attributable to the killing of small birds at all, at any season, and of the great 
 gain certainly attainable by the protection of the game during the breeding 
 seasons, have of late, in many States and counties of States, procured statutes 
 to be passed for the j)reservation, absolutely and at all times, of certain 
 innoxious and useful small birds. But all these statutes have defects, besides 
 the one alluded to — the lack of proper instruction to the children. 
 
 It is a defect in our State law that no penalty is provided sufficient to 
 prevent hunting all the public highways, or other public grounds, and the 
 penalty for entering your premises is quite inadequate to their protection, 
 because you can not afford to pi-ocure testimony, and liire attorneys to pros- 
 ecute a fellow who will verify the adage of " sue a beggar and catch a louse." 
 
 The statutes in question are not asked or enacted for the defense of private 
 rights of private individuals, though they may defend them incidentally, 
 but for that of the community at large, to which the safety of crops and the 
 greatest possible supply of food of all kinds in the market, at the lowest pos- 
 sible rates, are incontestably benefits. Therefore the community has not 
 only a right, but it is its especial duty to enforce the same protection and 
 preservation of the same animals on its own possessions — -that is to say, on 
 the highways, wastes, commons, and all other unoccupied lands or waters of 
 which the public are the guardians and occupants — as it commands on the 
 private lands of individuals from trespassers. 
 
 So convinced are the scientific agriculturists of France of the importance 
 of raising all those species of wild animals which are natural, indigenous, 
 or capable of being acclimated and naturalized to the waste lands, of which 
 
200 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 there are many hundreds of thousands of acres, utterly unsuited to any other 
 sort of culture or stocking, that there is an important department in the 
 National Agricultural Society of that great and enlightened nation, the sole 
 duty of wliicli is to superintend the reproduction on the waste lands and 
 waters of France of the native species of game which have gradually become 
 extinct ; to promote the introduction on the same lands of such foreign wild 
 animals, valuable for food, as may appear to be suited, by their habits and 
 the character of the climates to which they originally belonged, for naturaliza- 
 tion in Finance ; and, lastly, to encourage and enforce, by means of premiums 
 for success and stringent protective legislation, the maintenance of such 
 stocks of game, both quadruped and winged, as shall realize to the propri- 
 etors and to the state an abundant return of nutritious and cheap food from 
 lands untillable, unfitted for pasturage, and in fact worthless for any purjJose 
 but that of raising game. 
 
 At the same time we, in America, are suffering our infinitely larger ' 
 number of unreclaimed — if not irreclaimable — acres, which formerly swarmed 
 with animal life, and aftbrded supplies, a few years ago supposed to be 
 inexhaustible, of the choicest varieties of game, to be stripped of the last fin, 
 the last hoof or pad, the last feather of the wild tribes, unequaled elsewhere, 
 both in quality and quantity, which at the time of its discovery rendered 
 America tlie paradise of Nimrods ; so that the woods, the fens, the waters 
 are indeed fast becoming utterly barren, useless, and unprofitable wastes. 
 
 It is certain that the fact of any farm being well stocked with game is not, 
 ill any possible point of view, a disadvantage, even if their value, whether 
 as an article of food or as an object of pleasurable and healthful pursuit be 
 entirely set aside, since the actual profit consequent on their subsistence is 
 greater than the loss from the grain which a few of the varieties consume. 
 Besides the insects, many of the game birds are great consumers of weed 
 seeds. The prairie-hens, where they exist in large numbers, do depredate 
 upon corn-fields and stacks of grain ; but even there, it is not a very severe tax 
 to feed them ; and we think that farmers could make the preservation of 
 birds profitable. 
 
 It may be assumed, as a reasonable average, that every farmer who owns 
 and cultivates a hundred acres of arable land, with from fifty to a hundred 
 of meadow land and pasture, and an equal quantity of woodland, if he 
 choose to protect and preserve them, especially if he takes the trouble to 
 erect a few little shelter huts of brushwood and fern in his woodskirts, and 
 to bait thein in hard weather with a few bushels of buckwlieat, in a good 
 game district where the winters are not too severe, may winter from ten to 
 twenty brace of quail, which may be expected to raise from fifteen to thirty 
 bevies of birds. Each bevy will probably average fifteen birds, which gives 
 a yield of from seventy-five to one hundred brace of quail, to be killed and 
 sent to market in the late autumn or early winter, with the butter, buck- 
 wheat, fat turkeys, and other produce of the farm. These birds will average 
 twenty-five cents a brace in ordinary seasons, and when game is scai'ce or 
 
Sec. 11.] BlPwDS. 201 
 
 for any reason there is an unusual demand, an increased price. To this may 
 be added, if it be a rufled grouse country, two or three broods of tliese 
 hardy, bold, and delicate birds, wliicli rarely 2)roduce fewer than twelve and 
 thence upward to sixteen poults, so tliat the landholder may reckon on Ids 
 fifteen to twenty brace of ruffed grouse at seventy-live cents a brace, and on 
 his thirty or forty rabbits, at a dime a head. Here is a profit of perhaps 
 fifty dollars per annum, arising from no expenditure, from no investment of 
 capital, and involving as a consequence, several days or hours of pleasant 
 exercise and amusement in lieu of labor, for the purpose of rendering it 
 marketable. On snipe grounds and countries adapted to M'oodcock, the 
 l^rofits are yet more enormous. 
 
 Tlie number of woodcock to be killed annually on any given piece of 
 ground is never so great as that of snipe, since the birds killed in the early 
 part of the season consist of those bred on the ground itself on which they 
 are shot, which is of course a limited number, although the autumnal flights, 
 which come in successively, are those Itred in the uncultivated wastes far to 
 the northward. Yet even of these, there are numerous localities, especially 
 in parts of the States of New York, New Jersey, Pennsylvania, Delaware, 
 Michigan, and other "Western States, which might be counted on. as sure to 
 furnish ten woodcock to the acre in each season, at twenty-five cents the bird. 
 
 It can hardly be doubted that by the system of game protecting, without 
 expending a dollar, every owner farming from 100 to 200 acres of land in a 
 country well adapted for game — and tliere is but little country in any of the 
 Northern, Western, or Middle States which is not adapted to it — can add 
 from $50 to $200, and in some instances a much larger sum to his annual 
 income. If he have trout-streams, and the facility of making a chain of 
 small trout-ponds, as may be easily done in every deep glen watered by a 
 rapid brook, instead of suffering them to be weired and netted by all the 
 vagabonds of the country side, lie might make thousands more easily than 
 by his poultry-yard or sheep-fold, and at far less cost. 
 
 With these facts before them, it is for the farmers themselves to consider 
 whether game-laws are the obnoxious things that demagogues have taught 
 them to believe. Is it not rather worth their while to insist upon the 
 enactment, and strict observance of such laws as will protect their own 
 interests, and afford them such additions to their income as we have briefly 
 hinted at. 
 
 2-tO. Seudiug Wild Pigeons to Market. — The Eacjle^ newspaper, printed at 
 Grand Eapids, Michigan, published an article in the spring of 1860, about 
 the pigeon trade. There had been at that time shipped from that village 
 588 barrels of wild pigeons — equal to 108,555 lbs. The express freight on 
 this quantity at three cents a pound, would be $3,256 65. If sold at twenty 
 cents a pound, they -would bring $21,711. It was estimated that the west 
 part of Michigan had sent two millions of wild pigeons to market in one 
 season. This great number can easily be understood by those who are 
 acquainted with the manner in which these birds flock together. To one 
 
202 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 who has never seen a pigeon-roost or a nesting-place, the truth will seem 
 almost as fabulous as the tales of Siuhad the sailor. Yet it is far within the 
 bounds of truth to say that we have seen many millions of wild pigeons at 
 once, or at least as soon as we conld direct our eyes npon them. We have 
 seen them on their evening flight toward the roosting-place. in one nnbroken 
 flock, two miles wide, and two hours' continuance. We have ridden two 
 liours in a straight line through a pigeon-roost at least seven miles wide. 
 We have seen upon a single beeeli-tree many M'agon-loads. At one time a 
 little section of the main flock got belated in reaching the roosting-place, 
 and settled in a heavy beech -wood near our house in Indiana, and the noise 
 tliey made resembled a terrific tornado ; and tliey piled on to the trees in 
 such numbers that all the weak limbs were broken ofi", and hundreds of 
 large trees, such as stood leaning, and were weak at the roots, were entirely 
 broken down. We spent hours of the evening in that temj^orary roost, 
 witnessing thiir operations, and trying to imagine the vastness of the mul- 
 titude. There is groat danger in visiting sucii a roost, from the falling 
 timber. In one long occupied, all that is liable to break lias been prostrated, 
 and there is less danger, so there is less commotion. They often sit so low, 
 and remaip so quiet, that you may approach near enough to kill half a score 
 at a blow. A charge of shot sent into a full tree brings down a great 
 number. Wlien they alight npon a tree that breaks under the mass, they 
 fly and light upon the backs of others already loading a tree all it can bear, 
 and so the additional weight perhaps produces a second crash, and sometimes 
 crash after crash, almost without cessation. That was the case upon the 
 evening mentioned. The breaking commenced at dusk, when they began 
 alighting, and continued until we left at midnight. In the morning about 
 two hundred acres were literally covered with broken timber. 
 
 A pigeon nesting-place is a still greater curiosity than a pigeon-roost. It 
 covers hundreds of acres of dense forest, and every tree is covered with nests 
 almost as closely as the birds can build them, by laying a few loose twigs 
 together among the branches. It is an easy matter to load a wagon with 
 squabs. Often they fall out of the frail nests, and fall a prey to \vild animals 
 and wood hogs. Audubon gives a very truthful picture of the immense 
 numbers of wild pigeons in the great West. To us it is the more interest- 
 ing, because we know it to be true. 
 
 Those who have read Audubon, or others who have written accounts of 
 pigeon-roosts, and can believe the truth, will be able to realize the extent of 
 the trade we have spoken of. 
 
 Having now, we hope, said enough about birds to create an interest in 
 their behalf, and induce a study of their character, and their value to the 
 farmer, we shall leave the subject for another, which, though about small 
 things, is of great importance to all our readers. 
 
Sec. 12.] 
 
 ENTOMOLOGICAL. 
 
 203 
 
 SECTION XII.-ENTOMOLOGICAL 
 
 ; hat are Insects ? — Tlie term is applied to all, or nearly 
 all, the family of bugs, worms, flies, wasps, moths, 
 millers, and small creeping things that infest a farm, 
 and all are generally ranked as pests, though erro- 
 neoi;sly, as M-e will show by-and^by, some of them 
 being highly beneficial. 
 
 The word insect comes from two Latin words, 
 signifying cut into, or notched ; and the body of a 
 perfect insect, as a wasp, is cnt into and divided into 
 three distinct segments — the head, thorax, and abdo- 
 men, with two or three pairs of legs, and one or two 
 pairs of wings, and it breathes through holes in the 
 sides of the body. Insects commence life in eggs, 
 which hatch into worms or larviB, such as maggots 
 or caterpillars, and these, after doing immense mis- 
 chief, as in that state they arc voracious gormandizers, nndergo transforma- 
 tion to the pupa or chrysalis state, and from that to the bug or butterfly 
 form, during which the eggs are laid in such vast numbers, that the species 
 are propagated so rapidly that the art of man seems insufficient to stay their 
 ravages, if of a ravaging breed, and hence he must look to natural aids. It 
 is for this that we liave advocated protection to birds, because they are great 
 insect destroyers. Pestiferous insects also have several other natural ene- 
 mies, which must be studied and protected by farmers. 
 
 Besides what are considered and treated of in natural history as perfect 
 insects, there are a great many sorts that come under the general name. of 
 insect that do not answer the above definition, such as some of the aphis, or 
 plant-lice family, the striped and other bugs, and various vrorms. Some of 
 the latter — for instance, the earth-worm, or angler's worm — are thought to 
 be beneficial to soil. "We think, rather, it could be made more beneficial in 
 its death than in its life. Anything, such as salt, lime, potash, ammonia, 
 that would kill all the earth-worms, would add all tlie animal matter of their 
 body to the soil's fertility. 
 
 "We can not go into a general examination of entomology, though we do 
 earnestly advise a study of the science by all farmers, who are, above all 
 other classes of the commimity, most in want of knowledge of insects, and 
 how to distinguish between those that are pests and those that are harmless, 
 or, perhaps, actual destroyers of those that are devastating our orchards, gar- 
 dens, and grain-fields. Of a few of these we shall give correct pictures, 
 with brief hints about their character, depredations, and such preventives as 
 have been tried and proved valuable or useless. 
 
 The great difficulty with the management of the greatest pests is their 
 
204 SMALL ANIMALS AND INSECTS. [Chap. R. 
 
 diminutive size. Tlie great destroyers of wheat, the midge, Hessian-fl}^, and 
 joint-worm, are so minute that a microscope is needed for their examination. 
 It is the same with the aphis tribe, and what is called the " scale insect," 
 which cov^er the limbs of fruit-trees like a second bark, until millions of 
 mouths, although very diminutive, suck away the life of the tree. Neither 
 man nor bird notices these minute destroyers until it js too late to stop their 
 ravages. 
 
 Now let us look at what some of these insect pests do to the farmer's 
 crops. As cotton is considered the great American staple, and as America 
 is, above all competition, the land of insects, we will first enumerate the cot- 
 ton destroyers found upon that plant by that indefatigable student of ento- 
 mology, Townend Glover, wlio was employed by the Patent Office to collect 
 information upon the subject. 
 
 242. Insects Infesting the Cottou-Plaut. — A species of cantharides, similar 
 to the striped potato fly, feeds upon the nectar or pollen, and sometimes eats 
 the petals of the flowers. Those are injui'ious, and several others found in 
 the flowers did not appear to be so. 
 
 A leaf beetle eats holes in the petals, and, some say, injures the bolls. A 
 large, green, thorny, poisonous caterpillar damages the foliage in August 
 and September. It also attacks Indian corn. If handled incautiously, its 
 spines inflict painful wounds. This large worm is in strong contrast with the 
 diminutive cotton-louse, which destroys tlie young plant in wet seasons. 
 
 The boll-worm, however, is the great destroyer. Their presence in a cot- 
 ton-field is indicated by the great number of young bolls fallen to the ground, 
 after the inside has been eaten out. Before it falls, the worm crawls out and 
 attacks others, which in turn fall ; and if the worms are numerous, all the 
 bolls may be destroyed, just as all the plums of a tree are destroyed by 
 curculio. 
 
 A small green caterpillar feeds upon and rolls itself in the leaves of the 
 cotton plant; and a solitary hairy caterpillar, of a yellowish color, eats the 
 leaves; and a green, smooth-skinned one feeds upon the blossoms ; and also 
 several very slender, brownish span-worms. A small beetle, of a greenish, 
 metallic color, barred with dirty cream-color, often seen in the holes made 
 by boll-worms, is not thought a destroyer. It only follows in the path of 
 insects that do destroy. 
 
 Various other small insects are found on the plant, but it is not certain 
 that they are destructive, while several are well ascertained to be highly 
 beneficial to the cotton-planter. Among these we enumerate the lady-bird 
 {Coccinella), which, both in the larva and perfect state, devours myriads of 
 cotton-lice. 
 
 The planter and overseer should learn to distinguish these from noxious 
 insects, and instruct their hands to protect them. 
 
 The larva of the bee-'winged fly also destroys lice, and ichneumon flies de- 
 posit eggs in their bodies. 
 
 Tiger beetles {Cicindella) are also destroyers of the noxious insects. Ants 
 
Sec. 12.] ENTOMOLOGICAL. 205 
 
 climb the cotton-stalks to feed upon aphis, and not upon the plant. Spiders, 
 too, catch moths in their nets, and also seize and devour other insects. The 
 great aim should be to learn which of all the insects found in the cotton-field 
 are friends, and which foes. 
 
 The boll-worm, and the one which is some seasons so destructive to Indian 
 corn in tlie milk, are declared by some, upon pretty good authority, to be 
 identical. The chrysalis is of a bright chestnut brown ; the moths, a tawny 
 yellow color. The upper wings yellowish, shaded with green or red, in some, 
 with a dark band, and crescent-shaped mark near the center of the wing. 
 The under wings are lighter colored, bordered with black. 
 
 To prevent depredations from the boll-worm, it is recommended to light 
 fires around the field at night, to attract the moths when they begin to make 
 their appearance. Doubtless many will be attracted to the light and de- 
 stroyed. They have also been destroyed by placing plates upon stakes set 
 among the cotton, in which about half a gill of vinegar and molasses is 
 placed, mixed, four of vinegar to one of molasses. Tliis attracts the moth, 
 which perishes in the mixture. This kind of moth-trap recpiires a good d-eal 
 of labor, for the plates must be visited every evening and replenished, while 
 the moths last. The same plan will be found a good one to catch other 
 moths than those which infest cotton. 
 
 243. Insects Destructive to Indian Corn and Wheat. — ^The insect which cats 
 into the grains of Indian corn is not only a destructive one, but when it in- 
 fests the ears that are wanted for cooking in their green state, it is trouble- 
 some and disgustingly oii'ensivc. It only feeds while the corn is in the 
 " roasting ear" condition. At first it is so small as to be almost impercept- 
 ible, and doubtless many a one gets between the teeth of the eater of early 
 green corn, even in this city, for here we have seen a great many marks of 
 their ravages. It is, however, much worse at the South. Slieltered under 
 the husk, it eats voraciously, and increases in size rapidly, until about an 
 inch long. Some are brown, some green, some sti-iped. In fact, there is no 
 uniformity in color. The body is sparingly clothed with short hairs, rising 
 from black spots or warts. The worm leaves the ear and goes into the 
 ground to undergo its transformation. 
 
 If farmers, particularly Northern ones, would watch the first appearance 
 of these insects, and try to destroy the moths, they might save themselves 
 much loss in the future, for all insects of this -kind are wonderfully prolific. 
 There is an ichneumon fly which preys upon this insect, and the habits of 
 that fly should be studied, and, if possible, the family increased. Birds, too, 
 are fond of this species of worms ; probably because the food it fattens upon 
 makes sweet morsels for their palates. 
 
 The destruction of the grains of corn eaten by this worm is only a part of 
 the damage that ensues. The grains eaten are upon tlie small end of the ear, 
 and here grows a fungus, which often destroys the ear. It also oftentimes 
 aff'ords a secure harbor for other insects, which destroy what the worms have 
 left. The corn-worm does more damage in dry seasons than wet ones, owing 
 
•206 SMALL ANIMALS AND INSECTS. [Chap. H. 
 
 to the fact that the silk grows irregularly, or continues longer green, and the 
 worms often eat oft' the silk before the kernel is fructified. 
 
 Another insect infesting Indian corn at the South is called Si/h'a7nis 
 quadricoUls—a. diminutive beetle, which hides between the grains, and 
 loosens them from the cob, devouring the germ first, and then the white 
 starchy part of the kernel. These insects sometimes exist in vast numbers, 
 and are then very destructive. Sometimes they destroy the germ in such a 
 way that its absence is imperceptible, and that causes disappointment when 
 it is planted as seed. Kiln-drying is recommended when the corn is to be 
 used for food, but not for seed. Quick-lime is recommended, strewed among 
 the ears of corn in the crib. If put up with husks on, salt has proved 
 beneficial. 
 
 There is another insect that troubles corn in the Southern States — the 
 corn-borer. Tliis is called a bill-bug, or corn-borer. It bores into the stalk 
 just at the surface of the earth, and deposits its eggs. The grub eats the sub- 
 stance of the stalk, and the transformation takes place in the cavity eaten 
 out, where the pupa remains till spring, and then comes forth a beetle, in its 
 tarn to deposit eggs in the young corn. 
 
 These insects have been very destructive in Alabama and several other 
 Southern States, and, like many other pests, may gradually become acclimated 
 farther and farther north, till all the corn-growing region is infested. Farmers 
 should be on the look-out for these " borers," and also bear in mind that the 
 best remedy yet found is to pull up all corn-stalks, after harvest, and pile 
 and burn them. These insects are usually most troublesome in swamp lands. 
 
 The larva of the angoumas moth is very destructive to corn, as well fis 
 wheat and other cereals, when stored ; and in the South, in the open field. 
 The grub is one fourth inch long in corn, and less in wheat. It spins a 
 cocoon in the cavity eaten out when it goes into the pujia state. From a 
 small round hole previously made, it emerges a moth, with long, nairow 
 wings, of a yellowish gray color, of satin-like luster, fringed with long hairs. 
 The insects grown in maize are larger, though identical with the wheat in- 
 sects. This insect is not confined to warm latitudes, but is more troublesome 
 there than farther north. "We have seen the moths swarming in myriads 
 about corn-houses and around wheat-stacks. The female lays from sixty to 
 ninety eggs, which hatch into minute white worms in four to six days, each 
 one of which makes a lodgment in a grain of corn, where it eats, and ma- 
 tures in three weeks ; so that two sets mature in one season, the pupa of the 
 second growth remaining in the grain till sjaring. 
 
 It is said that this insect was first observed in North Carolina, about forty 
 years ago. They will fly into a candle sometimes, in a granary, in such 
 numbers as to extinguish the light, and doubtless could be destroyed by fire 
 to a great extent. Smear a cask with one head, on the inside, with tar or 
 molasses, and place a light in it, and j'ou will catch quantities of the moths. 
 
 Where they abound, it is advisable to store corn unhusked ; and salt is 
 also useful, sprinkled in as the corn is put in the crib, just as hay is salted. 
 
Sec. 12.] ENTOMOLOGICAL. 207 
 
 We know places where this insect is so troublesome to farmers, that it is only 
 by great care that they can keep corn or wheat over from one crop to an- 
 other. In west Tennessee and northwest Mississippi they are excessively 
 annoyinc;. 
 
 Several remedies have been tried, with success in some cases and failure 
 in others, under apparently the same circumstances. We will name some 
 of them. After the grain is thoroughly cleaned, spread it upon white sheets, 
 or board-s, or a tin roof, or, if convenient, a flat rock is better than either, 
 and some use a clay floor, and let it lie in the sun until it gets hot, and then 
 put it up ill tight casks. Kiln-drying at 176° kills the insect and the germi- 
 nating power of the corn at the same time. If grain is placed in tight casks, 
 and the gas arising from burning charcoal conveyed to it by a tube, which 
 may be iron next the fire, and flexible tube next the cask, for convenience, so 
 as to fumigate the grain, the insect is destroj'ed without injury to the germ. 
 An infusion of the fumes of chloroform will kill these or any other insects 
 in a close vessel. Even a few drops put in a bottle with insect.?, corked up, 
 deprives them of life directly. It will not, however, destroy eggs, as the 
 heating of the corn does. Heating it, by piling it up damp, has been prac- 
 ticed ; but care must be taken, if this is jiracticed, that it does not overheat 
 and get musty. If it does, it should be washed before grinding. 
 
 Lime has been effectively tried, entirely preventing the ravages of the 
 insect, by storing the grain, ready prepared for the mill, in tight casks or 
 bins, and coveinng by sifting over the top an inch or two deep of finely- 
 powdered lime. Whenever the grain is wanted for the mill, run it through 
 the winnowing machine, and blow out the lime. A trifle will adhere to the 
 furze of the kernels, but it does no harm — it is rather beneficial to the flour 
 or meal. 
 
 244. The Rice Weevil. — -This is another pestiferous insect, which not only 
 destroys rice, but attacks other grain upon the upland portion of a rice 
 plantation. This weevil {Calandra onjsm) resembles the one whose ravages 
 we have noticed in 243, which is the Calandra granaria. All true weevils 
 are beetles, with long snouts, and only depredate upon dry grain. 
 
 Many of us consumers of rice have seen the rice weevil, which has 
 hatched out of eggs deposited by the female parent, one in each grain, 
 where it hatches, and the young larva eats out all the substance, making 
 food of its habitation. By-and-by the weevil comes out, and the sexes meet, 
 and the female deposits its eggs in sound grains, and so on until all are 
 destroyed. 
 
 When very plenty in rice, it makes anything but a savory dish. It is the 
 same with wlieat. We have eaten bread that tasted as though we had about 
 an even mixture of bread and meat. " Weevilly flour," we have heard said, 
 was not unwholesome. Perhaps not ; to us it is most decidedly unpalatable, 
 and no art of cooking wheat or rice will hide the weevil flavor. It looks 
 and tastes of weevil, even in the buttermilk and saleratus biscuit of the most 
 liberal user of that salt. 
 
208 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 The rice weevil lias often been found in rice imported from China, and it 
 may have been introduced into this country from thence. It differs, both in 
 appearance and habits, a little from the grain weevil. It is said to attack 
 rice in the field as well as after it is stored. It also attacks Indian corn in 
 the field, if left out till late in the fall, or until it becomes quite dry, in those 
 States at the South where this insect most abounds. 
 
 The same remedies that will answer for one variety of weevil will answer 
 for all. We give a few more remedies. 
 
 246. To Destroy Weevili — Grain subject to depredations from the weevil, 
 which develops and matures in the heart of the seeds, and which imparts 
 considerable heat to the bulk of tlie pile, equal to or above blood-heat, is 
 easily detected on thrusting the hand into the body of the grain, by means 
 of the great heat of the mass. 
 
 In France, large quantities of grain are stored np against time of scarcity ; 
 and in order to protect it from the depredations of the insects tliat prey upon 
 it, commissioners have been appointed to examine into the means of destroy- 
 ing them, wlio have reported that a small quantity of chloroform or sulphuret 
 of carbon put into the interior of the grain pit (which is usually in the 
 ground), and then hernietically sealed up, will destroy all the pests. About 
 seventy-fis'e grains of sulphuret of carbon arc sufficient for about four bnsliels. 
 Grain put up in rail pens, as is the custom in the West, may be treated with 
 equal success with this agent, by covering the heap with a tarpaulin or close 
 woven cloth. 
 
 A successful farmer in Broome Co., N. Y., recommends cutting wheat while 
 in the milk, and the straw green, and salting it in the mow or stack. lie says : 
 
 " About fourteen years ago the weevil appeared upon this farm, and quite 
 seriously affected the wheat crop. We commenced also about that time 
 cutting our wheat very green, as soon as it was out of the milk, no matter 
 how green the straw or heads ; and in order to preserve it the better in the 
 mow or stack, always applied salt liberally. For many years I liave salted 
 my grain mows and stacks, but put none upon my hay. I am now cutting 
 my wheat as green as usual. 
 
 " From my own experience, I am satisfied that if the wheat is thus treated, 
 and not thrashed until after it has been some time piled up, tlie insect Avill 
 be destroyed in some of its transformations. At any rate, whoever tries the 
 experiment will be Avell surprised in the value of liis wheat and straw. 
 Where straw is fed to stock — and all mine goes that way — it is sought fbr 
 with keener relish, and makes better manure, M-hile tlie wheat is much 
 heavier and plumper than when not so treated. 
 
 " I ought to say, perhaps, that the weevil has not troubled the farm since 
 that year, although wheat has been grown every year. Almost any year a 
 few may be found, but none to do any damage. My soil is a slaty, gravelly 
 loam, and my seeding is usually all done from the 1st to the 10th of Sejitem- 
 ber, and the best variety of wheat thus far has been the hlue-stem, a beauti- 
 ful variety of white wheat." 
 
Sec. 12.] KNTOMOLOGIOAL. 209 
 
 Another Broome County farmer, who thought the yellow-birds destroyed 
 his wheat, wished a neighbor " would get a gun and kill some yellow-birds, 
 which farmers generally suppose destroy the wheat. Mr. R. declined, as he 
 does not like to kill birds of any kind. Out of curiosity, however, he killed 
 one of the birds and opened the crop, when he found that the bird, instead 
 of eating the wheat, ate the weevil — the great destroyer of the wheat. He 
 found as many as two hundred weevil in the bird's crop, and butyOT?/- grains 
 of wheat, and these had the weevil in them. This is a very important dis- 
 covery, and should be generally known. The bird resembles the canary, 
 and sings beautifully." 
 
 240. Wheat Insect vs. WecTil. — ^There is a confusion of tongues in relation 
 to the weevil that we have described (244, 245), and the one that attacks the 
 wheat in the milk. 
 
 The insect that has injured the wheat crop so extensively in New York, 
 Pennsylvania, and Ohio, is not the one generally known as the weevil. This 
 insect, called " red weevil," " wheat-midge," " the insect," etc., differs very 
 much from the Calandra granaria^ as that only injures the ripened kernel 
 of wheat or corn after it is stacked or housed, or even after it is in the bin 
 of the granary or grist-mill. The weevil exhibits in swarms around the 
 barn, tiie female laying her eggs on the grain, and the grubs as soon as 
 hatched work into the kernel, consuming all but the bran, without breaking 
 tliat, so as to show that all is rottenness within. The ravages of this insect, 
 as we have already stated, are so destructive at the South, that it is difficult 
 to keep wheat and corn. The latter is generally put up with the shucks on, 
 which is (lamp or else heavily salted. Wheat is kept in close casks or tight 
 bins by covering M'ith flour of lime an inch deep over the surface. 
 "The insect that has destroyed so much grain in past seasons is a 
 3'ellow fly (with blue wings), about one tenth of an inch in length ; it 
 deposits its eggs, while the wheat is in blossom, within the chaffy scales of 
 the flower, during the evening twilight and dark stormy days, in numbers 
 from two to forty, which hatch in ten days and completely destroy the germ 
 of tlie berry. The maggot is reddish j'ellow, about one sixteenth of an inch 
 lo.ig, or perhaps an eighth when full-grown." 
 
 ''It is supposed that it leaves the wheat and winters in the ground. That is 
 the time to kill them. Salt is undoubtedly the remedy. The fly is hardly 
 ever seen ; they never fly in the sunsliine. The weevil All the air like mus- 
 ketoes in a swamp. This insect jiides on tiie stems and leaves, shaded from 
 the heat of the sun. This is a northern insect; the weevil is a southern one." 
 
 " This insect was first seen in America about the year 1828, in the nortlieni 
 part of Vermont and borders of Lowci- Canada. It first inade its appearance 
 in northern Ohio in the year 1843, and its ravages have rapidly increased 
 from year to year." 
 
 Dr. Harris recommends brimstone fumigation of tlie plants. That would 
 be impossible, almost, on whole counties. Flour of lime sown on wet wheat 
 has appeared to prevent the work of destruction. Deep plowing the stubble, 
 
210 SMALL ANIMALS AND INSECTS. [Chap. H. 
 
 and not sowing any grain upon it next year, might eradicate tlie insect, if 
 all who are aii'ected would unite in that course, as all must in any other that 
 should be adopted. 
 
 The remedy recommended by our correspondent in Broome Co., of salting 
 the cut wheat in the mow or stack, would not answer, for the maggots already 
 burrowed in the ground for winter, but the salt must bo apjjlied to the land 
 in liberal quantities — say five to ten bushels per acre. "We cut up the cut- 
 worms effectually upon our corn ground this season with a handful of salt to 
 a hill. The corn fired a little at first, but it is growing beautifully now. 
 Every bug or worm can be killed in the soil, with salt, and we have no 
 doubt that will be found the most sure way of ridding the country of this 
 terrible pest of wheat-growers. Tlie Cccidomyia tritici of Kirby is what we 
 take to be the insect called the " red weevil." 
 
 A " close observer" of the habits of the midge, says of one who had 
 written of the insect's wintering in the ground : 
 
 " The writer is mistaken in some of his facts as to the habits of the insect, 
 as he can very easily satisfy himself by getting a few heads of wheat in the 
 proper season that are affected and putting them in a small glass jar. He 
 will see that the worm does not go into the earth, but comes outside of the 
 head after desti'oying the grain of wheat it hatched in, and weaves itself up 
 into a snug little cocoon on the under side of the outside chaflT. If he exam- 
 ine that cocoon after a time, he will find the worm has changed into a new 
 shape, and will ultimately come out a winged insect. I have never yet 
 been able to find the worm seeking shelter in the earth. It is this knowl- 
 edge of the habit of the insect that induces the belief that liberal salting of 
 the grain in mow or stack is fatal to it." 
 
 Towuend Glover, who is pretty good authority, says of this pest : 
 
 " The parent fly deposits her eggs in the beginning of July, and in the 
 opening flowers of the grain, or when the wheat is still in the milky state. 
 The eggs hatch in about eight days, when the little yellow maggots, or 
 worms, may be found within the chaffy scales of the grain. The seed scales 
 of grass also sometimes serve as a shelter for these depredators. The worms, 
 which are of a bright yellow or orange color, do not exceed an eighth of an 
 inch in length, and are often much smaller. I have seen as many as twelve 
 within the chaff of one single grain, sent to the Patent Office from Ohio. 
 These maggots prey upon the wheat when only in a milky state. When 
 they begin their depredations, soon after the blossoming of tlie plant, they 
 do the greatest injury, as the grains never fill out. Toward the last of July 
 or beginning of August the full-grown maggots cease eating, and become 
 sluggish and torpid, jireparatory to shedding their skins, which takes place in 
 the following manner : The body of the maggot gradually shrinks in length 
 within its skin, and becomes more flattened and less pointed, as readily may 
 be seen through its delicate transjiarency. This torpid state lasts only a few 
 days, aftfir which the insect casts its skin, leaving the latter entire, except a 
 little rent at one end of it. These empty cases, or skins, may be found in 
 
Sec. 12.] ElfTOMOLOGICAL. 211 
 
 great abundance in the wheat-ears, after the molting process is completed. 
 Mr. J. W. Dawson, of Pictoii, Nova Scotia, says that sometimes the maggot 
 descends from the plants and molts on tlie surface of the ground. After 
 shedding the skin, it recovers its activity, and writhes about at first, but 
 takes no food. It is shorter, somewhat flattened, and more obtuse than 
 before, and is of a deeper yellow color, with an oblong greenish spot in the 
 middle of the body. Within two or three days after molting, the mao-gots 
 either descend of their own accord or are shaken out of the ears by the wind, 
 and fall to the ground. They do not lot themselves down by threads, as 
 has been supposed by some, for they are not able to spin. Nearly all of 
 them disappear before the middle of August, and they are rarely found in 
 the grain at the time of harvest. Hon. William D. Lindsley, of Sandusky 
 City, Ohio, however, sent me several si^ecimens of wheat with this insect in 
 it as late as the beginning of August. From observations and remarks made 
 by intelligent farmers, it appears that the descent of these insects is facilitated 
 by falling rain and heavy dews. Having reached the ground, the maggots 
 soon burrow under the surface, sometimes to the depth of an inch, those 
 which have not molted easting their skins before entering tlie earth. Hei'c 
 they remain without further change through the following winter. It is not 
 usually before June that they are transformed to pupte, this change being 
 effected without another molting of the skin. This pupa state lasts but a 
 short time, a week or two at most, and in many cases only a few days. 
 Under the most favorable circumstances, the pupa works its way to the 
 surface, before liberating the included fly, and when the insect has taken 
 wing, the empty pujja shell, or skin, will be seen protruding from the ground. 
 In other cases, the fly issues from its pupa skin in the earth, and comes to 
 the surface with flabby wings, which soon expand and dry on exposure to 
 the air. Tliis last change occurs mostly in the months of June and July, 
 when great numbers of the flies have been seen apparently coming from the 
 ground in fields where grain was raised the year before. 
 
 " The wheat-midge, or fly, ' is a small orange-colored gnat, with long, 
 slender, pale-yellow legs, and two transparent wings reflecting the tints of 
 the rainbow, and fringed with delicate hairs. Its eyes are black and prom- 
 inent ; its face and feelers, yellow ; its antennre, long and blackisli. Those 
 of the male are twice as long as the body, and consist of only twelve joints, 
 which, except at the base, an oblong-oval, somewhat narrowed in the middle, 
 are surrounded by two whorls of hairs. Those insects vary much in size. 
 The largest females do not exceed one tenth of an inch in length, and many 
 are found toward the end of the season less than half this length. The males 
 are usually smaller than the females, and somewhat paler in color.' Mr. 
 Lindsley sent several of these insects to the Patent Oflice in August, 1855, 
 and stated that they have been extremely destructive in several parts of his 
 district last year (1854), and that in some places the cattle were turned into 
 the field in order to eat the straw and what little was left of the grain, the 
 main crop not being worth harvesting. These flies are likewise said to be 
 
212 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 much more nnmerous and destructive on the edges of fields tlian in the 
 center, and in some cases when tlie edges were completely worthless, the 
 center bore comparatively a good crop. 
 
 "Fumigation with sulpliur, and burning weeds on the windward side of 
 the field, when the grain is in blossom, have been recommended. Air-slacked 
 lime or wood-ashes, strewn over the grain when in blossom, in the proportion 
 of one bushel of lime or ashes per acre, to be scattered over the field when 
 the plants are wet with dew or rain. Two or three applications have some- 
 times been found necessary. Plowing np the ground, also, to destroy the 
 maggots ; and the dust-chafl'', or refuse straw, if found to contain any of these 
 insects, should be immediately burned. In those parts of New England 
 where these insects have done the greatest injury, according to Dr. Harris, 
 the cultivation of fall-sown or winter grain has been given up, and this for 
 some years to come will be the safest course." 
 
 247. The Joint-Worm.— One of the greatest pests that Virginia farmers 
 have had to contend with in Avheat-growing is the joint-worm. It has been 
 more destructive than the weevil, and in some cases as great a pest in that 
 State as the midge has in New York. 
 
 The following is Glover's description of this insect : 
 
 "The joint-worm (^/iryow« /u</yA'/), which lias committed such ravages 
 in the wheat-fields of Virginia, comes from a small, black, four-winged fly, 
 about an eighth of an inch in length. The female lays several eggs in the 
 outer sheatii of the stalk above the joints. After they hatch, the worms 
 commence feeding within the sheath, and the constant irritation produced 
 by them forms a woody gall, or rather succession of galls, in the cavity of 
 each of which lies a small, footless maggot, about the seventh or eighth of 
 an inch in length, having a body with thirteen segments, and of a pale, 
 glossy, yellowish color. The number of worms in each cluster of galls varies 
 from four to ten, or even more. The substance of the stalk attached becomes 
 brittle, and either partially or entirely fills its central cavity, and frequently 
 distorts it into various irregular shapes. I have often observed young root- 
 lets putting out immediately below a joint so affected. The worms on the 
 stalks of wheat, when examined in February, were yet in the larva, but 
 early in March several had assumed the pupa state. They were about an 
 eighth of an inch in length, of a pale yellow color, which as the pupae were 
 near coming out, became afterward nearly black. These pupa3 had the 
 rudiments of wings, legs, and antennte as in the perfect fly, but were motion- 
 less. Late in April and the beginning of May the flies made their appear- 
 ance through holes gnawed through the tough, woody covering of the gall- 
 like excrescence in which they had passed the winter. Tiiis transformation, 
 however, took place in a warm room. These flies are about an eighth of an 
 inch in length, of a black color, the knees, joints, and feet being tinged 
 with yellow. The males, according to Dr. Harris, vary from the females by 
 beinof smaller, and in having no piercers. The joints of the antennae are 
 likewise longer, and surrounded with whorls of little hairs. The hind body 
 
Seo. 12.] ENTOMOLOGICAL. 213 
 
 is shorter, less pointed at the extremity, and is connected with the thorax 
 by a longer steia. He also says, that among fifteen females only one male 
 ■was found. This corresjjonds with what I have observed, as out of sixty to 
 eighty joint-worm iiies, produced from diseased stalks of wheat, I only pro- 
 cured one male answering to his description, and eight parasites, not quite 
 a tenth of an inch in length, of a dark metallic shade, with yellow legs, and 
 the antennas much thicker at the end. These flies were furnished with four 
 transparent, dotted wings. It is somewhat incomprehensible how it happens 
 that so many females appear at the same time without more males. 
 
 " Another four-winged fly also made its appearance from the same stalks, 
 of about an eighth of an inch in length, with an abdomen and legs of a 
 bright yellow. The head and thorax were of a dark color, and somewhat 
 metallic luster. The wings were transparent, dotted, and fringed with short 
 hairs, and the piercer reached to the middle of the under part of the abdo- 
 men. Dr. Harris states that it has been found in Massachusetts, that plow- 
 ing in the stubble has no effect upon the insects, which remain alive and 
 uninjured under the slight covering of earth, and easily make their way to 
 the surface, when they have completed their transformation. A free use of 
 manure and thorough tillaae, by promoting a rapid and vigorous growth of 
 the plaut, may render it lels liable to suffer from the attacks of the insect. 
 It has been stated that this fly, like the wheat-midge, does more injury on 
 the edges of fields than in the middle. 
 
 " At the Joint- Worm Convention, held at Warrentown, Virginia, in 1854, 
 the following was recommended : Prepare well the land intended for wheat, 
 and sow it in the beginning of autumn with the earliest and most thrifty 
 and hardy varieties, and do nothing to retard the ripening of the crop by 
 grazing or otherwise. Use guano or some other fertilizer liberally, partic- 
 ularly when seeding corn-land or stubble. Burn the stubble on every field 
 of corn, rye, or oats, and all thickets or other harbors of vegetable growth 
 contiguous to the crop. Sow the wheat in as large bodies and in as compact 
 forms as practicable ; and if possible, neighbors should arrange among them- 
 selves to sow adjoining fields the same year. Feed all the wlieat, or other 
 straw, which may be infected, in racks or pens, or on confined spots ; and 
 on or before the first of May carefully burn all the straw which has not been 
 fed. The refuse of wheat, such as screenings, etc., should also be destroyed, 
 as the pupa case is hai-d and not easily softened by dampness or wet." 
 
 Wo can add nothing to this preventive, except a recommendation to com- 
 post the refuse of the cattle, instead of burning it. Make a heap that will 
 undergo a heating fermentation, and the eggs will be destroyed, and the 
 manure will be more valuable than the ashes. 
 
 2-iS. The Ilessian-Fly.— This is the common name of an insect that at one 
 time threatened to put a stop to wheat-growing in all the Northern and 
 Middle States. This insect {Ceddnmyla destructor) obtained its name from 
 the fact of its (supposed) importation with the Hessian soldiers of the Revo- 
 lution, though this fact has been strongly disputed. It might have been in 
 
214 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 tlie country before, and it might also liave been imported. It was first pub- 
 licly noticed in 177G, at Flatbush (L. I.), and on Stateu Island, in the vicinity 
 of Sir William Howe's debarkation of those mercenaries of King George, 
 and it was quite in keeping witli the feelings of the people that tliey should 
 readily credit the charge, that they had brought this among the other evils 
 of wai-. At any rate, it multiplied and spread rapidly, and was for a time 
 looked upon as a scourge almost as great as fire and sword. Of late years, 
 however, it appears to be dying out. It is subject to the attack of parasites, 
 which have done more than all the arts and strength of man to rid his land 
 of this pest. 
 
 The greatest destroyer of the Ilessian-fly is a shining black four-winged 
 fly, about the tenth of an inch in lengtli. Do not mistake this friend for 
 your foe, and compass its destruction. Many sensible men have made this 
 mistake, and very aptly, too ; for, as they will tell you, they have actually 
 seen the fellow come out of the dried skin of the Hessian. So they did ; but 
 not until the destroyer of wheat had been destroyed by an insect that fed 
 upon his vitals. 
 
 The parasite of the Ct'cidrnnyia destructor is the Cerapliron. destructor of 
 Say, and it is a question of vast consequence ^ wheat-growers what they 
 can do to promote the growth of this insect, whfth has already been of sucla 
 vast benefit to them. 
 
 "We have no doubt tliat the parasite of the wheat-midge will do the same 
 kind of service, and periiaps exterminate tliat pest. 
 
 The Hessian-fly is a very small two-winged gnat. Tlie female deposits 
 her eggs soon after the wheat begins to grow, say in October, for lat. 39°, 
 40°, 41°, in the cavities between the little ridges of the blades. In from 
 four to fifteen days the eggs hatch, and the diminutive maggots work down 
 into the leaf-sheath and there spend tlie winter. The fly works from August 
 to January, according to latitude and climate influences, so that what would 
 be a remedy in one place would not be in another. In fact, it is asserted that 
 the fly sometimes works upon wheat in tiie Sj^ring ; so the following recom- 
 mendation would not be cfi'ectual. That is : 
 
 About the middle of August sow a strip of wheat adjoining where you 
 intend to put your crop — say one or two acres. About the middle of Sep- 
 tember sow your field. When that has come up and shows cleverly, plow 
 under the first sown ; turn it under well. Your fly is headed and your crop 
 is safe. 
 
 In the particular locality of tiie man who says " that remedy wont fail," 
 perhaps it will not. 
 
 The maggots within the leaf-sheath lie dormant through the winter, and 
 do not stop the growth of the wiieat until just before it is ready to blossom, 
 when if there are several oii a stalk, it withers and dies. The worms do not 
 eat the stalk, but suck up the sap and poison it. A full-sized maggot is 
 three twentieths of an inch long, with a hard skin, of a bright chestnut color, 
 and looks as much like a flax-seed as anything it can be compared to. This 
 
Sko. 12.] ENTOMOLOGICAL. 215 
 
 appearance remains, but the outside is a dried skin inclosing the pupa, wliicli 
 advances to perfection in April or May, and it is these early flie> tiiat lay 
 eggs upon spring wheat. It is asserted that there are three broods in a year. 
 The fly is about the tenth of an inch long ; the head, antennae, and thorax, 
 black ; the hind body tawny, the wings tawny at the base, and black and 
 liairy at the ends, expanding about a quarter of an inch. The legs are pale, 
 red, or brown, and feet black. The antennas are jointed, and surrounded 
 with whorls of short hairs. 
 
 With the above short description and microscope in hand, it will not be 
 difficult for any observing person to determine the character of an insect 
 found upon his wheat, so as to decide whether it is the Hessian-fly or the 
 Hessian-fly destroyer. 
 
 249. Insects Injurious to Fruits. — Probably of all the tribe of pests that 
 infest fruit-trees, that known as curculio, or plum weevil [RhynchcBnus 
 nenuphar), does the most damage. It has nearly driven the plum-trees 
 away from every farm, and has in some seasons destroyed the peaches, and 
 done incalculable damage to the apple crop. In fact, for many years pre- 
 vious to 1860, there was not a good apple crop in all the Eastern States, 
 owing, in a great measure, to the curculio. Small as this pest is, it is capable 
 of doing great mischief to all the fruits, and its sting is deatli to plums, 
 apricots, and nectarines, and very injurious to cherries and pears. The finer 
 the fruit, the greater the injury. A very hardy plum or cherry may survive 
 a sting from tliis insect, which leaves a peculiar, crescent-shaped wound, and 
 makes an ugly scar and a hard gnarl in the fairest fruit. 
 
 Tills insect is found in nearly all the States of the Union ; it is worst in 
 the Middle ones, or between latitudes 39^ and 41°. 
 
 By the following minute description by Glover, the little villain may be 
 known by any one, though not previously acquainted with him : 
 
 "The perfect curculio is about two tenths of an inch in length, of a dark 
 brown color, with a spot of yellowish white on the hind part of each wing- 
 case. The head is furnished with a long, curved snout, or bill, with which 
 it is enabled to bore into the unripe fruit by means of jaws placed at the 
 end of the bill. The wing-cases, which are rigid, uneven, and humped, 
 cover two transparent wings, by which the perfect weevil is enabled to fly 
 from tree to tree ; but when these wing-cases are closed, the back appears 
 without any suture, or division, which has led to the very erroneous idea 
 among farmers that the insect can not fly. When disturbed, or shaken from 
 the tree, it is so similar in appearance to a dried bud, that it can scarcely be 
 distinguished, especially when feigning death, which it always does when 
 alarmed. As soon as the plums are of the size of peas, the weevil com- 
 mences the work of destruction by malung a semicircular cut through the 
 skin with her long, curved snout, in the apex of which she deposits a single 
 egg. She then goes to another plum, which is treated in a similar manner, 
 until she has exhausted her whole stock of eggs. The grubs, which are 
 batched by the heat of the sun, immediately eat their way to the stone in an 
 
216 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 oblique direction, where they remain, gnawing the interior, until the fruit is 
 weakened and diseased, and by this treatment falls from the tree. The 
 grub, which is a small, yellowish, footless, white maggot, then leaves the 
 fallen fruit, enters the earth, changes into a pupa, and in the first brood 
 comes to the surface again, in about three weeks, as a perfect weevil, to 
 propagate its species and destroy more fruit. It has not yet been decided 
 whether the latest generation of the weevil remains in the ground all winter 
 in the grub or in the pupa state. Dr. E. Sanborn, of Andover, Mass., asserts, 
 however, that the grubs, after having entered the earth, return to the surface 
 in about six weeks as perfect weevils, which must remain hidden in crevices 
 until spring. The most popular oj^inion is that they remain in the larva or 
 pupa state in the earth during the winter, and only reappear in the spring 
 in the perfect state. The worm, or grub, is often found in the knots or ex- 
 crescences which disfigure and destroy plum-trees, and has been wrongfully 
 accused of being the cause of these swellings ; but it is highly probable that 
 the weevil, finding in the young knots an acid somewhat similar to that of 
 the unripe fruit, merely deposits its eggs therein, as the nearest substitute 
 for the real plum. 
 
 " Some of the remedies recommended for preventing the ravages of these 
 insects are actually absurd, such as tying cotton round the trees in order to 
 prevent them from ascending, when it is known that they are furnished with 
 wings, and fly from tree to tree with perfect ease. Among the remedies at 
 present in use, one is to cover the fruit with a coating of whitewash mixed 
 with a little glue, applied by means of a syringe. Another is to spread a 
 sheet upon the ground under the tree, and then jar the principal branches 
 suddenly with a mallet covered with cloth, so as not to bruise the bark, 
 Avlien the perfect insects will fall into the sheet and feign death, and may be 
 gathered and destroyed. Hogs are sometimes turned into plum orchards, 
 where, by eating the fallen and diseased fruit, they materially lessen the evil. 
 Coops of chickens, placed under the trees, have also been recommended. 
 Then shake the trees often, and the chickens Avill catch and devour the 
 insects. All fallen fruit should be gathered up several times in the course 
 of the season, and burnt, or given to hogs, or destroyed in some otlier way." 
 
 We shall now give, besides the above remedies, a few more, "infallible," 
 of course, that float annually through the newspapers. 
 
 250.. Curculio Remedies. — To one pound of whale-oil soap add four ounces 
 of flour of sulphur. Mix thoroughly, and dissolve in twelve gallons of 
 water. To one half peck of quick-lime add four gallons of water, and stir well 
 together. When fully settled, pour ofli" the transparent lime-water, and add 
 to the soap-and-sulphur mixture. Add to the same, also, say four gallons 
 of tolerably strong tobacco-water. Apply this mixture, when thus incor- 
 porated, with a garden-syringe, to your plum or other fruit trees, so that the 
 foliage shall be well drenched. If no rains succeed for three weeks, one 
 application will be sufticient. Should frequent rains occur, the mixture 
 should be again ai^plied until the stone of the fruit becomes hardened. 
 
Sec. 12.J ENTOMOLOGICAL. 217 
 
 The person who used and recoiiiinendud this remedy says : " The trees that 
 received the application ripened an abundant crop of as perfect and beautiful 
 plums as ever grew, while not a single plum was ripened on those trees to 
 which the wash was not applied." 
 
 He also recommends a little salt to be added to the mixture. 
 
 It has been stated as an important fact, that plum-trees planted in sucli a 
 position that the fruit will hang over water, will never be stung by cnrculio; 
 so that nothing is more easy than growing this delicious fruit wherever the 
 trees can be so planted. Dr. Underbill, of Crotou Point Vineyard notorietj', 
 states that lie is never troubled, not having seen an insect upon one of 150 
 trees in six years. He formed an artificial pond, with banks constructed on 
 purpose to set the trees slanting over the water. He gathers the fruit in a 
 boat. He has many of the best varieties of plums so planted, and never 
 saw finer fruit than lie thus produces. It is an experiment that should be 
 tried by eveiy man wlio has the necessary conveniences. The ravages of 
 the curculio have been so great for many years that we have had but few 
 plums, and those inferior and high priced, in this market. 
 
 We have the following account from James Taylor, of St. Catherine's, 
 C. W., a few miles from Niagara Falls, of a pretty efii"ectual I'emedy for the 
 great pest of the plum-grower — the curculio. He says : 
 
 " Our locality being much infested with the curculio, and observing in one 
 paper issue, last spring, what had been pronounced by a Mr. Jos. H. 
 Mather, of Goshen, twenty miles southeast of the place whei'e the writer 
 resided, an effectual remedy against its ravages, allow me, for the benefit of 
 your readers, to state my experience of its efficacy. The proposed remedy 
 was a mixture of sulphur, lard, and Scotch snuff, to be rubbed freely on the 
 trunk and branches. This I applied according to the directions, and it is 
 true that I had a splendid crop of plums, some of the choicest varieties, 
 always most subject to the attacks of this insect, viz., the Bolmar, Huling's 
 Superb, etc., being perfectly loaded ; hut mark the result. On examining 
 my trees last fall, I found all that I had applied the mixture to in a dying 
 state, and I have lost them all, with the exception of one or two young trees. 
 Tlie operation being rather a troublesome one, I did not aj^ply it to as many 
 as I should otherwise have done, or I should have lost more. So much for 
 quack nostrums. Tlie remedy proved worse than the disease. Perhaps my 
 expei'ience will be useful to others." 
 
 P. G. Pardee gives the following remedy for the clirculio, which has been 
 successfully practiced by a person of his acquaintance. Take fresh cow- 
 droppings, and a little wood-ashes, some lime, and a little sulphur, and make 
 all into a thin decoction, and throw it over tlie trees with a hand-basin. 
 This lasts until it rains ; it is then put on again. A half pound of sulphur 
 to a half barrel is sufficient, and of the other substances it is not very im- 
 portant as to the proportions. 
 
 'SKq tliink the labor of this application would be too great. 
 
 Dr. Trimble, of New Jersey, says that he has tried all sorts of offensive 
 
218 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 odors to keep off curculio, without effect. " I have found no remedy equal 
 to that of manual labor in catching and destroying the insect. It is a fact 
 that some phim-trees are not infested by the curculio." 
 
 Tlie following is a conversation of some exj^erienced fruit-growers upon 
 curculio remedies, and the character of the insect : 
 
 IIeney Steele, a New Jersey nurseryman, said that he had prevented 
 curculio by the use of black soap from the tallow-chandler's, dissolved in 
 water and mucli diluted, with whicli the trees are syringed directly after the 
 blossoms fall, after a rain, and repeated, if necessary, in consequence of being 
 washed off. 
 
 R. G. Pardee — A person present assures me that a neighbor of his 
 yarded his hogs around his plum-trees, and that saved them from the curcu- 
 lio. Mr. Pardee said that he thought that fresh cow or pig manure, dis- 
 solved, and the water sprinkled over plum-trees, would prevent curculio. 
 Tlicy dislike any strong-smelling substances. 
 
 Wm. Lawton — You may apply cow or pig manure raw to all fruits and 
 berries, but not horse manure ; that never should be used fresh — make it first 
 into compost. 
 
 Dr. Trimble — The curculio has already commenced its ravages this spring. 
 I am also satisfied that the curculio stings the bark of plum-trees and pro- 
 duces the disease known as the black knot. I liave made a great many 
 experiments to prove the insect identical with that which destroys all of our 
 smooth-skinned fruit. Tlie jarring of trees to shake off the curculio is effect- 
 ual, but it is an immense labor, as it must be attended to every day, and 
 some sunny days several times a day. I think that, unless some remedy 
 for this insect can be discovered, we shall be unable to raise any fine fruit. 
 It is the curculio that causes the disease in apples known as gnarly. We 
 get no good apples in Jersey, and it is out of the question to raise plums, 
 apricots, or fine peaches. We import prunes from Germany cheaper than 
 we can make boxes to j^ack them in — the plums grow to such perfection in 
 that country. 
 
 Wm. Lawton — I have removed bushels of black knots from my cherry-trees 
 and burned them. I found in all these knots a living worm. I destroy the 
 common caterpillar by collecting them in the nests and destroying them. 
 
 Mr. O. W. Brewster, of Freeport, 111., gave a statement of his success in 
 repelling the attacks of the curculio on his plums. Early in spring he scat- 
 tered lime, wliich had "been mixed for whitewashing, under his plum-trees 
 once a week, until the curculio quitted the field. He also scattered soap-suds 
 and chamber-lye under them in liberal quantity. He said, I have twice tried 
 the same remedy, with complete success. I once applied it to a small tree, 
 which matured its whole crop ; several other trees near it, which set full of 
 fruit, did not ripen a specimen. If plum-trees succeeded with us well, I 
 should have no fears of the curculio. 
 
 P. H. Perry, of Collins Center, N. Y., says : 
 
 " A gentleman lately informed me that he had raised a good crop of plums 
 
Sko. 12.] ENTOMOLOGICAL. 219 
 
 simply by spreading a lieavy coat of fresh horse manure on the ground under 
 his trees. He said it entirely prevented the ravages of the curculio, when 
 0:1 their account he had not been able to gather a crop of plums for years 
 before." 
 
 Solon Kobinson read the following letter from Dobbs' Ferry. The man 
 certainly can read, at least he says so, but we wonder how he can own a tree 
 liable to the attacks of the curculio, and know so little about it. He says : 
 
 '• I have been much interested in the doings and sayings of the Farmers' 
 Club, but in the various debates before that body, I have seen no statement 
 advanced concerning the liabits of the curculio. I have also read several 
 articles concerning its depredations, but I have yet to learn whether it is a 
 flying insect, or simply crawls up the body of trees. 1 have several cherry- 
 trees iu my garden of choice varieties, and I can safely say that every cherry 
 was punctured by the curculio this spring. 
 
 " The trees are growing and have just commenced bearing. 
 
 " The soil is sandy. 
 
 " My neighbor, less than a hundred feet from me, has escaped its ravages. 
 
 " Does it fly or crawl ? 
 
 " Would a barrel or trough similar to those used on the elms of New 
 Haven be of any service in staying its ravages ? 
 
 " Are the worms in the common black cherry, which is universally 
 inhabited, produced by the curculio ? 
 
 " Is there any remedy for this pest ?" 
 
 That question — " Is there any remedy for this pest ?" — has been answered 
 in every agricultural paper in the world, and so it has been stated that the 
 insect has wings, and yet the writer of this letter has not read of it. 
 
 Let me ask another question : " How is it possible to enlighten people 
 who will not read ? or, reading, will not understand ?" 
 
 Dr. Tkimble — I am now trying several experiments to prove that the 
 same insect that stings the fruit makes the knots on the limbs. No attach- 
 ment to the bole of a tree can be any protection against a flying insect like 
 the curculio. The excrescence on the limb is no more remarkable than the 
 insect that produces the balls upon oak-trees. Dr. T. showed specimens 
 of the curculio of phmis, that he had hatched out in earth covered to pre- 
 vent escape, to show that the insect becomes perfect from the first laying of 
 eggs in young plums, and, as he thinks, these perfect insects lie dormant till 
 spring. The question is. Where do they hide themselves until the young 
 fruit is ready for them to deposit their eggs ? 
 
 Prof. Mapes said that a preparation called Persian Powder is said to be 
 very etfectual in destroying insects. 
 
 Wm. S. Carpenter thought that no bug-powder would rid a farm of cater- 
 pillars. Something else must be done. 
 
 Wm. Lawton said that he had cleared his farm of tent caterpillars by 
 pulling down the nests by hand, with all the worms in them, when they are 
 easily destroyed. 
 
220 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Dr. TitiMBLE gave a history of the cockchafer, which remains in the ground, 
 like the locust, four years, and then comes forth in immense numbers, but 
 in tlie flying state. They do not feed, and consequently do no damage to 
 plants. 
 
 In our opinion, the best remedy for ciirculio is pigs, poultry, and birds. 
 "We have seen fine crops of plums grown in a curculio neighborhood, in a 
 season when these pests were active, in a small lot occupied as a poultry -yard, 
 in which several pigs run at large. The hens scratched, and the pigs rooted 
 the ground, and the dove-cot also had something to do M'ith the matter. At 
 any rate, the barn was inhabited by swallows, and they catch flies, and per- 
 haps curculios. 
 
 251. — Apple and Peach Worms.— Tlie codlin moth, or apple moth {Ogrpo- 
 caj)sa pomonella), is the name of an injurious insect M'hich deposits its eggs, 
 in June or July evenings, in the calyx of the young apples, where they soon 
 hatch, and the little worms eat their way to the heart of the fruit, where 
 they continue till ready to change into the chrysalis state. " Wormy apples" 
 generally ripen prematurely and fall. The worm is of a reddish color when 
 fully grown, and ready to leave the fruit and creep into crevices of the bark 
 to spin a semi-transparent cocoon, where it changes into a small chestnut- 
 brown chrysalid, and that produces a moth in a few days, measuring 
 seven tenths of an inch across the wings, wliich are of a brownish-gray color, 
 crossed by many dark-colored lines, with a dark, oval spot on each wing. 
 The under wings are lighter colored, shaded near the margin. As a remedy 
 against this pest, it has been recommended to wrap clotlis loosely around 
 the forks of the trees, for a shelter for the M'orms to form cocoons, and then 
 destroy them. We fancy that this remedy will cure but a very small part 
 of the evil. Picking np and putting all wind-falls where the worms can 
 never see daylight will kill more of them. 
 
 Perhaps the best remedy for this, and many other little pests, is the Scrip- 
 tural one — " Dig about the tree and dung it." That is, give it greater vigor 
 of growth ; make it more productive, so that a portion of the fruit will come 
 to maturity in spite of all insects. It is a well-known fact that the most 
 vigorous-growing, thrifty trees exactly correspond with thrifty farmers — the 
 more they have, the more they gain. Insects mostly attack the most 
 neglected trees. 
 
 252. Peach-Tree Borers. — The peach-tree borer {JEgerla cxitiosa) is one 
 of the greatest pests of the farm, because it has almost blotted out of exist- 
 ence this most valuable fruit in large districts of the country. It is believed 
 by most careful observers to be the cause of nearly all the diseases which 
 afi^ect the peach-trees, the most visible of which is " the yellows," where the 
 leaves gradually take on a yellow, sickly appearance in midsummer, and 
 frequently at the age of three or four years show scarcely a green leaf, when 
 they should be clothed in the richest green, and finally wither and gradually 
 perish. The epitaph of tens of thousands of peach-trees all over New En- 
 gland, New York, New Jersey, and Delaware, Maryland, and Pennsylvania, 
 
Sec. 12.] ENTOMOLOGICAL. 221 
 
 would be, " Died young — ^attacked by borers — the disease exhibited in yel- 
 low leaves — speedy death followed." 
 
 This boring Avorm is produced from eggs deposited at the foot of the tree 
 by a wasp-shaped moth, of a steel-blue color, M-itli an orange ring about the 
 abdomen. Sometimes the eggs are placed in wounds, or between forks, biit 
 general!}' in the bark, close to the ground, where the M'orms can easily pene- 
 trate into and devour the inner bark and wood just below tlie surface. 
 
 Sometimes a vigorous tree will retain life year after year, with these worms 
 gnawing at its vitals. Sometimes the tree is girdled and destroyed in a single 
 summer. There appears to be a succession of broods in a single season. In 
 the latitude of New York city, the moths come out in June and July. Nec- 
 tarines and apricots are also attacked by the same insect. The plum wood 
 appears too hard, and peaches engrafted on plum stocks sometimes succeed 
 where, if upon their natural roots, they would never bear fruit. Tliese 
 borers, when full-grown, are about an inch long, colored yellowish white, 
 M-ith an amber-brown head. The chrysalis is brown ; it is formed in a case 
 made of the gnawings of the worm, which it glues together around its body. 
 Tiie moth expands M'ings an inch across, transparent and veined, and bor- 
 dered blue in the male, and dark blue upon the female's upper wings, and 
 lier body is belted with orange. 
 
 The remedies, as preventives or cures of the peach-tree borer, are n^nner- 
 ous. Dr. Harris, the great American entomologist, says: 
 
 " Remove the earth around the base of the tree, crush and destroy the 
 c(^coons and borers which may be found in it and iinder the bark, cover the 
 wounded parts with the common clay composition, and surround the trunk 
 with a strip of slieathing-paper nine or ten inches wide, whicli should extend 
 two inches below the level of the soil, and be secured by strings of matting 
 above. Fresh mortar should then be placed around tlie root, so as to con- 
 fine the paper, and prevent access beneath it; and the remaining cavity may 
 be filled with new or unexhausted loam. The operation shoidd be jierformed 
 in the spring, or during the montli of June. In the winter the strings may 
 be removed, and in the following spring the trees should again be examined 
 for an}' borers that may have escaped search before, and the protecting ap- 
 plications should be renewed. The ashes of anthracite coal have also been 
 recommended to be put into the cavities made when the earth has been re- 
 moved from around the" trunks when searching for the worm ; and if the 
 trunks are thorouglily searched three or four times a year, especially in the 
 earth near the roots, and the grubs and chrysalids dug out and destroyed, 
 these insects would soon cease to be as injurious as they are at present." 
 
 The following conversation in the Farmers' Club conveys some useful in- 
 formation upon this important subject: 
 
 Solon Robinson read a letter from the Rev. J. S. Weishampel, Sen., Bal- 
 timore, Md., upon the use of hot water to kill insects upon trees. He alludes 
 to a letter read here some weeks since, about scalding wheat, and then says: 
 
 " This scalding process destroys the egg of the fly, and the same jsrocess 
 
222 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 has been known to destroy the eggs as well as the grubs themselves, that injure 
 the peach, phun, and other trees so greatly. Scald the stem of the tree well, 
 letting the hot water get well into the ground around the tree, where the 
 grubs do the most harm, and a destruction of botli eggs and grub follows ; 
 and, in addition to this, the scalding appears to add to the vigor of the 
 trees. 
 
 "An old lady in Berks County, Pa., had a plum-tree that for many years 
 bloomed and brought forth crojjs of fruit till half ripe, and then slied them. 
 She often besought her husband to remove the tree, but he still pleaded, 
 ' Let it stand another year.' At length, one spring, after she had boiled her 
 soap, she heated the kettle full of the refuse lye to a boiling degree, and 
 poured it all down the stem of the tree, intending to ' scald it to death,' as 
 she said. It soon blossomed most abundantly, and bore a profuse crop of 
 plums, which it brought to the greatest perfection, which greatly pleased the 
 old lady. 
 
 " Tliis same principle could be applied to the destruction of every 
 kind of destructive insect upon the various choice fruit-trees, either by pour- 
 ing boiling water upon the limbs and stems, or by conducting a stream 
 of steam through a hose or j^ipe, from a movable boiler, to kill both eggs 
 and insects. 
 
 "Chestnuts, too, are very liable to be worm-eaten. If they Avere subject- 
 ed to a momentary heating (wet or dry heat), to a sufficient degree to scald, 
 it would kill the germ of the worm that destroys that sweet nut. And the 
 same principle would also prevent all wood used in building and machin- 
 ery from becoming worm-eaten." 
 
 Prof Mapes — I have used it on peach-trees, until I have satisfied myself 
 that a peach-tree can not be injured by hot water. 
 
 Mr. Caepentee said that lime was the best thing he ever tried around 
 peach-trees. 
 
 Mr. AVuEELER said that lime will not kill the grubs in tlie wood. 
 
 Mr. Smith, of Connecticut — I have found no remedy except manual labor, 
 thougii wood-ashes are valuable, and so is lime. I have an orchard in full 
 bearing tluit is fourteen years old. 
 
 Prof Mapes — I have never found any remedy equal to hot water. It 
 cooks the worms. 
 
 A letter from East Wilson, Niagara County, N. Y., says : 
 
 " A large and interested community, comprising at least fine thousand 
 peach-growers in this county, ask for light. What can be done to stay the 
 ravages of the red-headed peach-grulj? To dig him out and kill him will 
 only insure an armistice for about ten days. Fresh wood-ashes applied to the 
 trees only seem to sharpen his appetite for destruction. Hundreds of orchards 
 and thousands of frees are dying from his operations. There are half a 
 million of peach-trees in this vicinity suffering from this pest. Will tar pre- 
 vent his operations? and will it injure the tree? Can you or any of your 
 numerous readers or correspondents tell us of any specific which will kill 
 
Seo. 12.] ENTOMOLOGICAL. 223 
 
 the grub witliout injuring tlie tree? If you can do so, you will confer a 
 substantial favor upon many hundreds of your readers." 
 
 Andkkw S. Fuller — The best remedy is to preserve the birds— the natu- 
 ral insect destroyers. It is their decrease that has increased destructive 
 insects. 
 
 Wm. Lawton stated that he had taken great pains to preserve birds around 
 his place, and was now reaping the benefit. As to any outward application 
 to kill the peach-worm, he did not know of anj^thing that would destroy it 
 without destroying the trees. If the worms are dug out, and a plaster of 
 soft cow-manure is applied, the tree may recover. It is a very tedious 
 operation. 
 
 Wrens. — Tlie Secretary advocated the cultivation, or ratlier protection, of 
 wrens and insect destroyers. 
 
 Mr. Fuller said that the wren was a mischievous bird, and destroyed the 
 eggs of other birds. 
 
 A letter from P. M. Goodwin, Kingston, Luzerne County, Pa., says : 
 
 "I observe in tlie transactions of the Club of July 2, it is thought that if 
 a discussion of tlie topic of the peach-grub would elicit a remedy, it would 
 be universally entertaining. My conclusion is, that trying to cure the peach- 
 grub, unless wliere the soil is light and but few are found, is a humbug. I 
 have a preventive, which I will give clieerfully : 
 
 " When I purchased my little place on Hose Hill, overlooking a portion 
 of ' Wyoming Valley,' there were one hundred neglected peach-trees thereon 
 — budded, and of excellent varieties — which were full of grubs. Early in 
 April I commenced operations by carefully clearing away the grubs by 
 means of the knife and wire. I then made a funnel-shaped hole around the 
 base of each tree, which would hold three or four quarts of water. I filled 
 the holes with boiling water, which efi'octually destroj'cd the progeny. I 
 then filled the holes witli a tenacious clay, and tamped it hard, leaving the 
 surface around the tree cone-shaped and hard compacted. I have examined 
 these trees at various times during the intervening five years, and have found 
 but one tree aft'ected, and that with but two grubs. This mode, with me, 
 has acted as a perfect preventive, and, I have no doubt, will witli all who 
 adopt it and exercise the same care. 
 
 "Tliese trees were three or four years old, and, at the time the experiment 
 was made, much inferior to some from the same lot growing elsewhere, 
 which were regularly examined and carefully cleared of grubs in the usual 
 way. My trees are sound in wood, and look well, while the otliers have dis- 
 appeared. 
 
 " In planting peach-trees now, I would cut away the tap (not top) root 
 close under where the horizontal roots put out. Having driven a stake firmly 
 for each tree, I would plant it so shallow that after the lieavy rain the upper 
 side of the roots will become exposed. In this way the trees are not so liable 
 to become infested with the grub. I planted some trees so a year ago, and 
 find the non-appearance of the grub satisfactory." 
 
224 SMiVLL ANIMALS AND INSECTS. [CnAP. IT. 
 
 R. G. Paedee — I Lave tried the hot water very often, and have always 
 found it effectual ; and I thought that by this time everybody had heard of 
 it, but if they have not, I hope this letter will be read and remembered. 
 Instead of clay I used leached ashes, as they were more convenient, and they 
 answered a good purpose. 
 
 The Chairman presented a new pest of the peach — a dark-colored worm, 
 about an inch long, that fixes itself in the foot-stalks of the leaves and destroys 
 them. 
 
 Wm. S. Caepentek — This insect discussion is one of great importance to 
 farmers. These little, insignificant things are great destroyers of our crops. 
 AVhat if we could discover a remedy for the bugs that eat up the potato vines, 
 or a remedy for the effect of cold upon fruit-trees ; for I have noticed, within 
 a day or two, that the northerly sides of the pear-trees are blasted and turned 
 dark by the cold wind. The cold of a day or two in spring often destroys 
 many tender vegetables. 
 
 It was observed that cold nights sometimes have a beneficial effect upon 
 fruits, by destroying some of the insects that usually prey upon them. It did 
 in the spring of 1860. That season proved the most productive of fruit of 
 any year in the memory of most young people. Of the hot-water remedy 
 for the peach-grub, we speak from experience, that it is the best of all we 
 ever knew. Lime, too, has been tried with good results. Hon. John M. 
 Clayton, of Delaware, assured us once, at his house, that the peach-trees we 
 were then looking at, which were so vigorous, had been treated with half a 
 bushel of lime, placed in contact with the body and upper roots, and he be- 
 lieved it would continue to be a preventive of the peach-grub. 
 
 253. Insect Remedies. — We give the following various remedies for insects, 
 all of which are vouched for by good men ; some believing one infallible, 
 and some another. 
 
 The following wash is recommended for all sorts of trees, as a preventive 
 remedy against caterpillars, etc. : Potash, 20 lbs. ; air-slacked lime, half a 
 bushel ; sifted wood-ashes, half a bushel ; fresh cow dung, half a bnshel. 
 Mix in water enough to be of the consistence of whitewash. Scrape oft" the 
 rough bark, and rub the wash in well with a brush. 
 
 Caustic soda icash is one of the best things we ever saw applied to a fruit- 
 tree. It will make the bark as smooth as if wax-polished. It leaves no 
 harbor for insects under pieces of dead bark. It is made by heating the 
 common sal-soda red hot in any old iron vessel, and then making a lye of it 
 — say about one pound of the salts to a gallon of water — and washing the 
 trees with a brush. It is best to put it on in the spring. A piece of old 
 stove-pipe, battered up at one end, and stuck into one of the stove-holes, 
 answers very well to heat the soda in. The wash should be too caustic to 
 put your hands in, and, Avhile putting it on, it will not be worth while to 
 wear a fine broadcloth coat. 
 
 The Liquid Brimstone Remedy. — M. Letellier states in the Journal of the 
 Paris Horticultural Society, that a liquid formed l)y boiling 63 grains of red 
 
Seo. 12.] ENTOMOLOGICAL. 225 
 
 American potash, and the same quantity each of flour of sulphur and soap, 
 in la pints of water, is most excellent and efficacious in destroy in_<^ insects. 
 If it requires to be stronger, tlie quantity of potash and sulphur may be 
 doubled, but the soap must remain the same. Uj^on immersion, the insects 
 — ants, caterpillars, cockchafers, grubs, etc. — are instantly killed, while the 
 solution occasions no injury to plants. The liquid will destroy ants and 
 grubs when poured into tiieir places of resort. 
 
 Preventive of CtxnJcer- Worms from Apple-Tre^. — A letter from Maiden, 
 Mass., gives a most sensible plan for a cheap jjreventive of canker-worms, 
 which climb the boles of apple-trees: 
 
 " Take pine boards of suitable width for four to box a tree. Cut them in 
 pieces two feet long on one edge, and four feet long on the other edge. Nail 
 them together in a box around the tree, with four sharp points up. This box 
 is to be adjusted about the tree before the grubs come from the ground, and 
 a peck of powdered lime or ashes thrown between the trunk of the tree and 
 the inside of the box. The caustic lime or ashes will destroy the grubs near 
 the tree, and the boxes will invite all the grubs near them to ascend and de- 
 posit their eggs. I found the pinnacles covered with grubs and eggs, and 
 the insects apparently contented with this highest point as a safe place, and 
 there the eggs were deposited. 1 then removed the boxes to a consideral)le 
 distance from the trees, and heard no more from canker-worms; they all died 
 for want of proper food." 
 
 Anotiier plan, lately patented, to prevent worms climbing trees, looks as 
 though it would be effectual. A tin trough is made in two parts, large 
 enongli to encircle the tree and leave a space four or five inches between the 
 trough and bole of the tree. From the outside edge of the trough a strip 
 of cloth extends all around, wide enough to have its upper edge tacked to 
 the tree, by which the trough tilled with oil is sheltered from rain and sus- 
 tained in its place, so that worms creeping upward come first in contact with 
 the cloth, and if they crawl down that to get around the edge and so up the 
 tree, they are caught in the oil, which, being sheltered, remains in good con- 
 dition longer than when exposed. Now it is an experiment worth trying, 
 and for which there is no patent, whether a strip of cloth nailed around the 
 tree at one edge, and having the other extended six inches from the bole by 
 a wire or limber rod, would not answer the purpose without the oil-trough. 
 The under side of the cloth could be coated with some kind of pitch that 
 would not harden soon, being protected from sun and rain, which would 
 effectually prevent the ascension of insects — certainly much more so than 
 the belt of tar as it is usually applied. 
 
 Dr. Trimble, in answer to the question, what remedy to apply to this pest, 
 said that the only remedy is the ichneumon parasites. These, in their proper 
 time, will attack the worms and destroj^ them. In the mean time, while 
 one section of the country is ravaged, another is extraordinarily fruitful. 
 
 He introduced specimens of the caterpillar that preys upon the grapevine, 
 to show that it has its parasite, one of which had just emerged from the 
 
226 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 body of the caterpillar. This, he hoped, would prove a sufficient check to 
 the ravages of this particular pest, 
 
 254. Another Conversation at the Club about Insects. — Wm. S. Caepentek— 
 All classes of insects have their favorite j^lants, but if these favorite plants 
 fail, the insects will take to others. Last year I saw ailanthus trees in this 
 city completely covered with a worm known in the country as the canker- 
 worm. The trees were wholly stripped of foliage. We are continually im- 
 porting insects in various ways. I am told that every banana stem contains 
 a worm, and some of the same sort of worms have been discovered preying 
 upon the quince. 
 
 The rose-slug is easily killed by hand in the after part of the day, by an 
 application of quassia decoction, sprinkled upon the leaves, as the slugs are 
 then on the upper surface. 
 
 Extra cultivation, by which the plants grow rapidly, is the best remedy 
 for squash bugs. 
 
 Mr. Paedee said that the best remedy is to expose the soil dug from 
 a deep hole several days to the sun, and thea put it back in the hole, 
 patting it down solid, and then putting in the seed, and covering it lightly, 
 and then spreading fine charcoal over the hill. 
 
 Mr. FuLLEK— I tried this charcoal remedy, last year, most thoroughly, 
 without deriving a particle of benefit. 
 
 Mr. Pakdee — I have used charcoal, and was not troubled with bugs. 
 Now it is possible that, without it, the plants would not have been troubled. 
 So, after all, it is uncertain whether the charcoal was the preventive, or 
 whether there were no bugs to be eradicated. 
 
 Mr. Gakvey — I have tried a great many remedies, and have never found 
 anything so good as careful watering, and hand killing the bugs. 
 
 R. G. Pardee — I wish every man would try the solution of aloes — two 
 ounces to the gallon of water. It is such a bitter vegetable that it is 
 offensive to all insects. It may be used just as strong as it can be made — 
 from one fourth to a whole pound to the gallon. 
 
 Mr. Caepentek — The canker-worm, in the northern part of Connec- 
 ticut, is now ravaging the orchards to an extent that is destructive 
 to all prospects of fruit. On some large orchards there are no apples— 
 in fact, nearly all the foliage of the trees has been destroyed. Can this be 
 prevented ? 
 
 Washing Insects f/vm Fruit-Trces. — Mr. Paedee read a letter fi-om Charles 
 Lincoln, of North Bridgewater, Mass., which stated that he succeeded in saving 
 his plum-trees, last spring, from insects, by washing them frequently with 
 clear cold water, using for the purpose a little hand instrument called the 
 " hydropult." 
 
 Dr. Trimble contended that all the rot in plums is caused by the sting of 
 the curculio. 
 
 Mr. Pardee thought that this statement was incorrect; that plums fre- 
 quently rot where there are no curculio. He said, thirty years ago, at Seneca 
 
Seo. 12.] ENTOMOLOGICAL. 227 
 
 Falls, there was no curculio lo disturb the plum, and we grew great crops, 
 and sometimes nearly all on a tree rotted, almost all at once. 
 
 Geisharsfs Com^wxind for Insects. — P. B. Mead (editor of the Ilorticul- 
 turht) said that he has tried the above compound upon several kinds of in- 
 sects, and found it sure death to all he had aj^plied it upon. Tiie objection 
 to it is its liigh price — too high for common use ; if it would rid us of the 
 curculio, it would make the plums too costly. 
 
 John G. Bergen — It is a fact that we have a prospect this year of a larger 
 crop of plums than we have had in many years, and tlierefore persons 
 should be careful of their hasty conclusions about this or that nostrum 
 driving them ofl". 
 
 Mr. Mead — ^The prei>aration I mentioned, dissolved in water and used as 
 a syringe upon plum-trees, had the effect to drive off the curculio, even upon 
 one side of a tree, while the other was still infested. 
 
 Remedy for Rose-Slugs. — Geo. li. Hite — I have found an effectual rem- 
 edy against the depredations of these pests, in sifting dry dust upon the 
 bushes. It is just as good as snuff, or any other bug-powder. Of course, it 
 wants frequent renewal. 
 
 Bark-Lice. — Andrew S. Fuller — If a tree is properly cultivated, it will 
 grow so vigorously that it will outgrow all bad effects from attacks of plant- 
 lice. 
 
 Worms Destroying Gooseherry Bushes. — R. Dixie, of Painesville, Ohio, 
 inquires for a remedy for a pest upon his gooseberry and currant bushes. 
 He says " they have been stripped of tlieir leaves entirely, in one summer, by 
 hosts of green caterpillars or worms about an inch in length — a number 
 of broods during the season. "What shall we do to get rid of^ the pests? I 
 have used lime in powdei', and dry unleached ashes, without any ajsparent 
 beneficial effect." 
 
 SoLfiN Robinson — I would try the new preparation of " attenuated coal- 
 tar," which we have had exhibited here in the form of a dry powder. So 
 far as I have been able to try it, I have found it particularly offensive to 
 all insects. 
 
 A. B. DicKTOSON — If soft soap is placed in the crotch of a tree, and left to 
 work down by the rain, it will keep off all insects, even the curculio. Many 
 insects are kept away by offensive smells, which do not kill them. Smoke, 
 for instance, keeps off many insects. 
 
 Pests of Gra_pevi?ies and other Plants. — Dr. Trimble— Here is a specimen 
 of the insect that curls the grape-leaf Spring is the time to look after them, 
 and pick them off by hand and destroy them, or they will destroy the vines. 
 Here is another curious insect that infests the currant bushes. It is what we 
 call lice, and these lice furnish food for a colony of ants, by their exudation 
 of a sort of sweet substance. Here is the worm that curls the currant-leaf; 
 and here is another curious insect that binds itself up in a web and a leaf, 
 and what is remarkable, this insect is itself full of other insects — parasites 
 that live upon, and in a great measure destro}' it. I wish that some para- 
 
228 SMALL ANIMALS AND INSECTS. ' [Chap. IL 
 
 site could be found to destroy the curculio. Perhaps it may be destroyed in 
 time, as the Hessian-tiy has been. 
 
 The Measuring Worm. — Solon Robinson — If any one desires to extirpate 
 the worms that infest the trees in our parks, now is the time to do it by de- 
 stroying the eggs. Scraping and washing with potash is the best protection 
 of the boles of the trees. If we had plenty of birds we should get rid of the 
 worms. It is only in cities, where there are so few birds, that these pests 
 are so troublesome. Insects are the natural food of all birds. Even the 
 domestic ones that we keep about our homestead destroy untold quantities 
 of pestiferous insects that could not be got rid of in any other way. The 
 greatest profit in keeping poultry is the good the animals do in their inces- 
 sant pursuit of bugs and worms, which, if not destroyed, would in their turn 
 destroy the food-plants that we cultivate. I know of no contrivance of man 
 that will protect him from insects. 
 
 Mr. Paedee — In New Haven, trees have been protected by zinc troughs, 
 filled with oil, ai'ound the boles. 
 
 Destro'jirig Trees to Get Hid of Worms. — Andrew S. Fuller stated that 
 the worms in Brooklyn were so bad that the city councils were talking of 
 cutting down all the trees in that city, to get rid of the worms. 
 
 Solon Robinson — They had better cut down the boys who destroy the 
 birds. 
 
 More than forty years ago, the "canker-worms" were terribly destructive, 
 for several years, of apple^rees in Connecticut, and attempts were made to 
 prevent their ravages by making a band of tar, two or three inches wide, 
 around the bole of the tree. It })roved eflectual while the tar was soft ; but, 
 unless renewed every day, and sometimes twice a day, the surface dried so 
 that the worms crawled over; and I have seen them so thick that they 
 crawled into the tar and stuck, and then others went over them, and so on 
 until they formed a bridge, and thus defeated their strong opponent. 
 
 Dr. Trimble — The lindens of New Jersey, in former years, have been very , 
 much afiectcd, but tliis year they have not been injured. I believe the in- 
 sect has been destroyed by parasites, and I hope it M-ill be in Brooklyn. I 
 hope that no one will think of cutting down trees to get rid of the worms. 
 
 Origin of '■'■Bug-Powder.'''' — The Secretary stated that Lyon, the great 
 bug-powder man, has gone home to Europe, worth an immense sum, and it 
 is now publislied that the powder is made of a common French field-plant 
 of a species of the chamomile. 
 
 All the eft'ective insect powders now oflfered for sale owe their efficiency 
 to red chediiomile. It is sold by some of the druggists. Rub it to a fine dust, 
 mix it with some cheap divisor, and it is the best insect powder known. 
 When dusted into the cracks and corners of ceilings, etc., out walk the 
 cockroaches and all other intruders without fail. Dust the aflected plants, 
 and you may keep them clear of insects. 
 
 Mons. Radiguet states to the Society of Agriculture, Paris, that the plant 
 known as " Whiteflower Margaret" {Chrysanthemum cuanthemum'), used as 
 
 • 
 
Sec. 12] ENTOMOLOGICAL. 229 
 
 a decoration, is vtry destructive to insect life. Tliis plant is not a native of 
 this country, but is cultivated here, and can be easily multiplied. 
 
 Disease, of the Coffee-Tree. — Dr. Montague stated, at a meeting of the 
 Society, that a disease has attacked the coffee-trees of Ceylon, similar to the 
 oidiuni of the grapevines. The same disease has been observed in the West 
 Indies. Olives and mulberries are attacked ; insects are observed upon 
 them, something like t!ie cochineal insect. There is also an exudation of a 
 sweet guin that attracts insects. Milk of lime and purin — an extract of 
 manure — are used as a preventive. 
 
 Ailanthus, as a food for silk-worms, has been used in France with success. 
 
 Kerosene Oil for Insects. — Wm. G. Le Due, of Hastings, sends us a rem- 
 edy for caterpillars and other insects, easily applied. It is kerosene oil. 
 He saj-s : 
 
 " Finding some large nests of caterpillars on my plum-trees, I took a can 
 of illuminating oil, as it is called, and applying a few drops (suflBcient to 
 saturate the web of the nest), found that it Avorkcd like a charm. It is in- 
 stant death to the vermin. Care should be taken not to apply it to the 
 leaves of the plant or tree, as they will be scalded at once. I have but little 
 doubt that, in the hands of your careful experimentalists, it will prove of 
 value. The coarser oils of coal will no doubt be equally efficacious in many 
 instances. I may as well mention here, also, that I have found kerosene oil 
 a most excellent diluent of printers' ink, which I use in my ilouring-mill for 
 stencil-plate marking. It would be a thorough cleanser of type, though, per- 
 haps, not so cheaji as potash." 
 
 Coal-Tar for Insects. — Prof. Mapes — ^We are very free of destructive tree 
 insects, this year (ISGO), in New Jersey, but have a fair show of other pests of 
 the farm and garden, and we are obliged to resort to some remedy. We can 
 not grow early turnips without using something to keep the insects off, and 
 I am glad that the necessity stimulates invention to assist farmers in the de- 
 struction of these pests. I have lately tried one called " attenuated coal- 
 tar," and find it effectual. It is likely to be a very valuable aid to fruit- 
 growers and gardeners. It is in the form of powder, and wherever sprinkled 
 upon insect-infested plants, the insects leave at once. It is coal-tar mixed 
 with some substance so as to retain all its odor, and yet remain in the form 
 of a dry powder. ■ 
 
 Mr. Lawton — The Black Tartarian is a good sort of cherry, but I prefer 
 the Black Eagle ; it is a very hardy variety, and very productive. The En- 
 glish Morello is an acid cherry, and the tree very free from insects. We 
 have not had a rose-bug with us this year. 
 
 Solon Robinson stated that, only five miles from Mr. Lawton, the rose- 
 bugs infested his cherry-trees by myriads, destroying more than half the 
 fruit. Mr. R. inquired of Mr. Lawton what it was that ate his cherry-leaves, 
 if it was not rose-bugs, as they were evidently eaten by some insect, and if 
 coal-tar or anything else will prevent their ravages, it should be extensively 
 known. 
 
230 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 Whisky for Ants. — Wm. Davis, of Marengo, Morrow County, Ohio, offers 
 tlie fi)llowing plan for protecting fruit-trees froq^ ants, whicli, be says, have 
 killed many trees for him. It is the same plan pursued in this city to make 
 loafers, and then get rid of them — that is, feed them with whisky and make 
 them drunk, and then wipe them out. He says : 
 
 " Mix whisky, molasses, and water, in equal parts, and fill a tumbler about 
 two thirds full, and set it partly in the ground at the foot of the tree infested 
 by ants. When it gets full of the drunkards, scoop them out and kill them." 
 
 Wc suggest feeding them to fowls. 
 
 Do Worms Rain Down? — A person at Angola, Ind., who notices that the 
 Club talks about all sorts of miscellaneous matters, wants us, in the absence 
 of more important questions, to talk about this : " Do fish, worms, and small 
 toads, such as are often seen after a shower, in places where it appears they 
 must have fallen with the rain, actually come from the clouds?" 
 
 Dr. Wateeburt replied — They do not; it is one of the popular errors 
 which are so hard to eradicate. 
 
 The Locust Question. — A long discussion ensued upon the locust question 
 between Professor Mapes, Professor Nash, Wm. Lawton, Wm. R. Prince, 
 Dr. Trimble, and Andrew S. Fuller, about the habits of the seventeen-year 
 locust, which appeared in great numbers in the summer of 1860, in the vicin- 
 ity of New York. Every schoolboy of any pretension should read all about 
 these locusts, and study their natural history. Wherever they appear, try to 
 learn their habits, and whether they do injury to plants, either above or be- 
 low the surface of the earth. 
 
 Prof. Mapes exhibited the efi'ects upon branches punctured by the females 
 to lay their eggs, he still thought without permanent injury to the trees. 
 
 Wm. It. Peince declared the whole theory of the seventeen-year locusts a 
 humbug. 
 
 Prof. Nash thought they return in some localities in thirteen years, and 
 inquired if tlie nature of the soil had any effect upon their maturity. 
 
 Varieties of the Locust.- — Andrew S. Fuller — We have many varieties 
 of what are called locusts, among which arc the Cicada Septeindccim., Cicada 
 Canicularis, Cicada Jiimosa, Cicada Margiiiata, Cicada Siiperba, Cicada 
 Jiobertsoiiia, and perhaps several others. The habits of these are well 
 known, and have been for many years. The seventeen-year locust has ap- 
 j^eared regularly every seventeen years for more than a hundred years, as is 
 well attested by numerous writers upon natural history. 
 
 Dr. Trimble, of New Jersey, gave a lengthy lecture upon the locust, show- 
 iuf how the insect deposits its eggs in the limbs of almost every variety of 
 trees. A great number of these twigs were distributed among the company, 
 to show the curious manner in wliich these eggs are deposited. 
 
 This peculiar insect appears once in seventeen years ; but the year of its 
 appearance differs in every part of the country. In 1S55 it infested south- 
 ern Illinois. In 1800, 1817, and 1834 the trees of Delaware and Maryland 
 were literally covered by them ; and in 1843 many of the river counties on 
 
Sec. 12.] ENTOMOLOGICAL. 231 
 
 the Hudson were infested -with the Cieadae. The male insect lias a pair of 
 drums on each side of the- head, and, wiien infesting an orchard or woods, 
 the noise is frequently so great that no conversation can be heard in the 
 vicinity. The insect appears about the 25th of May, and remains six weeks. 
 The female is armed with an ovijMsitor, with which she inserts her eggs in 
 the smaller portions of limbs of fruit-trees, oaks, chestnuts, etc., always 
 selecting new growth, of an eiglith to a quarter of an inch in diameter. 
 Tlic incisions, about twelve in number, are made at an angle of forty to fifty 
 degrees, with an egg in each, and sometimes the twig is girdled near the 
 eggs, so that when the end of the twig dies it falls to the ground, and the 
 eggs are carried in by dews and rains. Miss Morris, of Germantown, Pa., a 
 well-known entomologist of close observation, claims that she found them 
 attaclied to the roots of pear-trees. 
 
 "While plowing at our place. May 10, these insects were thrown out in 
 large quantities. Tlie holes through which they ascend in the soil may be 
 traced to a depth of fom- feet or more. This locust is not to be dreaded, as 
 they do but little harm ; are not known to feed, and the shortening-in of 
 limbs by the depositing of their eggs may give a useful hint to those who 
 do not xinderstand the benefits of the shortening-in process." 
 
 He also gave an account of a maple-tree in Newark, which appears to 
 have a sort of bohun upas efi"ect upon flies ; they la}' dead by thousands under 
 this tree. 
 
 Prof. Mapes stated that, in plowing upon his farm near Newark, in 
 Ma}', the seventeen-year locusts were turned up in vast quantities. 
 
 Dr. Trisiele stated that this insect does not consume vegetation. Tliey 
 are M-ithin a few inches of the surface, waiting for the right condition of the 
 temperature to issue forth. Seventeen years ago these insects came forth on 
 the 25th of May, and immediately commenced their musical notes. They 
 remain about six weeks above ground, eating nothing. The injury they do 
 vegetation is by puncturing tlie limbs to deposit their eggs. This kills the 
 ends of the branches. The apple-tree and ehn-trees are favorite trees with 
 these seventeen-year locusts. The time of their appearance varies in differ- 
 ent localities. This is the year for all this vicinity and up the Hudson River. 
 My opinion is that the life of the insect is sustained imder-ground by attach- 
 ing to the roots of plants. The limb selected for puncture is always small. 
 
 The Secretary stated that the size of the limb punctured is not usually over 
 an eighth of an inch. 
 
 Mr. Dodge stated that the locusts were very plentiful on Long Island five 
 years ago, and that he has seen them every year iu this city. 
 
 Prof. Mapes thought that these fellows would be a little too much for 
 " insect powder." Still, he had received great benefit from one called the 
 "Persian Powder." That will enable me to grow early turnips, and it will 
 kill caterpillars. 
 
 Mr. Gale — In 1809, in Orange County, the locusts were plentiful enough 
 to allow me to gather bushels of them, and the apple-trees were covered. 
 
232 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Tlie only injury was to the small twigs. Wheat-fields were covered, but not 
 injured. 
 
 Andeew S. Fuller — In 1S55 the locusts were very abundant in Illinois, 
 and came forth out of heavy clay land, from more than four feet in depth, 
 in oak forests. They appeared to prefer the oak-trees. 
 
 The Chairman stated that he had observed their preference for oak in some 
 instances, but upon the whole, he thought they had very little care for any 
 particular sort of trees. 
 
 Dr. Thimble thought the chestnut was tlltjir favorite. I found, yesterday, 
 the eggs of the locust are beginning to hatch, and the young insect is as 
 perfect in shape as the old ones, of a pure white color, and no larger than 
 one of the eggs. 
 
 Habits of G)'asshopj>ers. — A Goliad correspondent of the Colorado (Texas) 
 C'dizeji gives some curious facts iu relation to the grasshoppers which have 
 recently swarmed in that region. lie says : 
 
 " They have an especial fondness for wheat and cotton, but don't take so 
 kindly to corn. The only vegetable they spare is the jjumpkin. Tlie most 
 deadly poisons have had no efiect upon them ; fumes of sulphur they rather 
 like than otherwise ; musketo-nets they devour greedily ; clothes hung out 
 to dry they esteem a rarity ; blankets and gunny-bags they don't appear to 
 fancy. They swim the broadest creeks in safety, sun themselves a while, 
 and then go on. The wliole mass appear to start and move at the same 
 time, traveling for an hour or two, devouring everything in their way, and 
 then suddenly cease, not moving perhaps for a week, during which, time no 
 feeding is noticed ; and finally, they carefully avoid tlie sea-coast." 
 
 Gi'iisshopper Parasites. — Solon Robinson — I have a letter from L. B. 
 Rice, Middlebury, Vt., inclosing specimens of grasshoppers, showing a para- 
 site that is preying upon them, which, it is to be hoped, will help to annihilate 
 this pest. This parasite is a small red insect, which attaches itself to the 
 grasshopper just under the wing. 
 
 255. f auker-Worm Preventives. — The following letter to the author, from a 
 New York city friend, is worthy of attention by all whose trees are eaten by 
 worjns : 
 
 " Sir : Your recent discussions upon the canker-worm, which is so seriously 
 devastating the foliage of the city, stir me up to lay before your readers the 
 information which some years of careful observation have enabled me to 
 gain respecting this pest of our neighborhood. I do this the more because I 
 notice some suggestions in your conversations which look to the adoption 
 of remedies ; and before any remedy is tried, it is essential that we have 
 some assurance that it will be effectual. 
 
 " I was a student in New Haven at the time when the ravages of the in- 
 sect were so severe in that city, and witnessed the extreme desolation which 
 the creature produced. The magnificent elms which are the glory of that 
 beautiful city, stood bare and wintry at the end of June, with every vestige 
 of their foliage utterly consumed. I noticed, and have since repeatedly ob- 
 
Sec. 12.] ENTOMOLOGICAL. 233 
 
 served, how perfect a protection is afforded by tlie metallic girdle wliicli you 
 describe. Whether the plan of a Mr. Taylor, spoken of in the papers, is 
 an improvement, I am not able to say. 
 
 "The whole merit of the plan, however, consists in its adaptation to the 
 habits of the insect. Tiie female — which deposits its eggs upon the body 
 and branches of the tree before the opening of the spring — is wingless, 
 apterous, as we say in Entomology ; and being incapable of flying, is 
 eflectnally arrested by the barrier which is presented by such an open tube 
 encircling the tree. The protection is complete* the application is easy, and 
 the remedy is effectual. 
 
 " One fact, however, is to be taken into view, which efiectually alters the 
 case with us. After familiar study of our New York insect, for several 
 years past, I am convinced that it is an entirely different species, of different 
 habits in many respects ; and, above all, different in the one particular which 
 gives all its value to the New Haven remedy ; our species full 1/ possesses the 
 poioer of flight. Its progress, therefore, to the body and limbs of the tree 
 for the purpose of depositing its eggs can never be in the least arrested by 
 any such measure as your correspondent proposes to adopt. Protection against 
 the worm in our city can be obtained only by the same method by wliich 
 New Haven derived hers, viz., the thorough and careful study of the habits 
 of our own species of insect. 
 
 " The very positive assurance of your correspondent, Mr. "Webb, that ' it 
 is a law of nature that all the millers which produce the measuring worm 
 have no wings by which they can fly one inch,' is in the main true, though 
 perhaps rather strongly stated ; but it ajiplies only to the canker-worm of 
 New England. Our species may be seen flying abundantly, both males and 
 females, ascending above the tops of our highest trees, and reaching the 
 large branches witli absolute ease. After having observed the whole process 
 very carefully, I am in a position to speak confidently about it; and I beg 
 to assure your readers that any attempt blindly to imitate the New Haven 
 method will only prove a mistaken and unprofitable, because ignorant, 
 attempt. In order to ascertain with greater certainty the truth upon tliis 
 point, I transmitted specimens of our New York miller, last summer, to Mr. 
 E. C. Herrick, the accomplished librarian of Yale College, whose investiga- 
 tions of the New Haven canker-worm were published at length, some years 
 ago, in the American Journal of Science, and received from him the assur- 
 ance that my impression that the two species were entirely distinct was no 
 doubt correct. Mr. H. also concurred with me in thinking that the power 
 of flight possessed by the New York moth would require entirely different 
 methods for the prevention of its ravages. 
 
 " The one method which my observation has suggested as effectual, con- 
 sists in thoroughly scraping the tree after the eggs of the moth have been 
 deposited upon it. The worm with us does not, as in New Haven, go into 
 the ground and remain there till the winter, but goes through its changes in 
 a very brief period. After coming down from the tree, it lays itself up in a 
 
234 SMALL ANIMALS AND INSECTS. [Ciiap. II. 
 
 cocoon, formed of a few thin fibers of silk, in the crevices of the bark of the 
 trees which it frequents, or upon posts and fences near the tree. There the 
 insect may then be found, undergoing its change. After about a fortnight, 
 it comes forth in the shape of a wliite moth, somewhat less than an inch 
 lung. At that period our parks and public squares are alive with these 
 millers : the grass is studded, the paths covered, the air filled with them. 
 Any one may easily satisfy himself of their power of flight by a careful ob- 
 servation of them. The antennsE, or feelers, projecting from the head, are in 
 the males feathei'ed, or, entomologically, pectinated ; a row of fine fibers, 
 like the teeth of a comb, lines each antenna upon one side ; the females have 
 the antenna plain and straight ; and they may also be distinguished by the 
 larger size of the abdomen, which is distended by eggs. No difference, 
 however, in the power of flight will be observed between the two sexes. On 
 coming out from the cocoon the sexes meet, and the impregnated eggs are at 
 ouce laid upon the bark of the tree. They may be seen in patches, varying 
 from a dozen to fifty, or even more — minute, green globules, which soon change 
 to a dusky gray or brown, scarcely distinguishable in tint from the bark. 
 They adhere by a glutinous secretion very firmly to the tree, and remain 
 through the year until the warmth of another spring hatches them into life. 
 
 " At any time after the eggs are laid in the beginning of July, and before 
 they are hatched in the beginning of the following May, a careful scraping 
 of the tree will remove most of them, and so prevent their ravages for the 
 next summer. 
 
 " Having frequent occasion to pass through "Washington Parade Ground, 
 I have pointed out the eggs upon the bark to the persons intrusted with the 
 care of that spot, and the trees have been sometimes scraped in the spring, 
 with very good results. This year it was omitted, and the deserted shells 
 of the eggs of last year maj' now be seen on the trunks of the trees so seri- 
 ously injured by them this summer. No other method than this affords the 
 least security ; but this, if faithfully carried out under any competent super- 
 vision, can be made entirely effectual. The eggs remain for nearly a year 
 before they are hatched, quite obvious, and tolerably accessible. A couple 
 of men -would in two or three days clean any one of our parks of this de- 
 stroying agent for the next summer ; and careful attention for a few years 
 throughout the city would nearly exterminate the pest." 
 
 256. Garden and Field Crop Pesls. — The amount of damage done to farmers 
 every year by bugs and worms, if it could be exhibited in figures represent- 
 ing dollars and cents, would exceed the whole value of the wheat crop, or 
 com crop, or cotton crop, and it would not surprise me if it exceeded the 
 value of all of them. If we could give certain preventives of the ravages 
 of any one of the pests, we could afford to devote much more space than we 
 shall allot to this head. But we will urge farmers to give the subject more 
 attention. Buy the best works upon entomology, and devote many a winter 
 evening to the careful study of the ajjpearance, character, and habits of all 
 
Seo. 12.] ENTOMOLOGICAL. 235 
 
 the insects that consume your crops. Give, we pray you, good attention to 
 what we liave ah-cady said and shall say in this section. You can not fail 
 to find sometliing that will repay you well. You certainly will find valuable 
 information in the following paragraph, written by A. S. Hall, of Maiden, 
 Mass., in Jtfay, 1860 : 
 
 257. Salt for the Ouion Maggot.— Much has been said and written about 
 the onion maggot, and I don't know that there is any cure for him ; but I 
 will tell you how 1 treated mine last year, and with good success for once, 
 and shall try it again this year, and will tell it to you and the farmers free 
 of charge, for I don't think I could get " $60,000" for it if I should ask it. 
 
 I sowed last year in my garden, on good soil, three rows, about thirty feet 
 long each, to onion seeds. I expected the maggots, and watched diligently 
 their progress. When they were first up about one or two inches high, I 
 put some strong salt and water on about three feet of one row, to see if it 
 would kill the onions, and, in case it did not, perhaps it might kill the mag- 
 gots, if they came. The young onions stood it well, and it did not hurt 
 them. 
 
 After the onions had got about as large as a pail-bail wire, there came 
 a spell of warm, wet weather, and my onions began to be afi"ected. I 
 watched them several days, and they grew worse, and were fast dying out, 
 for about one in every eight or ten were wilting and dying, and I found a 
 maggot at the roots of every one that appeared wilting, and sometimes the 
 maggot was nearly as large as the little stock itself, and had eaten the bot- 
 tom all away, and was making its way np^ the stem ; at the rate of havoc 
 they were making, it appeared there would not be one onion left in the bed 
 at the end of four weeks more. I took a pailful of strong pickle from my 
 pork-barrel, and, with a watering-pot, put it all on to the three rows, as 
 though I were watering them ; the onions never faltered or changed. The 
 salt killed all the grass, young clover, and weeds, except purslane, which 
 came up later, and the maggots were entirely killed, and I never saw any 
 after, though the flies continued to lay their eggs down the side of the little 
 plant, and between it and the dirt, just as flies will blow a piece of fresh 
 meat; but the salt prevented their maturing or hatching, and I raised a 
 good crop of fair-sized onions. I think they did not ripen as well as usual, 
 but I am not convinced that the salt prevented them, for I have often seen 
 patches remain as green as mine were at harvest-time. 
 
 I put on two or three slighter sprinklings of brine after the first, during 
 the summer. 
 
 258. Essay on the £nt-Worm,— Bead he/ore the Chicago Gardener's Soci- 
 ety, August Gth, 1860, hi/ Jno. Peeiam.— I acknowledge my inability to do 
 justice to this subject, from not having given it my attention, except in a 
 general way. It is, nevertheless, one which interests agriculturists, and par- 
 ticularly horticulturists, as much, perhaps, as any other entomological sub- 
 ject with which they have to do. The farmers, working on a more extended 
 scale, using larger fields, and planting fewer varieties of hoed crops, do not 
 
236 SMALL ANIMALS AND INSECTS. [Chap. U. 
 
 notice, nor perhaps suffer as mncli from the ravages of these families of the 
 Lepidoptera as the horticulturist proper. And the great order of insects to 
 wliich this class belongs are, perhaps, the greatest scourge with which the 
 worker in the soil has to contend. According to Dr. Fitch, the most of this 
 species belong to the genus Agrotis, of the family ISToctuidse, or O\*let-moths. 
 In England, the insects of this genus are named Dart-moths, from a peculiar 
 spot or streak which many of them have near the base of their fore wings, 
 resembling the point of a dart or spear, and he says that much the most 
 common species of this genus in the State of New York can be nothing else 
 than the Gothic dart, Agrotis suhgothica of the British entomologists. They 
 are the same which flit about the lights in summer evenings, and are found 
 hid by day within crevices and shutters. To show still further the import- 
 ance of this class of insects, I will quote from Dr. Harris, showing some of 
 the families. He has divided them into three sections, called Butterflies, 
 Hawk-moths, and moths corresponding to the genera Papilio, Sphin.x, and 
 Phalfena of Linnaeus. 
 
 To the first of these orders belong the caterpillars of our common butter- 
 flies, many of which are very destructive to vegetation. To the second be- 
 longs that class of caterpillars which infect the potato, the grapevine, etc. ; 
 the Algerians, or, as they are commonly called, Borers, which latter name, 
 however, is equally applicable to the larvie of insects of many other orders. 
 The third great section includes a vast number of insects, sometimes called 
 Millers, from their dusty covering, or Night Butterflies, but more frequently 
 Moths. Among these are the Cut-worm, the Bee-moth, and all other insects 
 belonging to the order Lepidoptera which can not be arranged among the 
 butterflies and hawk-moths. 
 
 The most common of the Cut-worm tribe which have come under my ob- 
 servation the present season, are the Striped Cut-worm, the Red-headed 
 Cut-worm, and the Black "Worm. 
 
 The first is of a dirty whitish color, inclining to brown, with darker 
 stripes. Tliis worm works upon the surface of the ground, and may be found 
 at any hour of the day, if damp and cloudy. The red-headed cut-worm 
 has, as its name implies, a red head, and is of a uniform pale brown color, 
 and has this season been particularly destructive; and as it works under 
 ground, it is death to whatever it attacks. 
 
 The Black, or (as it is sometimes called) Tiger worm may easily be known 
 when seen by its dai'k, dull brown color and black head. It works under 
 ground, just below the surface, drawing the stems and leaves after it into 
 its hole. 
 
 There are a number of others, among which are the faintly-lined cut- 
 worm and the white cut-worm. Of the latter, I have not found a single 
 specimen this season, though last year I found several. They are rare, and 
 consequently do but little damage. In this day of patent discoveries, any 
 one who has plenty of money and ample time to spend may furnish himself 
 with a thousand-and-one nostrums which are said to be effectual exteiiiii- 
 
Sko. 12.] ENTOMOLOGICAL. 237 
 
 nator.i. Snnff, strong liquid manure, powder, charcoal dust, etc., will pro- 
 tect, provided tliey can find plenty to eat elsewhere; if not, they care about 
 as much for them as I should about wetting niy feet in wading a brook for 
 my dinner, if 1 could not get it by- any other means. I am satisfied that 
 they might be, in a great measure, exterminated by neighbors joining, dur- 
 ing the prevalence of the moths, and setting torches or building fires for 
 them to fly into. I saved my tomato crop, the present season, by having my 
 men go over the ground in the morning, soon after daylight, and pick up the 
 worms by hand. The first morning we secured over two thousand by count, 
 and the next morning we gathered over a half peck of them on about an acre 
 and a half. After that they began to diminish, and in a few days scarcely 
 one could be found. I protect dahlias, and other choice plants, by wrapping 
 paper about the stems ; vines, by planting plenty of seed, and killing the 
 M'orms ; vine shields, if set two or three inches below the surface, will gen- 
 erally protect. I have never succeeded in trapping them in holes, because, 
 if they fall into them, they can dig out, if they can not crawl out. The best 
 way to protect against their ravages is to plant plenty of seed, protect the 
 birds, and then help them kill the worms. 
 
 The London Gardener^s Chronicle says there is a prospect of a total de- 
 struction of the grass in the London parks, by the grub of an insect known 
 as '• Daddy Longlegs," which eats the roots of the turf and totally destroys 
 it. " Various remedies have been tried without success." Have any of 
 those remedies been a heavy dressing of salt ? If not, it should be tried at 
 -once. And besides that, we should like to know what this "Daddy Long- 
 legs" is. It caii not be our cut-worm, that sometimes destroys the turf in 
 old meadows; and certainly it can not be the "Daddy Longlegs" of our ac- 
 quaintance, for that, so far as our youthful entomological researches went, 
 was a very harmless Daddy, wliich had very long, slim, crooked legs, attached 
 to a round body, the size of a small pea. 
 
 259. Wire Worms. — " A Young Farmer'" wants to know Avhat he shall do 
 to get rid of wire worms. He says : 
 
 "An old gentleman not far from me says: 'Soak the seed over night in 
 copperas water, and the wire worm will not trouble it.' Who knows whether 
 this is so or not ?" 
 
 Ah! who knows? Does anybody Aviow anything? 
 
 Another says soaking seed in a solution of niter will prevent destruction. 
 If so, how easily practiced ! Again, who knows ? 
 
 Probably the best remedy against wire worms is not to grow them. Keep 
 no old meadows. Break them up. Plow all your sod and stubble land in 
 the fall. Either bury your worm seed too deep to get out in time in the 
 spring, or else freeze it to death in the winter. There is probably no remedy 
 equal to deep plowing in the fixU of the year. 
 
 Perhaps we might all learn useful lessons from nature if we would more 
 carefully read her printed pages. For instance, one who does try to read 
 Buch lessons savs : 
 
238 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 " So far as my observation goes, the wire-worm is most troublesome in 
 seasons after a mild winter, or when there has been a heavy coat of snow on 
 the ground during winter, thus preventing the frost penetrating tlie earth to 
 any considerable depth. Consequent!}-, the worms remain near the sui-face, 
 and are not frozen to death or driven so far below the surface that they must 
 starve before they can return. Two successive crops of buckwheat will 
 generally rid any soil of wire-worms." 
 
 And we add, so will ten bushels of salt per acre, and every worm that is 
 killed by it will fertilize a whole handful of grass. Salt, alone, is an excel- 
 lent manure ; salt and lime still better, prepared according to the formula 
 under the head of " salt and lime mixture." Thirty bushels of lime, in 
 powder, sown broadcast, will destroy the worms in many a field that has been 
 almost barren, and make it productive of fine crops of wheat, clover, corn. 
 
 " How to get rid of the worms," is one of the most important questions 
 that a farmer can ask, and the want of a knowledge how, is not confined to 
 young farmers. Hence, all we say upon the subject is worth treasuring up 
 in the great store-house of knowledge, the human mind. 
 
 260. Worm-Killers.— A reliable South Carolina acquaintance, Col. A. G. 
 Summer, of Pomaria, declares that China berries applied like manure to soil 
 will expel all grubs and worms. " China trees" are as common all over the 
 South as locust or ailantlius here, and they are very fruitful, the berries resem- 
 bling small cherries in size, and pulp surrounding a hard seed. Only a few years 
 ago, the fact vi'as discovered, rather accidentally^ that the wood of this tree 
 would bear a high polish, and that furniture made of it was as strong and 
 handsome as that of some of our most expensive imported woods, and that 
 its natural pleasant odor, like that of cedar or camphor wood, remains, and 
 is a great preventive of moths. The botanical name of the " China tree" is 
 Mdia azedaraeh, ; sometimes called the great Indian lilac. It is a hot- 
 house shrub here ; at Charleston, it grows fifty feet high, and is a beautiful 
 shade-tree, its greatest objection being its abundance of berries falling upon 
 the ground, notwithstanding which it is a great favorite in all the most 
 Southern States, and its berries, if of any value, could be had here at a small 
 price. 
 
 261. Tobacco-Worms. — Tliese destructive pests of the tobacco-planter, it 
 is well known, can be subdued with a flock of turkeys better than in any 
 other way. As both turkeys and worms are large, the operation can be seen 
 and appreciated ; yet we have no doubt that a flock of wrens do just as 
 much toward the destruction of some other family of worms, and really 
 effect as much good to the farmer. And so of every other class of birds. 
 Cultivators of other crops ought to take lessons from the tobacco-growers. 
 The first glut of worms, in July, is easily subdued by the turkeys, while 
 tobacco is small, and the worms are doing but little damage. Tlie trouble 
 comes in August, but the destruction of the worms a month sooner may save 
 the crop. 
 
 Mr. Wm. Sheppard, of Ann Arundel Co., Md., has been very successful 
 
1 : 
 
 Seo. 12.] ENTOMOLOGICAL. 239 
 
 in poisoning the moth that produces the tobacco-worm, by the use of cobalt 
 — a quarter of a pound to a half pint of water. Tliis is made quite sweet 
 with refined sugar, and the mixture is put into a small bottle, with a quill in 
 the cork, and two or three drops through the quill deposited in the blossom 
 of the Jamestown weed, or in the blossom of the tobacco-plants. The horn- 
 blower will suck the poison till he dies. 
 
 The trumpet blossoms of the Jamestown weed are favorite resorts of the 
 moth, and are gathered fresh, and fastened to the tobacco plants, or upon sticks 
 set through the field. It may be worth while to grow the weed on purpose 
 for traps. 
 
 The cobalt is the same black powder often sold by druggists as " fly 
 poison." It should be reduced in a mortar to a fine powder before using. 
 It is worth while to try it for other insects, placing it upon plates in their 
 haunts. 
 
 Mr. Sheppard thinks any planter may protect himself against the tobacco- 
 worm with this poison. 
 
 John G. Bergen, of Long Island, stated to us, in the spring of ISflO, that 
 he had been obliged to send all his laborers into his tomalo-field to kill 
 worms that are destroying the j^lants and young fruit. He thinks it identical 
 with the tobacco-worm, having grown tobacco a few years ago and been 
 troubled with the same kind of worms. One of Mr. B.'s neighbors told us 
 afterward that the worms were not only very troublesome on the toujato- 
 vines, but were eating the potato-vines ravenously. 
 
 The New Haven Courier said the potato-vines in that State were being 
 eaten by worms, so as to destroy the prospect of a crop, and these worms, 
 we judge, are the same kind as those on Long Island. 
 
 In this city, worms have been for years destroying the trees ; none but 
 the ailanthus escapes them. 
 
 Is it not worth while to try to poison the insects while on the wing, in the 
 way indicated above, or some other way ? 
 
 The Jamestown weed mentioned above, we take to be the same weed that 
 grows along many New England waysides, called " Jimson weed,'' or " stink- 
 weed." It is the Datura stramonium. 
 
 262. Bug Remedies. — Here is a good one! "We haven't a doubt as to its 
 etficacy — not one! try it. A correspondent says: "I have seen many plans 
 recommended for removing and keeping bugs and other insects from vines, 
 and among them, snuff, soap, mustard, etc., all or any of which articles 
 must, in my opinion, more or less injure the plant. I have found this the 
 case from q^perience ; and I have also found, by the same means, that the 
 best preparation for this purpose is a cold and very strong decoction made 
 with wafer and manure from the henroost and cow-yard, and applied morn- 
 ing and evening. Tlie insects do not relish this preparation, while the plants 
 to which it is applied do." 
 
 Another one saj^s : " I preserved my vines last year from the ravages of 
 the striped bugs by placing little wads of cotton, saturated with spirits of 
 
240 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 turpentine among the vines near the roots, using care to have them not touch 
 the vines. The turpentine should be renewed from to time." 
 
 Another says: "These pests of the vines may be easily got rid of by 
 building a fire of light wood that will blaze freely in the evening. All 
 insects fly into a blaze, and are thus destroyed in myriads." 
 
 It is recommended by J. M. Dimond, of Eaton Co., Mich., to plant in the 
 same hill with summer squashes or melons, etc., some seeds of the winter 
 squash, such as have the largest succulent leaves. He says the bugs will not 
 molest the smaller vines under such circumstances. When danger from 
 bugs has ceased, then the plants can be removed. 
 
 Another one gives the following as a sure specific for bugs on vines : 
 " Having seen by your paper that many truckers in your section are anxious 
 to ascertain a simple and sure remedy to destroy bugs on squashes, cucum- 
 bers, and the like, I will give you one which is almost a specific, and -within 
 the reach of every one, especially those living on the sea-board. 
 
 " Procure fresh fish — of any kind whatever, the commonest and cheapest 
 just as good — a sufiicient quantity according to circumstances, say one peck 
 to a barrel of water. Let them stand therein a day or two, in order to com- 
 mence decomposition and emit their necessarily unpleasant odor; then 
 dampen the leaves with the liquid. 
 
 "In addition to driving away tlie bugs, your plants will become green and 
 healthy, and soon grow beyond the reach of any future swarm of depreda- 
 tors. It may be necessary to use the water two or three times in the course 
 of two Aveeks, but remember that every application is equivalent to a dress- 
 ing of manure, which will amply repay for the labor, which is very trifling. 
 Fresh fish ofl'al is of equal vEilue with the fisli." 
 
 2G3. Potato Bugs. — It is quite as useful to report failure as success in 
 farming. We are therefore obliged to Horatio J. Cox, of Zanesville, Ohio, 
 for telling us that he tried powdered lime, and also ashes, sifted upon his 
 potato vines to prevent them from being eaten by the potato bugs, but he 
 found them at work as usual, with their backs white with lime. His con- 
 clusion, therefore, is, that that is no remedy against the depredations of tlicse 
 pests. He remarks that " there are two kinds working in concert, but, from 
 my observation, keeping up separate breeds — the black sliell and the striped 
 shell ; the latter is more active than the other, and not quite so plump." 
 
 A French paper gives an opinion that nearly all the diseases of plants, 
 including potato-rot, are occasioned by insects. Tlie insects, in many cases, 
 are microscopic. The little aucaris, for instance, although so very minute, 
 is a great destroyer. It causes little scabby pustules upon fruits^ particularly 
 fine pears. 
 
 Whether the potato bug always found on the diseased vines is tlie cause 
 or efiect of the disease, is a mooted question. 
 
 Although Mr. Cox did not stop their depredations, we still recommend 
 liberal dressings of ashes and plaster, and if these do not kill the bugs, they 
 will give the vines a vigorous growtli. So with lime and salt. 
 
Seo. 12.] ENTOMOLOGICAL. 241 
 
 264. Protection of Turnips. — Tlie following, from an English newspaper, is 
 equally wortiiy of attention in America : 
 
 "In the list of patents for which provisional protection has been taken 
 out is a machine of a novel and somewhat curious character. The specifica- 
 tion, as taken from the list, describes the machine as a ' blast drill,' the 
 object of which is to protect the turnip crop from the ravages of the fly and 
 the slug, and its other numerous enemies, and secure, as far as human inge- 
 nuity can accomplish it, this most valuable of all bulbous roots. The com- 
 mon jiractice of protecting the turnip from the fly is bj' dusting the row with 
 lime during the night and while the dew is upon the plant. This operation 
 is difficult, and imperfectly performed. Besides the slow process of doing 
 this by hand, the difficulty of dusting the under side of the jjlant as well as 
 tlie top side offers an insuperable objection to- this mode of applying lime, 
 soot, or any other compost, to the young turnip-plant. This difficulty is now 
 overcome, and the lime (a mixture of one sixth of soot with it is recom- 
 mended) is thrown, by means of a blast fan, npon every part of the plant, 
 botli on the upper anil under side. The fan is put in motion by the travel- 
 ing wheels of the drill, and receives its velocity in the usual manner by 
 gearing wheels. The blast thus created by the fan is brought to bear upon 
 the plant, which, yielding to its action, bends from the current, and as it 
 acts upon a falling stream of lime or other composition, the plant becomes 
 completely covered with the powder. But this is not the only object the blast 
 drill will accomplish. The fly, disturbed by a simple contrivance, hops 
 away, but is at that moment caught by a current of air entering the blast 
 fan and instantly destroyed, and thrown out again with violence from the 
 vortex into which it had been drawn. This operation is simple, and the pro- 
 cess of annihilation is similar to that of a mouse or rat going down a thrash- 
 ing-machine. The fly and the lime are so completely mixed and incorpo- 
 i-ated that the mischievous yet delicate insects are destroyed by the atmo- 
 spheric pressure thrown upon them, and the plant is also secured, by the 
 dusting of compost, from all future attacks of the enemy. All farmers can 
 not fail to know something about the insect Avhich does so much annual mis- 
 chief to the turnip crops. Sometimes a fallow, which in tillage and labor 
 has cost £5 or £G an acre in preparing it for a crop of Swedes, has had all 
 the labor and capital expended made vain by the fly. Can this evil be rem- 
 edied ? It seems possible ; and if this invention of a blast drill should be the 
 means of securing a turnip crop, or even improving it, by the application of 
 a top-dressing of soot or guano, or any other soluble manure, a great good 
 has been accomplished, not to farmers only, but to the community at large."' 
 
 2G5. Pea-Weevil — How Destroyed. — One of the greatest pests that growei-s 
 of peas have to contend with is the pea-weevil, Bruchus pisi, which some- 
 times attacks every pod, and leaves an egg to hatch into a disgusting insect 
 in every pea, so that, if intended for food, when dry, we shall find a modi- 
 cum of meat ready mixed in our pea-soup. If intended for seed, when we 
 are ready to plant in the spring, we find the life of our peas eaten out. 
 
2-12 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Although several birds, of which the crow aud Baltimore oriole are the chief, 
 feed upon the pea-weevil, they are very far from destroying it, and the evil 
 is ai)iuially increasing. How can this insect he destroyed, is a question 
 worth solving. We think it can be, if farmers and gardeners would make a 
 united eH'ort, totally annihilated from the country. The remedy' is very 
 Bunple. It is to steam all the seed peas. Xiiis can be done in a small way 
 in families by takhig the seed, so soon as gathered, shelled, and dried, and 
 placing it in a cullender, covered with a cloth or plate, and placed over a 
 kettle of boiling water until the steam is thoroughly passed through the peas, 
 when they are to be dried in the sun and put away in paper bags. Upon a 
 lai'ge scale, the peas may be steamed in bags or barrels, by inserting a steam- 
 pipe from a boiler at so low a pressure that it will not cook the peas, but it 
 will the pupae of the pea-weevil. Let it be remembered that steam, prop- 
 erly applied, will totally eradicate the pea-weevil from the land And if 
 from peas, why not from wheat, corn, and rice, easier and better than by 
 kilu-drying? It would be very easy to dry the steamed grain. Passing it 
 through a fanning-niill Mould probably be sufficient; or pouring it out of a 
 basket, where it would fall fifteen or twenty feet through the air. 
 
 266. Treserving Insects. — Insect collectors will find the following method 
 of killing the insects they wish to preserve one of the most convenient of 
 any they have ever tried. Dissolve cyanide of potassa in water to satura- 
 tion, and keep it tightly corked in a small vial, and it will always remain 
 in good order for use. When you catch a fly, moth, insect of any kind, 
 or a beautiful butterfly that would be injured in fluttering, dip a needle- 
 point in the solution, and prick your captive just under the wing, and 
 see how quick and calmly they will lie down and die. Some large or 
 hard-to-kill insects may require more than one stab to make them die peace- 
 ably. This solution is used by scientific entomologists in making their 
 collections. 
 
 267. Household losects. — Hairs Medical Journal states that household 
 vermin may be got rid of as follows : Half an ounce of soap boiled in a pint 
 of water, and put on with a brush while boiling hot, infallibly destroys the 
 bugs and their eggs. Flies are driven out of a room by hanging up a bunch 
 of common plantain (fleawort) after it has been dipped in milk. Rats and 
 mice speedily disappear by mixing equal quantities of strong cheese and 
 powdered squills. They devour this mixture with greediness, while it is in- 
 nocent to man. When it is remembered how many persons have lost their 
 lives by swallowing mixtures of strychnine, etc., it becomes a matter of hu- 
 manity to publish these items. 
 
 Ihe Sc'unt'jic Ajneritan SA^'s: " Common red wafers scattered about the 
 haunts of cockroaches will often drive away if not destroy them." These 
 wafers, like candies, are colored red by oxyd of lead, a most deadly poison ; 
 and so is the acetate of lead, or sugar of lead, as it is sometimes called, on 
 visiting cards, which, being a little sweetish, has been known to destroy 
 young children, to whom they were handed to be amused with. Fashion 
 
Sec. 12.] ENTOMOLOGICAL. 243 
 
 for once acts sensibly in discarding glazed cards, using instead Bristol board, 
 more pliant, less eiimbersome, and really more delicate. 
 
 "We have found that bugs can not stand hot alum water. Take two pounds 
 of alum, bruise and reduce nearly to powder, and dissolve in three quarts 
 of boiling water, letting it i-emain in a warm place till the alum is dissolved. 
 The alum water is to be applied hot,- by means of a brush, to every joint and 
 crevice. Brush the crevices in the floor of the skirting-board, if they arc 
 suspected places. Whitewash the ceiling, jjut in plenty of alum, and there 
 will be an end to their drop^jing from thence. 
 
 To kill moths in carpets, spread a wet cloth on the carpet, and iron with a 
 hot flat-icon round the edges and places where yon suspect them to be. Do 
 this a few times in the course of the summer, and you will save your carpet 
 from the moths. 
 
 Silk-ioorms have been induced to work in France by electricity. M. 
 Sauvageon reports to the Academ}^ his experience in the matter. Finding 
 the little things torpid and unwilling to work, the idea struck him to stir 
 them up by electricity. The results, as he gives them, are really marvelous, 
 lie took fifty-three worms at random from among thousands belonging to a 
 neighbor, put them every day on a sheet-iron plate, through which a curreirt 
 of electricity was passed, kept them each time as long as they could stand it, 
 and now has fiftj"- three beautiful cocoons, an amount which his neighbors 
 will not obtain, to all appearances, from several thousand ungalvanized 
 worms. If these results may be relied on, he has made a very valuable 
 discovery. 
 
 ■2(18. Moth Protectors. — Camphor is one of the most useful moth j^rotectors 
 about the household. A trunk full of furs, with an ounce of camphor gum 
 scattered through tliem, will be safe from moths. Furs or woolens packed 
 in a chest made of camphor-wood or cedar will generally be safe. Some 
 housewives pack in a linen sheet, or bag of close texture. Others use to- 
 bacco. Others keep their furs or woolens in drawers or trunks where they 
 will be often exposed to the light, and where they can frequently take them 
 out to the air and sun, and beat them, which will efiectually prevent the 
 ravages of the moth. A very good preventive is to carefully kill the miller 
 that makes the worm which is so destructive to woolens and furs. It is not 
 a hard matter to do so in a house not already overrun with them. They 
 may be attracted to a light blaze ; and they may be caught in plates with a 
 little sweetened water and vinegar ; or a piece of an old blanket may be 
 used as a trap ; or they all may be caught and destroyed by hand, by de- 
 voting half an hour to the work each evening, in the proper season. 
 
 209. Ants in the House. — These troublesome pests may be overcome by 
 various remedies. Perhaps one of the best things for the red ants is to mix 
 a few grains of corrosive sublimate in a spoonful of lard, with a little sugar, 
 and then draw rough strings of cotton or woolen yarn through the mixture, 
 and lay them in the cracks where the ants harbor, or in the corners of closet 
 shelves. They may also be poisoned with cobalt, pulverized fine and mixed 
 
244 SMALL ANIMALS AND INSECTS. [Cuap. II. 
 
 with something sweet that they like to feed upon. Tliese and other insects 
 can be poisoned by arsenic. They may be kept from the sugar-bowl by 
 setting it in a plate covered witli powdered chalk. The whisky remedy 
 recouMnended in No. 254, to protect trees from ants, may be adoi)ted in the 
 house. Tlje bug-powder mentioned in the same number, made of red chamo- 
 mile, can also be used in the house for ants and other pests. For the large 
 black ant, the best vehicle for poison is old cheese. Dip a piece of it in a 
 poisonous solution, or moisten it if dry, and dust it with corrosive sublimate 
 or arsenic. 
 
 Be very careful, in the use of poisons, not to get them mixed with food. 
 There is no more danger, with proper care, than there is in keeping gun- 
 powder in the house. 
 
 270. Insects BeneGcial lo Farmers. — It is not to be inferred that because an 
 animal is called an insect, it is pestiferous. The contrary should be taught 
 in all schools, as -well as in home lessons. The false idea is prevalent that 
 all sorts of insects, bees excepted, are mischievous, hurtful, and hateful; so 
 that every worm, bug, fly, moth, miller, or little crawling, creeping, flying 
 thing is looked upon by almost every one M'ith a feeling of desire to crush 
 it. A contrary feeling must be cultivated. Cliildren must be taught to dis- 
 criminate between good and evil insects, as well as between good and evil 
 deeds. A cloud of moths might be seen hovering around the wheat, and 
 the farmer, under the supposition that they had come to destroy the grain, 
 mio-ht destroy them, and afterward find that he had killed his best friends — 
 the parasites of the wheat destructors. Before we declare a war of annihila- 
 tion, as many have against the birds, upon any class of animals, let us first 
 inquire which are and which are not noxious. "We will here briefly point 
 out a few. 
 
 The common angle-worm, instead of being detrimental to the farmer, is 
 actually a co-laborer, and often a better one than the biped owner of the soil. 
 A scientific writer on Zoology says : 
 
 " The burrowing of earth-worms is a process exceedingly useful to the 
 gardener and agriculturist ; and these animals are far moi"e useful to man in 
 this way, than they are injurious by destro^-ing vegetables. They give a 
 kind of under tillage to the land, performing the same below the ground 
 that the spade does above for the garden, and the plow for ai-alile land, 
 loosening the earth so as to render it permeable to air j^nd water. It has 
 lately been shown that they will even add to the depth of soil ; covering 
 barren tracts with a layer of productive mold. Thus, in fields that have been 
 overspread with lime, burnt marl, or cinders, these substances arc in time 
 covered with finely divided soil, well adapted to the support of vegetation. 
 
 "That this result — ^which is most commonly attributed by farmers to the 
 ' working down' of the material in question — is really due to the actifln of 
 the earth-worm, appears from the fact that in the soil thus furmed, large 
 numbers of 'worm-casts' may be distinguished. These are produced by the 
 digestive process of the worms, which take into their intestinal canal a large 
 
Sec. 12.] ENTOMOLOGICAL. 245 
 
 quantity of the soil througli which they burrow, extract frotn it a great part of 
 the decaying vegetable matter it may contain, and eject the rest in a finely 
 divided state. In this manner a field manured with marl lias become 
 covered, in the course of SO years, with a bed of eartli averaging 13 inches 
 in thickness." 
 
 "White, in his " N"atural History of Selborne," says : 
 
 " AVorms seem to be great promoters of vegetation, which would proceed 
 but slowly without them, by boring, perforating, and loosening the soil and 
 rendering it pervious to rains and fibers of plants, by drawing straws and 
 stalks of leaves and twigs into it, and most of all, by throwing up such 
 infinite numbers of lumps of earth, called worm-casts, which, being their 
 excrement, is a fine manure for grain and grass." 
 
 It is a part of the system of comminution spoken of under anotlier head ; 
 and if all the earth could be eaten by worms, it would serve as a manure for 
 crops, simply because it bad been pulverized, and thereby fitted for their 
 use. 
 
 Some time since, in compau}^ with several gentlemen, we listened to a 
 conversation with reference to the value of the earth-worm, one gentleman 
 claiming that they were a nuisance in the garden, and others asserting that 
 they were a great blessing, as mole drainers, and always an index of the 
 fertility of tlie soil. Here is a paragraph from the EncyclojXBdia Britan- 
 nic'i^ right to the point : 
 
 " The common earth-worm, tliough apt to be despised and trodden on, is 
 really a useful creature in its way. Mr. Knapp describes it as tlie natural 
 manurer of the soil, consuming on the surface the softer part of decayed 
 vegetable matter, and conveying downward the more woody fibers, which 
 there molder and fertilize." 
 
 271. Plant-Lice Destroyers. — There is an iclmeumon fly, a very small 
 blackish insect witli yellowish legs and abdomen, not cpiite the twentieth of 
 an inch long, which destroys myriads of aphides. The female lays an egg in 
 each louse, and the grub from that devours its nest, leaving only the skin 
 attached to the leaf, serving for a shelter for the larva in its pupa state. Tiie 
 fly comes out of a hole in the louse's back, and repeats the operation. 
 Careful examination will disclose a great many of these peiforated empty 
 aphis skins upon plants that would be entirely destroyed by a long-continued 
 multiplication of their consumers, but for tliis little parasite. 
 
 The SyiyJnis is the name of another destroyer of tlie aphis that abounds 
 upon cotton-plants. This is not a parasite; the eggs being laid on tlie leaf 
 among tlie aphis, the maggot, which is, when full grown, about one fifth of 
 an inch long, makes its food of the lice. The pupa is formed on the leaf, in 
 a case made by the worm of a glutinous secretiou^the juices it has sucked 
 out of the lice it fed upon. Tlie fly is seven tenths of an inch across the 
 wings, which are double ; the body appearing like a diminutive wasp, banded 
 with brown, black, and yellow. It hovers mucli on the wing, witliout inucli 
 motion, unless disturbed, when it shows its power of swift fliglit. Tliis 
 
246 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 louse destroyer does not confine its operations to the apliis of cotton-plants, 
 tliougli it seems to prefer tliem. It is of immense service to Southern 
 farmers. 
 
 The Ladij-hlrd (Coccinella) is another valuable assistant to the cotton- 
 planter, in particular. AYhero the lice most abound, there will be found the 
 lady-bird doing its work. Yet there are numerous planters who, seeing this 
 insect hovering over the cotton, suppose it the parent of the pest they stand 
 so much in fear of, and direct the negroes to destroy all they can. It was a 
 negro who first discovered that the worms hatched from their eggs, which 
 are dej^osited on the leaf near the aphis, actually consume them, instead of 
 the cotton-plant. The worms are a quarter of an inch long, bluish-black, 
 and voracious as an alligator, to which they bear some slight resemblance. 
 They seize and cat the lice alive, until all upon tlieleaf are consumed, when 
 the grub fastens itself by the tail to the leaf to await its change. Tiie insect 
 while on the wing is also a louse-eater. A disagreeable odor emitted by this 
 insect will serve to identify it. 
 
 The larva of the lace-wing fly is another cotton-aphis eater. These worms 
 are hatched from filaments of eggs, which the fly attaches to the under 
 side of the leaf near an aphis colony. This larva is not quite one fifth of an 
 inch long. It may be known by the way it holds by the tail, while stretch- 
 ing out full length looking for its favorite food. It spins a little cocoon, out 
 of which, in due time, comes a bright green fly, with brilliant eyes, and 
 four transparent greenish wings, delicately netted like fine lace — hence the 
 name. This insect also belongs ti) the fetid-odor family. 
 
 272. Other luscct Destroyers. — The Carolina tigcr-heetle is a beautiful insect, 
 seven tenths of an inch long, of metallic blue, violet, and green color, and 
 savage propensities toward all other insects. 
 
 The Ilarpalus is another insect-consuming beetle, with very strong 
 hooked jaws adapted to a 2')redatory life. If it can not find living food, it 
 will consume dead, putrescent substances. 
 
 Tlie Mantis^ an insect known in Maryland as the " rear horse," is a 
 voracious consumer of insects. In fact, it is said that they will sometimes 
 consume one another. The largest are over two inches in length, of a very 
 awkward-looking form. The eggs attached to a limb look like an excres- 
 cence, and are often attacked by an ichneumon fly, as a place of deposit for 
 its eggs. The young mantis comes out in June, at first without wings, but 
 with a strong appetite for aphides and other insects. It stands upon four hind 
 legs, with body elevated and forward feet closed, and head constantly 
 moving. It walks, or jumps, when alarmed, but is capable of domestication 
 so as to come and take food out of the hand, and is perfectly harmless except 
 to things obnoxious to man, and for that it should be preserved. Its color 
 is brownish gray to light green, and its form will be remembered from a 
 picture of it, or after being once seen or known. 
 
 The Reduvius novenarius measures an inch and a quarter in length, and 
 destroys multitudes of insects in all their stages of transformation. The 
 
Sec. 12.] ENTOMOLOGICAL. 247 
 
 eggs deposited in autumn hatch in Maj' or June ; the young worms are 
 marked with a black head and thorax, and blight red abdomen, and black 
 s])ots on the back. They afterward appear of a grayish color, witli rudi- 
 ments of wings, which at length enable them to fly -with strength. It 
 approaches its prey cautiousl}^ and makes a dart, and pierces it to death, and 
 tiien sucks out the substance. It eats the common tree-caterpillar voraciously, 
 and it sometimes Avounds a person handling it incautiously with its sharp 
 piercer. 
 
 There are numerous other jiarasites of noxious insects, and insects like 
 those named, which prey upon others, which are really beneficial to the 
 farmer, as are many quadrupeds and other animals that are natural insect- 
 eaters, snch as toads, moles, skunks, etc. The most important of all, perhaps, 
 we mention in the next paragraph. 
 
 273. The Wheat Midge Parasite. — The only hope of relief from the blasting 
 effecis of the wheat-midge (323), with those who have thought upon the sub- 
 ject, has been a parasite that would work its destruction. That hope, we 
 trust, is about to be realized. A correspondent of the Canadian Agricul- 
 turist^ writing to that paper in the autumn of 1860, says : 
 
 "I am rejoiced that Jj'is week I can announce the arrival of a deadly 
 enemy to the wheat midge or fly. In the neighborhood of Sparta, township 
 of Yarmouth, the farmers liave discovered some species of ichneumons which 
 deposit their eggs on the larva. One of these is very small, black, and 
 shining ; the other is also black, with red feet and a blunt tail. These are 
 often mistaken for the wheat-fly ; but as it has only two wings, and they 
 hiwc finir, the distinction is obvious. To observe the proceedings of the 
 ichneumons, place. a number of the maggots or larvfe of the wheat-fly on a 
 sheet of paper, and set a female ichneumon in the midst of them ; she soon 
 pounces upon her victim, and, intensely vibrating her antennoe, bending her- 
 self obliquely, plunges her ovipositor into the body of the larva, depositing 
 in it a single egg. She will then pass to the second, and so on, depositing a 
 single egg in each. You will observe the maggot writhing in seeming 
 agony, when sometimes the fly stings them three times. These ichneumons 
 appear in myriads on the outside of the ear, but, as if impatient of bright 
 light, sheltering themselves from the sun's rays among the husks." 
 
 The same thing has been noticed in other sections ; and Di-. Fitch, the 
 entomologist of the New York State Agricultural Society, is so much en- 
 couraged that a remedy has come at last, that he writes confidently, in 
 November of that year: "The days of the wheat-midge pest are numbered. 
 I fully believe that farmers may again sow wheat without fear of its destruc- 
 tion by the Cecidomyia tritici.''^ 
 
2i8 
 
 SMALL ANLMALS AND INSECTS. 
 
 [CnAP. IL 
 
 SECTION X1II.-:\IISCELLANE0US-WILD AND TAME ANIMALS OF THE 
 FARM-DOMESTIC FISH-BREEDING, ETC. 
 
 'oles. — Wo liuvc for four years (1859-1862) occu- 
 ^&^' pied our little farm iu AVestchester County — 
 one of the many sadly-abused pieces of land, 
 some of that in mowing, not planted for thirt}' 
 years or more — and in this land we found the moles 
 as thick as we ever saw them anywhere in our life, 
 and therefore have a right to speak of them from expe- 
 rience. In some respects we have suiFercd severely by 
 them. They have killed many choice things that we 
 have planted, including several valuable grapevines ; but 
 we are not yet willing to destroy the moles. We do not 
 look upon them as pests, although they have pestered us. 
 They undermine the plants, but do ]iot eat them What 
 for? It is not for sport, nor merely accidental in boring 
 their subterranean galleries. It is in pursuit of food. And as that food consists 
 of insects noxious to the farmer, this paragraph upon moles comes in course 
 very well after the section devoted to insects. In fact, we believe that the 
 mole is one of man's best friends, and that it never occupies land that is not 
 already so preoccupied with destructive worms as to render it unfit for culti- 
 vation. So impressed with this belief are some European people — all 
 Prussia, we believe — that they have enacted laws to prohibit the killing of 
 moles. As with the crow, opinions vary in this country whether the mole is 
 beneficial or injurious to farmers. For our own part, Ave must say that we 
 never see an account of a " new mole-trap" without wishing the inventor 
 might get his own fingers caught in it. It is a great pity that farmers can 
 not learn that moles are one of the good things that Providence has bestowed 
 upon them — that they do not destroy seeds and plants, but the insects that 
 are great pests to the fiirm and garden. In this opinion we shall continue 
 until better informed upon this question. In the mean time we give some 
 opinions of others. The following is the sketch of a report of a conversation 
 at the New York Farmers' Club about moles : 
 
 Solon Hobinson read a letter upon the subject of moles, which elicited a 
 lengthy discussion. The foUosving j^ortion of the letter we print: 
 
 "This animal, as you probably know, has a very small apology for eyes, 
 which can not be discovered till the skin is removed, and it can not be ascer- 
 tained that they are of any practical use. His sense of hearing and of smell 
 is very acute, and he is enabled to elude observation, and to avoid anything 
 unusual that may be placed in his track. No device, however, with which 
 I am acquainted will force him to abandon a well-cultivated track, abound- 
 ing with earth-worms, which are his chief attraction. He will pass from hill 
 
Sec. 13.] WILD AND TAME ANIMALS OF THE FARM. 249 
 
 to hill, severing the corn, melon, or other seeds from the tender plant, thus 
 greatly impeding its progress, and in many instances wholly destroying it. 
 In a scarcity of earth-worms he will prey upon beets, potatoes, and other 
 roots with voracity ; still the damage he thus does is of little account com- 
 ]iared with that produced by his relentless plowing or rooting. "Where 
 the soil is fertile and not too wet, this intruder will be found undermining all 
 vegetation, and is a source of discomfort to the agriculturist, which must he 
 realized to be appreciated. 
 
 "Failures in field and garden, which are often attributed to drouth or in- 
 sects, ai*e many times produced in a great measure by moles. At morning, 
 noon, and evening the mole goes forth on his depredations, making the most 
 rapid movements (for an underground pei-formance), and in less than twenty 
 minutes finishes his rej^ast, and returns again to his hiding-place deep in the 
 earth, beyond the reach of all intruders. 
 
 "The Yankee mole is too shrewd for the English trap, or, indeed, for any, 
 with a single exception. I have examined several traps, beautiful in theory, 
 but they are splendid practical failures." 
 
 Wm. S. Caepentee — I am satisfied about the injury of moles to the farmer, 
 being much more than all liis benefit in eating worms. I had a bed of 
 tulips destroyed by moles. I traced them by their paths from root to root. 
 
 Prof Mapes — I have tried careful experiments with moles in confinement, 
 and have never succeeded in getting them to eat any kind of vegetable 
 matter. 
 
 Mr. Moody, of New Jersey — I have found that moles do cut off the stems 
 of thorns in my hedge. I can not say that they eat thorns. I am satisfied, 
 too, that they will eat jjotatoes. 
 
 Prof Mapes-^I find that potatoes are eaten in the vicinity of moles, but I 
 am satisfied that they are eaten by grubs that the moles feed upon. 
 
 Dr. Teuible — The potato is eaten by the grub of the cockchafer, and not 
 by the mole. 
 
 Mr. Fuller — I have known moles to gnaw potatoes, but not for food. 
 
 The Chairman, Robert L. Pell, made the following remarks upon this 
 subject: 
 
 Mole-IIills. — In rich alluvial soils, mole-hills are thrown up in immense 
 numbers, because such soils usually abound with the food that these subter- 
 raneous creatures seek for. They destroy the roots of grass immediately 
 contiguous to their mounds, besides often impeding the free action of the 
 scythe, for these reasons. Some think it well to exterminate them ; still they 
 no doubt do a vast deal of good by destroying obnoxious worms and grubs. 
 
 In the spring of the year it is an easy matter to spread out these mounds 
 over the surrounding ground, as they are dry and powdery, and act to a 
 certain extent as an enriching top-dressing. 
 
 The mole can not bear access to the atmosphere, being wholly subten-a- 
 neous by nature ; they never drink, but live entirely upon worms, insects, 
 and the roots of grass, and are never found in gravelly or clay soils. 
 
250 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 They breed in April and May, and generally ])rodnce four at a birth. 
 The tunnels that they make are invariably parallel to the surface of the 
 ground, and about six inches deep, unless they become alarmed, when they 
 iniinediately sink to the depth of fourteen inches, rarely deeper. They have 
 cities under ground, which consist of houses, or nests, wliere they feed and 
 nurse their young ; communicating with these are wider and more frequented 
 streets, made by the perpetual journeys of the female and male parents, as 
 well as many other Tess frequented streets, with diverging branches, which 
 they extend daily to collect food for themselves and families. 
 
 Moles are exceedingly active in April and May, during the pairing 
 season, when the tunnels become very numerous, for tlie purpose of meeting 
 each other. I do not believe that they are blind, from the fact that I have 
 never observed that the mole-hills increase except in the day-time, showing 
 that they do not work by night, which they would probably do if deprived 
 of sight. They commence very early in the morning, wlien you may often 
 see the mold or grass moving over them ; you may then readily cut off 
 their retreat by thrusting in the ground a spade directly behind them, when 
 they may be dug out very easily and killed by the attendant terrier. By 
 placing your ear on a newly-raised hill you may hear them scratching at a 
 considerable distance, and thus be able to find them. You may always dis- 
 cover the locality of their young by observing the hills, which are larger 
 and the color diflerent, a portion of the subsoil being thrown upon top. If 
 you desire to set traps in their tunnels, it will be necessary to discover which 
 are the frequented streets and which the by-roads. 
 
 This may be accomplished b}' pressing the foot lightly on the hill, and if 
 the mole passes that way he will nearly obliterate the mark. You may then 
 set a subterranean trap, and he will be caught. Tiiese may be made from -a 
 piece of wood, in a hollow, semi-cylinder form, with grooved rings at each 
 end, in which are placed the nooses of horse-hair, one at each end, fasteiied 
 by a peg in the center, and stretched above-ground by a bent stick ; when 
 the mole has passed through one of the nooses, and removed the central peg, 
 the bent stick, by its elasticity, rises and strangles the animal. The structure 
 of this quadruped adapts it admirably to the underground life that it leads. 
 Its head is very long, conical in shape, and tapers to the snout, which is 
 much strengthened by a bone, gristle, and very powerful muscles. The 
 body is cylindrical, very thick on the back of the head, from which it dimin- 
 ishes to tlie tail. It does not appear to have any neck, but where it should 
 be, there is a mass of muscles, all of which appear to act upon the fore legs 
 and head. These are the instruments with wliich he excavates the ground ; 
 they are harder, shorter, and stronger, in projjortion to the size of the animal, 
 than in any other of the mammiferous class. I have never destroyed one of 
 these little animals, because I consider the damage they do to a few roots of 
 grass is entirely counterbalanced b}' their immense destruction of wire- worms, 
 slugs, etc., besides aerifying, disintegrating, and lightening the soil, and thus 
 fitting it admirably for the purposes of top-dressing. 
 
Sec. 13.] "WILD AND TAilE ANIJIALS OF THE FARM. 251 
 
 I never permit the common crow to bo destroyed, because he preserves 
 my coni-fiekls from numerous enemies, keeps off hawks, destroys slugs, 
 snails, grubs, and eats carrion. Nor the black snake, whose constant 
 employment seems to he the destruction of field-mice, and other enemies to 
 the orchard. Nor the cherry bird, because he is always on hand ready to 
 eat the first cherries that ripen prematurely, which invariably contain the 
 ■worm. Nor the king-bird, wren, or robin, all of which are employed from 
 dawn to dusk in relieving me from my enemies. 
 
 275. An English Opinion about Moles. — The Eoyal Agricultural Society's 
 Transactions contains the following opinion about moles. The report affirms 
 that " in one year, and every year, 00,000 bushels of seed-wheat, worth 
 £30,000, are de.^'i-oyed by wire-worms! This prevents 720,000 bushels from 
 being grown, worth £300,000. If our farmers and others, instead of killing 
 moles, partridges, and pheasants, wonld jtrotect them, 720,000 bushels more 
 wheat would go every year into the English market. But the creature designed 
 b)' a kind Providence to perform the chief part of this immense good is the 
 mole/ Some years since I had two fields, one of which was full of wire- 
 worms, the other periuips a third full. My crops failed on these fields for 
 the first two or three years, but afterward improved rapidly, for I bought all 
 the live moles I could find at three shillings a dozen, and then two shillings 
 a dozen, and turned them into these fields. I had eight quarters of barley 
 per acre and seven of wheat where the moles were at work all summer, 
 making the ground like a honey-comb. Next year, the wire-worms, being all 
 cleared out, my innocent little workmen, who had performed for me a service 
 beyond the powers of all the men in my parish, emigrated to my neighbor's 
 lands to perform the same service, but of course they met death wherever 
 they moved, so that my little colony was wholly destroyed. Now I will 
 receive all the moles that the formers will give me, and turn them into my 
 glebe." 
 
 276. An American Opinion about Moles. — An American writer undertakes 
 to criticise what is said aliove, and says: "This I know from every-day 
 observation to be very erroneous. I do not know that moles eat insects ; be 
 that as it may, I have no doubt their living is principally seeds, and roots, and 
 other vegetables. In the winter time, when snow is deep and the ground 
 not fi'ozen, I have known them to destroy whole nurseries of apple-trees, 
 and even young orchards that have commenced bearing."' 
 
 Now this man don't know what he is talking about. He has confounded 
 mice and moles together. It is the mice, and not the moles, that have been 
 running about in this man's orchard eating his trees, But he believes it is 
 moles, and has a fi.xed prejudice in his mind against them, which no argument 
 perhaps can remove. We beg of farmers to learn facts about things in 
 which they are so much interested. 
 
 277. Mice and their Mischief. — Mice, we willingly concede, are mischievous 
 — in young orchards excessively so. Wet seasons are favorable to the rapid 
 increase of field mice, and -when followed by snowy winters and unfrozen 
 
252 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 turf, so they can liave access to the clover roots, tliey become a scourge. 
 The late dry summers nearly exterminated both rats and mice — jirobably more 
 from thirst than hunger. 
 
 The variefy of mice that does most damage to trees is known as the 
 "meadow mouse," which always works under cover, girdling the trees most 
 when the snow lies deepest, particularly if it lies liglitly or is hold up by 
 weeds and grass, so as to allow the vermin easily to make their [jaths from 
 tree to tree, or from the tree to their resting-place. 
 
 278. Remedies for 3Iiee Eating Trees. — Tramping the snow down around 
 the trees is a pretty sure remedy, and where the orchard or nursery is not 
 extensive, will answer to be put in practice, but it would be troublesome on 
 a large scale, as it may have to be repeated several times in the winter. 
 Some persons have found it a good plan to tramp down the snow and wet it. 
 It then forms ice, that often remains nearly all winter, keeping tlie ground 
 warm, as well as keeping the mice off. 
 
 Downing, in his " Fruits and Fruit-Trees," says: "The fjllowing mixture 
 will be found to be an effectual prevention. Take one spadeful of hot- 
 slacked lime ; one spadeful of clean cows'-dung ; half spadeful of soot ; one 
 handful of flour of sulphur — mix the whole together with the addition of 
 sufficient water to bring it to the consistency of thick paint. At the 
 approach of winter, paint the trunks of the trees sufficiently high to be 
 beyond the reach of these vermin. Experience lias proved that it does no 
 injury to the tree. A dry day should be chosen for the application." 
 
 Coal-tar has been recommended, but M-e advise great caution in its use, 
 since many persons have destroyed their trees by it. We would sooner try 
 a coating of strong alkaline soap ; that, at least, -would not injure the 
 trees. 
 
 279. Mice and Osage-orange. — J. D. Cattell, of Salem, Columbiana Co., 
 Ohio, says the held-mice are eating up all the roots of Osage-orange hedges 
 in that region, so that they are utterly destroyed, and their cultivation must 
 be abandoned unless somebody can give a remedy. lie says : 
 
 " It has been my understanding, heretofore, that one of the greatest excel- 
 lences of this plant for fencing was its freedom from all animal destroyers. 
 If no remedy against the ravages of the mice can be found, it will be folly 
 to set a plant of the kind in this part of the country. One of my neighbors 
 has already given up half of his for lost, and grubbed out the balance. No 
 doubt others are troubled in the same way. I have tried traps, terrier dogs, 
 and poison, but all in vain. What shall I do?" 
 
 Who can tell ? 
 
 We heard one nurseryman s.ay that he should dig up an Osage-orange 
 hedge, because it attracted mice, and also because it entirely exhausted the 
 soil of a wide space, so that he lost the growth of one row of trees. 
 
 280. Rats. — This species of the genus mus is an almost intolerable nuisance 
 in some portions of the United States. In fact, we do not know of any 
 portion now exempt. They follow man into the wilderness. When we 
 
Seo. 13.] WILD AND TAME ANIMALS OF THE FARM. 253 
 
 located on the prairie, in 1834, about 15 miles from neighbors, and 40 miles 
 out from what has since grown to be the city of Chicago, there was not a 
 rat to seen or heard of. For several years we were exempt from this pest. 
 There came abundance of shipping to Chicago, and with it abundance of 
 rats, and they soou spread over the whole land, multiplying and devastating. 
 Now they are great pests in the barns and stacks of prairie farmers. 
 
 Our common breed is called " Norway rats," from the supposition that they 
 originated in that country. British naturalists, however, assert that they 
 were introduced into the British Islands from India. If they are tropical 
 animals, all we have to say is, that they easily adapt themselves to a rigor- 
 ous climate, where they multiply at a most prolific rate. What we are yet 
 to do with them is a problem not easily solved. All the receipts to cure the 
 nuisance are only preventive, not eradicative. 
 
 281. Rat Antidotrs. — A correspondent of the Gardener'^s Monthly says : 
 " I tried the effect of introducing into the entrance of their numerous holes, 
 runs, or hiding-places, small portions of chloride of lime, or bleaching pow- 
 der, wrapped in calico, and stuffed into the entrance holes, and thrown loose 
 by spoonfuls into the drain from the house. This drove the rats away for a 
 twelvemonth, when they returned to it. They were again treated in the same 
 manner, with like effect. The cure was most complete. I presume it M-as 
 the chlorine gas, which did not agree with their olfactories." 
 
 Another correspondent writes : " Some four or five years since, my cellar 
 became musty, to overcome which my wife sprinkled a solution of copperas 
 (pretty strong) over the bottom. Since that time we have seen no sign of 
 rats about the house, notwithstanding thei'c have been plenty of them about 
 the barn and other buildings on the premises." 
 
 Arsenic is considered, by some who have tried it, a failure, when used for 
 the purpose of clearing premises of rats, because they are too cunning to 
 partake of it after M'itnessing the death of two or three of the family. It is 
 effectual, if the vermin will take the bait. 
 
 Strychnine we consider far preferable, and although so much more costly, 
 it requires but a few cents' worth to do the woi'k of death ujjon a hundred 
 rats. It is also the very best thing to use upon a troublesome dog or cat 
 that comes prowling about your premises. One grain for a dose is sufficient. 
 We have killed numerous wolves by inserting one grain of strychnine in the 
 center of a piece of fresh meat, just lai'ge enough for a mouthful for a wolf. 
 As rats do not bolt their food, it is a little more difficult to get them to take 
 strychnine, it is so intensely bitter. If it is mixed with corn-meal, and a few 
 drops of oil of anise are added, it will attract the rats. 
 
 Tarring and feathering rats, and then letting them run, has been practiced, 
 to give the tribe a hint that it would be well for them to leave. One rather 
 smart individual, not having tar, used spirits of turpentine. He was going 
 to drive the rats out of his house cellar. He was entirely successful ; for 
 when he let the rat loose in his kitchen, with a " Shoo !" to it to go down the 
 cellar stairs, it took the kitchen fire in its course, and then a pile of flax that 
 
254: SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 lay ill tlie cellar way. In two hours there was not a rat in the house, unless 
 it might be a roasted one. 
 
 Plaster of Paris has proved a successful poison for rats ; and it has the 
 advantage of being quite harmless to have about the house. A tablespoon- 
 ful of the flour of plaster, mixed in a cup of Indian meal, and slightly sweet- 
 ened, will be eaten by rats, and kill them. A little grated cheese makes the 
 food more attractive. Oil of anise would be still more so. In fact, by the 
 use of it, rats may be coaxed out of a house to eat poison, and die where 
 their dead bodies would not be a nuisance. 
 
 P/iosphorus, powdered and mixed with meal, a few grains to a teacupful, 
 has been often used successfully as a rat poison. 
 
 Powdered potash, strewn in the paths frequented by rats, has been known 
 to drive them away from a house. The theory is, that it gives them very sore 
 feet, and disgusts them with the place. 
 
 2S2. En!!;lisli Rat-CatcherSi — In England, rat-catching is a profession, sons 
 often following it as the business of their fathers. The rat-catcher visits a 
 farmer, and contracts with him at so much a head for all the rats he destroys. 
 His trap is a large bag, which is set with the mouth open, baited with a 
 piece of bread scented Avith oil of anise and oil of rhodium, the scent of 
 which attracts the rats, and thus he bags enough to fill the contract. He 
 does not desire to rid the premises, as that would '' spoil business." A rat- 
 destroyer would not be tolerated by the honorable company of rat-catchers. 
 
 283. Rat-Traps> — Among the many devices for trapping rats, we will 
 mention a few of the best. A large wire cage-trap, where the second rat 
 will go in because he sees the first in there, ofteu proves successful. A large 
 brass kettle, half full of water, M-ith a small stone island in the center, just 
 big enough for one rat to rest upon, the top of the kettle being covered with 
 parchment, similar to that of a drum-head, having a cross cut in the center, 
 is a first-rate trap. Fasten a small bait upon the points of the cut, and the 
 rat jumps down from a board arranged for the purpose, and through he 
 goes into the water. He scrambles on the island and squeals for help. An- 
 other hears him, and comes looking around, sees the bait, jumps fu- it, lakes 
 the plunge, and goes down upon the other fellow's head. Then comes a 
 scramble for place, the strongest pushing the Aveakest off to take his chance 
 in the water. This muss, as with men, attracts others, and in they go. "We 
 have heard of twenty in a night thus inveigled to destruction. 
 
 A barrel, one third full of Avater, with an island, the surface covered wi:h 
 chaff, arui a bait suspended over it, we have been told, is an excellent trap. 
 
 Ferrets and weasels have been highly recommended to be kept about the 
 barn, to drive away rats. The objection to them is, that they drive away the 
 poultry also. Ferrets have been trained so as to be obedient to the call of 
 their master, and used not only to hunt rats, but to drive rabbits out of their 
 burrows. ♦ 
 
 284. Domrstic fats. — Perhaps the best thing for a farmer to do, who is 
 troubled with rats, is to multiply his stock of cats. We knew one farmer 
 
Seo. 13.] WILD AND TAME ANIMALS OF THE FARM. 255 
 
 wlio kept fourteen cats, keeping up that number for more than a year, by 
 ■which means lie got rid of all annoyance from rats, and they also hunted the 
 rabbits out of an adjoining grove. 
 
 The variety of the felis tribe known as the domestic cat, once wild, easily 
 gets wild again if neglected by man, and is then as great a pest as the rats, 
 and is given to the very bad habit of eating eggs and chickens, and catch- 
 ing pigeons and other birds. 
 
 Toj^reveni cats hillincj ch'icliens, Harriet Martineau gives the following as 
 a sure preventive both against the killing of chickens and birds by the cats : 
 "When a cat is seen to catch a chicken, tie it round her neck, and make her 
 wear it for two or three daj's. Fasten it securel}', for she will make incred- 
 ible efforts to get rid of it. Be firm for that time, and the cat is cured — she 
 will never again desire to touch a bird. This is what we do with our own 
 cats, and what we recommend to our neighbors ; and when they try the ex- 
 periment, they and their pets are secure from reproach and danger hence- 
 forth. Wild, homeless, hungry, ragged, savage cats are more difficult to 
 catch ; but they are outlaws, and may be shot, with the certainty that all the 
 neighbors will be thankful." 
 
 The abundance of food and shelter obtained by the domestic cat makes 
 them much more prolific than in a wild state. She is generally, though very 
 tame and gentle, much more attached to the house than to its inmates, which 
 is quite the reverse with the dog. There are some remarkable singularities 
 about cats. Gentle as they appear, they are very nervous, and easily 
 startled, and act for a moment as M'ildly as though never tamed. They are 
 also accused of being very treacherous. Their affection for their own spe- 
 cies or ours is certainly doubtful. Their conduct at times, when a member 
 cf the family dies, is singidar. Their anxiety also to get at a corpse has 
 led to curious superstitions. In the opinion of the superstitious, the black 
 cat has ever been attendant upon witchcraft. It is our opinion that a jjortion 
 of this black-cat superstition originated from the fact that the hairs of a 
 black cat exhibit sparks of electricity to a remarkable degree, when the 
 atmosphere is in the right condition. To see this, take such a cat into a dark 
 room, upon a clear, cold November night, and stroke the fur the wrong way, 
 and if you never have seen it before, you will be surprised at the effect. 
 
 Cats, particularly females, arc generally very cleanly animals to keep as 
 house pets. They are fond of warm quarters and soft beds, and their song 
 of satisfaction, called purring, is very pleasant to all who have a fondness for 
 cats. We have known this fondness become a cat mania. 
 
 We look upon cats as a necessary part of farm stock, and they should be 
 properly treated as much as any other kind of animals. 
 
 285. DogSt — If there is any moi'e unmitigated nuisance in a farming com- 
 munity than dogs, such dogs as farmers generally keep, we are unable to 
 name it. In the country where we live, there are some hundreds of farms 
 better fitted for sheep husbandry than any other purpose, but upon which 
 no sheep are kept, because the country is so full of worthless dogs. The 
 
256 SMALL ANIMALS AND INSECTS. [Chap. H. 
 
 country might be a liundred thousand dollars a year richei', if the people 
 could stock their farms with sheep. A man who keeps a worthless cur to 
 prowl through a neigliborhood, is neither a good Christian^ moral man, nor 
 good neighbor. He does not do as he would be done by. A well-trained 
 terrier is the only kind of a dog that is useful to farmers in general. Of 
 these there are several varieties ; the best is the wire-haired terrier, an ugly- 
 looking brute, but a ferocious enemy to rats. The black-and-tan terrier is a 
 handsome and more agreeable-looking dog to have about a place, and a 
 good ratter, when trained, but does not have such an apparent natural pro- 
 pensity to destroy rats as the wire-haired one. He is also, for his size, a very 
 strong dog, and knows nothing about fear of anything, and is therefore a 
 very good house watch-dog. But we do not believe a farmer ever should 
 keep, a dog for his services alone, as a watch or guard of his premises. A 
 dog to be worthy of a home upon a farm should liave several good qualities 
 combined. No conscientious man can keep a dog when he knows that the 
 keeping of such dogs, whether his parlicular one or not, has a tendency to 
 prevent the keeping of sheep ; for sheep, of all animals, have greater adapt- 
 ation to the purpose of furnishing the poor with cheaj) food than any 
 other domestic animal in use in this country, and they are capable of con- 
 verting the coarsest herbage of the farm into the most healthful meat of the 
 shambles. 
 
 2SG. Shepherd's Dogs. — Whenever sheep are kept in sucli numbers as to 
 constitute a considerable flock, the owner can well afford to keep a good 
 shepherd's dog. One who has never seen a well-trained shepherd's dog can 
 form no idea of their extraordinary sagacity and usefulness. Wc iiave 
 ridden leisurely across a wide prairie in a wagon, accompanied by a Scotch 
 colley, half-breed slut, driving five hundred sheep better than three men 
 could have done without a dog. 
 
 If there were none but such dogs in the country, there would be ten times 
 as many sheep kept. One man would be entirely competent to manage a 
 thousand. He should have two dogs, so that they would be company for 
 each otlier, and so that, in case of accident to one, the other would remain 
 serviceable. 
 
 The Scotch colley very much resembles a prairie-wolf, having a broad 
 forehead and pointed nose. The ears are short and upright, the fleece 
 shaggy and slightly curly, with a bushy tail. These dogs are very intelli- 
 gent, docile, and faithful, and jjossess an instinctive sagacity in everything 
 that relates to the care of sheep. In a pleasant little book called " Anecdotes 
 of Dogs," some wonderful evidences of the sagacity of Scottish shepherd 
 dogs are to be fomid, and they should be read by all farmers' boys. 
 
 The English shepherd dogs vary considerably in appearance from the 
 Scotch. The hair is smoother, and tliey do not appear so distinct a breed as 
 the other. Both are of medium size, perhaps about fifteen inches high. 
 The Irish shepherd dog is larger and more ferocious ; some of them would 
 tear a man sadly, if he interfered with the flock at night while in charge of 
 
Sec. 13.] WILD AND TAME ANIMALS OF THE FARM. 257 
 
 the dog. Tlie Scotcli dog is always gentle, and generally very affectionate. 
 In France, the shepherd dogs are soinewliat like the Scotch, but smaller. 
 Tlic Spanish shepherds have a breed of dogs peculiar to that country. They 
 are the size of a full-grown wolf, with large head, thick neck, mastiff-lookin"-, 
 fierce and strong, and are often armed with a spiked collar, to make them 
 more formidable to dogs, wolves, and bears, if they should attack tiie flock. 
 Their color is generally black and white — their daily rations two pounds of 
 black bread, with milk and meat when it can be had. In Spain, the o-reat 
 flocks of the country, always in charge of shepherds and dogs, make lono- 
 migrations every year from their lowland home to the mountain pastures, 
 two or three hundred miles distant, feeding all the way in the roads and 
 commons. 
 
 Slieep arc the wealth of Spain, and without the aid of shepherd doo-s, that 
 wealth, under the present system of management, could not bo produced. 
 
 287. Dog Laws.^In New Jersey there is a dog law which should be 
 entitled, "An act to encourage the keeping of tlie most ordinary breeds of 
 sheep, and no others, and to induce owners to liave them killed by doers." 
 This act provides that all sheep killed by dogs shall be paid for out of the 
 public funds, at five dollars a head. To improve your flock, if you get a 
 buck worth a hundred dollars, and the dogs kill him, yon get five dollars. 
 If your neighbor has one killed that you would not have on your farm, if 
 paid five dollars for taking him, he gets five dollars. It is not a law to 
 encourage improvement in sheep-breeding. 
 
 Tlie number of sheep annually killed by dogs in Ohio has been ascertained 
 by the assessors. The number and value are astounding. 
 
 Thereupon a correspondent of the Ohio Farmer says: " Shall we have a 
 dog law, or must we give up keeping sheep? That is the real question. 
 There would be kept fifty per cent, more sheep in this country, but for dogs ; 
 not that quite that amount are dogged, but most farmers lose some, and this, 
 with other risks, discourages them, and compels them to abandon the business. 
 Now let every farmer make this a test question in the elections this fall. 
 Let it be sheep vs. dogs, and let all Ilepul)licans and Democrats see to it that 
 every man put in nomination for the Legislature is sound on dogs. Let the 
 candidate choose whom he will serve — sheep or dogs. I am in earnest, Mr. 
 Editor. The sight of a few fine Leicesters, each worth more tlian all the dogs 
 in Ohio, mangled and torn by worthless curs, who are only kept because 
 tlieir owners are too lazy to kill them, has made me in dead earnest; and- 
 wo to the Ohio legislator, if he depends on my vote, whose fear of dog 
 constituents shall induce iiim to oppose or dodge a severe dog law ! Now is 
 the time, wool-growers of Ohio, to look to this matter, and see that antidog 
 men are put in nomination by your respective parties." 
 
 There is no use in talking about taxing dogs. The dogs that really do the 
 mischief are the dogs of gentlemen of elegant leisure, who are too lazy to 
 hunt with them, and of the democratic loafer, who don't like to M'ork, but 
 glories in tlio luxury of a house full of children and a dozen doffs. Honest 
 
258 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 working people, wlio earn tlieir bread, don't keep worthless dogs about them ; 
 if they keep a dog, they feed him, and train him up properly; but your 
 roaming worthless vagabond will keep a score, and expect them to take care 
 of themselves. But these fellows have votes, my dear sir; it will never do 
 to tax their dogs. They would kick up such a dust about our ears that we 
 could never find our way into the State-house again. 
 
 288. A Trap for Catchiug Sheep-killiug Dogs. — Make a pen of fence rails, 
 beginning with four, so as to have it square, and as you build it, draw in 
 each rail as you would the sticks of a partridge-trap, until your pen is of 
 sufficient height, say five feet. In this way you will construct a pen that, 
 when finished, will permit a dog to enter at the top at pleasure, but out of 
 which he will find it difficult to escape, should he have the agility of an 
 antelope. All that you have to do to catch the dog that has killed your 
 sheep, is to construct the trap where the dead sheep is left, as directed, as 
 soon as possible after an attack has been made on your flock ; put a part or 
 the whole of a sheep that has been killed in it, and remove the balance to 
 some other field. In a majority of cases the rogue and murderer will return 
 the succeding night, or perhaps the next, and you Avill have the gratification 
 next morning of finding him securely imprisoned. Some may object to the 
 plan, perhaps, on the ground that you might catch an innocent dog. If he 
 is so, he can content himself with not trying it. 
 
 289. A Sermon on Dogs. — The Texas Christian Advocate gets oflf the fol- 
 lowing sliort sermon upon dogs, from a text to be found in Philippians iv. 2 — 
 " Beware of dogs !" Upon this the preacher saj's : 
 
 " The Apostle well knew the mischievous and meddlesome spirit of dogs. 
 Hence his caution against them. 
 I. Dogs in general are a nuisance. 
 Because : 
 
 1. They excite fears of hydrophobia. 
 
 2. They worry and destroy sheep. 
 
 3. They disturb our slumber. — Howling in horrid concert under our win- 
 dow, simultaneously ba^'ing at the moon. 
 
 4. They frighten us when out at night. — A snap or growl at a neighbor's 
 gate, or when turning down a dark alley, has a wonderfully nervous tendency. 
 
 5. They are too familiar. — Will sleep on the front gallery, scatter fleas, 
 come into the dining-room and parlor, and go to church on Sunday mornings. 
 
 From these and other considerations I observe : 
 II. All dogs should be watched. 
 
 1. To prevent their depredations. — Killing neighbors' cats, tearing pants, 
 scaring children, and going mad. 
 
 2. To correct their bad manners. — ^Teach them they are only dogs, and not 
 quite equal to "white folks." 
 
 3. Keep them in their places. — "Wherever else they belong, I question as 
 to the propriety of their getting between the sheets with gentlemen, or using 
 the church as a dog-kennel. 
 
Seo. 13.] WILD AND TAME ANIMALS OF TIIK FARM. 259 
 
 Application. — Have you a dog? Then keep him in a dog's place, and 
 watch him. If you admit him to undue familiarity, don't foi-get that other 
 folks will still think him to be but a dog. If he has a shaggy coat and turn- 
 up nose, these will not entitle him to the privilege of following yoa to 
 church and disturbing the worship of the entire congregation. 
 
 Though he may be as nice and sensible as his fond master or foolish mis- 
 tress, it is not very probable the preaching will do him anj' good. The intel- 
 ligent fellow might be allowed the pleasure of trotting across the floor, and 
 barking his approbation at the occasional flights of the preacher's eloquence, 
 were a dog's gratification more important than the people's edification. 
 
 Hence, in conclusion, I would say, Beware of dogs ! and what I say to one 
 I say to all, Beware of dogs ! 
 
 Finally, to the sexton, or that good brother who raises the tunes, I would 
 say with emphasis. Beware of dogs ! and if those canine interlopers persist 
 in coming to the place of worship, just take them out and cut ofl' their tails 
 close to the ears." 
 
 290. Rabbits — To Prevent Gnawing Trees. — The American Hare, commonly 
 called Eabbit, is common to all the Atlantic States and Canada. It is used 
 for food by most people, but abhorred by others. Although clothed in a 
 thick coat of soft, whitish-gray fur, the skin is not valuable, because it is too 
 tender to be serviceable, and the fur is not much, if any, better than cotton, 
 for such purposes as fur, separated from the skin, is used for. These animals 
 are prolific, and generally prefer to live in and about farms that have been 
 suffered to grow up badly to bushes. They do the most of their feeding at 
 night, and farmers generally do not feel any dread of their mischief. 
 Nurserymen do ; and so do those who plant young orchards near where rab- 
 bits abound. "When hunger presses them in winter, they will gnaw apple- 
 trees with tender bark so as to destroy them. Young nursery trees are often 
 cut off bjf rabbits so smoothly that one not knowing how it was done would 
 suppose it was by a knife. 
 
 To prevent the depredations of rabbits, English nurserymen dip rags into 
 melted brimstone, and fasten them about among the trees. The remedy 
 mentioned in 278, to prevent mice, is recommended to keep the rabbits 
 away. Some persons have daubed their trees with grease scented with some 
 offensive odor, and found that rabbits would not touch them. Some have 
 plastered them with fresh cow-dung. A very good remedy is to offer a 
 bounty for every rabbit killed in the neighborhood. 
 
 "Where trees have been injured, it is a good plan to bind up the wound 
 with a plaster of clay and cow-dung, made plastic enough to adhere well; 
 this, when firmly bound on, will often save a valuable tree. 
 
 Domesticated rabbits, if suffered to run at large, are very ornamental, par- 
 ticularly if of the finest fancy sorts, but they are sometimes unpleasantly 
 mischievous. "Where they can be conveniently kept under restraint, we 
 have no doubt they can be made as profitable as poultry or other small farm 
 stock. In England, rabbit-breeding is quite a business, and men of wealth 
 
2C0 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 and good standing engage in it, and form rabbit clubs, and exhibit tlicir 
 stock for prizes. Some of the specimens imported from London, that we 
 have seen, were very beautiful. Some years ago, Francis Rotch, of Butter- 
 nuts, Otsego County, N. Y., imported some of the best we have ever seen, 
 and bred them to a considerable extent, finding ready sale for all he chose 
 to dispose of in that way. 
 
 We do not know of any large establishment in this country where rabbits 
 are bred for sale in market for food. The common American wild rabbit is 
 often seen in the 'New York market. 
 
 Rabbits may be kept in very inexpensive hutches, and in tolerably close 
 confinement. Their feed in summer is clover and various green things. In 
 winter they will eat grain, sweet apples, parsneps, and other roots, cabbage, 
 and a little sweet hay. A full-sized rabbit wants about a gill of oats night 
 and morning, with a piece of rutabaga or parsnep, or its equivalent, say a 
 quarter of a pound a day, and a little handful of hay. A doe, while suck- 
 ling her young, which is most of the time, should be fed high, say three gills 
 of oats a day, or wheat shorts, or pea meal, and roots and hay. Or in sum- 
 mer, upon almost anything that grows green, if given fresh. 
 
 A dozen or fifteen years ago, we remember having seen in "The Boy's 
 Own Book" an elaborate treatise upon rabbit-breeding, and to that we refer 
 the boy who reads this and desires to go into the business. They will also 
 find frequent hints in agricultural papers, and in several books devoted to 
 fancy poidtry breeding. From what we have said of the food whicli rabbits 
 consume, it will be easy to calculate whether keeping them will be profitable. 
 
 Newspapers bound around trees, it is declared in an article befire us, will 
 wholly prevent depredations of rabbits, and also keep off the borers, and a 
 wrapper well tied on will last for months. The writer says : 
 
 " I find no other remedy necessary for either rabbit or borer. Tlie wrap- 
 pers, if properly put on, keep whole through al^the changes of our variable 
 winters. The trees are thus secure from damage by the rabbit. In the latter 
 part of spring and early part of summer, when the beetles of the Saperda 
 and the Buprestis are about, a few eggs will be deposited in the axils of the 
 lower branches of trees, and at the tops of the paper wrapjiers. Even these 
 points of attack, however, can in general be successfully guarded, by simply 
 depositing a small piece of brown soap in the main axils, after the season's 
 growth is well started, to be dissolved and washed down the stem by subse- 
 quent rains. 
 
 " But I do not find it necessary to resort to this precaution ; for if eggs are 
 deposited at those points, I am certain to find the fact out, and make all 
 right the latter part of August and first part of September, when I go among 
 my young trees with a bucket of strong soap-suds and a hard scrubbing- 
 brush, for the purpose of giving them a good hard wash, such as would make 
 some people open their eyes with astonishment, and cutting out suckers or 
 small shoots that may have pushed through the papers, and renewing the 
 wrappers." ' 
 
Sec. 13.] WILD AXD TAME ANIMALS OF THE FARM. 261 
 
 291. Squirrels and Gophers. — All of our Eastern and Northern readers will 
 understand about squirrels, and liow much mischief the smallest of the 
 family does in the corn-field ; but they know nothing of gophers — they belong 
 to the West. In California they are almost intolerable, and it is about as 
 hard to devise a plan to get rid of them as it is here to get rid of the " chip- 
 mucks" {Tamias tysteri). In our opinion, the best way to prevent them 
 from digging up the seed-corn is to give them plenty to eat on the surface. 
 What is half a bushel of corn sown broadcast for the squirrels to pick up ? 
 It would save the seed of a large field harmless. We would M'illingly give 
 that every year to see the dear little tilings around a farm. It is worth that 
 to see tlie old dog chase them, and " bark at the hole" where one ran througli 
 a stone wall. We have concluded never fo kill a chipmuck. If others wish 
 to do it, they may perform the work by poisoning corn, or they may prevent 
 them from eating it by coating the seed with tar, which is done by mixing a 
 pint of tar in a pail of warm water, and putting the corn in it ; then, to make 
 it pleasant to liandle, roll it in dry plaster. If a little flour sulphur is sprinkled 
 on the wet seed, it will adhere and give it an odor that all little pests dislike. 
 
 At the West, in woody districts, gray, black, and fox equirrels, particularly 
 the first named, are sometimes very destructive to the corn-fields in autumn. 
 The gray and black squirrels increase so rapidlj' after one or two seasons of 
 an abundant suppl}^ of beech-nuts, that the regular squirrel-hunts do not 
 appear to diminish their numbers. They are to some extent migratory, as 
 their supplies change, from beech to oak lands. At such times the strong 
 and healthy will swim large rivers, and uniformly take one direction, leaving 
 the young and feeble at home. 
 
 In Ohio, about the year 1835, squirrels became so numerous over the 
 whole country as to threaten the entire destruction of corn-fields while in the 
 milk. The following year. they were all starved. In the winter they ran 
 desperately over the fields, indifferent of danger, sometimes feeding upon 
 the bark of the beech. 
 
 The red and striped or ground squirrel are not liable to suffer from these 
 vicissitudes, as they lay up a store for winter. I think the flying squirrel 
 does also, but this is a nocturnal creature, and less is known about it. 
 There are also several kinds of winter bircls which deposit seeds iu knots 
 and loose bark of trees for winter use. 
 
 The fox squirrel is the largest of the American species. It is of a reddish- 
 gray color, and inhabits the prairie groves of northern Indiana, Michigan, 
 Illinois, Wisconsin, and other States. It is very shy of man, is hard to get a 
 sight of, and difficult to kill. 
 
 292. Striped Gophers {Spermophilus ttndccemlhieatus). — Perhaps, when 
 you see the name given to this animal by natural-history writers, you may 
 imagine it is as big as its name. But it is not half as formidable to look at. 
 We give the scientific name for identification, because the word " Gopher," 
 in Florida, means a small land-turtle. In AVisconsin it means a squirrel 
 somewhat like a chipmuck. In California it represents a different animal. 
 
262 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 The striped gopher abounds in the Nortliwestern prairie region. In the first 
 settlement of the country a Imndred miles around Chicago, it inhabited all 
 the prairie groves and dry ravines. The following is its description : The 
 ears are short and rounded ; the tail slender and hairy, about half the length 
 of the body ; the body is of a dark brown above, longitudinally marked M-itli 
 alternate rows and spots of a light fawn-color, which correspond nearly with 
 the belly and sides. The lighter lines on the upper part may be distinguished 
 by the lirown intervals between, which are occupied by the single rows of 
 light spots, which are generally indistinct on the anterior half of the body. 
 
 Although these animals are considered grain-eaters, and called mischiev- 
 ous, we believe they are among the many real friends of the farmer. Like 
 the weasel, which occasionally eats a chicken for lack of more favorite food, 
 the gopher sometimes eats the farmer's seed-corn, but he should not be con- 
 demned as an enemy for that act, without a fair hearing. 
 
 There may be some of the gopher family that are destructive of farm 
 crops. The evidence is very strong to that effect against the Californian 
 gopher, which lives in holes all through the cultivated fields, and does not 
 seem to be very particular what it cats, whether corn, wheat, potatoes, beets, 
 melons, pumpkins, so that it is something which the farmer has grown for 
 his own use. 
 
 It is not so with the small striped gopher. Tliis beautiful little animal 
 should be carefully preserved upon all farms where it now exists, and we 
 have no doubt it would prove a valuable addition to the stock of any farm 
 where it is not found in a natural condition. It is a great destroyer of field- 
 mice, and in onr opinion a whole troop of gophers do less damage in one 
 season than the mice which one of them would kill in a single day. For 
 they are real epicures, eating nothing but the blood and brains, when the 
 supply is abundant. These animals have such an appetite for flesh, that 
 if deprived of it, a mother will cat her young. Such carnivorous animals 
 must be better hunters than cats, and should be carefully preserved, and not 
 " drowned out," as they often arc, when their homes are discovered by the 
 boys, just for the " sport" (cruelty) of killing them. These animals seem to 
 have a natural instinct that man is their common enemy. We have seen them 
 often in situations where they could never have had any acquaintance with 
 man, at least civilized ones, who are the only ones who ever kill such small 
 game for "sport," and we found them wild in the extreme. They utter a 
 cry when discovered, and dart away into some shelter with great rapidity. 
 In this respect, quite unlike the chipmuck, which will play around a dog or 
 man in the most tantalizing manner. 
 
 The striped gopher never gnaws trees, roots, fruits, nor green vegetables, 
 and in fact does the farmer no damage except to eat a little seed-corn. For 
 all that they eat in the harvest-field, they save twice as much in driving 
 away mice and squirrels. Chipmucks, red squirrels, and mice can not 
 inhabit the same locality with gophers ; and yet there are persons who have 
 offered bounties to have them destroyed. Let such learn this fact from this 
 
Seo. 13.] WILD AND TAME ANIMALS OF THE FARM. 263 
 
 Tolume, if they learn no other, that the striped gopher is worth its weiglit 
 in gold upon any farm where field-mice are so abundant that they destroy 
 fruit-trees. 
 
 293. Skunks. — We don't know that we can afford to stem the current of 
 popular opinion so far as to recommend the protection instead of destruction 
 of skunks {^fep/titis Americana). We arc aware that these animals are 
 troublesome visitors to the poultry-yard, and on that account they are hunted 
 and killed without mercy, and without a thought about what they live ujjon 
 all the time that ihey do not eat chickens. As they are tlesh-eaters, they must 
 find something of the flesh kind to eat, and that something is tlie very thing 
 that tlie farmer is most anxious to get rid of — it is mice, and worms, and 
 bugs. The quantity of these pests destroyed by a single skunk is enormous. 
 It is very rare that they come about a house, thougli we have known them 
 to live for weeks in cellars, or store-i'ooms, or under a crib, without producing 
 any nuisance. They never emit their fetid odor unless attacked by man or 
 dog ; and it has been contended that it was practicable to domesticate a 
 skunk so that he would be quite a harmless pet. AVe can not recommend 
 making pets of these animals, but we do recommend farmers to learn the 
 important fact, that if they do him a little damage occasionally, they also do 
 him an incalculable amount of good. Generally speaking, there is not a 
 farmer in all the region inhabited by the Mephitis who could not well afford 
 to exchange dogs for skunks, and pay ten dollars each for the bargain. 
 Tiiero is one other thing that skunks are good for. As an article of food we 
 don't think there is any M'ild animal that makes a more dainty dish, and we 
 hold that we are tolerably well qualified to judge. A fat skunk, nicely 
 dressed and roasted, hung by a string before an old-fashioned wood fire 
 till beautifully browned, and then served upon a platter flanked with boiled 
 mealy potatoes, covered with the brown gravy made of the fat drip, is 
 beyond dispute " a dish fit to set before the king." 
 
 294-. Toads. — Although not among the quadrupeds, of which this chapter 
 treats, toads are among tlie friends of the farmer, and as such should have a 
 place in this connection. Every man who owns or cultivates a garden or 
 field, who knows anything about the natural history of the toad, will never 
 allow one to be destroyed. There is no animal more harmless, and few that 
 do the farmer more good than toads. Their whole food is of insects injuri- 
 ous to the farmer. The prejudice against "the ugly tilings" is a foolish one, 
 and should be done away with. We once had a toad in the garden which, 
 by some particular mark, was known to the children, who called it " father's 
 pet toad," because it really appeared as though it knew that we were its 
 friend and protector. Tliis toad came 3'ear after year to lend us its valuable 
 aid in exterminating the insect pests of the garden. We had another that 
 made the milk-room its summer home, where it was constantly engaged in 
 catching flies and bugs. Toads and bats should both be protected from harm, 
 and children taught to encourage them to come about the house. Bats are 
 great insect-eaters, and never visit the house of an evening for any other 
 
264 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 purpose tliaii catching insects for food. It is charged against them, that they 
 sustain bed-bugs as parasites. 
 
 295. Camels— Their latroduction into the Uuited States.— It is a great jump 
 from the back of a toad to that of a camel, but no:, so great as politicians 
 sometimes make. As we have to make the leap somewhere, it may as well 
 be done here as anywhere, and after a very short ride we will jump down 
 again upon the back of a goat. We have introduced camels, because we 
 want all, particularly the farmers' boys who read this book, to learn the 
 fact that camels have already been introduced into the United States, and 
 put to service as beasts of burden. The first imported were in 1857, we 
 believe, under the auspices of the general government, since which time 
 they have been in active government service, principally in Texas, and have 
 made one or more trips to the Pacific with army officers. 
 
 The Galveston jVews gives the following account of the strength of one 
 of the camels. It says : 
 
 "There were near a dozen on the wharf, of all ages. The camel loaded 
 was one of the largest. On the word of command being given, the camel 
 lay down, ready to receive his load, which consisted of five bales of hay, 
 weighing in the aggregate over 1,400 pounds, which was firmly bound to the 
 pannier placed upon the animal's hump. Upon the utterance of command 
 by the native keeper, the huge animal arose, without any apparent effort, to 
 his feet, and walked off in a stately manner along the wharf and through 
 the city. We were informed that the same camel had 1,600 pounds placed 
 npon him, with which enormous weight he arose. The aninuils arc all ex- 
 ceedingly tractable, and seem to possess much affection for any one who 
 treats them kindly, as an example of which Mrs. W. informs us that one of 
 them, a pretty white one, which she had petted, would always kiss her when 
 she was within kissing distance, which fact, we really thought, certainly 
 proved the animal to possess an excellent taste as well as an affectionate dis- 
 position. In thein native country tiie average load for a full-grown camel is 
 some 800 pounds, with which they perlbrm their long journeys over deserts, 
 with but little food or water." 
 
 It is to be hoped that camels will become one of the ordinary beasts of 
 burden in this country, where there are such vast arid plains, as in northern 
 Texas, New Mexico, western Kansas, and Utah, that no other animals can 
 traverse them. 
 
 It is stated that the Emperor of Brazil is about to introduce dromedaries 
 into that country. This animal can go long journeys without \vater, and 
 therefore will be found valuable upon some of the deserts and plains of that 
 country. A common load of an ordinary dromedary is 500 pounds. One 
 of the camels in Texas has carried two bales of cotton, of 500 pounds each. 
 One of the best kinds of dromedaries for riding can travel -400 miles with- 
 out stopping to eat, drink, or rest. 
 
 At the North, where horses, mules, and oxen are in such common use, we 
 do not think that camels will ever supersede them. 
 
Seo. 13.] WILD AND TAME ANIMALS OF THE FARM. 2o5 
 
 296. Goats.— lutroductiou of (he fashmtrfi Goats iato the United Statts.— 
 
 About the most unprotitablc of all variuues of fariu-s:ock is the common 
 goat. It is kuown in fcome parts of the country as the Irish goat, probably 
 because the people from Ireland iu this country, particularly in cities, keep 
 more goats than all the rest of the inhabitants. These are of all colors, as 
 much so as the common breed of horned cattle, and about t.he size of com- 
 mon sheep. The she-goats give a small quantity of milk, and the kids 
 afford some flesh food, at a small cost to the owners, as they forage their 
 living, and frequently do more mischief in a neighborhood or upon a farm 
 than their necks are worth. The hair of the common goat is worth nothing 
 for manufacturing purposes. It is quite the reverse with the Cashmere 
 goat. The fleece of this variety is eight times as valuable as tine wool ; and, 
 fortunately, it has been found that a cross upon the common goat, even in 
 the first progeny, produces a fleece about half as valuable as the full blood, 
 so that the breeding of goats in tliis country for the fleece is likely soon to 
 become quite common, and a profitable branch of husbandry, particularly 
 in some of the roughest districts of country. 
 
 To Dr. James B. Davis, of South Carolina, the country is indebted for the 
 introduction of the pute Cashmere goats, which are now to be found in 
 various parts of the United States ; and to Hon. Richard Peters, of Atlanta, 
 Ga., it is equally indebted for the interest he took at an early day in the 
 propagation of the original stock, which he purchased of Dr. Davis, Mr. 
 Peters, being a wealthy, public-spirited gentleman, spared no pains, even 
 when success was doubtful, in getting this breed established upon a firm 
 basis, and proving that its crosses upon the common breed would be profit- 
 able, as well as.upon several other varieties of fine-wooled goats. 
 
 We had the pleasui-e of an acquaintance with Dr. Davis and his stock at 
 Charleston, in 1849, shortly after his return from several years' residence at 
 Constantinople. Tie brought with him seven females and two males of the 
 Cashmere goats, besides several other curious specimens of the livestock of 
 the East. He stated his belief to be that the Cashmere, Persian, Angora, 
 and Circassian goats are all of one breed, and that they have been slightly 
 changed by locality, principally by altitude. These fine goats usually breed 
 two kids in the spring, and, unfortunately, where rapid propagation is an 
 object, the males preponderate. 
 
 The progeny of these goats is now to be found in all the States from New 
 York to Texas. In the latter State they have been established pretty exten- 
 sively. We saw a letter written by John P. McCall, at Austin, in August, 
 1860, which estimated that two hundred head, principally bucks, had been 
 introduced into Texas. 
 
 The demand for the fleece of Cashmere goats may be calculated from the 
 fact-that it is stated that 4,000 looms and 12,000 people are employed in the 
 city of Lyons, France, in the manufacture of the fleeces of Cashmere goats, and 
 that they are worth from four to eight dollars a pound. As soon as the supply 
 is large enough, we shall have manufactories in opei'ation in this country. 
 
266 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 Cashmere shawls -wei-e exhibited at the Crystal Palace, New York, valued 
 at one thousand dollars each. These were all made by the needle. Fabrics 
 made of Cashmere goat's fleece, it is supposed, will outwear those made of any 
 librons material 3'et discovered. 
 
 Tlie Thibet goat, one of which we saw at Dr. Davis's, differs from the 
 Cashmere materially. The outward appearance is that of a very coarse- 
 haired animal ; but there is an under-coat of long, white, silky wool, which 
 weighs about a pound when combed out. Dr. Davis thought this like the 
 Avild goat of the Rocky Mountains. Who knows if thdy are identical ? 
 
 Dr. Davis imported, also, the Scinde goat, which comes from Scinde, at 
 the mouth of the Indus. This was a remarkably large goat, with monstrous 
 pendulous ears. 
 
 A goat used in Malta is the best milker of the family. A good ewe gives 
 a gallon a day. Goats' milk, in all Eastern countries, particularly in mala- 
 rious districts, is considered more healthy than the milk of cows ; and some 
 learned physicians in this country declare that cows' milk, in malarious dis- 
 tricts, is the moving cause of many attacks of bilious fever. In this view of 
 tlie subject, it may be well to inquii-e whether it would not be to the advant- 
 age of the people, in a sanitar}' as well as pecuniary point of view, to intro- 
 duce the improved breeds of goats into all sections reputed subject to mala- 
 rious diseases. 
 
 297. Breeding Fish for Food on the Farm. — Wo do not feel willing to close 
 the chapter upon animals on the farm, without calling attention to the sub- 
 ject heading this paragraph. 
 
 Fish are tlie least costly food that man can obtain ; yet, owing to the 
 scarcity, the labor of taking them out of the water — which is all the expense 
 attending their production — has become so great, that fish are sold in our 
 market at nearly as high a price per pound as meat. Salmon are really 
 higher than choice cuts of either beef or mutton. And yet salmon can be 
 grown at very trifling expense. 
 
 We have long been producing oj'sters by artificial means, without which 
 our market could not be supplied ; and yet, with that fact before our eyes, 
 very few attempt to produce fish by an equally easy process. One fact of 
 importance, in proof of the benefit of simply protecting fish from being 
 taken in the spawning season, is the following: 
 
 " In the river Foyle, in the north of Ireland, by a steady perseverance in 
 a proper system of protection, the amount of salmon taken was raised from 
 an avei'age of 43 tuns annually, in 1823, to that of 300 tuns in 1842 ; while 
 in the small river of I^ewport, in the county of Mayo, in which the salmon 
 was formerly unprotected by law, and consequently taken at all periods of 
 the year, within three years after the introduction of parliamentary i-egula- 
 tious enforcing their protection during the breeding season, the annual take 
 was increased from half a tun of fish to eight tuns of salmon and three tuns 
 of white trout, with a certainty of a still higher increase. 
 
 " In view of the great augmentation in the price of all the articles of food 
 
Sec. 13.] DOMESTIC FISH-BREEDING. 267 
 
 and necessaries of life in tliis country, the small probability of any consider- 
 able reduction, and the actual s'liflbriugs of many of the laboring class from 
 want of sufficient food, it appears to me that this subject is worthy of the 
 closest consideration, aTid that any one who can suggest and effect the means 
 of furnisliing a new and ample ^supply of cheap, nutritious food, has some 
 small claim to be thought of as not an entirely useless member of the com- 
 munity." 
 
 There is a little book, published by the Appletons, that gives in detail all 
 the French plans for artificial fish-breeding, and any one who reads that 
 volume can go to work and stock his own -waters with any kind of fish he 
 desires. That our natural supply has failed, there is not a shadow of doubt, 
 and that it never will be replenished, except by artificial breeding, is equally 
 indisputable. That a re-stocking of our waters with fish, so as to make them 
 as plentiful as formerly, would prove one of the cheapest modes of lessening 
 the price of human food, is just as certain. 
 
 In the "West Indies, fish and turtle are constantly kept and stall-fed. At 
 free running they never become fat, any more than our land stock. The 
 ponds are constructed of stones, of irregular figure in wall, so as to retain 
 three or four feet of water at the lowest tides. The water of the rising tide 
 flows freely in. These ponds have a deck of plank over them, laid about two 
 inches apart, for admission of air and light. A hatchway in the middle of 
 the floor is opened to throw in their food, which usually consists of fry, or 
 small fish, taken by cast-nets in any required quantity. "When this is scat- 
 tered among them, the excessive eagerness of the fish is an interesting sight 
 — their bright eyes, fiae teeth, and sparkling colors showing beautifully, as 
 they leap out of water to catch the falling bait. 
 
 The housekeepers send for a suitable fish for dinner shortly before the time 
 to cook it. The person has a strong line and hook, with or without bait ; he 
 lets it down, and the fish rush toward it, and he must be expert to let it drop 
 to the mouth of the grouper, hamlet, snapper, white or blue band porgie, 
 etc., which he wants. Such a fish never appears on the tables of the North- 
 ern States, and yet every town on our sea-coast ought to have them. As it 
 is now, when the poor fisherman has caught more than he can sell, the over- 
 plus is a dead loss. 
 
 There is nothing more simple than the artificial breeding of fish. The 
 entire mystery consists in taking the female during her time, and by running 
 the thumb with a gentle steady pressure down her back, force out her ova 
 in ajar of pure fresh water. The male is then taketi in the same way, and 
 made to yield a few drops of the spermatic fluid in the same vessel, the two 
 are then stirred together for a few moments, and the contact of the fluid of 
 the male has the effect to vitalize the eggs at once. The eggs are then laid 
 down in shallow tanks with gravel bottoms, arranged in a series of steps so 
 that running water can continually pass over them. The whole trouble of 
 the breeder is then to keep the eggs free from any sediment or muddy deposit, 
 and in due time each egg becomes a fish. Tlius almost every egg in an 
 
268 SMALL ANIMALS AND INSECTS. [Chap. IL 
 
 innumerable ova can be turned to account for the benefit of man. Tliere 
 is, however, something to do after the eggs have become fish, and that is, to 
 confine them within certain limits by a dam, until the}' are old enough to be 
 able to take care of themselves, and make fight against the larger fish which 
 would eat them up. There are now tliBee or four establishments in the 
 country for the artificial breeding of fish, and we see no reason why every 
 lake and river may not be filled with life and food, and made to make an 
 ample return for all investments. 
 
 Tlie cultivation of fish in France and some other countries of Europe has 
 become as much of a trade as any other occupation, and the results in supply- 
 ing food and aftbrding a handsome recompense to the owner have been equal 
 to the most sanguine expectations. It is surprising that more attention is 
 not paid to it in this country Avhere the facilities are unsurpassed. Occasion- 
 ally an individual makes a trial, but little however has yet been done in this 
 line compared with what might be accomplished. A writer in a South 
 Carolina paper gives a description of a domestic fish-pond on the plantation 
 of Mr. Freeman Iloyt, Sumterville. Mr. Iloyt had a small stream of water 
 which ran through a low place in such a form as to enable liim, by a dam of 
 some 50 yards long, to construct a jiond of some 700 feet in length by 150 in 
 width, wiih a depth varying from the shores to 12 or 15 feet in the center. 
 This gave him a pond of over two and a half acres, M'here ho could raise 
 nothing. He deposited in the pond eight good-sized trout, and about 300,000 
 eggs, with a larger amount of smaller fish for the trout to feed upon, and in 
 one year the water was literally swarming with the finny trilies. His trout 
 one year old are some seven inches in length. The water running from the 
 dam passes through a sieve, so that the fish can not escape from the pond. 
 The necessary apparatus for cultivating, feeding, and taking care of the fisli 
 costs but a small sum, and the proceeds of the pond will be a source of much 
 pleasure and profit. And this is but one instance in thousands which miglit 
 with equal facility be turned into a source of revenue. 
 
 In many sections of the country numerous springs and streams abound, 
 confined within narrow valleys, that maybe converted into permanent ponds 
 and thus be made to yield a profit in fish far beyond the capacity of the 
 same area of the best of land devoted to the most profitable farm crops. 
 These streams when supplied with living springs may be converted into 
 nurseries of trout — the best of all fresh-water fish. The streams or ponds 
 more sluggish in their nature may be made equally productive in a supply 
 of still-water fish. This subject has been brought into extensive practice in 
 France and otlier portions of Europe, and more recently a number of suc- 
 cessful trials have been made in the United States to multiply domestic fishes, 
 which may be as much at the command of the owner as tlie fowls in his 
 barn-yard, afi^ording an equal luxury and at a much less cost. 
 
 Of artificial propagation of fish in Scotland and Ireland, a late number of 
 the Manchester (England) Guardian said : " As several reports have been 
 circulated in the newspapers to the eflfect that the attempt to propagate 
 
Sec. 13.] DOMESTIC FISU-BREEDING. 269 
 
 salmon by artificial means in Ireland and elsewhere had extensively failed, 
 we think it right to state that we have obtained some information from the 
 very best sources, which convinces ns that these reports are wholly unibnnded. 
 On the contrary, we are glad to say the success attending the first attempt 
 at propagation on an extensive scale in the country has surpassed our most 
 sanguine expectations. It is reported from Perth, where about 350,000 ova 
 are nearly hatched, that everything has progressed most satisfactorily ; the 
 whole of the ova, with a trifling exception, seem in a lively state. The only 
 difliculty appears to be that of providing sufiicient ponds for such a multitude 
 of fishes, when they are able to swim, as the feeding-ponds already provided 
 will not contain one tenth of them ; and such is the number, that there 
 appears no other way, after having hatched and protected them for twenty 
 weeks, but that of committing them to the river to take their chance. At 
 Galway about 260,000 ova are in a similar prosperous condition. Propagation 
 on a smaller scale has also been carried into effect on the rivers Tweed, Lou- 
 chard, the Foyle, Bush Mills, the Blackwatcr, the Moy, the Dee, near Chester, 
 and other places. By the use of spring water the spawn has been entirely 
 protected from injury by frost, during the past severe Avinter; and of 2,500 
 eggs which were sent from Galway to Basle, a distance of nearly 1,000 
 miles, M. Lex states that a considerable portion are good, and in a state likely 
 to live." 
 
 Robert L. Pell, of Ulster County, N. Y., has done a good deal to establish 
 fish-ponds upon his farm ; he says " that he is trying to grow the moss-bunker 
 for manure, and hopes for success in growing them, but thinks the use of 
 this fish the cause of disease in the districts where used. As many as 86,000 
 moss-bunkers have been taken in a seine at one haul upon our coast. Mr. 
 Pell also has in his ponds the black bass of the lakes — a fish that grows as 
 large as shad. Another fish from the lakes very much resembles the black 
 bass, and flourishes in artificial water. Both do well, and are easily caught 
 with a hook. The dace is a good fish for ponds, as he prefers still water. 
 The rock bass is a common flsh in Lake Cliamplain, and is much esteemed, 
 and can be cultivated without difliculty. The muscalonge, from the lakes, 
 is an excellent fish, and appears m-cU calculated for artificial water if pure. 
 This fish grows large, and somewhat resembles the pickerel or pike of the 
 lakes. Mr. Pell has the stickleback, that curious little fish that builds a nest 
 something like a bird. Haddock he has tried, but failed of success, not- 
 withstanding he salted the pond. The haddock is much inferior to the cod- 
 fish, although frequently salted and sold as cod. He also gave accounts of 
 experiments with several other varieties, and how to transport fish alive 
 safely. Mr. Pell thinks it is possible to stock all the streams in the country 
 with fish, and thereby increase the food of the people to a very great extent, 
 without any expense." 
 
 A writer in The Uomcstcad says : 
 
 " Three yeai's ago I constructed, in a ravine, a fish-pond covering a surface 
 of about tliree fourths of an acre. It is ftd by four small springs, and re- 
 
270 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 ceives a large amount of surface-water from the slopes around. It is fifteen 
 feet deep at the greatest depth, and has shallow bays and inlets, where the 
 small fish may breed and find jjrotection from larger ones. It contains a 
 small island, and the shoi'es are embellished with flags {Iris), water-lilies 
 {Nymphoe odoratd), and other water-plants. It was stocked with yellow 
 bass, Oswego bass, white perch, and every variety of sun-fish and minnows, 
 also a dozen gold-fish {Cyprinus auratus). And now, at the end of three 
 years, it is astonishing to note the vast increase in my scaly family. They 
 have multiplied by hundreds, and grown in size beyond all my calculations. 
 The gold-fish number several hundred, some of them over a foot in length, 
 and a few of them are beautifully marked with silvery sides and red fins, 
 head, and tail ; others with golden sides and black fins and tail. I had no 
 idea that they would thus sport in colors, but certainly they are very beauti- 
 ful. The other fish have grown so much that I intend to commence using 
 them for the table in autumn. I have not fed these fish, except for amuse- 
 ment and to tame them, when a few crumbs of bread are thrown in from a 
 small bridge connecting the island with the shore, and the fish called up like 
 chickens. The sun-fish, gold-fish, and smaller fry soon learned to come at 
 my call, and to follow me in great numbers, from one end of the bridge to 
 the other, for their morning or evening meal. 
 
 "The young bass (the old ones hold back) and the sun-fish dart to the 
 surface for their food, and have a lively scramble for it ; the gold-fish pick 
 up what sinks to the bottom. Their habits in this way are very much like a 
 flock of chickens, for some of the smaller fish take their position imme- 
 diately under my feet, to pick np the small crumbs that fall, in breaking the 
 larger ones to throw out. Some persons ring a small bell to bring their fish 
 up, but I prefer calling mine. They do not appear to come from a greater 
 distance than about forty feet to any one spot. I feed them in several places, 
 to note the varieties and their growth. Now, as to the utility of this pond, 
 it furnishes ice for my own use and three or four of my neighbors who have 
 ice-houses; it also afl'ords excellent stock water, and wnll doubtless hereafter 
 supply my table with fish. A small skiff on its surface gives many a pleas- 
 ant hour of recreation to the young who are fond of rowing. 
 
 " The construction of this pond was very simple. The earth was excavated 
 across the ravine four feet deep and five feet wide for a foundation ; then 
 stifl' clay filled in and well pounded, to prevent leakage at the bottom. The 
 earth from the bottom and sides of the ravine was thrown on the top of this 
 foundation, to raise the embankment to the proper hight. A waste weir at 
 one side, paved with flag-stones, and two feet lower than the top of the dam, 
 suthciently large to carry off the heaviest flow of water in very heavy rains, 
 guarded by a wire screen to prevent the escape of the fish, completed the 
 construction. It is now sodded over, and planted with willows at the foot, 
 and is considered safe. Tlie expense of making such a pond is small, and it 
 adds much to the value of a farm." 
 
 298. Trout Streams— Reasons for the Disappearance of Troutt — One of the 
 
Seo. 13.] DOMESTIC FISH-BREEDING. 271 
 
 very best authorities in the country — Geo. Dawson, a great lover of pisca- 
 torial sports — gives, in the Albany Ecening Journal., the following reasons 
 for the disappearance of trout from streams where they were abundant. 
 He says : 
 
 "Every one who has lived a score of years in the neighborhood of mountain 
 or spring brooks remembers when, in such and such a stream, trout were 
 abundant, where scarcely one is now ever taken. 'What has become of 
 them ?' is a question which every one has been asked, or has asked himself, 
 a thousand times. One says, ' They have been driven out by sawdust from 
 mills erected upon the stream.' Anotlier, who lives where tanneries have 
 been erected, thinks ' the tan bark has killed or disgusted them.' Another 
 says, ' Since the alders which used to border the creek have been cut down, 
 and the forest cleared away, they have sought greater solitude.' Others 
 say, 'They have gone because trout will not stay where there is a great deal 
 of passing to and fro, as tliere necessarily is in a thickly populated locality ;' 
 and others still insist that ' they have all been fished out.' Now, in my 
 opinion, not one of these reasons is real. Neither sawdust, nor tan bark, nor 
 clearings, nor dense population, nor excessive fishing, is the cause of depopu- 
 lation. Some of the very best trout streams that I know of are full of saw- 
 dust and tan bark. Tlie bottom of Caledonia Creek is not only a bed of 
 sawdust, but the creek lies in the midst of a dense poi)ulation, and has been 
 fished, night and day, for thirty years. Nevertheless, in its cold, crystal-like 
 water, trout are more plenty to-day, and more are taken, than ten years 
 since. I have been more than once surfeiled with success in a stream in 
 Canada where the sawdust was so thick that it formed a compact covering 
 upon its surface ; and every year I take trout from a little brook in Connecti- 
 cut which has been cleared and fished for almost a century. There are three 
 great causes for the depopulation of trout streams : First, the erection of 
 establishments upon them in which lime is largely used ; second, the intro- 
 duction into the streams of pike or pickerel, whose voracity is, sooner or 
 later, fatal to all competitors ; and thirdly, and principally, the gradual 
 change of the temperature of the water. Trout will not live long in water 
 which is not, at all seasons, of a temperature which may not, in comparison 
 with other -water, be characterized as cold. Other causes besides those I 
 have named sometimes operate; but, in ninety-nine cases out of a hundred, 
 the changed temperature of the water is the cause of the absence of trout 
 from streams where they were once abundant." 
 
 He does not give the reason of this change of temperature, but we do : it 
 is just the difference between a cool forest sliade and a broad expanse of hot 
 sunshine. "Where these mountain streams once were shaded from the first 
 gushing spring to their mouths at some large river, they are now exposed to 
 the full force of the noonday sun, until the water is heated to a degree as fatal 
 to the brook trout as ice would be to a tropical plant. The streams tliat still 
 retain trout are those which are so largely supplied with cold spring water 
 that the temperature is kept at a healthy point, notwithstanding the denuded 
 
272 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 state of the land. Sawdust has no more effect upon the fish than rotting 
 leaves and wood in the forest streams. The washing of cultivated fields, by 
 which the water is made impure, has more effect upon fish of all sorts than 
 sawdust, or, in our opinion, lime, in such quantities as i-esult from any manu- 
 facturing establishment. This fact must be kept always in view in establish- 
 ing artificial ponds for fish-breeding. Make them where the water will not 
 be roiled by every shower. 
 
 299. Eel Streams and Eel-Fishing. — In all parts of the country where eels 
 abound, they may be made an essential part of the food of the family in the 
 autumn months, if the streams are such as easily admit the construction of 
 weirs and placing traps or eel-pots. In some parts of the country the eel 
 business affords no mean item of income to farmers who have riparian rights, 
 the work not interfering materially with ordinary fiirm labor. 
 
 "We find the following interesting account of the eel fishery on the Susque- 
 hanna in the Lancaster (Penn.) Herald: 
 
 " About the middle of August the water of the stream becomes very low, 
 and usually by September that in the channel is only a few feet deep, leav- 
 ing the stony bottom, for a wide space on cither side, in some places nearly 
 bare, with occasional deeper furrows -which pass along it. At this stage of 
 water, the instinct which governs the fish to descend the rivci's previous to 
 the advent of cold weather becomes the means of their destruction. For 
 many miles of the river's length, therefore, north and south of us, the people 
 owning the shore adjoining erect their fish-dams and gins, by deepening the 
 channel somewhat, and building an elongated V-shaped wall, at the lower 
 point of which is fixed a box', from which the fish, when once caught, can 
 not extricate themselves. Obeying this instinct in their descent of the 
 stream, they find themselves borne pleasantly in this channel, and, wriggling 
 themselves cheerily, they let the current, pent in by the walls, carry them 
 along until they tumble plump into the box at the termination of the Y. 
 The fish taken in this manner are for the most part eels, of which almost 
 incredible quantities are captured during the fall season. Their 'run' only 
 takes place during the night. In daytime they remain quiet in the compar- 
 atively deep pools of the river. The work of catching them, however, is no 
 sinecure, not so much on account of the labor as of the wakefulness and ex- 
 posure which it involves. In some of the dark and showery nights of tl)e 
 season the game will come into the box so fast that the watcher, who is often 
 stationed there w-ith a boat, can scarcely remove them into it with sufficient 
 celerity. At other times there will be scarcely spoil enough in the boxes to 
 repay the trouble in watching them. It is only the larger apparatus and 
 dams, however, tliat are thus cared for, the smaller being rarely filled to 
 overflowing. Fishermen secure and salt down some five or ten barrels of 
 eels during the season, besides living entirely upon them during the catch. 
 The larger operators make the business pay, as a single man alone can 
 perform all the labor required in taking and salting the fish. "We have 
 seen various illustrations of digital dexterity, and also Ole Bull's manipu- 
 
Seo. 13.] DOMESTIC FISH-BREEDING. 273 
 
 lation of the violin, but could any rapid manipulator once behold the 
 marvelous rapidity with -vviiich some of the fishermen divest the eels of their 
 slippery epidermis or integuiiients, they would stand abashed, and, like the 
 sable individual in the song, 'Lay down the fiddle and the lioe' forever 
 afterward. We are at a loss to see how it is possible for any fish whatever 
 to descend to the mouth of the river, excepting it be a few belated ones, 
 who delaj' their return until a rise in the river gives them security from the 
 low-water traps. From Marietta to a point perhaps 100 miles up, excepting 
 in a few places, these eel-gins are so numerous that they must entirely empty 
 the river of eels, the run continuing constantly nntil frost, and the fishing 
 being terminated only, as we have already said, by the fiiU rains. When 
 these oecur, the boxes are taken up. The walls which remain under the 
 water are very seldom disturbed, and the next year, M'ith very little repairs, 
 are just as good as ever. The eels are packed in full-sized barrels, and many 
 are sent to Baltimore. Quantities are j^urchased by sea-going vessels, whose 
 skippers arc aware of the delicious flavor of this rather anomalous article 
 of provision." 
 
 The kind alluded to in this e.xtract is the "silver eel," which is also taken 
 all along the sea-coast by hooks and spears, and sold in great abundance m 
 all the city markets, at as high a price per pound as beef or mutton. 
 
 Now will farmers please to think that eels can be artificially bred as well 
 as any other fish, and that there are a great many streams and ponds, par- 
 ticularly in the West, where there are no eels, which might be made to fur- 
 nish a vast amount of food, as well for home use as for sale. 
 
 There is another kind of eels called lamprey, or lamper-eels, much esteemed 
 in some places. This kind have no gills, but have sucker mouths, and 
 breathing holes upon each side of the neck. Tliese are found sometimes in 
 great abundance in the streams of the Eastern States, in the spring of the 
 year, and are easily caught by hand, by wading the shallows of the stream, 
 where they are found clinging by their mouths to the rocks or large pebble 
 stones. 
 
 The silver eels are also caught by wading streams at night, with torches 
 and spears, during low water, after harvest. This used to be accounted 
 great sport for the boys, when we were counted one. Many a good meal 
 wo furnished the family, also, by sitting an hour or two of a summer even- 
 ing by the side of the mill-pond, with a hook baited with a small fish. This 
 we mention to encourage farmers to take steps toward re-stocking their 
 streams and ponds, as well as making artificial ones. 
 
 300. Ancient Fish-Breeding. — Lest our readers should suppose artificial 
 breeding of fish is a '• new-fangled notion," we state that it has been prac- 
 ticed in China many centuries ; and it is probably a century since the mat- 
 ter attracted attention in Germany. 
 
 In that country fish-breeding has now become an extensive and profitable 
 business. In Fi-ance, also, there are many estaldishments, in some of which 
 it has been demonstrated that salmon can be successfully bred in fresh- water 
 
274 SMALL ANIMALS AND INSECTS. [Chap. II. 
 
 ponds, from eggs obtained from salmon that come from the sea into fresh- 
 water streams to deposit their eggs at the spawning season, without allow- 
 ino- the fish ever to swim in sea-water. And these young fisli, it is found, 
 will reproduce their species. 
 
 If what we have written should incite any one to undertake to make arti- 
 ficial ponds, or stock the natural waters of his farm witli that kind of living 
 animals which will give him the cheapest animal food that can be produced, 
 he should first procure and carefully study the books already published upon 
 this question, and, if possible, visit those who have had experience, such as 
 Dr. Garlick, of Cleveland, Ohio, Robert L. Pell, of Ulster Co., N. Y., Messrs. 
 Treat & Son, Eastport, Maine, E. C. Kellogg, Hartford, Conn., and n.any 
 others. 
 
 As an article of diet, there is no mistaking the fact, gained by reading 
 and observation, that it is conducive to health, and particularly that those 
 who use fish as their principal food are exempt from scrofulous and tubercu- 
 lous diseases. This alone should prompt artificial breeding of fish in this 
 (xiuntry. 
 
PLATE XIIT. 
 
 (Page 275.) 
 
 This picture in its two parts is allegorical, though drawn from an 
 original. It is intended to teach. It should he studied with that 
 object. Then it will convey its own lesson. If the residence of 
 farmer Snug is most attractive, let every farmer strive to make his 
 so, and keep it in that order. If the residence of farmer Slack is 
 repulsive, let it bo a lesson to every farmer's son. 
 
 After looking at this picture, placed as a frontispiece to Chapter 
 III. — The Farmery — let him carefully read that chapter. It is full 
 of instruction. This picture is not designed as an index to the con- 
 tents of that chapter, but to tell its own story — a story of good and 
 bad management. As you read, you will see how such a residence 
 as this dilapidated one produces a debasing influence upon the minds 
 of children, and what inducements you have to beautify home. 
 
XIII 
 
 lll^ ■^ V'l« I"! \« b 1 ^ DM 1 \1 I 
 
CHAPTER III. 
 
 THE FARMERY, 
 
 DESCRIBING THE BUILDINGS, YARDS, WELLS, CISTERNS, AQUEDUCTS AND STRUC- 
 TURES NECESSARY FOR CAEEYING ON THE BUSINESS OF THE FARM. 
 
 SECTION XI V.-F ARM-HOUSES. 
 
 'X this section, the size, form and construction of 
 farm-lioixses, and adaptation to the purpose for wliich 
 icy are designed, will be treated,, and reasons given why 
 ley should be convenient, light, well-ventilated, airy in 
 nner, warm in Winter, and handsome, botli in the inte- 
 and exterior. Here, too, all who need the information, 
 be able to learn how to build their dwellings so as to 
 :e them, without great cost, all that we have indicated. 
 301. Influence of the Dwelling upon Character. — "I will 
 tell you the character of the man, if you will show me the 
 house ho lives in." This quotation embodies a volume of 
 truth, and the fact should be impressed upon the minds of all 
 farmers' children, as well those who live in such a house as 
 that of Farmer Tln-ifty, as those in the tumble-down mansion 
 of Farmer Slack. If they were boru in one like the former, it is to be hoped 
 that they received influences at the breast, that will always keep them out 
 of one like the latter. If they were so unfortunate as to belong to the nume- 
 rous family ofjSlacks, let it be impressed upon their minds that the character 
 of a man is known by the appearance of the house he lives in. None but a 
 " Slack farmer " ever lived through a lifetime in such a miserable dwelling 
 place as some of our American farm-houses. 
 
 Tliere is a debasing influence about a mean house upon the minds of 
 children ; while a good one, that has many points of beauty about it, makes 
 them not only love to call it " home," but it always has an influence upon 
 their minds to attract them away from places that might injuriously afiect 
 their morals, for it is a lv)me that they love. Such a home also attracts 
 proper associates for- your Vbildren, to come and spend a pleasant winter 
 evening, or a leisure day, '^ under the parental influence, and will make 
 them good men and women ; and all because you provided for your family 
 such a home as all American farmers' families should enjoy. 
 
 302. Inducements to Beautify Home. — One of the strongest and one of the 
 most common inducements for the sons and daughters of farmers to leave the 
 country for a city life, is the neglect of parents to beautify home, and teach 
 
276 THE FAEMERY. [Chap. III. 
 
 eliildren to love it because everything around it is more cheerful, more beau- 
 tiful, more pleasant, more enticing tliau any other spot known to them. 
 Instead of this, it is certainly true that a very large portion of our farm- 
 houses are, in almost every resjjeet, exactly such places as children of intclli- 
 '■■enee, who chance to see or read of the attractions of other places, are most 
 anxious to leave. To prevent the exodus of your children, the moment they 
 o-et old enough to have ideas of their own, let it be one of the life studies of 
 every parent to make the children sensible that their homo is equal, if not 
 superior, in all that serves to make life worth living for, to that of any other 
 family in the same station of life. If your house is small, it is all the more 
 easily painted, and made to wear an attractive outward appearance, and it is 
 no good reason, because it is small, that its interior should be most incon- 
 venient, uncomfortable and unattractive. Study to make your house such 
 in every respect that your visitors Avill say, " What a lovely place," and you 
 will make your children contented and yourself happy, and all will exclaim, 
 " There is no place like home." 
 
 •' More tban building showy mansion, ' 
 
 More tlian dress or fine array, 
 . More than domes or lofty steeples, 
 
 More than station, power and sway, 
 Make your home both neat and tasteful, 
 
 Bright and pleasant, always fair, 
 
 Where each heart shall rest contented, 
 
 Grateful for each beauty there." 
 
 Is there any one thought likely to be called up in after years so pleasing as 
 the reminiscences of a happy childliood's home, when, like the frcslmess of a 
 sunny May morning, we can call up the panorama of the wrens chirping on 
 the peach trees under our windows, and the call of robiu redbreast to his 
 mate in the orchard, Avhere the lambs are playing bopeep around the trees? 
 Then there is the garden with its Spring and early Summer beaiities, the 
 breakfast table covered with a snowy cloth, and garnished M'ith clean white 
 ware, and provided with such bread and butter — ornamented, perhaps, 
 with a fragrant bouquet, with the dew still glistening among the leaves, 
 just gathered by a lovely sister, with a thousand other nameless attractions 
 that will float before the mind's eye, to remind it of the pleasures of home. 
 
 We look upon a love of home as one of the virtues, that, as a people, the 
 American farmers are entirely too much neglecting. In fact, a dislike of 
 home is much more common than the contrary, and an old homestead is 
 parted from with as little reluctance as an old shoe, and very often for the 
 same reason — because it is down at the heel. 
 
 " Seek to make your home most lovely, 
 Home should be a smiling spot ; 
 Such a home makes man the better 
 In lofty mansion or a cot." 
 
 As one of the easy means of beautifying your house, make it light ; 
 "misery dwelleth in darkness." 
 
Sec. 14.] FARM-HOUSES. 277 
 
 303. Reasons why a Dwelling should be Light.— There is a mania for dark 
 rooms. People do not appear to be aware of tlie fact, that dark rooms are 
 deleterious to health. Hear what Florence Nightingale says upon this sub- 
 ject : 
 
 " A dark house is almost always an unhealthy house, always an ill-aired 
 house, always a dirty house. "Want of light stops growth, and promotes 
 scrofula, rickets, etc., among the children. Peoijle lose their health in a 
 dark house, and if they get ill, they cannot get well again in it. Three, out 
 of many ' negligences and ignorances ' in managing the health of houses 
 generally, I will here mention as specimens. First, that the female in 
 charge of any building does not think it necessary to visit every hole and 
 corner of it every day. How can she expect those who are under her to be 
 more careful to maintain her house in a healthy condition tlian she who is 
 in charge of it? Second, that it is not considered essential to air, to snn, 
 and to clean rooms while uninhabited ; which is simply ignoring the first 
 elementary notion of sanitary things, and laying the ground ready for all 
 kinds of disease. Third, that the window, and one window is considered 
 enough to air a room. Don't imagine that if you are in charge, and don't 
 look to all these things yourself, those under you will be more careful than 
 you are. It appears as if the part of the mistress was to complain of her 
 servants, and to accept their excuse — not to show them how there need be 
 neither complaints nor excuses." 
 
 "We beg of all who build houses, as well as those who keep them, to 
 become aware of the fact, that there is a generous abundance of sunlight in 
 the country, yet the observer is often convinced that a majority of country 
 houses are but scantily provided with this first requisite of health and 
 comfort. 
 
 In reference to admitting light freely into our houses, the words of a writer 
 on the subject are pertinent. He says : " From several years' observations 
 in rooms of various sizes, used as manufacturing rooms, aud occupied by 
 females for twelve hours each day, I found that the workers who occupied 
 those rooms which had large windows, with large panes of glass, in the four 
 sides of the room, so that the rays of the run penetrated through the whole 
 room during the whole day, were much more healthy than those who occu- 
 pied rooms lighted from one side only, or rooms lighted through very small 
 panes of glass." Notwithstanding the cheapness and facility with which 
 glass can be obtained, there is a deficiency of windows even in what is 
 usually considered the better class of American dwellings. Sitting rooms, 
 cheerless enough in having one or two small windows, almost extinguished 
 beneath heavy drapeiy of paper and cloth, are exceedingly common. Foi- 
 ordinary rooms, white cotton cloth fastened on rollers, as paper is usually 
 hung for window shades, is suflicient for the purpose of screen — admitting 
 at the same time a difi"used and softened light. 
 
 Dark colors upon the walls, absorbing more or less of the prismatic rays, 
 are also unfavorable in their eflfects. The writer just quoted found that in 
 
278 THE FARMERY. [Chap. Ill 
 
 rooms of equal ventilation, lii^lit and drainage, some of whicli had white 
 walls, and others yellow or hnfi'-colored, the occui>iei-s were not equally 
 cheerful and healthy. Tlie workers in rooms with colored walls were all 
 inclined to melancholy, and complained of pains in the forehead and eyes, 
 and were often ill and unable to work. By having tlie color removed and 
 replaced by whitewasli, uniform health and cheerfulness were ever after 
 secured. In architecture, a course of progress is distinctly marked from the 
 cave, the wigwam and hut of the savage, who rudely supplies his few M'ants ; 
 from the tent and mosque of tlie Arab ; from tlie cots beneath the castle and 
 beside the palace ; from tlie negro quarters to the mansion-house ; and we 
 wish we could say, progressing ujiward to comfortable, light, cheerful, ele- 
 gant homes for every American farmer. 
 
 Let them learn that they cannot live rightly in dark dwellings. The 
 mother who, in the fulfillment of her office, preeminently receives and 
 appropriates from all the life sustaining elements, suifers a twofold wrong, in 
 the injury to herself and offspring, by dwelling in darksome apartments; and 
 childhood in such homes is pale and puny — often worse — is squalid and most 
 pitiably diseased. Tlie predominance of the chemical rays in Spring-time 
 is undoubtedly one of the adaptations of this season to the young of animals 
 which then begin their existence, and it also exerts a decided influence upon 
 our own physical health. The invalid desires the return of Spring, for he 
 instinctively feels that nature without will then come to the aid of nature 
 within ; and who, after the cold and lifeless Winter, does not love to seek the 
 wind-sheltered nook, there to drink in the warm sunlight, and to receive upon 
 the brow its life-giving blessing? Who has not felt the glorious influence of 
 "bathing in the sunshine?'' Then, we conjure you, let the sunshine into 
 your house, and do not be afraid of letting in the air, day or night. 
 
 An extraordinary fallacy is the dread of night air. What but night air 
 can we breathe at night? The choice is between pure night air from 
 without and foul night air from within. Most people prefer the latter. An 
 unaccountable choice. What will they say, if it is proved to be true, that 
 fully one-ha,lf of all the disease we suffer from, is occasioned by people 
 sleeping with their windows shut ? An open window, most nights in the 
 year, can never hurt any one. In sickness, air and light are both necessary 
 for recovery. In great cities, niglit air is often the best and purest air to be 
 had in the twenty-four hours. I could better understand shutting the 
 windows in towns, during the day, than during the night, for the sake of the 
 sick. The absence of smoke, the quiet, all tend to make night the best time 
 for airing the patient. One of our liighest medical authorities on consump- 
 tion and climate, has declared that the air in London is never so good as after 
 ten o'clock at night. Always air your room, then, from the outside air, if 
 possible. Windows are made to open, doors are made to shut — a truth 
 which seems extremely difficult of application. 
 
 304. The Locatiou of a Farm-hOJise. — Adaptability is the word that farm- 
 ers should study, above all others, when about to build a house. It is the 
 
Sec. 14.] FARM-HOUSES. 279 
 
 W(jrd that they study least, if we may judge from what may be seen in a 
 majority of the farm-houses Avhere we liave travelled — that is, from Quebec 
 to New Orleans, and from Florida to Mackinaw. Everywhere is seen the 
 lack of adaptability to tlie purpose, either in size, form or location. Not one 
 farm house in tei] is located upon the farm as well as it could have been. In 
 all the eastern, western and northern States, the farmery is found, nine times 
 out of ten, upon some public road, without reference to the convenience of 
 farming operations ; and frequently, in all respects, is very inconvenient. 
 
 The location of the farm-house, and the arrangement of all the buildings 
 connected with the farmery, require the exercise of good judgment, fine 
 taste, carefully exercised skill, all combined, more than any other single 
 operation of a whole lifetime, because it is not only for the lifetime of the 
 builder, but succeeding generations. 
 
 In the first place, the top of the hill, or highest point of a hilly farm, never 
 should be selected for the dwelling of the farmer; such a site is only fit for 
 the residence of the lord of the manor, who intends to carry on farming by 
 a tenant, or hired farmer, who will occupy the house of the farmery proper. 
 His residence is not the farm-house ; it is the mansion of the proprietor, 
 and may be built to suit the owner's taste, if he has any. Our remarks are 
 intended to apply to farm-houses — the dwellings of that numerous class in 
 America who own the soil they till, jjartly with their own hands, and partly 
 with those of hirelings. 
 
 305. Size au<! Form of a Farm-hoiisei — It is not size that makes a dwell- 
 ing-house attractive, beautiful, or convenient. It is adajitability to the 
 purpose for which it was designed. Indeed, a house often has an unpleasant 
 appearance on account of its size, because it gives the mind an impression 
 that it is rtnnecessarily large for the purpose for which it is designed. 
 
 It is necessary that some farm-houses shoidd be large — that is, atford a 
 great deal of room ; but they never should appear large, for if they do they 
 almost inevitably appear uncouth. 
 
 Make just as much of the room as possible, on the same level. A farm- 
 house with twelve rooms, should have eight of them on the lower floor. 
 Never have a basement kitchen. 
 
 No woman, during the years of child-bearing, who docs much of her own 
 work, or oversees it when done by servants, should be compelled to go up 
 and down stairs every hour of the day. Her sitting, or family-room, bed- 
 room, dining-room, kitchen, wash-room, wood-room, well and cistern, should 
 all be on the same level, or with a valuation of not more than two or three 
 steps. You cannot be a good man if you compel your wife to run up and 
 down stairs to do her every-day housework. You are not a good man, nor a 
 'man of taste and good judgment, if jou build your house unnecessarily large, 
 because it will cause your wife many weary, extra steps to keep it tidj' and 
 always swept and garnished as you should be proud to have it appear to 
 strangers. You are unworthy the name ot man if you keep your wife toil- 
 ing in a house entirely too small for the necessities of jolfir family, or in one 
 
280 THE FARMERY. [Chap. III. 
 
 wretclieclly ill-adapted to their wants, one single year after you are able to 
 provide a better one. 
 
 306. What coustitutes a convenient Farm-house. — We can only speak in 
 general terms of the jilans of farm-houses, because every plan is modified by 
 location and the wants of the proprietor ; but we can give an opinion that 
 Avill be some guide to the new beginner in farm life, or one about to construct 
 a farm-house. 
 
 We will suppose a farm of one or two luindred acres, and a family of four 
 adults and four children, besides the necessary hirelings, which in most of 
 the Northern States, are domiciled in the family dwelling. It should, there- 
 fore, have a family-room located in the most pleasant part of the house, 
 where the evenings, and all other leisure hours, are, or should be, spent; 
 where the young mother devotes many days and nights of toil to her 
 children ; where all the family feel " at home," more than in any other 
 room. 
 
 Adjoining this room there should be a large family bed-room, with conve- 
 niences for warming it, so that it can be used as a sick-room when necessary. 
 There should also be a parlor, or spare-room ; for it is not always desirable 
 to introduce company into the family-room. There should be a dining-room, 
 large enough not only to accommodate the family, but, if necessary, a dozen 
 guests. This room should be so arranged that upon occasion, particularly in 
 Winter, it can be used for a part of the cooking. This would often save the 
 necessity of kindling a fire in the kitchen in a cold Winter morning, to get 
 an early breakfast. Tlie farm-house kitchen, where so much of woman's 
 work must be done, should be a large, cheerful, light apartment, with all the 
 conveniences that modern ingenuity has made to focilitate labor. It should 
 also, above all other considerations, be so ventilated that there would be no 
 necessity for opening a door or window to let out the smoke of a broiling 
 steak, or that of the buckwheat cake griddle. The best cooking apparatus is 
 a good range, permanently set in the chimney. One of suitable size for such 
 a family as we have indicated, will cost about thirty dollars without cook- 
 ing utensils. The two ovens of a range obviate the necessity of a brick oven 
 in the kitchen chimney. It will be convenient to have such an oven in the 
 wash-room, which should be attached to every farm-house kitchen. This 
 should have an open fire-place, a kettle set in an arch, a brick floor, a large 
 sink, and a pump which draws soft water from the well or cistern. Divided 
 off from this wash-room, there should be a large store-room, for such coarse 
 things as barrels of flo\ir, fruit, fresh meat, and articles of kitchen furniture 
 not in evcry-day use. Beyond the wash-room, there should be a rooni for 
 fuel ; and the best of all, when it can be had at a moderate cost, is anthracite 
 coal. Opening out of the kitchen there should be a jJantry, lai'ge enough"' 
 and with conveniences to store all the groceries and food in every-day use. 
 In this, or some other convenient place, be sure to have a refrigerator; and 
 adjoining the kitchen, there should be a milk and butter room, where nothing 
 else is ever kept. If cheese is made, it must have a separate room. Butter 
 
Sec. U.] farm-houses. 281 
 
 and cheese must not be stored togetlier. The way to the ceUar should open 
 out of the kitchen. "We do not advocate hxrge cellars under the house, 
 because they are apt to become the storehouses of a vast amount of stuff tha 
 would be more fittingly stored in some out-building, or an out-cellar. Cellars 
 are generally ke^^t in a way that seriously endangers the health of the family. 
 If the house is set as it should be, well up from the ground, and ventilated 
 under the floor, it is better calculated to promote health than a cellar. 
 If the nature of the soil is very dry, the space under the wash-room may 
 be used for a store-room, or even milk-room, properly ventilated. Every 
 kitchen should have one or more closets, upon the shelves of which the many 
 little things can be kept, each in its place, and all in order. In the dining- 
 room there should be two closets : one for dishes in cvery-day use, and one 
 in which anything not always, but occasionally, wanted upon the table, and 
 anything desirable to be locked up, can be safely stored. 
 
 There should be a large closet for the use of the sitting-room ; and there 
 must be such a one in the family bed-room. In fact, this should be a double 
 room, a smaller one attached to the larger for the small children ; and this 
 should have its closet, or clothes-press, that children might be early taught to 
 piit every article of clothing in its proper place. 
 
 The larger children, and other adults, should have large, airy bed-rooms 
 up stairs ; and no farm-house will be complete without two, at least, " spare 
 bed-rooms." 
 
 307. How to Build a Convenient House. — A pleasant-looking, unostenta- 
 tious farm-house, to contain the rooms indicated, may be of the following 
 dimensions. A two-story portion, 34 by 24: feet, would give half of the 
 parlor 16 by IG feet, and a spare bed-room 10 by 10 feet, and a hall 6 by IG 
 feet ; a stairway 3^ by 10 feet ; a space for pantry, or closets, 2J- by 10 feet ; 
 a family, or sitting-room, 13 by 18 feet, and two bed-rooms, 10 by 11 and 
 
 5 by 11 feet. This building may be roofed to pitch either way. The other 
 half of the parlor, not comprised in this space, is to be gained by an attach- 
 ment, 8 by 16 feet, one story high, attached to that side to balance the 
 piazza, giving the house more of a cottage look, as well as being less expen- 
 sive, and making better rooms on the second floor. 
 
 Attached to the main building, a wing or L part, a story and a half high, 
 will give a dining-room 12 by 18 feet, a kitchen 10 by 18 feet, a wash-room 
 12 by 12 feet, a store-room 6 by 12 feet, a pantry 6 by 8 feet, a railk-room 
 
 6 by 6 feet, and passage and stairway to the half story, which will make good 
 lodging-rooms for hirelings. 
 
 The fuel-room may be a separate building, and although used for such a 
 purpose, may be made with a finish to correspond with the house, and set 
 forward flush with the piazza, which is to extend along the front of this Aving, 
 and will form a good termination to the walk, besides being convenient and 
 a]iproachable from all parts of the house under cover. This piazza, which is 
 6 by 46 feet, and one 8 by 16 feet adjoining, should, if possible, have a south- 
 eastern exposure, which will make it pleasant to all the rooms most used. 
 
282 THE FAKMERY. [Chap. HI. 
 
 We do not give tliis as a superlatively excellent plan of a farm-house 
 but one that would be convenient, comfortable, inexpensive, and capable of 
 being erected in two or three parts, if necessary, at different periods, and 
 upon the clieap plan described in JTo. 350. 
 
 The advantage that we claim for this over some other plans is, that if 
 built in parts, at different periods, according to the circumstances of the 
 proprietor, each portion may be made to appear, and serve the purpose of, a 
 complete house. Thus, the part 24 by 3i feet, with the little wings, one 
 forming half the parlor, and the other the piazza, will be a neat looking 
 liouse, and a comfortable one for a small family ; using the sitting-room as a 
 kitchen, and one bed-room as a pantry. Then the dining-room, kitchen, 
 wash-room, etc., might be added, one at a time, as ability or necessity 
 prompts. Or, the part containing the kitchen, could be built first, and 
 would make a tolerable house by itself. 
 
 Another advantage of the plan is, that the rooms are all light and airy ; 
 every room, except one small bedroom, has windows upon two or more sides, 
 and the whole house will appear to every passer-by, as though built for use, 
 rather than show. It is a great convenience to have a house so constructed 
 that strangers can find some other than the front door entrance. 
 
 The space in front of the piazza should be a plat of shrubbery, Avhich 
 would form a partial screen, and in front of that the flower garden. There 
 may be a door out of the dining-room into a garden upon that side. 
 
 In arranging the plan of this house, the object has been to place the least 
 used rooms in tlie house, the parlor and spare bed-rooms, upon the riglit and 
 left-hand side of the hall, as you enter the front door from the portico. At 
 the other end of the hall is the family room, and large and small bed-room. 
 The stairway is situated, not for show in the hall, but convenient to all parts 
 of the house, nmning iip at a right angle from the hall, between the sitting- 
 room and spare bed-rooui. Tlie sitting-room is situated in the centre of the 
 house, convenient to all the rooms, warm in Aviuter, airy in summer, and 
 easy of approach. If the ground suits, yon may drop the L floor two feet 
 below the main part, and set projecting beyond that part six feet, it allows a 
 window there, and breaks the force of the wind upon that end of the sitting- 
 room, and also gives room at the other end for a window and glass door out 
 upon the large piazza. The common entrance to the house will be upon that 
 piazza, and from that into the sitting-room, dining-room, or kitchen. 
 
 Tliere was a plan, published by G. C. House, of Lowville, N. Y., in the 
 Country Gentleman, so novel in its form, and apparently so convenient, 
 that we consider it worthy a notice in this connection. The following is 
 what he says of his plan. 
 
 " In the plan submitted, we flatter ourselves that some improvements 
 have been reached, when we take into consideration convenience, space, 
 accessibility, the ease with which the hot air passages from the furnace can 
 be ari'anged for so many rooms, all within a few feet of the body of the fur- 
 nace ; and each door within a few steps of tlie main stair-case. From the 
 
Sec. 14.] FARM-HOUSES. 283 
 
 peculiar form the centre of the house is at once reached on entering the front 
 door. The second story is quite similar to the first, closets occujiying the 
 spaces over the library and pautiy, and a fine balcony over the veranda, 
 reached through glass doors. 
 
 " To meet the full requirements -which were had in view, in this arrange- 
 ment, a site should be selected having a southern or eastern exposure if in 
 the country, and the building set with botli full fronts to the street, so that 
 the veranda or front door will have a direct front aspect. If, however, the 
 location be in city or village, it would be desirable to procure a lot having 
 two fronts, if possible looking easterly and southerly, and place the building 
 with a front to each road, the front door looking toward the angle of the 
 street." 
 
 308. Veutilation of DwellingS> — In whatever form, or upon whatever plan 
 you build, do not forget the necessity of ventilation. Our dwellings are often 
 I charnel houses. Tlie very first necessity of every human being — pure air — 
 is rarely regarded in their construction. The air actually inhaled steals in 
 at crevices and crannies, felon-like, because it cannot be shut out. Only the 
 defects of our architecture prevent our dying of a vitiated, poisoned, mephitic 
 atmosphere, from which the vital element has been exhausted. Most men, 
 including architects, seem ignorant of the fiict that the atmosphere is a com- 
 bination of different gases, only one of which is wholesome and life-giving, 
 and that this is consumed in the lungs upon inhalation, leaving the residue 
 to be expelled as a poison. Tlie clmrch, lecture-room or other structure, 
 with doors and windows closed, with no provision for ventilation, soon 
 becomes a slaughter-pen, and ought to be closed by the public authorities. 
 
 Our manufactories and school-houses are nearly all disgraceful to their 
 owners and architects in regard to ventilation. They are often divided into 
 rooms less than ten feet high, each thickly stowed with human beings, who 
 breathe and work and sweat in an atmosphere overheated and filled with 
 grease, wool or cotton waste, leatlier or cloth, and the poisonous refuse 
 expelled from human lungs, which together are enough to incite a plague, 
 and are, in fact, the primary cause of nearly all the fevers, dysenteries, con- 
 sumptions, etc., by which so many graves are peopled. oSTo factory should 
 be permitted to commence operations, nor school opened, xintil it shall 
 have been suspected by some competent public ofiicer, and certified to hv 
 thoroughly provided with ventilators — not windows, which ma^ be opened, 
 but in a cold or stormy day very certainly will not be — ^but apertures for 
 the ingress of fresh air, and others for the egress of vitiated air, both out of 
 the reach of ignorance and defying the eftorts of confirmed depravity of the 
 senses to close them. 
 
 Our bed-rooms are generally fit only to die in. The best are those of a few 
 of the intelligent and affluent, which are carefully ventilated ; next to these 
 come those of the cabins and rudest farm-houses, with an inch or two of 
 vacancy between the chimney and the roof, and with cracks on every side, 
 through which the stars may be seen. The ceiled and plastered bed-rooms. 
 
281 THE FARMERY. [Chap. III. 
 
 ■wliere too many of the middle class are lodged, with no apertures for the 
 ingress or egress of air but the door and windows, are horrible. Nine-tenths 
 of their occupants rarely- open a window unless compelled by excessive heat, 
 and very few are careful even to leave the door ajar. To sleep in a tight 
 six-by-ten bed-room, with no aperture admitting air, is to court the ravages 
 of pestilence and speedy death. 
 
 Our railroad cars and steamboat berths are atrociously devoid of ventila- 
 tion. A journey is taken with far less fatigue, and more expeditiously now 
 than it was thirty years ago, but with far greater risk and harm to health. 
 There are probably ten thousand passenger cars now running in the United 
 States, whereof not more than one hundred are decently supplied with fresh 
 air. Most of these, wliereiu forty or fifty persons are expected to sit all day 
 and dose all night, ought to be indicted as nuisances — they are lit only for 
 coffins. Tlie men who make them probably know no better ; but those who 
 buy and run them have not even that poor excuse. They know that they are 
 undermining constitutions and destroying lives ; they know that ample means 
 of arresting these frightful avocs are at command ; yet they will not adopt 
 them because they cost something. 
 
 If people only knew how many thousands of lives are annually sacrificing, 
 how many hundreds of thousands are now suffering from fevers and other 
 maladies which have their origin in the inhaling of noxious air, the excite- 
 ment and alarm on this subject would work a revolution in our style of 
 building. 
 
 Wlien we lived in old-style houses, with large open fire-places, like the one 
 mentioned in the next paragraph, there was no need of being careful to build 
 air-passages in the walls of the house for ventilatios, for the " fire-place, big 
 enough to roast an ox," gave the most complete kind of ventilation. 
 
 It is of the \itmost importance, particularly in malarious districts, that 
 houses should be so constructed that a free circulation of air can be had 
 through all tlie rooms. In the j^lan described in 305 this fact has been kept 
 in view. "Witli slight modifications, the plan will answer for a house either 
 at the north or the south. At tlie south the rooms would lie made larger, and 
 the fuel-room would probably be substituted for the kitclien. Frequently, 
 the kitchen of a planter's house is placed several rods distant, without any 
 covered way between. 
 
 309. An 01«1-Stjie Farm-house Kitchen in New England.— A picture of 
 one of these scenes of comfort has lately fallen under my observation. 
 AVhat can be more cheerful and pleasant than the view of a farmer's kitchen, 
 taken during the evening meal of a cold Autumn day ? It is a jiicture of tlie 
 calm happiness of rural life. 
 
 The kitchen of the old-style farm-house of N"ew England is not the scullery, 
 or mere cooking-place of some modern house — a dirty liole or comfortless 
 out-room or sort of human bake-oven, where the cook is almost as much 
 cooked as the food. No, it is a room perhaps 24 feet long and 16 wide, well 
 lighted, warm, neat, and every-way comfortable. Upon one side there is a 
 
Seo. 14.] FARM-HOUSES. 285 
 
 fire-place large enough to roast a whole ox, in which a great fire of logs sends 
 up a cheerful blaze, lighting up the whole room so its brightness might be 
 seen through its great uncurtained windows, like a beacon light to the 
 traveller as he comes down the slope of yonder hill two miles away, and 
 makes him involuntarily thank God, in anticipation, for the good things 
 spread out upon the great table standing between the window and the fire. 
 
 Let us take note of the old-fashioned meal. At the head of the table sits 
 a matron of some sixty summers— though in appearance there is nothing of 
 the winter of old age about her. Her dress is a gown of home-spun worsted, 
 well fortified with flannels from the same manufactory, that bid defiance to 
 the Autunui winds of a rigorous climate. The small, neat cap of white gauze, 
 and the shoes and stockings of this woman, were made in pursuance of the 
 best medical recipe ever written : " Keep the head cool, and the feet dry and 
 warm ;" for the stockings arc the product of busy fingers at moments idle 
 with many housewives, and tlie shoes of stout leather were made for service, 
 and the cap is a mere ornament — a snow-wreath among raven locks — and 
 her face is the indication of licaMi and ha]ipiness. 
 
 Upon her right hand sits the farmer, dressed in a butternut-colored coat, 
 blue pants, buft' vest, white linen shirt — every article home made — stout 
 boots and black silk cravat — for he has been to town, and this is his holiday 
 suit. Below him sit Jedediah, Ebenezer, Abram, and Solomon, all economi- 
 cal names, for they can be sliortened in common use to Jed, Eb, Ab, and Sol. 
 Two of these wear the check woollen winter frocks of New England farmers 
 — the others are in round jackets; they are schoolboys. Upon the left sit 
 Mary, Adeline, and Mehitable, pictures of real beauty and health. The 
 eldest is "dressed up;" ^he has been to town with her father; she has a 
 gown of "boughten stuflT;" around her neck is a bow of colored lamb's wool, 
 knitted by her own hands, fastened in the throat by grandmother's silver 
 brooch. The other two are in check woolen, wliich was spun, woven, and 
 colored, and made ujd under the same roof. 
 
 Further down the table arc three athletic young men, day laborers on the 
 farm — sons of neighboring farmers — -one of whom is eyeing the charms of 
 sweet Mary with an expression easily read by a good physiognomist. The 
 group is completed by the schoolmaster, a young jnan with a glowing eye 
 wliich speaks of intellect that will tell upon the world some day with as 
 much force as though he had not been obliged to obtain his education by 
 summer labor and winter teaching. He is one of New England's rising 
 sons. 
 
 The meal is for men who toil. At one end of the table stands a pot, of 
 ample dimensions, smoking from the oven flanking the fire-place, of the most 
 excellent of New England cookeries, " a disli of baked beans," crowned with 
 a great square piece of salt fat pork, crisped and rich. Lower down a bi'oad 
 pewter platter holds the remains of the " boiled victuals" that formed the 
 dinner — beef, pork, potatoes, cabbage, beets and turnips — a pile that miglit 
 rival a small hay-cock in size and shape — a plate of rye and indian bread. 
 
THE FARMERY. [Chap. III. 
 
 cold, and another made of rye flour are untouched, for a great loaf, just 
 drawn from the oven, nicely browned and hot, is offered in great broken 
 pieces to temjJt the ajipetite to one of the richest repasts ever given to an 
 epicure. By the side of the old lady stands a black earthcrn teapot, the 
 contents of which are freely offered, but only accepted by two of the men. 
 as the rich new milk, or the hearty old cider is j^referred as a beverage, 
 morning, noon and night, by those old-fashioned, hearty laborers. We 
 must not forget the never-failing accompaniment of the evening meal at 
 this season of the year in New England, for it is New England's proudest 
 dish, the golden pumpkin, sweetest pie. 
 
 God being thanked for his great bounties after the close of the happy meal, 
 all are drawn into a circle around the great fire-place. Father is finishing off 
 an axeholve ; Jed is mending a pair of boots ; and one of the hired 'men, 
 iTpon the other side of the same bench, is repairing a wagon harness — both 
 using the same tools. The other two are employed, one shelling corn and 
 the other helping Mary to peel pumpkins, which are cut in slices and hung 
 upon poles overhead. This is Mary's accepted lover. Happy hearts and 
 blessed industry ! Ab and Sol are engaged with the schoolmaster around the 
 big table, lighted by a home-made candle ; they are studying geography, 
 writing, spelling, and arithmetic — fitting themselves for future statesmen. 
 Mother is making a new coat for one of the boys, Ada is ironing at a side- 
 table, and Hetty is washing the supper dishes at another. There are two 
 other members of this family group — the cat occupies the top of the blue 
 dye-tub which stands in one corner of the fire-place, and old Bose sleeps 
 quietly under the table. 
 
 Directly, and before any sound is audible to human ear, Bose gets up, 
 walks out into the long entry, and gives a loud, sharp bark at the outside 
 door, and stands waiting the approaching step. Soon satisfied that the new 
 comer is a friend, he retires again to his repose, and three or four boys, who 
 look as though they might be brothers to those already described, so much 
 are tlicy dressed alike, enter and draw around the table with the others and 
 the schoolmaster. These are from a neighboring farm, sons of a widow, who 
 have till now been so much engaged with the labors of the farm that they 
 have been unable to attend the school in the daytime, but are determined to 
 lose none of the evening opportunities to keep along with the class. They 
 will make honest, intelligent, industrious farmers. 
 
 The old folks M'elcome them heartily, and the young ones are all rejoiced 
 at their arrival. The old lady inquires why in the world their mother did 
 not come along ; and Mary, the kind-hearted Mary, is so sorry to hear that 
 it is because Sarah is not so well, and mother is very busy getting their new 
 clothes done so that they can go to school as soon as they finish picking 
 apples. " John," says she, " let us hurry and get through our stent and we 
 will go over to tlie widow's ; and I will help her with her sewing ; you will 
 read for tlie amusement of poor Sarah, for an hour or two." " If that is the 
 case," says father, laying down his axe handle, " my good children, you shall 
 
Sko. 14.] FARM-HOUSES. 287 
 
 go now ; I will finish your work.'' " And Mary, my dear girl, don't go 
 empty handed," says mother ; " you know from experience how sweet little 
 delicacies, brought by friendly hands to the side of a sick-bed, are to a poor 
 invalid." 
 
 " Hetty, my dear, if you have done your dishes, you must get your cards 
 and make a few rolls, for 1 am qmte out of grey yarn, and Ave must have 
 some more stockings in the work. Old man, don't cut that pumpkin too 
 thick. — Ada, daughter, get a plate of doughnuts and some of those nice fall 
 pippins and set on the table ; I guess these boys can eat a few while they are 
 cyphering. I do wonder if you have got light enough. Sol, get another 
 candle, I am sure such industrious boys ought to have all the light they 
 want." • 
 
 Thus, my readers, I have given you a slight outline of a farmer's house, 
 such as it used to be, such as it might be, and such as it always should be, 
 and such as, I am proud to say, many an American farmer can boast of even 
 in these degenerate days of " boughten stuff gowns " and lack-a-daisic:il 
 lounging of farmer's girls, who are miserable and tired of nothing to do. 
 How do you like the picture ? K well, imitate it. It is a happiness easily 
 acquired. 
 
 It is easy to imagine the suiTOundings of such a home as the one described 
 above. And as there is probably no better exponent of the farmer's life 
 than the farmer's home, we propose to present the portrait of a home quite 
 in contrast to the preceding one. "We are sorry that such as this are altoge- 
 ther too common. Here is the sketch : 
 
 A square brown house; a chimney coming out of the middle of a roof; 
 not a tree nearer than the orchard, and not a flower at the door. At one end 
 projects a kitchen ; from the kitchen projects a wood-shed and wagon-cover, 
 occupied at night by hens ; beyond the wood-shed a hog-pen, fragrant and 
 musical. Proceeding no further in this direction, we look directly across the 
 road, to where the bani stands, like the hull of a great black ship of the line, 
 with its portholes spread threateningly upon the fort opposite, out of one of 
 which a horse has thrust his head for the purpose of examining the strength 
 of the works. An old ox-sled is turned up against the wall close by, where 
 it will have the pi'ivilege of rotting. This whole establishment was contrived 
 with a single eye to utility. The barn was built in such a manner that its 
 deposits might be convenient to the road which divides the farm, while the 
 sty was made an attachment of the house for convenience in feeding its 
 occupants. 
 
 We enter the house at the back door, and find the family at dinner in the 
 kitchen. A kettle of soap-grease is stewing upon the stove, and the fumes 
 of this, mingled with those that were generated by boiling the cabbage 
 which we see upon the table, and by perspiring men in shirt-sleeves, and by 
 boots that have forgotten, or do not care where they have been, make the air 
 anything but agreeable to those who are not accustomed to it. This is the 
 place where the family live. They cook everything here for themselves and 
 
288 
 
 THE FARMEET. 
 
 [Chap. III. 
 
 tlieir bogs. They eat every meal liere. They sit here every evening, and 
 here they receive their friends. Tlie women in this kitchen toil incessantly, 
 from the time they rise in the morning, until they go to bed at night. Here 
 man and woman, sons and daughters, live in the belief that work is the 
 great thing, that efficiency in work is the crowning excellence of manhood 
 and womanhood, and willingly go so far into essential self-debasement some- 
 times as to contemn beauty, and those who love it, and to glory above all 
 tilings in brute strength, and brute endurance. 
 
 AVe do not expect to see every farm-house a domestic paradise ; but we do 
 contend that one contrived upon the moderate plan described in No. 305 will 
 be likely to produce a better race of men and women than such a home as 
 the one last mentioned in this paragraph. 
 
 Having occupied as much space as we can afford to give to the dwellings, 
 let us now look at some of the surroundings necessary to make up a complete 
 farmery. 
 
 SECTION XV.-CELLARS, CHIMNEYS, AND ICE-HOUSES. 
 
 "NT a cold climate, two of the most important requi- 
 sites of a farm-house arc good cellars and good chim- 
 'J^ neys. In all the great farming region nortli of Lat. 40°, 
 ]^ there are nights almost every "Winter in which the tliermo- 
 metcr falls 10° below 0° of Farenheit; and in some of the 
 elevated portions of New England it sometimes falls 40° 
 below zero. Tliere warm cellars are a necessity. Every- 
 where chimneys are so, for tliere is not a greater source of 
 vexation about a farm-house than a smoky chimney. For- 
 merly, ice was looked upon as a luxury merely ; it is so no 
 longer. Hence we devote space to give the best information 
 we can obtain, how to build an ice-house and j^reservo its 
 contents. 
 
 310. Cellars— Where an<l How to Build them. — As we have 
 already intimated, we do not approve of extensive cellars under dwellings. 
 As a general thing, in all damp soils, like millions of acres c>f the western 
 prairie lands, cellars, even when kept M'ith the utmost care, are not healthy ; 
 and when kept as we have often seen them, dripping with moisture, and 
 frequently with water standing several inches deep, they are positive conta- 
 gion breeders. In all such situations we recommend cave cellai's, built on 
 the level of the surfoce. An excellent one which -we built near the kitchen 
 do81", 8 by 20 feet, was made of eight-inch brick Avails, seven feet Idgh^with 
 an entr}' and douljle doors at one end, and double windows at the other. At 
 first our design was to arch this over and make a grassy mound ; but \ipon 
 
Sec. 15.] CELLARS, CHIMNEYS AND ICE-HOUSES. 289 
 
 second thought, we earthed it up as high as the top of the wall and then put 
 on a building for a smoke-house, the fire for which was built at the bottom and 
 carried up in a iiue. Where there is a hillside, a cave cellar may be made 
 more easily, though we did not find it a serious job to heap iip the earth from 
 the level ground, taking care to slope it off so as not to leave any noticeable 
 depression. Such a cellar is very convenient, dry, pleasant, and not 
 unhealthy. If built wdiere a building over it would be unsightly, or not 
 needed, it may be arched and covered with earth and made quite an orna- 
 ment of the house surroundings. 
 
 Wlierever a cellar is it should have as \inifoiTn a temperature as possible, 
 the year through ; it shoiild never sink much below 38° Fahrenheit, nor rise 
 above 50°, and it should be always moist, yet never wet. It should be also 
 well ^■entilated, aiid that should be by a flue of the chimney, constructed 
 specially for that object, when the cellar is under the dwelling. 
 
 311. — Chimneys — Uow to Build them. — .rV new combination of chimney and 
 ventilator has been patented by a Philadelphian (Mr. Leeds), and is very 
 strongly recommended by many who have tried it in that city. The brick 
 wall of this chimney is without flues, no matter how large the house, but the 
 smoke is carried up, say half the height of the building, through a cast-metal 
 box or square flue in the centre of the stack, while pure, cold air is intro- 
 duced at the bottom of the building into the chimney outside of the flue. 
 Tiic lieat of the flue causes this air to ascend with great rapidity and force, 
 carrying the smoke with it from their juncture at the top of the box, and 
 rendering it wholly impossible that the chimney should ever smoke. Venti- 
 lation is eflected by valves opening from the external or air-chimney into the 
 rooms, so as to throw out a column of air, M^armed by its contact with the 
 flue, into the room near its floor, while another valve near the ceiling sucks in 
 and carries oft' the impure air — the draught of the heated flue being aided by 
 the influx of heated air through the lower valve into the room. This arrange- 
 ment, it is claimed, saves the expense of brick flues, saves heat, which other- 
 wise passes off uselessly through the chimney, insures a thorough ventilation 
 without trouble or cost, and aflbrds a perfect security against fires from 
 defective or overheated chimneys, through the gradual charring of the 
 wooden beams or other timbers imbedded or ending against the chimney. 
 A connection with the cellar, by an opening into such a flue, would draw off 
 all the foul air that would be generated in any but a very badly kept cellar ; 
 besides proving a valuable safeguard against the carelessness of carpenters, 
 who do sometimes place wood in fearfully dangerous places. K all stove- 
 heated houses had such means of ventilation, it would do something toward 
 bringing back the same state of health that existed in connection with open 
 fire-places. 
 
 Tlie comfort of a dwelling depends in a great degree upon its having good 
 chimneys, always maintaining a current of air upward within, and secused 
 externally against the entrance of water. Form, size, location and workman- 
 sliip, all unite in producing a good or bad article. 
 
 19 
 
290 THE FARMERY. [Chap. III. 
 
 The ridge or highest part of the roof is the best place for the exit of the 
 cliiniiiey, for it is less liable to those sudden gusts of " blowing down 
 chiiiiuey " than when in proximity to higher objects. In this place too, the 
 roof is more easily rendered tight and secure against wet. In small houses 
 with but one chimney we need not seek any other place for it. In buildings 
 larger, where several chimneys are needed, keep the same object in view, 
 and approach as near to it as possible. In brick houses, if the chimney 
 is built into an exterior wall, it will sometimes fail to draw well, because 
 the air outside of the house cools the warm ascending current within the 
 flue. If the flue is in a south wall, the heat of the sun sometimes aids the 
 draught. 
 
 The size of the chimney is also important. The modern fashion is quite 
 too small for utility. Economy of space and a desire to conceal entirely an 
 object merely of utility, have caused its dimensions to be contracted until a 
 few months' deposit of soot entirely chokes the passage. AVhile we no longer 
 need the huge " good old-fashioned chimneys " of former days, the flues should 
 not be contracted so as to hinder the current of smoke, which needs a channel 
 as smooth as for the flow of water. "We often find the curves, M'here the 
 most room is needed, half filled with mortar carelessly dropped and loosely 
 adhering to the bricks. By making a proper table above the roof, it can be 
 made water-proof; but this, if not well done at first, always proves a 
 vexatious and difiicult matter to accomplish. Mortar, putty, cement, and 
 paint, in all their variations, have been tried with various success. An old 
 grafter recommends for this purpose " grafting wax," as the cheapest, surest, 
 and most durable application. But we say, build so that they will all be 
 unnecessary. 
 
 Always begin your chimnej-s from a good foundation on the earth. He 
 who builds a small "stem" in the garret, builds a large nuisance for 
 himself. The soot tea, black and penetrating, will leak out to discolor the 
 walls, the gathered soot and ashes cannot be removed, and the thing proves 
 a chimney only in name and in its appearance on the roof. 
 
 All unused stove-pipe holes and fire-places should be closed to secure the 
 best draught. 
 
 Where there are two chimneys in the same building one will sometimes 
 overpower the other, with the most provoking results. This is a contingency 
 to be regarded in forming the plan. 
 
 The top of the chimney may be full size and open where there is no 
 danger of down currents ; otherwise it should be arched or provided with 
 souio cap or ventilator of sheet iron. Those who have built will see the 
 importance of these hints; those who are to build, will do well to regard 
 them. 
 
 312. Ice-IIouseSi — Xext to a good cellar, an ice-house is a necessity of a 
 fasui-house. Here we can do without an ice-house, and north of latitude 40° 
 we cannot do without a cellar — at least, not comfortably ; and, in our 
 opinion, any family who have once enjoyed the comforts of an ice-Iiouse, 
 
Sec. 15.] CELLARS, CHIMNEYS AND ICE-HOUSES. 291 
 
 will ever after think that they cannot live quite comfortably without 
 one. 
 
 We have often witnessed in good farm-houses the necessity of a supply of 
 ice, in the character of the butter placed upon the table — -even among those 
 who know how to make good butter, we find a quality far inferior to tl)e 
 samples made where there are cool spring houses or an abundant supply of 
 ice. "We give a few other reasons in favor of every farmer's liaving an 
 ice-house, and we beg farmers to read and consider them well, and then we 
 will tell them how to build one. 
 
 313. Reasons why Farmers should have Ice-IIouses. — It is August ; hot, 
 faint and exhausted, the farmer comes from the field so tliirsty that he 
 cannot satisfy himself with water from a well so shallow that the burning 
 rays of the sun have reached the surface and penetrated into the water, 
 warming it almost hot enough for dish-water. Some draw their water 
 from springs, and others from cisterns. It is only here and there that 
 we find a spring that comes gushing to the surface, or that feeds a deep well 
 with water, cool enough to satisfy the over-heated, thirsty harvester. How 
 refreshing such water is, not only to drink, but to lave the face and hands 
 and breast, before sitting down to a meal, or lying down to repose to recupe- 
 rate tired nature. "We have no doubt that the laving is far better than the 
 drinking, and it should always be the first step taken to quench thirst. 
 
 Again, how i-efreshing is a cool di-ink witli the lunch in the field, but how 
 difficult to have it there, at only half a mile from the coldest spring or well. 
 How easy it would be if there was an ice-house on the farm. A piece 
 that could be carried in one hand, wrapped in a blanket, would be large 
 enough to cool the drink of a dozen men all the forenoon, and it would 
 invigorate them more than a bottle of rum. Ice, taken in moderate quan- 
 tity, is a tonic, and serves-to keep the system in such healthy condition, that 
 food gives it more strength. Simply, then, upon economic principles, every 
 farmer should have an ice-house. A humane man should have an ice-house. 
 It adds to tlie health and comfort of his sun'i'mer laborers. Let him think of 
 it now — think of it in August, think of it while sighing. Oh, for a cool 
 drink ! Oh, for a cup of ice-water ! 
 
 The stingy man, the v^eriest old hunks, who is never quite satisfied with 
 the amount of labor that he gets out of his workmen in the harvest-field, 
 should have an ice-house ; it will enable him to get more work out of them. 
 Now is the very time to think of this ; particularly in the heat of the har- 
 vest-field. 
 
 The man that knows that fresh meat is not only more palatable in the 
 heat of Summer, but that there is a positive economy in feeding his family 
 and extra laborers upon sweet grass-fed beef and mutton, and upon cold milk 
 and sweet, hard butter ; and that a man who does feed his day-laborers so can 
 always get better men and more work for his money than his neighbor who 
 lives upon salt junk and rum, will have an ice-house ; and if he lias not got 
 one he will make up his mind, before the present Summer is over, that as 
 
292 THE FARMERY. [Chap. III. 
 
 soon as there is a lull in the work of haying and harvest he will set about 
 buildhig an ice-house, which he can do with his own hands and common 
 farm-laborers ; and with less than the work of one hand and team during a 
 week iu winter, he can lay uji such a store of ice that he need never drink 
 warm water, nor eat soft butter, nor fear to kill a sheep lest the meat should 
 spoil before it could be eaten. 
 
 Let all remember this fact : Ice is not a luxury ; that is, one that can be 
 dispensed with, and may be indulged in only by the wealthy ; but one of 
 the most economical things that can be provided for family use. It is an 
 article that no fiirmer can afford to do without. 
 
 Now, having given arguments enougli to convince any man that lie 
 should build an ice-house, we proceed to tell him how to do it. 
 
 314. How to Build au Ice-House. — An ice-liouse is not the complicated, 
 costly structure that some peojile appear to think it is. Quite the contrary, 
 it is one of the easiest and most simple tilings to build, needing very little 
 mechanical skill, and being quite inexpensive. All of the work about an 
 ice-house can be done by any farmer of ordinary Yankee capacity in the use 
 of such a set of carpenters' tools as every farmer should keep. In the first 
 place, it is not necessary to build an ice-house under ground, although in 
 dry, gravelly soil it may be built so at less expense than on the surface, and 
 it is easier filled. A hill-side is the most convenient location, with the gable 
 of one end above the surface, in which Iiave an opening to put in ice — the 
 other end, to a level with the floor, being exposed — through which we would 
 have the ordinary entrance by double doors. In such a situation we would 
 use broken stone, making a hollow, grouted wall ; and tlie same kind of wall 
 might be built on level ground ; and a very good, cheap, durable wall it is. 
 Brick or stone may also bo used for the walls, according to the fancy of the 
 builder, always making them hollow, and the outer and iimer part of tlie 
 wall absolutely as air-tight as could be made with brick and mortar. 
 
 The cheapest, easiest and quickest constructed ice-house, and one all-sufii- 
 cient for the purpose, is built of wood ; and the money difference in cost 
 placed at interest will more than keep the wooden house in repair and good 
 as brick or stone. So we will give directions for building a plain, cheap, 
 common, rough-board, farm ice-house, large enough for all ordinary private 
 families. 
 
 Select a spot of ground convenient to the kitchen door, and remove the soil 
 and put coarse gravel or sand in its place, with drains leading away from 
 the eaves, so constructed that it will be absolutely impossible for water 
 to stand under or around the building. Lay down two-inch plank six inches 
 wide, bedded their thickness in the sand, for sills ; the end ones eight feet 
 long and side ones thirteen feet. Cut your studs off square, eight feet long, 
 of any size or width that you can get in the refuse heap at the nearest saw- 
 mill or lumber-yard, so that you can get one straight side, and set them up 
 face side in, and toe-nail them to the sill, with an inch-board on top for a 
 plate, upon which rest the joist ; nail up through the plate to hold them 
 
Seo. 15.] CELLAES, CHIMNEYS, AND ICE-HOUSES. 293 
 
 in place. 'Row board these studs on the inside, and batten the cracks with 
 rouo'li boards, and serve the under side oF the joists in the same waj'. Tliis 
 makes a tiglit boarded room, eight feet wide, eight feet high, and twelve 
 feet long. The floor must be laid upon timber bedded in gravel or charcoal, 
 to cut off any currents of air, but so that all wa'.er from melted ice will 
 drain ofi' immediately. Divide off four feet of the end in which you intend 
 to have the door, for a cooling-room, and you will have room for a cube of 
 ice eight feet, less the straw^ or sawdust all around between the ice and 
 boards, and this will last any family through the hot weather, with most liberal 
 use of it for all needed purposes. 
 
 Now for the protection of the ice to prevent its melting. Set up another 
 "balloon frame" outside of the first, from one to two feet off, tlie widest 
 space being the best, boarded perpendicularly with rough boards battened. 
 The top of the outer frame must be tied firmly to the inner one by strips of 
 boards nailed from plate to plate, and the space between the walls com- 
 pactly filled with charcoal, sawdust, or straw, provision being made for a 
 narrow doorway in one end, to be closed with shutters inside and out, which 
 must be made to shut tight, and will be greatly improved by lining them 
 with a coat of straw two inches thick, fastened on by lath nailed across. 
 About the roof. This must bo made in the same way as the sides, with two 
 sets of rafters, boarded and filled between with straw, with good shingling 
 outside, or some other tiglit roofing. It will be necessary to make a trap in 
 the roof, or a door in the gable end, opposite the usual entrance, with a slide 
 leading to the interior, for the convenience of filling, and there must be a 
 suitable ventilating chimney, six inches square, from the ice up through 
 the roof, which at times may be partially closed by a wisp of straw. The 
 space between the joists and the rafters, if filled with straw, will assist in 
 the preservation of the ice, and need never be removed, except the portion 
 around the door made for putting in ice. 
 
 The expense of such an ice-house it will be easy to calculate upon the 
 local cost of'lumber. 
 
 Such a building as we have described will take forty-eight studs 8 feet 
 long, 2 by 4 inches in size, which is quite strong enough, and sixteen inside 
 rafters of same size, 8 feet long ; twenty rafters of same size, 9 feet long, for 
 outside ; two sills 2 by 6 inches, 8 feet long each ; two ditto 13 feet long 
 each for inside frame; two ditto IG feet and two ditto 12 feet for outside 
 sills, and some short pieces of stuff for gable-end studs; for plates tw) 
 boards 6 inches wide, 13 feet long; two ditto 8 feet long; two ditto 12 feet 
 and two ditto 16 feet each ; and this constitutes the timber of the frame, and 
 will not exceed 700 feet, board measure. In fact, this whole frame could be 
 made of straight poles, or split stuff, which would cost but a trifle on some 
 farms. The boarding of sides, roofs, floors, partition, measures in all, we be- 
 lieve, 1,620 feet of surface and bat;tens, so that 2,500 feet of lumber and 2,003 
 sliingles appear to be ample for an ice-house to stow a cube 8 feet square, 
 with a cooling-room 4 by 8 ; and two men can build it in four days. Now 
 
294 THE FARMERY. [Ghap. IH. 
 
 count the lumber at $12 a thousand, shingles at $4 a thousand, work at $2 
 a day, nails, hinges, etc., $2, team work §2, and we have a total of $50 for 
 the cost of a building that is worth $50 to any farmer every year. Who 
 would do without an ice-house? 
 
 Having given the above as our own plan, we will add the plans of several 
 others. One writer says : 
 
 " Instead of one hollow wall for a non-conductor of heat, as in ordinary 
 ice-houses, I have two, with a space between them for coutined air. The site 
 is on a gravel slope. The foundation, for convenience in storing ice, is dug 
 two feet below the surface of the ground. The outside wall, for non-con- 
 ducting material, is six inches in the clear. The inside wall is four inches. 
 The doors for entrance correspond perfectly with the hollow Avails in 
 thickness, and are filled in the same manner — being shaped to shut with 
 a bevel edge, like the door to safes used by merchants and bankers. 
 At the lower side of the plates is a ceiling, upon wliich I put spent 
 tan one foot thick, which tan is in direct connection with the side-walls, 
 so that any settling in of the walls may be sujjplied from overhead. 
 From the under side of the ceiling runs a ventilator, with a hole of one and 
 a half inch bore, up through the roof, which is finished with an ornamental 
 cap. 
 
 "The room for ice is eight by ten feet in the clear, and eight feet high. 
 About all the waste of ^ce that I observed during the summer was at the 
 bottom, and this was so slow that we used the ice without regard to economy 
 for a large family, and in a dairy of thirty-five cows, besides giving freely 
 to our neighbors. 
 
 " I put sticks four inches thick in the bottom to put ice on, and also some 
 straw about the sides as well as underneath the ice." 
 
 At a discussion about ice-houses, by the American Institute Farmers' Club, 
 the following facts were elicited : 
 
 Mr. Pardee read an extract from a paper upon ihe ventilation and drain- 
 age of ice-houses. It states that an \inderground ice-house is -calculated to 
 melt ice much faster than above, because the earth gets heated and melts 
 the ice. 
 
 William S. Cakpentee — It is a question of great moment to farmers how 
 small a cube of ice can be kept well. I have not, in my experience, found 
 that one less than ten feet will keep. I have a floor over my ice, which I 
 keep covered with straw, and find it an excellent thing to prevent thawing. 
 I find the bottom layer of my hoiise, which is an underground one, keeps 
 better than the layers above. Some of my neighbors think the ice keeps 
 the best if the cakes are set on edge. 
 
 John G. Beegen — The great ice-packers I have, seen put in their cakes 
 flat, and very compact. Some of my neighbors break up the blocks of ice, ' 
 but I prefer the solid blocks. My opinion is that straw is better than salt 
 hay to pack ice in. I should prefer to have a very heavy coat of straw on 
 the ice, and then I don't care about the ventilation above. I will say, how- 
 
Seo. 15.] CELLARS, CHIMKEYS, AND ICE-HOUSES. 295 
 
 ever, tliat my neighbors' ice-houses that have no upper floor, and are a good 
 deal open at tlie top, do keep the ice well. 
 
 Prof. Nash — "We are too much inclined to be innovators in all our build- 
 ings, and in ice-houses particularly. "We must look at the true philosophy 
 of keeping ice, or we shall fail ; for the philosophy of it is to put it as much 
 away from the air as possible, and that is why we pack it in straw or saw- 
 dust, etc. As to giving some ventilation to the loft, or space over the ice, 
 it may be of service. I think that an ice-house should not have any pro- 
 vision for ventilation — the tighter the better. 
 
 Solon Robinson — There is a misunderstanding about this term ventila- 
 tion. As one of the advocates of it for 'an ice-house, as well as all other 
 houses, I do not mean open exposure, but simply to allow an escape of the 
 heated air that will accumulate in the space between the straw and the roof. 
 Make it as tight all round the body of the ice as i^ossible, by using non- 
 conducting substances from the exterior, and cover the top of the ice as 
 closely as you please with sawdust or straw, but don't make the upper part 
 too close ; at least, leave the cracks in the gable ends ojjen. As for the 
 sides, the best of all substances to fill with is fine charcoal ; the next best, 
 sawdust ; next, tan-bark, straw, leaves from the forest, or salt hay, or any 
 other fibrous substance. It is not necessary to have a double wall if your 
 ice is sufficiently packed around with any of the above substances. The air, 
 at any rate, must not come in contact with the ice, nor with a board that 
 touches it. And a stone or the ground will melt ice much quicker than 
 wood. "What I have been most anxious for in bringing up this discussion 
 upon ice-houses, is to divest the subject of all scientific nonsense about 
 making buildings to keep ice of so exf)ensive a character that no common 
 farmer would undertake it. Yet there are thousands of men who might 
 enjoy the comforts of a full supply of ice, and some of them would do it 
 if they only knew that they could build a house at almost no cost. A log 
 cabin, as described by Mr. Pell, or a cellar lined with fence-rails and a 
 board roof, with plenty of sawdust, leaves, or straw, will keep it longer than 
 a stone or brick building, put up at a cost of $500. I Avant to encourage 
 people to build cheap ice-houses. 
 
 A correspondent says: "I live on Staten Island, where neither charcoal, 
 sawdust, nor tan-bark can be had, except at great expense, but dry forest- 
 leaves and salt hay cost but a trifie. "Will either of the latter answer a good 
 purpose for an ice-house out of the grounjl, and, if so, which is the best? (1.) 
 I propose to make two boxes of rough hemlock boards — the outer one 
 twelve feet square by ten feet high, the inner one ten feet square by the same 
 hight — so as to leave a continuous space of twelve inches all round between 
 the boxes, this space to be filled with leaves or hay pressed down tight. (2.) 
 The roof to be covered with tongued and grooved boards, and set at an 
 angle of 35 degrees, with a projection of two feet. The double doors 
 will be in the peak of the roof, the outside frame to be supported by chest- 
 nut posts, lined on one side, and set into the ground four feet apart ; the 
 
296 THE FARMERY. [Chap. III. 
 
 inside box, or frame, to be supported by jois'.s, 2x4-incli, set edgewise, three 
 feet apart, secured against the inner side. Cliestnut sleepers will be laid on 
 the ground, covered with loose boards, from wliicli there will be good drain- 
 age. Will it be necessary to make the roof double, and have an opening on 
 the top for ventilation ? (3.) Can you suggest any improvement on tliis 
 plan, without increasing tlie cost? (i.) One of my neighbors, for the want 
 of tan-bark or sawdust, built an expensive ice-house on the ground, walled 
 up with stone, but it fails to keep the ice. (5.)" 
 I will briefly answer these inquiries : 
 
 1. Either salt hay or leaves will answer a good purpose, and I should use 
 whichever is the cheapest. * 
 
 2. This plan will make an ice-house that will keep the contents safe in 
 any place. 
 
 3. There is the same necessity for a double roof that there is for double 
 sides, and more, for that is not necessary if there is a good thick lining of 
 straw between the ice and boards. I double my roof by a thatch of straw, 
 first laid and then boarded over. 
 
 4. The improvement I should suggest would be a cheaper frame. Make 
 the outside just like the inside. It is cheaper, and will answer just as well 
 as the chestnut-posts. 
 
 5. This is probably owing to deficient ventilation ; that is, openings in the 
 gable ends far above the ice, to allow the hot air and foul gases that accu- 
 mulate there to pass ofi". If the stone walls of an ice-house once get heated 
 from the sun, they retain the lioat botli day and night, and communicate it 
 to the atmosphere within. Stone is the worst material for an ice-house that 
 can be used. 
 
 RoBEET L. Pell .said that he built an ice-house just like a log-cabin, in 
 the ground, with a board roof, that keeps ice first-rate. He built one of 
 stone and one of brick, laid in cement, neither of which would keep ice. 
 He fills on a cold day, and leaves the house open to allow the ice to freeze. 
 He packs broken ice into all the spaces between the cakes, and puts straw 
 at the bottom eight inches thick, and packs the ice up to the wood on the 
 sides, and leaves it nntil June or July, when there is a space melted away 
 all round, and that is then packed tight with straw. His ice-house is most 
 thoroughly ventilated in the upper portion of it. A full set of ice-tools costs 
 about $50, but he did not think it necessary for a farmer to go to that ex- 
 pense ; a saw is nearly as good as an ice-plow to cut ice on a small scale, 
 when great haste is not very necessary, as is the case with the gi-eat ice- 
 gatherers for market. 
 
 John G. Bergen — My ice-honse is a cellar, about twelve feet square at the 
 top and ten feet at the bottom, and this is fitted with a double-boarded frame, 
 the hollow filled with sawdust. The earth is so porous that it gives a 
 natural drainage. There is a building, used for other purposes, over the ice- 
 house, which is ventilated, but the ice part has no ventilation ; and I cover 
 the ice with sawdust, and also around the sides, and it keeps well. I pack 
 
Sec. 15.] CELLARS, CUIMNEYS, AND ICE-HOUSES. 297 
 
 tlie cakes close, .ind they come out as square as tliey v/ent in. There is a 
 free circulation of air in the upper part of my ice-liouse, and nothing hut 
 straw to exclude tlie air from the ice. The great Hudson River ice-honses 
 are very large, and always built above ground, with double walls, filled with 
 sawdust. The ice is packed close, and broken ice filled in to all the cracks. 
 Some single ice-houses hold 3,000 tuns; and most of the ice used in the city 
 is cut upon the river, and not upon lakes. 
 
 Mr. Ql'inn — I noticed that some of these ice-houses use salt liay. The 
 roofs and sides are double, and the best of them are filled with fine charcoal, 
 making the walls eighteen inches thick. I know one person who had an 
 underground ice-house, and now has one above, which he prefers ; the ice 
 keeps in this the best. 
 
 J. P. Vkeedek — I made my ice-house by digging a hole ten or twelve feet 
 square, and lined it with boards as a double wall, filled in with tan-bark. 
 My roof is a straw thatch. My ice keeps perfectly well. I have good 
 drainage, and I put about six inches of straw around the ice on bottom, 
 sides, and top. The house is only four feet below the surface, and the rest 
 above. I pack about twelve or fourteen tuns of ice, being careful to fill all 
 the crevices with broken ice. 
 
 John G. BiiEGEN said that he did not think a double roof necessary. 
 None of the ice-houses in his neighborhood had them. 
 
 Prof. Mapes — The point settled in building ice-houses is, that the whole 
 ice-house should be above ground. This is the practice in Massachusetts. 
 There is no substance equal to a confined space of air for the walls of ice- 
 houses. Build of whatever substance you please, so that you have a double 
 wall, and tight enough to hold air, and you will have a perfect protector of 
 ice. As to ventilation, Jenner, who first constructed ventilated ice-boxes, 
 found that ice melted faster in ventilated than in unventilated boxes. Ventila- 
 tion is necessary wlien you desire to keep food sweet. If there is no ventila- 
 tion, the confined air soon becomes very foul from animal substances on ice. 
 He then gave some interesting particidars of the large refrigerators in some 
 of the city packing-houses. Some are so large that tliey use up a number 
 of tuns of ice a day. The temperature is kept at 42 degrees, and in large 
 rooms thus cooled hundreds of animals can be killed and cooled every day. 
 If your object is to keep ice without use, shut up close — it needs no venti- 
 lation. 
 
 315. How to Make and Store Ice. — H. Lymaii, of Johnstown, Wis., tells 
 how to make ice for putting up in ice-houses, where there is no convenient 
 pond or stream, and how to store it without an expensive house built on 
 purpose. Mr. Lyman says : 
 
 " I live on the prairie. On the coldest day of January I draw water from 
 the well and pour it into square tin pans, two feet long, nine inches wide at 
 the bottom, and nine and an eighth at the top, and aljout nine inches deep. 
 "While I have been drawing water, Dick has been gathering clean snow 
 and putting it into the water. The compound is frozen immediately. I now 
 
298 THE FARMERY. [Chap. IH. 
 
 apply hot water w?tli cloths to the sides of the tin containers, which enables 
 me to empty out the blocks of ice. 
 
 " A cube of ice of four feet is all I need. No separate building need be 
 erected to keep it in. The barn, the wood-house, or the tool-house can 
 furnish an ample corner. Tlie conditions of its safe keeping are — the M'alls 
 of a building around, and two feet of compact straw on every side of the 
 gelid mass. In packiug, I lay loose boards on a bed of straw, and on this 
 platform I lay the ice. I take care to expose the ice to the lowest tempera- 
 ture of the year, and lay it up in the coldest state. If every alternate block 
 of ice is inverted, the mass is thereby made compact; if not, there will be 
 a little space open at the bottom between the respective blocks. When the 
 cube is complete, cover the whole with straw. This work can be eU'ected 
 with milk pans or other vessels, and if straw or ice be carefully filled into 
 the intervals in packing it will answer a good purpose, though square pans 
 are preferable. I use snow for the sake of hastening the process of freezing. 
 The pans are flared a little toward the top to facilitate turning out." 
 
 This excellent plan should be carefully heeded by all the dwellers upon 
 prairies, and by a great many other people. 
 
 31G. How to Carry Ice to the Field. — Lucius Beach, of Port Huron, Mich., 
 says : " Many farmers do not put up ice from the supposed difficulty of using 
 it on the farm away from the house. Iliave used ice-water for constant 
 drink two summers on ray form. I happened to carry water with ice in it 
 into the field in a six-quart tin pail with a cover to it. "We used the water, 
 and the ice was left in the pail about six hours in a hot day, and some of it 
 still remained. I then procured a twelve-quart tin pail with cover, put 
 in a large piece of ice, took a jug of water into the field, and turned it on 
 to the ice as we wanted to use it. In this way it will last from six to ten 
 hours for the use of six men, and is a luxury indeed." 
 
 317. How to Keep Ice in Summer. — If you have no ice-house, and buy ice, 
 or even if you have an ice-house, and do not want to open it except at even- 
 ing or morning, or if it is inconvenicrit to the house, and you wish to have 
 ice always handy, this is how you can do it. Have a bushel of clean, dry 
 sawdust, put a peck of it in the bottom of a tight barrel, having one hole 
 for drainage, then put in a layer of lumps of ice and another peck of saw- 
 dust, and so on, covering the top tightly with sawdust, and over all a folded 
 blanket. Do not let the ice touch the staves, and do not set the barrel in a 
 warm place, and you will have ice all day, with scarcely any perceptible 
 waste. Provide sawdust enough, so that you can shift the wet for dry every 
 day. This is a much better plan than wrapping ice in a blanket or keeping 
 it in a refrigerator, because tlie best of these useful articles of household fur- 
 niture do not preserve ice, but rather waste it, and in so doing preserve the 
 food placed in them. 
 
 318. Refrigerators. — No family can afibrd to keep house without a re- 
 frigerator — a food-preserver. We do not mean an ice-box, which, like the 
 one above described, will keep ice, but nothing else — -that is, not to any ad- 
 
Sec. 16.] 
 
 THE BAKN AND ITS APPURTENANCES. 
 
 299 
 
 vantage. A piece of meat, placed upon ice, will keep a longer time than 
 in the open warm air, but it does not keep as good as in dry air of ice 
 temperature, and it spoils very quickly after it is taken off the ice. A cus- 
 tard pie kept three days on tiie ice will be slimy aud not toothsome; but 
 when kept in a good refrigerator, the pie will be as sweet and dry as it is in 
 a pantry in cool weather; a piece of meat will keep in July as well as in 
 January. Such a refrigerator has the ice at the top, and the air cooled by 
 it falls upon the food below, or on a shelf alongside of the ice, and is as dry 
 as any other cold air. A box of fine charcoal, kept in the refrigerator, and 
 changed every month, will absorb all the unpleasant odors and keep the air 
 sweet. Such refrigerators are common now in New York in families, and 
 some of the butchers have, them large enough to store the quarters of a bul- 
 lock and several sheep and calves. And some of the packing-houses have 
 them large enough to store and cut and pack, in a winter atmosphere, several 
 hundred hogs a day. Without such " cooling-rooms," the summer slaughter- 
 ing of butchers' animals could never be carried on to the great extent it is in 
 all the large sea-board cities. This is one of the great inventions of the 
 present age. These improved refrigerators, of suitable size for families, cost 
 from $15 to $50 each. Ours, which cost $25, is worth $10 a year — has been 
 in use five years, and is just as good as ever, and we see no reason why it 
 will not be so ten years hence. It is bettor than none, even without ice, as 
 it preserves an even condition of temperature. Every farmer should have 
 ice, and no one should be without a refrigerator in some very convenient 
 locality near the kitchen cr store-room. 
 
 course, a 
 
 SECTION XVI.-THE BARN AND ITS APPURTENANCES. 
 
 _ F all that might be profitably said under the title of this 
 7 section were given, we should require a whole volume 
 instead of a few pages, which is all the space we can allot 
 '^ to the important subject. 
 
 A farm M'ithoxit a Jjarn is only to be tolerated in a new 
 settlement, as in some cases on the great prairies, where the 
 land can be got under cultivation before the owner can erect 
 the necessary buildings. Even there, we have always no- 
 ticed that the most thrifty farmers were those who erected 
 the best barns, at the earliest moment practicable. 
 
 Tlie barn and its appurtenances, treated of in this section, 
 contains information that will be found valuable to every one 
 who owns, or ever expects to own, a farm. 
 
 319. The Use and Value of Barns, and their Localion.— Of 
 bai'n is one of the great essentials of a farmery — one that can 
 
300 THE FARMERY. [Chap. III. 
 
 not be dispensed with. Grain and hay may be preserved in stacks or bar- 
 racks, but the one can not be threshed and cleaned out-door without waste, 
 and the other can not be fed to the stock to good advantage anywhere but 
 in the barn. A good house and convenient out-buildings are comfortable ; a 
 good barn is one of the grand necessities of good farming. 
 
 No farmer can aiford to do without one of sufficient size to accommodate 
 all the purposes for which a bam is appropriate. We have rarely, if ever, 
 seen upon a ■well-cultivated farm a barn that was too largo. In nine out of 
 ten cases the barn is too small. After it is too late, the farmer regrets that 
 he had not built it larger. But lack of size is not so great a fault as Avrong 
 location, for you can build to the original, by a lean-to upon one side, and 
 open shed or stable on the other, or an entire new building adjoining, so as 
 to make the whole quite as convenient as though all built together in one 
 building. But if the location is wrong, it never can be righted. So, in 
 building anew, make this a question for careful consideration : " Where shall 
 I place my barn ?" And do not place it until you know that you arc right. 
 
 We will point out a few essential things about location, which we think 
 may be of service to those about to build barns. 
 
 First, a barn never should be set up-hill from the house, where by any 
 possibility the drainage either on the surface, or under it, should come down 
 about the door, or into the cellar or well. Wherever the situation will 
 admit of it, place the barn on a lower level than the house, and northerly 
 or Avesterly from it, and do not be afraid to give a good distance between. 
 You had better walk an extra hundred feet all your life than have a hundred 
 foul smells creeping into every room in your dwelling. 
 
 Secondly, never build your barn npon the roadside. Upon the road, 
 only a mile long, which we daily travel between our own home and the 
 railroad station, there ai-e four barns, located upon just such situations as are 
 very common in all hilly regions, the face of a hill, which gives most excel- 
 lent natural drainage — but unfortunately for good economy, the drainage is 
 directly into the public road. 
 
 Another thing in the location of a barn should be had in A^ew, and that 
 is convenience of access. For a large farm, a hillside barn, that can have a 
 drive-way into the second or third story, affords a great convenience about 
 unloading hay, and hauling away manure from the lower side. 
 
 A location should be chosen for a barn, so far as it can be, with reference 
 to other important considerations, where it will not occupy half an acre, or 
 more, perhaps, of the very best soil, about the center adopted for the farmery 
 establishment. If you are about to make a new location for the wliole of 
 the buildings to constitute a farmery, it will be easy to have them arranged 
 relatively right, if you first make a complete map of the whole farm, and 
 then make your locations to suit peculiar circumstances. On a rough, rocky 
 farm you may often save an acre of good land by placing your buildings 
 upon ground or rock fit only to build upon, and much better for that than a 
 rich soil. 
 
Seo. 16.] THE BARN AND ITS APPURTENANCES. 301 
 
 Above all things, in selecting a site for the farmery, of whicli the barn, 
 with its appurtenances, forms such a conspicuous portion, avoid locating 
 directly upon both sides of the road, and all locations upon brook or river 
 banks, which allow so much fertility to be washed away. And do not go 
 lo the bottom of the hill because there is a natural spring there, or because 
 you can dig a well so easily. You can have a cistern anywhere near a roof, 
 if you can not get a well. Do not locate on the very pinnacle of the hill — 
 it is too bleak, even in quite warm latitudes. .If you place the house on the 
 hill, yo.i need not put the barn, like one I see almost daily, on the top of 
 the highest pile of rocks in the vicinity — a spot bleak enough to blow the 
 hair off a cow's back. 
 
 Having said this much of the most important question, Ave will now 
 introduce some descriptions of a few of the best barns in this country. 
 
 320. Baru built by (he Shakers, Cauterbury, N. H.— The location of this 
 Shaker society is about fifteen miles north of Concord, N. H., and nine miles 
 east of Merrimac Ttiver. The society is composed of three families, and 
 owns about 2,500 acres, lying in nearly a square form, in the center of 
 which are their substantially built and commodious dwelling-houses and 
 numerous other buildings, all of which are painted of lightish colors, and 
 kept in the most complete repair and neatness. 
 
 The main body of the barn is 200 feet in length by 45 in widtli, with 3i 
 feet posts (three stories high). The roof is nearly flat, double boarded, then 
 covered with three layers of stout sheathing paper, saturated with coal tar, 
 upon which is spread a thick coat of coal tar and screened grave!. There 
 is a projection at each end of the barn, 25 feet in length and about 16 in 
 width, so that the whole length is 250 feet. The whole structure is well 
 boarded. The sides and ends are covered with 16-inch pine shingles, laid 
 four inches to the weather. There are three floors, extending the whole 
 lenglh of the main body of the barn. The ground upon which the barn 
 was erected was nearly level, but at great expense a drive-way has been 
 graded, of easy ascent, so that the loads of liay are driven on to the upper 
 floor, over the high beams, so that, in unloading, the hay is pitched down, 
 instead of np. Tliis makes a material diflerence in forking over 200 tons 
 of hay each hay season. The floors, ceilings, partitions, etc., are all planed 
 and finished off as handsomely as farm-houses formerly were. There are 
 two hovels on the lower fioor, extending the whole length of the main barn, 
 the eastern portions of which are arranged for tying up 23 cows in each, 
 with sliding stanchions. The cows have been so trained, as they pass in 
 tlie hovel each one takes its own jilace with the regularity of well-trained 
 soldiers, and by a simple contrivance — the turn of a short lever— the heads 
 of all the cows are fastened or loosened, quicker than any one could be tied 
 by a rope. Each cow is named, and, like the "world's people," they select 
 fancy names for their cows, such as Eosa, Lady Grace, Julia, Bustle, and 
 Crinoline, each of which is printed in large type on slips of pasteboard, and 
 tacked upon the j oists over each one. Upon the roof ai-e three large, hand- 
 
302 THE FARMERY. [Chap. III. 
 
 somely finished ventilators, with Venetian blinds. The cellar, 200 by 45 
 feet, is of good depth; the walls are of split granite, pointed with cement. 
 Large wooden tubes pass from the cellar through the roof, which effectually 
 cany off the heated foul air of the manure. From the south side of the cen- 
 ter of the barn described, a two-story building extends, south, 100 feet by 
 27. The upper part is used for storing hay, grain, straw, etc. ; the lower, 
 for calf-pens, store-rooms, and hospital for sick animals, with a nicely fitted 
 up room for the herdsman. The roof of this, like that of the large barn, is 
 nearly flat, tarred and graveled, and shingled upon the sides and ends, as is, 
 also, a new sheep-barn, built adjoining. This runs from the southeast cor- 
 ner of the large barn, 108 feet long by 43 wide. The drive-way floor of 
 this is 17 feet wide, so that two teams can stand abreast, and at the south 
 end the floor is wide enough to allow the turning about of the team, so that 
 the oxen passing out go before the cart, instead of the cart going out first — 
 for the south end is not graded up so as to admit of driving through, as in 
 the large barn. 
 
 Another addition was planned, that is, a long shed, extending from the 
 southwest corner of the barn 100 feet. This will give two barn-yards of 
 about 100 feet square each, well sheltered, all but the south, with both yards 
 well supplied with water. 
 
 As the Shakers are famous for good barns, we shall give the description 
 of another one of theirs. We have great confidence in the economy of t'lc 
 form of the one next described, as well as its great convenience. 
 
 321. A Circular Barn. — The Shakers of Berkshire County, Mass., have a 
 barn that is worthy the attention of farmers who are contemplating the 
 erection of barns upon a large scale. We should think that on some 
 accounts it M^ould be a good form lo erect upon large prairie farms. We 
 recommend its form for adobe buildings and concrete walls, as one best 
 adapted to withstand the force of hard storms, as well as the form most 
 economical for the room inclosed. The barn owned by the Shakers is 100 
 feet in diameter, built of stone — a material that is ver}^ abundant in that 
 part of Massachusetts. It is two stories high, the first one being only seven 
 and a half feet between floors, and containing stalls for seventy head of 
 cattle, and two calf stables. These stalls are situated in a circle next the 
 outer wall, with the heads of the animals pointing inward, looking into an 
 alley in which the feeder passes around in front of and looking into the face 
 of every animal. The circle forming the stable and alley-way is fourteen 
 feet wide, inside of which is the great bay. Over the stable and alley is 
 the threshing-floor, which is fourteen feet wide and about three hundred 
 feet long on the outer side, into which a dozen loads of hay may be hauled, 
 and all be unloaded at the same time into the bay in the center. There 
 should be a large chimney formed of timbers open in the center of such a 
 mass of hay, connecting with air tubes under the stable floor, extending out 
 to the outside of the building, and with a large ventilator in the peak of the 
 roof. We should also recommend an extension of the eaves beyond the 
 
Sec. 16.] THE BAKU AND ITS APPURTENANCES; 303 
 
 outer wall, by means of brackets, so as to form a shed over the doors, and 
 the manure thrown out of the stable and piled against the wall. 
 
 In the baru inentioned there is a granary projecting into the circle of tlic 
 bay, which we do not exactly approve, preferring tlie granary in a separate 
 building, to wliich grain may be conveyed through spouts, if the barn is 
 located npou the hillside, which is preferable on account of entering the 
 threshing-floor on a level, though that is not indispensable, as a wagon-way 
 can be graded up from a level plat. 
 
 323. Barn Foundations. — The stone foundation of a barn should never be 
 laid in mortar. This is an error that should be avoided, as unnecessary and 
 unprofitable. It would be even better to place the sills upon pillars, leaving 
 a free circulation, and space high enough to furnish shelter for all tiio 
 poultry in winter, and thus keep them out of the inside of tlie barn, where 
 they are a nuisance. The main object, however, is to give free circulation 
 of the air, to drive out all foul gases, and promote the health of animals. 
 The surface must be so graded that no water will stand under the barn. 
 
 323. Opinions of Practical Farmers about Barus.— At a Farmers' Club in 
 West Springfield, Mass., after consultation and debate, it was decided that a 
 large barn was better than two or more small ones ; that a tight barn was 
 better, even for badly-cured hay, than an open one ; that a brick barn and a 
 slate roof were the best and cheapest for a man who has all his materials to 
 buy ; that a good connection between a house and barn is a covered walk, 
 overhung with grapevines ; that economy of roof and convenience for work 
 were of tlie first importance in any building ; that warm water and warni 
 stables were essential to the comfort of animals ; that the housing of manures 
 was judicious; that liquid manures are largely lost, even by those who 
 have cellars and sheds for storing them ; and that the best absorbents of 
 liquid manure are buckwheat hulls, leaf mold, sawdust, fine sand, dried 
 peat, turf, and straw. 
 
 The meeting was held at the liouse of one of the members — an old-fash- 
 ioned two-storj' building — with modern furniture and fixtures, where the 
 well-spread tables were bountifully loaded with fat chickens, mealy potatoes, 
 light bread, yellow butter, melting cheese, with pies and cake to match, 
 all lavishly bestowed, and such conversation ensued as would, if it could 
 be imitated in every neighborhood, prove of great benefit to tlie people. 
 Let tlie plan be imitated. If not the plan of the barn, certainly the plan of 
 meeting with your neighbors, and talking over the subject, as to whether 
 you shall build a large or small barn, and of what materials. It is also 
 very important to every one about to build, to go about, far and near, and 
 look at all the barns of various sizes, forms, and fashions, and talk about 
 their conveniences and the reverse. 
 
 324. Barns Boarded Tight or Open.— Whether barns should be tight is one 
 of the most important questions that a farmer can consider; for it may 
 involve the health and lives of all his farm stock. It is contended by some 
 writers, with a good deal of reason, that open barns are more healthy for 
 
304 THE FARMERY. [Chap. III. 
 
 stock, particularly the bovine portion, than closely hoarded ones. A com- 
 munication from a farmer in Maine says : 
 
 " Several years ago, I learned by experience that tight barns were not 
 healthy for cattle, and a little reasoning iipon the subject will explain why 
 this is so. It is a well-known fact, that the droppings of cattle, both solid 
 and liquid, exhale a vast amount of gases of different kinds, and these gases 
 are unfit for respiration ; if cattle are deprived of air, and breathe these 
 gases, they die instantly, arid if they breathe air impregnated with a large 
 proportion of these gases, they sicken immediately ; tlie disease most likely 
 to be produced is pneumonia, or inflammation of tlie lungs, as the poison is 
 applied directly to them. 
 
 " ]^ow what provision is made in modern tight barns to get rid of these 
 gases ? Why, there is a ventilator on the top of the barn, but how are 
 these gases to get to the top of the barn, since a large proportion of them 
 are heavier than atmospheric air? The carbonic and suljahurous gases, 
 which are more abundant than all others, are licavier than air, and con- 
 sequently will not ascend ; ammonia is light and would fly away, but tlie 
 carbonic and sulphurous gases, having a strong affinity for ammonia, seize 
 the fugitive, and by a chemical action a new compound is formed heavier 
 than air, which, of course, must remain, unless there is some underground 
 passage by which it can escape. If there is no place for its escape, these 
 gases accumulate until the barn becomes filled with them, the hay is im- 
 pregnated, and the stock has to eat as well as breathe this noxious matter, 
 and the trouble is worse if tlie stock is high fed. First, because high-fed 
 animals have a greater amount-of blood, the blood-vessels are fuller, and 
 consequently a greater tendency to congestion. Secondly, because the 
 excrements of high-fed animals evolve a much greater amount of gases than 
 those of others, and the difficulty of ventilation is increased by (lie f;ict that 
 these gases are so nearly of tlie weight of air. If tliey were all light, like 
 carbureted liydrogen, they would soon escape at the top ; or if they were 
 lieavy like water, or even pure carbonic acid gas, they would, in most barns, 
 find cracks sufficiently large to run out near the bottom ; but as the facts 
 prove that the gases are nearly of the same -weight of air, I am led to the 
 following conclusions : 
 
 " First, that the walls of barns should never be clapboarded ; then there 
 will be a gentle current constantly passing through tlie barn, and the gases 
 passing out of the cracks on the leeward side ; second, that the stable for 
 horses and cattle should extend from one end of the barn to the other, with 
 a door at each end, both of which should generally be open excepting in 
 severe cold weather, and in storms. I have found by experience that a 
 horse kept in a small, tight stable, will commence coughing in a very few 
 days. Cattle do not suffer with the cold (unless the cold is extreme) if they 
 are in good health, are well fed, and have a dry, clean stall, and plenty of 
 good air to breathe. The lungs of an ox will manufacture a vast amount 
 of animal heat. I liave known a cow to be wintered with no other shelter 
 
Seo. 10.] THE BARN AND ITS APPURTENANCES. 305 
 
 than an open shed, more than two hundred miles farther north than Massa- 
 chusetts, and she gave milk all winter, and came out well in the spring." 
 
 There is something worth a thought in this matter about airy barns. We 
 know them to be the best tor hay and grain ; and we know that in olden 
 time in New England, all of the barns, covered with upright boards, put on 
 green, had wide cracks from top to bottom, and in such stables, although 
 very cold, the cattle wintered well and kept healthy. It is shelter from 
 storms, and not shelter from cold, that all of our stock needs. 
 
 325. Ventilating Hay-mows. — One of the worst practices of farmers, in New 
 England particularly, is storing hay in large bays, without a sign of any 
 ventilation under the bulk, which usually rests upon a few loose poles or 
 boards on tlie damp ground. A bay should have ventilation, not only under 
 it, but up through it, by means of a chimney made of four poles fastened 
 togetlier by rounds like a ladder. A loose stone foundation could be laid 
 for the hay bottom, with an air-chamber from the outside leading to the 
 chimney, directly over which there should be a ventilator in the roof. This 
 simple contrivance M'ould not only save many a tun of hay from mustiness, 
 but it would enable the owner to put in his hay in a much greener state, 
 and that which is next the chimney would always come out very sweet. 
 
 326. Stables — how to fonstruct them. — A stable should be built with a view 
 to several points, among which we may mention economy of space consistent 
 with comfort, convenience of feeding and milking the animals, convenience 
 of tethering them so that they may have the largest measure of liberty of 
 motion, but be unable to injure one another; convenience of getting hay 
 from the loft and grain from the bin to the stalls ; and convenience of re- 
 moving the licpiid and solid excretions, so as to preserve their quality, and 
 remove them so speedily that the effluvium may not be breathed by the cows 
 
 The floor of a cow-stall of a well-constructed stable is four feet to four feet 
 six inches long, raised two or three inches for a dry platform. Behind the 
 platform the floor is made of white-oak slats set apart so that the urine may 
 drop through to the cellar beneath. The floor-beams are laid four feet 
 apart. On the sides stout elects are nailed, and on these the 2x3^ white- 
 oak slats are dovetailed and firmly nailed. The slats are beveled to a sharp 
 edge beneath, so that the manure will not clog the open spaces, but drop 
 clear as soon as it sinks below the upper edges of the slats. The slatted 
 space is a foot and a half in width. Behind that the first plank of the floor 
 is made to lift like a trap-door, turning on hinges, to secure an open space 
 through which to hoe the droppings, litter, etc., that would not readily pass 
 between the slats. By this simple contrivance the droppings of thirty cows 
 can be removed in a few minutes. 
 
 327. Stables should always be built high — that is, high between floors. Most 
 stables are built low, " because they are warmer." But the builders forget 
 that \varmth is obtained at a sacrifice of pure air and the health of the an- 
 imal. Shut a man up in a tight, small box ; the air may>be warmer, but it 
 will soon lay him out dead and cold if he continues to breathe it. If stables 
 
 i I 
 
THE FARMERY. [Chap. III. 
 
 are tight, tliey sliould liave liigli ceilings; if they are not tight, but open to 
 the admission of cold currents of air from all directions, they will be too 
 much ventilated, or, rather, ventilated in the wrong place. One of the 
 cheapest modes of ventilation is to build the stable high, so as to give room 
 for the light air to rise above the heads of animals. The grand rule that 
 must be observed is not to contine a beast in a room so small that its 
 breathing will soon poison all the air unless the foul portion can escape and 
 fresh air enter. 
 
 328. Cattle Sheds that Cost Nothing.— It is an act of wanton cruelty to 
 expose stock to the blasts of winter without shelter. In a country of saw- 
 mills, how cheaply a shed can be built of slabs nailed to rough posts, set in 
 the ground, and roofed by laying one course of slabs round side down, and 
 the upper course round side up ! The cracks of the sides can be battened 
 wiih thin strips of slabs or refuse boards. 
 
 In a wooded country, where sawed stuff can not be had, how cheaply a 
 side of round logs can be built and cracks daubed with mud. Then an 
 excellent roof can be made of split stuff, called shakes in some places and 
 clap-boards in others, being split 2i to 5 feet long, and 4 to 6 inches wide, 
 according to the quality of the timber for riving. These laid upon round 
 ribs, and held in place by weight-poles, make a roof, though rough in appear- 
 ance, as tight as a shingled one. If bark is peeled at the proper time and 
 laid at once, or piled and dried flat, it makes a pretty good roof, still cheaper 
 than one of shakes, though not so durable. "We have seen a very good 
 cattle-shed rocif made of hemlock boughs, laid on in courses, butts up. 
 
 Cheap sheds on the prairie, where cattle are exposed to winter blasts more 
 than in any other locality, can be made so easily that it seems worse than 
 cruel — it is wicked — to leave the poor brutes exposed. 
 
 Where rails are to be had, lay up a double wall of rails a foot apart, by 
 using cross-pieces at the end, and fill up the space with sods, or with earth 
 and leaves, or brush, or with coarse manure, or moldy hay and straw, such 
 as cattle will not cat out, and you have a good wind-breaker. Extend from 
 this wall, to the south, rails or poles to rest upon a girder on posts, and stack 
 hay or straw on top, and there is a shed. It costs but little more to stack 
 hay in this way than it does to make a suitable stack-bottom, and then fence 
 the stack. As the hay is fed off in winter, fill up the space with refuse hay 
 and straw, so as to break the wind, if it does not stop all the rain. Such 
 sheds for sheep are very valuable. 
 
 Where lails are scarce, a good wall can be made of prairie sods laid up in 
 courses, with hazel brush or stuall limbs to bind the sods together, to give 
 strength and prevent cattle from hooking the wall down. On this wall lay 
 a plate to support the floor of the stack or roof. Such cattle shelter pays its 
 cost every winter. There is straw enough burned or wasted every fall, upon 
 the Western prairies, to shelter all the stock every M'inter, if it were put up 
 iu some such cheap form as we have indicated. 
 
 o-2'J. A Valuable, Cheap Feed-Trough. — One of the puzzles in building horse 
 
Seo. 16.] THE BARN AND ITS APPURTENANCES. 307 
 
 stables has been how to make the feed-troughs. We can solve that difficulty. 
 We have learned how to make a horse feed-trough. Or, ratliei-, we have 
 learned how to purchase a very good and very cheap one. We learned it 
 of a progressive young farmer. The farm of Josiali Maey, a Westchester 
 County farmer of the old school, is conducted by his grandson, who has 
 gained knowledge from books, and goes ahead with improvements, one of 
 ■which is a new feed-trough. It is simply an iron pot^ — just such a one as our 
 dinner used to be boiled in before the age of cooking-stoves. One of about 
 four gallons is a good size, and it is set in the corner of the manger, in a 
 casing of boards that inclose the rim, just up even with the top. It is supe- 
 rior to any wooden, iron, or stone feed-box we ever saw ; is not expensive, 
 and, barring accidents, it will last forever, and be a good pot afterward. 
 
 330. Earthea Stable FloorSi — One of the best substances that can be found 
 for flooring for horses is clean sand. It is superior to wood, as it does not 
 heat and injure hoofs. Some English veterinary surgeons use nothing else 
 for bedding but sand. We have always found stables with dirt floors prefer- 
 able to plank ones. 
 
 331. The Stable Tardi — The stable, or barn-yard, is one of the most im- 
 portant appurtenances of the farmery. Two grand objects must be kept in 
 view in its construction — the comfort of the animals and the preservation of 
 tlie manure. If it is on soft soil, and tolerably level, as such yards are upon 
 nine out of every ten of the Western praii'ie farms, they are most uncom- 
 fortable places for stock, although good for preservation of manure, but that 
 is little or no object where it is of so little value. The only help that we can 
 see for a barn-yard upon such soil, where the tramping of cattle makes it 
 into a quagmire, is thorough underdrainage, and scraping the earth from 
 around into a low mound, and covering the most of that with sheds. It may 
 be so constructed that all the drainage of the manure will concentrate in one 
 spo", to be absorbed by straw or other manure-making substance. We have 
 found paving a yard with common fence-rails, where stones could not be 
 procured, paid the cost every year, and such a pavement will last half a 
 dozen years. 
 
 In a rocky country, like eastern New York, Pennsylvania, and the New 
 England States, if care and sound judgment are used in the location of a 
 farmery, the yard can be fixed on the southerly side of the barn and sheds, 
 where it will always be dry, and very comfortable for stock, and yet not 
 wasteful of manure. Our own is located upon a ro(!k, sloping southeast. 
 Just outside the fence, at the lowest corner, an excavation is made, to be 
 kept full of muck, sods, or other absorbents, so that while the yard is con- 
 stantly drained, the drainage is not lost. Some very good yards we have 
 seen constructed with a deep basin in the center. The great objection to 
 this form in a small yard is that the basin sometimes gets so full that there 
 is not dry space enough around the edges for the cattle. Sometimes, too, it 
 freezes over quite full, and strong cattle push the weaker ones upon the ice 
 to their injury. We prefer the absorbing basin outside of the yard. 
 
308 
 
 THE FARMEKY. 
 
 [Chap. III. 
 
 332. The Hen-Roost. — Every farmery must have a lien-roost, if it does 
 not have a poultry-yard ; and this should not bo an open shed, nor a cold 
 open room, but one so arranged that it will be well sheltered from cold winds 
 and storms, and lighted by a glass window upon the sunny side or in the 
 roof. It will also be found a most excellent provision to give hens access in 
 winter to a cellar, where they can scratch gravel and wallow in dust. The 
 hen-roost, too, should be aftranged with special reference to saving all the 
 droppings of the fowls, because it is the most valuable manure that is made 
 about a farmery. 
 
 SECTION XVII.-WATER FOR THE FARMERY. 
 
 iBOUT half of the farms in the United States are 
 deficient in water — that is, the water is not con- 
 venient for stock; and in many situations cattle 
 can only be watered by pumping, or by the still 
 more tedious process of drawing water in a bucket 
 from a well. This is a serious piece of labor, and a 
 useless one, because the wind can be made to do the 
 work a great deal better, cheaper, and more certain ; 
 and the whole expense of a wind-mill, pump, and 
 putting into operation, in a well twenty feet deep, 
 would not probably exceed $50. 
 
 You may use any one of a dozen iron pumps, to be 
 found in almost every hardwai-e store. Our own 
 choice would be "West's Anti-Freezing Pump, which 
 is made of iron, and is very durable. The wind-mill 
 for the motive power is simplicity simplified. The wind-wheel is four feet 
 in diameter, divided into eight parts, curved from the center, just as we used 
 to whittle out wind-mills from a pine shingle forty years ago. The wheel 
 may be made of Avood or iron. If of wood, fix the points of the sails in a 
 wooden hub and secure the outer ends by a rim, just like that of a large 
 spinning-wheel. Fix this wheel firmly upon an inch iron-bar, say two feet 
 long, with two bearings to run in iron or hard wood; and a crank in the 
 center suited to the stroke of your pump. If the valve works four inches, 
 make your crank short two inches. Now make a frame of three pieces, 
 three quarters of a square, with bearings for the wind-wheel shaft upon 
 two, and an inch and a quarter hole in the center of the other piece. 
 Upon this frame attach a vane of strong, thin wood, about three feet long 
 and one foot wide at the outer end. Now erect a gallows-frame seven feet 
 wide and fifteen feet high over the pump, fixed with a pipe in the well. No 
 matter whether that pipe is straight or not. Now put a bolt, with a big 
 head and washer, through the hole in the frame that holds the shaft, and 
 
Seo. 17.] WATER FOR THE FARMERY. 309 
 
 through the center of tlie cross-piece of the gallows, so that the small frame 
 will be held firmly by the head of that bolt, yet will turn freely in the wind. 
 From the piston-rod of the pump, extend a rod with a swivel-joint in the 
 center to the crank, and, let the wind blow higli or low, you will have the 
 satisfaction of knowing that your cattle are supplied with water. It is a 
 good plan to make a cistern to hold a supply in case the pump stops at any 
 time for repairs or want of wind ; the latter will not be apt to occur, as it 
 will run with a very slight breeze. From your watering-tub or trough, con- 
 duct a pipe back to the well, and you need not fear frost unless the pump 
 stops. By making use of a force-pump you may get a supply from a well 
 in the valley up to your house and barn on the hill, or to irrigate your 
 garden. See Nos. 369, 370. 
 
 How to get water most convenient to all parts of the farmery should be 
 the leading consideration ; because water is indispensable — neither man nor 
 beast can do without it a single day. All else may be inconvenient — water 
 should never be. It should be brought in pipes from a higher level, when- 
 ever it is practicable at any reasonable expense, because that is the most 
 convenient of all forms in which water can be had at the farmery ; and no 
 farmer can afford to neglect to supply his place with water, if he owns a 
 spring or stream that would afford such a supply, because it is the greatest 
 labor-saving fixture that he can make. 
 
 If aqueduct water can not be had, then convenient wells and pumps 
 should be; and if water can not be had by easy, shallow digging, in wells, 
 it can and should be in cisterns : and upon this question we will give some 
 useful information. 
 
 333. Economy of Aqueducts. — Some farmers neglect to make provision for 
 watering domestic animals until drought actually arrives, and then they can 
 not. We well knew one who, during a drought, drove his cattle a mile to 
 water, at the same time that he had roof enough on his large barn to give 
 them all the drink they needed, if a cistern of proper capacity had been pre- 
 pared to retain it. The bai-n cost $1,000 — the cistern might be built for 
 |50 — yet every animal of his large herd must travel miles every week for 
 necessary drink. He might construct a cistern now, but it will be another 
 year before he can derive benefit from it, and so he puts off the labor. 
 
 There are many others who do the same. We know another farmer, who 
 has lived till past eighty years of age upon a fiirm where there is a gushing 
 spring of excellent water within sixty rods of his house and barn, high 
 enough to run through pipes over the top of every building, yet this man 
 draws water with a bucket from a well, which sometimes fails, when he has 
 to go to a more distant and inconvenient well, or haul water in barrels from 
 the river ; and his stock, all the long winter, go down the road to the river- 
 side for drink, wasting time (and that is money) and manure, to replace 
 which he buys fertilizers. Saving the first cost of an aqueduct, in such 
 cases, is not saving money. Neither is the neglect to construct cisterns a 
 good piece of economy. 
 
310 THE FARMERY. [Chap. III. 
 
 334. Value of Cisterns — their Size and Contents.— jS^o man, whose only sup- 
 ply of water is in a deep well, or where the well or spring water, however 
 convenient, is hard — that is, like all the water of limestone countries, unfit 
 for wasliing, or making butter — can afford to do without a cistern. If the 
 earth where the cistern is to be built is compact clay, it can be dug out in 
 the form of a jug, with only a man-hole at the top; and in all ground but 
 caving sand it can be dug and plastered without any brick walls, and the 
 top covered Avith durable timber, which sliould be placed at least four feet 
 from the surface to its under side, as it will, when thus covered, last enough 
 longer to pay for the extra work. Wherever flat stones abound, a moderate- 
 sized cistern should be covered with them, laid shelving over each way, if 
 not large euougli to reach clear across. The earth-bottom and walls are 
 easily made tight by cement (water-lime mortar), made with three Y)arts of 
 clean, coarse, shari^ sand to one of lime, which has to be wet up only as it 
 is wanted for use, or it will set wherever it has a chance to dry upon the 
 bed where mixed. It should be very thoroughly worked in, mixing while 
 pretty wet, and jjlastcred on the bottom first and tiien up the sides, one coat 
 after another as fast as one is dry — two or three coats — taking care that no 
 defect is made in the joining of the sides and bottom together. The bottom 
 should be dug hollowing, and corners full ; and to save cement, any little in- 
 equalities in the walls niay be filled witii clay or lime-mortar before putting on 
 the cement plaster. In situations wliere cement can not be obtained, a good 
 cistern can be made as follows, whicli will last a dozen years certain. "We 
 know one good at twenty years old. Take one and a half-inch plank, si.x or 
 eiglit feet long, six inches wide at one end and six and a quarter at the other ; 
 joint and dowel the edges, and fit the ends with a croze upon heads six or 
 eight feet across, and hoop just enough to keep together to roll into the hole, 
 biggest end down, upon a soft mortar bed of clay, four inelies deep ; then 
 till the space between tlie tub and walls, M'liich should be four or six inches 
 wide, with clay just moist enough to tamp in the most compact manner, 
 and the cistern will never leak, and will give great satisfaction for its small 
 cost. The top should be covered over with timber and earth, deep enough to 
 keep warm in winter and cool in summer. 
 
 Upon the roof of a barn 35 by 70 feet — if three feet of rain fall annually 
 — three cubic feet of water will be aiforded by every square foot of surface — 
 more tlian 7,000 cubic feet from the whole roof — which would be about 
 1,700 barrels. This would be enough to water daily, the year through, thir- 
 teen head of cattle, each animal drinking four twelve-quart jjails full per day. 
 But if the water were reserved for the dry season only, or when small streams 
 are dry, thirty or fort}' head might be watered from one roof. 
 
 People are apt to make their cisterns too small, so that often they do not 
 hold a tenth part of the water from the eaves. In the above-mentioned 
 instance it would not be necessary to construct one large enough to hold tlie 
 entire 1,700 barrels. If the cattle were watered from it the year round, and 
 its contents thus constantly drawn as it fills, one large enough to hold 400 
 
Sec. 17.] WATER FOR THE FARMERY. 311 
 
 barrels would do ; but if ncedei for the dry season only, it should be more 
 than double. A cistern fourteen feet in diameter and twelve feet deep would 
 hold about 450 barrels— twenty feet in diameter, and the same depth, would 
 be sufhcient for 900 barrels. If built under ground, and contracted toward 
 the top, it would require to be a little larger in dimensions, to allow for the 
 contracted space. Such a contraction would be absolutely necessary to 
 admit of convenient and safe covering at the top, and could be effected 
 without any difficulty if built of masonry. The pressure of the water out- 
 ward would be counterbalanced by the pressure of the earth against the 
 exterior, especially if well rammed in as the wall is built. 
 
 There are some portions of the country where the subsoil is underlaid by 
 slate or other rock which may be excavated. In such cases, it sometimes 
 happens that with a little care in cutting, the water-lime mortar may be ap- 
 plied immediately to the rocky walls, a shoulder above being made on which 
 to build the contracted part of the wall. 
 
 We have such a cistern, dug in tolerably compact earth, and plastered 
 with cement, put on in two or three coats, using about two and a half barrels 
 for a cistern eight feet wide and six feet deep. It was designed to be 
 deeper, which would have made a better proportion, but the excavators 
 came upon a ledge that could not be blasted, and was very difficult to pick 
 up, and the bottom being very rough, rerpiired more plaster. The top is 
 covered with chestnut plank, over which is earth, and the water is let in 
 through a pipe beneath the surface, and taken out by another that leads to 
 the pump in the kitchen. There is also an outlet pipe imder the covering 
 for surplus water, so that when full, there is a body of water five feet deep 
 by eight wide, and this gives about sixty barrels; and being supplied by 
 1,600 superficial feet of roof, is not likely to fail for family use. The water 
 is perfectly filtered by the most convenient filtering arrangement for a cis- 
 tern that we ever saw. 
 
 This is by Peirce's patent porous cement pipes, which are laid in a sort 
 of net-work in the bottom of the cistern, and the pump-pipe attached to 
 them, so that no water can reach the pump that has not passed through the 
 substance of the pipes, which are in appearance much like solid stone, and 
 more than an inch thick, which certainly forms a very perfect strainer to free 
 the rain water of all impurities. A writer in his recommendation to every- 
 body to build cisterns, says : 
 
 ' I have one in my house cellar, entirely below the bottom of the cellar, 
 six and half feet deep and five and a half in diameter, holding about 1,000 
 gallons. It was dug six feet eight inches deep and seven feet in diameter. 
 The bottom being made smooth, was laid over with brick. The mason then 
 began the side with brick laid in cement, leaving a space all round between 
 the brick and earth about five inches. After raising the work about eighteen 
 inches, he carefully filled the space between the brick and side of the hole 
 with earth, well and carefully pressed down. If you wet the earth or clay 
 as you fill it in, it will be more compact. 
 
312 THE FARMERY. [Chap. HI. 
 
 " "When you get within about two feet of the top, commence gradually to 
 draw in the work toward the center, leaving, when finished, a space open 
 about two feet across. The next thing is to pias'er the inside with cement ; 
 also the top on the outside, commencing where you began to draw in. About 
 two courses of brick are laid round the mouth of the cistern, forming a neck, 
 wliich adds to tlic Strength of the top. Now cover the whole with earth, 
 except the neck. The water is conducted to my cistern through a small 
 brick drain laid in cement. I also have a drain near the top to let oif the 
 surplus water. If a cistern is made out of doors, it must be below the reach 
 of frost. Lead pipe would probably be cheaper than brick to conduct water 
 to and from the cistern. 
 
 " I have no doubt but that a cistern made this way of hard brick would 
 last a century. Mine, holding 1,000 gallons, cost $18. The larger the size, 
 the less the cost in proportion to the capacity. If the earth is firm and hard, 
 you may lay the brick close against it, thus saving the trouble of filling in 
 and digging so large. I have known them made by cementing directly on 
 the earth, using no brick, and covering the top with timbers or plank. One 
 made with brick will cost more, but I think it best and cheapest, taking into 
 consideration safety and durability." 
 
 Tables of Contents of Clecular Cisterns. — The following tables of the 
 size and contents of circular cisterns may be convenient to those about to 
 build them. For each foot of depth, the number of barrels answering to 
 the diflerent diameters is as follows : 
 
 For 5 feet in diameter 4.66 barrels. 
 
 6 " " 6.71 
 
 7 " " 9.13 " 
 
 8 " " 11.93 
 
 9 " " 15.10 " 
 
 10 " " 18.65 
 
 A cistern 3J feet diameter will hold for every 10 inches in depth 69 gallons. 
 
 i " " 78 " 
 
 4J " " 99 " 
 
 5 " " 122 " 
 
 5J " " 148 " 
 
 6 " " 176 
 
 8 " " 310 " 
 
 You will find by this table that a cistern six feet deep and six in diameter 
 will hold 1,260 gallons, and each foot you add in depth will hold 210 
 gallons. Therefore, one ten feet deep and six in diameter will contain 
 2,100 gallons. 
 
 To find the contents of any cistern in wine gallons, the diameter and 
 depth being known : 
 
 1. Multiply one half the diameter (in feet) by itself. 
 
 2. Multiply the above product by 3|, which will give the area of the bot- 
 tom of the cistern nearly. 
 
 3. Multiply this by the number of feet in depth ; this will give the cubic 
 contents in feet. 
 
 4. Multiply the last product by 1,728 (the number of cubic inches in a 
 foot), which gives the number of cubic inches. 
 
Sec. 17.] WATER FOR THE FARMERY. 313 
 
 5. Divide the whole result by 231 (the number of cubic inches in the wine 
 gallon), and the result will be the number of gallons in the cistern. 
 
 Divide the gallons by 30, and you will have the number of barrels, and 
 thus you can calculate how large to make a cistern for the use of house or 
 barn ; and be sure not to neglect so important and so inexpensive an im- 
 provement as making a cistern. 
 
 335. Digigiug WellSi — There is no better improvement put upon a farm 
 than wells, cither in their every-day convenience or value in estimating 
 the price of a farm. In some localities it will pay to dig a well at the 
 house, at the barn, in the stable-yard, and in almost every field. In com- 
 pact earth, a well can be dug without curbing to support the earth sides 
 during the excavation. 
 
 AVhere curbing is necessary, the best way to do it is to build the wall 
 u|iou a wooden or iron ring, and let that down as the excavation proceeds, 
 adding brick or stone at the top as fast as may be necessary to keep the wall 
 even with the surface. 
 
 336. Uorizoutal WellSi — Here is a new idea for dwellers in mountainous, 
 or even moderately hilly districts to think of. Mining after coal in Penn- 
 sylvania, and gold in California, has clearly illustrated the fact, that wells 
 may be dug into hillsides, or banks, or blufls, as well level or horizontally, 
 as down perpendicularly, which would save dangerous and severe labor. 
 AVater, so troublesome in digging common wells, has not to be bailed in the 
 horizontal, as it takes care of itself. The certainty of discovering or cutting 
 off veins of water is greater with the horizontal well than the perpendicular, 
 if it starts in near the base of a hill, or anywhere as much below the surface 
 as a common shaft would be likely to be sunk. By laying down wooden rails, 
 all the dirt can be brought out in a little railway car, and the stone or brick 
 carried in to build the well as fast as the digging progresses. It will not 
 be necessary to make a horizontal shaft any larger than a perpendicular 
 one, though it should be of a diffei'ent shape. We would make it in the 
 forui of the figure we call a naught or cipher in numerals. Two feet wide 
 and four feet high will be large enough, with a gentle descent for the water 
 to run to the outlet ; and in many situations it can be made to run through 
 a short pipe into the house ; or if it will not run, it can be drawn by a pump 
 through a horizontal pipe any distance. 
 
 There is another advantage in such a well. It would not be constantly 
 liable to have things falling, or being thrown into it, and the water would 
 remain purer. 
 
 There are a great many pastures where water for stock has to be drawn 
 from wells, which might have a natural flow from hillsides, with an expend- 
 iture of no more time and money than is required for a perpendicular well. 
 
 There are some dairy farms that could have valuable spring-houses sup- 
 plied by such a horizontal well, and such a supply of cold running water 
 would add to the value of the farm almost as much, in some cases, as its 
 whole value is now. 
 
31i THE FARMERY. [Chap. III. 
 
 Sucli wells have been constriicted in California, and we earnestly coni- 
 niciid them to the attention of all the fiirmers in the hilly isortions of the 
 Atlantic States. In rocky hills a horizontal shaft can be drifted in much 
 easier than it can be bored i^erpendicularly ; and the work either in rock 
 or earth digging can be much better done in winter in a horizontal than in 
 a perpendicular well. We hope to see them extensively adopted. 
 
 337. Wells oa HillSi — We have seen a great many wells on the tops of hills 
 affording a large supply of water, while the bottom was above the plain or 
 valley in which the farmstead was situated. How easy to obtain this water 
 by a siphon, or a pipe inserted on a level, which can be done without dig- 
 ging a ditch the whole depth and distance. Ascertain where the level of 
 tiie bottom of the well will strike on the face of the hill, and dig in there, 
 and set up a frame to support an earth-boring auger, and drive a bore 
 straight through to the M-ell, which can be easily done one or two hundred 
 feet, if .artesian wells can be bored one or two thousand feet perpendicular. 
 AVhere tlie distance is too great, or the hill is rocky, put in a siphon pipe, 
 with a little hand-pump to start it, and you can always have running water 
 in your yard or garden at tlie foot of the hill. 
 
 338. Causes of Impure Water in Wells. — It sometimes occurs that the water 
 of a well, noted for its purity and delicious drinking quality, becomes 
 offensive to the taste and smell witliout any apparent cause. Sometimes it 
 is occasioned by surface water from an impure source finding its way to the 
 well, after many years of exemption ; and sometimes it comes from i-oots of 
 trees growing into the water and decaying ; and sometimes worms work 
 their way in and decay ; and occasionally rats, mice, or other pests burrow 
 in the wall and injure the water. And not imfrequently a new vein of 
 water finds its way into an old well and materially changes the character 
 of the water. Generally a well is improved by cleaning, but we have 
 known the contrary. In a well of our own, in the trap-rock district north 
 of New York city, the quality of the water was materially injured by sub- 
 stituting a pump in place of a bucket. The reason was obvious. Tlie 
 water was seven or eight feet deep, and the bucket drew it from the surface 
 and the pump from the bottom, and in the water drawn from the bottom 
 we found a strong sulphur taste and smell. Cleaning it out did no good ; 
 the water at the bottom was decidedly different fi-om the top. The only 
 remedy, if we continued to use the pump, which was iron, and costly, and 
 extremely convenient (it is one of Gay & West's force-pumps — very valu- 
 able for farm use), was to attach a gutta-percha pipe to the bottom of the 
 iron pipe, and to a float, so that it would always draw the water from the 
 aurface, at whatever hight it might be in the well by the fluctuations of 
 the seasons. 
 
 Where wells are injured by surface water, resort should be had at once 
 to the most thorough draining. Lay tile or stone drains five or six feet 
 deep, so as to cut oft' all leaking into the well. If injured by trees — which, 
 by-the-by, should never be set near a well — dig a deep trench so as to cut 
 
Sec. 17. j WATER FOR THE FARMERY. 315 
 
 off all the roots, and fill that trench with coarse gravel, or a stiff mass of 
 clay, that will not be attractive to the roots. Remove all that you .can from 
 the wall and earth near the well, and time will cure the water. Sometimes, 
 to get rid of roots, insects, or other pests, it will pay cost to imwall the well 
 and build it anew. Fill in charcoal, cinders, or other sweet substances ; 
 and sometimes it will be well to lay a portion of the top wall in cement 
 mortar. 
 
 It is recommended in all cases, where well-water becomes unpalatable, to 
 agitate it freely, and very often. Jf drawn with a bucket, set a man at 
 work pushing the bucket down deep and drawing it up full, and pouring it 
 back again, so as to fall in the water till it is all thorouglily mixed and all 
 the stones washed, and then when it settles clear again it will probably be 
 found as good as ever. 
 
 This plan of agitating the water may also be applied to cisterns to good 
 advantage. 
 
 Looking into a well, so as to see anything at the bottom, can be easily 
 done any sunny day (the morning is the best time), by using a looking-glass 
 so as to reflect the rays of light and throw them quite to the bottom of a 
 deep well. We have used this means to discover the position of a bucket 
 that had broken loose and fallen to the bottom, and then with the steel- 
 yards hung to a rope have been able to liook on to the bucket and draw it 
 up at once. We once recovered a tin pail of butter in tlie same way. 
 
 339. Self-Emptying Well-Bucket. — If the water is drawn from a well by a 
 bucket and windlass, two ropes are better than one. , Fasten by a staple to 
 the center of the windlass and wind each way toward the ends, so that the 
 ropes will be widest apart when the bucket is up. Instead of a bail, attach 
 a short chain or piece of iron rod to each ear of the bucket, and set the ears 
 low down, so that the bucket will tip easily. Cut a hole in the bottom, four 
 inches across, and cover it with a block coated with soft sole leather, like 
 the valve of a pump-bucket, which Avill open to let in the water as the 
 bucket descends, and close as soon as it starts upward. To empty the 
 water easily, there are two ways — first, and best, by a flat iron hook about 
 eight inches long, fastened to the well-spout in such a way that it may 
 catch the edge of the bucket as it is drawn up, and tip and empty. The 
 other Avay is to have a pin in the spout that will strike the valve and open 
 it when the bucket is placed upon the spout. Two buckets with two ropes 
 will work much steadier and easier, and in the long run cost less than with 
 one, and the valve to fill, and hook to empty the bucket, are great labor- 
 saving fixtures. 
 
 It is almost as important to keep water pure for stock as for family iise. 
 Pure water is a great luxury to the palate of a thirsty horse, and every man 
 who is fortunate enough to be the owner of so noble an animal, should see 
 that the wants of the same are properly provided for. 
 
 Unfortunatelj', very few p^ons realize the importance of supplying 
 domestic animals with pure water; yet they stand in need of it whenever 
 
316 THE FARMERY. [Chap. III. 
 
 thirsty, and as a matter of profit to ourselves and Immanity to them, we 
 should see that their wauts are well supplied. 
 
 Pure water is very nutritious, and as a nutritious agent its value is im- 
 paired when of inferior quality, or when mixed with indigestible foreign 
 substances, such as are often found in watering-trouglis located by the M'ay- 
 side. 
 
 Some very interesting experiments have lately been made on horses 
 belonging to the French army, in view of testing their endurance as regards 
 the deprivation of water, and it M'as found tliat some of them lived twenty- 
 five days on water alone ; it is a singular fact that seventy-five per cent, of 
 the weight of a horse's body is composed of fluid. 
 
 Strange water, as it is called, often has a bad effect on tlie digestive organs 
 when first used, and in order to guard against its consequences, English 
 grooms always provide for the wants of their liorses, when away from 
 home at the race-course, by furnishing them with an abundant supply of 
 ]3ure water to which they have been accustomed, which is transported from 
 place to place in hogsheads. 
 
 340. The Hydraulic Ram. — ^To those who have no spring above the level 
 of the house, but have one below, we press the subject of a water-ram — a 
 simple, little, inexpensive macliine that can be made to throw about one 
 eiglith or a tenth of the v.ater that flows through it up a steep hill and along 
 a pipe half a mile or more, discharging it in a cistern in the garret of a house 
 or loft of the barn, whence it is drawn as it is wanted in any apartment, 
 while the overflow or surplus of water will give you a constant little stream 
 in the cattle water-trough. Hundreds of these rams are in \ise all over the 
 country ; but there are thousands of places where they are not in use, Avhere 
 equal natural facilities exist. Our object here is only to call attention to the 
 fact, that ever}' farmer who has a sjjring in a valley where he can get three 
 or four feet fall from it to work the ram, can get a portion of that water on 
 top of a hill ; and in many places where no running springs naturally exist, 
 sufficient water can be obtained by digging. "We have seen a stream dis- 
 charged at the outlet of an underdrain sufficient to drive a ram — water ob- 
 tained without any expectation of obtaining it; because the object was to 
 drain the land of its surplus water, and prevent it from oozing out of the 
 surface of the hillside. 
 
 The house of the late John C. Stevens, at South Amboy, is 120 feet above 
 the level of a spring, near the bay shore. At this spring he set a water-ram, 
 with a two-inch drive-pipe, about sixty feet long, laid upon an inclination 
 of five feet. About one eightli of the water which runs through this pipe 
 is sent, by the action of the ram — a little affair, about as big as a teakettle — 
 up through a small lead pipe into the house, nearly half a mile distant. 
 Perhaps the whole may have cost $100. We know a good many places where 
 $50 has secured a full and constant supply of water from the bottom of a 
 hill almost impossible to climb, yet which liffd been climbed from the first 
 settlement of the country till the little water-ram was set to work. We know 
 
Seo. 17.] WATER FOR THE FARMERY. 317 
 
 a great many other places where it is worth a dollar a day to tote the water 
 up the slippeiy rocks in buckets, where all that labor could be saved by an 
 expenditure of $50, and an animal expense for repairs of a shilling a year. 
 Yet those who own such j^hices do not improve them, because they do not 
 know they can. 
 
 3 il . Durability of Wooden Pipes for Aqueducts.— Charles Stearns, of Spring- 
 fioUl, Mass., has proved by a somewliat lengthy experience that wooden 
 pipes are nearjy indestructible, if laid deep — deep enough to prevent atmos- 
 pheric action upon the wood. His rule is six feet deep in sandy or porous 
 earth ; four feet dee^j in compact, clayey earth, and three feet deep in 
 swampy earth, where the pealy condition of the soil, which is antiseptic, pre- 
 serves wood from decay. Thus laid, Mr. Stearns thinks wood will outlast iron 
 or lead ; and the wooden pipes are cheaper than any material that can be 
 used, wliere a bore of two to six inches is required. In one instance, an 
 aqueduct laid by Mr. Stearns of three fourtlis-inch caliber lead pipe, cor- 
 roded and failed in fifteen years, and had to be replaced. Another one, 
 made with very heavy lead pipe of two-inch caliber, laid through a wet 
 jucadow, in the very kind of soil that preserves wood the most perfectly, 
 failed so as to need repairs within three or four years, and at the end of ten 
 years had to be replaced with new pipe, which he then made of wood, and 
 which, after twenty years of use, is still in good order. The aqueduct pipes 
 supplying Springfield with spring water, that comes to the surface on the 
 sandy plains above the town, have been in use fourteen years, and bid fair 
 to last many years longer. The bore of the logs is from one and a half to 
 seven inches, charred on the inner surface by forcing flame through 
 the bore, or by the insertion of a heated rod, to prevent the timber from 
 giving any unpleasant taste to the water. Mr. Stearns thinks, from experi- 
 ments made, that lead pipe will last enough longer to pay for the expense 
 of burying it deep, or packing it closely ill clay. He also thinks that the 
 interest upon the difference iu cost between well-made and properly laid 
 wooden pipes and those of a more costly material, called indestructible, will 
 keep the wooden pipes iu repair forever. For the branch pipes leading into 
 the houses, Mr. Stearns used lead pipes in all the houses supplied from the 
 Springfield Water- AVorks, and has never known any injury to occur to any 
 one using the water; and his own family have used water passed through 
 lead pipe a long distance for many years, without suflering any of the 
 effects frequently ascribed to such water ; nor has he ever heard of a case 
 based upon any better testimony than " they say so." The water that sup- 
 plies Springfield comes from several springs, improved by digging, and we 
 have no doubt that there are hundreds of other villages that might be 
 watered in the same way, greatly to the comfort and health of the inhabit- 
 ants. There is anotlier advantage besides cheapness in wooden pipes. It is 
 the ease with which they are tapped, wherever and whenever a branch is to 
 be taken off, and they are also easily repaired. We hope that not only vil- 
 lages, but farmers, wherever a spring exists above the level of the farmstead, 
 
318 
 
 THE FARMERY. 
 
 [Chap. III. 
 
 will avail tlieinselves of its benefits. Many farmers have chestnut or cedar, 
 tlie best of timber, which they could have prepared at very small expense by 
 their own hands, and get an aqueduct that would, in case of sale of the farm, 
 pay ten times its cost; and it would be worth still more to the owner, for it 
 would afford him a constatit enjoyment. 
 
 There is a very curious manufactory of wooden aqueduct pipes at Elmira, 
 N. Y. A large pine log is cut up into a scries of pipes, from an inch bore 
 to ten or twelve inches, taking one out of the other, leaving the sides from 
 one to two inches thick. These pipes are then banded with hoop-iron, drawn 
 by a powerful machine through hot coal-tar, and being buried below the 
 action of the atmosphere, are expected to last for au indefinite period. 
 
 SECTION XVIII.-STACKIXG AND STORING GRAIN ; CORN-CRIBS, PIG- 
 GERIES, AND PIG-FEEDING ; SMOKE-HOUSES, AND CURING BACON. ~~ 
 
 )LTHOUGH, like most of oxir subjects, these are 
 treated briefly, each is worthy of notice, and must 
 have enough, if nothing more, to attract attention, 
 so as to incite the reader to look further into the 
 matter. 
 One of the indispensable buildings of a farmery is a 
 good storehouse for grain. Upon a small farm, a room 
 in the barn can be set apart for the storage of small 
 ;rain, but it is more liable to the dei^redations of rats 
 and mice than in a building made purposely for a gran- 
 ary. Ever^f farmer who annually raises a hundred 
 jushels of ears of Indian corn can not afford to do 
 without a corn-crib, because corn can not be stored 
 safely except in a room with very open sides. 
 
 342. Corn-Cribs. — The best kind of a corn-crib is a 
 building twenty feet wide, and of such length as will give sufiicient capacity 
 —say thirty feet long — for a farm where ten to twenty acres of corn are 
 usually grown. The sides should not be less than ten feet high, and boarded 
 up and down with strips two inches wide, one inch apart. Six feet from the 
 sides, partitions are made in the same way. This leaves a drive-way eight 
 feet wide, so that you can drive in a wagon-load of corn and throw it right 
 and left over the beam into the crib. This drive-way should be made to close 
 at both ends with slat-gates, or lattice-work gates, so as to allow a free cir- 
 culation of air. 
 
 3J:3. Rail-Peu Corn-Cribs.— Cribbing corn, after the Western fashion, in 
 open rail-pens, is considered down East a veiy slovenly method. Yet it is 
 one of the best ways in which it (Mn be stored. It is true it wastes a little 
 
 
Sko. 18.] STACKING AND STORING GRAIN. 319 
 
 by shelling if it remains till spring, but not much if the pens arc so located 
 that the pigs and poultry can bo let in to pick up tlie scattered grains. Tlie 
 ■way to make a rail-pen corn-crib is to take straight fence-rails, as near of a 
 size as possible, and saw part of them into halves of equal length, so that 
 you can laj' up a pen half as wide as it is long, notching the corners so tiiat 
 the rails will come close enough together to prevent the ears falling out. 
 If this can not be done with all of the cracks, they must be stopped by 
 " chinking" from the inside, or b^' boards nailed over. It is usual to build 
 the pen upon a floor of rails, which are sometimes laid on the ground, and 
 sometimes raised upon logs, stones, or blocks. The pen should not be over 
 eight feet high, and wben full is covered with boards held on by a heavy 
 rail or pole. In woodland regions the covering is usually made of " shakes" 
 — split clap-boards, such as log-cabin roofs are generally made of. On the 
 prairies, we have frequently seen straw used for a covering; and we have 
 also seen many thousands of bushels of wheat, both in the chaff and after it is 
 winnowed, stored in the same rude way, b}' simply calking the cracks with 
 straw. 
 
 Nor is it a very wasteful way of storing wheat, if the pen is built upon a 
 hard-beaten spot, where all the grain can be swept up when the pen is 
 emptied. 
 
 "We have also seen corn put \\p in rail-pens without any covering, and 
 kept through the winter without damage, the ears being simply rounded up 
 on top. We have often been told by those who have had a good deal of 
 experience in storing corn in this way, tliat rain does not hurt it — all that 
 does not run through dries out the first windy da}'. Wheat in the chaff will 
 not injure in a long rain-storm, M-hen sinqily piled in a conical heap, if it 
 does not wet at the bottom. 
 
 Great boat-loads of Black Sea wheat are brought down long rivers, being 
 many weeks on the passage, without any covering. The wheat is rounded 
 ' up in the center, somewhat in the form of a roof, and the outside gets wet 
 and grows into a mat, sometimes two inches thick, and that shelters the mass 
 below. It does not strike us as an economical method, but that depends 
 upon circumstances, as it does in cribbing Indian-corn. It certainly never 
 would pay to build expensive cribs to store some of the great crops of the 
 West ; and it has been found good economy, for want of better storage, to 
 let the corn remain where it grew until wanted for use. Even with smaller 
 crops, it may not always be evidence of bad farming where we see the corn 
 stand in shocks until wanted. It certainly keeps better there than it would 
 in a badly ventilated store-room. 
 
 344. Stathets for Stack Bottoms.— In England, it is not considered good 
 economy to build barns enough to store all the grain, and it is therefore 
 stacked out. In this country, if economy warranted the practice of storing 
 all under roofs, necessity would often forbid, and require our groat crops of 
 wheat to be put up in stacks. In England, upon well-conducted farms, 
 where the practice of stacking prevails, the stathels for the stacks to rest 
 
320 THE FARMERY. [Chap. III. 
 
 upon are permanent structures. Some of them are made with stone pillars 
 and caps ; and some with a wooden frame on stone pillars ; and in some in- 
 stances iron has been substituted for wood. The stack being elevated a foot 
 or two, allows a circulation of air, and very much assists the curing of the 
 grain. We recommend farmers, wherever they are in the regular practice 
 of stacking hay and grain, to have a permanent stack yard, provided with 
 stack bottoms, after the English fashion. Even for temporary stacking, 
 building the stack upon the ground is a very wasteful practice. We have 
 seen stacks upon the Western prairie built in a spot, dry at the time, become 
 saturated with water, and half rotted two feet above the ground, before they 
 were used up in winter. For a temporary stack bottom, there is nothing 
 more convenient than fence-rails. We have built long wheat-ricks on the 
 prairie in this way. We took fence-rails and laid them up as though build- 
 ing a worm fence, pretty straight, in two lines about two feet apart at the 
 bottom, and about four rails high, leaning inward so that the two lines of 
 fence touch. Against this upon each side the sheaves were set witii butts 
 on the ground, leaning toward the center until a sufficient bottom for the 
 rick was formed. This leaves an air pipe through the bottom, and keeps all 
 the heads from the ground, and although the water stood some inches deep 
 in a wet time over the spongy soil, all the wheat came out bright and sound. 
 The butts of the lower sheaves only were rotted. The fence sustained the 
 greatest weight of the rick, besides giving it air. 
 
 3i5. The Piggery. — No farmery is complete without a well-arranged pig- 
 gery, which consists of a grain-room, a root cellar, a cooking-room, a feeding- 
 room, a sleeping-room — all xinder cover. All this is requisite upon a farm 
 where only two or three pigs are fatted annually. It is still more requisite 
 where a dozen or more pigs are kept — where the leading object of the farmer 
 is to convert coarse farm products into pork ; except where pigs are wholly 
 fatted in cornfields, as at the West. Upon all other farms a well-arranged 
 piggery is indispensable, and, as we have shown in Section 11, that cooking 
 food for pigs is advantageous, the greater the conveniences for cooking, the 
 more profitable will be the feeding. 
 
 The best arranged piggery we ever saw for convenience and saving of la- 
 bor was built upon the side of a Vermont hill, where potatoes were a lead- 
 ing article in the manufacture of pork. The potatoes were stored in a cave 
 cellar, from which they were shoveled upon a screen, over which they rolled 
 to the large potash-kettle set in an arch some twenty or thirty feet distant. 
 Generally the potatoes thus screened needed no washing ; if they did, pro- 
 vision was made for doing it by a copious stream of water let on as they 
 traversed the screen. The water was let into the kettle from the source sup- 
 jilying the washing water. The floor where the kettle stood contained bins 
 for meal, which were filled from the bags emptied into a spout on the out- 
 side. The cooked food was shoveled from the kettle into a hopper that 
 conducted it into a cooling-trough on the floor below, which stood high 
 enough to allow the swill to run through a long conductor to the feed- 
 
Seo. 18.] PIGS AND PIGGERIES. 321 
 
 trouglis. The objection to this last arrangement was, tliat the swill had to 
 be made thin enough to flow freely. The arrangement, however, was a very 
 perfect one, and worthy of imitation u}ion all similarly situated farms. 
 
 34:6. Railway Cooking Arrangement for Pigs. — We suggested the following 
 arrangement, more than twenty years ago, for cooking food for pigs or any 
 other stock, and we afterward had a model made and exhibited at the fair 
 of the American Institute, which awarded it a silver medal. 
 
 This is the plan : arrange a steam chamber of any given dimensions — saj' 
 three feet by six feet, and three feet high — over a furnace kettle, or any- 
 where that steam could be conveyed into it from a boiler. This chamber 
 has a door at one end, made steam-tight, and rails in the bottom upon which 
 a car travels, and these rails should extend outside to the root-bin, or meal- 
 tubs, or reservoirs of food to be cooked. The car being loaded, is rolled into 
 the chamber, and door closed. "When the food is cooked, shut off steam and 
 open an escape-valve, and then the door, and roll out the car over cooling 
 vats, and open a trap in the bottom of the car, and let the contents drop. 
 These cooling vats may be placed near enough to dip the swill into the feed- 
 troughs, or it may be carried in another car along an alloy, and thence dipped 
 into the feed-troughs, or made to run into them through conductors. Such 
 an arrangement would, without doubt, save a great deal of hard labor, and 
 it would not be very expensive. Whatever the arrangement of the piggery, 
 keep this fact constantly in view, that in some sections of the country the 
 manure which you can make while fatting your pork, if your piggery is 
 well arranged, will prove to be the most profitable part of the pork-making 
 process. 
 
 There is another necessary farm-bnilding which we may as well speak of 
 here, particularly as it is one that may, whenever the situation will admit, 
 very pi-operly be located in the immediate vicinity of the piggery, and it is 
 equally valuable to the farmer as a mine of manurial M'ealth. It is — 
 
 347. The Temple of f loacina. — Every farm-house must have a temple set 
 apart for tliis heathenish deity, but no farm-house should have such a neces- 
 sary appendage a disgrace to civilization, as too many of them are. Such 
 a building should be placed convenient to the house, but never in sight. 
 It should be located in a clump of shrubbery, mostly evergreens, out of sight 
 from the house, or else it should be made part and parcel of some of the out- 
 buildings, so as never to be a prominent object. We have often seen these 
 buildings so placed that they were the most consjiieuous things about the 
 place. A very little refinement in a farmer's family will make it revolt at ex- 
 posing the part of a farmery that should be hidden from public gaze. A 
 very little knowledge of the deoderizing effect of fine, dry, swamp muck, or 
 charcoal, or plaster, or copperas will serve to keep a place that must be 
 visited every day, by every member of the family, so sweet that it never 
 will be offensive ; and the valuable contents of the vault, which should bo 
 always shallow and easy to clean, will then become a source of profit, instead 
 of a nuisance both disagreeable and dis<^raceful. 
 
322 THE FARMERY. [Chap. III. 
 
 348. Snioke-Houses— How to Build aud how to Use Them.— "We lay it down 
 
 as an axiom, tliat the best snioke-liouse over built is a log cabin, with the 
 cracks all open. In such a building you can not confine the smoke so as 
 to smother the meat and spoil it, as it easily can be and often is in a very' 
 tight room. It is not generally understood how much the excellence of 
 bacon depends on the manner in which it may be smoked. Indeed, we look 
 iipon this part of the process as more important than a good receipt for 
 pickling. A ham that is well pickled may be spoiled in smoking it, and 
 then no skill in cookery will take away its dark color and strong, 'rancid 
 taste. To make good hams, there must be a free circulation of atmosphere, 
 so that the smoke never phall become heated. A smoke never should be 
 made in a damp, foggy, or rainy day. 
 
 In building a smoke-house the farmer is more apt to regard external 
 appearances than the object for which it is intended. It may be very strong 
 and neat, but if it be built on wrong principles, it will never give satisfac- 
 tion, and the good wife will be always wondering liow it is that her bacon 
 is not equal to that which she eats away from home. Now, there is no 
 bacon in this country superior to that produced in Maryland, where the 
 smoke-houses are certainly rather primitive in their construction. Thisy 
 are usually made of logs, rudely plastered with clay on the outside, and 
 thatched with straw. The hams are liung upon hooks driven into the 
 rafters. The fire of chii:)s — covered with saw-dust in order to prevent a 
 blaze — is in the middle of the floor — ground floor, generally ; and the smoke, 
 after having done its duty, escapes through the innumerable cracks and 
 openings in the wall and thatch. Such a building is not very ornamental, 
 but it is much more elficicnt than those we frequently see constructed of 
 brick or stone, with tight roof, a close-fitting door, and but one small -aper- 
 ture for the escape of the smoke. The great secret in the art of smoking 
 hams is to dry them in smoke, but not by heat. When they are kept close 
 to tlie fire, they invariably' acquire a disagreeable flavor, and often become 
 soft and greasy. The smoke should not be allowed to reach them until 
 nearly or quite cool, and to effect this some farmers have the fire outside of 
 the building, perhaps twenty or thirty feet distant, and conduct the smoke 
 to the interior through a narrow covered trench. By its passage through 
 the trench, it is cooled and purified, and there is no danger of its giving an 
 unpleasant taste to the meat. A still better plan is practiced by the people 
 of Westplialia, which, as all the world knows, is celebrated for its bacon. 
 The smoking is performed in extensive chambers, in the uppermost stories 
 of high buildings. Some are four or five stories above the ground, and the 
 smoke is conveyed to tliem by tubes from pipes in the cellars. The vapor 
 is condensed, and the heat absorbed by the tubes, so that the smoke is bo;h 
 dry and cool when it comes in contact with the meat. Many of the farni- 
 liouses in Pennsylvania have a somewhat similar arrangement. A i-oom is 
 partitioned oti" in the garret, next to the kitchen chimney, and the hams are 
 hung from the rafters overhead. Near the floor is a small opening in the 
 
Sbo. 18.] SMOKE-HOUSE AND FRUIT-DEYING HOUSE. 323 
 
 chimney, by which the smoke enters tlie apartment ; and instead of return- 
 ing to the flue, it finds its way into the open air througli the innumerable 
 . crevices in the roof. The meat is thus kept perfectly dry, and it will be 
 found to have a color and flavor unknown in that treated in the common 
 method. 
 
 A smoke-house can liardly be too open; where tlic walls and roof are 
 tight, or nearly so, the smoke condenses on the bacon, rendering it flabby 
 and ill-colored. To be sure, when tiiere is good ventilation it takes mucli 
 longer lo complete the process, but tliis delay we believe to be rather bene- 
 ficial than otherwise. Some people have the fault of always being in a 
 hurry, and their bacon is never well smoked. It should be cured gradually 
 and slowly, and this is another reason why the Germans are so successful in 
 the business. In Virginia, two months is not considered a long time for the 
 operation. 
 
 Green sugar-maple chips are the best for the fire, and after maple are 
 ranked hickory, sweet birch, and white ash or beech. Some think well- 
 dried corn-cobs superior to everything else; and they certainly furnish a 
 sweet, penetrating smoke. Saw-dust from hard wood is also excellent for 
 the purpose, but rotten wood should never be used ; and it is said that locust 
 hark will actually spoil the fiavor of hams; and we doubt not that there are 
 many otiier substances which will produce the same result. 
 
 Some persons are always very particular about hanging their hams with 
 the leg end down. They should never be allowed to touch each other, nor 
 touch any flat substance. In hanging large numbers of hams in a crowded 
 room, we have often kept them apart by a small piece of a corn-cob. 
 
 No farmery is complete without a smoke-house, and where the amount of 
 meat to be annually smoked is insufiicient to make it an object to erect a 
 building specially for that purpose, it will be found very easy to set apart a 
 small room in some of the outbuildings, and convey the smoke to it tlirough 
 a long flue. As the building mentioned in No. 349 never will be wanted for 
 the purpose for which it was constructed, when bacon should be smoked, it 
 could, perhaps, be made so as to answer both purposes. 
 
 349. A Fruit-Drying House.^In some sections remote from cities, and upon 
 some farms, fruit-drying is quite an object, and is relied upon by the female 
 portion of the family as a means of replenishing their wardrobe, independent 
 of the general products of the farm. Upon fruit fai-ms it is also made a 
 considerable item of the regular business. All such farms should have a 
 fruit-drying house, built upon scientific principles, to accomplish the objeci 
 in the most expeditious manner, at the least expense. The true principle of 
 drying fruit would be to place it on open-work hurdles, in the flue of a 
 heated air furnace, so that there would be a continual draft of hot air pass- 
 ing through the fruit, carrying^off the moisture into the upper air. The best 
 one we ever saw,heatcd the air in the basement of a three-story building. In 
 the third story, one side of the large brick flue was arranged like the drawers 
 of a bureau, the bottom of the drawers being basket-work. In these, each of 
 
324 THE FARMERY. [Chap. III. 
 
 M'liicli held about a bushel of apples or peaches cut in quarters, the fruit 
 dried with wonderful rapidity. It needed no other attention than changing 
 the drawers once from top to bottom, to equalize the drying, so as to finisli 
 all at once. Other things besides fruit were dried in this flue, such as sweet 
 corn, olcra, pease, tomatoes, etc. 
 
 The following, taken from the Vallci/ Farmer, is the description of a dry- 
 ing-house in use in Wisconsin : 
 
 " It consists of a building of logs, brick, or stone, of any convenient size, 
 say ten feet wide by twelve or fourteen long, and one story high, having an 
 ordinary roof, with a ventilator to admit of the escape of the heat and vapor 
 arising from the fruit. 
 
 "The furnace should open on the outside of the building, at the end. It 
 should be about two feet square. The sides sliould be of brick, and as thin 
 as may be to sustain the top. The flue should lie extended to near the entire 
 length of the building, and then return, forming a parallel flue, wliich may 
 be reduced to two thirds the size of tlie furnace or main flue, terminating in 
 a chimney near the door of tlie furnace. The top of the furnace and flue 
 should bo covered with plates of thin boiler iron ; thicker iron, or a covering 
 of brick or stone, will not admit of a suflicient escape of heat to facilitate 
 the drying process. The fruit is di-icd on trays or hurdles, arranged in three 
 tiers, one above another, with a space of twelve or fifteen indies between 
 them. The hurdles may be two and a half feet wide, six or seven feet long, 
 and three inclies deep. These are made of common boards, with a latli bot- 
 tom, made thin ; tlie laths should be made of hickory, as the fruit is found 
 to dry much more readily on hard wood lath than it does on poplar or other 
 soft wood. Through the length of the building frames are put up to support 
 the hurdles of fruit. These frames or rails extend through openings rtiade 
 in the end of the building opposite the furnace, and corresponding with each 
 pair of rails are wooden shutters. The rails extend on the outside about six 
 feet; upon these the liurdles are placed crosswise; upon each of the hurdles 
 are rollers corresponding with the rails ; being filled with the fruit to be dried, 
 the hurdles are run in like cars upon a railroad. Thus arranged, with the 
 three tiers of rails filled with trays of fruit, about one and a half l)arrels can 
 be dried at once, requiring about twenty-four hours to complete the opera- 
 tion. The trays nearest the fire will, of course, dry the fastest, and, with the 
 convenience of the railroad and the shutters in tlie end of the building, they 
 may be drawn out and changed to the upper rails, when the whole may be 
 finished within the twenty-four hours in the most perfect and uniform man- 
 ner, and without tlie least burning. The fire shoidd be made witliout grates, 
 on the bottom of the furnace, which consumes less fuel, and keeps up a more 
 uniform heat than if placed above the draft. 
 
 "In some instances we have seen pieces ofc old steam-boilers substituted 
 in the place of brick walls for a furnace ; to the boiler is connected and re- 
 turned a pipe of somewhat smaller dimensions, a sheet-iron pipe, which ad- 
 mits of the free escape of heat and speedy drying of the fruit. 
 
Sec. 19.] 
 
 ECOlSrOMY IN BUILDING.— BALLOON FRAMES. 
 
 325 
 
 "The ordinaiT method of drying peaches and apples in Kentucky and 
 Tennessee is to construct a kiln of stone, witii a broad flat top, upon which the 
 fruit is laid, and a fire kept up in the flue beneath till the fruit is sufiiciently 
 dried. This is more expeditious than drying in tlie sun, and the fruit is not 
 so liable to be soiled by flies, yet it is objectionable on account of liability 
 to bum the fruit in contact with the over-heated stone." 
 
 SECTION XIX.-EC0N0M1CAL FARM BUILDINGS, BALLOON FRAMES, 
 CONCRETE WALLS, AND OTHER CHEAP STYLES OF BUILDING. 
 
 fE are satisfied that we can do those who desire to 
 build no greater favor than making them acquainted 
 with the modern style of building, known as " bal- 
 loon frames" — a name that was at first conferred 
 upon them in ridicule on account of their lightness 
 and unsubstantiability. This name is only true as 
 it applied to their lightness. Balloon frames are not 
 ridiculous fi'om any lack of suflicient strengtli. There 
 is need of no stronger building than one made upon 
 this plan, except where it is necessary to have strength 
 of timber to sustain weighty storage or ponderous 
 machinery. For all ordinary farm buildings, we 
 earnestly recommend balloon frames. And we are 
 not alone in our recommendations, though, so far as 
 we know, we were tlie first in recommending them to farmers in the Eastern 
 States. Of late, Geo. E. Woodward, an architect and builder of New York 
 city, has written some exceedingly valuable articles upon this subject, and 
 published them in the Country Gentleman, with illustrations, and to him or 
 them we respectfully refer readers, who may be incited from what we say 
 here, to make further inquiries. 
 
 Among the sensible things said by Mr. "Woodward, are the following: 
 "Economy in the construction of all buildings adapted to the hal)itation 
 or convenience of man has been a study of much interest to those who con- 
 template the erection of luiildings for their own use or for the purposes of a 
 profitable investment ; though we are inclined to think experimental or in. 
 ventive talent has applied itself more to produce some new and cheap build- 
 ing material than to develop the full resources of such materials as are found 
 best adapted to onr wants. 
 
 " Necessity has done much for the building public by introducing 
 to their favorable notice the balloon style of framing wooden buildings— 
 a style which is not well undea'stood in the old settled' and well-timbei'ed 
 portions of our country, but is, with few exceptions, the only plan adopted 
 
326 THE FARMERY. [Chap. III. 
 
 throughout the magnificent agricultural districts west of our great inland 
 seas. 
 
 "The increasing value of lumber and labor must turn the attention of men 
 of moderate means to those successful plans which have demonstrated econ- 
 omy in both, and at the same time preserved the full qualifies of strength 
 and security so generally accorded to the old fogy principles of framing, but 
 which, we presume to say, is inferior in all the true requisites of clieap and 
 substantial building. 
 
 " Any intelligent man who can lay out a right angle and adjust a plumb 
 line may do his own building, for it is without a mortice, a tenon, or brace, 
 and a man and boy can do all the work. This principle is the one applied to 
 the construction of what are technically as well as sarcastically termed bal- 
 loon frames, which, instead of proving a failure, stands with more than 
 30,000 examples of cvei-y conceivaljle size and form, a perfect success." 
 
 350. How to build Balloon Frames. — Tiio following remarks upon the sub- 
 ject we printed some years ago, not only to sho^V^ that much labor and much 
 timber may be saved, but that sawed timber may be dispensed M'ith where 
 it is very expensive. We know that this article enabled many persons to 
 build cheap frames, and as it once did good, we reprint it that it may do 
 much more good in future. The remarks were an answer to the inquiry how 
 to build balloon houses. 
 
 "I would saw all my timber for a frame house, or ordinary frame out- 
 building, of the following dimensions : two inches by eight, two by four, two 
 by one. I have sometimes built them, when I lived on the grand prairie 
 of Indiana, many miles from saw-mills, nearly all of split and hewed stuff, 
 making use of rails or round poles, reduced to straight lines and even thick- 
 ness on two sides, for studs and rafters. But sawed stuff is easiest wrought, 
 though in a timber country the other is far the cheapest. First, level your 
 foundation, and lay down two of the two-by-eight pieces, flatwise, for side- 
 sills. Upon these set the floor-sleepers on edge, 32 inches apart. Fasten 
 one at each end, and, perhaps, one or two in the middle, if the building is 
 large, with a wooden pin. Tiiese end-sleepers are the end sills. Now lay 
 the floor, unless you design to have one that would be likely to be injured 
 by the weather before you get the roof on. It is a great saving, though, of 
 labor to begin at the bottom of a house and build up. In laying ftie floor 
 first, you have no studs to cut and fit around, and can let your boards run 
 out over the ends, just as it hajjpens, and afterward saw them off smooth by 
 the sill. Now set ujJ a corner post, which is nothing but one of the two-by- 
 four studs, fastening the bottom by four nails ; make it plumb, and stay it 
 each way. Set another at the other corner, and tlien mark off your door 
 and window places, and set up the side-studs and put in the frames. Fill 
 up with studs between, 16 inches apart, supporting the top by a line -or 
 strip of board from corner to corner, or staid studs between. Now cover 
 that side with rough sheeting-boards, unless you intend to side up with clap- 
 boards on the studs, which I never would do, except for a small, common 
 
Seo. 19.] 
 
 now TO BUILD BALLOON FRAMES. 
 
 327 
 
 building. Make no calculation about the top of your studs ; wait till ^-ou 
 get to that hight. You may use them of any lengtli, with broken or stub- 
 shot ends, no matter. When you have this side boarded as high as you can 
 rei^cli, proceed to set up another. In the mean time, other workirien can 
 1 e lathing the first side. AVhen you have got the sides all up, fix upon the hight 
 of your upper floor, and strike a line upon the studs for the under side of the 
 joist, and cut a gain four inches wide, half-inch deep, and nail on firmly 
 one of the inch strips. Upon these strips rest the chamber-floor joist. Cut 
 a notch in the joist one inch deep in the lower edge, and lock it on the strip, 
 and nail each joist to each stud. 'Now lay this floor and go on to build the 
 upper story as you did the lower one, splicing on and lengthening out studs 
 wherever needed, until you get high enough for the plate. Splice studs or 
 joist by simply butting the ends together, and nailing strips on each side. 
 Strike a line and saw ofl" the top of the studs even uj^on each side of the 
 building — not the ends — and nail on one of the inch strips. That is the 
 plate. Cut the ends of the upper joist the bevel of the pitch of the roof, and 
 nail them fast to the plate, placing the end ones inside the studs, which you 
 will let run up promiscuously, to be cut oflF alongside of the rafter. Now 
 lay the garret floor by all means before you put on the roof, and you will 
 find that you have saved 50 per cent, of hard labor. The rafters, if sup- 
 ported so as not to be over ten feet long, will be strong enough of the two- 
 by-four stuflf. Bevel the ends and nail fast to the joist. Then there is no 
 strain upon the sides by the M'cight of the roof, which may be covered with 
 shingles or other materials, the cheapest befng composition or cement roofs. 
 To make one of this kind, take soft, spongy, thick paper, and tack it upon 
 the boards in courses like shingles. Commence at the top with hot tar and 
 saturate the paper, upon which sift tine gravel evenly, pressing it in while 
 hot — that is, Mdiile tar and gravel are-both hot. One coat will make a tight 
 roof; two coats will make it more durable. Put up j-our partitions of stuff 
 one by four, unless where you want to support the upper joist ; then use 
 stuff two by four, with strips nailed on top for the joist to rest upon, fasten- 
 ing altogether by nails M-herever timbers touch. Thus you will have a frame 
 without a tenon, or mortice, or brace, and yet it is far cheaper and incalcu- 
 lably stronger when finished than though it was composed of timbers ten 
 inches square, with a thousand auger-holes and a hundred daj's' work with 
 the chisel and adze, making holes and pins to fill tliem. To lay out and 
 frame a building so that all its parts will come together, requires the skill 
 of a master mechanic, and a host of men, and a deal of Iiard work to lift 
 the great sticks of timber into position. To erect a balloon building requires 
 about as much mechanical skill as it does to build a board fence. Any 
 farmer who is handy with the saw, iron square, and hammer, with one of his 
 boys or a common laborer to assist him, can go to work and put up a frame 
 for an outbuilding, and finish it off with his own labor just as well as to 
 hire a carpenter to score and hew great oak sticks and fill them full of 
 mortices, all by the science of the 'square rule.' It is a waste of labor that 
 
328 THE FARMERY. [Chap. III. 
 
 we should all lend our aid to put a stop to. Besides, it will enable many a 
 farmer to improve his place with new buildings, who, though he has long 
 needed them, has shuddered at the thought of cutting down half of the best 
 trees in his wood-lot, and then giving half a year's work to hauling it home 
 and paying for what I do know is the wholly useless labor of framing. If 
 it had not been for the knowledge of balloon frames, Chicago and San 
 Francisco could never have arisen, as they did, from little villages to great 
 cities in a single year. It is not alone city buildings, which are supiJorted 
 by one another, that may be thus erected, but those upon the open prairie, 
 where the wind has a sweej) from Mackinaw to the Mississippi — for there 
 they are built — and stand as firm as any of the old frames of New England, 
 with posts and beams sixteen inches square." 
 
 To this we add something more from Mr. Woodward. He says : 
 
 " We hear and read very much about the policy of cutting mortices, 
 tenons, gains, etc., in the various pieces whicii go to make up the balloon 
 frame. Now it is our opinion, based upon a long and thoroughly practical 
 experience, that he who does much of this will have some misspent time 
 to account for hereafter, besides weakening his building and hastening the 
 decay of the frame. A gain must be cut in the studding for the side girt, 
 unless the dwelling be lined. Gains arc sometimes cut in floor joists for 
 the purpose of locking them over partitions that run through the hight 
 of the building. Rafters projecting over the sides should be notched, to 
 give them a foothold on the plate. These causes would, as a general thing, 
 constitute all the cutting necessary. 
 
 "In building houses one-and-a-half-story high, never cut a gain for the side 
 girt on which to rest the upper-story floor joists, unless the thrust of the roof 
 be well guarded against by secure collar beams. We prefer, when we cut 
 this gain, to use studding one inch wider ibr the sides. Where the building 
 is lined, the side girt rests on top of the lining, and no cutting is necessary. 
 
 " Unplastered buildings, of a moderate size, are sufficiently strong if the 
 girt be nailed directly to the studding M'ithout cutting the gain or recess. 
 
 " We have recommended, in the construction of a barn 24 by 40, alternate 
 studs on the sides, 2 by 4 and 2 by 5, the side girt to be nailed to the narrow 
 stud and let one inch into the wide stud. This would not answer for a 
 plastered building, as the surface is not flush for lathing. 
 
 " Two full story buildings are abundantly strong with 2 by 4 studding and 
 gains cut into them for side girt; the third floor ties the top of the studding, 
 so there is no yield. Tlie joists of the third floor should be placed upon the 
 jilate, the ends beveled to the same pitch of the rafters, and each joist nailed 
 at both ends to each rafter. 
 
 "We prefer to build the second story full for a dwelling-house, as we get 
 more strength, more convenient room, and the real diti'erence in expense is 
 practically nothing. Where the studding is more than five feet high above 
 the second floor of a barn, two or three tie-strips across the foot of the 
 rafters will make all snujr. There should be tie or collar beams on all raftei's. 
 
Seo. 19.] COST OF A BALLOON-FRAME HOUSE. 329 
 
 " lu story-and-a-half Iniildings, it is very desirable that collars be put on 
 securely, so as to prevent any thrust of the rafters ; where the side girt is 
 not gained in, as in small unplastcred buildings, the collars may be nailed 
 or spiked to the rafter. If the side girt is set into the studding, as it should 
 be in a plastered building not lined inside, it makes a weak point in the 
 studding, reducing them from 2 by 4 to 2 by 3, and the collars should be 
 put on in such a manner as to guard against any thrust whatever. The size 
 of tlie building and the judgment of its constructor will indicate the best 
 course to pursue. Buildings of one, two, or more full stories have no collars ; 
 the joists of the upper floor tie the top of the building, and take the thrust 
 of the rafters. In the usual mode of inside lining, one side laps the stud. 
 The ends of the lining of the adjoining side are nailed to a strip fastened to 
 the stud to receive them. 
 
 "We have built balloon frames with green oak studding, basswood siding, 
 and butternut trimmings, that have never yielded. There is a system of 
 compensation among the light sticks of a balloon frame by which the sea- 
 soning process goes on without injury to it. "We liave seen warped surfaces 
 produced by using green oak siding and by careless building, but there is 
 no good reason why a balloon-frame building should not be always square 
 and plumb, and the outside boarding remain secure. 
 
 '• The subject of ta]iering rafters has been pretty thoroughly discussed here- 
 tofore. The same amount of strength can be had with a less amount of 
 lumber. There is an additional labor in sawing such rafters, as well as a 
 different calculation to be made in using up a log to the best advantage. It 
 is necessary always to order this special bill of rafters direct from the mill, 
 and the result will be that the extra cost will, nine times out of ten, over- 
 balance the amount saved." 
 
 351. The Cost of the Author's Balloon House and Barn.— Tliere is not only 
 a saving in lirst cost of lumber, but a very large item will be saved in the 
 bill of carriage, particularly where it has to be hauled a long distance on a 
 wagon. The saving in the carpenter's bill is very large, because so much 
 of the work may be done by persons less skillful than a well-bred carpenter. 
 And then there is a total saving of all that troublesome, dangerous, hard 
 work attendant upon an old-fashioned " raising." 
 
 "We have lately built (that is, we were our own architect) a house and barn, 
 a few miles out of the city of New York, upon the plan we are advocating, 
 and therefore can speak from actual experience of the benefits of the plan 
 in an old as Avell as in a new country. The house, or rather the addition to 
 an old one, is 18 by 2i feet, with an attachment eight feet square upon one 
 side, and a piazza six feet wide on the other. It is one stoiy of lOi feet, and 
 has nine windows and seven doors. Both floors are deadened by a course 
 of boards and heavy coat of clay mortar. The siding is nailed upon studs 
 2 by -i inches, and there are two courses of lath and plastering — one half 
 way between the siding and inside lath. The roof projects, and is orna- 
 mented, and the garret is lathed and plastered, and the lower part divided 
 
330 THE FARMERY. [Chap. HI. 
 
 into four rooms, and all is of good materials and workmaiisliip, at a total 
 cost, except painting and papering, of $450. The sills and sleepers are pine, 
 3 by 7, and the joist 3 by G, sprnee, and all wonld have been just as good, 
 if procurable, 2 by G inches ; and there is not an upright stick larger than 
 2 by 4 of hemlock. This house, notwithstanding its cheapness, is strong, 
 durable, warm, and good-looking. "What more could we have of a ponder- 
 ous, expensive frame? 
 
 Our horse barn is 22 by 24 feet, and 13 feet high, and has but one upright 
 stick in it larger than 2 by 4 inches. As the hay-loft is a high half story, it 
 was thought best to have a center-post, which is 3 by 7, to support the ridge 
 pole in the middle. The studs are covered with smooth pine siding, and the 
 lower story is lined with rough boards, and the building is as strong as wo 
 desire, and cost, completely finished, with good floors, stalls, mangers, doors, 
 and windows, $300. The carpenter's work was only $50. 
 
 "We have dwelt more fully ujDon this subject of balloon frames than upon 
 many others, because we look upon it as one of very great importance. It 
 is one that, if fully understood, would induce and enable farmers to have 
 better dwellings and other farm buildings. 
 
 352. Concrete Walls. — ^The best advice that we can give one who asks for 
 information about making concrete walls, or how to build houses of gravel, 
 or broken stones and lime and sand, is that he buy a little book called a 
 "Home for All," published by Fowler & "Wells, whicli gives all the details 
 of this mode of building. Mr. Fowler directs mixing a large mortar-bed 
 of lime and sand together, with twice as much sand as slacked lime, made 
 quite thin, and well worked. Into this mixture of lime and sand and water 
 the gravel or broken stone is put and evenly mixed, and then shoveled out 
 into a barrow or hoisting tub, and from that dumped into a smaller mortar- 
 bed on the scaffold, where it gets another good mixing, and wetting if 
 needed, and is then shoveled into the box that forms the mold to give shape 
 to the walls. In thlo mold it hardens in one day so that the mold can be 
 removed, but it takes a longer time to dry hard enough to put on the next 
 course. Sncli walls, if well made, are almost as solid as hewn stone, and 
 much cheaper whei'elime is not costly, and where sand and gravel or broken 
 stone can be had for hauling. 
 
 The proportion of materials given in the book referred to for a concrete 
 wall are eight wheelbarrows full of lime, mixed with sixteen barrows of sand 
 into a thin mortar, to which add sixty or eighty barrows of pebbles or rubble- 
 etone. The lime may be of the coarsest kind, and not over one bushel of 
 stone lime to thirty bushels of sand and stones. A wall three stories high 
 is recommended — twelve inches thick for the first, ten inches for the second, 
 and eight inches for the third. To protect the outside plastering, the roof 
 should be a projecting one. 
 
 Wedo not know how far this plan of building can be recommended upon 
 the score of economj'. "We think that will depend very much upon circum- 
 stances. If broken stone or pebbles are very convenient to the building site, 
 
Seo. 19.] CONCRETE WALLS. 331 
 
 and lime to be had for the burning on the phace, or at a small cost, the 
 building will be a clieap one, and not otherwise. Horace Greeley built a 
 large barn of concrete upon his farm in Wesfcliester County, of such stones 
 as are spread over tlie suriaco of these granitic hills. Although it is a very 
 substantial building, our opinion is ^at we could build a good frame, and 
 put the surplus money into other improvements, to a better profit. 
 
 353. Building with Billets of Wood.— A new style of building has been 
 adopted in several places at the "West, where brick and stones are inconve- 
 nient, and sawed lumber and carpenter's work are expensive. The plan is to 
 saw billets of wood of an even length, say one foot long, from limbs of trees ; 
 or split stuff; slabs, we suppose, M'ould answer a good purpose, if Sjilit up into 
 fire-wood size. These billets must be straight enough to pile np well. The 
 wall is made by laying them in lime mortar, and, we believe, in some cases, 
 in good clay mortar, where lime and sand are scarce, and then plastering 
 tlie wall outside and in. The great objection seems to be that the oulside 
 plastering cleaves off, as it does from all plastered buildings exposed to rain, 
 frost, and heat. A friend writes ns inquiring whether there is any composi- 
 tion for outside plaster that will stand the weather. We answer, none that 
 can be wholly depended upon. A mortar made of hydraulic cement 
 (water lime), of good quality, mixed with clean, coarse, sharp sand — two 
 parts of sand to one of cement — would stand until some crack occurred, and 
 water and frost get in behind. Perhaps the mortar described in No. 359 
 will answer the purpose. But as it is cheaper, and perhaps equally good, 
 we would recommend an ordinary coat of plaster, and then take cement and 
 any cheap oil, and mix a pretty thick paint, and put on thoroughly two or 
 three coats. Another good paint may be made as follows : Take four pounds 
 of rosin and one pint of linseed oil, and boil together, adding about an 
 ounce of red lead, and put it on hot, and afterward paint any color you like. 
 If a crack ever occurs, stop it at once with the rosin and oil mixture. We 
 have no doubt that these billets-of-wood houses can be built in many places 
 cheaper than any other, and that they can be made neat, comfortable, and 
 dm-able. 
 
332 
 
 THE FARMERY. 
 
 [Chap. III. 
 
 SECTION XX.-ROOFS AND ROOFING-rAINTS AXD WHITEWASH FOR 
 FARM BUILDINGS-NAILS ^ND JIORTAR-FARM GATES. 
 
 ^' '^^HATEVER the style of building adopted for any 
 of the farmery structures, a good roof never should 
 be lost sight of, for upon that, much of the farm 
 economy depends. A leaky roof on a dwelling de- 
 stroys comfort and property, and is tlie source of 
 many unpleasant days and nights to the family, and 
 sometimes productive of sickness, as well as injury 
 to furniture. A leaky roof upon a barn will destroy 
 every year a greater value of hay and grain than it 
 would cost to make it tight. It is for this that we give 
 special attention to this part of the farm buildings. 
 We also give some valuable hints upon painting and 
 whitewashing, because both beauty and economy 
 may be thus promoted. 
 351. Sawed ShinglcSt — Of all the inventions ever contrived, that of sawed 
 shingles has proved to be one of the least value to the country. The only 
 profit is to the patentee and manufacturer. To every one who has used 
 them, sawed shingles have proved a loss, no matter what the saving has 
 been in first cost, unless the shingles, previous to laying on the roof, were 
 prepared so as to prevent their saturation with water every time the rain fell 
 upon them. It is this repeated saturation of sawed shingles that rots them, 
 and gives us leaky roofs in one fourth the time that s[)lit shingles remain 
 sound. It is true that good shingle timber is becoming scarce, and more 
 and more so every year, and that farmers must have something as a sub- 
 stitute. What that something is we know not, but are quite sure, where 
 economy is studied, that it M'ill not be sawed shingles. If they must be 
 used, let the roof have a very steep pitch. On a flat roof we have known 
 them rot entirely through in five years. Another roof, ten years old, both 
 shingles and roof-boards, when taken off, crumbled into a mass of rotten 
 wood, that scarcely bore any resemblance to boards and shingles. 
 
 "A retired mechanic" writes us that he followed building eighteen years, 
 and prefers sawed shingles if they are planed on the upper side, and says 
 that a smart hand can plane from two to three thousand a day. We think 
 a machine might be constructed to plane one side of sawed shingles without 
 adding much to the cost. Without planing or dipping in boiling oil or tar, 
 we do not believe sawed shingles should ever be used by any one who wants 
 a good roof, or who cares for economy. The writer of a letter now before 
 us speaks in very severe terms of the manufacturers of sawed shingles. He 
 says they are often made of small cross-grained, sapling spruce, and that 
 
Seo. 20.] ROOFS AND EOOFING. 333 
 
 the bark of the tree will last about as long as such shingles on a roof. The 
 carelessness of persons employed to lay shingles is notorious, and a cross- 
 grained shingle is just as apt to be laid wrong side up as right. Tlien the 
 surface wears rough, and water soaks into the wood and rots it through so 
 as to leak in a few months. This writer thinks the fanlt of sawed shingles 
 is much more in the timber than in the manufacture ; that is, that sawed 
 shingles from good, sound, straight-grained timber will last as long as 
 split ones. 
 
 Another letter writer suggests that sawed shingles should never be laid 
 upon a boarded roof, but upon narrow laths, one to each course. He says : 
 
 " I know of a building where the shingles were put on boards and the 
 boards ptit close together, which have been on but a few years and are very 
 leaky ; the shingles and boards have rotted through in places, while other 
 ]iarts are sound and good. I think the reason is, the shingles lie so close to 
 the boards that when they get wet they never dry through ; while if laid upon 
 laths, sawed shingles will last as long as split ones from the same timber." 
 
 Another writer, speaking of the absolute necessity of using something as 
 a substitute for split shingles on account of the scarcity of timber, wants to 
 know why we can not have tile manufactured that will be a better substi- 
 tute for shingles than anything else that we have, both for economy and 
 certainty of having a good roof. " 
 
 A correspondent speaks of shingles cut by a machine patented by J. L. 
 Brown, of Indianapolis, Ind., at the rate of 50,000 a day, that are altogether 
 superior to sawed shingles, even should the latter be planed. This may be 
 so, bnt we have no faith in the economy of using shingles made by any kind 
 of machinery th.at cuts wood across the grain. No shingles thus made will 
 be as durable as split ones, unless saturated with oils or resins, or kyanized, 
 and then they would be as expensive as those made by riving and shaving, 
 or perhaps as much so in the long run as slate or tin. Depend upon it, using 
 poor shingles upon farm buildings is very poor economy. 
 
 355. Preseniug Shingles ou Roofs. — "Some paint roof shingles after they 
 are laid. This makes them rot sooner than they otherwise would. Some 
 paint the courses as they are laid ; this is a great preservative if each shingle 
 is painted its full length, and not by courses." 
 
 Mr. Ed. Emerson, of Hollis, Mass., thus gives, in the I^cw England 
 Farmer, some hints that are worthy of preservation upon shingling roofs. 
 He says : 
 
 "Twenty- three years ago I had quite a lot of refuse shingles on hand, both 
 sappy and shaky, and I laid them on the back kitchen and wood-shed. I 
 liave just examined them, and think they will last at least seven years longer. 
 The building has not leaked, to my knowledge. I soaked these shingles in 
 a very thin whitewash, made with brine instead of clear water. There has 
 been nothing done to them since, although I have no doubt that to have 
 whitewashed or served a coat of dry-slaked lime or tine salt once in two or 
 three years on them, would have been of great advantage to them. 
 
334 THE FARMERY. [Chap. III. 
 
 "As I shingle differently from almost every one else, I will give yon my 
 method, and my reasons for it. However wide the shingles may be, I do 
 not allow the nails to be put more than two inciies apart. Ii<ason — If your 
 shingles are wet or green, and the M-ide ones are nailed at the edges, the 
 shingles must split or one of the nails must draw when the shjngle shrinks. 
 If the shingle is dry, it must huff or crowd the nail out when it swells. 
 Thus your nails are kept in constant motion by every shrink or swell of the 
 shingle till they are broken, pulled out, or the sliingle is split. I do not 
 want the nails driven quite in, or so as to sink the head. /Reason — The 
 heads of the nails hold up the butts of the next i-ow of shingles, and give 
 the air a free circxdation. 
 
 " I lay all my shingles in whitewash. I prefer brine for making it. I 
 line with red chalk. I then whitewash the last course laid down to the 
 line, and after the building is shingled I whitewash the whole of the roof. 
 Reason- — To make the shingles last twice as long as they would without the 
 whitewash, and I consider it much better than just whitewashing the roof 
 after shingling." 
 
 " Whitewashed shingles are never mossy. If slaked lime is sprinkled upon 
 wet roofs, it will prevent moss from growing, and if the shingles are cov- 
 ered ever £0 thick with moss, putting the lime on twice will take all the 
 moss ofi" and leave the roof white and clean, and it will look almost as well 
 as if it had been painted. It ought to be done once a year, and, in my opin- 
 ion, the shingles will last almost twice as long as they will to let the roof all 
 grow over to moss." One who has tried this plan says : 
 
 "I tried it on the back part of my house ten years ago, when the shingles 
 were all covered over with moss, and appeared to be nearly rotten. I then 
 gave the roof a heavy coat of lime, and have followed it nearly every year 
 since, and the i-oof is better now than at first." 
 
 356. Roofs — their Form — Shingled and f omposition. — It is a serious defect in 
 our roof architecture that the roofs of most buildings are so flat that the rain 
 finds its way under the shingles. Sharp roofs keep out i-ain and last longer, 
 and although the first cost is a trifle greater, they are cheaiicr in tlie end. 
 "We know of no composition we can recommend to cure leaky shingled 
 roofs, though several are advertised as sure cures. We are afraid they are 
 like the Indian's gun — ■" cost more than he worth." There is a patent 
 asphalt roofing felt tliat can be easily put on bj' any person. It weighs only 
 about forty-two pounds to the square one hundred feet. It must be stretched 
 tight and smooth, overlapping full one inch at the joinings, and closely 
 nailed through the overlap. It should then receive a coating of coal-tar and 
 lime — two gallons of the former to six pounds of the latter — well boiled to- 
 gether and kept constantly stirred while boiling, and put on with a swab, 
 and while it is soft some coarse eand may be sifted over it. This coating 
 needs renewing once in five or six years. 
 
 There is also roofing-paper — a soft, spongy substance, saturated with tar, 
 which comes in rolls, and is sold for about four cents a pound. It is un- 
 
 « 
 
Seo. 20.] ROOFS AND ROOFING. 335 
 
 rolled upon a flat boarded roof, and tacked sufBciently to hold it in place, 
 and then saturated with tar, which glues it to the boards, and it is covered 
 with sand ; then more tar and another coat of sand. 
 
 Another receipt' for composition roofs is given as follows: TaVe coal-tar, 
 300 pounds ; hydraulic lime, 150 pounds ; ocher, 75 pounds ; and whiting, 
 40 pounds. Mix these substances together thoroughl}-, and they will make 
 a suthcient quantity of cement to cover 1,000 square feet of roofing. It 
 should be laid down upon strong cotton sheeting nailed to the roof-boards, 
 and on ihe lop of all a coat of dry sand or gravel is to be laid and pressed 
 firmly down. The cost of such roofing is about $2 30 per ten square feet. 
 It answers very well for sheds and other outhouses. 
 
 357. Protecling Roofs from FirCo — In a country where wood is used as fuel, 
 and where roofs are made of pine shingles, and where droughts are among 
 the things occurring every summer, there is constant danger of conflagration 
 of the dwelling from sparks on the roof. This may be guarded against in 
 a very great measure in a very inexpensive manner. A roof carefully 
 washed with three coats of either composition mentioned in Nos. 300 or 361, 
 once in three j-ears, would be a hundi-ed times less liable to take fire from 
 sparks than an unwashed roof. 
 
 Such a wash would be a very cheap preventive of danger from fire. So is 
 the paint mentioned in the following extract: 
 
 " A wash composed of lime, salt, and fine sand or wood ashes, put on in the 
 ordiuar}' way of whitewashing, renders the roof fifty-fold more safe against 
 taking fire from falling cinders or otherwise, in cases of fire in the vicinity. 
 It pays the expense a hundred-fold in its preserving infiuence against the efiect 
 of the weather. The older and more weather-beaten the shingles, the more 
 benefit derived. Such shingles generally become more or less warped, rough, 
 and cracked ; the application of the wash, by wetting the upper surface, re- 
 stores them at once to their original form, tiiereby closing the space between 
 the shingles, and the lime and sand, by filling up the cracks and pores in 
 the shingle itself, prevent its warping for years." 
 
 358. (heap Nails. — The cheapest nails are not the lowest priced ones. 
 Cut nails, made of iron of good quality, "will outlast such as can be bought 
 at the lowest rates about two to one. Never use nails for siding or shingles 
 that break very easily ; and be'sure not to allow your carpenter to use 
 nails of very light weight. First-rate cut nails of suitable size may cost 
 twenty-five per cent, more than the poorest and lightest, but in the end they ■ 
 are a hundred per cent, the best. Nails made of poor iron will rust out a 
 great deal quicker than nails made of good tough malleable iron, like th3,t 
 known as old sable. It is about on a par with sawed shingles to use the 
 cheapest or lowest priced nails, particularly for shingling. In building 
 balloon frames none but the very best quality of nails should be used. 
 Those known as "fence nails" are far the best, being made of thicker iron 
 than the ordinary nails of the same number. 
 
 Weather-Proof JVails — are described in the Ohio Cultivator. It says : 
 
336 THE FARMERY. [Chap. III. 
 
 "Everybody knows what a difficult thing it is to nail roof-boards and 
 weatlier-boards so that they will hold for a good length of time. There are 
 many other places in which it is nearly impossible to make nails do the 
 office for which they are intended. A remedy — and the only one I ever 
 saw — I discovered a few years ago ; it is very simple and never fails. Take 
 teni^enny, malleable nails, and place the head in a vice, and with a pair of 
 pincers grip the nail near the point, and twist it half-way round, minding to 
 make the twist somewhat elongated. In driving, the nail becomes a screw, 
 and neither sun nor hammer can M'ithdraw it." 
 
 359. To make Morlar Impervions to Wet, — " Provide a square wooden 
 trough, say S by 4 feet, and 2 feet deep ; put in a quantity of fresh lump 
 lime, and add water quickly. When the lime is well boiled, having assisted 
 that operation by frequent stirring, add tar (the heat of boiling lime melts 
 the tar), stir it well, taking care that every jjart of the lime is intimately 
 mixed with the tar; then add sharp sand or crushed clinker, and stir it well 
 as before; after which, in about twenty hours, it will be fit for use." 
 
 3(50. Cheap Paints for Farm BuildiugSt— Tar and lime may be used, in 
 order to make either wood or mason-work waterproof. The best way to 
 prepare gas or coal tar for coating wood-work with, is to get some of the 
 best stone lime, avoiding chalk lime, and slake it to a fine powder; boil the 
 tar for about half an hour, and then add about one pint of hot lime-powder 
 to a gallon of tar, and boil it about half an hour longer, stirring it conlinu- 
 ally, and using it hot. 
 
 We give the above as we find it, but prefer the following: Take the com- 
 mon " Kosendale cement" (water lime), sift it, and mix the fine powder with 
 coal-tar, or any kind of oil, and it will make an excellent paint, of a diab or 
 brown-stone color. 
 
 361. Permanent Whitewash Paiut. — Another excellent paint is made of 
 the following ingredients: that is, one bushel of well-burnt white lime 
 unslaked, 20 lbs. Spanish whiting, 17 lbs. rock-salt, 12 lbs. brown sugar. 
 Slake the lime, and sift out any lumps or stones, and mix it into a good 
 whitewash, say with 40 gallons of water, and then add the o'.her ingredients, 
 and stir all well together, and put on two or three thin coats with a common 
 whitewash brush. Five dollars' worth of this cheap white paint will give 
 the farmery such an improved appearance that it would sell readily for $100 
 more than it would in its old wood-colored coat and neglected-looking con- 
 •dition. This mixture makes a paint that is very cheap, and makes a coat 
 that does not wash off or rub oft', and looks well — that is, makes the loiigh 
 boards of a barn, shed, outbuilding, or fence look much better than in their 
 natural wood-colored condition ; and it will, by its antiseptic qualities, tend 
 beneficially toward the preservation of the wood. It can be tinted by any 
 of the articles mentioned in 362. This is intended for tlie outside of build- 
 ings, or where it is exposed to the weather. In order to give a good color, 
 three coats are necessary on brick and two on wood. 
 
 Another cheap and good paint may be made of any pure clay ; such as 
 
Seo. 20.] PAINTS AND WOITEWASH. 337 
 
 potters use is the right sort; or that known as "bhie clay" will answer a 
 good purpose in its natural condition. Even such as brick-makers use can 
 be washed of all its impurities, by thoroughl}' mixing it with a large bulk 
 of water, and letting it settle and then draw off the water, and also reject 
 the bottom of the mass, which will contain all the sand. 
 
 To prejjare clay for paint, first dry it, either in the sun or by fire, and 
 then pulverize it fine, which may bo done with a cannon-ball in a swinging 
 iron pot. Then sift it, and mix with boiled linseed oil, pretty thick, and you 
 will have just as good a fire-proof paint, or a weather-protecting paint, as 
 any that are sold as such in the shops. 
 
 In some localities soft slate, or slate-dust from a manufactory, can be had, 
 and that will make a good " mineral paint." 
 
 362. Zinc and Lime Whitewash Paint. — Take a clean barrel that will hold 
 water. Put into it half a barrel of quicklime, and slake it by pouring over 
 it bgjling water sufiicient to cover it four or five inches deep, and stirring it 
 until slaked. When quite slaked, dissolve it in water, and add two pounds 
 of sulphate of zinc and one of common salt, -which in a few days will cause 
 the whitewash to harden on the wood-work. Add sufiicient water to bring 
 it to the consistency of thick whitewash. 
 
 To make the above wash of a pleasant cream .color, add three pounds of 
 yellow ocher. 
 
 For fawn color, add four pounds of umber, one pound of Indian red, and 
 one pound of lampblack. 
 
 For gray or stone color, add four pounds of raw umber and two pounds 
 of lampblack. 
 
 The color may be put on with a common whitewash brush, and will be 
 found much more durable than common whitewash. 
 
 363. Stucco Whitewash.— To make a brilliant stucco whitewash for all 
 buildings, inside and out, take a bushel of clean lumps of well-burnt lime, 
 slaked ; add one fourth pound of whiting or burnt alum pulverized, one 
 pound of loaf sugar, three quarts of rye flour, made into a thin and well- 
 boiled paste, and one pound of the cleanest glue, dissolved. This may be 
 put on cold within doors, but should be applied hot outside. 
 
 The following is another receipt for stucco whitewash : Take half a bushel 
 of nice unslaked lime, slake it with boiling water, covering it during the 
 process, to keep in the steam. Strain the liquid through a fine sieve or 
 strainer, and add to it a peck of salt, previously well dissolved in water ; 
 three pounds ground rice, boiled to a thin paste, and stirred in boiling hot ; 
 half a pound Spanish whiting, and a pound of clean glue, which has been 
 previously dissolved by soaking it first, and then hanging over a slow fire, 
 ill a small kettle inside a large one filled with water. Add five gallons of 
 iiot water to the mixture, stir it well, and let it stand a few days covered 
 from the dirt. It should be put on qxiite hot ; for this purpose it can be 
 ivcpt in a kettle on a furnace. It is said that about a pint of this mixture 
 ^'•■]l cover a yard pnnare of the outside of a house, if properly applied. 
 
338 THE FARMEKY. [Chap. III. 
 
 The size of the brushes used should be adapted to the work required. This 
 composition answers as well as oil paint on wood or stone, and is cheaper. 
 It retains its brilliancy for many years. 
 
 Coloring may be jjut in, and made of any shade you like. Spanish brown 
 stirred in will make red pink, more or less deep to the quantity. A delicate 
 tinge of this is very pretty for inside walls. Finely pulverized common 
 clay, well mixed with Spanish brown, makes a reddish stone color. Yellow 
 ocher stirred in makes yellow wash, but chrome goes further, and makes a 
 color generally esteemed prettier. In all these cases the darkness of the 
 shades is determined of course by the quantity of coloring used. It is diffi- 
 cult to make rules, because tastes are different; it would be best to try 
 experiments on a shingle, and let it dry. We have bee;i told that green 
 must not be mixed with lime. The lime destroys the color, and the color 
 has an effect on the whitewash, which makes it crack and peel. Wlien 
 walls have been badly smoked, and you wish to have them a clean whijc, it 
 is well to squeeze indigo plentifully through a bag into the water you use, 
 before it is stirred into the mixture. If a larger quantity than five gallons 
 be wanted, the same proportion should bo observed. 
 
 The above is the receipt that has been so long in circulation as that which 
 gave the original whiteness to the " White House" at Washington. 
 
 In oil painting, never suffer a painter to tise unboiled oil upon any of 
 your buildings or farm imi^lements, and certainly never sufier yourself to 
 leave any of them unpainted. Take care that the painter is not too liberal 
 in the use of his " di-iers" in your paint. Tint is to please the eye. Oil 
 preserves the wood, and one coat of boiled oil is worth three of unboiled. 
 
 All farm buildings should be oil-painted or whitewashed. Whitewash 
 lends to j)reserve wooden buildings more than any ordinary coat of paint, 
 particularly such a one as would be given to iinplaned boards, which is a 
 better condition for whitewashing than when smooth. The ice-house should 
 be whitewashed on the outside as often as it is necessary to keep it perfectly 
 white, as that is an important aid toward keeping it cool. 
 
 364. Farmery GateSi — No farmery can be considered at all complete that 
 is not amply furnished with gates, constructed with particular adaptation to 
 their several situations, and arranged in the most perfect manner with 
 hinges, latches, and fastenings. Tliere is to us no greater evidence of a 
 slovenly farmer than is furnished by half-dilapidated, or at best incon- 
 venient, bar?. These bar-ways may answer in field fences, where they are 
 seldom to be opened, but they are a nuisance about the farmery. Most of 
 the farmery gates should be self-closing, and made to swing so that an 
 animal could not push against and open the gate. In some places a gate 
 can not be made to swing either way ; then it must be made to open upon 
 some one of the several plans that have been made for convenient opening 
 in a straight line. One of the sort patented by some one in Oneida County, 
 N. Y., is a very easy working gate. It is made of very light stuff, and for 
 a wagon-way a pair, each five feet long, are set between posts nine feet 
 
Sec. 20.] IMPROVED FARM GATES. 33D 
 
 apart, and held against tlie posts by guides, which allow of their easy work- 
 ing. Attached by bolts to the upper outward corner are two light strips of 
 boards, one on each side, and two others in the center. These strips are 
 hinged to posts at the bottom in the same way they are at the top to the 
 gate, and when the gate is shut they stand at an angle with the gate like 
 braces, and when the gate is to be opened it lifts upon these centers, and 
 passes over and stands alongside of the fence in a straight line. Such 
 gates are very convenient in case of snow, as they lift np right out of the 
 drift, so as to allow a passage without shoveling. When closed, the two 
 gates are fastened together by hooks or bolts, or any convenient fastening. 
 As they are not hinged to the posts, these may be made quite light. 
 
 Another plan of a gate, to open without swinging, is to suspend it upon 
 rollers running upon a rail overhead. Some one has improved upon this 
 plan to make the gate openable by a person driving up in a wagon. This 
 is done by lifting the gate at the front end by a lever, which changes the 
 level of the railway-bar upon which the gate hangs, so that it rolls back by 
 its own gravity. The principle will be understood by looking at any gate 
 made to run ofl' on rollers upon a bar above the top, by supposing one end 
 of the bar raised, when the gate rolls down. A touch of another lever, as 
 the wagon passes, reverses the piosition of the bar, and the gate rolls back 
 again to its closed position. 
 
 The great objection to this, and almost all the plans for opening gates from 
 the wagon, without alighting, is the unsightly appearance of the gallows- 
 frame necessary to support the levers, ropes, and pulleys. 
 
 "We have seen gates which opened by the weight of the wagon passing 
 over a bar, and shutting it by another touch of a bar on the other side. 
 There is a good deal of machinery to this plan, as well as to nearly all of 
 the contrivances to open and shut gates without labor, and the most of them 
 are very liable to fail of working easily. 
 
 The most simple one of the kind, and, so far as we could judge from a 
 single examination, the least liable to get out of working order, was one ex- 
 hibited at the New York State Fair of 1860 by Jasper Johnson, of Genesee 
 County. One of the greatest advantages of this invention is, that it can be 
 applied to gates already in use, so that one can be opened by a person iu a 
 wagon and shut as he passes through without stopping. 
 
 Any erection that will sustain a single cord upon each side, and a bar of 
 iron about four feet long, of the size of an ordinary crowbar, and one or 
 two small rods, comprises all that need be added to any gate to fix it for 
 this convenient way of opening. This bar of iron is made in a peculiar 
 form, and attached to the gate-post by a loose joint at one end, while the 
 other works in a long staple attached to the gate. Its position is moved by 
 pulling the cord, and its specific gravity being thus changed, throws the 
 gate open, and shuts it by another pull at the same cord, or the other one, 
 as the person drives through. The attachment certainly is a very cheap 
 one, and its operation was entirely satisfactory. 
 
340 TEE FARMERY. [Chap. III. 
 
 Kobiusou's Farm Gate is the name given to one invented, and not 
 patented, by Dr. D. A. Eobinson, Union Springs, N. Y., of which we think 
 pretty higlil}'. One of its good points is tlie cheapness of tlio hinges. Tliese 
 are figured and fully described in that excellent pocket manual, the " Hural 
 Eegister," jjublished by Luther Tucker, from which we copy the following 
 description : 
 
 "This gate may be made of any light, tough, and durable wood, but an- 
 swers a good purpose wlien made of pine, with the npright or cross-bars of 
 white oak. The upper horizontal bar is 11 feet long, 3 inches wide horizon- 
 tally, and 5 inches deep at the hinge, and 2| at the latch. The mortises are 
 only two thirds through, to shut out rain, and f by 3 inches- — except in 
 the heel-piece they are an inch and quarter. Tlie heel-piece is 3 by 5 inches, 
 and the four lower bars arc boards 1 by 5 inches. The cross-bars, the 
 brace, and the two pieces forming the head-piece are 1 by 3 inches. They 
 are secured at each crossing by wrought or annealed nails. The head-piece 
 consists merely of two boards, nailed on each' side of the horizontal boards. 
 The hinge is made by driving an iron rod, at least three fourths of an inch 
 in diameter, into the top of the ])ost, which turns in a hole seven eighths of 
 an inch, bored two thirds of the distance through the large end of the npper 
 bar. A short iron plug driven into this hole makes a hard resting point 
 that will not wear, for the gate to turn upon. The lower hinge is a wooden 
 block, attached to the lower part of the gate, and hollowed out so as to fit 
 upon the ronnd jiost. The latch is not attached lo the gate, but to the post, 
 so that it catches over the top rail, which is made lo project beyond the end 
 of the gate for that purpose. If it is preferred to have the latch fastened on 
 the gate lower down, a pin can be fixed in or one of the slats projected for- 
 ward. This gate is not liable to sag much, because there is no xoeight what- 
 ever straining the hijujcs, except while the gate is open. A pin or spike is 
 driven into the jjost on which the hinges turn, just above the lower hinge, 
 to prevent hogs or other animals from lifting the gate, but which does not 
 prevent it from being i^laced on its hinges while open. The post holding 
 the latch may bo i-ougli, except the face, and the other need be rounded only 
 where the hinge turns. 
 
 " The whole cost of the hinges need not exceed ten cents, and the gate 
 itself may be made at no greater expense than a common set of bars." 
 
 An excellent gate-fastening is one in common use in Mississippi and some 
 other Southern States, which we have never seen in any of the Northern 
 ones. A gain is cut in the corner of the post, say three by four inches, and 
 in that is hung a. piece of flat bar iron, say one inch wide and one fourth 
 of an inch thick, bent in somewhat the form and of the length of half a 
 horse-shoe, the npper end hammered thin and bent over a staple which is 
 driven in the npper part of the gain, so that the lower end of the bar rests 
 on the bottom, near the outer edge. An iron pin in the upright of the gate 
 strikes against this little bar and lifts it up and passes beyond the end of it, 
 when it falls back, and no power but a man's hand can open the gate — but 
 
Sec. 20.] IMPROVED FARM GATES. 3-11 
 
 for that it is. very easy. It is one of the best latches we evex* saw to prevent 
 iinrnly animals from getting the gate open, and it is very cheajilj' made, and 
 wonld he a very safe one for all the gates about tlie farmery liable to be 
 opened by the hogs and cattle. 
 
 The following is a good jjlan of a new gate-hinge or plan of fastening the 
 upper hook or eye of a gate-hinge into the jjost, which we have seen de- 
 scribed lately, and like it so much that we wisli all farmers to know it. In- 
 stead of driving the hook into the post, a hole is bored quite through it just 
 at the top of the upper rail of the fence, and the shank is made long enough 
 to reach some inches beyond the post, and has several notches on its upper 
 side. Bore a hole through the rail and put a small bolt with a loophole at 
 one end, to bite into a notch of the hinge, and nut at the other. Of course, 
 when screwed up, the sag of the gate can not draw the hook; but If neces- 
 sary it can be made shorter by shifting a notch or two. 
 
 The following dimensions of a good strong farm gate, and the timber 
 for it, may be taken as pretty near correct : 
 
 Space between posts, 12 feet ; bight of posts above ground, 5i feet ; slats, 
 12 feet long, 5 inches wide, 1\ inches thick for the bottom one, and 3 inches 
 wide for the other six ; bight of gate, 4i feet. The ends into Avhich the 
 slats are tenoned are 2i by 3 inches, 5 feet long. Some prefer to have the 
 top rail double the strength of the middle slats. There are two braces and 
 a center upright fastened with small screw bolts or rivets. If a strap hinge is 
 used, they should be riveted to the slats. If straps are not used, the iron 
 should be made to clasp the upright, and not go through it. 
 
 In soft land, like that of the Western prairies, it is difficult to make gate- 
 posts stand firm, and they are often formed with a gallows-looking cross-bar 
 overhead. 
 
 A better way is to put this cross-bar and braces at the bottom. Frame 
 the posts and braces into a sill, and bury that three feet deep, and it will 
 effectually prevent the posts from sagging, and then you may use them of 
 much smaller timber. 
 
 A good light gate is made as follows : Take strips of boards three inches 
 wide, half an inch thick, of any strong wood ; pine, free of knots and M^eak 
 spots, will answer, and cut them suitable lengths for the length, and others 
 for the width of the gate. Lay down ujjon a smooth surface several of the 
 short strips not over three feet apart, and then lay the long strips on for a 
 close gate three inches apart at the bottom, gradually widening to the top ; 
 then lay cTown short strips directly over the others, and nail through these 
 with clinch nails. "We have sometimes reversed the order, and used two long 
 strips opposite, instead of two short ones, which makes a stronger but heavier 
 gate. Small gates made either way are quite strong enough. The hinges 
 should be of a peculiar form, with long straps to clasp the gate so as to rivet 
 through and hold the wood between the iron. 
 
 In Section LII., in an article upon farm fences, something will be found 
 about how to make gate and fence posts durable. 
 
342 
 
 THE FARMERY. 
 
 [Chap. III. 
 
 SECTION XXI.-LIGHTNING CONDUCTORS-PROTECTION OF FARM 
 BUILDINGS FROM FIRE. 
 
 T is a great question for the owner of fanm buildings 
 (r whether he can protect tliem from destruction by light- 
 ning-rods. Being almost faithless ourselves, yet not quite 
 sure that lightning-rods are all useless, we will give the 
 opinions of several who have investigated the question. 
 365. Opinions of the Value of Lightning Conductors. — ^Mr. 
 Quinby, a practical electrician, gave the following view 
 of the subject in an article in the Wb)'ki7iff Farmer : 
 
 " There can be few subjects of equal importance less gen- 
 erally understood, or perhaps more universally misunder- 
 stood, than the science of electricity in its application to 
 lightning-rods. The errors of the past are very slow of erad- 
 ication, although it must be admitted that progress has been 
 made since the famous discussion in George III.'s time as to 
 whether lightning-rods should be pointed or blunt at the top. So little is 
 known of electricity itself, and so largely is it a purely speculative science, 
 that it is no wonder that doctors disagree. 
 
 " It is clear that the most valuable opinion on this subject is to be looked 
 for from those who have made the study of electricity and thunder-storms a 
 specialty, with the practical result in view of ascertaining the most effectual 
 means of protection, and it is to be remarked that those who have done this 
 have arrived at similar conclusions. 
 
 " It is a common error to suppose that lightning-rods should be insulated, 
 and a very natural one, arising from a superficial view of the subject. It 
 should be remembered that currents of electricity in a rarefied state are con- 
 tinually circulating through masses of matter silently and without producing 
 any manifest effects ; the effect of insulation is to interrupt the flow of these 
 currents, whereas the lightning-rod ought rather to be so contrived as to fa- 
 cilitate their free passage from the building to the rod, and thence to the at- 
 mosphere, and vice versa. 
 
 "During that disturbed, electrified condition of the atmosphere, which 
 we call a thunder-storm, these currents circulate in greater volume and 
 rapidity, and a sufficient interruption of them brings about a discharge of 
 lightning. 
 
 " At such times the insulation of the rod from the building is a most ex- 
 cellent device for causing an explosion of accumulated electricity either 
 from or into the building, as the case may be. The rod, on the contrary, 
 ought to act somewhat as a safety-valve, as regards any electrical disturb- 
 ance within the house, neutralizing it gradually, and thus preventing an 
 explosion. 
 
Seo. 21.] LIGHTNING-CONDUCTORS. 343 
 
 "Should the rod be struck by lightning, its etficacy in carrying off the 
 shock will depend on whether it presents a continuous chain of conducting 
 matter, in the line or direction of the discharge, which is superior to any- 
 thing witliin the building. If it does not, all the glass in the world will not 
 prevent fluid from leaving the rod and passing through the building on such 
 conductors as it may find there, 
 
 "The true theory or purposes of the lightning-rod is to facilitate electric- 
 ity in following out its natural laws and tendencies, and nothing can be 
 more truly unscientific or practically absurd than the idea of presenting a 
 barrier or obstruction to lightning." 
 
 This theory fully accords with all our information upon this subject. 
 
 The following are the views of another practical electrician, S. D. Cush- 
 man, of South Bend, Ind. He says : 
 
 " A conductor for the protection of life and property from the effects of 
 lightning should be so constructed and applied that it will add to the con- 
 ducting power of the building so as to admit of the most intense discharge 
 being securely transmitted, without explosion or damage to the building or 
 structure. 
 
 " Attraction. — The utility of a lightning-rod does not consist in its 
 attracting 2>ower. 
 
 " Insulation. — -The conducting power of a lightning-rod is frequently 
 diminished by insulation, and never is increased; it should never be insu- 
 lated. It may be fastened to the building with brackets of wood or staples. 
 
 " Points. — The attaching to the upper end of a lightning-rod a copper, 
 silver, gold, or any kind of a point, does not add to the utility of the rod, 
 but when attached always diminishes, more or less, the conducting power 
 of the rod, by breaking up the perfect continuity that a rod should possess, 
 and interrupting its polarity. 
 
 " Size. — An iron lightning-rod should never have less than three inches 
 conducting surface, nossessing solidity sufficient to have strength and dura- 
 bility. 
 
 " CoNSTKUCTiON. — A lightning-rod should not possess in its construction 
 sharp edges, neither should it be in sections nor pieces (the sections or pieces 
 being hooked or screwed together), but it should be all in one piece, possess- 
 ing an equal, even unbroken surface in its whole length. 
 
 " Application. — In the application of the rod to the building the conduct- 
 ing power of the building should be brought into the general line of con- 
 duction ; that is, the rod should come in good metallic contact with all the 
 important metallic substances upon the outside of the building, such as 
 gutters, spouts, etc. That part of the rod that conies in contact with the 
 earth should be increased in its surface and conducting power, so that there 
 will not be less conducting surface in contact with the earth than is exposed 
 to the building and atmosphere, and care should be taken that the earth 
 around and in contact with the rod is always moist. 
 
 " Shade-Tkees. — Shade-trees should not be relied upon as a protection 
 
344 THE FARMERY. [Chap. III. 
 
 from lightning, because tlieir conducting power varies so much, and very 
 often, when in their best conducting condition, they are damaged by the 
 lightning passing over them. The conducting power of shade-trees, then, 
 should be increased and made permanent by the application of an iron or 
 copper wire. 
 
 " Eekoes. — One of the errors committed in protecting from lightning is 
 an improper estimate placed upon the conducting power of the bnilding, 
 compared with the material used for protection. When a lightning-con- 
 ductor terminates or ends in a substance of imperfect or less conducting 
 power, it is reduced to the conducting power of the body in which it ends. 
 
 " Dry earth is a non or imperfect conductor. Earth owes its conducting 
 power to water. According to Cavendish, the conducting power of iron, as 
 compared to the conducting power of water, is as four hundred millions to 
 one. The electrical size of the mass of lightning-rods is not as large as a 
 common knitting-needle, being reduced by so small a portion of the rod's 
 surface coming in contact with damp earth. 
 
 "Another error is in constructing the rod in sections. Rods properly 
 applied, of perfect continuity, being all in one piece, without coupling or 
 hooking, have never failed to carry the quantity of electricity that may 
 have passed upon them safely and successfully to the ground, while the sec- 
 tioned, or the rods hooked or screwed together by burs or nuts, have fre- 
 cpieutly failed to do their duty. Scarcely a day or a week passes during 
 the summer months but we hear of the failure of the coupled lightning-rods. 
 
 " However well the fact of electrical conduction may be known — however 
 well scientific men may be agreed that by the judicious employment of 
 metallic bodies we may increase protection against lightning, certain it is 
 that they have taken too much upon trust, and neglected the investigation 
 of the facts. 
 
 " Men ignorant of every electrical principle have professed to furnish 
 security against lightning, until the scientific electrician who attempts to 
 sell lightning-rods is received with jeers and contempt as a designing 
 swindler ; his story is listened to with impatience, and his jjresence consid- 
 ered an intrusion." 
 
 The rod recommended by Mr. Cushman is made of four copper and four 
 iron wires laid together, with a pointed cap on the top, and some metal plates 
 at the bottom. There must never be a splice in the wire, but several wires 
 carried up from the ground, in the main body, may be taken off and con- 
 nected with the metal roof of a building, or with other points. 
 
 The following language we used upon a discussion of this suhject before 
 the American Institute Farmers' Club : 
 
 "As lightning-rods are most commonly constructed, they are not what 
 they are generally conceived to be — tliat is, attractors of an approaching 
 thunderbolt, picking it up on the sharp points, and conducting it down a 
 carefully insulated rod to a safe deposit in the earth. If a lightning-rod 
 ever performed such a service, I should like to be assured of the fact. At 
 
Sec. 21.] LIGHTNING CONDUCTORS. 345 
 
 present I have no faith. I believe that, wlien the atmosphere is surcharged 
 with electricity, any metallic substance will absorb it just in proportion to 
 its natural affinity, and if tliere is an excess of fluid in the air around the 
 top of a rod, it will run down it to the earth, just as it runs along telegraph 
 wires ; and experience has proved that a bright, sharp uoint is more attract- 
 ive than a blunt one. 
 
 "Still, a blunt rod will become charged, and so will a metal roof, and, 
 more than all, an iron building, and the water-conductor, or whatever other 
 metallic substances reach from the top to the earth, will tend to dissipate tlie 
 excess of electricity in the air above and around the building, and prevent 
 an accumulation of it sufficient to produce an explosion. But I have not 
 one particle of faith that any building that happened to be situated in the 
 path of what we call a thunderbolt, ever was saved by the best liglitning- 
 rod ever erected. And if in its course the discharge from the cloud, coming 
 like a rifle-ball from the muzzle of the gun, happens to strike the sharp 
 point of the I'od, it is, to my mind, a preposterous idea to suppose that perfect 
 insulation of tliat rod from the building can be of any possible advantage." 
 
 This opinion we still abide by. The world is full of theories upon the 
 subject. Wc wish we could elucidate them. We want all these lightning 
 theories reduced to two or three facts. It is claimed by some that iron is 
 the best, and by others that copper is best. One contends that blunt iron is 
 just as good as sharp gold or platina. One says that insulation is necessary, 
 and tlie other that it is not. Now it is facts that we want. Farmers want 
 to know whether they can protect their buildings from danger of being 
 struck by lightning. 
 
 A. B. Dickenson, a practical and close observing farmer of Steuben 
 County, N. Y., is of opinion that no lightning-rod will protect a barn while 
 giving oflf steam arising from newly stored hay and grain. Then, of what 
 advantage to erect one ? for that is the very time it is most needed to save 
 the formers' barns from destruction, which are much more likely to be de- 
 stroyed than any other buildings, and the loss is much greater. 
 
 Adrian Bergen, of Long Island, relates one case of a barn apparently 
 saved by the conductor. The force of the shock was so great that a man in 
 the barn was knocked down. The rod was a small, round one, fastened to 
 the barn by wooden supports. After the explosion a hole was found at the 
 foot of the rod. 
 
 So we have read of many cases where "there was an apparent good effect 
 from having conductors upon buildings. A very heavy crash fell upon or 
 over a house and barn in New Hampshire, which melted the points of new 
 conductors and apparently' dissipated the fluid so as to prevent damage, 
 though the barn appeared to be filled with electricity. 
 
 The Temple at Jerusalem stood ten centuries without oeing injured ; but 
 this building had a great deal of metal about it, and perhaps conductors for 
 water that carried the electricity from the roof to the ground. Yet we have 
 many instances in this country where buildings have been struck that were 
 
346 THE FARMERY. [Chap. III. 
 
 fully provided witli lightning-rods. This may be owing to bad constniction 
 of the rods. In the case of a great explosion, like the one in Xew Hamp- 
 shire, it is not likely that a single rod could convej'' all the charge to the 
 ground. If a rod was full of j^oints along its length, it would serve to dissi- 
 I^ate the charge, and a square rod is better than a round one. 
 
 Wm. S. Carpenter, of the eastern part of Westchester County, IST. Y., says : 
 
 "The farmers in my section have no faith in lightning-rods, because the 
 proportion of barns that have been struck with rods upon them is greater 
 than those without conductors. A scientific work states that a copper rod 
 one inch in diameter is better than an iron i-od four inches in diameter, and 
 nothing less than that seems to be sufKcient. This rod, too, must be contin- 
 uous, and well connected at the bottom with damp earth." 
 
 Cases have occurred where a tin roof appeared to act as a great absorbent 
 of the electricity, which it conducted down the tin water-spouts, and in one 
 case into a water-cask, which it burst, a"nd passed on into tlie wet earth. 
 
 Single rods are apparent!}' not always reliable. It is not doubted that an 
 extensive spread of metal diffuses lightning. Then, are buildings safe with 
 metal roofs ? Flagstaffs have been torn to pieces on their tops, and no mark 
 of injury left about the dwelling. Would it not answer the purpose and be 
 also economical to place a stout rod on the center of a wooden roof, and at- 
 tach to the bottom, where it touches the roof, a number of telegraph wires, 
 carried in many directions to the ground ? Would the stroke on the center 
 rod be carried safely off by such radii ? If so, the plan is vastly cheaper 
 than an entire metal roof. Faraday experiment^ on iron cages suspended 
 in air — in one of them a man ; in another small cylindrical one, a mouse. 
 The cages powerfully charged with electricity, produced no effect on the 
 man or mouse. The plan of one central rod, with many wires covering the 
 building, may produce like results. 
 
 It is wortii a trial. It is also worthy of observation how many more barns 
 than houses are struck by lightning. A calculation of an average of seven 
 persons to a dwelling in the United States, basing the population at 
 30,000,000, would give 4,200,000 dwellings. And assuming that there are 
 5,000,000 of farmers, we may say there are 700,000 barns. Now, greatly 
 as the number of dwellings exceeds that of barns, our opinion is that there 
 are two barns to one dwelling destroyed by lightning. 
 
 The impression is common, that barns when first filled with the harvest 
 are attractive of the fluid by the medium of the ascending gas of their con- 
 tents. This is probably true, and it is our opinion that a rod to serve as 
 a conductor, so as to be a sure protection, must reach higher than this col- 
 umn of vapor. Some barns need several rods ; others may need but one. 
 It depends upon the location very much, whether on a damp or dry soil, etc. 
 
 Prof. Henwick, of New York, says : 
 
 " I doubt whether a barn was ever struck by lightning which was prop- 
 erly protected by a conductor." 
 
 Ah ! but what is that proper protection ? That is what we would gladly 
 
Seo. 21.] LIGHTNING CONDUCTORS. 347 
 
 tell the farmers. We know of a fact that two barns were burned the last 
 season in "Westchester County, which were provided with conductors, which 
 the owners tliought as perfect as it is possible to make them. Several cases 
 have come within our knowledge where green trees were torn to shivers 
 near buildings, which saved the buildings from destruction, while lightning- 
 rods on the buildings touched by tlie trees did not attract or conduct the 
 fluid. 
 
 Then, as trees certainly are protectors, let every farmer plant trees around 
 all the farmery. That they are the very best conductors we believe, but 
 they are never tall enough to protect the barn when giving off its towering 
 column of steam. 
 
 366. Material of Conductors and Insnlators. — If a farmer has determined 
 to erect a lightning-rod, the first and most important thing for him to be as- 
 sured of is, what constitutes the best conducting material. As there are but 
 two materials, copper and iron, and as both are good conductors, and only 
 vary in power according to size, the choice may be regulated by the cost. 
 M. Poulet, a French scientific writer, gives the conducting power of copper 
 as five and a half to six and a half times (varying with the specimens tried) 
 greater than iron. Then, if iron is six cents a pound and copper thirty-six 
 cents, the cost would be equal for a given length of rod. This is probably a 
 fair average of the difference in the conducting power, as Dr. Priestly makes 
 copper five times greater than iron, and Prof. Faraday six and two-fifth times 
 greater. As scientific men have calculated that a copper rod, to possess suf- 
 ficient conducting power, should be, for short rods, half an inch diameter, 
 and for very long ones, three fourths of an inch, it follows that none of the 
 iron rods in use are large enough, for they are generally under one inch di- 
 ameter. We believe that that is large enough, and we do not believe that 
 insulators are necessary, but that the rod should be in one continuous piece, 
 and if it can not be welded together on the ground where it is to be erected, 
 it should be firmly screwed together, so as to be as nearly solid as possible. 
 
 If the rod is continuous, it may be safely fastened to the building with 
 ordinary iron staples. If it is inserted deep in the earth, so as always to be 
 moist, there is no danger about the lightning leaving it while passing from 
 the cloud to the earth, should it be attracted by the ever bright point which 
 the rod should, and must, possess, to be of any practical value as an at- 
 tractor of electricity. 
 
 Instead of insulating a rod from the house, it would add to its efficiency, 
 if the house has a tin roof, to connect it with the conductor. It would also 
 be beneficial, we believe, to connect the conductor with the tin water-spouts 
 of a wooden building. 
 
 367. The Area of Attraction of Liglitning Conductors. — It is of much import- 
 ance to a farmer, if he intends to protect his buildings by lightning-rods, to 
 know how far a single rod will aflFord protection ; that is, the area of attraction 
 over which the single bright point of the rod is supposed to exercise an in- 
 fluence — so as to attract or bend a stream of electricity from its course — so 
 
348 THE FARMERY, [Ohap. III. 
 
 as to carry it down the conductor to the earth without liarm to the building. 
 My own opinion is, that the area is much smaller than is generally sup- 
 posed. If a rod is erected at one gable of a barn forty feet long, projecting 
 ten feet above the peak, \ve do not believe it would afford the least protection 
 to the other end. 
 
 If a conductor is erected upon a dwelling, it should have a point ten feet 
 above each gable and each chimney, and then it is doubtful whether the 
 steam and smoke arising from a wood tire would not prove a better con- 
 ductor than a rod. 
 
 We should not feel any protection from the very best lightning conductor 
 projecting ten feet above the roof, at over ten feet from it. Probably this 
 fact, that the area is very small over which protection extends, may account 
 for buildings being struck and destroyed which were furnished with well- 
 arranged lightning conductors. The area exposed was too great for the at- 
 tractive power of the rod. 
 
 368. Protection from Fire. — There is no mistake about the matter of pro- 
 tecting buildings from danger of fire, whatever there may be about protect- 
 ing tiiem from lightning. 
 
 In tlie first place, have a careful supervisory care in building that no wood 
 is allowed to be placed where it can be heated to a point of ignition. Here 
 is a case in point. In building a chimney upon the soft, damp soil of tlie 
 Western prairie, where brick was too expensive to encourage excavating 
 down to a solid foundation, the mason suggested placing hewed timber on 
 the ground, to which I readily assented, as it would save brick, and being 
 two feet below the hearth there was no thought of danger from the fire. 
 So upon this foundation the chimney was built, and as it was built right 
 end up, it afforded the opportunity of having large fires, though the fire- 
 place was but a small one. 
 
 After keeping a liot fire through several extremely cold days and nights in 
 midwinter, we began to be annoyed by the smell of wood burning in a con- 
 fined situation. This continued several daj's, and began to be alarming, yet 
 no one would believe it could be possible that those solid oak timbers under 
 the chimney were being consumed by subterranean fire. Yet it was so, and 
 it was found impossible to extinguish the fire without digging up the hearth, 
 and with great labor working out the most exposed timber ; and as the other 
 could not be taken out without danger of throwing down the whole chimney, 
 we saturated it with salt, alum, and lime, to prevent it from taking fire 
 again. 
 
 This case we have introduced solely to prove how dangerous it is to allow 
 any wood to come near enough to the fire to be heated very hot, for wood 
 will ignite from heat, without any possible contact with tli6 fire. Another 
 case: 
 
 A gentleman in this city set a stove in a lower room, and conducted the 
 pipe through the room above, used as a nursery. For convenience of warm- 
 ing food he had a hole made in a slab of stone, just large enough for the 
 
Sko. 21.] WINDMILLS AND THEIR USE. 349 
 
 pipe to fit closely. This stone was neatly set in the floor, forming, as tlie 
 owner and the mason thought, a very safe way to conduct the stove-pipe, 
 whicli did not stand within a foot of any of the wood-work. It was for a 
 long time a great convenience, and very safe ; but one day the stove Lelow 
 M'as heated pretty hot, and communicated its heat to the stone, and the 
 wooden beams it rested upon, which had been long seasoning, ignited, and 
 the house was within a very narrow chance of destruction. Five minutes 
 more of absence from that room, and it would have been too late. 
 
 We could name many instances like these which have come within our 
 own observation, but we hope these are sufficient to put all who read them 
 on their guard against similar dangerous practices in building. 
 
 Stove-pipes may be safely passed through floors and wooden walls by in- 
 serting an earthen pipe, at least one inch in diameter larger than the stove- 
 pipe, M-hich should not be allowed to touch the earthen pipe, but should b'e 
 wedged ofl' from it by little pieces of stone, brick, or broken earthenware. 
 ' This allows a current of air continually to circulate, and renders it impossible 
 to become heated so much as to convey fire through the earthen pipe to the 
 wood-work. If the stove-pipe fits tightly in the earthen one it will be liable 
 to become hot, like the stone mentioned, and set fire to the house. 
 
 369. Windmills aud Iheir Use in a Farmery.— There is one more building, 
 or an adjunct of some of the buildings of the farmery, that should be men- 
 tioned, before closing this chapter, more fully than it is in the commence- 
 ment of Sec. XVII. We allude to the windmill. Besides pumping water, 
 which, by-the-by, would be a great help in the way of protection against 
 fire, a windmill attached to a barn could be made serviceable for a great 
 many purposes, such as thi-eshing, corn-shelling, cutting straw, grinding 
 feed, sawing wood, and turning the grindstone. 
 
 Wind is undoubtedly the cheapest power that a farmer can use, and, not- 
 withstanding its inconstancy, the improvement mentioned below operates 
 well, and has been often applied to many valuable uses. By windmills, 
 swamps may be drained and upland irrigated. What an advantage in a 
 drought in many parts of the country, besides the economy of using a great 
 amount of fertilizing matter in water at all times ! 
 
 We have often suggested the idea of nsing wind-power to pump iip water 
 into a reservoir, or M'ind np a weight, to be hold as a reserved power, that 
 could be vised when the wind did not blow. 
 
 There is no doubt in our mind that such a cheap power could be econom- 
 ically established to do a great deal of work that requires a motor upon 
 almost every large farm. If the seat of the power is at the barn, it can be 
 carried to the house by a couple of wires, to do the churning. We have seen 
 power carried thus from a water-wheel, nearly half a mile from the dairy, 
 and it was used not only to drive the churn, but the washing machine, the 
 sausage-cutter, a small grindstone, and the coifee-mill. To obtain the power 
 from the wind-wheel, all that would be necessary for the dairywoman to do 
 would be to pull a cord or wire at the house, which would throw into gear- 
 
350 THE FARMERY. [Chap. III. 
 
 ing a driving-wheel, and that would, by means of the wires, convey a crank 
 motion from the windmill to the churn, no matter how distant ; and the 
 motion can be stopped and started as easily as though churning by hand. 
 
 The objection to wind-power is want of constancy. This can only be 
 obviated by accumulating power. If the situation is such that a water 
 v"eservoir can be filled upon high ground, to be used in a calm, the accumu- 
 iation of power would not be expensive. 
 
 The method of conv£ying power by wires a long distance, from the water- 
 wheel to the churn, may be seen in several places along the Chenango Canal. 
 
 370. Seif-regulating WiudmiliS. — One of the best contrivances for a self- 
 regulating windmill was invented by Daniel Ilalliday, of Ellington, Tolland 
 Co., Ct. The size mostly built by him has five-feet wings, that is, the diam- 
 eter of the wind-wheel is ten feet, and the first one was in operation for six 
 months without a hand being touched to it to regulate the sails. It run 
 fifteen days at one time without stopping day or night, and it stood through 
 some hard gales. The beauty of the improvement is, that it stands still when 
 the wind rages hardest, with the edge of the wings to the wind, and as it 
 lulls they gradually resume their position for a gentle breeze. It is so con- 
 trived that nothing but a squall of great severity falling upon it without a 
 moment's warning can produce damage. 
 
 The mill mentioned has drawn water from a well 28 feet deep, 100 feet 
 distant, and forced it into a small reservoir in the upper part of the barn, 
 sufiBcient for all farm purposes, garden irrigation, and " lots to spare." The 
 cost of such a mill will be $50, and the pumps and pipes about $25. It is 
 elevated on a single oak post a foot square, the turn circle being supported 
 by iron braces. The vi^ings are made of one longitudinal iron bar, through 
 which run small rods ; upon these rods, narrow boards, half an inch thick, 
 are fitted, holes being bored through from edge to edge, and screwed 
 together by nuts on the ends of the rods. This makes strong, light sails, 
 which, it will be seen, arc fixtures not to be furled or clewed up ; but they 
 are thrown up edgewise to the wind by a very ingenious and simple arrange- 
 ment of the machinery, which obviates the great objection to windmills for 
 farm use — the necessity of constant su- ervision of the sails to suit the 
 strength of the wind. 
 
 "With this much food for reflection, we will close the chapter upon the 
 farmery. 
 
CHAPTER IV. 
 
 DOMESTIC ECONOMY. 
 
 SECTION XXII.-THE FOOD QUESTION-QUANTITY, QUALITY, VARIETY, 
 ADAPTATION, ADULTERATION, AND CHANGES PRODUCED BY COOK- 
 ING, BRIEFLY CONSIDERED. 
 
 ^^ic^^^^^gOMESTIC ECONOET ! What is it? ''Domestic, 
 ~ belonging to the house or home ; Economy, from 
 
 two Greek words, signifying a house or family 
 law — that which relates to the family concerns 
 of a household, and the disposition or arrange- 
 ment of any household work." 
 Such is the character of this chapter. It is full of 
 information useful to every household. "Without it, 
 we should have fallen short of our object in writing 
 this book. It was never our intention to make a work 
 for the sole benefit of the male portion of farmers. 
 Much of the preceding chapter, and nearly all of this, 
 is intended to promote the comfort of those who ad- 
 minister all of our home comforts. 
 
 We shall also say something that will be valuable 
 upon the subject of^tho dairy, at least to new beginners in the various arts 
 and mysteries of domestic economy. 
 
 No question can be discussed between the master and mistress of the 
 house, nor between parents and a famil;f of growing cliildren, that is of 
 greater importance than the one that heads this section. To the employer 
 and his hirelings, to the master and his slave, it is a question not only of 
 interest, but of health, and it is all concentrated in four words : quantity, 
 quality, variety, adaptation. 
 
 There is o«ly one thing more requisite, and that is, that each of these 
 words should be fully understood and properly acted upon. Believing that 
 they are not so, we shall treat upon each briefly in its order. And first — 
 
 371. What Amount of Food is Required by a Hard-working Man?— This de- 
 pends on the quality of the food, the nature of the climate, and on such a 
 variety of circumstances that it is impossible to give a satisfactory answer. 
 Tlie average allowance to British sailors in active service is 302 ounces of 
 solid food per week, and a pint and a half of rum. Dr. Percy, an English 
 author, mentions the diet of a prize fighter during a course of rigorous train- 
 ing, who ate one pound of mutton at each meal three times a day ; at dinner 
 
352 DOMESTIC ECONOMY. [Chap. IV. 
 
 he ate in addition two ounces of bread, and at each meal drank half a pint 
 of ale. lie walked regularly 17 miles per day. The total solid food con- 
 tained in this diet is 350 ounces weekly. We suppose about three pounds 
 of solid food per da}^ in temperate climates may be taken as the average 
 consumed by hard-working men. But in the Arctic and Antarctic regions 
 the amount of food that can be disposed of is truly immense. Thus Ross 
 tells us that the Esquimaux eat 10 lbs. of meat at a meal, accompanied by 
 the same quantity of oil. Parry weighed the food of nn Esquimaux lad, 
 scarcely full grown, and found that he consumed, during the day — sea- 
 horse flesh, 8^ lbs.; bread, If lbs. ; rich gravy sou]?, 1\ pint; raw spirits, 
 3 glasses ; strong grog, 1 tumbler ; water, 1 gallon 1 pint. Cochrane de- 
 scribes a Yakut or Tongouse as eating 40 lbs. of flesh in a day, saying that a 
 good calf, weighing 200 lbs., "may serve four or five good Yakuts for a 
 single meal," and that lie has seen three of them " consume a reindeer at one 
 meal." Admiral Saritclicflf says he knew a Yakut who consumed " the hind 
 quarters of a large ox, 20 lbs. of fat, and a proportionate quantity of melted 
 Initter for his drink" in a day. The admiral tried an experiment with him 
 by giving him " a thick porridge of rice, boiled down with 3 lbs of butter, 
 weighing together 28 lbs. ; and although the glutton liad already break- 
 fasted, yet did he sit down to it with great eagerness, and consumed the 
 whole without stirring from the spot ; and, except that his stomach be- 
 trayed more than an ordinary fullness, he showed no signs of inconve- 
 nience or injury." Barrow states that three Hottentots ate one sheep in a 
 day, and that ten of them ate an ox all but the hind legs in three days. 
 Tlie Samoyedes are stated to consume 8 or 10 lbs. of meat at a meal, fla- 
 vored with a dozen tallow candles, and washed down with a quart or two 
 of train-oil. Extravagant as these statements appear to be, most of them 
 have been verified by numerous observations. 
 
 We need not go to savage lands to find gluttons. We have tlie well-au- 
 thenticated fact of one who lived in Connecticut, about seventy years ago, 
 wlio ate three shad a day, upon a wager, thirty days in succession. The 
 same man repeatedly ate a goose or a turkey at a meal. These were acts 
 of gluttony, and we look upon gluttony as a great sin. There is just as 
 much wrong in feeding too niucli to those who labor for us, who may hap- 
 pen to possess gluttonous natures, as there is in feeding others too little. 
 Every laboring man requires a sufficiency of sound, nutritious food to 
 enable him to perform a fair task of labor. The question is, What is 
 sufficient ? 
 
 372. Rations of Southern Slaves. — The average ration of negro slaves in 
 our Southern States is 3i lbs. of bacon and a peek of corn-meal per week to 
 each adult. Tiie meal will weigh 141 lbs., making 18 lbs. of the strongest 
 kind of solid food. Then they always eat potatoes, turnips, greens, pindars, 
 green corn, and other things in their season, enough to make up an average 
 of three pounds of solid food a day. 
 
 As it is the policy of planters to give the slaves all the food that is neces- 
 
Seo. 22.] THE FOOD QUESTION". 353 
 
 sary to give them strength, and as it is against the rules of good economy to 
 give more, we may safely calculate that three pounds a day is all that a*la- 
 borlng man requires. 
 
 373. Soldiers' RationSi — The English are proverbiall}' hearty eaters, and 
 the English government have not only studied economy, but the wants of 
 their healthy, strong men in fixing their rations so as to give all that is nec- 
 essary, and this is found to consist of the following articles. "While the men 
 are in barracks, 1 lb. of bread and J of a lb. of meat per day. In camp or 
 actual service, 1| lbs. of bread and | of a lb. of meat. On foreign service, 
 1 lb. of bread or | lb. of biscuit and 1 lb. of meat. When billeted for board, 
 the allowance is 1 lb. of bread, 1^ lb. of meat, 1 lb. of potatoes, and 1 quart 
 of beer. 
 
 This was mainly followed in the American army until the summer of 
 1861, when in consequence of grumblings among the soldiers about insuffi- 
 cient food, the rations were increased, and are now as follows : 
 
 Katioxs — Daily — 1^ lbs. of pork or bacon, or li lb. of fresh or salt beef; 
 22 oz. of bread or flour, or 1 lb. of pilot bread. 
 
 Rahons to Ojte Hundred Men — Daily — Eight quarts of beans, 10 lbs. 
 of rice or hominy, besides 1 lb. of potatoes three times a week to each man, 
 or a substitute therefor ; 10 lbs. of coffee ; 15 lbs. of sugar ; 4 quarts of 
 vinegar; IJ lbs. of adamantine candles; 4 lbs. of soap; 2 quarts of salt. 
 Extra issues of molasses occasionally made. 
 
 Rations may be commuted at forty cents per day when stationed in cities, 
 or when there is no opportunity of messing, or when in regular camp, at the 
 cost of the rations. 
 
 37-1. Variety of Foodi — Man craves a change of food, that is, a variety of 
 substances, either one of which would sustain life, but would not be satis- 
 factor}-. Nature demands the variation, and the mixing together of tl:e 
 several substances. Wliy? Simply because no one will give all the ele- 
 ments that go to make up the animal economy. One article furnishes phos- 
 phate for bones, which another article is destitute of, yet it may contain 
 matter that will clothe the bone with muscle. Food that contained neitber 
 fat nor sugar would be insufficient to keep up the animal heat. Food that 
 contained all the elements of bone, muscle, fiber, fat, and heat-producing 
 qualities, might be so concentrated as to be unwholesome. 
 
 A man fed upon pemmican would have a disposition to eat straw, husks, 
 and twigs, or gnaw the bark from trees to get something to distend the 
 stomach, and enable it to perform its functions healthily. Let this be 
 thought of in feeding domestic animals as well as men. It will furnish an 
 easy rule for your guidance. Judge them by yourself, and act accordingly. 
 You will find it an easy and sure road tx> success. We do not for animals, 
 quadruped or biped, recommend, a variety of food at the same meal — only 
 a change from time to time, so as to give variety, and consequently all the 
 elements necessary to produce growth. 
 
 And neither man nor beast will reach a high point in the scale of perfec- 
 
354 DOMESTIC ECONOMY. [Chap. IV. 
 
 tioii who is confined to one single article, or to two or tliree articles of food. 
 Look, for example, at the rice-eatiug nations; also to those who, like the 
 Esquimaux, live principally upon the fat of seals and whales ; or to savage 
 nations, confined to an almost exclusive diet of meat. Each shows a lack 
 of some ciuality that we consider essential in civilized man. The confiiK- 
 ment of a large portion of a nation of people to a diet of potatoes is rapidly 
 •working a deterioration in the race. 
 
 "The profusions of nature tempt the appetite of man. The productions 
 of all the earth are at his command. But, for the control of his appetites, 
 man is endowed with reason and conscience. The brute is governed in re- 
 gard both to the quantity and kind of its food by an instinct from which 
 it rarely deviates, unless when domesticated, and consequently corrupted. 
 
 " There are three practical laws to be observed in the taking of food. One 
 regards the time, another the quality, and the third the quantity. 
 
 " An interval of at least five hours should elapse between meals for 
 adults, unless some extraordinary exertion has exhausted tlie system, or 
 something has interrupted pr prevented the reception of a full meal at the 
 stated hour. The stated hours should be regular." 
 
 375. Quality of Food Suited to a Farmer's Family.—" As to the quality of 
 the food, there is no doubt that the more simply it is cooked the more easily 
 it is digested. 
 
 " Chemical anal^'sis should be the guide for the cookery book. 
 
 "No one would think of eating raw potash, a substance that dissolves 
 metals, but we do not hesitate to eat saleratus, M'hich is a modified prepara- 
 tion of it, and has the same, though a more gradiuil effect, uj)on the organic 
 tissues and the blood. Soda, it is well understood, rots cloth and takes the 
 skin from the hands when it is put into soap, or even when used to ' break 
 hard water,' as the washerwomen term it ; yet we put it into bread and 
 cakes. Our stomachs were not made to digest metals, and when we powder 
 them and eat them, we try to cheat nature. 
 
 "Spices were undoubtedly made for use in those climates where they 
 grow, but the natives of those climates use them much more sparingly than 
 we do. We may reasonably suppose that they are more adapted to the 
 wants of hot climates than of cold ones, as nature has placed them in the 
 former, and yet we saturate our food with them, mix them together, destroy 
 the flavors of each by so doing, and make a stimulus to appetite by a con- 
 glomeration, which is a most unnatural one, and gradually injures the very 
 power of digestion. We thus conceal, also, that fine aroma of vegetables 
 and meats which distinguishes one from the other, and deprive ourselves of 
 the pleasure God designed we should feel in partaking of them. Tliere is 
 a delicate fruit of the tropics resembling a muskmelon, which grows, Jiow- 
 ever, not upon a vine, but upon a tree, the taste of which is so finely deli- 
 cate, that a foreigner can not even perceive it at first ; but if he does not 
 cover it with pepper and salt, as we have seen many foreigners do, to 'give 
 it a taste,' he will, after partaking of it a few days or weeks (according to 
 
Sec. 22.] THE FOOD QUESTION". 355 
 
 the simplicity or sophistication of his ajipetite), appreciate its flavor, which 
 is that of the most delicate aromatic nut. In oui- climate we lose the flavor 
 of many vcf^etables in the same way, by covering ihein with pejiper, and 
 also by putting them into water below the boiling-point when we cook them. 
 Everj' one who is so happy as to live in the country, and can gather vege- 
 tables dally from his own garden, knows the difference between them when 
 gathered thus and j^roperly cooked, and those which have been picked and 
 kept for market even one night. 
 
 " When substances like rice, corn-starch, and farina are used, which have 
 very little taste (rice, because it has been so long exposed to tlie air after it 
 is gathered, and corn-starch and farina, because, from the mode of their 
 preparation, they lose a great part of the nutritious ingredients of the corn), 
 a delicate flavoring of spice may be used without injury to health. 
 
 " Science may at last bring ns to the conclusion, that each climate and 
 region produces those articles of food which it is most healthful to eat in 
 their respective localities. 
 
 "The quality of children's food should differ from that of adults, so f:ir 
 as that it should consist of more substances containing starch, gum, and 
 sugar. 
 
 " It is not the most costly or most luxurious living that we would advo- 
 cate, but it is a variety of food. The difficulty is, that we are tempted 
 sometimes by a great variety of dishes at one meal to eat too much. This 
 is no argument against variety of food. 
 
 " It is important that we should study to increase earth's products, and 
 improve their quality, to produce the highest condition of perfection in man. 
 A man, it is true, may be a glutton, and consume mountains of flesh and rich 
 dishes, but that is not the point. It is that we all should cons^ime the best 
 food i^ossible to be produced, and in sufficient variety to give healthy 
 results." 
 
 370. Ilow Food Affects the Systenii— " The prevalent idea that soup which 
 sets info strong jelly is most nutritious, is altogether a mistake. The souj) 
 sets because it contains the gelatin of the sinews, flesh, and bones ; it has 
 been fully proved that no animal can live upon this imagined richness 
 alone. In fact, such jelly is unwholesome, for it loads the blood with useless 
 substances ; hence what are termed rich soups, being loaded with gelatin, 
 are not ranked among the articles of wholesome food. Marked results of 
 the effects of cooking upon food may be seen in the contrast between civil- 
 ized and savage nations. In every nation on earth, those who rule the 
 masses are invariably better fed than the masses themselves. This is evi- 
 denced in the power exercised by the beef-eating British over the rice-eating 
 East Indian nations." It is further evidenced by the condition of the people 
 of this country, where the masses are better fed than in any other on earth, 
 and where there are greater numbers of men fit to be rulers than in any 
 other. And this proportion will increase as the laws of hygiene are better 
 understood, for then, those who control the preparation of food for those 
 
366 DOMESTIC ECONOMY. [Chap. IV. 
 
 masses will understand how cooking affects the raw material of food, so as 
 to make it wholesome and nutiutious, or otherwise. 
 
 Next to the knowledge of the differences in the human constitution and 
 the nature of food proper for man, tiie art of cooking so as to make tlie food 
 most agreeable to the palate should he studied by every good liousekeeper. 
 Bear in mind that in preparing food three things are to be united — the pro- 
 motion of health, the study of economy, and tlie gratification of taste. 
 
 Pie-catinfj is an Americanism that wo can not approve nor recommend to 
 the extent it is practiced. Though pie bo nearly allied to piety, this does 
 not save it from condemnation. Pies are eaten for breakfast, for lunch, for 
 dinnei', supper, and many go to bed on pies. " Oh, pies save a great deal 
 of cooking!" says the frugal housewife, "and are so convenient for tlie 
 children to take to school, and then they are not so hungry when they have 
 pie to eat." Pies are New England's favorite refection ; but that does not 
 prove them, as a general thing, well adapted to the wants of the liuman 
 system. Pies of every descrijjtion, as used in almost every New England 
 farm-house, may safely be classed "unwliolesonie food." The worst of the 
 family is the one most prized — the rich, sweet, highly spiced mince-pie. It 
 is one of the prolific parents of dyspepsia. 
 
 377. Adaptation of Food to f ircumstances. — One of the great mistakes of 
 many families is in not adapting the food to the season, the climate, and 
 circumstances. A hard-working negro slave may eat fat bacon and corn- 
 bread in August, and bask in tlie sun in Mississippi. It would not be good 
 diet for a sedentary white man. 
 
 Fruit is an essential article of food for the preservation of health, in 
 bilious localities. It seems particularly adapted by nature to that eml. 
 
 A sensible man always adapts his eating to his labor. The _following 
 remarks upon this subject we adopt, because they are pertinent : 
 
 " I have been asked sometimes how I could perform so large an amount 
 of work with apparently so little diminution of strength. I attribute my 
 power of endurance to a long-formed liabit of observing, every day of my 
 life, the ^simple laws of health, and none more than the laws of eating. It 
 ceases any longer to be a matter of self-denial. It is almost like an instinct. 
 If I have a severe tax on my brain in the morning, I can not eat heartily at 
 breakfast. If the whole day is to be one of exertion, I eat very little till 
 the exertion is over. I know that two forces can not be concentrated in 
 activity at the same time in the body. I know that when the stomach 
 works, the brain must rest — and that when the brain works, the stomach must 
 rest. 
 
 " If I am going to be moving about out of doors a good deal, I can give 
 a fuller swing to my appetite, which is never exceedingly bad. But if I 
 am engaged actively, and necessarily in mental labor, I can not eat much. 
 And I have made eating with regularity and with a reference to what I 
 have to do, a habit so long that it ceases any longer to be a subject of 
 thought. It almost takes care of itself. I attribute much of my ability to 
 
Seo. 22.] THE FOOD QUESTION. 35 T 
 
 endure work to good habits of eating, constant attention to the hiws of sleep, 
 physical exercise, and general cheerfulness. 
 
 "There is one thing more to be said in tills connection. It is not a matter 
 of cpicureanistn that a man shonld be dainty concerning the food he eats. 
 On the contrary, I hold that a civilized man onght to bo civilized in his 
 cookery. I suppose one of the infallible signs of the millennium will be a 
 better regulated kitchen — -a kitchen that sends out food that will help to 
 promote health and increase Cliristianity." 
 
 378. The Food and flodiina: a Mau may fonsume in a Lifetime. — Alex. 
 Soyer's " Modern Housewife" gives the following calculation as the probable 
 amount of food that an epicure of seventy years might have consumed. 
 " Supposing his gastronomic performances to commence at ten years, he will 
 make 65,700 breakfasts, dinners, and suppers, to say nothing of luncheons 
 and extra feastings. To supply the epicure's table for sixty years, Soyer cal- 
 culates he will require 30 oxen, 200 sheep, 100 calves, 200 lambs, 50 pigs ; 
 in poultry, 1,200 fowls, 300 turkeys, 150 geese, 400 ducklings, 2G3 pigeons; 
 1,400 partridges, pheasants, and grouse ; 600 woodcocks and snipes ; 600 
 wild ducks, widgeon, and teal ; 450 plovers, ruffs, and reeves ; 800 quails, 
 ortolans, and dotterels, and a few guillemots and other foreign birds; also 
 500 hares and rabbits, 40 deer, 120 Guinea-fowl, 10 peacocks, and 360 wild- 
 fowls. In the way of fish, 120 turbot, 140 salmon, 120 cod, 260 trout, 400 
 mackerel, 300 whitings, 800 soles and slips, 400 flounders, 400 red mullet, 
 200 eels, 150 haddocks, 400 herrings, 5,000 smelts, and some hundred thou- 
 sand of those delicious, silvery whitebait, besides a few hundred species of 
 fresh-water fishes. In shell-fish, 20 turtle, 30,000 oysters, 1,500 lobsters or 
 crabs, 300,000 prawns, shrimps, sardines, and anchovies. In the way of 
 fruit, about 500 lbs. of grapes, 360 ll)s. of pineapples, 600 peaches, 1,400 
 apricots, 240 melons, and some hundred thousand plums, green-gages, ap- 
 ples, pears, and some millions of cherries, strawberries, raspberries, currants, 
 mulberries, and an abundance of other small fruit, viz., walnuts, chestnuts, 
 dry figs, and plums. In vegetables of all kinds, 5,475 lbs. weight, and 
 about 2,4343 lbs. of butter, 684 lbs. of cheese, 21,000 eggs, 800 tongues. Of 
 bread, 4i tons, half a ton of salt and pepper, near 2 i tons of sugar. His 
 drink during the same period may be set down as follows : 49 hogsheads of 
 wine, 13,683 gallons of beer, 584 gallons of spirits, 342 gallons of liqueur, 
 2,3943 gallons of coffee, cocoa, tea, etc., and 304 gallons of milk, 2,736 gal- 
 lons of water. This mass of food in sixt}^ years amounts to no less than 
 332 tons weight of meat, farinaceous food and vegetables, etc., out of which 
 I have named in detail the probable delicacies that would be selected by an 
 epicure through life. But observe that I did not count the first ten years 
 of his life, at the beginning of which he lived upon pap, bread and milk, 
 etc., also a little meat, the expense of which I add to the age from then to 
 twenty, as no one can really be called an epicure l)efore that age ; it will 
 thus make the expenses more equal as regards the calculation. The follow- 
 ing is the list of what I consider his daily meals : 
 
358 DOMESTIC ECONOMY. [Chap. IV. 
 
 " Breakfast. — Three quarters of a pint of coffee, four ounces of bread, one 
 ounce of Ijutter, two eggs, or four ounces of meat, or four ounces of fish. 
 
 " Lunch. — Two ounces of hread, two ounces of meat, or poultiy, or game, 
 two ounces of vegetables, and a half pint of beer, or a glass of wine. 
 
 " Dinner. — Half a pint of soup, a quarter of a pound of fish, half a pound 
 of meat, a quarter of a pound of poultry, a quarter of a pound of savory 
 dishes or game, two ounces of vegetables, two ounces of bread, two ounces 
 of pastry or roasts, half an ounce of cheese, a quarter of a pound of fruit, one 
 pint of wine, one glass of liqueur, one cup of coffee or tea ; at night one glass 
 of spirits and water." 
 
 To this we have added the following calculation of the clothing the same 
 man may have used. We estimate that a full-d::es3ed man carries about 
 fifty yards of cloth upon his body, or at least it has taken so many square 
 yards of cloth to make the following garments : one under and one over 
 shirt and drawers, eight yards ; vest, with all its inside and out, four yards ; 
 coat, overcoat, and cloak, 32 yards; the handkerchiefs in the coat and cloak 
 jiockets, two yards ; pants, lined, four yards. Then we may add a night- 
 shirt, four yards, and morning wi'apper, 10 yards, and we have Gi yards for 
 a single suit. Allow six of these suits a year — of some garments he will 
 want more, and some less than sJx, but take that as an average, and we have 
 3S-1 yards for the gentleman's wardrobe one year. Multiply that by sixty 
 years, and we have 23,040 yards of cloth, which appears a fair allowance, as 
 we throw out the ten years of childhood. With these garments he will want 
 each year two pair of boots, two pair of shoes, two pair of slippers, two pair 
 of rubbers or overshoes — 4-80 pairs. With these he will wear sixty dozen 
 pairs of stockings and (four hats a year) 240 hats. I will say nothing about 
 the yards of cloth that he will want about his toilet and table, his carpets 
 and curtains, and his bed, with its daily change of bedding; but you can 
 imagine it would make a large spread. The great question for considera- 
 tion, in an agricultural point of view, is this : Could such a consumer of 
 earth's products produce as much as ho consumed, with all industry applied 
 during life, or would he be dependent upon the labor of others? 
 
 370. How Cooking Changes Food. — We are not going to make a cook-book, 
 but simply to attract attention to some of the leading scientific principles of 
 the effect of fire upon articles of food. 
 
 Meat, for instance, often loses more than half its substance, which is 
 wasted and lost in the process of cooking, because the cook did not under- 
 stand some of the simple elements of the chemistry of cooking, and the 
 effect of water and heat upon flesh. 
 
 If meat is to be boiled for eating, particularly fresh lean beef or mutton, 
 never soak it in cold water. Have your water boiling over a brisk fire, and 
 plunge the meat into it, and see that the heat is kept up. If soup is to be 
 made, then the meat should soak a long time in cold water, because it 
 extracts the substance that is wanted in the soup, leaving the fibrous portion 
 of the meat almost worthless. If the meat is to be boiled for eating, plung- 
 
Seo. 22.] THE FOOD QDESTIO^. 359 
 
 iiig it in hot water has the same effect that is produced upon an egg — the 
 albumen is coaguhited, and remains in the niea% and cooks witli it, and 
 becomes the most nutritive portion of it. Tlierefore remember it as one of 
 I lie most important items of kiiowk'dge about cooking, never to put a piece 
 of meat into water to boil, nnless the Avater is boiling hot ; and never put a 
 p'ece of meat to roast until your fire is very liot ; and if it goes into an oven 
 to bake, see that the oven is hot enough to cook the outside almost instantly. 
 If you let it simmer slowly, it will ooze out the richest portion of its property 
 for food. "The first effect of applying a strong heat to a piece of fresh 
 meat, is to cause the fibers to contract, to scpieeze out a portion of the juice, 
 and partially to close the pores so as to prevent the escape of more. Heat 
 is applied to meat chiefly in three ways — boiling, roasting, and baking. 
 During these operations, fresh beef and mutton, when moderately fat, lose, 
 on an average, about as follows : 
 
 In boiling. In baking. In roasting. 
 
 4 lbs. of beef lose lib '. lib. 3 oz 1 lb. 5oz. 
 
 4 lbs. of mutton lose 14 oz 1 lb. 4 oz 1 lb. 6 oz. 
 
 The greater loss in baking and roasting arises chiefly from the greater quan- 
 tity of water evaporated, and of fat which is melted out by either of these 
 two methods of cooking. 
 
 " In preparing meat for the table, we discover that it is most desir- 
 able to retain all the ingredients of its juice ; how this is to be done will 
 depend much upon the method of culinary procedure. If the piece of 
 meat be introduced info the water when briskly boiling, the albumen at its 
 surface, and to a certain depth inward, is immediately coagulated, thus 
 inclosing the mass in a crust or shell, which neither permits its juice to flow 
 out, nor the external water to penetrate within, to dissolve, dilute, and 
 weaken it. The greater jiart of the sapid constituents of the meat are thus 
 retained, rendering it juicy and well-flavored. It should be boiled for only 
 a few minutes, and then kept for some time at a temperature from 158 to 
 165 degrees. Meat is underdone or bloody M-hen it has been heated 
 throughout only to the temperature of coagulating albumen (140 degrees) ; 
 it is quite done or cooked when it has been heated through its whole mass 
 to 158 or 165 degrees, at which temperature the coloring matter of the 
 blood coagulates. As in boiling, so in baking or roasting ; for whether the 
 meat be surrounded by water or in an oven, as soon as the water-proof coat- 
 ing is formed around it, the further changes are effected alike in both cases, 
 by interaal vapor or steam. In roasting or baking, therefore, the fire should 
 be at first made quite hot, until the surface-pores are completely plugged 
 and the albuminous crust formed. Hence, a beefsteak or mutton-chop is 
 done quickly over a smart fire, that the richly-flavored natural juices may 
 be retained." 
 
 The above is extracted from a most valuable book — one that no house- 
 keeper can aflbrd to do without. It is " Youmans' Iland-Book of Household 
 Science." It is science in such an attractive form that all may read it with 
 
360 DOMESTIC ECaXOMY. [CnAP. IV. 
 
 pleasure and profit. Weshall drawupon its valuable store-liouse of knowledge 
 fo.- other fads in confirmation of what we have to say upon the food question. 
 
 380. How the Albumen of Meat is Extracted. — When we wisli to dissolve 
 out the albumen, and not the gelatin of meat, for soup or for beef-tea, which 
 is much used as nutritive food for the sick, the meat should be cut fine — the 
 finer the better — and soaked a few minutes in an equal weight of cold water, 
 then slowly heated to boiling, and so continued a {esv minutes more, and 
 when strained you will have as much Aveight of pure extract as you had of 
 meat, and it will afibrd equal nutriment. It would not do so if boiled for 
 hours, in a large mass. Ilence, meat for soups should be finely divided. 
 The effect of long boiling of meat for soup is to thicken the soup, and make 
 it apparently richer; but it is so only apparently. The albumen is extracted 
 by cold water. It is cooked in the water in as short a time as an egg would 
 cook. The substance extracted by long boiling, making the soup appear 
 thick when cold, is gelatin. Still further boiling would make glue, which 
 would harden by drying, like the glue of commerce. It is not considered a 
 nutritious kind of food. 
 
 381. French Experiments with Gelatinous Food.—" The French attempted 
 to feed the inmates of their hospitals on gelatinous extract of bones ; mur- 
 murs arose, and a commission was appointed, with Magendie at its head, to 
 investigate the matter, the conclusion of which was, that giving gelatin to 
 the poor was just equivalent to giving them nothing at all. The use of 
 gelatin as a nutritive or invigorating substance may be regarded as given 
 up. The utmost claim now put forth for it is that,'mixed with other food, it 
 makes it go further ; but at the same time we must be careful not to use it 
 to excess, as it is apt not only to weaken the individual by its insufiiciency 
 as an article of diet, but causes also diarrhea, whether by acting as a foreign 
 body, or b}^ some spontaneous decomposition. Hence the nnwholesomeness, 
 to healthy stomachs, of dishes containing a great quantity of gelatin, such 
 as mock-turtle soup, calves'-foot jelly, etc." 
 
 The healthiness of any kind of strong meat soup is not a matter of doubt 
 in the minds of those who have given the subject a thought. It may be 
 taken in small quantities at the beginning of a meal, when it will be imme- 
 diately followed with fibrous food ; but the appetite never should be sat- 
 isfied upon soup alone, unless it is soup-maigre, or soup made almost entirely 
 of vegetables. 
 
 382. Relative Values of Food for giving Warmth or making Flesh. — The fol- 
 lowing table shows Liebig's estimate of the proportion of warmth-giving 
 substances to the flesh-producing substances in various articles. Basing the 
 flesh-producing power at 10, each of the following articles gives the propor- 
 tion of warmth-producing power set opposite. 
 
 ^ Fat pork 30 
 
 Human milk 40 
 
 Cow's milk 30 
 
 Lentils 21 
 
 Horse beans 22 
 
 Peas 23 
 
 Fat mutton 27 
 
 Beef 1 
 
 Hare 2 
 
 Veal 1 
 
 Wheat flour 46 
 
 Oatmeal 50 
 
 Rye flour 57 
 
 Barley 57 
 
 White potatoes 86 
 
 Black potatoes 115 
 
 Rice 123 
 
 Bucla|heat 130 
 
Sko. 22.] THE FOOD QUESTION. 361 
 
 This table gives a sufficient explanation of the reason why buckwheat is 
 always used as winter food. The reason is still more apparent when we 
 know tliat butter and syrup, wliicli are eaten with buckwheat cakes, are 
 also producers of heat. It shows tliat veal is a very fit food for children 
 and very unfit for aged people. In cold climates, particularly, where men 
 are much in the open air, they instinctively crave fat meat. At the tropics, 
 instinct teaches man to consume an abundance of fruits and vegetables. In 
 temperate regions, where we may indulge with impunity in a variety of 
 food, instinct is not so strong, or at least does not point out so unerringly 
 wliat wo should eat, and therefore the question should be more fully dis- 
 cussed ; for among all the arts of civilized life there are none in which all 
 are more interested than the preparation of our daily food. 
 
 383. Changes produced in fookiug Vegetables. — Many vegetables, for in- 
 stance the potato, in a raw state, are wholly unfit for food. Every house- 
 keeper knows that cooking renders them palatable and wholesome, but every 
 one does not know how they arc affected by heat, nor why one mode of 
 cooking makes them acceptable to the taste, while they may be nearly 
 spoiled by a diflerent application of heat. Hence it is not always applied 
 in the right manner to produce the best effect. 
 
 It is often said of potatoes, " they were spoiled in the cooking." Look at 
 the reason. A pound of potatoes contains on an average about three quar- 
 ters of a pound of water and two to two and a half ounces of starch. It also 
 contains about one fourth as much sugar and guni as it does starch, and 
 about one sixth as much woody fiber. 
 
 If a good, sound potato is plunged whole into boiling water and kept boil- 
 ing until softened throughout to such a degree that it could be readily mashed, 
 the starch-grains burst and absorb the water, so that the mass appears more 
 like meal than like starch boiled in water, and is then in a condition to af- 
 ford its nutritious properties readily to the system. If potatoes are naturally 
 bad, cooking will not make them good, but bad cooking will make the best 
 potatoes quite unfit for human food. If they are put into cold water and 
 simmered slowly till soft, they will generally become so waxy that they are 
 quite indigestible. 
 
 If potatoes are roasted or baked, they should be put into a hot oven 
 or buried in hot embers, and kept hot aiutil taken out, Avhich should be 
 as soon as sufficiently cooked — otherwise a new change takes place, the wa- 
 ter begins to evaporate, and the outside burns, while the interior soon be- 
 comes worthless. 
 
 In frying potatoes, the starch and fibrin are often turned to charcoal, 
 which is just as nutritious and digestible as charcoal made of wood. As it 
 is with potatoes, so it is Avith many other vegetables — they may be spoiled 
 by improper cooking. As a general rule, put all into boiling water and 
 keep it boiling briskly till the articles are sufficiently cooked. Never at- 
 tempt to cook green vegetables in what is termed hard water ; it will some- 
 limes render green ggas wholly unfit for food. The difficulty is often rem- 
 
363 DOMESTIC ECONOMY. [Chap. IV. 
 
 cdied by putting a little lump of potash, saleratus, or soda in the water. If 
 too iiuich is used, it causes the vegetables to fall to pieces. 
 
 384. Reasons for Improved Cookery. — Erasmus says : " Bad feeding makes 
 flie vulgar seditious and quarrelsome." Perliups this will account for the 
 quarrelsome cliaracter of some families. We seriously think every young 
 woman should have some knowledge of cooking. Ignorance upon this 
 subject ought to be a reproach. Few nations have tlie wealth of material 
 for fine cookery that we jjossess. Fish, flesh, and fowl are abundant ; fruits 
 and vegetables unsuri:)assable, and can be raised without great labor or ex- 
 l>ense, and it is owing to our own culpable carelessness in all that j)ertains 
 to liealtli that we are not the healthiest, best fed, and best trained people in 
 tiie world. Yet Americans generally undervalue preparations for eating. 
 Disdaining gluttony, despising pampering to fancies, they run into the op- 
 posite extreme of neglecting that which is of real value to their bodies. This 
 inattention proceeds not from inability to comprehend the science of cook- 
 ery, nor real dislike to good things, for their appreciative power of such is 
 on a par with that of other nations ; but they grow up with the idea that it 
 is unbecoming to be dainty, and beneath their dignity and independence of 
 character to think too much of their stomachs. American mothers too 
 seldom instruct their daugliters in the culinary art. 
 
 In early times necessities were stronger than comforts ; kitchens were un- 
 furnished with conveniences ; cooking utensils were" clumsy and scarce ; 
 pots and kettles did double duty ; iron skillets were used instead of sauce- 
 pans. This is not and need not be the case now. Every farm-house should 
 have all the modern improvements for cooking, and then as a general thing 
 our cooking should be l)etter ; and as necessities are no longer stronger than 
 comforts, the i-eason that we lack the comforts is because our young Amei-i- 
 can housekeepers lack the knowledge, and, for a certainty, their Irish cooks 
 do not possess much of the science of the useful art of cookery. 
 
 " Every beginner thinks it an easy thing to learn, and, without any knowl- 
 edge of the necessary rudiments, expects to blunder into some sort of pro- 
 ficiency, so that in time the mistakes come to be regarded as the rule, and 
 they abide by their own experience, rather than accept of rules that science 
 teaches. 
 
 Another, and perhaps to most people the most important reason for im- 
 proved cookery is, the economy of food. " What shall we eat ?" and " How 
 shall it be cooked?'' should be made a part of the household economy of 
 every family, particularly every one who purchases food by the wages of 
 daily laboi". This question is not an idle one, and only interesting to those 
 who live in cities. It is equally so to those who furnish the city with 
 food. Let us glance at the prices which the consumers in the city have 
 to pay. 
 
 Of late years, the price of butchers' meats in New York, at retail, have 
 been frequently at the following rates : 
 
 For roasting pieces of beef and beef-steaks, the nominal price per pound 
 
Sec. 22.] THE FOOD QUESTION. 363 
 
 is from 18 to 25 cents, while the real price, owing to the cheating in weight, 
 is often 25 per cent, higher. A piece only fit for soup is charged at about 
 12 or 15 cents, and a shin-bone, with very little meat, rates at 10 cents a 
 pound. Plates, navels, necks, briskets, and rounds are rarely sold fresh, 
 and one of the strongest i-easons given by butchers for selling the portions 
 universally called for at such high prices is, that they can not retail the 
 coarser parts at any price, except the small portion taken as corned beef, and 
 for this the price is sometimes from 12 to 18 cents a pound. A leg or loin 
 of mutton is sold at 16 to 20 cents a pound, and all the coarser parts at 12 
 to 16 cents, and some of them are coarse and poor enough. Veal that is fit 
 to eat, is sold at about the same price per pound as mutton. Lamb is fifty 
 per cent, higher. Fresh pork — miserably poor, too — sells at 12 to 15 cents. 
 Salt pork and smoked bacon sell for 15 to 18 cents, and smoked beef the 
 same. 
 
 When the greatest meat-eating people in the world pay such prices, it 
 would be reasonable to expect that they would be willing to learn and 
 practice improved cookery. We are sorry to say that they do not. A school 
 that teaches the art is rare. It should, as a universal rule, be taught in all 
 schools. In many families, with all the economy of the best housekeeping, 
 it certainly is a question of serious import as to what we shall eat, that will 
 afi'ord sufficient nourishment and variety of food for health, and still enable 
 those Avhose income is limited to keep expenses below that limit. In such 
 families it is important that they should learn how to cook butchers' meat 
 more economically than it is generally in America. In some measure ad- 
 vantage can be taken, though it seldom is, in buying fresh meat. The 
 price by the piece or by the quarter, of beef and mutton, often varies fifty 
 per cent., and a fore-quarter always sells the lowest ; yet, to the consumer, 
 it is absolutely the most valuable. 
 
 The truest economy is to eat less expensive meat and more vegetables, 
 and learn how to compound them as the French do, so as to make whole- 
 some, nutritious, economical food by improved cookery. 
 
 385. Water for Cooking^i — One reason why we have treated so largely upon 
 cisterns (see 333, 334), and why we made one for family use while we had 
 a never-failing well of water, is because I'ain-water is the best of all for 
 culinary jjurposes. What is termed hard-water is unfit for cooking some 
 kinds of vegetables, and is never good for tea. We have already stated that 
 water is sometimes so hard that green peas could not be cooked soft in it. 
 On the other hand, care must be taken in the use of rain-water, or the tender 
 vegetables will be broken down by a little over-boiling. In such water 
 always be careful to throw as much salt as will serve to season the vege- 
 tables for the palate. Onions lose nearly all their peculiar flavor when boiled 
 in soft water without salt. This matter of suitable water for the kitchen 
 has quite as much importance to the cook as it has to the laundress. 
 
 386. A New Cooking Vessel Wanted. — A writer in the Scientific American 
 suggests an improvement in cooking vessels that we hope will be at once 
 
364: DOMESTIC ECONOMY. [Chap. IV. 
 
 acted upon. It is to coat the inside with silver or phiviiuiin, which could be 
 done by the galvanic battery, so that tlie expense would not be too great for 
 ordinary use in the houses of those who are able to live in a way suited to a 
 liigh order of civilization. This would be a particularly desirable improve- 
 ment in kettles for heating water for tea. So it would for such cookery 
 as requires porcelain-lined kettles. From the greatly increased supply of 
 silver from Washoe, Arizona, and other silver mines, we may yet be able 
 to improve our domestic utensils. Iron, copper, brass, zinc, are all objec- 
 tionable for many purposes, and porcelain lining is soon destroyed by care- 
 less cooks. 
 
 3S7. Flour — How to Select Goodi — Farmers of all the Eastern States buy 
 flour, and some of them arc not very good judges of what they buy. There 
 are a few plain rules to observe in buying flour by which you can tell its 
 quality, and select that which is good. The best flour is not snowy white, 
 but has a yellowish tint when a handful is squeezed together and then 
 broken open. Lay a little in the palm of your hand and smooth it with a 
 knife or your finger, and see that it is free from specks, and of even fineness, 
 but not an impalpable powder. To prove this, throw a little lump against a 
 perpendicular board or smooth wall, upon which the most of it, if good, 
 should stick. Good flour, squeezed in the hand, will retain its shape. If 
 you wet a little in j^our hand, see that it does not work soft and sticky, or 
 you may get spring-wheat instead of winter-wheat flour. Flour that works 
 sticky is not good. If it has a bluish tint it is not good. If it falls in dry 
 powder when thrown, or if it falls apart, dry and powdery, when squeezed, 
 it is not good. We commend to all families who buy flour the trial of these 
 tests with the flour now on hand, the quality of which is known. 
 
 388. Adulterations of Food. — ^The first object of a housekeeper should be 
 to procure unadulterated articles. This is very difiicult for city people to 
 do, owing to the adulteration of almost every article of food prepared for 
 sale. But this is not the case with most of the food used by farmers, because 
 it is made of home products. 
 
 Many of the adulterations of such articles as are usually purchased may 
 be detected by simple tests. The microscope reveals the adulterations of 
 flour, sugar, farina, arrow-root, starch, salt, etc. 
 
 Bread, that most important article of food, is always more healthful in a 
 farmer's family, because it is free from adulterations, or at least much more 
 free than baker's bread. 
 
 389. How Eating Affects the Health.— To meet at the breakfast-table, father, 
 mother, children, all well, ought to be a happiness to any heart ; it should 
 be a source of humble gratitude, and should wake up the warmest feelings 
 of our nature. Make it a rule never to come to the table in a churlish mood. 
 Let joy pervade your meals. 
 
 " The tables of the rich and the nobles of England are centers of mirth, 
 wit, and honhoinie, and they live long. It takes hours to got through a 
 repast. The negroes of a well-to-do family in Kentucky, while at their 
 
Sec. 22.] THE FOOD QUESTION. 365 
 
 meals, abandon themselves to jabber and mirth, and they enjoy life. At the 
 family-table all should meet to make a common interchange of high-bred 
 courtesies ; of warm affections ; of cheering mirthfiilness, and that generosity 
 of nature which lifts us above the brutes which perish ; for such things pro- 
 mote good digestion, health, and long life. Children in good health, if left 
 to themselves at the table, become, after a few mouthfuls, garrulous and 
 noisy ; but if within bounds at all reasonable or bearable, it is better to let 
 them alone ; they eat less, because they do not eat so rapidly as if compelled 
 to keep silent, while the very exhilaration of sjiirits quickens the circulation 
 of the vital fluids, and energizes digestion and assimilation." 
 
 Let this excellent advice of Hall's Jow-nal of Health, be followed univer- 
 sally, and we shall hear less about dyspepsia. 
 
 3i)0. Early Breakfast— its Effect ou Heallh.—'" Breakfast should be eaten 
 before leaving the house in the morning for exercise or any description of 
 labor. Those who practice this will be able to perform more work, and with 
 greater comfort and alacrity, than those who work an hour or two before 
 breakfast. Besides this, the average duration of the life of those who take 
 breakfast before exercise or work will be a number of years greater than 
 those who do otherwise. 
 
 " If early breakfast were taken in regions where chill and fever and fever 
 and ague prevail, and if in addition a brisk fire were kindled in the family 
 room for the hours including sunset and sunrise, these troublesome maladies 
 would diminish in any one year, not ten-fold, but a thousand-fold ; because 
 miasm is more solid, more concentrated, and hence more malignant about 
 sunrise and sunset than at any other hour of the twenty-four." 
 
 This, and much more said upon the same subject by Dr. Hall, agrees fully 
 with our long experience in a miasmatic region of the West. The most in- 
 dustrious people who come from New England, where they had always 
 been accustomed to early rising and working before breakfast, were the 
 ones most liable to attacks in autumn of bilious fever and ague. Let us 
 therefore urge every resident in such a region, never to go to work, nor 
 go much out of doors before breakfasting, and let no expense or trouble 
 about the work deter you from having your dwellings purified by fire. In 
 some pJirts of South Carolina men have lost their lives from a single night's 
 exposure to miasm, without fire. Hence, whenever persons are compelled 
 lo spend a night in such a situation, their first care is to build a large fire 
 and, without sleeping, keep near it, even in the smoke, and thus they escape 
 the danger of the poiaouous atmosphere. 
 
366 
 
 DOMESTIC ECONOMY. 
 
 [Chap. IV. 
 
 SECTION XXIII.-THE BREAD QUESTION-VARIETIES AND QUALITY OF 
 BREAD, AND HOW IT IS MADE-YEAST, AND HOW TO MAKE IT FOR 
 FAMILY USE. 
 
 UCII is the importance of the subject in relation 
 to tlie healthiness of fuotl, that bread should be of 
 the very best quality, we have devoted a section 
 especially to its consideration. In this country it is 
 the general custom to make bread in fiimilies, and as our 
 domestics are not scientific, it is in many cases absolutely 
 necessary tliat they should not be left to the temptation 
 ^\ of using the readiest means for making bread acceptable, 
 by putting in the convenient saleratus or soda, which, like 
 charity, in that particular, covers a multitude of sins. If the 
 dough has been put together over-night, it may have gone 
 on to the stage of acetous fermentation, and a little sale- 
 ratus (more than is necessary to sweeten it is often jjut in) 
 will conceal the fact, and make all appear right. It will 
 also save the trouble of kneading well. Let the mistress, then, if she do 
 not actually mix the bread, overlook the process ; and it would be a good 
 custom if all the ladies in a family would take their turn at bread-making, 
 and thus insure its good qualities by efficient kneading. It can not bo 
 kneaded too mucli. But of that hereafter, and in all that pertains to the 
 subject, we hope to give some useful information to all who are not already 
 good bread-makers. Not only in bread, but in every article consmned 
 upon the farmer's table, we beg of him and the mistress of the family 
 never to lose sight of the importance of quality. The proper consideration 
 of this question will save many a doctor's bill, as well as the misery 
 attendant upon sickness. 
 
 There is nothing that the good housekeeper so much desires about her 
 cooking as to have good bread, and as all have not had the advantages of 
 the daughters mentioned in the following extract of a letter to the author, 
 we shall give as much information as we can crowd into a brief space upon 
 this subject. 
 
 391. Good Wheaten Bread, and How to 3Iake it. — The letter alluded to is 
 from a sensible, practical woman, who says : 
 
 " I have been a housekeeper thirty years, and I have reared a family of 
 six daughters, and we have alwaj's made our own bread, and it is a very rare 
 thing for us to make poor bread. 
 
 "Now, the first thing I strive to teach my girls is cooking, and making 
 bread is one of the first items of cookery. I know that good bread can be 
 made by the different kinds of yeast, but the recipe that is the most simple 
 is the best. 
 
Sko. 23.] THE BREAD QUESTION. 367 
 
 " Here is my way of making good bread : Take one pint of warm water, 
 one teaspoonful of salt, put it in a dish sutiiciently large to admit of stirring 
 in flour until it is a thick batter, and keep it warm, quite warm, and in live 
 hours it will rise or become fit for use. If it does not rise sufficiently, dis- 
 solve a piece of common soda as large as two kernels of corn and stir into 
 the batter. 
 
 "You can make three common-sized loaves of bread with this yeast, 
 which will be nice and tender. The soda is only necessary when the flour 
 is of an inferior quality." 
 
 The following directions for making bread we give in the language of 
 another good housekeeper. She says: 
 
 "To have good, wholesome bread, it is absolutely necessary to pay atten- 
 tion to the making of it, and to believe that making bread, like learning to 
 read, does not come by nature; that it is indispensable to learn every little 
 fact connected with the fermenting or raising of the dough ; absolutely nec- 
 essary to understand thediflerence between vinous and acetous fermentation, 
 and when an alkali, such as saleratus or bicarbonate of soda, is required. 
 
 "Of course, good flour is the first requisite. The finer the flour the 
 greater the labor in kneading it ; and the finest flour does not always make 
 the sweetest and healthiest bread, yet the best flour is the cheapest ; though 
 I must confess I can not advise about using inferior flour, for I have never 
 had any. 
 
 " The next important thing is the yeast, and I give the preference to tha 
 made of potatoes. I have tried brewer's yeast, baker's yeast, yeast cakes, hop 
 yeast; leaven, which is a bit of sour dough, and needs saleratus to make the 
 bread sweet ■; in fact, all the various kinds of yeast, and after over two years 
 of constant use, I am content with potato yeast. 
 
 "The rule of making it is this: Take ten potatoes of nearly equal size- 
 wash and boil thein ; when cooked, peel and mash them perfectly smooth ; 
 pour on to this a quart of boiling-hot water ; stir in a coffee-cup of good, pure 
 sugar, and after standing a few minutes, pour in a quart of boiling water 
 wanting a gill ; when lukewarm, add a pint of yeast to raise it, put it in a 
 tightly-covered vessel to ferment, and set it away in a moderately warm 
 place until sufficiently risen, which may be known by the potato appearing 
 upon the top of the liquid, and light, foamy spots bursting up through it. 
 The temperature of the place where this is set to rise or work should be 
 from GS to 74 degrees ; too much heat is as bad as too much cold. When 
 this is risen, put it into a stone jug and cork it ; tie in the cork and keep it 
 in a cool place. A gill and a half, or common-sized teacupful, is sufficient 
 to raise dough for two large loaves of bread. The source of the sourness 
 which supervenes in bread, under careless or unskillful hands, was formerly 
 ascribed to each of all the constituents of flour; to its gluten, which is 10 
 parts; its starch, which is 70 parts; and its sugar, 4 parts; the other 16 
 parts are water — but erroneously, for it is merely the result of the second 
 fermentation, which always succeeds the vinous when pushed improperly 
 
368 DOMESTIC ECONOMY. [Chap. IV. 
 
 too far. There are extremely simple and effectual methods for enabling tlie 
 baker to adopt measures either to prevent or correct the evil of acescence, 
 and these are to neutralize the acid by the use of an alkali, such as soda, or 
 an alkaline earth, such as magnesia or chalk. 
 
 " If proper care be taken of the yeast, there is no danger of having sour 
 dough ; and if the yeast be removed to a lower temperature after the signs 
 pointed out, the acetic fermentation never sets in. 
 
 " To make bread I set a sponge over-night. To a half pint of lukewarm 
 M'ater, put in a gill and a half of yeast and a pint of flour (after measuring, 
 sift the flour), and stir this all well together, strew a little flour over the top, 
 and cover the dish and jDut it in the same temperature that the yeast was 
 in. In the morning, warm half a tea-cup of milk (if water is used, add half 
 a tablespoonful of butter), add two tablespoonfuls of lime-water after it is 
 warm, and stir this into the sponge ; have ready a pint and a half of flour, 
 and knead this with half a teaspoonfnl of salt into the sponge. Divide this 
 into two portions, and put each into a buttered pan to rise, and wiien the 
 dough rises to the top and bursts into little cracks, it is ready to bake. 
 These loaves Avill bake in a common stove or range-oven, heated with coal, 
 in thirty or thirty-five minutes. The advantages of lime-water are these: 
 The dougli requires less kneading, the loaves bake in less time, and tlie 
 bread keeps soft and moist longer, and is less liable to mold, and it is healthy 
 bread. After the bread is baked, it should be turned upside down from the 
 pans upon a folded cloth, and left there until cool. Then it may be put info 
 a covered tin. By following this plan, I never lose any bread from mold. In 
 cool weather, the pans containing the dougli should be placed over a vessel 
 containing hot water, or each pan over a bowl or pitcher witli hot water in 
 it, and covered with a cloth. These loaves are generally ready to bake in 
 two or two and a half hours. 
 
 "To make biscuit, I warm a tablespoonful of butter in half a teacupful of 
 milk, and stir it hot on a quart of flour, let it stand and cool, and when 
 lukewarm add a gill of yeast, a spoonful of lime-water, and a little salt, and 
 lukewarm water to knead the whole into a smooth lump of dough ; sprinkle 
 a little flour into the bottom of the dish, lay in the dough, cover it, and 
 when risen (which may be known by the dough's cracking and its spongy 
 look when cut with a knife), divide the dough into equal portions and ])ut 
 in pans, and let them stand twenty minutes before putting to bake. 
 
 '•I never use tin or metal ware of any kind to mix bread in. I prefer a 
 wooden bowl and spoon, because they can always be kept clean and swoet. 
 A still better thing is a yellow nappy, as it can be dipped into hot water be- 
 fore setting the dough in it. 
 
 '• As to the use of salcratus and soda, it is only tolerated l>y the grossest 
 ignorance. It is the received impression that an alkali makes the bread 
 tender, and it is indiscriminately used, and hence so much yellow-looking 
 bread. These alkalies are only of service when an acid is to be neutralized, 
 and then they should be used very sparingly. It is very diflacult to enlighten 
 
Sm 23.] THE BREAD QUESTION'. ~ 369 
 
 an ignorant cook, ■whose obstinacy is in proportion to her ignorance, and 
 whose threat of leaving if not left undisturbed in her kitchen, friglitens her 
 timid, delicate mistress into silence and absence. How few mistresses there 
 are who are able to contend with these kitchen autocrats, or are competent 
 to prove their ability to execute what they have undertaken to teach. 
 
 "If an old housekeeper reads what has been written, she will cry out: 
 ' La, what a fuss about bread-making, which any ninny can do !' And if 
 she has a batch of good, bread once in a fortnight, and that by good luck, 
 as she would call it, she thinks she knows all about it, and disdains to give 
 attention to such a trifling matter. Yet, if you ask her why her bread was 
 not invariably good, she can not explain otherwise than that the leaven was 
 overworked, the yeast not good, the water too hot, or the flour was bad. 
 iS'o wonder this question continues to agitate the world, since the world is 
 daily doomed to dough and burnt crusts. Good bread is the exception and 
 not the rule in more than half the families of the world." 
 
 For this reason we think that some farther rules for bread-making, which 
 come from those who always have good bread, will be acceptable. The 
 tirst is from Waldo, Ohio. The writer says : 
 
 "I soak about a pint of dry hops two or three hours, or until the water 
 foams, by which time I have boiled seven medium-sized potatoes, which I 
 then mash, boiling hot, with a saucerful of flour, leaving the skins on ; tlien 
 add a quart of cold water, little at a time, mashing and mixing thoroughly 
 after each addition of water. "When lukewarm, I stir in the hop-yeas!-, and 
 let it stand until morning ; then I run it through a cullender, with two 
 quarts of lukewarm water, which I add part at a time, that the ferment 
 may be rinsed from the potato-skins. Then add two rounding tablespoon- 
 fuls of salt, and then flour until it can only be stirred with difficulty. Then 
 I set It over a kettle of warm water in winter, or in a cool j^lace in summer, 
 until it is very light, when I mix it and knead it thoroughly until it will 
 not adhere to the table or bread-bowl. When very light, knead into loaves 
 and put it in the pans, this time kneading as little and handling as lightly 
 as possible. When it is again light, I put it in a hot oven, bake an hour, 
 taking care by watching not to let it burn. When done, rub the crust with 
 a little lard, and wrap up till cold. If the yeast sours, add soda to correct 
 acidity." 
 
 Another woman, Lynda Ball, of Clevit, Eaton County, Mich., gives her 
 method, as follows : 
 
 "Pare and slice four common-sized potatoes, and boil them in one quart 
 of wafer. When done, pour the water ofl' into a basin, mash the potatoes 
 and put them in the water, and when about milk-warm add one teacupful 
 of good hop-yeast ; stir in flour enough to make a thick batter, and let it 
 stand about two hours in a warm place. Then put flour enough in your 
 bread-bowl to make three loaves of bread ; add three pints of warm water 
 to the yeast, and stir it in the flour, and set in a warm olace till it has 
 sponged nicely^ then mold, and bake one hour." 
 
370 DOMESTIC ECONOMY. [Chap. IV. 
 
 The two following are from the Granite State Health Institute : 
 
 "Indian Snow-Cake. — With one quart of meal mix two tablcspoonfuls of 
 fine dry sugar and one teaspoonful of salt. Stir into this quickly two 
 quarts of light, clean snow. When it is well mixed, put it in a deep cake- 
 dish, sprinkle a little snow over the top, and bake half an hour in a hot 
 oven. 
 
 " Potato Eoll. — Boil one dozen mealy potatoes, nicely peeled, covered 
 closely in just water enough to cook them. As soon as they are tender, 
 drain ofi" the water if any remain, and leave them over the fire a few min- 
 utes uncovered. This is the best manner of cooking potatoes for the table, 
 also. Mash them fine with one cup of sweet cream or new milk ; nib them 
 through a cullender into a quart of flour ; then add half a tea-cup of fresh 
 yeast, and sutficient sweet milk to make a stifl' dough ; keep it in a warm 
 place until light; mold into rolls, and let it stand fifteen minutes; bake in a 
 quick oven for half an hour." 
 
 We give another practical rule for potato bread : " The evening be- 
 fore you wish to bake, take six or eight potatoes, more or less, medium 
 size, pare, boil in water till done ; mash very fine, then pnt back into the 
 water they were boiled in, and, when they come to a boil, have ready a pan ; 
 I prefer earthen, as that keeps warm longer, with, say, a pint of flour; pour 
 on the scalding potatoes and water, beat well, cool with water, if thicker 
 than buckwheat-cake batter ; add, when a little more than milk-warm, half 
 a pint or less of your bottled yeast, stir well, cover close, and set in a warm 
 place till morning, when the mass will be pei'fectly light, if all the materials 
 are good and put rightly together. Then mold out into small loaves, put in 
 pans, cover, and set aside till they rise again ; be very careful not to let 
 them over-rise this time, or all your care is thiown away ; have your oven 
 of a moderate heat, and while baking watch carefully ; the loaves ought to 
 bake in 40 minutes or an hour, according to the size. When done, they 
 should be a light brown ; cover them up on a board kept on purpose, and by 
 evening you will have bread that is rich and wholesome." 
 
 Another direction, from an old housekeeper, says: "Take two handfuls 
 of hops, three pints of water, six potatoes; boil all till the potatoes are soft; 
 pare them, mash through a cullender, strain the liquid ; then put it in your 
 preserving kettle, over the fire, with the potatoes added ; also, one cup of 
 sugar, one table-spoon of salt, one table-spoon of ginger ; then add flour 
 enough to give it the consistency of paste ; let it boil five minutes, stirring it 
 all the time. Turn out, and when partially cool, add half a jiint of good 
 yeast. Let this stand until fermdntat'ou takes place. In the winter I keep the 
 yeast in a stone pot in the cellar, but in summer I dry it by mixing it with 
 corn-meal, and spreading it on a table and exposing it to the air (not sun). 
 Now we have good yeast, we will proceed immediately to make good bread. 
 Wash and pare two dozen good-sized potatoes; boil them, with a large 
 handful of salt, till reduced to a fine pulp ; strain through a cullender, add 
 three pints of sweet milk, and when sufliciently cool to bear j»our hand in it-, 
 
Seo. 23.] THE BREAD QDESTION. 371 
 
 stir in as inucli flour as will make it into a thick batter; to this sponge add 
 a cofi:ee-cnp of the yeast. I always make my sponge at night. In the 
 morning I add six quarts of sweet milk and three gills of lime-water, and 
 knead into a stiff dough. 
 
 "Some housekeepers use alum, as it makes the bread fairer, but I prefer 
 lime-water, as that coagulates the gluten ; and it requires less baking, and 
 retains its moisture longer — and I think it much healthier than alum, and 
 health is the great desideratum. In two or three hours after you knead 
 your bread, it will be as light and porous as a honeycomb; knead it down, 
 and when it has again risen, mold, and put it into pans. Let it stand till it 
 rises again, then wash the loaves over with cold water; this prevents the 
 formation of too hard a crust; bake in a well-heated oven. "When baked, 
 wash again, M-rapping it up closely in your bread-cloth. "Wrapping the 
 bread up in tiie steam till cold, prevents it from becoming hard and dry. If 
 your flour is good, bread made in this way will be equal in appearance to 
 the best bakers' bread, and in point of sweetness and economy', far superior. 
 The quantities I have named make twelve good-sized loaves, and my family 
 requires such a baking twice a week. For many years this plan has given 
 me good bread, and I hope others will try it." 
 
 392. How to make Good " Bakers' Bread." — To those who would like to 
 know how to have such bread as the city bakers make, we recommend the 
 following formula of one that we know makes good bread, and we believe 
 uses tirst-rate flour, and no deleterious mineral substances : 
 
 Bakers' Yeast.- — ^The following is the formula for making a tub of yeast : 
 Four pailfuls of hot water, two quarts of malt, half a pound of hops, six pounds 
 of flour, four quarts of yeast. The hops are boiled about five minutes, and 
 strained. The flour is made into a paste, with hot water, before mixing in 
 the tub. The malt and yeast are added when the water in the tub is milk- 
 warm, and stirred briskly. It must stand from 14 to 18 hours before it is in 
 order to use. 
 
 Ferment. — The following is the preparation for mixing a barrel of flour : 
 Boil one half peck of potatoes, which are to be mashed, strained, and mixed 
 thin in water, M-ith four pounds of flour and four quarts of yeast, and left to 
 stand eight hours. 
 
 Setting the Sponge. — A pailful of this ferment is poured into the flour 
 in one end of the bread-trough, and mixed, with an addition of some hot 
 water, into a soft dough, and left to stand three hours, when more water is 
 added, and the whole mass mixed into a stifl" bread-dough, and left two 
 hours to rise, when it is ready to make out into loaves for the oven. 
 
 Salt Used. — The quantity of salt used in a barrel of flour is four quarts, 
 and no other mineral ingredient is ever added by an honest baker. Care 
 must be taken to use plenty of yeast, but not an excess, and that the dough 
 is not left to I'ise too long. A great deal of hard manual labor is required 
 in kneading dough, to have good bread. 
 
 393. Brown Bread, or " Boston Bread."— An old Yankee housewife gives 
 
372 DOMESTIC ECONOMY. [Chap. IV. 
 
 ns the following valuable directions for making home-made or family 
 bread, sometimes called — 
 
 "Wheat and Indian Bread. — To two quarts of sifted Indian meal add 
 hot water enough to wet the same ; when sufhciently cooled, add one tea- 
 spoonful or more of salt, half a pint of yeast, and one half teacupful of mo- 
 lasses. Then add wheat flour enough to make it into loaves (it should bo 
 well kneaded), and when well risen, bake or steam it three or more hours; 
 if this should get sour while rising, add a teaspoouful of sugar and a little 
 saleratus dissolved in water. 
 
 " Rye and Indian Bread. — ^Take equal quantities of Indian meal and rye 
 flour; scald the meal, and when lukewarm add the flour, with one half 
 pint of good yeast to four quarts of the mixture, an even tablespoonful 
 of salt, and half a cup of molasses, kneading the mixture well. This kind 
 of bread should be softer than wheat flour bread ; all the water added after 
 scalding the meal should be lukewarm. When it has risen sufficiently, put 
 it to bake in a brick oven or stove — the former should be hotter than for flour- 
 bread ; if in a stove oven, it siiould be steamed two hours, then baked one 
 hour or more ; when done, it is a dark brown. The best article for baking 
 this kind of bread in is brown earthenware — say pans eight or ten inches 
 in hight, and diameter about the same— grease or butter the pans, put in the 
 mixture, tlien dip your hand in cold water, and smooth the loaf; after this, 
 slash the loaf both ways M-ith a knife, quite deep. Some let it rise a little 
 more before they put it to bake. Many people prefer this bread made 
 of one third rye flour, instead of one half. When it is difficult to get 
 rye, wheat flour will answer as a substitute. It adds very much to 
 the richness and flavor of this kind of bread to let it remain in the oven 
 over-night." 
 
 Indian or Yankee Beown Bread. — Another old bread-maker gives the 
 following information about Yankee brown bread : 
 
 "Brown bread, kneaded and made into loaves in the common way of 
 mixing white bread, dries more quickly than the white, I obviate this dif- 
 ficulty thus: Take a quantity of meal, sufficient for as much bread as you 
 wish to make at once, put it in the mixing-pan with a bowl of rising, and 
 add sufficient lukewarm water to bring it to the consistency usually required 
 in making johnny-cake, mi.xing in the same manner with a spoon, but do 
 not stir too long, or it will not have that liveliness so desirable in good meal. 
 It is also a much neater method, as you are not obliged to immerse your 
 hands in the dough. 
 
 " Grease your pans, and fill not quite half full, and set it as usual to rise, 
 which it will not be long in doing if the temperature is right. Bake one 
 hour in a slow but steady oven. It injures a large loaf to cut while warm, 
 though my family are very fond of it in this state, and I generally bake a 
 loaf in a small pan to be eaten warm. 
 
 " I can assure you that bread made in this manner will keep moist for 
 several days, and even when it docs become rather dry, owing to its being 
 
Sec. 23.] THE BREAD QDESTIOX. 373 
 
 light and porous, it Is immediately restored by simply warming the slices 
 slightly in the oven of your stove before eating." 
 
 We reproduce here, from a useful little book called "How to Live," 
 which we wrote a few years since, for those who will try the economy as 
 well as palatableness of a loaf of wheat and Indian bread, the following 
 good receipt, long in use by our good mother and grandmother: 
 
 " To two quarts of Indian meal add boiling water enough to wet the same ; 
 when sufficiently cooled, add one teaspoonful of salt, lialf a pint of yeast, 
 one teaspoonful of saleratus, one half teacnpful of molasses, and flour 
 enough to form it into a loaf (it should not be kneaded hard); when 
 light, bake two hours in a well-heated oven. (It should be baked until 
 brown.)" 
 
 And here is another good receipt from the same book for making rye and 
 Indian bread, which is both cheap and wholesome : 
 
 "Stir and mix most thoroughly two quarts of Indian corn meal with a 
 tablespoonful of salt and a quart of boiling water, or enough to wet every 
 grain of meal. When the mush cools to milk-warm, stir in one quart of rye 
 meal and a teacnpful of good yeast, which you will first mix with half a pint 
 of warm water, so that the j-east will be more evenly diffused. With the 
 r^'e meal add water enough to make the mass a stiff dough, but not as hard 
 or tough as flour. It must be kneaded with the hands. \_Rememher^7nje 
 meal is not rye flour. It is the unbolted product of the whole grain.] Put 
 the dough in a pan, and pat it smooth with a wet hand. It will rise enough 
 to bake in an hour, in a warm place, and should be put in a hot oven, and 
 remain three hours ; or if during the night, all the better. If white flour 
 was not fashionable, or if people did not think that brown bread has a look 
 of poverty, we should have the brown bread upon every table, for it is not 
 only more economical, it is more nutritious and more healthy, particularly 
 for children. 
 
 "We do not eat oatmeal in this country to any extent, and yet it is the 
 most nutritious breadstuff ever used by man." 
 
 394. Potatoes Used in Bread-Making. — When potatoes bear such a price to 
 wheat flour that, when cooked, they are about half the price per pound of 
 the flour, it is good economy to add of potatoes about one fourth the weight 
 that is used of flour, for a batch of bread. Bread so made is pleasanter to 
 the taste, and equally nutritious. The potatoes should be boiled with the 
 skins on, and then peeled, mashed, and stirred into a pulp with warm water, 
 and rubbed through a wire sieve, and then mixed with the flour, and yeast 
 added as for other bread. The bakers of New York understand the economy 
 of using potatoes in their bread, whenever they are sold at low prices. The 
 small potatoes, which are unsalable for other purooses, are often sold whole- 
 sale to bakers, and added to the flour. 
 
 The potatoes make the bread moister tliaTi it would bo if composed en- 
 tirely of flour, so that for those who sell their loaves by weight, the more 
 water they can be made to contain the greater will be their profits. When 
 
374 DOMESTIO ECONOMY. [Chap. IV. 
 
 about one third of the weight is composed of potatoes, it makes lirst-rate 
 bread. Many persons prefer the potato-bread because it is moist, and never 
 think how much water they are buying at sixpence a pound. 
 
 There is another use of potatoes in bread — they make it appear light, not- 
 withstanding its specific gravity. Potatoes take ou the vinous fermentation 
 quicker than flour, and sometimes that passes into the acetous state, which 
 the bakers correct witli bicarbonate of soda, or lime-waler, still adding 
 weight without any addition of nourishment. Lime-water is not objection- 
 able; it is only so tliat we should be induced to buy it at sixpence a pound, 
 because the baker puts it in his sour flour or potato-bread, to make us think 
 it is sweet. 
 
 Prof. Liebig advises the use of one pint of lime-water to every five 
 pounds of flour. Tlie lime-water shoidd be prepared by dissolving lime in 
 water to a point of saturation, and letting it settle and then bottling for 
 future use. "With this lime-water, use pure yeast, and you will have light, 
 healthy bread. AVith saleratus, largely used, you will not have wholesome 
 bread, disguise it as you will. In using lime-water, add it fii'st to the flour, 
 then add pure water and yeast, and you will have better bread than you can 
 obtain from any preparation of carbonate of soda or cream of tartar. 
 
 Wheat, divested of all its bran, does not contain enough of all the health- 
 giving ingredients, jjarticularly of phosphate of lime, to satisfy the demands 
 of nature. "With such flour, potatoes are beneficial. 
 
 Bread should be more thoroughly baked than it is usually, and not eaten 
 warm from the oven. 
 
 Dry bread should never be thrown away. By soaking and reconverting 
 it into dough, it can be again baked into excellent bread. It is of such ma- 
 terials that tlie delicious tea-ru!.ks are made. Dry bread also makes most 
 delicious puddings. Bread of fine flour is too much eaten. "We recommend 
 farmers to have their wheat ground more coarsely, and only take out a por- 
 tion of the bran. They may also add corn or rye meal, with advantage to 
 economy and health. It will be also economical in the country to add 
 potatoes. It is not always so in the city. And it is not quite honest either 
 to sell them at the price of superfine flour bread. 
 
 For potato biscuit, grate one half dozen potatoes ; add one quart of water ; 
 one cupful of hop-yeast 'at night; and in the morning, when light, add three 
 teaspoonfuls of sugar, and flour to form a dough. Let it rise; when light 
 put in tins; let it rise again, and bake one half hour. 
 
 395. Sprouted Wheat Flour— its effect on Bread.— Sprouted wheat flour 
 makes Avhat housewives call runny dougli, and that is apt to make clammy 
 broad. To remedy this, it has been recommended to add half a gill of 
 whisky to flour enough to make four moderate-sized loaves. But many 
 object to the use of whisky to make bread, and ask if something else will 
 not answer as well. "We think it will. "We think if about the same quan- 
 tity of shortening is added to the flour that is commonly used in making the 
 old-fashion Yankee light biscuit, that the bread will be light, fine-grained, 
 
Sko. 23.] THE BREAD QUESTION. 375 
 
 and free from all the difficulties usually attributed to grown wheat. 
 The addition of a little butter or lard to any flour will not do any harm. 
 Try it. 
 
 396. Teast — Bow to Make it. — The chemists have proved that yeast is a 
 plant, as much so as mold or any other fuiigns. As we get it fresh from the 
 brewer, yeast appears to be a yellowish gray or fawn-colored, frothy liquid. 
 It soon settles down and appears dead, but is still active. The taste is bit- 
 ter, and it emits a rather disagreeable odor. Its effect upon all moist sub- 
 stances is to cause them to ferment, by a rapid increase of its growth, and a 
 generation and diff"usion through the mass of carbonic acid gas, which makes 
 the dough puff up and assume the condition called light. 
 
 The great scci'ct of bread-making is to use just the right quantity of yeast 
 to produce a light loaf without having any of the flavor or odor of the 
 yeast imparted to it, as it will if too much is used, or if the action of the 
 3'east is not arrested at exactly the right time. 
 
 "We give in No. 397 the most convenient form for preserving yeast ready 
 for use. If liquid yeast is preferred, it can be made by mixing wheat flour 
 and water into a paste and letting it stand two or three days in a mod- 
 erately warm place, when it will begin to emit a disagreeable sour odor, 
 which afterward passes off or changes to a vinous odor at the end of six 
 days. Then if yon liave the opportunity to get malt from a brewery — and 
 if not, you can make it by sprouting barley or Indian corn, which must 
 then be dried and crushed — yon will make an infusion of malt and boil it in 
 water with a handful of hops, and cool it till lukewarm, and add it to the 
 paste previously thinned into a soft batter with tepid water. This mixture 
 kept in a warm place a few hours, begins to show activity. Fermentation 
 has commenced, and will work the mass until there is a clear liquid on the 
 surface, which pour off, and the opaque liquid at the bottom is good yeast, 
 which you may keep as long as j'ou like in winter, and in summer upon ice, 
 or hermetically sealed in bottles till wanted for use. 
 
 A good yeast can be made, when you have the seed — that is, active yeast 
 — from four pounds of peeled potatoes boiled in four quarts of water and 
 a large handful of hops in a bag. The potatoes are mashed and thoroughly 
 mixed with the water and a little salt, molasses, and flour to make a batter, 
 to which a couple of spoonfuls of good yeast are added, and this will ferment 
 the whole and make it fit for use as leaven for bread ; it may be kept a long 
 time in a cool place. 
 
 Yeast is sometimes preserved by dipping clean twigs in it and drying 
 them and preserving them dry till needed, when they are soaked and the 
 liquor added to the sponge. 
 
 It has also been dried by spreading it with a brush upon a board and re- 
 peating it as fast as each layer is dried until of considerable thickness, when 
 it is scaled off, broken up and bottled, and sealed air-tight ; it will then 
 keep for years. 
 
 A yeast-plant has been found in California capable of reproduction to an 
 
376 DOMESTIC ECONOMY. 
 
 [Chap. IV. 
 
 indefinite degree wiien placed in a bottle with a little sweetened water. 
 Those plants appear somewhat like small grains of white-hulled com soaked 
 iii water, or like the lumps of wheat flour which form in boiling, if not suf- 
 ficiently stirred. A spoonful of this substance put into a quart of flour 
 mixed for a si^onge will cause it to ferment, just as an addition of ordinary 
 yeast would. The difficulty in its use is, that it is rather liable to become 
 too acid, but it is a pretty good substitute for common yeast in a new coun- 
 try where bakers and brewers are not convenient. 
 
 397. ¥east-Cakes, or Ready-made 1 east— Take three ounces of good fresh 
 hops, three and a half pounds of rye flour, seven pounds of Indian corn 
 meal, and one gallon of water ; rub the hops so as to separate them ; put 
 them into boiling water and boil half an hour ; strain the liquor through 
 a fine sieve into an earthen vessel. While hot, put in the rye flour, and 
 when lukewarm add a pint of yeast. Next day put in the Indian meal, 
 stirring it well, and the mess will be stiff" dough. Knead it thoroughly, and 
 roll it out to the thickness of about a third of an inch, and cut up^in'cakes 
 three inches square, and dry them on a clean board or a tin in the sun. 
 Turn them everyday, let them receive no wet, and they will become as hard 
 as ship biscuit. Store them in a bag or hox, perfectly free from damp. 
 When you bake, take two cakes for three loaves, and put them into a quart 
 of tepid water with half a pint of flour in a vessel near the fire-place over- 
 night, where they will dissolve by morning, and then use them in settino- 
 your sponge as you would the yeast of beer. These yeast-cakes may be 
 kept just as long as you desire. 
 
 Rye flour is better than wheaten, but not absolutely essential. Some use 
 potatoes, but a lady writes us that she finds the addition of the potatoes of 
 no benefit and no injury, and for years has used Indian meal only— which 
 being simpler, makes the work easier. ' 
 
 To make yeast powder, take one pound of saleratus and two pounds of 
 cream of tartar, mix them thoroughly together by passing them two or three 
 times through a sieve. To each quart of flour add two heaping teaspoonfuls 
 of this yeast or baking powder ; wet with sweet milk or water, as usual, 
 and bake at once in a quick oven. The bread should be in small loaves- 
 biscuit in the same way. 
 
 398. Saleratus-Rising for Broad.—" In discussing this I aim at the health 
 stand-point, and reject whatever impairs the nutritive qualities of the flour 
 injures its flavor, or discolors it. The excellence of bread and its lightness 
 depend upon the disengagement of carbonic acid gas during the process of 
 fermentation, which is the action of yeast upon the saccharine matter of the 
 flour. Ferment or yeast is an organized matter, and its essentially opera- 
 tive constituent is a peculiar azotized matter, wliicli, in the wine-vat is 
 mixed with some tartar and other salts, and in the beer-tun with gum and 
 starch. Azote is found in animal bodies, and certain vegetables contain an 
 azotized principle ; indigo, caperine, gluten, and many others contain an 
 abundance of azote. All bread-making which dispenses with kneading and 
 
Sec. 23.] THE BREAD QUESTION. 377 
 
 true yeast fermentation may be distrusted. Tiie compositions of what may 
 be termed bread compounds, even if palatable, difler greatly from true, 
 good bread. 
 
 " It is not of what kind of eatalile things bread can be made, but how to 
 best make good, wliolesome bread that is as sweet when a day or two old as 
 when first made, or better even than when new, that has no taste of yeast, 
 none of the bitter of hops, nor the disagreeable flavor of alkali, and that will 
 keep good a week, if necessary. 
 
 " Tiie preference should be given to that yeast that will make the light- 
 est, sweetest bread, without aid from extraneous substances, that is least 
 likely to run into the acetous fermentation without infusing the bitter of hops. 
 
 " The idea tliat alkalies make the bread tender is an error, tlie dough be- 
 fore their introduction having run into the mucilaginous or putrefactive fer- 
 mentation." 
 
 But as many do and will continue to use alkalies, we will give some of 
 the most approved methods. 
 
 " For making prepared flour that can be used at leisure, to each quart of 
 flour add one teaspoonful of saleratus and two of pure cream of tartar, and 
 what salt is required ; mix them thoroughly together while dry, and set 
 aside for use. Flour prepared in this way will last three months, for the 
 reason, the flour keeps the chemicals separate from each other; it can then 
 be wet up in the usual way and baked at once. Use this prepared flour for 
 bread, biscuit, or any kind of sweet cake or pan-cakes, but do not mix the 
 pan-cakes until you want to use tliem. 
 
 " The best method for making bread with sour milk and saleratus is to 
 add to each pound or quart of flour one heaping teaspoonful of saleratus and 
 what salt is required ; mix tliem well together ; which is best done by pass- 
 ing it all through a sieve. Then add as much sour milk as will make 
 the dough the usual thickness. Mold it in small loaves, and bake at once. 
 If the bread should be a little yellow, put in less saleratus next time. For 
 biscuit, it should be molded quite thin. Very little shortening is required ; 
 it should be baked in a hot oven ; and, if baked quick, the steam will help 
 to raise the biscuit." 
 
 It is contended by the advocates for this bread, that " being free from all 
 yeasty particles, it is more digestible and not so likely to create flatulence or 
 turn acid on weak stomachs as fermented bread ; and when of the finest 
 quality, it is beneficial to those who sufler headache, acidity, flatulence, 
 eructations, a sense of sinking in tlie pit of the stomach, distention, or pains 
 after meals, and to all who are subject to gout or gravel. It is also useful 
 in many afiections of the skin. 
 
 " These remarks apply to both varieties of the bread, but especially to the 
 brown, which is further invaluable to all who are liable to constipation 
 from torpidity of the colon, or large intestines — the common infirmity of 
 the sedentary — and of tliose who have been accustomed to oatmeal diet in 
 their youth. 
 
378 DOMESTIC ECOXOMT. [Chap. IV. 
 
 " But the advantages of llie process are not limited to matters relating to 
 health. It is valuable because bread can be prepared by it in the short 
 space of half an hour, thus saving much time and labor. It is valuable, also, 
 because the materials are not perishable, and may be rendered available in 
 ])!aces and at times when yeast and other ferment is not -within reach — as at 
 sea, for example, or in country retirements ; and it is still more valuable as 
 i-egards economy. The cost of the chemicals is counterbalanced by that of 
 the yeast, salt, and alum, otherwise employed ; but were it not so, they 
 would form an altogether unimportant item in the j^rice of bread ; while by 
 their use a saving is eficcted in the flour of not less than 13 per cent^ ,- In 
 the common process much of the saccharine part of the flour is lost b}' being 
 converted into carbonic acid and spirit, and thus waste is incurred solely for 
 the purpose of getting carbonic acid to raise the dough. By the new method 
 waste is avoided, and the gas obtained in a manner equally efficacious. 
 And it is a striking instance of the successful application of chemical phi- 
 losophy to the common arts of life, for fermentation destroys a part of the 
 flour or meal, so that 280 lbs., which make 360 lbs. of bread by fermenta- 
 tion, give 380 lbs. by the new process." 
 
 399. Soda vs. Yeast, and Bread without Yeast.— Without taking any part 
 in the controversy about the healthiness or unhealthiness of soda bread, we 
 will give extracts from the opinions of its advocates as follows : 
 
 " Soda is a caustic alkali in its iinconibined state. It is the base of com- 
 mon salt. In this form it is daily taken into our stomachs with food, and 
 also administered regularly to domestic animals by the careful husbandman. 
 Let us remember that notwithstanding the chlorid of sodium has been used 
 from time immemorial by man, and always eagerly sought after by wild 
 animals, it has also met opposers among ultra hydropathists. It is therefore 
 not so astonishing that the bicarbonate, whicli is what is used in cookery 
 and of recent introduction, should flnd'many opposers. 
 
 " Potash is an alkali extracted from wood ashes by percolation, and for 
 culinary purposes is combined with two equivalents of carbonic acid, and 
 sold under the name of saleratus. The chemical natures and physiological 
 efl'ects of the two bicarbonates are so nearly identical that I shall not keep 
 up the distinction in treating of them, though from the fact that the bicar- 
 bonate of soda is dryer and more easily reduced to powder, it is preferable. 
 
 " To secure the desired effect of bicarljonate of soda, it is necessary to use 
 it in connection with some acid which, by combining with the alkali, sets 
 free the carbonic acid, in form of gas, at the time of baking. Sour milk, 
 which contains lactic acid, is best. The lactic acid, having a stronger affin- 
 ity for the soda than the carbonic acid has, combines with it, forming 
 lactate of soda, a neutral salt, possessed of no caustic property whatever ; 
 while the gas, disengaged, fills the bread with minute cells and thus renders 
 it light and palatable. 
 
 " In the absence of sour milk, tartaric acid or cream of tartar should be 
 used. If tartaric acid is used, tartrate of soda results ; a harmless substance 
 
Sec. 23.] THE BREAD QUESTION. 379 
 
 even in considerable quantities, and by no means unpleasant to take in 
 ■warm days in the form of an effervescing draught. If cream of tartar is 
 used, the product is tartrate of soda and potassa, or Rochelle salts, ■which, 
 in ounce doses, is known to be one of our mildest saline purgatives. 
 
 "A hearty eater -will lake only a few grains of any of these salts at a 
 meal, and these readily pass off through the excretions of the body, or enter 
 upon their physiological offices in the gastric fluids — the bile or blood. 
 
 "These bicarbonates, used -n'ithout an acid, render bread unpalatable; and 
 this of itself ■n-ould prevent persons from using them to a hurtful extent. 
 
 "Instead of being a curse to the ■^vorld, the introduction of the bicarbon- 
 ate of soda has been a great blessing in banishing lard, in a great measure, 
 from our biscuit. That the large quantity of grease necessary to make good 
 short biscuit of superfine flour renders bread in a high degree indigestible, 
 ■will be universally admitted. Make biscuit according to the following 
 formula, and you have an article altogether superior iu point of digestibility 
 and flavor to those in which lard is used as the only shortening. 
 
 " liule 1. Flour, two poupds ; fine Indian meal, a teacupful ; bicarbonate 
 of soda, a heaping teaspoonful. Thorougldy mix these dry, and make up 
 with new buttermilk, or if the milk is very sour, add water sufiiciently to 
 make it about like new buttermilk. The soda must be neutralized, and, in 
 iising milk, judgment on this point must be exercised. 
 
 " Hide 2. Flour and meal as above ; rub together dry a teaspoonful of 
 soda and two thirds as much tartaric acid. Mix this dry ■with the meal aiul 
 flour, and make up with water. 
 
 " Hide 3. Same as Xo. 2, except use a teas^'ooonful of cream of tartar in- 
 stead of the tartaric acid. 
 
 " A very small quantity of lard or butter may be used with advantage to 
 the taste, but it is not essential. These ingredients added to corn bread 
 make a wonderful improvement on the old-fashioned hoe-cake. That this 
 bi-ead is healthier tlian yeast bread there is no doubt. 
 
 "A healthy stomach, especially in winter, when the system is in a vigor- 
 ous condition, may take yeast in considerable quantity and digest the meal 
 before the process of fermentation has time to take place. But not so with 
 weak stomachs, or healthy ones in the heat of summer, because yeast is the 
 deposit formed in fermenting liquids, and has the property, when added to 
 solutions of starch or sugar, even in exceedingly small quantities, of excit- 
 ing the vinous fermentation in the whole mass, and may, and often does, do 
 it, in the stomach as well as in bread." 
 
 But the sweetest, most nutritious, most wholesome bakers' bread, we 
 believe, that ever was made, is that first brought into general use in New 
 York in 1861, by the establishment of a large manufactory for its produc- 
 tion, which used over forty barrels a day, when working in full force. This 
 bread is called " unfermented," yet it is as light as any good home-made 
 bread, which it very much resembles. 
 
 The following is the process by which it is made light without yeast : 
 
380 DOMESTIC ECONOMY. [Chap. IV, 
 
 "Tlie best superfine flour, -with a due proportion of pure water, passes 
 from the bin, through a large iron pipe, into a huge, hollow globe of cast- 
 iron, lined with tin, in which revolves an iron shaft with polished steel arms, 
 which mix and knead the doug'i. 
 
 "During this operation pure carbonic acid gas is conveyed from the gas- 
 ometer into the globe by a powerful force-pump, and is incorporated uni- 
 formly into the whole mass. Every ingredient is in definite proportion, and 
 the most perfect accuracy is thus insured. By the pressure of the gas the 
 dough is tlicn forced through a valve into baking-tins, and in an hour and 
 a half, from flour in the bin, it is beautifully baked bread. No hand of man 
 touches it in the whole process. All is done by the iron hands of machinery 
 and the power of steam. No chemical change M-hatever occurs in the flour. 
 All its elements — the starch, the gluten, and sugar — are retained in their 
 original proportions and purity, and the result is the best and sweetest bread 
 in existence. By the old process a little of the starch is always converted into 
 dextrine — a species of glue — giving the bread a dark color, and sometimes 
 sodden texture. To remedy this, alum is generally used, and the bread there- 
 by further vitiated. Perfect cleanliness in the manufacture of bread has 
 not been possible heretofore. It is by this process. 
 
 " Bread made at home has been the purest that could be had, for the ves- 
 sels were carefully looked after, and the air was generally free from dust 
 and decomposhig particles, but none could tell what impurities contaminated 
 the yeast, which, Avhether it came from baker or brewer, was necessarily 
 more or less mixed with foreign substances. Home-made bread was the 
 cleanest we could have, but was not perfectly pure ; while with the most 
 watchful supervision and most careful cleanliness, bakers' bread, made in 
 the ordinary way, can not possibly be entirely clean." 
 
 Another advantage unfermented bread has over all other bakers' bread, is 
 its remarkable keeping quality. It has been eaten with great satisfaction 
 when twelve days old. 
 
 "William Lounsberry, commissary of the 20th Regiment, New York State, 
 which had been served with this bread while in the city and on the march 
 to Washington, speaks of it in the following terms : . 
 
 " Tlie bread has been on our table every day since we left, and is con- 
 sidered by all a great delicacy. It loses none of its flavor by its age, but, 
 for me, it really seems to improve. 
 
 " It is sweet, light, and very palatable. I consider it, in many respects, 
 the best bread I ever tasted, in addition to its power of retaining its excel- 
 lence so long, the virtue which gives it its inestimable value. I wish I could 
 be the means of informing a much larger number than I am able of its in- 
 estimable merits." 
 
 We have spoken of this method of making bread, not because it will help 
 families to make better bread, but to show what improvements have been 
 devised to make bread upon a large scale. The process would be a good 
 one for the army and navy, and in all large towns. It is proper to say, 
 
Sec. 23.] THE BREAD QUESTION. 381 
 
 however, that the bread is not a universal favorite. Habit so vitiates tlie 
 taste, that there are people wlio love sour bread, and also bread tliat smells 
 and tasjes rank of yeast. To us it is not agreeable nor healthy. Tiiis " nn- 
 ferniented bread" is patented by Elislia Fitzgerald and James Perry, New 
 York. 
 
 400. Other SubslitutPS for Yeast— Chemicals iti Bread.— A substitute for 
 creain of tartar has been discovered by Prof. E. N. Ilorsford, which he 
 tliiiiks far preferable to use with soda in bread. Ho says of it : 
 
 " All these considerations led me to the conviction that, if it were possible 
 to prepare phosphoric acid in some form of acid phosphate of lime, such 
 that, after its action with moist carbonate of soda, it would leave phosphate 
 of soda (a constituent of the blood) and phosphate of lime (an essential con- 
 stituent of food), and confer upon it the necessary qualities of a dry, pulver- 
 ulent acid, the end would be so far attained as to justify a practical experi- 
 ment in domestic use. 
 
 " I succeeded in producing an article in condition to meet the wants of 
 the problem. I then introduced it into my family for use in all forms, as a 
 substitute for cream of tartar for culinary purposes. When many months 
 of daily use had assured me that my theoretical views were sustained by 
 practical application, I gave it into the hands of friends, whose prolonged 
 experience fully confirmed my own. It has been in constant use in my 
 family now for more than four years ; and in the form of yeast powder, 
 during this time, it has been produced and consumed in all parts of the 
 country to a very large extent, settling, in the most satisfactory manner, all 
 questions as to its serviceability and healthfulness. 
 
 "The article is prepared according to instructions furnished by myself, as 
 the result of long-continued experiment, and it will be produced of invari- 
 able purity and strength equal to that of cream of tartar."- 
 
 Of the same purport, and having a, direct reference to this case, are the 
 views of Dr. Samuel Jackson, professor of the institute of medicine in the 
 University of Pennsylvania : 
 
 " Your substitute for cream of tartar for the raising of bread is a decided 
 improvement. The tartaric acid is not a constituent of the grains from 
 which flour is made ; it is not a nutritive principle, and often disagrees with 
 the alimentary organs. The phosphate of lime, which is the principal in- 
 gredient of your preparation, is an essential constituent of all grains. It is 
 further an important nutritive principle; and recent experiments have 
 proved it is an indispensable element in the formation, not of bones only, 
 but of all the animal tissues. A deficiency of the phosphate of lime in food 
 is a common cause of ill-health, of defective development, and retarded 
 growth in children. In the conversion of wheat into flour, the phosphate 
 of lime is rejected with the bran ; and, in consequence, this necessary cle- 
 ment of nutrition, contrary to the arrangement of nature, is not obtained 
 from our fine wheat bread. Your preparation, while it makes a light, sweet, 
 and palatable bread, restores to it the phpsphate of lime which has been 
 
382 DOMESTIC ECONOMY. [Chap. IV. 
 
 separated fioin tlie flour, and thus adapts it as an aliment for tlie mainten- 
 ance of a healthy state of the organization." 
 
 Other cliemists and physicians of acknowledged high character and stand- 
 ing have given similar opinions. ^ 
 
 If raising bread by yeast is properly conducted, it is quite unobjection- 
 able ; but if, as is often the case, fermentation is allowed to proceed too long, 
 acetic and lactic acids are formed, and some of tlie complex nitrogenous 
 substances arise from the decomposition of the plastic bodies of the flour, 
 and are incorporated in the bread. 
 
 Yeast bread is never good unless the fermentation is arrested by baking 
 at just the right time. Ordinarily, this right time is a period of short dura- 
 tion, and probably not one loaf in one hundred is raised and baked when it 
 should be. Tlie circumstances which modify the time in which the fermenta- 
 tion may take place are so various, that it may occur in thirty minutes or 
 twelve hours. The sponge requires constant watching, and this, in the mul- 
 titudinous duties of the kitchen, it is not always possible to secure. Then 
 saleratus or soda, to sweeten tiie sour sponge, is the resort of the cook ; and 
 the result is an unpalatable and xmwholesome loaf, unworthy the name of 
 bread, and is really unwholesome food. 
 
 A correspondent of the Country Gentleman recommends the following 
 formula for nnfermented bread: 
 
 "Take of flour 3 lbs., bicarbonate of soda 9 drachms, hydrochloric acid, 
 specific gravity I.IG, 11 drachms. About 25 oz. of water will be required 
 to form the dough. First mix the soda and flour as thoroughly as possible ; 
 which is best done by sliaking the soda in flne powder from a sieve over the 
 flour with one hand, Avhile the flour is stirred with the other, and then 
 passing the mixture once or more through the sieve. Next pour the acid 
 into the water and difi'use it by stirring them well together, avoiding the use 
 of any metallic utensil that the soda miglit come in contact with. Then 
 mix the dough and water so prepared as speedily as possible. The dough 
 should be speedily put into a quick oven. This manner of making bread is 
 a great improvement, and will prove advantageous, compared with tlie fei- 
 meiiting method, and the quality also will be found vastly superior to the 
 antique ' leavened bread,' particularly for dyspeptics, as it has this advant- 
 age, that it never sours on the stomach. By this method bread can be made 
 in two hours, and it saves both time and labor. The ingredients are simple, 
 and cost little. Fermentation always destroys more or less of the flour, be- 
 sides otherwise injuring it for the purposes of assimilation. 
 
 "A large proportion of the bread used in some families is scarcely more 
 than an active form of yeast, which produces in the stomach a new fer- 
 mentation and a host of disorders. And then we witness, of course, the 
 blue vapors, which under diflferent aspects are as ruinous to the welfare and 
 peace of a family as are those of a distillery. If the proportions of acid and 
 baking soda directed to be used are thought to be too great, they may be 
 varied at discretion. 
 
Seo. 23.] THE BREAD QDESTIOK. 383 
 
 " In bread-inaking the only purpose served by fermentation is the genera- 
 tion of carbonic acid to raise tlie dough, and to effect tliis a quantity of yeast 
 is mixed with the flour. But the game purpose is gained by mixing a 
 quantity of carbonate of soda with the flour, with a corresponding propor- 
 tion of hydrochhjric or muriatic acid, and bread so formed is more nutri- 
 tious and economical." 
 
 Common salt always should be added, not only because it is palatable, 
 but because it has a chemical effect upon the flour, so that that of inferior 
 quality assumes an appearance above the reality. This is proved in what is 
 called " salt-rising Iread," which alwaj's looks whiter than the same flour 
 made with yeast. Salt also has the efl'ect to make flour take up and retain 
 more water in the bread. Alum has the same effect as salt in a stronger 
 degree, and its use by bakers is dishonest, because it is much more delete- 
 rious tlian salt to the human stomacli. 
 
 Sulphate of copper is another deleterious ariicle in bread, but it can only 
 be used in small quantities, without great danger, and produces the same 
 results as alum in a still greater degree. 
 
 Carbonate of magnesia, used at the rate of 20 to 40 grs. to the pound of 
 flour, produces effects similar to the alum or sulphate of copper, and good 
 scientific autliority has pronounced it harmless, or at least preferable to soda. 
 Other authority says its inaptitude to become entirely soluble makes it 
 highly objectionable. 
 
 Probably the safest mineral substance that can be used in bread is lime, 
 as recommended by Liebig (394). 
 
 To prepare this lime-water, mix a quarter of a pound of slaked lime in a 
 gallon of pure, soft water or filtered rain-water, and cork it tight in bottles. 
 The water will dissolve ^loth of its weiglit of the lime, and the balance will 
 settle to the bottom, leaving the water transparent, which may be used at 
 the rate of 5 lbs. to 19 lbs. of flour, and then fresh water may be added to 
 the lime until all that is soluble is used up. The quantity of lime taken into 
 the system is so minute that it is believed that it is not only not deleterious, 
 but positively beneficial. 
 
 401. Prof. Youmans' Opinion of Chemicals in Bread.— Speaking of the use 
 of various chemical substances for yeast, Prof. Youmans says : 
 
 " The class of substances tlius introduced in the bread are not nutritive 
 but medicinal, and exert a disturbing action upon the healthy organism. 
 And although their occasional and cautious employment may perhaps be 
 tolerated on the ground of convenience, yet we consider their habitual 
 use as higlily injudicious and unwise. This is the best that can be said of 
 the chemical substances used to raise bread, even when pure ; but as com- 
 monly obtained, they are apt to be contaminated with impurities more 
 objectionable still. For example, the commercial muriatic acid which is 
 comtaonly employed along with bicarbonate of soda, is always quite impure, 
 often containing clilorine, chlorid of iron, sulphurous acid, and even ar- 
 senic, so that the chemist never uses it without a tedious process of purifica- 
 
381 DOMESTIC ECONOMY. [Chap. IV. 
 
 tion for his purposes, which are of far less importance than its employment 
 in diet. While common hydrochloric acid sells for three cents per pound 
 wholesale, the jjurified article is sold for thirty-five. Tartaric acid is apt 
 to contain lime, and is frequently adulterated with cream of tartar, which is 
 sold at half the price, and greatly reduces its efficacy ; while cream of tartar 
 is variously mixed witli alum, chalk, hisulphate of potash, tartrate of lime, and 
 even sand. Sesquicarbonate of ammonia is liable by exposure to the air to 
 lose a portion of its ammonia. It is lience seen that the substances we 
 employ are not only liable to injure by ingredients which tliey may con- 
 ceal, but that their irregular composition must often, more or less, defeat the 
 end for which they are intended. "We may suggest that in the absence of 
 tests, tlie best practical defense is to purchase these materials of the drug- 
 gist rather than the grocer. If soda is desired, call for the bicarbonate of 
 soda ; it contains a double cliarge of carbonic acid, and is purest. Soda- 
 saleratus is only the crude, impure carbonate — soda asli. The cream of tartar 
 siiould appear white and pure, and not of a yellowish tinge. Carbonate of 
 potash in its crude state ajipears as pearlasli ; in its more ])uri}ied form it is 
 saleratus. Crude soda is kuown as sal-soda or soda-saleratus ; refined and 
 cleared of its chief impurities, it forms carbonate and bicarbonate of soda. 
 All tliese compounds have the common alkaline or burning property, wliich 
 belongs to free potash and soda, which is lowered or weakened by the car- 
 bonic acid united with them. The potash compounds are the strongest, 
 those of soda being of tlie same nature, but weaker. Yet the system, as we 
 have just seen, recognizes essential differences between them ; one pertains 
 to the blood and the other to tlie flesh. According to the theory of their 
 general use for raising bread, they ought to be neutralized by an acid, mu- 
 riatic, tartaric, acetic, or lactic, tlius losing their peculiar properties and be- 
 coming salts. These changes do take place to a certain extent, and the sa- 
 line compounds formed are much less powerfid and. noxious than the un- 
 neutralized alkalies ; their effects are moderately laxative. Yet, in tlie 
 common use of these substances, as we have stated, the alkali is not all ex- 
 tinguished ; much of it enters the system in its active form. Pure, strong 
 jDotash is a powerful corrosive jjoison, disorganizing the stomach and dis- 
 solving its way through its coats quicker, perhaps, than any otlier poisonous 
 agent. When the alkalies are taken in small quantities, as when there 
 is an excess in bread, they disturb healthy digestion in the stomach by neu- 
 tralizing its necessary acids. They are sometimes found agreeable as pal- 
 liatives when there is undue acidity o-f the stomach ; and, on the other 
 hand, they may be of service in the digestion and absorption of fatty sub- 
 tances. It is alleged that their continued use tends to reduce the propor- 
 tion of fibrin in the blood. Cases are stated where families have been poi- 
 soned by the excessive employment ot saleratus." 
 
 402. Baking Bread— Heat of the Oven— Quality of Flouro— The heat of the 
 oven, besides being equally diffused, should continue regular. The heat is 
 right when flour sprinkled on the oven-bottom turns brown gradually, and 
 
Sec. 23.] THE BREAD QUESTION". 385 
 
 too hot if the flour chars Wack directly ; for then it will produce a thick 
 crust, often burnt, while the interior of the loaf is underdone. The crumb 
 is cooked at tlie boiling-point — 212 degrees — and might be done in a steam- 
 chamber as well as an oven, but for the crust, which we all love so well that 
 we are not willing to dispense with it for any more economical mode of 
 cooking than the oven. 
 
 The heat of the oven swells a M-ell-raised lump of dough to about double 
 the size by the expansion of carbonic acid gas, and by steam arising from 
 the moisture in the loaf, and by the vaporizing of alcohol, distilled out in 
 the process of baking, to an amount equal to about one quarter of one per 
 cent, of the weight of bread. A well-raised loaf of bread is more than half 
 cavities. The loss of weight in baking depends upon the quality of the 
 flour and size of the loaf. A one-pound loaf will generally require 1 lb. 6 oz. 
 of dougli. A three-pound loaf requires 3 lbs. 12 oz of dough. A six-pound 
 loaf requires 7 lbs. of dough. This shows that it is the most economical 
 to bake large loaves. 
 
 If you wish to prevent baking a hard crust, you can do so by rubbing the 
 loaf, after it is shaped for the oven, with a little lard, just enough to varnish 
 the surface. The crust, however, if not burnt, is always eaten with satis- 
 faction, its agreeable bitter taste being preferred by many persons. 
 
 The crust, which is dry and crisp upon new bread, grows soft and moisi 
 after a day or two. Some housewives always wrap tlieir loaves in wet cloths 
 when taken from the oven, to prevent the crust from continuing to get dryer. 
 There is no need of this, because the moisture of the crumb soon softens the 
 crust, and frequently leaves the crumb too dry. AVhen this is the case, re- 
 turn the stale loaf to the oven in company with a dish of hot water. 
 
 The average quantity of water in well-baked wheaten loaves is about 
 forty-five per cent. The best flour contains six to ten per cent, of water. 
 The reason that spring wheat flour makes moister bread than winter wheat, 
 is because it contains more gluten, and that being once thoroughly wet in 
 mixing the dough, is retentive of the water, even after it has lost its tougii, 
 adhesive qualities, in passing from dough into well-baked bread crumb. A 
 portion of the starch of the dough also retains water by being converted by 
 the baking process into gum. The loaf will retain much more moisture, 
 and consequently be better bread, if it crusts over immediately upon its 
 being placed in the oven, as it is then in a measui-e impervious to wafer, and 
 shuts in all that the interior of the loaf contains. 
 
 403. The Effect of Kneading. — Good bread can not be made by merely 
 mixing flour and water and yeast. The mass must be kneaded so as to 
 be sure to bring every grain of flour in contact with its equivalent grain 
 of water, and so as to diff'use the yeast uniformly throughout the mass, 
 or else the residting gas will be liberated in excess in one spot and not at all 
 in another. This is seen in badly-kneaded loaves in the large holes they 
 contain, and in a crust that easily detaches from the crumb, as though it had 
 been lifted up by internal force. Tlie air-cells in a well-kneaded loaf are 
 
386 DOMESTIC EOOSTOMY. [Chap. IV. 
 
 fine and uniform tliroughout the mass, and all will be formed at about tlio 
 same time. If the flour and yeast are decidedly good, and the kneading 
 decidedly bad, the bread will not give satisfaction. On the other hand, 
 good kneading, good moldins;, and jrood baking, will make a second or 
 tiiird-rate quality of flour pass almost equal to the best. 
 
 ■tOi. Preparations of Wheat and Other Substances for Breadi — There are 
 many things which may be used to mix with white wheat flour, or as sub- 
 stitutes for it. A baker in Paris has tried a suc'cessful experiment to reduce 
 the cost of bread by mixing rice flour with that of wheat. He puts in one 
 part of rice to live of wheat flour, and the economy efiected readies the veiy 
 considerable figure of one sou in the two-pound loaf. The government has 
 had the bread examined by competent persons, and has authorized the sale 
 of it at a less rate than fixed by the police. The demand is such that the 
 baker can not sujiply it. Neither the nutriment nor the taste of the bread 
 wou4d appear to be affected by the presence of the new ingredient. 
 
 The greatest advantage of mixing rice fiour with wheat flour is to enable 
 the loaf to retain more water, and make a moister bread. 
 
 Bread made of wheat meal, as is proved by the chemical experiments of 
 Prof. Johnston, aflbrds much more nutriment than that made from superfine 
 flour. These experiments show us that 1,000 lbs. of wheat meal, or the 
 wheat ground coarsely, and the hulls or bran portion sifted out by using a 
 common ineal-sievc, contain the elements of — Muscular matter, 156 lbs. ; 
 fivt, 28 lbs. ; bone material, 170-354 lbs. 
 
 Wiiercas in fine flour are found only of — Muscular matter, 130 lbs.; fat, 
 20 lbs. ; bone material, 60-210 lbs. Leaving a balance in favor of the 
 former of 14-4 lbs. in 1,000 lbs. of the real elements of food convertible by 
 assimilation into muscular flesh, fat, and bone. 
 
 Now, as bread ranks among the chief, if not as the chief substance de- 
 signed for the nutrition and support of the human frame, the above facts 
 ought to have weight, in a pecuniary point of view, as an argument against 
 the exclusive use of superfine flour. 
 
 Unbolted M'heat meal for bread is in high favor with many, and we think 
 every family should use it a portion of tlie time. In mixing the dough of 
 this meal, do not make it quite as stiff as you would white flour, and you 
 must be careful that it does not sour in rising, as it will do so sooner tliati 
 bolted flour. It also requires a hotter oven and longer baking, and the crust 
 is more apt to bum. 
 
 Rye flour mixed vcith wheat flour enables the loaf to hold more water. 
 The objection to it is its darker color and rye taste. 
 
 Indian corn meal is also mixed with wheat flour, for the same jiurposo as 
 rye flour, and if pure white corn is used, it does not aff'ect the color of the 
 loaf, and makes vcrj' sweet bread. 
 
 Of mixing potatoes we have fully treated (394), and recommend farmers 
 to grow some of the very white fleshed, dry sorts, for tliis purpose. 
 
 A French process uses ninety per cent, of the wheat making white bread. 
 
Sec. 23.] THE BREAD QUESTION. 387 
 
 The wheat is ground into fine M'lieat flour, Bcventy-four per cent. ; brown 
 meal, sixteen per cent. ; bran, ten per cent. The meal is then mixed quite 
 thin willi water and the necessary yeast added, and this is used to mix the 
 white flour into a dough, M-hich is baked as usual wlien light. The bread 
 is declared to be greatly improved, being less likely to sour, and is light, 
 sweet, and nutritious, 
 
 405. Corn Breadi — Although Indian corn is a more universal crop than 
 wheat, corn bread is by no means in universal use. The reason is in some 
 measure to be accounted for in the inborn love of fermented bread which 
 the meal of this grain will not make. Tlie use of "leavened bread" has 
 been thought by some to come in part from the early notion that it created 
 a distinction between Christians and Jews. The former always use leavened 
 bread — at least the Protestants do, in their sacraments — and the Jews have 
 their holy "feasts of unleavened bread;" so that eating unleavened bread 
 as a constant practice has been said to be an uncliristian act. It was also 
 the daily food of the heathen, and in early times, when the first settlers of 
 the country were very poor, corn bread Avas the only kind ; and the use 
 of it now may call up reminiscences of painful poverty. It is also the only 
 bread of slaves, and it may be looked upon as a badge of servitude. At 
 any rate, the poorest classes of the Northern States make the least use of 
 corn bread. Yet it is tlie very thiog tliat tlicy should eat, because it is 
 nutritious, healthful, and economical. In Northern cities, corn meal fur- 
 nishes scarcely one per cent, of the bread food, and not one per cent, of that 
 is made into bread. In the farming regions of the northeastern States pure 
 corn bread is only seen occasionally upon the farmer's table, though bread 
 made of a mixture of about two parts of corn meal and one of rye meal, 
 familiarly known as "ry'n'-injun," is still extensively \ised. (See 393.) 
 
 A much better mixture is one part rye meal, two parts corn meal, and 
 four parts fine wheat flour. The rye and corn are mixed with yeast, quite 
 soft, and set to rise, and after getting very spong}', the wheat flour is worked 
 in, and the mass allowed to get light before it is put to bake. 
 
 At the South, corn bread is almost the only sort ever seen upon the tables 
 of many families who rank upon a par with the mass of Nortliern farmers. 
 All eat it there and are content, both master and slave, and those who are 
 hired, or sit at the table as gnests. If a farmer at the North should attempt 
 to feed his laborers exclusively upon corn bread, there would probably bo a 
 revolt, particularly if a majority of them were Irish, whose only bread in 
 their own country was potatoes. 
 
 Such laborers have yet to learn that corn bread gives more working force 
 than liread of fine wheaten flour. The latter gives the most brain food, and 
 is best for growing children ; but Indian corn, either in the form of bread, or 
 many of the other forms in which it comes to the tables of those wlio know 
 how to cook it, furnishes the laborer with a greater proportion of power 
 than any other grain, and its value should be better known, and it then 
 ■would be more used as an article of food. 
 
DOMESTIC ECONOMY. [Chap. IV. 
 
 Perhaps the reason why the use of corn hread is going out of fashion in 
 tliis region, whioh is in the very center of the great corn helt, may he fonnd 
 in tlie fact tliat so many liouseholds are now served by cooks who Avere not 
 horn in a corn-growing country, and who seem incapable of learning tliat 
 corn meal is not fit to eat in a semi-raw sta:e. If they make it into mush, 
 they only scald it. If they mix it into bread, they insist npon its being done 
 as soon as it is heated through. Learn, then, that corn meal can not be 
 cooked too much — it seldom is enough. Tlie best corn bread we ever ate 
 was from meal well kneaded with nothing but water and a little salt, and 
 then made into lumps about the size and somewhat the shape of a man's foot, 
 and raked in the embers just like potatoes to roast, and there allowed to 
 remain and cook all night. The next best corn bread is the old-style johnny- 
 cake, mixed in the same way, and patted about three-quarters of an inch 
 thick npon a board, and roasted before an exceedingly hot fire. 
 
 The next best are the " corn-dodgers" of the Soutliwest, mixed like the 
 first^ and baked in an iron bake-pan, standing on hot coals, with hot coals 
 on the lid. These dodgers are usually of two to four pounds weight, and 
 when brought hot to the table are certainly good Ijread. They are much 
 eaten cold, but we can not recommend them in that condition, only as being 
 infinitely better than the half-baked corn bread common at the North. 
 
 All the improvements of corn hread ever attempted by adding other 
 ingredients have failed, to our taste, to produce an article equal to a well- 
 baked ash-cake or corn-dodger. 
 
 Remember the three grand secrets about making good corn bread : never 
 to grind your meal \evy fine, always to have it fresh ground, and never fear 
 baking it too much. All corn bread should be cooked a long time. The 
 negroes often bury the dough in the hot embers all night. 
 
 One of the most common objections to the use of corn bread is its sup- 
 posed indigestibility. On account of this character, which it has obtained, 
 as we think, unjustly, it is avoided by many people who are of a dyspeptic 
 habit. We think there is a mistake in ascribing this character to corn bread 
 indiscriminately. If Indian corn meal is not thoroughly cooked, it is indi- 
 gestible — more so, perhaps, than any other grain. But snch bread as that 
 above described as ash-cakes or corn-dodgers, we do not believe indigestible. 
 AVe have often eaten corn-cakes, made purposely for a severe affliction of 
 indigestion, and found them better than any other kind of bread. These 
 were made of meal and water and salt only, and patted out into the size 
 and thickness of Boston crackers, and most thoroughly baked in a quick 
 oven. See Section XXIV. 
 
Seo. 24.] 
 
 SUBSTITUTES FOR BREAD. 
 
 389 
 
 SECTION XXIV.-SUBSTITUTES FOR BREAD, IN GREEN AND DRIED 
 CORN, POP-CORN, HOMINY, AND PREPARATIONS OF AVHEAT 
 
 OW truly lias bread licen denominated "the staff 
 of life!" For it there is no substitute; though 
 some of the excellent preparations of food treated 
 of in this section may be considered substitutes, 
 but they are only partially so ; yet they are 
 ■worthy of our especial attention, because, as 
 articles of food, all over America, they hold a high 
 rank; and a notice of them seems fitting in connec- 
 tion with the bread question. Each one of the 
 articles named in this section furnishes wholesome 
 and economical food, and some of them should be 
 better known in every farmer's family. 
 
 400. Green Corn, or Roasting Ears.— Eoasting the 
 ears, is the primitive way of using Indian corn. It 
 is the first use that the early settlers of America made of it, because that was 
 the mode in which they found the Indians preparing it. The quality of the 
 corn grown for eating while in its milky state, has been much improved 
 since Captain Smith took his first meal with Pocahontas, on the banks 
 of James River, in 1607. Certainly there can be no richer vegetable 
 food than the best quality of sugar corn, such as every farmer should 
 grow, when simply boiled, or when made up in that Indian dish called snc- 
 co-tash. And if any farmer doubts the value of this green corn, as winter 
 food, when carefully preserved by drying, or in sealed cans, we think he 
 would be convinced, if he could dine at our table for a month in midwinter, 
 where he would find it was one of the regular dishes. We have just made 
 a hearty meal of this and another preparation of corn, directly to be noticed. 
 It is almost a substitute for bread and meat. It is useless to advise any 
 native American farmer's family to cat green corn, but it is not useless nor 
 improper to urge nine tenths of tliena to use a better variety. And we do 
 most earnestly ask every family to preserve enough by drying to give the 
 family a dish of it two or three times a week, cooked by boiling in plain 
 soft water two or three hours, and until nearly all the water is absorbed or 
 evaporated, and then season with salt and butter. If a little saleratus is 
 added at first, it will become tender with less boiling. Some like it dished 
 up with milk or cream. It is also excellent stewed with beans (succotash), 
 seasoned with a piece of moat, and it is very good in soups. 
 
 407. How to Dry and Cook Swert Corn. — AYhen the corn is in good condition 
 for eating, the grains being fully grown, boil a quantity of ears just enough 
 to cook the starch, and let them cool and dry a few hor.i-r, ;ind then shell or 
 
390 DOMESTIC ECONOMT. [Chap. IV. 
 
 cut oflp the grains and spread tlieni in the suii lill dried. The best way to 
 dry the corn is to nail a piece of cloth of very open texture on a frame; say 
 two feet wide and five feet long, will be a convenient size to handle. If the 
 corn is spread thinly upon this cloth it will diy' quickly without souring. It 
 should be covered with a piece of mnsquito nctling to keep off the flies. 
 Another person gives the following directions for drying sweet corn. 
 
 "As soon as the corn is fit for the table, husk and spread the ears in an 
 open oven or some quick drying-place. When the kernels loosen, shell the 
 corn as soon as you can, and spread it upon a cloth to dry in the sun, or on 
 paper in a warm oven ; stir it often that it may dry quickly and not over- 
 heat. Dried in this way, the kernels remain whole, are sweeter, and retain 
 more of the natural flavor by drying faster. When all dried, expose it to 
 the wind by turning it slowly from dish to dish ; the wind blows ofl" all that 
 troublesome white chaft*." 
 
 Another plan has been highly recommended and a machine invented to 
 facilitate tlie operation ; this is to bore out the pith of the cob and then com- 
 pletely dry the corn on the cob and keep it there till wanted for the table, 
 when it may be shelled first or boiled as it grew. 
 
 Directions for cooking dried sweet corn are very simple. Wash and put 
 it in warm water to soak several hours ; then in the same water boil it for 
 a half hour. Just before taking it uj), add some sweet milk or cream, pep- 
 per and salt to the taste, and a little sugar if it is not as sweet as would be 
 agreeable. Sometimes a bit of soda as large as a pea in a half pint of corn, 
 while soaking, makes it more tender, and corrects any stale taste which it 
 has acquired by long keeping. 
 
 This is a good dish with meat, dressed with gravy, or it may be eaten M^ith 
 sauce as a dessert dish. It is good enough, eaten any way, to be, and it 
 should be, upon every American farmer's table. 
 
 408. Hulled foru, or Lye Homiuy, is another primitive form of preparing 
 an excellent substitute for bread. In the form of " tortillas," it is the almost 
 universal bread of Central America. We look upon hulled corn as one of 
 the luxuries of American farm life, yet not one in ten of farmers' families 
 ever enjoy it. It is particularly acceptable in the spring of the year, when 
 old vegetables are on the decline, and new ones have not yet come into use. 
 When the farmer burns wood, a wiiite lye may be made in a few minutes, 
 or cobs may be burned and ashes used to make a lye, into wli'cli put the corn 
 to be hulled, which should be large, white-fliut corn, and let it remain until 
 the hull will slip easily, and then rinse it thoroughly in cold water, rubbing 
 it with the hands or stii-ring it with a stick till all the hulls are washed ofl'. 
 Feed the hulls and chits which come out to the i)igs or hens, and boil the 
 corn for yourself until it swells to tliiee times its original size, and is as sot't 
 as bread. You may prepare and boil a gallon at once for six persons, and 
 what is not eaten at first may be warmed over just as you would potatoes. 
 Those who have no wood ashes or cobs to make weak lye of, may hull coin 
 by using a teaspoonful of saleratus to a quart of corn, in water enough to 
 
Seo. 24.] SUBSTITUTES FOR BREAD. 391 
 
 cover it. In either case the lye inTist be made hot after the corn is put in 
 to loosen the hull ; and if the lye is not carefully washed from the corn, it 
 will taste nnpleasantly. 
 
 409. Samp, or Dry Hominy. — This is another and most valuable prepara- 
 tion of corn, and an excellent, wholesome, economical substitute for bread. 
 It is an article that no family, desirous of practicing economy, can do without. 
 It is a very cheap, healthy, nutritious food. It usually costs only half the 
 price per pound of flour, and contains no moisture, while the best of flour 
 holds from twelve to sixteen pounds of water in a barrel. In point of econ- 
 omy as human food, one bushel of hominy is equal to ten of potatoes, for 
 which it is an excellent substitute, and is almost as universally liked as po- 
 tatoes, and at the South it is more freely eaten ; while at the JSTorth it is 
 seldom seen, except by a few persons in cities. By hominy, we do not mean 
 a sort of coarse meal, but grains of white corn from which the hull and 
 chit or eye have been removed by moistening and pounding in a wooden 
 mortar, or patent hulling machine, leaving the grains almost whole, and 
 composed of little else but starch. 
 
 4rlO. How to Cook Hominy. — The process is very simple to those who know 
 how. As but few do, v/e give the formula of practice in our own family : 
 Wash slightly in cold water, and soak twelve hours in tepid, soft water ; 
 then boil slowly from three to six hours in the same water, with plenty more 
 added from time to time, taking care to prevent burning. Do not salt 
 while cooking, as salt or hard water will harden the corn ; so it will peas or 
 beans, green or dry, and rice also. When done, add butter and salt ; or a 
 better way is to let each one season to suit the taste. It may be eaten with 
 meat in lieu of vegetables, or with sugar or syrup. It is good, hot or cold ; 
 it is good frequently warmed over, for it is like the old-fashioned pot of — 
 
 " Beau porridge hot, or bean porridge cold, 
 Bean porridge best at nine days old." 
 
 So is hominy; it is good always, and very wholesome, and like tomatoes, 
 onl}' requires to be eaten once or twice to fix the taste in its favor. 
 
 In New York this article is called samp, and the name hominy is given to 
 corn cracked in a mill, and winnowed, and sifted, and numbered according 
 to its fineness. We add a few of the ways in which hominy may be used. 
 
 IIoiiiNY BeeakfjVSt-CL\kes. — Mash the cold hominy with a rolling-pin, 
 and add a little flour-and-milk batter, so as to make the whole thick enough 
 to form into little cakes in the hand, or it may be put upon the griddle with 
 a spoon. Bake brown, eat hot, and you will declare you never ate anything 
 better of the batter-cake kind. 
 
 IIoMiXY Pudding. — Prepare as for breakfast-cakes ; add one egg to each 
 pint, some whole cinnamon, sugar to suit the taste, and a few raisins, and 
 bake like rice-pudding. A little butter or chopped suet may be added. 
 Serve hot or cold, with or without sauce. 
 
 IIoiiiNT Salad. — To a pint of cold hominy add a small onion, a quarter 
 of a boiled chicken, or about the same quantity of lobster, chopped fine, to 
 
392 DOMESTIC ECONOMY. [Chap. IV. 
 
 which some add a small pickle. To he dressed with sweet oil, mustard, 
 pepper, and vinegar. It is a very good suhstitute for green salads at seasons 
 when the latter can not be obtained. 
 
 HomNY AND Milk, hot or cold, is as much better than mush-and-milk as 
 that is better than rjemeal porridge. 
 
 Hominy and Beans. — Mix equal parts of cold baked beans and hominy 
 together, and heat up, and you will have an excellent dish. 
 
 Soft Hominy Beead. — One spoonful of boiled hominy, cooled ; a small 
 lump of butter, one egg, half a pint of wheat flour — mixed with milk to the 
 consistency of cream. Bake a half hour in a hot oven. 
 
 Hominy Waffles. — Two spoonfuls of hominy, a small lump of butter, 
 two eggs, one quart of wheat flour. Thin with milk to the consistency of 
 very thick cream. Bake in waffle-irons. 
 
 411. How Hominy is Made. — The primitive way of making hominy was 
 beating the corn in a mortar, in a considerable mass together, so as to rub 
 off the hulls by attrition of tlie grains, w'ithont breaking them. Nearly 
 forty years ago, in floating down the Ohio Eiver of a still evening, we first 
 heard the music of the hominy mortars, which filled the air, as the voices of 
 tiie negroes kept time to the strokes of the pestles, preparing a favorite food 
 for their masters as well as themselves. But of late years the ground hom- 
 iny, or cracked corn, has in a great measure driven the old hominy mortar 
 out of use. Negro hominy is cooked by soaking and boiling until it 
 becomes gelatinous, and then, when cold, if cut in slices and fried in a 
 little fat, is often eaten in preference to any other bread. Hominy is also 
 made by mechanical means, one of which is a shaft armed with files, 
 revolving in a case with the corn, which makes a very nice article. 
 
 At the South, negroes prefer hominy or corn meal to wheat flour, pound 
 for pound. Corn is ground very coarse, and frequently eaten, hulls and all, 
 in preference to sifting. Few would be willing to live upon that alone. It 
 would not be good economy to do so. It would be good economy for us all 
 to use more Indian corn meal, and it would not only be economical, but 
 healthy, to cat more hominy. 
 
 We will add here several good receipts for cooking corn meal, as substi- 
 tutes for wheaten bread : 
 
 412. Virginia Corn Bread. — Dissolve one tablespoonful of butter in three 
 and a half pints of boiling milk ; in this scald one quart of Indian meal ; 
 when cool, add a half pint of wheat flour, a little sugar, a teaspoonful of 
 salt, and two eggs well beaten ; mix well together, and bake in two cake- 
 tins well greased or buttered. 
 
 413. The St. Cliarles Hotel Indian Bread. — Beat two eggs very light, mix 
 them with one pint of sour milk (or butter with sweet milk will do), then 
 add a teaspoonful of soda or saleratus, then stir in slowly one pint of Indian 
 meal and one tablespoonful of melted butter ; beat these well together • 
 bake in a common cake-pan, in a quick oven. The bread can be made very 
 good without eggs. 
 
Sbo. 24.] SUBSTITUTES FOR BREAD. 393 
 
 414. Musb, or Hasty Pudding. — Stir into a half pint of cold water enough 
 Indian meal to make a thick batter ; put this into three or four quarts of 
 boiling water over the fire ; after this has boiled ten minutes, stir in a 
 dessert-spoonful of salt, and sifted meal until it is quite thick ; let it boil 
 from one to two hours, stirring it often to prevent its burning. 
 
 415. Fried Mush. — Mush to be fried should boil a little stiffer, with a half 
 pint of flour, say, to two quarts of mush ; put the mush in an earthen dish 
 dipped in cold water; let it stand until perfectly cold; then cut it in slices 
 half an inch thick, and fry them brown on both sides in a little butter or 
 pork fat — lard will do with a little salt. 
 
 416. Indiau Cakes. — To a pint of mush add milk or warm water to make a 
 batter, and flour enough to make the cake hold together ; two or three eggs, 
 two spoonfuls of molasses or sugar, a little nutmeg or lemon, to suit the 
 taste ; bake on a griddle or in an oven. 
 
 417. Baked Indian Pudding. — Into one quart of boiling milk scald ten 
 tablespoonfuls of Indian meal ; when cold, add a teacujjful of molasses, a 
 piece of butter the size of an egg, a teaspoonful of salt, also of ginger and 
 cinnamon ; bake in a pudding-dish from one to two hours, in a cook-stove, 
 or longer if in a brick oven. When done it has the appearance of brown 
 bread. 
 
 418. Pop-forn— Its Uses as Food— It makes Delicious Puddings.— We can 
 not close this section upon substitutes for bread without bringing to the notice 
 of fiirmers a new preparation of Indian corn, original with the author, but 
 highly approved by a very large number of persons to whom the new dis- 
 covery has been made known. It is as much a pleasure as it is a duty to 
 tell farmers how they can grow and prepare upon their own farms a substi- 
 tute for rice, farina, tapioca, sago, etc., for culinary purposes — something, in 
 short, that shall be as good as either of the above substances for the use of 
 the good housewife, to make a pudding — a pudding that is not a mere 
 adjunct of a dinner, but a real substantial addition to it; as hearty as one 
 of corn meal ; more wholesome than that, more toothsome, and equally cheap ; 
 so that it is within the reach of all, both rich and poor; and as I think it a 
 valuable discovery in the preparation of food, I am anxious that everybody 
 should enjoy the benefit of my discovery. 
 
 " Necessity is the mother of invention." It was so in this case. It was 
 discovered that a pudding could be got up in an impromptu manner, upon 
 an emergency, in a farm-house, when the ingi-edients in most common use 
 were exhausted. 
 
 For years popped corn had been an almost daily dish, all the family and 
 all visitors liking it very much ; but we had never thought of reducing it to 
 meal, and applying it to culinary purposes, until one winter day, when a 
 pudding was wanted, and it was not convenient to obtain any of the ordi- 
 nary substances nsed for that purpose. To the cook's suggestion that corn 
 meal might be borrowed, the mistress of the house replied : " No, no — my 
 father would rather go hungry than live by borrowing. Besides, I dou't 
 
394 DOMESTIC ECONOMY. [Chap. IV. 
 
 think there is time to make a eorn-meal pudding; it requires four good 
 hours to cook it sufSciently, otherwise it always has a raw taste; for corn 
 meal is never good unless cooked a great deal. I think you will have to 
 give up the pudding, but I will ask my father." 
 
 So she did, and he said : " Let us have a pop-corn pudding." 
 
 " Oh, it will, I fear, be a waste of time and material, aud prove a great 
 failure." 
 
 "No matter; there is as much to bo learued by failure as success. Let 
 us try." 
 
 So we did. A pint of pop-corn was put through the operation, and it 
 made sixteen pints of popped corn, which was first crushed with a rolling- 
 pin on the kitchen-fable, and then ground in the coflfee-mill into a coarse 
 meal, which measured eight pints. It is easiest crushed by putting it in a 
 bag. We have since procured a large-sized coffee-mill, that grinds the corn 
 without first mashing it. The difficulty was, that it was so light it would 
 not feed regularly into the grinding-plates of the mill. We grow the corn 
 for popping; it is a small, white, flint grain, upon small cobs, and quite 
 prolific in its yield. It is popped in a small popper made of woven wire, 
 and takes perhaps half an hour to pop and grind a pint. 
 
 419. How to make a Pop-Corn Pudding. — Mix five pints of the pop-corn 
 meal with full four pints of sweet milk, and set it where it will warm 
 slightly, and soak an hour or two. Then let it cool, and add two eggs, 
 sugar, raisins, spice, as you would to a rice-pudding. Let it be set on a hot 
 stove and boiled a few minutes, stirring it several times to get the meal well 
 mixed with the milk, because it inclines, from its great lightness, to float, 
 and if baked without stiri-ing there will be a brown crust on top and custard 
 at the bottom. It should be baked about an hour, and served hot, and will 
 be eaten with great satisfaction — satisfaction that a new ingredient for a 
 delicious, rich, wholesome pudding has been discovered — one always at hand, 
 easily prepared, and one that has never failed to gratify the taste of all who 
 have tried it. 
 
 The cost of such a pudding to a farmer is the cost of the sugar, raisins, 
 and spice — the milk aud corn I count at nothing. "What should I count the 
 cost of five eighths of a pint of corn and four pints of milk, which, if not 
 eaten upon the table, would go to the pigs? The eggs would sell possibly 
 for four cents, and the things bought cost as much more, in a pudding that 
 fed eight hearty people. Let us then eat pudding — good, rich pudding — as 
 much as we can at a meal, at a cost of one cent each. It is cheap ; try it, 
 and you will say it is good. 
 
 420. Pop-Corn Griddle Cakes. — ^^Another use for this pop-corn meal is for 
 griddle cakes. To my taste, they are quite equal to rice cakes, cooked in 
 any way that rice is, and are much heartier. In fact, there is no stronger 
 food for a laboring man than any of the preparations of corn in the way I 
 have indicated. At the same time, its digestibility is unquestioned. 
 
 421. The Philosophy of Popping Corn.— The philosophy of the advantage 
 
Seo. 24.] SUBSTITUTES FOR BREAD. 395 
 
 of thns preparing corn is -worthy of our attention. Of all the cereals, Indian 
 corn requires the greatest action of fire to fit it I'or food. It is full of essen- 
 tial oil, and that needs to be cooked, and it can only be done by a very high 
 heat or a long-continued moderate one. If long continuotl, the other con- 
 stituents of the corn are sometimes injured, and so are the ingredients added 
 to the meal. If not well cooked, any article of food prepared from corn, 
 however palatable, is not so digestible as wheaten bread. ]N"ow, in pop- 
 ping corn, it is subjected to a very high heat, which thoroughly cooks the 
 oil, and fits the corn at once for food — a food that almost everybody loves, 
 and so will everybody love the various preparations of food from meal made 
 of popped corn, for it may be eaten without fear by the dys[ieptic, and it 
 will be eaten with satisfaction to appease hunger. 
 
 As we kuow that corn and corn meal, properly kiln-dried, will keep a long 
 time, we may saiely argue that meal prepared by a still more perfect system 
 of fire-drying, will kecji an indefinite length of time, or just as long as we 
 wish. If ground and packed in barrels, the pop-corn meal will keep better 
 than corn meal or flour, or even whole grain. 
 
 422. Uulled Wbeat, Wheaten Groats, and Boiled VHieiiU—JIuUed wheat is 
 another excellent substitute for bread. It can be hulled by lye, or by any 
 of the mechanical means used for hulling corn or rice, one of which is to 
 run it through millstones, set just far enough apart to rub oflf the husks. 
 It is cooked by simply boiling, and is eaten in the various ways that we have 
 mentioned for hominy. 
 
 Wheaten Oroats, or "grits," as they are usually called, are coarsely- 
 ground wheat— as coarse as it can well be ground. This is also a substitute 
 for bread. It is cooked by boiling in plain water, as hominy or hulled corn 
 and wheat should always be, until all the water is absorbed. It is eaten both 
 hot and cold, or warmed over, and it does not require as much cooking as any 
 jjreparation of Indian corn, and it is both palatable and healthful. 
 
 Every family, whether I'ich or poor, or in town or country, should make 
 it a i-eligious duty to use more corn meal, oatmeal, Graham flour, hominy, 
 and cracked wheat for bread, in preference to fine wheat flour, both for 
 health and economy. Look at the relative retail prices per pound of these 
 articles, and see which will give the most nutriment for the least money ; 
 not which will afford you the most fashionable bread. 
 
 Boiled tuheat is another simple form of preparing an excellent substitute 
 for bread, particularly at harvest-time, while the grains are not as hard as 
 afterwards. It should be carefully selected, and cleaned, and washed, and 
 then soaked several hours, and boiled in the same water until some of the 
 grains crack open. It may be eaten with meat, or as a dessert, with syrup, 
 sauce, or milk. 
 
396 
 
 DOMESTIC ECONOMY. 
 
 [Chap. IV. 
 
 SECTION XXV -EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 
 
 NDER this head, which really means selecting 
 choice extracts from books that we read, we intend 
 to gather \ip a great nvimber of useful things, and 
 concentrate them here for easy reference in a some- 
 what miscellaneous order. 
 
 We will open the section with a most valuable line 
 of advice, selected from a letter of an excellent house- 
 wife to her daughter, when about undertaking the 
 responsibilities of housekeeping. She says : 
 
 423. "Always Buy Good Articles, notwithstanding 
 the first cost is more, in preference to cheap or low- 
 priced sorts, which are generally the most uneconomi- 
 cal ; and sometimes low-priced articles of food prove 
 detrimental to health. Make it a point to read every- 
 thing that comes in your way about clomestic economy. 
 You can not learn too much. Keep a little memorandum-book, with alpha- 
 bet pages, and make it a rule to store up excerpta from all you read, for 
 future use. It will prove to you a lasting source of useful knowledge. 
 Frequently j^ou need only make a reference in your memorandum where to 
 look for what you want. No head is large enough for a storehouse of all 
 that a good housewife will at some time want to know." 
 
 42i. Economy of Farm-house Lights. — This is a very important question for 
 the consideration of farmers' wives, who may find that it will not always be 
 good economy to burn their own tallow. Certainly not, if it can be ex- 
 changed for a light-producing substance which will save the hard, unplea- 
 sant labor of candle-making, and at the same time afford a much better and 
 a pleasanter light. Unfortunately, we have no standard of comparative 
 cost of tallow — the almost universal source of farm-house light — with fluid 
 substances. E. N. Kent, of the United States Assay Office, tells us, in the 
 following table, which is the most economical as regards cost of oleaginous 
 substances for light. 
 
 425. Cost of Oils for Light Compared : 
 
 Moforini. T„™„TT.o,i Eelail Price of Oil Cost of an Equal 
 
 *''"""'''• Lamp Used. per Gallon. Amount of LighU 
 
 Kerosene oil Kerosene $1 00 $4 10 
 
 Camphene Camphene 63 4 85 
 
 Sylvic oil Rosin oil 50 6 05 
 
 Rape-seed oil Mechanical 1 50 9 00 
 
 Whale oil Solar 1 00 12 00 
 
 Lard oil Solar 1 25 17 00 
 
 Sperm oil Solar 2 25 26 00 
 
 Burning fluid Large wicli 87 29 00 
 
 426. Cost of Oil and Candles Compared. — Dr. Ure gives the comparative cost 
 of an equal amount of light per hour from the following substances : 
 
Seo. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 397 
 
 "Carcel lamp, with sperm oil, lid. ; wax candles, 6d. ; spermaceti candles, 
 5id. ; stearic acid candles, 4id. ; molded tallow candles, 2id." 
 
 427. Economy of Kerosene Oil. — From the foregoing it will be seen that 
 kerosene oil is the least expensive of all fluid light-producing substances; 
 and as it is now refined, and burnt in improved lamps, we believe it to bo 
 a very agreeable substitute for tallow candles, but whether cheaper or not 
 can only be determined by actual experiments in different households, com- 
 paring the cost per gallon with the value per pound of tallow, and the light 
 produced or the light required. As a general thing, farm-house lights are 
 Tery inferior, and many a bright pair of eyes has been dimmed in conse- 
 quence. It is on this account that this question of light should be more 
 discussed and experimented upon. Do not continue to use candles, or any 
 particular form of lamp or kind of oil, Ijecause you have long been in that 
 practice, if tliere really is something better. 
 
 428. How to Improve Caudles. — If you do use home-made candles, pray 
 purify the tallow, and do not mix lard with it, though you may add a little 
 alum, and never use your candles any sooner than you would soap — until 
 they are at least six months old. Pack them in bran, and set them away in 
 a cool, dry place, and see how nnich they imjjrove by age. 
 
 It is M'ell to mix beef and mutton tallow, but the proportion of the latter 
 should be small, because it sometimes gives off a disagreeable odor. All 
 good tallow is white, firm, and brittle, and dipped candles can only be made 
 of it in mild weather. Be careful to use nothing but fine, Avhitc, clean cot- 
 ton yarn for wicking. 
 
 429. Lard— How to Make and Keep it Sweet.— The lard of a hog of about 
 a year old, fattened upon corn, and carefully rendered and packed in stone 
 pots or sound oaken firkins, and kept covered close, will keep in a cool cel- 
 lar just as long as any farmer's wife wants to keep it. Lard must be thor- 
 oughly cooked in rendering, to keep sweet. 
 
 A cooling-room attached to the ice-house is an excellent place to keep 
 lard in summer. But remember that lard will never keep well in any place 
 if it has been insufficiently cooked. 
 
 430. Rice and Sago should both have a clear, fresh, white appearance 
 when you purciiase. Eice with the largest whole grains is the best. Rice 
 is remarkable for being the richest in starch, and most deficient in oil, of all 
 the cultivated grains. Old rice is apt to be infected with weevil. 
 
 The small, white sago, called pearl sago, is the best. The largo, brown 
 kijid has an earthy taste. These articles, and ground rice, tapioca, etc., 
 should l^e kept in boxes or jars closely covered. 
 
 431. Spices, Cocoa, and Cliocolate. — Spices should never be purchased by 
 a farmer's family in a ground state. They are frequently adulterated, and 
 always lose strength as soon as ojjcned. 
 
 Nutmegs sometimes are kept in store until stale. Fresh ones can be se- 
 lected by pricking with a pin at the stem end, when, if good, a drop of oil 
 will ooze out. 
 
398 _ DOMESTIC ECONOMY. [Chap. IV. 
 
 Cocoa shells are apt to be musty from long keeping. Never purchase a 
 large quantity until you have tried a sample and jiroved it fresh and swcef. 
 Cracked cocoa k generally the best. Some that is carefully put up in 
 papers keeps well. Chocolate is often adulterated so that it makes a nau- 
 seous beverage. Do not buy but a single cake until you prove it good. 
 Both these articles are made from the cocoa beans, which grow \ipon small 
 trees, cultivated for the purpose in Central America and other tropical lati- 
 tudes. The beans are bitter and astringent, and are roasted like coffee to 
 prepare them for use. They contain much more oil or fatty matter than 
 coffee berries. It is rated in an analysis by Lampadius over 53 per cent, of 
 the substance. The substance containing the aroma of the bean is given at 
 16.70 per cent. The shells are the dried fleshy pulp that surrounds the 
 beans in the pods. 
 
 The cracked cocoa is the broken roasted beans. Chocolate is made of the 
 beans, ground with hot rollers, and made into a paste with sugar, and sea- 
 soned with vanilla and spices, and if not adulterated, makes a wholesome 
 beverage, but it is next to impossilile to find chocolate that is pure. 
 
 432. Coffee, as it comes to us, is the half of a dried bean which was inclosed 
 in a pnlpy berry that grew somewhat like a cherry upon a tree naturallj^ ten 
 to thirty feet high, but kept pruned low in coffee plantations, which are to 
 be found in most tropical countries. The best variety of coffee comes from 
 Mocha, in Arabia. The llferry is small and round, and the odor and flavor 
 very agreeable ; it bears a high price. And next to it is the Java coffee, a 
 large, pale yellow berry. The Brazilian, commonly called Rio coft'ce, is the 
 sort in most common iise. The berry is of medium size, greenish color, and 
 appears rusted with specks of gray. It is not a fine flavored coffee, having 
 a good deal of acridness, but it is in favor with farmers generally, because 
 " it goes farther than mild coffee." All coftee improves by age if kept dry. 
 It should be roasted very evenly, of a light brown color, and used very soon 
 afterward, as it loses value every day after it is i-oasted, and after it is 
 ground it will become almost worthless by a few days' exposure to the air. 
 Roasted coffee should always be carefully kept in a closed canister, separate 
 from all food, as it rapidly absorlis odors. Roasting coffee in a room will 
 always disinfect it of bad effluvia. It also imparts its own odor to other 
 things, such as tea, butter, and bread. 
 
 In roasting coffee, first dry it gently in an open pan until it changes 
 color, and then cover the pan and scorch it rapidly without charring a grain. 
 The term, " burning coftee," implies a great error in its preparation, or ig- 
 norance of its character. Roasting renders the grains of coftee brittle, and 
 makes the matter that it is desirable to extract more soluble in hot water, 
 and produces as great a chemical change as fire does upon corn meal or any 
 other article of food. 
 
 The peculiar aroma of coffee as it comes to the table, which gives it the 
 flavor and stimulating effect ascrilied to it, is never found in coffee grains 
 before they are roasted. But if it is lurnt, this flavor is destroyed, and 
 
Sko. 25.] EXCEPvPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 399 
 
 iu its place we have a bitter, acrid, tannic acid taste, which produces py- 
 i-osis in the stomachs of those wlio use it largely. 
 
 Never allow pepper and cofiee to come in contact. The two should not be 
 kept in the same pantry. 
 
 The best water for a decoction of cofiee is that with a slight alkaline tinc- 
 ture, and it has been recommended to add 40 grs. of dry soda to a pound 
 of cofi"ee. It is certainly true that some of the springs of the Kocky Mount- 
 ains, which are so alkaline as not to be drinkable, make good coffee. So do 
 wells that will not make good tea. 
 
 Never buy ground cofiee. Besides the fact that it loses strength, it is 
 almost universally adulterated. Peas are largely used for this purpose, and 
 beans, corn, dried carrots, turnips, chlccory, and several other substances are 
 also employed. 
 
 433. Tea— its Value as Foodi— That tea has a value as food, we can not 
 doubt. Long before its use among European nations, the Chinese had set- 
 tled this question to their satisfaction. If it is not of itself food, it seems to 
 help us to assimilate other things. It certainly is a favorite beverage with 
 all who are accustomed to its use, and so far as health is concerned, we be- 
 lieve it is certainly harmless, if pure, as the best black teas generally are. 
 Tlie green teas, either from the nature of the article, or from something 
 added in curing, have a much greater etiect upon the nervous system than 
 the black teas. Pekoe and Oolong arc the name^of two of the best varieties 
 of black tea. Gunpowder and Imperial arc the two best green teas. 
 
 434. How lo Make Black Teai — Black tea must be boiled some minutes 
 — thirty is betler than less — in a close vessel, to get the fragrant aroma and 
 all the vegetable extract that adds value to the delicious beverage we get 
 from a well-made cup of good black tea. 
 
 Never use hard water for tea Filtered rain-water makes good tea. 
 Never steep it in lukewarm water, and never let it come to the table at that 
 temperature. The true aroma of tea is never obtained except when it is 
 boiling hot. Tea should never be exposed to the air. Keep all ground 
 spices, and also ground coffee, carefully excluded from the air. 
 
 435. Su^ar and 3Ioiasses> — For most purposes refined sugars are the 
 most economical. In buying raw sugar, select none but the cleanest sorts, 
 such as the best New Orleans, or Santa Cruz, of a liglit straw color, coarsely 
 crystallized. White Havana sugar is not as clean as white Brazil sugar. 
 Select bright, light-colored molasses. Never buy the thick, dark-colored, 
 srgar-house syrup. Its thickness does not indicate sweetness. For the 
 table, the real " golden syrup" of the sugar-refiners is not only the best, but 
 most economical. We make an excellent table syrup every year of maple- 
 sugar dissolved in boiling water. 
 
 436. Knowtedfi^e for the Kitcheiii — Here are a few simple rules for the kitchen 
 that may be usefully remembered : 
 
 Oranges and lemons keep best wrapped close in soft paper, and laid in a 
 drawer with linen. 
 
400 DOMESTIC ECONOMY. [Chap. IV. 
 
 Bread and cakes should be kept in a tin box or stone jar. 
 
 Salt codfish should be kept in a dry place, where the odor of it will not 
 affect the house. The best kind is that which is called dun, from its peculiar 
 color. Fish skin, for clearing coffee, should be washed, dried, cut small, and 
 kept in a box or paper bag. 
 
 Soft soap should be kept in a dry place in the cellar, and should not be 
 used till three months old. 
 
 Bar soap should be cut into pieces of a convenient size, and left where it 
 will become dry. It is well to keep it several weeks before using, as it 
 spends fast M'hen it is new. 
 
 Cranberries will keep all winter in a firkin of water in the cellar. 
 
 Potatoes should be put into the cellar as soon as thej^ are dug. Lying 
 exposed in the sun turns them green and makes them watery. Some good 
 housekeepers have sods laid over barrels of potatoes not in immediate use. 
 To prevent them from sprouting in the spring, turn them out on the cellar 
 bottom. 
 
 To thaw frozen potatoes, put them in hot water. To thaw frozen apples, 
 put tbeni in cold water. Neither will keep well after being frozen. 
 
 437. Storing Butter and Cheese.— The most economical, and, to our taste, 
 the best table butter is that which is packed in September and October for 
 tlie next winter's use. If well made, in a soft-water region, there is no 
 difficulty about keeping butter sweet in a temperate climate, if properly 
 niaiJf. Never keep butter and cheese together, except it is in a very cool 
 room, and then not in close contact. 
 
 If cheese is rich and good, it always feels soft under the pressure of 
 the fingers. Even if kept until quite old, it does not become horny. Be 
 careful not to select a horny cheese. That which is very strong is neither 
 good nor healtliy. To keep one that is cut, tie it up in a bag that will not 
 admit flies, and hang it in a cool, dry place. If mold appears on it, wipe 
 it oft' with a dry clotli. 
 
 438. Keeping Sweet Potatoes, — One who is a successful grower of sweet 
 potatoes in quite a nortliern latitude— near 42 degrees — gives the following 
 as his metliod of keeping them over winter. He says : 
 
 " I use dry sand to put them up in ; it does not matter how the sand was 
 dried — in a kiln, a log heap, or in the sun — if it is dry, that is all that is 
 required. I prefer drying it in a log heap, as it costs at least four times less, 
 and is just as good. And a family that has a little room with a stove in it, 
 may keei? a box or two, with eight or ten bushels in them, without any in- 
 convenience of consequence. The boxes must be raised a few inches from 
 the floor, and they must not be less than four inches from the wall. Fill the 
 boxes with potatoes, and then jiut in dry sand until they are covered. 
 
 " I have knoM'u them kept well in Ijuckwheat chaff. In order to keep 
 potatoes with success, there must l)e a thermometer kept in the room. The 
 mercury must not sink below 40 degrees ; if it does, the potatoes will chill 
 and rot ; and it must not rise al)ove GO degrees, or they will grow." (See 565.) 
 
Sec. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 401 
 
 439. Preserving Eggs. — Tlie following receipt is of such easy application 
 that all housewives should try it, and satisfy themselves whether it is all that 
 its author claims for it : 
 
 " Dissolve some gum shellac in a sufficient quantity of alcohol to make a 
 thin varnish, give each egg a coat, and after they become thoroughly dry, 
 pack them in bran or sawdust, M'ith their points downward, in such a man- 
 ner that they can not shift about. After you have kept them as long as you 
 desire, M'ash the varnish carefully off, and they will be in the same state as 
 they were before packing, ready either for eating or hatching." 
 
 440. Beans — How to Cook fhenii — "Few people know the luxury of baked 
 beans, simply because few cooks properlj^ prepare them. Beans generally 
 are not cooked half long enough. Tliis is a sure method : Two quarts of 
 middling-sized white beans, two pounds of salt pork, and one spoonful of 
 molasses. Pick tlie beans over carefully, wash them, and add a gallon of 
 boiling-hot soft water; let them soak in it all night; in the morning, put 
 them in fresh water, adding a teaspooiiful of saleratus, and boil gently, till 
 the skin is very tender and about to break. Take them up dry, put them 
 in your dish, so as to have the beans fill the dish nearly to the upper edge ; 
 turn in boiling water till the top is just covered ; bake with a steady fire 
 four or five hours. Watch them and add more water from time to time, as 
 it dries away. This is an old-time ISTew England Saturday-evening dish." 
 
 441. Tomatoes— Various Methods of Preserving and Using them.— There is 
 no way to preserve tomatoes for winter use so good as drying them. It is 
 easily done tiius : Scald, and peel, and stew to a gelatinoiis mass, and spread 
 upon earthen plates, and dry in the sunshine or in a slow oven. It will then 
 resemble dried stewed pumpkin, or the pulp of peaches dried in the same way. 
 "When wanted for use in winter, a portion of this dried tomato is soaked first 
 in cold water, and that is graduall}' warmed till the whole becomes a ho- 
 mogeneous mass, more or less thick, according to the quantity of water used. 
 It may be eaten as a sauce M-ith meats, or, by adding sugar, as a sweet- 
 meat, or in place of currant jelly with venison and mutton, or as a subsn- 
 tuto for cranberries with roast turkey. It is an excellent and a cheap 
 sauce. 
 
 Tomato Chowder. — To one bushel of green tomatoes add one dozen green 
 peppers, 12 common-sized onions, one quart of grated horseradish, one cup 
 of ground mustard, one ounce of cinnamon, one ounce of cloves, whole. The 
 tomatoes, onions, and peppers chop fine. Put the tomatoes and onions in a 
 vessel over-night, sprinkle a little salt over them, and in the morning drain 
 off the water, put all together and boil them in clear water until tender, tlicn 
 di-ain the water from them, mix with the above-named spices, pack in ajar, 
 and pour scalded vinegar over them. 
 
 Another way is to take green tomatoes, cut a small piece off the stem ind, 
 and also from the other side ; tlien lay them in a pan. Sprinkle with salt, 
 pour boiling water on them, and let them stand ten minutes. Pour the 
 water off and serve them in the same inanner again ; then pour boiling wa- 
 
402 DOMESTIC ECONOMY. [Chap. IV. 
 
 ter on them without salt, and let them stand a few minutes. Chop them up 
 fine, putting in some cabbage, horseradish, and ])eppers ; and when all 
 chopped, put on salt, pepper, and vinegar, and they are ready to pickle in 
 crocks. This makes an excellent relish with meat. 
 
 Tomato Catchup. — Scald ripe tomatoes just sufficiently to allow you to 
 take olf the skins ; let them stand for a day, covered with salt; strain thom, 
 to thoroughly remove the seeds ; then to every two quarts add three ounces 
 of cloves, two of black pepper, two nutmegs, and a very little Cayenne pep- 
 per and salt ; boil the liquor for an hour ; let it cool and settle ; add a pint 
 of the best cider vinegar : bottle, cork, and seal tight, and keep it always in 
 a cool place. 
 
 ANornEE Way. — Take a bushel of tomatoes and boil them till soft ; 
 squeeze theni through a fine wire sieve, and add half a gallon of vinegar, 
 one pint and a half of salt, two ounces of cloves, quarter of a pound of all- 
 spice, two ounces of Cayenne pepper, five heads of garlic, skinned and sep- 
 arated ; mix together and boil about three hours, or until reduced to about 
 one half ; then bottle, without straining. 
 
 Tomato Sauce. — One peck of tomatoes, one ounce of cloves, one ounce 
 of cinnamon, one cpiart of vinegar, four pounds of brown sugar, two table- 
 spoonfuls of salt, and the same of ground black pepper. Feel the tomatoes, 
 and boil until very tender. Drain them from the juice. Now boil the 
 sugar, spices, etc., in the liquid until it is thick as syrup ; return the fruit 
 into this syrup, and stew until the mass is a jam, and it keeps well any 
 length of time. This may be used to flavor the following sauce : 
 
 442. Picnic Saucei — Beat the yelks of four eggs perfectly ; mix with the 
 eggs a tumbler of jelly, four large tablespoonfuls of brown sugar, four large 
 tablespoonfuls of mustard stirred into a batter with vinegar ; to these ingre- 
 dients add a teacupful of butter and two tumblers of best vinegar. Stir all 
 together carefully ; set the vessel in which you have mixed the sauce in a pot 
 of boiling water and cook until it tliickens and the egg is done ; stir in a 
 little salt and half a teaspoonful of Cayenne pepper and as much tomato 
 sauce as will give it a pleasant flavor. 
 
 443. Muslirooms, and tlieir Uses and Production. — It has been published 
 that some of the great producers of mushrooms near Paris, M'ho grow them 
 in artificial caves, can produce at the rate of eighty quarts a day upon an 
 acre of surface, which would give an annual crop of 29,200 quarts. Allow- 
 ing the actual crop only one fourth of this quantity, it would be a very val- 
 uable one, as the average market price in New York is 25 cents a quart. 
 Say 7,300 cpiarts for the product of an acre, at 25 cents, this would be 
 $1,825 a year. The construction of artificial caves, however, is so ex- 
 jiensive, that mushrooms are not likely to be much cultivated by farmers for 
 family use, though many of them will continue to collect such as are pro- 
 duced spontaneously about the homestead ; and to enable them to do so 
 without danger of getting hold of other plants of the agaric family that aie 
 poisonous, we give the following rules to distinguish the edible mushrooms 
 
Sec. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 403 
 
 from toadstools. "Without giving the boianical characters, we notice some 
 of the marks by which they may be distinguishod: 
 
 First. Tlie mushroom has no bad smell. The skin on the top of the 
 mushroom will readily jjeel off. The gills or plates on the under side of the 
 mushroom are of a white and pinkish or rosy liue, and though turning 
 brownish. by age, yet never of that lurid brown of the toadstool. When 
 sprinkled with salt and allowed to stand a few hours, the mushroom gives 
 out juice, but the toadstool becomes dry and leathery. If all these charac- 
 ters are united in the specimen it may be safely eaten, otherwise it should 
 be rejected, as it would be better to throw away acres of good mushrooms 
 than to eat one of the poisonous toadstools. 
 
 Secondly. Muslirooms which grow in marshy, shady places, and in thick 
 forests where the sun has no access, are in general to be regarded as pos- 
 sessing dangerous qualities ; their substance is softer, moister, and more 
 porous than that of mushrooms used for the table. They have likewise a 
 more disagreeable and dirty-looking appearance. Those which have a 
 dusky hue, and change color when cut, or show a gaudy or many very dis- 
 tinct colors, particularly if they have been originally covered by skin or ex- 
 hale a strong and unpleasant odor, ought not to be eaten. Those which 
 have short bulbous stalks, or fragments of skin adhering to the surface, or 
 which grow rapidly and corrupt cpiickly, should also be rejected. It has 
 been generally supposed that poisonous mushrooms lose their deleterious 
 qualities, but this is a rule to which there are many exceptions, and which 
 ought therefore to be very cautiously admitted. 
 
 If you wish to grow mushrooms, procure some of the spawn from a gar- 
 dener, and make a bed of light loamy soil, mixed with manure from horses 
 fed upon grain ; it will produce these plants when the temperature is right, 
 which is about 50 or 55 degrees Fahi-enheit, in dry, calm, summer weathei-. 
 A cave cellar, or natural cave, or recess in the rocks, is a good place to make 
 a mushroom bed. 
 
 44:4. Drying Rliiibarbi — Rhubarb, when well prepared, will keep good for 
 an indefinite period. The stalks should be broken off while they are crisp 
 and tender, and cut into pieces about an inch in length. These pieces should 
 then be strung on a thin twine, and hung up to dry. Rhubarb shrinks in 
 drying more than any other plant, and when dry strongly resembles pieces 
 of soft wood. When wanted for use, it should be soaked in water all 
 night, and the next day stewed over a slow tire. None of its properties 
 appear to be lost in drying, and it is equally as good in winter as any other 
 dried fruit. 
 
 Another plan is to cook it first; for this get the Linnjeus rhubarb. It is 
 larger, more tender, and better flavored than any other, requires less sugar 
 by one fourth, and has no skin to be taken off. Do not attempt to peel it, 
 but cut in pieces as long as the ihickness of the stalk, and put them with 
 your sugar in an earthen dish without water; cover it to retain the flavor, 
 and place it in an oven and cook till quite tender, without stirring or break- 
 
404 DOMESTIC ECONOMY. [Chap. IV. 
 
 ing the pieces. If too mucli cooked, it assumes a disgusting stringy appear- 
 ance, and loses all fruity character. The rosy color of the stalks will give 
 your dish an attractive appearance, and the dyspeptic will find in it a power- 
 ful aid to digestion. 
 
 This, if thinly spread upon plates, and dried in the sun or a slow oven, 
 just as the pulp of peaches or stewed pumpkin is sometimes prepared, will 
 keep as well as pumpkin, if packed away iu thick paper bags or boxes, and 
 kept in a dry place. 
 
 Rhul)arb has within a brief period, quite within our memory, become 
 generally diffused, and is now looked upon as a family necessity rather than 
 a luxury. There are several varieties : Gaboon's seedling is the largest, but 
 is rather coarse and not so high flavored as some others, of which we may 
 have more to say under the head of the garden. We will only speak here 
 of one or two methods of preserving the good qualities of the stalk by dry- 
 ing. For drying whole, the Victoria is one of the best varieties. Other 
 sorts contain too much woody fiber. 
 
 445. Facts about Pork and Bacon— How to I'lirc and Keep Hams. — The best 
 and most solid pork is made by rapid feeding of pigs in autumn, which have 
 been kept growing, but not fat, all summer. Hogs that are kept fat through 
 the summer are most apt to afibrd soft pork, which shrinks in the pot. 
 
 One writer says that—" Pigs should be wintered upon two ears of corn 
 a day, fed very regularly, one at night and one in the morning, keeping 
 them in a warm, close pen, without water, and they will hibernate in good 
 condition upon this small amount of feed. If watered or fed with liquid 
 food, and kept in the cold, much of the food is expended in keeping up 
 animal heat. The pigs should be in good condition when put up, and must 
 be well bedded to enable them to keep warm." 
 
 446. Dry-Salting Baconi — Hams, or any part of the pig designed for bacon, 
 we think, should never be put iu pickle ; they are decidedly better salted 
 dry. 
 
 Our practice has been to weigh both pork and salt, giving six pounds of 
 fine salt to one hundred pounds of pork. First sprinkle about one fourth 
 of an ounce of saltpeter, finely pulverized, upon a ham or shoulder, 
 and then rub it well over with salt, and pile up the pieces in some dry 
 room, just as you would pile up a lot of stove-wood. It should be over- 
 hauled once, and the spare salt rubbed on fresh-looking spots, and the pile 
 I'econstructed so as to allow the air to come to all parts. It will completely 
 salt in as many days as a ham weighs pounds. 
 
 For pickled pork, it is advantageous to salt it in bulk, before packing in 
 barrels. Nothing will drain off" from meat thus salted, but just what should 
 drain away. "When your pork is ready to go into the barrel, pack it as tight 
 as you can force it in, and then fill the barrel with brine; not salted water, 
 but brine, which is water saturated with salt. Pork thus cured will keep 
 longer than we can calculate. 
 
 447. English and Irish Mode of Curing Bacon.— The Irish Fa7vner^s Gasette 
 
Sec. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES, 405 
 
 gives the following directions: "Singe off tlie liair, and scrape tlioroughly 
 clean ; when cut up, rub the flesh side well with common salt, and pack the 
 pieces on top of each other on a tray with a gutter round it to catch the 
 brine ; once every four or five days the salt should be changed, and the 
 flitches moved, placing those on top at the bottom; five or six weeks of this 
 treatment will suffice to cure the bacon, when it may be hung up to dry, 
 first rubbing over with coarse bran, or any kind of sawdust except deal ; 
 if smoking be preferred, hang in a chimney; if not, in a dry, airy part 
 of the kitchen, not too near the fire. We are not acquainted with the 
 Limerick mercantile process ; the Wicklow is similar to that given above, 
 and practiced by farmers there," 
 
 An English recipe says : " For four hatns, take two ounces of saltpeter, 
 two quarts of molasses, one quarter of a pound of pepper, half an ounce of 
 cochineal, and about three pints of fine salt. If the hams have been in salt 
 pickle, the salt will not be needed. Pound the saltpeter and cochineal, then 
 put all these ingredients together, and rub the hams thoroughly with the 
 pickle, turning them every day." 
 
 -148. A Good Pickle for !Iams> — It depends partly upon how hogs are fed, 
 but more upon the manner of curing than anything else as to the quality of 
 hams. They can be made almost as delicate as tender chicken. For curing 
 hams in pickle we have tried and approve the following compound of 
 articles: To 100 lbs. of hams use 8 or 9 lbs. of rock-salt, 2 oz. of saltpeter, 
 2 lbs. of white sugar, 1 quart of best syrup, 4 oz. of saleratus, and 1 oz. of 
 allspice. 
 
 These materials are boiled and scummed, in ten or twelve gallons of water, 
 and the hams packed in a barrel, and the brine put on cool, adding water 
 if necessary to cover the hams. None but a new oak barrel should 1)C used. 
 Scald the barrel and cool it before putting in the hams. Let them lie three 
 M'ceks, and then take them out and air them twenty-four hours ; put them 
 liack again three weeks, i:nd then take them out and dry them tiioi'oughjy 
 before smoking, which is done in an airy smoke-house, with cobs and maple 
 or hickory chips. It is then a most delicious article of food. In smoking, 
 be careful to keep your hams cool ; never allow fire enough to heat the 
 meat. 
 
 449. Preserving Hams lor Family Use. — To keep hams through the summer, 
 hang them in a dry, cool room, and draw a loose cotton bag over them, and 
 tic it tightly around the string tiiat holds the meat. This must be done 
 before flies come in the spring, and it will keep them away. We have kept 
 hams prepared in this way till over three years old, and they were as much 
 better than new ones, as ripe old cheese is better than one a day old. The 
 best hams that wo have in this country are from hogs fed upon beech-nuts ; 
 but hams of hogs fatted upon corn are much better than those from what 
 are generally known as mast-fed hogs. 
 
 450. How to €«ok a Ham. — Never put a ham into a kettle of cold water, 
 and be equally careful never to put one into boiling water. First let the 
 
406 DOMESTIC ECONOMY. [Chap. IV. 
 
 water become lukewarm ; then put in the ham. Let it simmer or boil 
 lightly for four or five hours — five is better tliaii four — then take it out and 
 shave off the rind. Rub granulated sugar into the whole surface of the 
 ham, so long as it can be made to receive it. Place the ham in a baking- 
 dish, with a bottle of champagne or prime cider. Baste occasionally with 
 the juice, and let it bake an hour in a gentle lieat. A slice from a nicely- 
 cured ham, thus cooked, is enough to tempt a Jew. 
 
 451. Sausage-Makisia;. — All the lean scraps of pork that accumulate in cut- 
 ting up the pigs, whether for bacon or pickled pork, will be most economi- 
 cally used if made into sausage meat. But do not attempt this work unless 
 you have a good sausage-meat cutter; and if you wish to stufi'tlie meat into 
 cases, you should have a combined cutter and stuffer, so as to do the work at 
 one operation. Cut the pork into small pieces, and divide it in jtarcels of 
 about a quart, upon a clean table, to which the cutter should be fastened. 
 Mi.\ your seasoning of salt, sage, thyme, cloves, pepper, and a little sugar, 
 if 3'ou like it, with your meat, and then put it through the cutting-machine, 
 thus nicely blending the seasoning with the meat, which passes directly into 
 the cases, and finislies the jol) witli great expedition. 
 
 452. The Value of Pork in DacOQ. — If Imcon sides should range at 13 cents 
 per pound, shoulders at 10 cents, and hams at 15 cents; and prime j)ickled 
 pork at $18 per barrel, mixed pork at $10, and rumps at $14 per barrel, we 
 would advise all small farmers, who have a limited force to feed, and a 
 limited purse to empty, to buy the rumps ; they are about eight inches of 
 the small end of the backbone, with the tail cut oflT, and consisting of a due 
 proper; ion of fat, lean, and bone, and are the cheapest meat diet that can 
 possibly be purcliased by plant ers for tliL'ir people. 
 
 453. How to Cure aud Cook Corned Beef.— For a pickle, to every 100 lbs. 
 of beef, take five lbs. of salt, a quarter of an ounce of saltpeter, and one pound 
 of sugar; dissolve in sufficient water to cover the meat. Do not get your 
 meat too salt, for it makes it tough and tasteless. Do not allow it to remain 
 over two weeks in the first brine, for it takes up all the blood that was in the 
 meat, and consequently ought to be drained ofi', as the meat will be much 
 more likely to be injured than it will when separated and replaced with 
 fresh-made brine : but more especially in warm weather. In this way it will 
 keep with just sufficient salt to season it. In the second place, tlie cooking 
 is of just as much importance as the corning; it should be boiled at least 
 four hours, or until it can he cut and eaten as readily as a piece of soft 
 bread. Not one half of the domestics cook their meat long enough. Try it 
 once and you will see the difference. Meat prepared in this way can be 
 eaten with a relish, and is easily digested, giving nourishment and strength 
 to the body. But fried meats, or meats half cooked, can not be properly 
 masticated or prepared for the action of the stomach, and are among the 
 most indigestible articles of nourishment. Some persons are always in too 
 much of a hurry or too lazy to chew their food, thereby favoring their teeth 
 and throwing the respon ibility upon the stomach. Frequent abuses of this 
 
Sec. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 407 
 
 important organ develop disease, and the individual is said to have dyspep- 
 sia with all its attendant evils. Therefore, spare not the cooking ; you 
 will have the less chewing, and greater advantage of tlie food. 
 
 45J^. Italian Mode of Cooking Scrap, or Coarse Portions of Beef.— A very 
 economical and most savory and delicious dish can bo made with two or 
 three pounds of chuck steak, or cheap parts of beef, which infinitely surpasses 
 the tasteless, insipid, common eating-house stuff", called "beef a la mode." 
 Cut the steak into pieces of less than two inches square ; season with black 
 pepper and salt, put them into a saucepan with a full half pint of cold 
 water on the fire, and as soon as it boils up, remove it from the fire and set 
 it wliere it would simmer for two hours and a half, until perfectly tender. 
 "While simmering, tie up in muslin a bunch of sweet herbs, composed of 
 knotted marjoram, winter savory, and a little thyme, and take it out just 
 befoi'e tlie dish is served. Of course, the stew must occasionally be shaken, 
 as all others are; remember, however, the fat must not be skimmed off"; the 
 more fat there is, the better the stew. The dish is of Italian origin, and is 
 eaten by Italians with plain boiled macaroni and Parmesan cheese, or with 
 a salad, and with either is a dainty dish. 
 
 455. Pressed Beef. — This is another excellent way of nsing up the cheap 
 parts of fresh beef, or even that which is corned by the receipt given in No. 
 453. Boil any ragged scrap pieces, with not too mnch fat, until the bones 
 will freely separate from the meat, which pick off and pack in any strong 
 dish, and add such seasoning as you wish of salt, pepper, spice ; some add 
 a trifie of molasses or sugar, and press the whole into a c;ike, just as those do 
 who make " head-cheese" from that portion of pork that is better prepared 
 in this way than any other. 
 
 456. Useful Little Things for Uousekecpers. — " The truest economy begins 
 in little things." And so we give a dozen of them in a bunch to conclude 
 our "excerpta of knowledge for the kitchen." 
 
 Mahogany Stain. — Take four ounces of red sanders, one pound of fustic, 
 and an ounce of logwood, and boil them in half a gallon of water for one 
 hour; then apply it warm with a brusli or sponge; when dry, ajjply var- 
 nish. With this you can renovate old furniture. 
 
 A Cheap Refeigekatok. — "Two tin pails, soldered one into the other, the 
 space between them filled with charcoal, in small pieces (not necessarily 
 dust), with the cover arranged in the same way, will keep a small quantity 
 of ice a very long time. Three inverted tea-cups, or something made for 
 the purpose, should support the ice to keep it out of the water. Next to 
 putting the ice in a tin pail and wrapping it in a blanket, this is the 
 simplest ice-keeper we know of, and it is entirely philosophical and ef- 
 fective." 
 
 To this we add the recommendation of putting this tin pail, with the ice 
 in it, with a hole as big as a pin at the bottom and dripping-pan under it, 
 in a chest or close-shutting closet, the air of which will bo cooled, with the 
 provision placed in it. 
 
408 DOMESTIC ECONOMY. [Chap. IV. 
 
 This, of course, is only a substitute for a good refrigerator, but will be 
 found much better than none, and can bo made fur almost nothing, by any 
 man with Yankee gumption. 
 
 To Make Tough Meat oe Fowl Tender. — One or two tablespoonfuls of 
 sharp vinegar put into tiie water when set to cook M'ill do this, and in no 
 way impair the flavor of the stew or soup. Veal to roast is much improved 
 by being rubbed all over with vinegar and allowed to remain two or three 
 hours before cooking. Fifteen minutes to the pound is the received rule for 
 roasting and boiling meats, and ten for fish. 
 
 How TO Use Salt. — Beef or mutton should not have a bit of salt put 
 upon either when first set to roast ; just before serving, baste the meat, sprin- 
 kle fine salt slightly over it, dredge flour on, and let it brown up. Poultry 
 must be covered with sweet lard and salt — a tcaspoonful of salt to two of lard 
 — before roasting. 
 
 To Prevent Metals feoii Husting. — Melt together three parts of lard 
 and one of rosin powder. A very thin coating applied with a brush will 
 preserve Kussia-iron stoves and grates from rusting during summer, even in 
 damj) situations. For this purpose, a portion of black lead may be mixed 
 with the lard. The efl"ect is equally good on brass, copper, steel, etc. 
 The same compound forms an excellent water-proof paste for leather. 
 Boots, when treated with it, will thereafter take the nsual polish when 
 blackened, and the soles may be saturated with it without soiling the floor, 
 as it does not rub off. 
 
 Seeds and many other things are best kept in wooden boxes. By a new 
 patent contrivance, boards are cut about one eighth of an inch thick, of suit- 
 able length and width to bend into forms for the sides of a round box, the 
 largest holding about a peck, and eight others, smaller and smaller, to form 
 a nest. Tlie ends are fastened together with some kind of glue, and the bot- 
 toms are fastened in by a rim of tin bent over the corner ; and the lids are 
 made in the same way, so that the ends may be of stuft' but little thicker 
 than the sides. The tin corners are great protectors against mice, as that is 
 the only part of a circular box likely to be gnawed into, and this makes 
 them quite safe for seeds and better as well as cheaper than tin boxes, and 
 a decided improvement upon the old-style circular wooden boxes which have 
 bottoms made of a half-inch board, so as to nail it in. We should think that 
 half bushel and smaller measures, made up on the same plan, with iron in- 
 stead of tin corners, would be first-rate. 
 
 Unpleasant Odoes arising from boiling ham, cabbages, etc., are com- 
 pletely corrected by throwing whole red peppers into the pot, and at the 
 same time the flavor of the food is improved. Pieces of charcoal will pro- 
 duce the same efi'ect. 
 
 A Good "Wat of Eoasting Apples. — Select the largest apples; scoop 
 out the core without cutting quite through ; fill the hollow with butter and 
 fine, soft sugar; let tliera roast in a slow oven, and serve up with the syrup. 
 
 Hodge-Podge. — Cut two pounds of mutton into small pieces, and put them 
 
Seo. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 409 
 
 in a stewpan with three quarts of water and a tablespoonful of salt. Set it 
 on the fire and let it come to a boil; tlien set it where it will simmer an 
 hour; keep it well skimmed; then add one carrot, two turnips, two large 
 onions cut into small pieces, and half a dozen lettuce-heads, and let the 
 whole cook quite tender. Skim off" all the fat, and serve either v/lth the 
 meat in the soup or separately. A pint of green peas boiled in the soup will 
 be found to be a great addition. 
 
 IIaie-Beushes are best cleaned by wasliing them in sal soda or saleratus 
 water, which removes all the oily coating. 
 
 Sage and all other herbs for family use should be cut when the plant is 
 budding for blossom, and dried in the shade, and tlien stored in thick paper 
 bags, and there is no better place for them than hanging from the garret 
 rafters. 
 
 To Clean Knives. — Take a potato, cut in halves, and dip the cut part in 
 brick-dust and rub the knives, the potato affording just enough moisture. 
 
 Foe Cleaning Tainted Baeeels. — Put one peck of charcoal and one tea- 
 cup of saleratus into each barrel, fill them up with boiling water, cover tight, 
 and let them stand until cold. 
 
 457. Vermiu-Ufinsdies — Mollis, Bugs, AntSi — Moths are driven away, it is 
 generally believed, or rather the miller that lays the eggs is, by any strong 
 odor; so that furs or vv^oolens, packed in a chest of camphor-wood, or of 
 cedar, or sassafras, or with the shavings of those woods, or with gum-cam- 
 phor, or tobacco, snuff, or pepper, are preserved from the ravages of these 
 posts. After moths commence eating, they pay no regard to the presence of 
 camphor, cedar, or tobacco; in fact, I think «they enjoy the latter, if any- 
 thing else than humanity can. The superiority of pepper to camphor, as a 
 preventive of moths eating furs, consists in the fact that, while the eggs will 
 hatch among camphor, there is something in the aroma of pepper which 
 destroys their vitality. Woolens may be safely stored in a close linen bag 
 if often looked after. And probably looking after is the best of all the 
 ]treventives, for moths never work where they are frequently disturbed. 
 But if articles are packed in linen bags, they should be taken out and aired 
 once a month during summer. 
 
 Before packing away furs, they should be well beaten, to dislodge the 
 moths that, despite the most scrupulous care, may be deposited in them. 
 But the dreaded and inconvenient taking up and beating carpets will not 
 always insure success; but one who has tried it, says: "I conquered 
 them wholly in this way — I took a coarse ci-ash towel and wrung it out of 
 clean water, and spread it smoothlj' on the carpet, then ironed it dry with a 
 good hot iron, repeating the operation on all suspected places, and those 
 least used. It does not injure the pile or color of the carpet in the least, as 
 it is not necessary to press hard, heat and steam being the agents ; and they 
 do the work eftectually on worms and eggs. Then the camphor will doubt- 
 less prevent future depredations of the miller, by placing a few little crumbs 
 under the edges of the carpets without moving them." 
 
410 DOMESTIC ECONOMY. [Chap. IV. 
 
 Patchouli is recommended as a preventive of moths. Sachets de patch- 
 ouli are made of cotton-wool, among wliich a few grains of the powdered 
 patchouli leaves are mixed, and folded in paper. Placed among clothes, 
 they are said to drive away moths. In Hindostan, patchouli is used by the 
 M'omen for scenting their liair, and it is also mixed with tobacco for the 
 hookah. In this country the patchouli leaves, it is said, will retain their 
 scent if dried in the dark by being placed singly in a drawer, and turned 
 daily for a fortnight. The Arabs dry the leaves and stuff pillows and mat- 
 tresses with them, believing that they prevent contagion and prolong life; a 
 belief which attaches among the ignorant to sage and oth.er odoriferous 
 plants. As a scent, patchouli is used by perfumers chiefly for mixing with 
 other aromatics. 
 
 Benzoin is used in the museum of the Jardin des Plantes, at Paris, to 
 keep the moths out of the skins of the animals. 
 
 Tallow packed with clothes is also a moth preventive. But after all, fre- 
 quent shakings are the best preventives of all injuries by moths or mold. 
 
 Bugs may be killed with alum. Make a solution of alum, as strong as 
 water will dissolve, and apply that hot to places infested with bugs of any 
 sort, in bedsteads, closets, or trees and plants, taking care not to apply it so 
 as to kill tender plants, and the bugs will take a strong dislike to the 
 locality. You may brush it in cracks and crevices of floors, ceilings, or 
 walls of a room, or in the holes and nesting-places of these small vermin in 
 trees. 
 
 Corrosive sublimate is excellent for bugs and ants. For bedsteads it may 
 be mixed with soap. For ants, with lard and sugar, through Avhich draw 
 woolen yarn, and fix it in cracks infested with ants. 
 
 458. Rat RemedirSi — Chlorid of lime has frequently proved a sure thing 
 to drive rats away from any place infested by them. An ounce of it, scat- 
 tered in the place where they come to feed, or wrapped in a bit of muslin 
 and put in their holes, where it acquires dampness, produces a gas that is 
 not offensive to man, but is to the rats. If chlorid of lime is moistened 
 with muriatic acid, and placed in a drain, vault, or cellar, and closed from 
 the air a little wdiile, the rats will depart, because it will be death to remain. 
 This is also a good disinfectant, and will for a time remove the eflHuvia of a 
 dead rat. One application of dry chlorid of lime to rat holes has driven 
 them away for a year. K ihey return, a renewal of it will start them again. 
 
 Cats are the best rat-traps that we have found after many years' ex- 
 perience, and next to cats, the chafF-trap. This is best made Ijy partly filling 
 a large, smooth kettle with water, and then covering with a few inches of 
 chaff. The first rat that gets in makes a great outcry, which brings others 
 to share his fate. 
 
 The best food with which to mix poison for killing rats is pumpkin seeds. 
 Wet them, and sprinkle on a little arsenic, which will adhere to the seeds. 
 Thejr will be eaten liy rats and mice, while cats, fowls, etc., not being fond 
 of such food, will not meddle with them. "Wherever poison is put for these 
 
Sec. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 411 
 
 troublesome pests of the fann, water should be near by, so that they may 
 eat, drink, and die outside of their holes and liiding-plaees. Musk-rats, 
 which are often troublesome pests upon some farms bordering creeks or 
 ponds, may be poisoned witli arsenic upon pieces of parsnep or sweet apjile. 
 Gunpowder, flashed in rat-holes, is said to be good to drive them away from 
 tlie premises. 
 
 459. Disinfectants and the Value of Disinfecting. — Nothing conduces more lo 
 promote the health of a family than pure atmosphere. It can be kept so 
 only in dwellings properly constructed for ventilation. From sitting-room, 
 dining-room, and bed-rooms we have air flues that have a strong draught 
 out of the top of the house, and the kitchen is largely furnished with venti- 
 lation. In all unventilated rooms of the house, and in sick chambers, odors 
 at times accumulate so as to need disinfecting, while cellars, sinks, out- 
 houses, and stables often need it. Coflee roasted in a room, solution of cop- 
 peras sprinkled about, or cloths wet in it and hung up; chlorid of lime 
 moistened, each acts quickly as a disinfectant. The odor of a dead rat can 
 be allayed at once by moislening an ounce of chlorid of lime with a tea- 
 spoonful of muriatic acid. But no one should breathe much of the gas it 
 engenders. 
 
 There is a considerable difi'erence between a deodorizer and a disinfectant. 
 The former either merely removes or disguises a foul odor; the latfer changes 
 the character of the matter which creates the elfluvia, and prevents it from 
 sending forth disease. Fresh slaked lime and charcoal dust are very good 
 deodorizers, but their disinfecting powers are not equal to some of the salts 
 of manganese, which, when they combine with pestilential fluids in sinks 
 and drains, give out at the same time a considerable quantity of pure o.xygen 
 to refresh the atmosphere. The manganate of soda, or potash, has recently 
 been tried in London with much success in deodorizing and disinfecting the 
 water of the river Thames, and its use in our cities during dry weather may 
 be of great benefit. It is applied by dissolving it in warm watei-, and pour- 
 ing it into the sink or drain to be disinfected. 
 
 M. Herpin, of Paris, in the Journal de Pharmacie, recommends dried 
 and pulverized plaster of Paris, mixed with rather more than one fifth of its 
 weight of powdered charcoal, as a cheap and most efl'ective disinfecting 
 mixture. It entirely removes the noxious emanations from decomposing 
 organic matters, fixing the ammonia, and forming a valuable manure. 
 
 Prof. Nash, of Amherst College, gives the following formula for making 
 what may be termed home-made chlorid of lime : 
 
 "Take one barrel of lime and one bushel of salt, dissolved in as little 
 water as will dissolve the whole; slake the lime with the water, putting on 
 more water than will dry-slake it, so much that it will form a very thick 
 paste; this will not take all the water; j)Ut on, therefore, a little of the 
 remainder daily until the lime has taken the whole. The result will be a 
 sort of impure chlorid of lime, but a very powerful deodorizer, equally 
 good for all out-door purposes with the article bought at the ajjothecary's, 
 
412 DOMESTIC ECONOMY. [Chap. IV. 
 
 and costing not one twentieth part as much. This should be kept under a 
 shed or some out-building. It should be kept moist, and it may be applied 
 whenever offensive odors are generated, with the assurance that it -vrill be 
 eftective to purify the air, and will add to the value of the manure much 
 more than it costs. It would be well for every farmer to prepai'e a quan- 
 tity of this, and have it always on hand." 
 
 How much more sensible it would be for the city authorities to use this 
 mixture, wliich concentrates effluvia, instead of quicklime, which d-issipates 
 it through tiie air and into everybody's lungs ! 
 
 To prove how quickly the air of a sitting-room becomes impure, place in 
 it a pitcher of iced water, and in a few hours it will have absorbed from the 
 room nearly all the respired and perspired gases of the room, the air of 
 which will have become purer, but the water utterly filthy. This depends 
 on the fact that the water has the faculty of condensing, and thereby absorb- 
 ing all the gases, which it does without increasing its own bulk. The colder 
 the water is, the greater its capacity to contain these gases. At ordinary 
 temperatures a pint of water will absorb a jiint of carbonic acid gas and 
 several pints of ammonia. This capacity is nearly doubled by reducing the 
 temperature to that of ice. Hence water kept in the room awhile is always 
 unfit for use, and should be often renewed, whether it has become warm or 
 not. And for the same reason, the water in a pump-stock should all be 
 pumped out in the morning before any is used. That which has stood in 
 the pitcher during the night is not fit for coffee water in the morning. Im- 
 pure water is injurious to health as well as impure air, and every person 
 should provide tlie means of obtaining it fresh and pure for all domestic uses. 
 
 4G0. Soap-Making and Washing.— Wood ashes made from any hard wood 
 will make soap. Pine ashes are nearly worthless. Beech, maple, birch, and 
 hickory are among the best sorts for leaching. Put sticks and straw in the 
 bottom of the leach-tub, 25acked close, and four quarts of lime to a barrel of 
 ashes, which wet and pound down as you put in, and then put on water 
 slowly two days before you let the lye run, and it will come strong, but 
 should be boiled still stronger before you put in grease. Bones, rinds, 
 gristle, and hard scraps must go into very strong lye, and will then soon be 
 eaten up, all but the earthy part of bones, which skim out and save for the 
 grapevines and pear-trees. Make the soap strong of grease as well as lye, 
 and do not use it till very old, and it will be very good. It should be of a 
 salvy consistence. 
 
 To make soap with potash : Use the best quality of "first sorts" of pot- 
 ash, in the proportion of si.x pounds of potash to seven pounds of grease, for 
 a barrel of 40 gallons. Break up the potash into small lumps and dissolve 
 24 lbs. in two pailfuls of hot water. It dissolves rather slowly when the 
 potash is good. AV'hen dissolved, put the solution into the kettle, and add 
 the grease quite warm, and stir the mixture together ; allow it to stand all 
 night, if convenient. In the morning apply a moderate heat until the mix- 
 ture appears ropy ; then fill up with cold water. Cost, sa}' 6 lbs. of potash, 
 
Sko. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 413 
 
 36 cents ; 7 lbs. grease, 28 cents — 64 cents for a barrel of soap. Another re- 
 ceipt says : 
 
 " One hundred pounds of good soap for $1 30 : Take six pounds of potash, 
 75 cents ; four pounds of lard, 50 cents ; quarter of a pound of rosin, 5 
 cents. Beat up the rosin, mix all together well, and set aside for five daj's ; 
 tlien put the whole into a twelve-gallon cask of warm water, and stir twice a 
 day for ten days, at the expiration of wliich time you will have about one 
 hundred pounds of excellent soap." 
 
 The following is considered a valuable aid to the washerwoman, by one 
 who has tried it. She says : 
 
 "Take one pound of sal soda and half a pound of unslaked lime; put 
 them in a gallon of water and boil twenty minutes; let it stand till cool, 
 tlien drain off and put it in a stone jug or jar. Soak your dirty clothes 
 all night, or until they are well wet through, then wring them out and rub 
 on plenty of soap, and to one boiler of clothes well covered with water add 
 one teaspoonful of the washing fluid. Boil half an hour briskly, then wash 
 them thoroughly through one, suds, and rinse well with water, and your 
 clothes will look better than the old way of washing twice before boiling. 
 This is an invaluable recipe, and I do want every poor tired woman to 
 try it." 
 
 Another one says : " Take two pounds of soda ash, two pounds of hard soap, 
 and ten quarts of water ; cut the soap fine ; add all together, put into a kettle, 
 and bi'ing to a boil, then take it ofiT the fire and stir until nearly cool. Put 
 your clothes to soak the evening before you wash. In the morning, wring 
 out, boil them in water, to which is added nearly a pint of the compound 
 to every pailful. Wash out in the same water and rinse, and your washing 
 is done." 
 
 461. Washiug Machines have been contrived, patented, made, and sold and 
 discarded almost as numerously as "patent churns." We have tried a good 
 many. The churns have all been given up for the old dasher, and notwith- 
 standing washing was " made easy," the old wash-board still holds its place, 
 'though some washing machines are worthy of commendation as assistants in 
 tlie laundry. None will do all the work. Perhaps our lady readers will say 
 that we ought to tell them which to buy. We can not do it. The latest 
 experience of our family is decidedly in favor of Doty's New York machine, 
 " improved," which acts upon the plan of a cloth-dresser's fulling-mill, and 
 is very easily worked. The " Metropolitan washing machine" is the pound- 
 ing barrel improved by springs that make it work easy. It is useful for 
 heavy work. Clothes AVeingers are worthy of the highest commendation. 
 They are the most important of all household labor-saving machines. They 
 are made of diflerent forms, but the principle in each is the same, being con- 
 structed to attach to the edge of a wash-tub, and contain two elastic rollers 
 wiiich are turned by a crank with one hand, while with the other the washer 
 picks up one end of a garment and holds it to the rollers, through which it 
 passes rapidly and falls into a clothes-basket a great deal dryer than any 
 
414 DOMESTIC ECONOMY. [Chap. IV. 
 
 woman could wring it with all her strength and ten-fold more time. These 
 machines cost from $5 to $10, according to size, and are very simple in con- 
 struction, very effective, and look as though they would be very durable, 
 and are certainly very great labor-saving machines, and one should be in 
 every famil}^, and we are doing a public duty in making them as exten- 
 sively known as any other fact for farmers. With a Metropolitan washing 
 machine and a clothes-wringer, or, rather, a clothes-squeezer, which has 
 been several years in nse in the author's family, washing-day is no longer 
 one that is dreaded. With these, washing is made easy. 
 
 462. Soft Wateri — No woman can wash with any satisfaction unless she 
 has soft water. It is for this that we have treated so fully npon cisterns — 
 333, 334, 335. Hard well water can be softened with lye, potash, or soda. 
 We have seen a statement that a well of hard water was permanently cured 
 by putting four feet of coarse gravel in the bottom, where the water oozed 
 in through the blue clay. We recommend that a space at least a foot 
 wide behind the wall should also be filled with gravel as high as the water 
 comes in. 
 
 As Ieoxing follows wasliing, we say : If your flat-irons are rough, rub 
 them well with fine salt, and it will make them smooth ; so will rubbing 
 them with a waxed rag. Be sure to use them hot. 
 
 463. Beds and Beddingo — There is no article of household furniture of so 
 much importance as the bed. It is the place where exliausted nature enjoys 
 recuperation, and all that art can do to make it comfortable at all seasons 
 of the year, should be done, particularly in the farmer's home, where the 
 nature of the labor is so exhausting. We are so much opposed to featlier 
 beds, that we have not had one in the house for many years, and we never 
 sleep more comfortably than we do at home upon hard mattresses. We 
 think that feather beds ought to be done away with, esj^ecially in warm 
 weatlier. For spring, summer, and fall, husk beds ouglit to be in use in 
 every familj', and would be if lietter known. There is no better time for pro- 
 curing husks than when the corn is being harvested, and the husks will be 
 much nicer and cleaner when corn is cut and shocked, and not become so 
 dry and weather-beaten. A good husk bed will last from twenty to thirty 
 years. Every farmer's daughter can supply herself with such beds against 
 time of need at a trifling expense. 
 
 'No one who has not tried them knows the value of husk beds, which is 
 such that some persons think that straw and mattresses would be entirely 
 done away with if husk beds were once tried ; that they are not only more 
 pliable than mattresses, but are more durable, and the first cost is but little. 
 To have husks nice they may be split after the manner of splitting straw for 
 braiding. The finer they are the softer will be the bed, although tliey will 
 not be likely to last as long as when they are put in whole. Tiiree barrels 
 full, well stowed in, will fill a good-sized tick, that is, after they iiave been 
 split. The bed will always be light, the husks do not become matted down 
 like feathers, and they are certainly more healthy to sleep on. 
 
Seo. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 415 
 
 46i. Home-Madc Mattresses of Hair and Wool. — Hair mattresses can also be 
 made in every farmer's family of very good quality out of pig's hair, which 
 should bc-cleaned in the same way that fine wool is cleaned of all its gummy 
 dirt. See 129. Where sheep are kept, a great deal of good material for 
 mattresses can be saved from taglocks and clippings of wool, which can be 
 cleansed with but little trouble by placing them some days in a basket in a 
 running stream, or even by soaking in still water. The filth dissolves with- 
 out injury to the wool. The cardings of horses and bullocks, if saved and 
 cleansed, will soon accumulate enough for a mattress ; for one of twenty 
 pounds on the top of a husk one will make a luxurious bed. There is no 
 secret about making a mattress. Holster the edges upon one of the sides, 
 and lay it flat on the floor or a broad table, and fill in the material evenly 
 of an equal thickness all over, and then sew on the top and lift the mattress 
 upon two or three narrow strips of boards supported at the ends upon tables, 
 benches, or barrels, so that you can stitch through and through with a long 
 needle which you can buy for such work, using strong, smooth linen twine, 
 with a cloth button under the loop of each stitch. 
 
 Cotton makes a soft, pleasant mattress when new, but it soon mats to- 
 gether, and vv-e do not esteem it a healthy material for beds or bedding, ex- 
 cept for sheets and light quilts. Beech leaves make a very good mattress, 
 clean, sweet, and wholesome; they are best when gathered by hand from 
 green trees. Straw, too, is alwaj^s much better cut in a green state and dried 
 in the sun, and rye straw is the best kind. 
 
 The best vegetable material ever used for mattresses, and almost equal to 
 hair, is the long moss which grows upon forest trees, covering them as with 
 a gray beard in several of the " Confederated States." It requires to be 
 macerated in M'ater until a thin cuticle peels off" Ly washing, or by drying 
 and beating, leaving the black, hairy-looking threads of the interior, which 
 are very tough and durable. 
 
 405. How to Make Bed Comforters. — The best bedding ever used is linen 
 sheets and blankets for summer, and cotton sheets and blankets for winter. 
 But as all can not have blankets, we will tell them how to make led com- 
 foiiers. It may be new to some readers that nice, warm bed comforters can 
 be made without the labor of quilting. 
 
 Make two calico spreads, old or new, and tack one in a quilting-frame, if 
 you have one, and if not, spread it on the floor and lay on four pounds of cot- 
 ton batting, and then the other spread, and tack through and through with 
 a darning-needle and tie tight over a piece of bright colored cloth, or yarn, 
 or wool, in squares of a foot, and you will have a neat-looking warm article 
 of bedding. Two persons can make five of them in a day. 
 
 4G6. Improvement iu Quilting-Frames. — And why not improve quilting- 
 frames? They need it. The old ones are about as awkward contrivances 
 as ever were conceived — always in the way when in use, with their long 
 arms sticking out all over the room long after they had ceased to be useful. 
 What man ever looked upon these necessary implements of household econ- 
 
-A6 DOMESTIC ECONOMY. [Chap. IV. 
 
 omy witli any satisfaction ? He looks every time he comes into the house 
 with an anxious eye at the progress of the work, " hoping the confounded 
 long-armed quilting-frames will get out of the way some time." Now, for 
 the special benefit of such nervous gentlemen, some good soul out in Mich- 
 igan has invented a quilting-machine that has no arms to stick out in the 
 way. " Necessity is the mother of invention," and this inventor, we sup- 
 pose, lived in a log-cabin only sixteen feet square, which, as it contained two 
 beds and a cooking-stove, had no spare room to set up tlie quilting-frames 
 on four chairs ; so he contrived a machine something like this, as near as 
 we can understand the description : Frame four legs together like the frame 
 of a kitchen table, with side pieces nine feet long, dropped five inches below 
 the top of the legs, and end pieces two and a half feet long. Now take some 
 scantling, two or two and a half inches square, and round them with inch 
 round tenons upon each end to work in sockets in the top of the legs. Upon 
 one end of each of these rollers have a little ratchet wheel and catch, and 
 nail a strip of cloth along one side of each to which to tack the edges of the 
 quilt. When all ready, roll it all but the two and a half feet wide strip 
 upon one roller and tigliten the catch ; now quilt that side and roll upon the 
 other roller and so on till finished. The side pieces should be made to go in 
 with a key, so that the frame can be taken down and packed away at any 
 time, even with the quilt half finished, as it can be rolled up snug. It is a 
 simple piece of domestic machinery, but would add to the comfort of many 
 a household. 
 
 407. Carpets and Carpet Sweepers. — Iveep a broom exclusively for carpet 
 sweeping. Never use it for any other purpose. Every one knows that the 
 daily dust arising from sweeping carpets causes a permanent injury to fui'ni- 
 ture, books, pictures, and the lungs. It is an old but good way to sprinkle 
 the floor first with damp tea-leaves, and then sweep with a bristle brush ; 
 but latterly we have found it much easier and more convenient to use one 
 of the new revolving carpet sweepers, which takes up the dust and puts it 
 away in a box so it does not rise without using any moistening application. 
 They are especially suited to libraries, offices, cabinets, and parlors. 
 
 The most economical carpet, probably, is a good, stout American ingi-ain, 
 which will cost about two dollars a square yard. If you are buying a 
 carpet for durability, choose small figures. A farmer should never grudge 
 the money to cover one room, at least, with a first-rate carpet, aud 
 cheaper ones for sitting-rooms, bed-rooms, and dining-room, if one is set 
 apart for the latter purpose. There is no furniture that adds so much to 
 the comfort of a house at the same cost as carpets. Tiiese is no labor better 
 bestowed about a house than giving the carpet a thorough shaking and 
 beating in a hot, dry day, upon the clean grass, at least once a year. 
 
 You need not hesitate to wash a carpet with strong soap-suds, with a 
 brush, as it lies upon the floor, using clear water afterward, and drying it 
 by ironing upon coarse towels spread over the wet spots. 
 
 468. Removing Staios — Beef-Gall. — There is no better substance than the 
 
Seo. 25.] EXCERPTA OF USEFUL KNOWLEDGE FOR HOUSEWIVES. 417 
 
 very cheap article — upon most farms — of beef-gall to take out stains upon 
 carpets, as well as many other things. 
 
 The clarified gall of the ox is also much used by scourers for renovating 
 the delicate colored silks and satins. In its natural state it contains green- 
 ish coloring matter, and is then only applicable for restoring the brightness 
 of dark materials. It is de-colored thus : Take one pint of gall, boil and 
 skim it, then divide into two parts ; to one half pint add half an ounce of 
 salt, to the other add half an ounce of powdered alum ; each part is to be 
 heated till the additions are dissolved; then pour into separate bottles, and 
 allow them to stand in a quiet place, and clear for a month or eight weeks, 
 even longer if not bright. The clear portions of both are then to be poured 
 gently ofl" the sediments and mixed together ; the coloring matter coagu- 
 lates and falls, from which the transparent gall is finally separated by filter- 
 ing through blotting-paper. In this state it will keep any length of time 
 with its qualities unimpaired, and free from odor. 
 
 If the stain upon silk or satin is produced by an acid, such as from fruits, 
 and that upon black or dark colors, the best re-agent is liquid ammonia (strong 
 hartshorn) rubbed in till it disappears. For plain and figured silks, of 
 delicate colors, we can not give a general rule, and therefore leave them 
 to be operated upon by the professional degraisseurs. To obliterate grease 
 spots from white silk or satin, we may pi-oceed as directed for colored silks; 
 but fruit, ink, and glove marks require a different treatment. These marks 
 are generally removed by dampening the part with oxalic acid dissolved in 
 water ; about the eighth part of an ounce in a wine-glassful of water is strong 
 enough. The common salts of lemon in water also answer well. Coff'ee- 
 stains, mud-splashes, etc., will mostly give way to the use of soap and water. 
 Curd soap should be applied for this purpose. 
 
 For grease spots upon cloth and all kinds of woolen goods, soap and water 
 may be used without fear, provided it is well washed out afterward. Ful- 
 ler's earth or powdered French chalk, made into a paste with water, and 
 laid upon the part, is, however, the best application, to be brushed out when 
 dry. 
 
 Paint marks are removed with turpentine, the smell of which may be 
 quickly dissipated by hanging the article upon a line in the air. 
 
 Silk articles should not be kept folded in white paper, as the chlorid of 
 lime used in bleaching the paper will probably impair the color of the silk. 
 Brown or blue paper is better; the yellowish, smooth India paper is best of 
 all. Silks intended for dress should not be kept long in the house before 
 they are made up, as lying in the folds will have a tendency to impair is 
 durability by causing it to cut or split, particularly if the silk has been 
 thickened by gum. Thread-lace vails are very easily cut. Articles of vel- 
 vet should not be laid by with any weight upon them. If the nap of a thin 
 velvet is laid down it is not possible to raise it up again. Hard silk should 
 never be wrinkled, because the thread is easily broken in the crease, and it 
 never can be rectified. The way to take wrinkles out of silk scarfs and 
 
418 DOMESTIC ECONOMY. [Chap. IV. 
 
 handkerchiefs is to moisten the surface evenly with a sponge and some weak 
 glue, and then pin the silk with some toilet pins around the selvedges on a 
 mattress or feather-bed, taking pains to draw out the silk as tight as possible. 
 When dry, all the wrinkles will have disappeared. It is a nice job to dress 
 light-colored silk, and few should try it. Some silk articles should be moist- 
 ened with weak glue or gum-water, and the wrinkles ironed out by a hot fiat- 
 iron on the wrong side. 
 
 To Take Grease Out of Silk.- — Hub a lump of wet magnesia over the 
 spot ; when dry, brush off the powder, and no grease will be seen. It may 
 be applied to other stuifs. Tliis is an old and well-tried remedy ; but there 
 is a newer and better remedy, but not so thoroughly proved — this is ben- 
 zine, the most complete substance to cleanse all fabrics that we have ever 
 seen. 
 
 O.x-gall and turpentine are both good to take out grease. If turpentine 
 be employed, it should be distilled, and perfectly free from rosin. The 
 preparation called scouring-drops is pure turpentine, perfumed with essence 
 of lemon. Either of these substances may be applied with a piece of 
 sponge, or with a remnant of the same material that is being cleaned. 
 When the grease spot is large, the greater \>&Yt may be removed, in the first 
 instance, by the application of blotting-paper and a hot iron. 
 
 Use a piece of zinc to stir your glue, or keep a small piece of zinc in the 
 bottom, and it will — so we read — prevent it from acquiring that unpleasant 
 odor common to glue. Where glue is always to be heated with steam, a 
 zinc glue-pot is recommended. 
 
 The presence of cotton in woolen fabrics may be easily recognized by the 
 following tests : 
 
 When boiled for twenty minutes in a solution of nitrate of mercury, the 
 woolen fibers acquire a red color, but the cotton fibers remain colorless. 
 When the fabric is boiled with caustic soda solution (sp. gr. 105), the wool 
 dissolves, but the cotton is only slightly affected. Picric acid also stains 
 wool yellow, but has no action on cotton. 
 
 There are five pounds of pure sulphur in every 100 pounds of wool. 
 Hence silverware, wrapped up in fiannel, or any other woolen stiiff, will 
 turn black. 
 
 A bit of glue, dissolved in skim-milk and water, will restore old crape. 
 
 Ribbons of any kind should be washed in cold soap-suds, and not rinsed. 
 
 A hot iron, held over varnished furniture, will take out grease spots. 
 
Sec. 26.] 
 
 DOMESTIC WINES. 
 
 419 
 
 SECTION XXVI.-DOMESTIC WINES, CIDER, AND PRESERVES. 
 
 EULES FOE DOMESTIC WINE-MAKERS — HOW TO PRESERVE CIDER SWEET PRE- 
 SERVING FRUITS FOR WINTER. 
 
 ^OlVrESTIC WINE, as usually manufactured, is ra- 
 ther a cordial than a wine, and is entirely inferior 
 to good grape wine ; but when properly made, it 
 will be a very healthful beverage, particularly for 
 summer drink, when fully diluted with water. 
 We recommend to those who have the means, 
 to manufacture curraut wine; and let it be pure cur- 
 rant wine, using nothing but currants, water, and 
 sugar, without alcohol. 
 
 There is no great difficulty in making good curraut 
 wine. White sugar only should be used. The better 
 the quality of the sugar the better the wine will be. 
 The idea that any sort of sugar will do for wine is 
 pretty well expiloded. 
 
 It is now also said that white currants make a much 
 nicer wine than the red currants, but that is according to fancy. 
 
 While we admit that the true wine must be made from the grape, still, 
 for the want of a more appropriate name for beverages made from fruits 
 other than tlie grape, we call them wines. These domestic wines may be 
 made from the currant, rhubarb, strawberry, blackberry, raspberry, and 
 gooseberry, of passable quality. Inferior but drinkable wines may be made 
 from parsneps and many other roots. 
 
 In the manufacture of all domestic wines, the great mistake is in the use 
 of sugar of an inferior quality ; double-refined is not sutficiently pure to 
 manufacture either of these wines of the best quality ; treble-refined sugar 
 should be used ; that of inferior kind contains gum, and after the fermenta- 
 tion this gum becomes fetid, and its disagreeable odor has to be overcome at 
 the expense of the odor of the fruit, and therefore it should never be used. 
 
 Brown sugar, no matter of how good a quality, will not make wine, for 
 when fermented, that portion which is like molasses in flavor, if separated 
 from the sugar, as in the process of refining, becomes a rank rum, and not 
 sufficiently delicate as the preserving alcohol of the result. When grapes 
 are fermented, the sugar or saccharine matter is not converted into rum, but 
 into an undistilled brandy of an unobjectionable flavor. 
 
 In making small-fruit wines, alcohol should never be added; a sufficient 
 quantity will be produced by the fermentation to preserve the product, and 
 any further addition injures the quality and arrests the fermentation. When 
 alcohol is added, these wines do not improve at all by age. 
 
420 DOMESTIC ECONOMY. [Chap. IV. 
 
 The common practice of racking cider has caused many to rack fruit 
 wines, which some wine-makers tell us is all wrong. They say : 
 
 ""VVheu the proper amount of the juice of a fruit, and treble-refined 
 sugar in solution, is placed in a barrel witii the bung loose, in a cellar of 
 even temperature, fermentation will readily commence, and will proceed 
 until the sugar, or a portion of it, is converted into alcohol, when it will 
 cease. The buffy coat which rises to the surface will then settle and at- 
 tach itself to the cask ; the bung should then lie driven in, and in six months 
 the wine may be drawn off and bottled. No alcohol will be necessary to 
 keep it." 
 
 Let these general rules be observed, and the following special directions 
 pursued, and domestic wine may be made in any farmer's family of almost 
 any kind of small fruits. 
 
 The directions given in 469 are from George H. Hite, of Morrisania, near 
 New York, who is one of the most successful domestic wine-makers of our 
 acquaintance. 
 
 469. Cow to Make Currant and other Wines. — "The currants should be 
 perfectly ripe M'hen gathered ; they should bo stemmed and washed before 
 pressing, which should be done as thoroughly as possible with a 12-inch 
 cider press. Ascertain the amount of juice thus obtained, and then add 
 that amount of water to tlie pumice, and incorporate the M'ater, and pum- 
 ice well togetlier : let it stand a few hours, and press it again. By this 
 process an additional quantity of juice, though not so strong, is obtained; 
 then mix the first pressing with tlie second, and weigh a gallon of it, and 
 whatever it falls short of 10 pounds to the gallon, add enough of good re- 
 fined sugar to make it weigh 10 pounds, and so on of the rest. I would here 
 remark that an additional amount of sugar added to the above will make a 
 sweeter Avine, and perhaps more suitable to the taste of many. 
 
 " It would be rather an expensive business to those who have but few ber- 
 ries to make currant wine from the first pressing of the currant alone, as it 
 requires one bushel of currants to produce a little over three gallons of pure 
 juice. The red currant pure juice weighs eight and a half pounds to the 
 gallon. The white currant juice comes almost within the wine-maker's rule, 
 weighing nine and a quarter pounds to the gallon. The way in which I 
 make currant wine is, to use the pure juice alone or without much water, 
 and I find that I can readily command three dollars per gallon for it, 
 whereas the other would be dear at one dollar per gallon, and not much of 
 a wine at that. 
 
 *' Elderberry wine is made in the same way as first stated, adding about 
 half water in the way of re-pressing the pumice, etc., as, if it is made without 
 the addition of too much sugar, it resembles claret veiy closely. 
 
 " Black currant wine is made in the same way as the elderberry, only the 
 berries should be scalded before pressing, and if carefully managed in the 
 fermentation, will resemble the Rhine w.ines. 
 
 "When the juice, sugar, and water are well incorporated by stirring to- 
 
Sko. 26.] DOMESTIC WINES. 421 
 
 getlier until the sugar is dissolved, it is then placed in an open tub in a tem- 
 perature of about 60 degrees Fahrenheit, there to stand a few daj's until tlie 
 froth and impurities rise to the surface, which must be removed as often as 
 they accumulate ; and when the liquid becomes limpid and somewhat trans- 
 parent, then it is put in a clean barrel, filling to within five or eight inches of 
 the bung. A tube, somewhat in the shape of a siphon, or more in the shape 
 of an ox-bow, made of glass, is inserted into tlie bung about two inches, and 
 made air-tight by means of small wedges of wood and wax, etc., the other 
 end passing into a pail of water to the depth of three or four inches. This is 
 done to prevent the oxygen of the air penetrating the fermenting mass, and 
 also to retain much of the finer aromatic essences which are so essential to 
 fine-flavored wines. 
 
 " A great advantage is also gained thereby in rendering it less necessary to 
 keep watch over the fermentation as pursued by some in keeping the barrel 
 bung full by replenishing with some of the juice standing near at hand, 
 which becomes pricked before fermentation has ended, rendering it in tlie 
 end little less than sweetened vinegar. No admixture should be attempted 
 after fermentation has commenced, and if the temperature of fermentation is 
 kept at about GO or Co degrees Fahrenheit for about six weeks or two 
 months, it will be ready to remove the tube. Then fill the barrel full of the 
 sort made in a separate vessel for that purpose, and put the bung in 
 moderately tight for a few days, and after that drive it in tight until about 
 December, when tlie wine must be racked ofi' from the lees, the barrel rinsed 
 with hot and cold water, and when drained quite dry, insert into the bung- 
 hole a small cup, suspended by a wire, containing one onnce of spirits of 
 wine or alcohol, ignited, and kept there until the barrel is well fumigated, 
 during which the bung must not be closed. Then return the wine again and 
 keep it there for three months, when the same process is repeated. If it is 
 done a third time it will be all the better. It is now finished, and can be 
 kept for any length of time, either in bottles or wood, slowly improving 
 by age. 
 
 " Grapes may be made into wine in the same way as first mentioned above, 
 with this difference, that when the pumice is to be re-pressed, sugar dissolved 
 with grape-juice (by heat) must be added to the water that is mixed with 
 the pumice, and stand a few hours before the second pressing. It must con- 
 tain the same proportion of sugar and water as is found in the natural juice 
 of the first pressing, all of which is mixed well together and fermented as 
 above. But if the grapes are left on the vine until they are quite ripe, say 
 until they have received the effects of a white frost, and carefully selected, 
 the good from the bad, and thoroughly pressed and fermented as above, 
 without the addition of eitlier sugar or water, you will have wine worthy 
 of the name. It is true we can not have so great a quantity of juice, but 
 what we have is good." 
 
 We add several other formulas for making currant wine, as follows : 
 
 First. " Gather your currants when fully ripe; break them in a tub ; press 
 
422 DOMESTIC ECONOMY. [Chap. IV. 
 
 them through a sifter; strain through a flannel bag, and measure the juice. 
 Add two gallons of water to one of juice, and three pounds of New Orleans 
 sugar; stir till dissolved. Strain through a hair sieve, then a close tow 
 linen bag, and afterward a flannel one. The juice must not stand all 
 night. The cask must be sweet and clean, never used for beer nor cider, and 
 if new, well seasoned. Do not fill your cask too full, otherwise it works 
 out at the bung, which is injurious to the wine; make a quantity over and 
 above to fill up the cask. Lay the bung on the hole to prevent flies from 
 creeping in. In three or four weeks bung up, leaving only the vent-hole 
 open till done working ; rack oflP, if wanted for present use, but it is best to 
 leave it on the lees till spring, or it may be left for two years without dam- 
 age. When you draw off the wine, bore a hole so it may run oflf clear of 
 the lees. Some put in spirits, but I do not think it advisable. Do not put 
 in more than one third juice, for that would render the wine liard and un- 
 pleasant ; nor too much sugar, as that would deprive it of its pure vinous 
 taste. It improves by age." 
 
 Second. A sample which was very clear, and at two years old of a deli- 
 icate, fine flavor, was made by the following rule: 
 
 Take two quarts of juice, two quarts of water, and three pounds of refined 
 sugar ; mix and let it stand two or three days; skim every day, then strain 
 through gauze, and put into the cask and let it stand one year ; then bottle, 
 and you have an excellent wine. 
 
 Another sample, made with one quart of juice, three quarts of water and 
 one pound of sugar, was a very pleasant drink, but would not keep as long 
 as the other. 
 
 Third. " Before pressing the juice from tlie currants, pass them oetweeu a 
 pair of rollers to crush tliem, after which they may be placed in a strong 
 bag, and they will part with the juice readily by light pressure, sucli as a 
 common screw or heavy weights. .To each quart of juice add three pounds 
 of double refined loaf sugar — single refined sugar is not sufliciently pure — 
 then add as much water as will make one gallon. Or, in other words, sup- 
 pose the cask intended to be used to be thirty gallons; in this put thirty 
 quarts of currant juice, ninety pounds of double refined sugar, and fill the 
 cask to the bung M'ith water ; roll it over until the sugar is all dissolved. 
 This will be told by its ceasing to rattle in the barrel. Next day roll it 
 again, and place it in a cellar where the temperature will be sure to be 
 even. Leave the bung loose for the free admission of air. In the course of 
 one or two or three days, fermentation will commence. By placing tlie 
 ear to the bung-hole a slight noise will be heard, such as may be observed 
 when carbonic acid is escaping froin champagne or soda water. Fermenta- 
 tion will continue for a few weeks, converting the sugar into alcohol. As 
 soon as this ceases, drive the bung in tightly, and leave the cask for six 
 months, at the end of which time the wine may be drawn oS perfectly clear, 
 without any excess of sweetness." 
 
 Fourth. Take one quart of juice, three pounds of sugar prepared as above, 
 
Seo. 26.] DOMESTIC "WINES. 423 
 
 and water enough to make a gallon ; leave it in tlie cask one year, then 
 draw off and bottle. 
 
 470. Elderberry Wine. — 'We have tasted of a wine inado fron; elderberries 
 by Alfred Speor, in New Jersey, that certainly had some excellent qualities. 
 After preparing the juice, like that of currants, he requires four years to 
 ripen it. His statement is : 
 
 " First year, it is kept in large casks, with valve bungs to allow the gas 
 to escape, and at the same time prevent the oxygen of the atmosphere from 
 coming in contact with the wine. 
 
 " Second year, racked to small casks, and moved to another building. 
 
 "Third year, drawn off in bottles and piled away in stacks, which arc 
 tlien completely covered with saud, kept at one certain temperature the 
 year round. 
 
 " Fourth year, they are dug out, the wine decanted in fresh bottles and 
 laid away, being kept in another temperature until the end of this year, 
 when they are sealed, labeled, and packed ready for shipping. 
 
 "The principal part of the whole operation is the management .of 
 the temperature in the rooms and cellars. Each year, as the wine is 
 drawn off into other vessels, it is moved to a building kept at a dif- 
 ferent temperature from the previous year, M-here it is kept uniform during 
 the whole time by means of cool vaults or stoves, as the case and season 
 require. 
 
 " So that after four years it becomes unchangeable, and ready for market 
 in any climate. 
 
 "It is made from the juice of cultivated elderberries, which are made to 
 grow nearly as large as the smallest-sized grapes, and pure without the ad- 
 dition of alcohol or spirits in any form." 
 
 471. Wiue from Rhubarb Stalks.— Ehubarb M-ill yield five times as much 
 per acre as grapes, but care should be taken not to use the stalk too close 
 to the leaf, as it will impart a peculiar flavor to the wine. Take a thirty- 
 gallon cask, put in sixteen gallons of rhubarb juice, ninety pounds of sugar, 
 and water to fill the cask. Nothing but the best refined sugar sliould be 
 used if the best results are desired, and it is still better to dissolve the sugar 
 and boil it, with the addition of a spoonful of sulphuric acid to every five 
 or six gallons, before mixing it with the juice. This must be allowed to get 
 cold before using. 
 
 Another formula says: "Trim off the leaves, and grind and press the 
 stalks in any cider-mill. To each gallon of juice add one gallon of water 
 and six pounds of refined sugar, and fill the casks, leaving tlie bungs out. 
 A moderately cool cellar is the best place to keep it. Fill up occasionally, 
 either from juice kept on purpose or with sweetened watei-, so that the im- 
 purities which rise to the surface while fermentation is going on, may be 
 worked off. "When sufficiently fermented, which will require from one to 
 two or more months, bung tightly, and let it remain till winter, when it may 
 be racked off into other casks, or bottled. Some persons refine it before 
 
424: DOMESTIC ECONOMY. [Chap. IV. 
 
 bottling, by putting into each barrel two ounces of isinglass, dissolved iu a 
 quart of wine." 
 
 Cahoon's seedling yields the greatest quantity of juice. Mr. Gaboon's 
 method of making wine is to mi.x equal quantities of water with the juice 
 of the stalks, and to each gallon three and a half pounds fair quality of New 
 Orleans sugar, lilling the barrels quite full, and refining with isinglass, 
 and allowing the wine to remain till spring, when it is bottled. By adding 
 or diminishing the quantity of sugar, it will vary the strength of the wine 
 iu the same proportion. The pure juice, without water, makes a very strong 
 wine by using four pounds of sugar to each gallon. Mr. Gaboon estimates 
 that 2,500 gallons of wine can be made from an acre planted with his seed- 
 ling. Sold at from $3 to §4 a gallon, this would yield a return of $5,000. 
 
 Tlie fault of the above is the unrefined quality of the sugar. Well-made 
 rhubarb wine will cease to ferment iu about eight weeks, and then it should 
 be corked tightly, and kept one year undisturbed before bottling. In three 
 years it M'ill become like a dry sherry wine. 
 
 472. Bottling aud CorkSi — Use none but strong, heavy bottles, and look to 
 your corks if you would have your wine keep. One of the greatest mis- 
 takes made by those who are new beginners in wine-making is the using of 
 poor corks ; they do not reflect that the common cork permits the air to 
 reach and destroy the wine. Besides this, a poor one can not be drawn 
 without breaking, and thus injuring the flavor of the wine. If wine-makers 
 would desire to have their wine keep well and taste well on opening, let 
 them never use any but the very best velvet corks. The use of the best 
 quality will more than doubly pay by securing the wine from spoiling, and 
 retaining the flavor, which is often lost by a bad cork. 
 
 Bottles should always be stored upon their sides, or in racks, with the 
 corks down. If poor corks are used, they must be covered with sealing-wax. 
 
 473. Wiae of Grapes> — Most of the wine made iu this country is barely 
 drinkable; what is called pure juice of the grape is often but little, if any, 
 better than very poor sour cider, and is not generally palatable to the com- 
 mon taste. In a trial of wine that I attended, a number of first-rate judges 
 of wine finally settled upon a specimen of currant wine, as superior to any 
 of the sweetened specinaens of grape juice; yet the concoctors of it label it 
 " pure juice of the grape," " fit for sacramental purposes and for the sick." 
 They insist that fermentation of sugar does not produce alcohol. They are 
 mistaken ; fermentation produces it, and distillation separates it. This 
 sugared wine is not pure — it is one fourth alcohol. Much of the imported 
 wine is sugared. Some of the best wine can not be imported; we can not 
 move from place to place the very best wines made of pure grape juice. 
 
 These sweetened beverages all lack one very essential element of wine, 
 and that is the gout, which all genuine grape wines possess. Unfortunately, 
 with very few exceptions, American grapes have proved so deficient in 
 grape-sugar, that they would not make wine without adding cane-sugar, 
 which makes rum instead of brandy, which is the true spirit of wine. Some 
 
Seo. 26.] DOMESTIC WINES. 425 
 
 of the best ■wine-makers of the country now believe tliat they have dis- 
 covered, iu the Delaware grape, one that will make wine equal to the best 
 European varieties. Some Cincinnati Catawba is a good substitute for 
 Khine wine. Some good wines are made in California. 
 
 474. How to Make Grape Wiiiei — For the benefit of those who may wish to 
 do a little in the way of domestic wine-making, we will give a few simple 
 rules, such as are followed by wine-makers on a small scale : 
 
 Mashing the Gkape. — There are various methods of mashing the grape 
 now used by the more careful wine-makers. Previous to the mashing, 
 however, when first-rate wine is to be made, the bunches are carefully ex- 
 amined, and all unripe and rotten berries are plucked off and thrown away ; 
 then the grapes are thrown into a tub and mashed by tramping with the 
 feet, or bruised with a club, or crushed by passing between two large 
 wooden rollers, which are far enough apart to allow the seeds to pass with- 
 out being broken. The seeds, if mashed, would give a bitter taste to the 
 wine. To tramp grapes, wear India-rubber boots. 
 
 Pressing the Geape. — The pressing of the mashed berries is a simple 
 process, like the pressing of cheese, or apples for cider. The grape-press is 
 usually made to hold about 150 lbs. of grapes at each pressing. If white 
 wine is to be made, the grapes are pressed as soon as mashed ; but if red 
 wine is wanted, the whole mass is left to ferment for six or seven days, in 
 which time the juice takes the dark color of the skin. 
 
 Fekmentation. — -The juice for white wine, as it comes from the press, is 
 put into pipes measuring 140 gallons, about 115 gallons of juice being put 
 into each cask, leaving one fourth of it empty. The bung-hole is left open, 
 and in two or three days the fermentation begins, and its force is over in 
 three or four days. The wine-maker then proceeds to fill up the casks, 
 gradually pouring in six or eight gallons at a time, so that the casks arc 
 tilled iu the course of three or four days more. The casks should be filled 
 up before the strength of the fermentation is over, so that the dirt or scum 
 may be borne up to the bung-hole and there thrown out. 
 
 Racking. — The vigor of the movement being over, the bung-hole is closed 
 and the wine is left for a period varying from four weeks to three months. 
 It is tiien drawn off through a cock placed a couple of inches above the bot- 
 tom of the pipe, taking care not to disturb the sediment at the bottom. 
 The clearer wine is poured into a clean cask ; that filled with sediment is 
 filtered through a doubled cotton cloth, and is then mixed again into the 
 first drawing, or it is used without filtration in making brandy. About 
 one twentieth of the juice as it comes from the press falls down as sedi- 
 ment. The process of transferring wine from one cask to another is termed 
 " racking off." 
 
 After the first racking, the new cask is completely filled, the bung closed, 
 and the wine is not disturbed till March or April, when it begins to feel a more 
 lively fermentation, for that process never ceases entirely. "When the vine 
 sprouts in March or April, and when it blossoms in June, and the grape 
 
426 DOMESTIC ECONOMY. [Chap. IV. 
 
 ripens in September, the new wine ferments ; and at those times the bungs 
 must be raised, and care must be taken not to disturb the barrels. Between 
 times, when there is no perceptible fermentation, the wine should be racked 
 off two or three times in a year, and at the end of a year and a half it is 
 clear and good, but it continues to grow better with age. The red wine is 
 treated in precisely the same manner, except that it is allowed to ferment 
 before pressure. Immediately after the pressure the wine should be placed 
 in as cool a cellar as can be obtained in the country, and should be kept 
 there always. This cellar should have no moldy matter about it, no vege- 
 tables or salt meat in it, nor anything that can corrupt the natural sweetness 
 of the air. 
 
 Red and White Wine. — Brandt. — All the white wine made in this man- 
 ner resembles hock or sauterne ; the red wine may be made to resemble 
 claret, burgundy, or port. When the berries are jjicked early, the red 
 wine is like claret, but has more body ; if the grapes are left upon the stem 
 until they are nearly dry, they give less juice, but the wine has a much 
 stronger body, and rivals port in strength. 
 
 The method of making champagne is held as a secret, and we shall not 
 attempt to describe it fully. The main facts, however, are that the wine is 
 bottled about six months after pressing ; it is again re-bottled in eight 
 months more. The bottles are laid down upon their sides in racks, and 
 a large per-centage of them are broken by the activity of the fermenta- 
 tion. 
 
 The refuse of the press and all the sediment of the new wine may be used 
 in making brandy, which is obtained by distillation in the same manner as 
 whisky is distilled from maize or potatoes. For every hundred gallons of 
 wine about twenty-five of brandy are obtained. 
 
 475. Wine of TomatoeSt — We have no experience 'of wine from this fruit, 
 but a lady writes us from Iowa as follows : 
 
 " Are you aware what very excellent wine can be made from tomatoes ? 
 I tried it on a small scale last year, and find it serves as good a purpose for 
 using in sickness and in cooking as the compounds of nauseous drugs usually 
 sold for wine. Many who have tasted it were unable to tell it from grape 
 wine. If people will use wine, it is certainly well to have it free from 
 poison, and tomatoes are so abundant that it could be afforded cheaply. 
 If vinegar can be made from it, it will be a blessing to the West, where 
 we have such horrible compounds under that name. The recipe : One 
 pound of white sugar to a quart of juice, and similar treatment to cur- 
 rant wine." 
 
 476. Blackberry Cordial. — This is not wine, though an article called black- 
 berry wine is often made in the same way that wine of other small fruits is 
 made, and is a very good beverage ; but this is what the name implies, 
 blackberry cordial, and it should be provided in every family, particularly 
 where there are growing children ; it is such an excellent remedy for chil- 
 dren troubled with diarrhea and all other diseases of the bowels generated 
 
Seo. 26.] DOMESTIC WINES AND CIDER. 427 
 
 in the Spring season. To ni.ake it, to two quarts of blackberry juice add one 
 pouod of loaf sugar, half an ounce of nutmeg, lialf an ounce of cinnamon, 
 pulverized fine, quarter of an ounce of cloves, quarter of an o\ince of allspice, 
 finely pulverized, and a handful of raisins. Boil all together for a short 
 time, alid when cold, add one pint of fourth-proof French brandy. Black 
 currants also treated in the same way make an excellent cordial. See 472. 
 
 477. Cider— Preserving it Sweeti — Tlie following is the plan recommended 
 by Professor Horsford, of Cambridge, Mass. : 
 
 " "When the cider in the barrel 'is undergoing a lively fermentation, add 
 as much white sugar as will be equal to half or three qirarters of a pound to 
 each gallon of cider, and let the fermentation proceed until the liquid attains 
 the right taste to suit ; then add an eighth to a quarter of an ounce of sul- 
 phite (not sulphate) of lime to each gallon of cider in the cask ; first mixing 
 the powder in about a quart of the cider, and then poiiring it back into the 
 cask and giving it a thorough shaking or rolling. After standing bunged 
 up a few days for the matter added to become incorporated with the cider, 
 it may be bottled or used from the cask." 
 
 Do not mistake sulphate of lime — which is a natural production, and 
 known as plaster of Paris — --for sulphite of lime, which is a manufactured 
 article, and is worth by the barrel about thirty-three cents a pound, and by 
 the cwt. thirty-seven and a half cents, and by the single pound fifty cents. 
 It has been of late years much used by sugar-makers to prevent fermentation 
 of cane-juice, and in our opinion it will be found more eflfective as a pre- 
 ventive of fermentation in cider than an arrester of it after it has proceeded 
 nearly to completion. 
 
 We kept cider on tap that was treated as above for six months, which 
 appeared to possess exactly the same degree of acidity as it had when first 
 treated, but it had an unpleasant sulphur taste. 
 
 Using Heat and Bottling. — ^The following is the formula : Fill bottles 
 with sweet cider and set them on a board in a flat-bottomed boiler with cold 
 water, which heat to the boiling-point until the cider begins to run over, 
 but not to boil so as to alter its flavor ; then cork and seal just as fruits are 
 treated, and the cider will keep equally well. 
 
 Condensed Cider is the name of a new article first made by Gail Borden, 
 Jun., in 1863, using the same process wliich he inveoted for condensing milk ; 
 that is, boiling it in vacuum with steam-pipes, reducing the cider direct from 
 the press to a stifl" jelly, which will keep as well as any fruit-jelly made by 
 domestic process. For transportation it is put up like the condensed milk, 
 in tin cans. It is reduced to its original condition by adding as much water 
 as it had parted with. It is, probably, the best plan ever devised for keep- 
 ing cider sweet. 
 
 478. — Oiling Cider. — "When a barrel of cider is tapped, it grows hard ; that 
 is, more and more acid, until it gets too hard to drink, if it is kept long on 
 tep. Tliis is occasioned by the air, which fills the cask above the cider as 
 fast as it is drawn out. The air can not be excluded, even if the cask were 
 
428 DOMESTIC ECONOMY. [Chap. IV. 
 
 air-tight, because the cider ■will not run from the tap if there is no air to 
 press it out. If cider is exposed long to air, it M'ill become vinegar. In 
 fact, the way to make vinegar of cider is to expose it to the air as much as 
 possible. To prevent tlie cider on tap from becoming acid, it is recom- 
 mended, as soon as one or two gallons are drawn out, to pour in the bung-hole 
 about half a pint of clear sperm oil, or sweet oil if it is preferred. It should 
 be warm when poured in, and it will spread in a thin coat over the surface, 
 and keep spreading as the cider is drawn down, and thus exclude the air, 
 without giving any taste of oil to the cider. 
 
 This plan of preserving cider is worthy of further attention. We have 
 faith in it from knowing that oil-casks are the best we know of for storing 
 cider, imparting no flavor, and keeping it sound as bottled cider for years. 
 Sperm-oil casks are moi-c valuable for cider-casks than for any other purpose. 
 
 479. Filtering €idert — Cider is very much improved by filtering. This 
 should be done when the first fermentation is over, by racking it off into 
 clean barrels. A good plan for a filter is the following : 
 
 "Take a square or round wooden box, made of inch pine plank, three 
 feet in diameter, and one foot four inches deep. Make it with a bottom 
 perforated with numerous one-quarter-inch augur holes, over which should 
 be laid coarse hemp bagging. Now fill in the box for eight inches with 
 pieces of charcoal — animal charcoal is the best — about nut size, and on the 
 top of this place a four-inch layer of clean washed sand, and cover all with 
 coarse hemp bagging, and you have a cheap and good filter. Any num- 
 ber of such filters may be used, according to the quantity of cider to 
 be operated upon, and the cloth can be frequently washed without dis- 
 turbing the sand and charcoal. Before any cider is filtered through, pass 
 a stream of clear water into the filter for fifteen minutes, so as to remove 
 any fine, loose particles of charcoal that otherwise would be mixed with 
 the cider." 
 
 4S0. Aerifying fider. — If cider, when it first comes from the press, could 
 be filtered, and the clear liquid allowed to fall from an upper story in a thin 
 stream into a large tub in the story below, or, if feasible, to continue falling 
 from one to another through several stories of a building, it would become 
 greatly improved, and we are assured by one who has tried it, that it may 
 be bottled at once \vithout any further fermentation, and it will remain in 
 its sweet or slightly acidulated state, and when at a year old it is uncorked 
 it will sparkle like champagne wine. 
 
 The grand secret of having a cider equal to pure wine is in checking any 
 further fermentation. If the cider is left to itself, the acetous fermentation 
 follows — the sedimentary matter at the bottom of the cask rises, and the 
 liquid becomes muddy — this, acting as yeast, produces a second and more 
 violent fermentation, resulting generally in hard cider. 
 
 By straining out the crude and useless matter from the liquor, the liability 
 to excessive fermentation is greatly lessened, and so it is by fumigating 
 casks with burning sulphur as well as aerifying. Kemember, however, that 
 
Seo. 26.] CIDER, VINEGAR, AND PRESERVES. 429 
 
 this airing process must be confined to cider Avliile quite new. If fermented 
 cider were treated in the same way, the result would be vinegar. 
 
 "When cider is kept tightly bunged up, it changes little and very gradually ; 
 bottled, it changes none at all, except a certain improvement by age whicli 
 takes place. 
 
 Air will at once begin to change the alcohol into vinegar if it comes in 
 contact with it, and this will make the best cider hard and sour before 
 long. 
 
 481. Vinegar — How to Make it. — If you have cider that "won't turn to 
 vinegar," just try the following plan : Fill a barrel, tub, box, or any other 
 clean vessel, with clean shavings, or small twigs of any sweet wood, such as 
 maple, birch, beech, etc., and wet them with vinegar, if you have it, and if 
 not, cider, or even warm water will answer. This barrel must bo full of 
 holes, sides and bottom, and set over a larger vessel, to catch the drip as it 
 leaches through. The cider is to be conveyed to the leach by any con- 
 venient method. A good way is to put it in a pail, set on the barrel over 
 the shavings, and carry it over the edge by siphons, made of rags, or cotton 
 lamp-wicking, or a hank of cotton yarn. These conductors should be cut 
 long enough to reach from the bottom of the pail or pan used, up over the 
 edge, and down an inch below the bottom. This gradual emptying of the 
 pail, and trickling down through the filter, exposes the liquid to the atmos- 
 phere, and that is what is ■wanted to make vinegar. If the first operation is 
 insuflieient, let it be rejjeated, and good strong vinegar will be the result. 
 
 CuEEANT ViNEGAE.— " Last year," writes a lady, " for trial, I took fourteen 
 pounds of currants, mashed them as for wine, put them into a tub with two 
 or three pails of water, stirring it two or three times a day. After standing 
 several days, I strained or pressed it, and with molasses enough to make it 
 as sweet as new cider, I had ten gallons. I put it into a keg, and did not 
 open it till December, when I found it to be as good vinegar as was ever 
 made." 
 
 Blackberry vinegar may be made in the same way ; or, if yon arc making 
 wine, do not throw away the seeds and skins after drawing ott" the must. 
 Pour warm water over these until they are entirely covered, and let them 
 stand in an open vessel three or four days. Then draw off the liquid and 
 let that stand until the acetous fermentation takes place. A small quantity 
 of coarse sugar or molasses will hasten the process. In this way a most 
 excellent article of wine vinegar may be obtained by many who have not 
 the means of making cider vinegar. 
 
 482. Preserving Fruits for Winter Use. — "We have already given a plan in 
 337 of a fruit-drying house, and have recommended preserving various kinds 
 of fruits by drying for winter use, and now we give some directions for 
 various other preparations for preserving fruit, cooked and uncooked. 
 
 Apples keep best in a dry, cool room, just above the freezing-point. If 
 headed in barrels, apples will keep in a room where water would freeze 
 quite solid. They will not keep Avell in a warm cellar where cabbage. 
 
430 DOMESTIC ElUNO.MY. [Chap. IV. 
 
 turnips, or any strong-smelling substances are stored, for tliey absorb the un- 
 pleasant odor. If packed in straw or chaff that becomes dainjJ and musty, 
 they will spoil. 
 
 4S3. Grapes— How lo Keep Thenii — ^Thci-e are three easy ways that will 
 serve the purjiose in some degree — that is, it will preserve them sonie»weeks 
 into the winter in a tolerable state of freshness. The first is to hang up the 
 bunches separately by the stems in a dry room, barely warm enough to pre- 
 serve fruit from freezing. The next is to pack the bunches, each separately, 
 in absolutely dry sawdust, of some sweet wood, in layers, in a box or cask. 
 The other is to pack the bunches separately between la^-ers of clean cotton 
 fiber or batting. In each case the fruit should be kept in a dry, cool room, 
 and, wlien packed in cotton, the room may be so cold that it would freeze 
 water, yet will not injure the grapes. Care must be taken that the fruit is 
 dry and clean, and that there are no decayed, mashed, or imperfect grapes 
 on the bunches. 
 
 Another direction says : 
 
 " In gathering grapes for keeping fresh, they should be allowed to hang 
 on the vines until fully ripe, and then gathered with care to avoid bruising. 
 The fairest bunches should be chosen to put away, and M-ith a pair of small 
 scissors all defective and bruised berries should be cut off. They should 
 then be placed in boxes well ventilated, and remain for a few days, when 
 they should be packed in boxes holding six or eight pounds each. It is not 
 important that the box be tight ; it is better that it should not be. These 
 siiould be put in the coolest place in the house, where the air is dry. On 
 the ap])roach of freezing weather they may be removed to upper shelves sus- 
 pended in the cellar, or in any dry room where the temperature is as near 
 the freezing-point as possible. 
 
 " "While grapes may be grown "in such profusion and with so little labor, 
 it is a little remarkable that a supply for every household in the country is 
 not secured, not only in the regular season of them, but to last until spring. 
 There is no trouble in keeping grapes through the winter as fresh as wheu 
 they are first gathered." 
 
 484. Preserving Fruit io Air-Tight Caus and Boltles.— The modus operandi 
 of putting up fruit so as to preserve it in a fresh state without cooking, dry- 
 ing, or packing in sugar is not yet fully understood by all farmers' families, 
 though largely manufactured for sale by many persons in cities ; and many 
 contrivances have been invented for sealing up cans, some of which are 
 very convenient ; but the same thing can be accomplished with bottles 
 corked and sealed according to these directions. 
 
 It is a business that can not so well be done in families as in large manu- 
 factories, where everything is arranged for convenience ; but still, with a 
 little experience and careful attention, every family can save enough of the 
 various fruits of the season to furnish their tables with a great delicacy 
 during that portion of the year when they can get nothing of the kind. 
 The whole secret consists in expelling the air from bottles or cans by heat, 
 
Sbo. 26.J PRESERVING FRUIT IN AIR-TIGHT CANS. 431 
 
 and then sealing up the contents hermetically. If the article to be pre- 
 served is peaches, select such as you would for sweetmeats, and pare and cut 
 them so that they can he put in the bottle, and you must do this with tlio 
 least possible delay, or they will be colored by the atmosphere. Some per- 
 sons who want ihem to retain their natural whiteness peel them under wa- 
 ter. When the bottle is full, cork it tight and wire down the cork with 
 very little projecting above the glass. "When you have bottles enougli to 
 till a kettle, such as may be most convenient, put them in and boil wilh the 
 water all around up to the nozzle for about fifteen or twenty minutes, ©r 
 until tlie bottle appears to be full of steam, the atmosphere having been 
 forced out through the cork. As soon as the bottles are cool enough to 
 handle, dip the corks in sealing-wax, so as to cover them quite tight. An 
 additional precaution is used by some in putting tin-foil over the wax. 
 
 Another plan is to cook the fruit slightly in a kettle, and then put it into 
 cans or bottles, and pour hot syrup of sugar in to fill up the interstices, and 
 then cork and seal, the heat of the fruit and syrup answering to expel the 
 air. But the less they are cooked or sweetened, the more natural will be 
 the taste, like fresh fruit when opened. We have eaten peaches a year old 
 that we could not tell from those sugared ten hours before. 
 
 Tomatoes are very easily preserved, and retain their freshness better than 
 almost any other fruit. The small kind only are used. Scald and peel 
 them without breaking the flesh. Bottles should hold about a quart only, 
 because when once opened, the contents must be used up at once. Bottles 
 made on purpose, with large throats and a ring on the inside, are the best, 
 and bottles are better than cans for all acid fruit. The cans, however, are 
 more easily secured by solder than the bottles by corks and wax, as the air 
 is let out through a small puncture after the large opening is soldered up 
 and cans heated, and that hole stopped with a single drop of solder. 
 
 Every article of fruit will keep fresh if the air is exhausted and the bottle 
 sealed tight. The least particle of air admitted through any imperfection 
 of the sealing will spoil the fruit. If tlie air could be driven out without 
 heat, there would be no need of any cooking, and only just enough siiould 
 be given to expel the air and not change the taste. Many jaersons prefer 
 to add syrup made by about one pound of sugar to a quart of water to all 
 suitable fruits. Green corn, beans, peas, tomatoes, pie-plant, currants, 
 gooseberries, cherries, plums, raspberries, strawberries, peaches, are the most 
 common things put up in this way. They add greatly to the pleasures of 
 the table and to the health of those who consume them — in that respect 
 quite unlike the common preserves. 
 
 We have known fruit for pies init up in three-quart cans by partially 
 cooking in an open kettle in a syrup just sweet enough for use, and putting 
 the fruit in the cans hot and soldering immediately. It kept thus perfectly. 
 
 Some fruits keep much better and with less heating than others. Peas are 
 among the hardest articles to keep, they contain so much fixed air. 
 
 We advise every family in the country to try this plan of putting up 
 
432 DOMESTIC ECONOMY. [Chap. IV. 
 
 fruits for winter use on a small scale this year, and if successful, enlarge 
 upon it next year 
 
 A new mode, to us, of canning fruit is recommended as follows : 
 " Take a common wide-mouthed crock or jar of any size ; prepare the 
 fruit in the usual way ; fill the jar and tie two waxed cloths tightly over 
 tlie mouth. The jar must not be very narrow-mouthed in proportion to its 
 size. A common, straight, stone gallon jar is of good proportions. If the 
 mouth is too small, the cloths can not follow the surface of the fruit down 
 in a cold time. The cloth must touch the fruit at all times, and if the 
 mouth is wide it can rise and fall with the weather. In order to have the 
 jar very full, it is well to let the fruit cool down a little below 212 de- 
 grees; then fill up with more fruit just before putting on the cloth. The 
 clotlis may be of the common muslin, but they must be soaked in melted 
 wax. The wax should be beeswax chiefly ; a little rosin and tallow will 
 help it." 
 
 485. Dry Susar-Preserving. — Strawberries, raspberries, blackberries, cher- 
 ries, and peaches can be preserved in this manner : Lay tlie rijie fruit in 
 broad dishes, and sprinkle over it the same quantity of sugar used in cook- 
 ing it. Set it in the sun or a moderately heated oven until the juice forms 
 a thick syrup with the sugar. Pack the fruit in tumblers, and pour the 
 syrup over it. Paste writing-paper over tlie glasses, and set them in a cool, 
 dry place. Peaches must be pared and split, and cherries stoned. Pre- 
 served in this manner, the fruit retains much more of its natural flavor and 
 hcalthfulness than when cooked. The paper which is usually pasted over 
 jars of preserves is porous, and admits air. To render it perfectly impervi- 
 ous to air, apply the white of an egg with a brush to the paper before cover- 
 ing the jars, overlapping the edges an inch or two. 
 
 486. Dry Pressure Preserving. — By submitting vegetables to a powerful 
 pressure, they have been prepared in France so that they have been kept in 
 a dry state many months. Cabbages, beets, parsneps, peas, apples, etc., are 
 divested of all moisture by a powerful hydraulic press, and thus are packed 
 in small compass for use of men on ship-board. They are a tolerable sub- 
 stitute for fresh vegetables, but as unlike them as bull beef is to tender 
 lamb. Upon such a voyage, however, as that of the Grinnell expedition, 
 where the ships were frozen up nine months, a taste of such food as this 
 would have been not only palatable, but extremely beneficial to health. We 
 understand it is not expensive. 
 
 487. Currant Jelly< — As currant jelly is pleasant and useful to both the 
 sick and the well, we give the following directions for making it of excellent 
 quality, which retains the beautiful crimson color of the currant much bet- 
 ter than that made by the old mode: "Squeeze the juice out of the cur- 
 rants, strain and measure it, put it in a porcelain or very well-cleaned cop- 
 per or brass kettle, and boil it until the scum ceases to rise ; then, without 
 taking the juice off the fire, stir in one pound of well-refined sugar to every 
 pint of juice, and as soon as the sugar is fully dissolved^which will be 
 
Seo. 26.] PICKLES AND PRESERVES. 433 
 
 in less than a minute — take it off and pour it into the vessels prepared to 
 receive it." 
 
 Cider Jelly. — Boil three quarts of cider just from the press till it is re- 
 duced to one. Skim well, and add not quite one quart of white sugar. Boil 
 fifteen or twenty minutes, and strain through a coarse linen cloth into your 
 jelly glasses. 
 
 488. Pickling Cucumbers, Melons, Tomatoes, Peaches.— The great art in 
 making good pickles is to have good vinegar. The best vinegar for pick- 
 ling is made of sound cider. As good vinegar is not always at hand, the 
 best way is to prepare a brine strong enough to bear an egg. When the 
 tub is full of pickles, allow tlie brine to cover them ; then cover them over 
 with cabbage-leaves, and a board and weight to keep them in the brine. For 
 use, freshen in warm water, and put them in a bright brass kettle, with 
 vinegar enough to cover them, and scald them fifteen or twenty minutes ; 
 put them in jars, and pour hot vinegar over them ; flavor them with 
 cloves, mace, black pepper, an onion or two, and a little horseradish and 
 ginger. 
 
 For Peach Pickles. — Stir two pounds of white sugar into two quarts of 
 the best cider vinegar. Boil it ten minutes, skimming it well. Have ready 
 some large, fully-ripe peaches ; rub them with a clean flannel to take off" the 
 down, and stick four cloves into each. Put them into glass or whitewaro 
 jars, rather more than half full, and pour on them the vinegar lioiling hot. 
 Cover them closely, set tliem in a cool place, and let them rest for a M-eek. 
 Then pour off the liquid, and give it another boiling. Afterward pour it 
 again on the peaches; cover them closely, corking the jars and tying leather 
 over each, and put them away till wanted for use. Instead of cloves you 
 may stick the peaches with blades of mace, six blades to each peach. If 
 you find a coat of mold on the top of a jar of pickles, remove it carefully, 
 and do not throw away the pickles, as they may still be quite good be- 
 neath. 
 
 489. Apples, how Preserved, and their Use. — Where apples abound, as they 
 do in a- large portion of the l^orthern States, they should be found in some 
 form upon every farm-house table at nearly every meal. Several very 
 choice sorts can be kept through the winter up to tlie time when apples 
 come again ; and where they abound, there is really but little occasion for 
 preserving small fruits, as indicated in preceding paragraphs. Apples, 
 when first taken from the tree, if laid in a heap eighteen inches in depth, 
 and covered with a cloth, or a little straw, Avill soon sweat and become quite 
 moist ; then the cover or straw should be taken off, and the apples suffered 
 to dry as suddenly as possible. Then packed in liarrcls and kept till tliey 
 sweat again, and finally dried, repacked, and stored in proper situations, they 
 will always be ready for furnishing some of the best sweetmeats at short 
 notice that a farmer can enjoy, for they furnish liealthy food. 
 
 Apples brought to the table raw should be only such kinds as can be eaten 
 after sweet things, as pastry and custards, hence all intensely sour apples. 
 
434 DOMESTIC ECONOMY. [Chap. IV. 
 
 however grateful at other times, are not fit for the dessert. There is almost 
 an infinite number, and among them our best varieties, whieh do not come 
 within this stricture, though some of the choicest for culinary purposes are 
 too sour for the dessert uncooked. 
 
 The efl'ect of heat on many apples is quite noticeable. Baked apples are 
 always liked. "We are not surprised when a tender apple bakes soft and 
 delicate, but when one tough and corky loses all these cliaracteristics, and 
 surpasses in delicacy even the other, as is often the case, we appreciate bettor 
 the chemical action which heat induces. Sweet apples, free from decay, 
 worms, or gnarly spots, scrupulously cleaned and placed in pans, and baked 
 in a slow oven till fully done, are excellent. The apples should shrivel and 
 dry away very much, and the skin should not be broken so as to let the 
 juice out. The sweetness is thus concentrated, and they are three times as 
 good as if simply baked through. 
 
 Sour or tart apples may be baked much quicker ; the juice, instead of be- 
 coming viscid and thick by heat, is apt to flow out, or the steam splits the 
 skin and lets it out, and it is likely to burn to the pan. Baked tart apples 
 should be eaten with sugar, or they may be baked with sugar. Tart apples, 
 washed, placed in a ])an with a little water, and sprinkled over well with 
 sugar — or the same, cored and the holes filled with sugar — or pared as well 
 as cored, and spice added with the sugar, are delicious. Some use one or two 
 cloves to each apple, or a bit of cinnamon with some lemon-peel ; otliers grate 
 nutmeg or sprinkle cinnamon over the ajjples in the pan. 
 
 To our taste, plain baked apples, or slightly sugared if very tart, is the 
 very best preparation of this valuable fruit for the table. 
 
 Apple Ccst^vkd. — To make the cheapest and best every-day farmer's apple 
 custard, take sweet apples that will cook soft, pare, cut, and stew them ; 
 when well done, stir till the pieces are broken ; when cool, thin with milk 
 to a proper consistency, and bake with one crust, like a pumpkin pie. Egg-^ 
 may be prepared and added with milk, though it will do without. Ko 
 sweetening is necessary. It may be seasoned with any kind of spice to suit 
 the taste — the less the better. 
 
 Kaw Apples and Milk. — A tender sub-acid, or sweet apple — the latter 
 preferable — pared and sliced thin into a bowl of milk, for breakfast or sup- 
 per, is a great luxury to some persons at any time of the yeai" ; and it is not 
 less healthful than grateful to the palate. 
 
Sec. 27.] 
 
 HYGIENIC. 
 
 435 
 
 SECTION XXVII.-HYGIENIC. 
 
 PEEPAEATION OF FOOD FOB THE SICK EEMEDIES FOR POISONS, BITES, AND 
 
 STINGS. 
 
 [E will not tire the reader with nostrums under this 
 title ; we simply ask attention to a very short section 
 upon matters of great importance to those who are 
 suffering, and which come properly under the head 
 of this chapter. All of our readers who have, 
 while recovering from sickness, asked, " What shall 
 I eat?" will appreciate all that is said in the next 
 paragraph. 
 
 490. Food for the Sick and Dyspeptic— Sickness 
 occurs in every family, and during convalescence 
 the appetite is sometimes so delicate it needs a good 
 deal of pampering. In some families there is always 
 an invalid, who can not eat the every-day food of 
 those whose apiietites are strong. To such, some of 
 the following hints may be very acceptable, and equally acceptable to some 
 who are not sick. 
 
 What shall I eat ? How often this question is asked by the sick, or those 
 with delicate appetites! ISTature demands food, but the appetite does not 
 crave it, and the mind of the feeble invalid can not fix upon anything that 
 he will relish. 
 
 It may relieve such sufi'erers to point out a few suitable articles of food, 
 such as are easily prepai-ed and usually tempt delicate appetites. 
 Here is one peculiarly New Englandish : 
 
 " Cut some codfish in bits the size of a pea, and boil it a minute in water 
 to freshen it. Pour off all the water, and add some cream and a little 
 pepper. 
 
 "Split and toast a Boston cracker, and put the above ujion it. Milk and 
 a little butter may be used instead of cream. 
 
 " Ham or smoked beef may be prepared in the eamo way. For a variety, 
 beat up an egg and stir it in, instead of cream, or with the cream. 
 
 "These preparations are also good for a relish for a family breakfast 
 or tea." 
 
 Another exrellent dish for sick or well, and economical withal, is made 
 by taking a few cakes of pilot-bread and soaking them till partially soft, 
 after breaking them into mouthfuls, in just water enough to be all absorbed ; 
 then cut a slice of fat salt pork into very small pieces, fry it crisp, pour it 
 over the bread, and heat the whole in a stove or oven, or in a spider. 
 
4:36 DOMESTIC ECONOMY. [Chap. IV. 
 
 Another plan is to pour over the bread a sweetened butter gravy, or wine 
 sauce, or the juice of stewed fruit or preserves. All are good. 
 
 A very excellent food for delicate stomachs may be made by sweetening 
 water, cold or hot, with refined sugar, and crumbling into it stale bread. 
 
 Bread and cider used to be a favorite food in Yankee land in old times. 
 Sweeten the cider, and crumb into it toasted bread. 
 
 Sometimes a piece of codfish or a slice of fat salt pork, roasted upon 
 live coals, will tempt a convalescent appetite when nothing else will answer. 
 
 In making porridge of corn or oatmeal, bo careful to cook it well. Do 
 not think it done till it has boiled an hour. 
 
 nice gruel does not need so much cooking. It should not be given to a 
 person of constipated habits. Simple boiled rice is a delicate food for the 
 sick. 
 
 Arrowroot, tapioca, farina, and corn starch are all of the same character — 
 liighly concentrated food. A good gruel may be made of either, and fla- 
 vored with sugar, nutmeg, lemon, or whatever would be agreeable. Stale 
 bread, very dry, crumbed and made into a gruel, is perhaps the most di- 
 gestible. Stale bread, toasted very dry and brown, and then steeped in wa- 
 ter a long time, makes a good drink for the sick, and furnishes considerable 
 nourishment. 
 
 In all cases of sickness, wlien the appetite craves fruit we would give it, 
 ripe and fresh in its season, or preserved and cooked in the most simple 
 manner. Apples for the sick should always be roasted. So should po- 
 tatoes. 
 
 If the friends of the sick possess a little skill and neatness in the prepara- 
 tion of dishes, the patient need never say, " What shall I eat ?" 
 
 The following is well relislied by some aj)petites, but we doubt its di- 
 gestibility : Shave a good crisp head of cabbage as fine as possible ; add a 
 tablespoonful of horseradish to each quart of shaved cabbage ; let one pint 
 of vinegar come to a boil ; have ready three well-beaten eggs with a little 
 salt ; pour tlie eggs into the vinegar and stir until cooked ; then pour it 
 over the cabbage and set it away, as it is better when cold. This will keep 
 some days, and is always ready. 
 
 Roasting a Chicken may be thought a very simple operation, but, 
 in our opinion, not one in ten of modern housekeepers can do it to per- 
 fection. First, because they have no conveniences. The abominable cook- 
 ing-stove has spoiled many a dish, and none more so than this of a roast 
 ciiicken, which never has been and never will be roasted to perfection in 
 any other way than tied up by the legs swinging by a string before a wood 
 fire, dripping its gravy into a pan in whicii there is a little cream jvnd a 
 lump of butter, with which tlie roast is to be basted from time to time until 
 the skin is brown and flesli tlioi'oughly cooked. It is tliis cooking in the 
 open air that gives it the peculiar richness. If a chicken must be roasted or 
 baked in a stove-oven, it should be done with the oven door open. With 
 some stoves it can be much better done in an open pan set down before the 
 
Sko. sr.] BYGIENIC. 4X7 
 
 grate. All holes in the body of a fowl should he sewed up as tight as pos- 
 sible — not merely drawn together, but tight. 
 
 A badly cooked fowl should never be set before an invalid, or one whose 
 digestion is naturally weak. The following makes a nice dish for a delicate 
 appetite : 
 
 Lay half a dozen crackers in a tureen ; pour enough boiling water over 
 them to cover them. In a few minutes thej' will be swollen three or four 
 times their original size. Now grate loaf sugar and a little nutmeg over 
 them, and dip on enough cream to make a nice sauce, and yon have a 
 simple and delicious dessert that will rest lightly upon the stomach, and it 
 is easil}' prepared. Leave out the cream, and it is a valuable reci2)e for 
 " sick-room cookery." 
 
 Lemoxade.— Three lemons to a pint of water makes strong lemonade ; 
 sweeten to taste. This is a cool, refreshing, pleasant, and salubrious bev- 
 erage for invalids. 
 
 Mead. — Three pounds of sugar, five gills of molasses, three pints of wa- 
 ter, three ounces of tartaric acid, one ounce of sarsaparilla. Stir it over the 
 fire till at the boiling-point. "When cold, bottle and cork tight. Add the 
 supercarbonate of si>da when you drink it. 
 
 Ginger Beee. — Two gallons of boiling water, two pounds of crushed 
 sugar, one and a half ounces of bruised ginger, one ounce of cream of tartar, 
 one lemon, two tablespoonfuls of yeast. Mix all together (except the yeast) 
 and let it stand over-night ; then add the yeast ; strair and bottle it ; tie 
 down the corks. In twelve hours it may be drank. 
 
 Beef Tea is very nourishing if rightly prepared. Take perfectly lean 
 parts of fat beef, cut it into cubes half an inch square, and soak it some hours 
 in cold water, and then boil all together for an hour. You may improve 
 this by adding a toasted cracker to each bowlful. 
 
 Tiie following formula is given by Liebig : Half a pound of fresh, lean beef, 
 cut small in one pint and a third of pure water, witii four drops of muriatic 
 acid and half a small spoonful of salt, to stand an hour cold, and then strain 
 without squeezing. It may then be cooked and taken hot or cold 
 
 Mutton or ciiiekcn tea should be made according to the first of the above 
 directions, and rice may be added, if not intended solely for drink. 
 
 491. Cautions about I'rcsfrving Health.— The art of preserving health is of 
 more conseqn(*nce than all the prescriptions tor pampering sick appetites. A 
 great deal of sickness might be avoided by forethought. There is always 
 some cause to produce sickness, and that cause may frequently l)c removed 
 by a few hours' labor. 
 
 Stagnant water in the cellar is a great breeder of disease. Let tlicre al- 
 waj's be a fj-ee passage of air through the cellar by taking out the windows, 
 so that the air can circulate freely and keep it healthv. 
 
 If there are stagnant ponds near your dwellings, they should be drained. 
 Kemove, as far as you can, every cause of disease ; be temperate and regu- 
 lar in all your habits ; avoid exposure, and be careful of what you eat. 
 
4:38 DOMESTIC ECONOMY. [Chap. IV. 
 
 492. Poisons. — There are numerous poisons lurking unsuspected about 
 many dwellings that tend to produce sickness. Among other poisons, we 
 enumerate — 
 
 Oxalic acid used in solution for cleaning brass and removing stains fi-om 
 linen, is a virulent poison. Lime forms an insoluble compound with it, and 
 proves the best antidote when it has been taken into the stomach. 
 
 Among vegetable poisons we find the mountain laurel {ludim'a latlfolia), 
 and the dwarf or sheep laurel {K. augustlfoUa). These not only are eaten 
 by animals, but the leaves are mistaken by children for wintergreen, and 
 we have known serious cases of poisoning to result. 
 
 Poison sumach {Rhus venenata) and poison vine or poison ivy (7?. toxico- 
 dendron) produce excessive irritation of the skin, and even blistering from 
 contact with most persons, and some are so sensitive that the odor only of 
 the first or its smoke in burning produces most painful results. The M'ild or 
 poison parsnep has a similar efl'ect upon some persons, and some very del- 
 icate skins are afl:'ected by the garden parsnep. Tlie efl'ect is hightened 
 when the leaves are covered with dew ; when dried, they may be handled 
 with safety. 
 
 Water hemlock {C'lcuta maculata) is a virulent poison. From the form 
 of its inflorescence and the aromatic odor of its seed and root, it is some- 
 times mistaken for sweet cicely {Myrrhis odorata) by children. Pains 
 should be taken to extirpate it wherever found, as also to prevent the spread 
 of a similar plant, a foreigner, poison hemlock {Conium maculatum). 
 
 Among poisonous garden flowers we have the larkspur, monkshood, and 
 foxglove. 
 
 Opium, the product of the poppy, in some form, either as laudanum or 
 elixir, is a very frequent means of poisoning. Tliese medicines are too pow- 
 erfid to be trusted in ignorant hands, as the yearly record of fatal accidents 
 sadly attests. 
 
 The green color on wall paper and on cards attached to various dry 
 goods, often contains arsenic, a single square inch having enough to destroy 
 a child. Green wall paper is unfit for use, especially for sleeping-rooms. 
 The exhalation from such walls has been known to sicken the occupants. 
 
 [The frequent use of poisonous colors wpow candy or children's playthings 
 indicates the need of the utmost caution on the part of parents. The red, 
 green, yellow, and blue colors may all be harmless, but fatai cases of poi- 
 soning and the examination of chemists prove that the grossest ignorance or 
 the deepest depravity prevails with some makers and venders. 
 
 Copper in all its forms is poisonous. Acid or greasy food allowed to stand 
 in copper or brass vessels, readily corrodes them, and proves their unfitness 
 for such uses. The metallic or brassy taste of the articles usually aflfords 
 reasonable warning. 
 
 Common black M'riting-ink, made of nutgalls and iron, is not poisonous, 
 but the blue ink has a diflerent composition, and is so in a greater or less 
 degree. Indelible ink and also hair-dyes having nitrate of silver as the es- 
 
Seo. 27.] HYGIENIC. 439 
 
 sential ingredient, are poisonous. Corrosive sublimate used in alcohol as a 
 bedbug poison should never be kept in families, as it has been the cause of 
 very many accidents. 
 
 Phosphorus, an ingredient in friction matches, is a deadly poison. Too 
 mucli caution can not be used to keep them away from small children, who 
 will put anything in their mouths. The free use of warm water will not 
 only fiivor the vomiting which may ensue from the action of the poison it- 
 self, but as a diluent it may serve to weaken its power and render it com- 
 paratively harmless. Common table-mustard is a very prompt emetic. The 
 dose is a teaspoonful of dry mustard ; stir this in a tumbler of water and 
 drink at one draught. It is quick, sure, and as agreeable as any emetic. If 
 some does remain in the stomach, it does no harm. In a few cases some an- 
 tidote may neutralize the poisonous substance in the stomach, but the main 
 dependence must be in removing immediately its contents either by an 
 emetic or, better, by the stomach-pump. Vegetable acids, as vinegar, are good 
 antidotes to many of the vegetable poisons, yet no rules can be given upon 
 which it would be safe to rely without medical assistance. 
 
 493. Bee Stings and Mosquito Bites. — We have often cured the poison of 
 bee stings, and relieved the pain almost instantly by an application of spirits 
 of hartshorn (liquid ammonia). If that is not convenient, wet the skin and 
 apply powdered saleratus or sal soda, which effects upon some persons in- 
 stant relief. The same things may be applied with success to mosquito bites 
 upon children or others, where they are particularly poisonous. Some- 
 body has published a statement that, if a pieCe of raw beef is placed in 
 a room infested with mosquitoes, they will all suck the beef and let folks 
 alone. 
 
 494. Snake Bites and Remedies. — ^The most virulent and fatal of all poisons, 
 excepting always the poison of bad ventilation, comes from snake bites, 
 which occur occasionally in some of the new settlements of our country. 
 We have known death to supervene in several cases for want of a little 
 knowledge of remedies ready at hand. One remedy is to drink whisky, or 
 any spirit, as soon as possible, sufficient to produce insensibility. Another 
 remedy is to kill a chicken, or any other animal, and cut it open and apply 
 the warm flesh to the wound, holding fast, and renewing it when it loses the 
 animal heat. Another is a i^oultice of equal parts of raw onions, tobacco, 
 and salt, mashed together, moistened with whisky, and bound on tight and 
 frequently renewed. Sweet or olive oil, we know as a very valuable 
 remedy, taken in half-gill doses, and cloths bound upon the bitten spot 
 soaked in oil. We earnestly recommend a trial of the following remedy : 
 Wet a bunch of lint with a teaspoonful of chloroform, and lay it on the 
 bite, and cover it with a watch crystal, a wine-glass, or a tumbler, pressed 
 down so as to exclude the air, and hold it there fifteen to thirty minutes, 
 which will probably raise a blister, and prove so painful that the pain of the 
 poison will not be felt. 
 
 495. Hydrophobia — Cure of Mad-dog Bites. — A Leipsic — Germany — journal 
 
4i0 DOMESTIC ECONOMY. [Chap. IV. 
 
 gives the following, said to have proved many times a sure remedy for the 
 bite of a mad dog : 
 
 " Take immediately warm vinegar or tepid water, wash the wound clean 
 therewitli, and then dry it ; then pour upon the wound a few drops of 
 hydrochloric acid, because mineral acid destroys the poison of the saliva." 
 
 Bkazilian Mode of Cure. — We have seen it stated that the bites of rat- 
 tlesnakes and mad dogs and stings of scorpions are cured in Brazil by the 
 use of spirits of hartshorn. It should be applied immediately, if possible, 
 and the wound kept Met by cloth application or continual sponging, and 
 doses of the spirits diluted, taken into tlie stomach three or lour times a 
 day. It is said that the spirits of hartshorn has a chemical affinity for the 
 poison virus, and absorbs and decomposes it, and thus renders it harmless. 
 If this is the case, then ammonia in any form would have tlie same effect. 
 At any rate the remedy is simple and easily tried, and should be tested. 
 We have faith in it, knowing it to be an excellent remedy for a bee sting. 
 
 496. Remedies for Loclijaw, Felons, and Clccrsi — We have heard a great 
 deal about the medicinal value of a poultice made of grated beet-roots, and 
 now we find the following statement, which we consider worthy of attention, 
 the remedy is so easily applied : 
 
 " A young lady ran a nail into her foot, which produced lockjaw of such 
 a malignant character that her physicians pronounced her recovery hope- 
 less. An old nurse applied a poultice of pounded beet roots, renewing it 
 often, and the result was a complete cure." 
 
 A good remedy for a felon is made of common soft soap and air-slaked 
 lime, stirred till it is of the consistency of glazier's putty. Make a leather 
 thimble, fill it with this composition, and insert the finger therein, and our 
 informant says a cure is certain. This is a domestic application that every 
 housekeeper can apply promptly. 
 
 A fig heated as warm as it can be borne, and cut open and applied to 
 almost any ulcerated sore, and renewed as it cools, is recommended for boils 
 and similar affections as one of the best remedies. It may be applied to an 
 ulcerated tooth. 
 
 497. Remedy for a Tight Finger-Ring. — If it can not be removed by such 
 mechanical appliances as inserting a stout thread under it and pulling upon 
 it, nor by thin strips of metal, then chemistry must be resorted to, and the 
 strength of the ring destroyed, so that it can be easily broken. This is done 
 by rubbing it with quicksilver, which has an affinity for pure gold, and 
 makes it brittle. 
 
Sec. 28.] 
 
 THE D.VIRY. 
 
 441 
 
 SECTION XXVIII.-TnE DAIRY. 
 
 EUTTEK-MAKING, AS PRACTICED BY FIEST- CLASS DAIKTIIEN — CTTEESE AND 
 CHEESE-MAKING. 
 
 (E can not teach all who need to be tanght the 
 perfect art of butter-making, which is one of the 
 useful arts that but few households possess. In the 
 great butter market of New York, we find that not 
 one tenth is really first-rate ; and probably more 
 than one half is sold from one to three cents a 
 pound below the first price, while tons are sold 
 every year at the price of soft grease, and used for 
 other purposes than food. What a loss to the pro- 
 ducers! In hopes to aid this class, we have em- 
 bodied in this section directions for making butter, 
 as practiced by some of the best butter-makers in 
 the country. Among tliesc.we may name A. B. 
 Dickenson, Hornby, Steuben Co., N. Y. ; Jesse Car- 
 penter, of Elmira, K". Y. ; John T. Norton, of Farmington, Ct., and others. 
 498. First Requisites iu Butter-Making. — A. B. Dickenson says : " One of 
 the first requisites iu butter-making is care that all the utensils of tlie dairy 
 are kept dry and sweet ; that the milk-room is well ventilated, of a proper 
 temperature, free from dampness and the unpleasant smell generated by 
 moisture ; tbat the cream is not allowed to stand too long iipon the milk, 
 nor after it is skimmed ; that it be churned at a proper temperature, tlic 
 operation being neither hurried unduly or carried too far ; tbat it should be 
 salted with the nicest salt obtainable, not injured by the addition of sugar 
 or saltpeter, and that all the buttermilk Ije properly and efiectually removed. 
 "The utmost moisture which should be found in thoroughly worked but- 
 ter is a very slight dew, and it should be of such firm consistency as to slice 
 down, hardly dimming the brightness of a knife-blade. No butter is prop- 
 erly made unless it will bear these tests. 
 
 " For depositing the milk, when strained, the tin pail of the capacity of 
 about twelve quarts is preferable to any other kind of vessel. It is sufii- 
 ciently large to fulfill all the requirements in that particular, while its su- 
 periority over the shallow pan — which is considerably used — is too palpable 
 to admit of doubt. 
 
 " No first quality of butter can be made either in November or August. 
 While the one is too cold with frost-bitten grass, the other is quite too 
 warm, and without ice it is impossible to make first quality of butter. Be 
 careful in washing butter to handle it with a ladle, so as not to affect the 
 
442 DOMESTIC ECONOMY. [Chap. IV. 
 
 grain ; then put it away in some sweet, cool place out of the reacli of any bad 
 odor wliicli it might absorb. When it has stood long enougli to get its 
 proper rich color, work it over and lay it down and keep it witli the same 
 degree of care. It would spoil in sixty days in a common farm cellar, 
 where meats, fish, and vegetables are kept. 
 
 " It would be a much easier task to teach a man to make a watch than how 
 to make the first quality of butter, as it is the most sensitive and the most 
 liable to injury of all the eatables extracted from the vegetable kingdom. 
 It is so sensitive as to partake of everything that can affect it that it comes 
 in contact with — as onions, carrots, parsneps, turnips, fish, or anything else 
 that would make it unpalatable, either in tlio butter or the milk before 
 churning. Not only so, but the butter partakes of everything the cow eats 
 or drinks, and the longer it stands after being made, the more perceptibly 
 will the unpalatable things on which she fed make themselves manifest. By 
 this it Avill be seen that the most important tiling for first quality of butter 
 is the food for the cow. K^either from roots of any sort or kind, nor grain 
 of any description, can first quality of butter be extracted. It must be from 
 something that imparts a sweeter and finer flavor. The cow must give good 
 rich milk, as first quality of butter can not be made from poor pale milk, 
 for it lacks the essential quality of good butter." 
 
 Rest and quiet are as important to a butter-producing cow as good food. 
 She should never be dogged, beaten, driven on a run, nor have her quiet in 
 any way disturbed. 
 
 499. Churning, Washing, and Coloring Butter. — In spite of all the patented 
 improvements, the old dasher churn still holds its position, not oiily in fam- 
 ilies, but among dairymen. The following are A. B. Dickenson's directions 
 for churning milk and working butter : 
 
 " The churn should be as nearly straight up and down as possible, as the 
 dash should'stir all the milk every stroke it makes, so that the butter in the 
 churn should all come at the same time. If the milk is too cold, the only 
 safe way to warm it is to place a pail of milk in a large boiler of warm wa- 
 ter to bring it to the exact temperature, which is about 55 to 60 degrees — a 
 few degrees warmer in cold than warm weather. As soon as the butter has 
 come and gathered, take it immediately from the churn in its warm state 
 and put it in a large wooden bowl, which is the best vessel for the purpose ; 
 then put it in cold, soft water ; then commence pulling the butter over with 
 the ladle in so gentle and careful a manner as not to affect the grain, for as sure 
 as that is injured at the washing or working, the butter becomes oily and 
 can never be reclaimed. Every particle of milk must be washed out, and 
 then season with the best Liverpool salt. Set the bowl away until the next 
 day, and when sufliciently cool, work the mass thoroughly, but not so as 
 to make it oily, and on the third day pack it away if it has assumed the 
 right color. Examine it well before packing, and be sure that no milky 
 water runs from it, for if packed with the least drop, you will hear from it 
 next April. 
 
Sec. 28.] THE DAIRY. 443 
 
 " If your spring or ■well is liard water, save ice from streams, as lime never 
 congeals with ice. Save rain-water, and then with ice you will have soft, 
 cool water to wash your butter, without whicli you can not get the milk 
 out without injuring the grain. Soft water is as indispensable to wash but- 
 ter as it is to wash fine linen. Washing butter is not positively necessary 
 if it is to be used within a few weeks. 
 
 "The idea of coloring butter with anything after it is made is as absurd 
 as painting rye bread white, with the expectation of making it taste like 
 wheat." 
 
 Jesse Carpenter says : " The milk in the churn, when fit for churning, 
 should indicate C-± degrees Fahrenheit, and should be agitated with a move- 
 ment of the dush at not less than fifty strokes to the minute. Less motion 
 will fail lo divide properly the butter from the milk. "When done, the 
 butter sliould be taken from the churn and thrown into a tub or a small 
 churn partly filled with water 42 to 44 degrees Fahrenheit, and the butter- 
 milk forced out with a small dash. It should then be put into trays and 
 washed until the water used ceases to be the least discolored with butter- 
 milk. It is then ready forsaking, which done, carry the trays immediately 
 to the cellar. Use one and a quarter ounces of salt to the pound of worked 
 butter. Three or four hours after the first salting, stir with a ladle and put 
 it in the form of a honeycomb, in order to give it the greatest possiWe sur- 
 face exposure to the air, which gives color and fixes the high flavor. 
 
 " Butter, when well manufactured, while standing preparatory to pack- 
 ing, is composed of granulated particles, between which are myriad.-; of in- 
 finitesimal cells filled wtili brine, which is its life. At this period it should 
 be touched with a light hand, as too much and too careless working will destroy 
 its granular and cellular character, and reduce the whole to a compact and 
 lifeless mass, with an immediate loss of flavor, and a certain and reliable 
 prospect, if packed, of a rapid change of its character from indifierently 
 good to miserably poor butter. It should never be worked in the tray 
 while in a dry state, or all the ill results just alluded to will be realized. 
 As a general rule, after the butter has stood in the trays twenty-four hours, 
 and has been worked three or four times as directed, it is ready for packing. 
 After the firkin is filled, it should stand a short time, and then should be 
 covered with a clean piece of muslin, and tlie whole covered with brine." 
 
 Mr. H. E. Lowman, a neighbor of Mr. Carpenter, states the following 
 fact about his butter, which is a strong one in favor of washing butter : 
 
 "Mr. Carpenter for the last twenty years, besides fiittening the calves to 
 the customary age of four weeks, has averaged a fraction over two firkins 
 to the cow per year. He has had butter stand in packages in Ids cellar for 
 one year and a half, and open then with a. flavor so fresh and sweet that 
 the very best and most critical judges and buyers were deceived one year 
 in its age, none even suspecting it to be the product of a former year. He 
 never has, during that period, failed to reach in New York market the 
 highest figure representing the maximum market for Orange County butter. 
 
444 DOMESTIC ECONOMY. [Chap. IV. 
 
 and latterly he has very often exceeded the very highest market from i to 
 21 cents per pound." 
 
 Butter is judged by its color, aroma, taste, and consistency. Its color 
 should be a delicate pale straw, not approaching white, and yet perhaps that 
 is better than the deep orange tint, almost always a sure indication of ex- 
 traneous coloring matter. Tiie peculiar smell of good butter is easily rec- 
 ognized. The better the quality the more delicate this aroma; while, as the 
 quality degenerates, about in the same proportion does the smell vary, until 
 it becomes positively oifensive. This fragrance is dependent very much on 
 the process of manufacture. Orange County dairymaids make " Orange 
 County butter" wherever they follow the same processes. The taste of the 
 butter will betray any inattention to the proper care of either the milk, 
 cream, or the vessels in which they are kept. So will the addition of any 
 foreign matter, such as impure or too much or too little salt, sugar, or color- 
 ing matter. A certain amount of salt is necessary to bring out the true 
 flavor of butter in its greatest delicacy. In texture or consistency, a greater 
 diflference is seen than upon any other point. Some are firm, leaving no mark 
 upon a knife after being thrust into a lump, with hardly enough moisture to 
 dim its brightness, while other lots are soft, leaving greasy streaks upon the 
 blade, and large drops of an opaque liquid oozing from the newly cut 
 surface. The existence of either of these signs gives sure indication of an 
 imjjerfect, if not bad, process of making. 
 
 500. Number of Quarts of Milk for a Pound of Butter.— The number of 
 quarts of milk required to make a pound of butter varies very widely. By 
 many trials in England, it is found that one pound of butter requires from 
 fourteen to sixteen quarts of milk ; that is about oue ounce from a quart, 
 varying with the feed and the season. Although it may be true that the 
 milk of a majority of the cows in this country would require an equal number 
 of quarts to make a pound of butter, yet thei'e are cows that will give a 
 pound to four quarts of milk. Col. Jaques, of Massachusetts, and Maj. 
 John Jones, of Delaware, both had a " cream-pot" breed of cows which we 
 saw a few years ago produce this result. But we believe that it requires an 
 average of fourteen cpiarts to a pound, and that is why farmers prefer to sell 
 their milk where it brings over two cents a quart. At that rate a milk- 
 dairyman can not even afford to make his own family butter ; he can buy it 
 from a farmer, who can not sell his milk, at a rate more economical. 
 
 "William Buckminster, flf Framingham, Mass,, in 1855, exhibited a Devon 
 cow for premium, as the best butter-maker, with satisfactory proof of the 
 following yield of milk : 
 
 " In June and July last she filled a common milk-pail, at night, as full as 
 any dairymaid would wish to carry. And on June 17 her milk weighed, morn- 
 ing and night, each 34i pounds ; June 10, morning and night, 34| pounds ; 
 June 19, morning and night, 34 pounds ; June 20, morning and night, 323 
 pounds; June 21, morning and night, 32f pounds; June 22, morning and 
 night, 30i pounds ; June 23, morning and night, 30^ pounds." 
 
Seo. 28.] THE DAIRY. 445 
 
 He also certified at the tinae she was oflered, in October, that four quarts 
 of her milk, -when fed on grass only, and that of an ordinary pasture, pro- 
 duced one pound of the finest yellow butter. "This cow," he says, "is one 
 of the six cows owned and bred by me, whose milk has repeatedly yielded 
 one pound of butter from four beer quarts. Her keep through the autumn 
 of the three years of her milking has been grass feed only, no grain, or 
 roots, or corn stover having been given her." 
 
 This is the richest milk of any but Alderneys, and above their average. 
 
 William S. Lincoln, of Worcester, Mass., produced from one cow, owned 
 by him, in the spring of 1858, eighteen pounds of butter a week ; and cows 
 that produce fifteen or sixteen pounds a week are not uncommon in that 
 State. The " Oaks cow" yielded her owner nineteen pounds a week at the 
 best, and nearly 500 pounds in the course of the season. These are extra- 
 ordinary cases, it is true ; but if one cow can do it, others can. 
 
 Now, if these are facts — and who can dispute them ? — ^what are we to 
 think of the quality of judgment, sense, or economy of men who will keep 
 cows on their farms ibr the sole purpose of making butter, at an average of 
 one pound to fourteen quarts, when they could have cows that would give 
 a pound from less than half that quantity? Let this fact be thought of, that 
 it does take fourteen qtiarts of milk for a pound of butter, which might be 
 made from four quarts. While this is a fact, it is not to be wondered at 
 that Orange County farmers have quit making butter, notwithstanding the 
 high reputation it had attained, and prefer to send their milk to New York 
 from every farm within reach of the river or railroad. If the milk averages 
 two and a half cents a quart when sold, anc^ it would take fourteen quarts 
 to make a pound of butter, it would make the first cost of the butter thirty- 
 five cents a pound, besides all the labor of its manufacture. 
 
 Tlie Iloriicsteud says : " Mr. Coil, of Norwich, keeps two cows which, in 
 the best of the season, furnish four quarts of milk daily for use, and make 
 nineteen pounds of butter a week. The writer also thinks that an improved 
 style of milk-room would be quite as likely to increase the yield of butter 
 as an improved breed of cows. If only an additional pound a week from 
 each cow could be secured in this way, it would be a matter worth looking 
 into by our farmers, and would greatly increase the yield of butter in the State." 
 
 Think of it, farmers, in every State. An additional pound of butter a 
 week to each cow ! What would be the aggregate ? Can anybody tell ? 
 Can anybody think of the'Vast amount, and that it- would be all clear profit? 
 And it is just as easy as it is to do right instead of wrong. 
 
 Good cows, sweet feed, and pure water are the first of all requisites to 
 the numufaeture of good butter. Good cows, that proper color and right 
 consistency be secured ; sweet feed and pure water, that no flavor be im- 
 parted to the milk which would render the butter unpahrtable. Dependent, 
 however, as the quality of the article is upon the cow and the goodness of 
 the food, a proper degree of care and skill on the part of the dairy woman is 
 of much greater conseouence. 
 
446 DOMESTIC ECONOMY. [Chap. IV. 
 
 Undoubtedly butter can be worked so as to keep sweet without washing ; 
 so can wheat be cut witli a sickle, and thrashed with a flail, but they are not 
 great labor-saving machines. 
 
 With successful butter-makers the churning occupies about half an hour. 
 By increasing the temperature of the cream, it could be done in one half 
 the time, but the quality of the butter would be much reduced. In winter, 
 to facilitate the rising of the cream, the earthen pans for holding the 
 milk are riused in hot water before use, and warm water is applied 
 around them, not to heat the milk, but for a time to maintain its original 
 temperature. 
 
 When llie temperature of the dairy is less than fifty degrees Fahrenheit, 
 the milk will not ripen for churning, and in such case should be removed for 
 a time to a temperature of fifty-five degrees. The sudden warming of the 
 milk will not always enable it to yield up its butter readily. 
 
 One butter-maker says : " Carefully conducted experiments prove that 
 more butter is obtained fi-om a given quantity of milk, when set in pans 
 partly filled, than when full." This is in opi^osition to the theory of A. B. 
 Dickenson. 
 
 A French chemist declares that butter may be made without churning, by 
 the use of a filter, made of white felt, in the form of a bag, in the four 
 corners of which are inserted porous strings, like candlewick, to hasten off 
 the fluid portion of the milk. The bag being suspended by the lour corners, 
 from twcnty-fonr to thirty hours, the contents of the filter will be found to 
 be of the consistence of " smear case" (soft cheese). This solidified cream 
 is then placed in a linen bag, tied tight, and the bag kneaded like a roll of 
 dough. In a few minutes the mass grows liquid, and the butter and butter- 
 milk are separated. 
 
 One large butter-maker says: "I use a horse-power churn, of a capacity 
 sufiiciently great to make one hundred and twenty pounds of butter. I 
 always try the temperature of my churn before putting in the cream. If 
 below fifty-five degrees, I raise it to that point with warm water, and keep 
 the cream as near that point as possible. As soon as the cream is in the 
 churn I start the horse, and keep him moving at a steady gait until the but- 
 ter is broken, or begins to gather in small lumps. Opposite the opening 
 through which the cream is poured into the churn is an inch hole, which is 
 stopped with a plug. When the butter is formed as above stated, I open this 
 hole and draw off all the l)uttermilk, then start the horse again, and keep 
 him going until I gather the butter into a solid mass. This accomplished, 
 it is taken from the churn and put into a tub prepared for it. I then weigh 
 the whole mass, and transfer it to the butter-worker, when it is worked over 
 twice, after which I add one dessert tablespoonful of the very best dairy 
 salt to every pound. I again work it well, so as to incorporate the salt 
 thoroughly. It is again weighed into pound lumps and printed. The 
 human hand is never allowed to touch the butter, nor is water ever used to 
 wash it." 
 
Sec. 28.] 
 
 THE DAIRY. 447 
 
 Of course it is sold immediately ; if it is to be kept, we think it must bo 
 washed. 
 
 501. Butter Affected by Food of Cows.— Tlie quality of all butter is so 
 greatly affected by the food of the cows, that no one can make good butter, 
 althou'j'h he lias good cows, if their food is poor. In summer, there is nothing 
 better than clover pasture. At any rate, the pasture must atibrd sweet grass, 
 running water, and trees for shade and rest. A cow should be selected for 
 her quiet disposition, as much as any other quality, for a butter-making 
 cow; for milk alone, this is not so important. If she has vicious propen- 
 sities, she can not be cured by viciousness. In winter, clover hay, cured in 
 the most perfect manner, is better for butter than any otlier hay. To this 
 add slops once or twice every day, composed of bran, shorts, cut potatoes, 
 corn meal partially cooked, and salt, and an occasional handful of bone 
 meal, lime, ashes, or charcoal-dust will be found advantageous. Carrots 
 are always good for a butter cow. Nothing should ever bo given her that 
 is not sweet enough for you to eat yourself. And even that is not always 
 good food for a cow, as turnips, cabbages, and onions are considered good 
 food for the table — they are not for the stable, if sweet milk is an oliject. 
 
 Then she must be kept in a clean, sweet-smelling stable, warm and dry, 
 but ventilated. The same stable should be nsed in summer for milking, 
 after which the cows may be allowed to sleep out, if it is such weather that 
 they can lie upon the ground in comfort ; and if not, keep them in until after 
 milking in the morning. Every cow should know her own stall as well as 
 a man knows his own bed, and they will soon learn to be \inwilling to eat 
 or be milked anywhere else. Food and care of the cow, and perfect quiet 
 and comfort for her in every respect, are the first requisites in making good 
 butter. 
 
 A stable can bo kept sweet enough to lodge in by the daily use of plaster, 
 charcoal, prepared muck, or an occasional sprinkling of dilute sulphuric acid 
 or solution of copperas. 
 
 It is necessary for a full flow of milk to maintain a continual supply of 
 albuminous ibod, while in the latter period of fattening, such kinds of food 
 are superfluous, and only tend to 'enrich the manure heap There is one 
 leading feature in his practice, to which the utmost importance is attached 
 by Mr. Ilorsefall — an English dairyman — the maintenance of the condition 
 of his cows giving a large yield of milk. This is done by the addition of 
 bean meal in greater quantity to those yielding the most milk He refers 
 also to the effect of clover upon the supply of milk as known to all dairy- 
 men, the dry material of which is nearly as rich in albumen as beans, and 
 the inference is drawn that " albuminous matter is the most essential ele- 
 ment in the food of the milch cow, and that any deficiency in the supply of 
 this Vv'ill be attended with loss of condition, and a consequent diminution in 
 the quality of her milk." lie is of the opinion that "you can increase the 
 proportion of butter in milk more than that of casein or other solid parts." 
 Kayte-cake seems more efficient for this purpose than linseed-cake, the oily 
 
448 DOMESTIC ECONOMY. [Chap. IV. 
 
 matter in this seed more nearly resembling that in butter than that of flax- 
 seed. He also says : " It seems worthy of remark that a cow can yield a 
 far greater weight of butter than she can store up in solid fot. Numerous 
 instances occur where a cow gives off two pounds of butter per day — four- 
 teen pounds per week — while half that quantity probably would not be laid 
 on in fat if she was fed for that purpose." 
 
 These " English notions" are worthy of American attention. 
 
 502. Butter Afiected by the Packages. — It is one of the greatest mistakes 
 that butter packers make, to put it up in bad packages. Let it be taken for 
 an incontrovertible fact that, as a general thing, a dairy of butter of uniform 
 quality may be packed, one half in rough, untidy casks, and the other in 
 neat, sweet-looking firkins, of suitable and uniform size, and that half will 
 outsell the other at least ten per cent. The purchasers of butter, by the 
 single package or by the hundred packages, are always influenced by the 
 outside api^earance. One of the reasons why Western butter sells at a price 
 generally under tlie market is because it comes in bad order. How can 
 people e.xpect first prices for butter in mottled rolls, packed in a dry-goods 
 box or a flour barrel ? Such butter, when it arrives in New York, is de- 
 nominated " "Western grease," and sells at a price corresponding with its 
 name. 
 
 503. When to Skim Milk. — The right time to skim milk is just as the milk 
 begins to sour in tlie bottom of the pans. Then the cream is all at the 
 surface, and should at once be ren)oved, with as little of the milk as pos- 
 sible. Tliat housewife, or dairymaid, who thinks to obtain a greater quan- 
 tity by allowing the milk to stand beyond that time, labors under a mistake. 
 Any one who doubts can try it. Milk should be looked to at least three 
 times a day. 
 
 50i. Alderney Cows and Alderney Butter.— It is our matured opinion that 
 the Alderney cow is the only one for a fiimily, where but one is kept, and 
 where rich milk and sweet cream are a leading oliject. (See 47, 48, 49.) 
 There is no doubt of the fact, that this breed of cattle is superior to any other 
 for making butter of rich flavor to the taste, and with a peculiar sweet 
 aroma. We have thoroughly tested butter made from Alderney cows, by 
 John T. Norton, of Farmington, Conn., and have submitted it to tlie sight, 
 smell, and taste of some good judges of butter, who, without hesitation, ]iro- 
 nounced it as unlike as it is richer than any other kind they have ever tasted. 
 We kept it some weeks exposed to an atmosphere that M-ould soften ordinary 
 butter so that it could not easily be handled, and yet this remained almost 
 as firm as though just from a cool dairy-room. There can be no mistake in 
 its natural superiority and good keeping qualities over butter made from 
 cows of other breeds. This fact is as well known in England as the fact 
 that Southdown mutton is superior to that of other breeds of sheep. And 
 the fact is beginning to be known here, for we have heard of Alderney but- 
 ter selling in market, in places where it is well known in this country, at 
 double the price of good butter of common stock. This much for the in- 
 
Sec. 28.] THE DAIRY.' 449 
 
 formation and benefit of those wlio do not Isnow tliat there is a very great 
 dilierence in breeds of cattle for butter as well as for beef. For the latter 
 purposes the Aldernejs are certainly superior to the Durhams. Ilerefords, 
 Devons, Ayrshires, or natives. 
 
 Anotlier good quality of the Alderneys is, that they will live upon house- 
 slops or garden or yard clippings, or upon short pastures. 
 
 Mr. Norton says: "I live on one of the old worn-out farms of Connecti- 
 cut, which I am trying to improve;" and we say, upon such a farm he finds 
 it not onh^ pleasant for his own nse to keep Alderney cows, but profitable to 
 make butter from them for the Hartford market. Our reconnneudation, 
 however, is not for dairy purposes, but strictly for private family use, and 
 for that we do consider this small breed of cows most valuable. There are 
 persons, however, of experience, who believe the Aldernej-s valuable for 
 dairy farms. 
 
 T. M. Sfonghton, of Greenfield, Mass., says: "Alderney cows are not 
 only good for private family use, but actually the best for a large dairy. 
 
 " My experience has been with a herd of cows imported by Mr. Jonathan 
 Bird, of Belleville, N. J., from the island of Jersey, and selected with par- 
 ticular regard to their milking qualities. The herd came under my care in 
 1856, with the request from Mr. Bird that I should give them the same care 
 and feed as my native and Ayrshire cows, keeping a careful account of their 
 product by measurement and weight, so as to be able to determine M'hether 
 they arc a profitable breed for butter-making. The following statement is 
 oflered as an answer to ' What is a good cow V 
 
 '• Cow No. 1 calved in Januarj^, 1S51 — came into my care last of May. 
 In June, she made lOi pounds of butter per week; in July, 10| pounds per 
 week; in August, 9i pounds per week; in the month of September, 30 
 pounds; in October, 28 pounds; and two weeks in November, 12i pounds; 
 and calved in December — making 198i pounds in five months. 
 
 "No. 2 calved in September, 1851, and through the month of October 
 made 14i pounds of butter per week ; in June following she made 12 pounds 
 per week; in August, 6 pounds per week ; and calved early in October — 
 making 317 pounds of butter for the year. 
 
 "No. 3 was a three-year-old heifer, calved in September, 1856. In the 
 month of October, made 11 f pounds per week; in June following, 8h 
 pounds per week; in August, 4 pounds per week — making 267 pounds for 
 the year. 
 
 "No. 4 was a heifer two years old; calved in March, 1858. From the 
 1st of April to November she made 200 pounds of butter. Greatest yield 
 per week, lOj pounds ; and made 7 pounds per week in September. 
 
 "No. 5, a heifer eighteen months old; calved in March, 1858. In the 
 five months following she made 108 pounds of butter. 
 
 "Tiie above five are an avei'age of the ten milking cows. Their feed has 
 been pasture only in the summer months, with hay and two quarts of corn 
 meal and lye middlings in the winter months. From the above statement 
 
450 DOMESTIC ECONOMY. [Chap. IV. 
 
 it -will be seen that the cows which have come to maturity will make 300 
 pounds of butter per year under favorable circumstances. Alderiiey butter 
 sells in the different markets of the country for from forty to fifty cents pur 
 pound. The best dairies of New York and K^ew England do not average 
 over 200 pounds per cow (native and Durham). The average price of their 
 butter is not over twenty-five cents per pound. 
 
 " One of the most important peculiarities of the Alderney cow is her uni- 
 formity of quantity, making nearly as much butter at the end of eight 
 months after calving as at four. Tlie objections urged against the Alderney 
 cow are, that she is a voracious feeder, lean, awkward in appearance, and 
 will make but little beef when old. 
 
 " Admitting the Alderney cow to be a pretty sharp feeder, it can hardly 
 be expected that a cow will make from ten to fourteen pounds of first-rate 
 butter by simply standing in a cold stable, and looking at a haymow, or by 
 shirking round a stack of swamp hay. That she is inclined to be lean is an 
 evidence that she is a good milker; for a cow that secretes fatty matter can 
 not secrete good milk at the same time, without being fed too high for the 
 permanent good of the cow. If she is ugly»lo look at she is a good one to 
 go, for she will be M'orth $100 when six months, especially if a heifer. And 
 after being milked twelve or thirteen years, producing over 3,000 pounds of 
 butter, it is of no great consequence whether she makes 600 or 900 pounds 
 of beef." 
 
 505. Heatiug New Milk> — The Dairymaii^s liecord gives the opinion that 
 the heating of new milk to near the l)oiliiig-point just after it is drawn from 
 the cow, is preferable to allowing it to stand for a time before heating, and 
 thinks both butter and cheese are improved in flavor by so doing, '' because 
 the animal odors which are objectionable would be expelled," and goes on 
 to say that " tasteless and leathery" cheese is caused by manufacturing 
 under too liigh a temperature rather than from high heating before manu- 
 facturing. 
 
 506. Dust and Fly Covefs for Milk-Panst — To keep dust out of milk-pans, 
 make hoops of ratans, or ash wood, a little larger than the tops of the pans, 
 and stretch over and sew on them some thin cotton stuff that will not stop 
 the circulation of the air, but will keep out the flies and mites, and when the 
 milk is cool, lay these covers over the pans. To keep out flies, use mosquito 
 netting or wire gauze instead of cloth. The wire gauze is a fine thing to 
 cover all windows in fly-time. 
 
 Some inventive Connecticut genius has contrived a portable, ventilated 
 milk-closet, which, from the description, we should think a very good thing, 
 but presume that any ingenious wood-worker could get up one a little dif- 
 ferent in form to answer the same purpose ; and we I'econnnend all fami- 
 lies who keep but one cow, to provide themselves with such a c6nvenieut 
 ventilated milk-closet; or one that will let fresh air in and foul air out, and 
 keep the milk safe from pestiferous insects and vermin. 
 
 The following item shows the benefit of keeping milk cool : " In sending 
 
buc. 28.] THE DAIRY. 451 
 
 milk to market, tliougli it left tlie dairy peifectly sweet, it was often found 
 curdled on delivery to customers. To remedy this, the cans were covered 
 with thick cotton cloth, and this was wet with salt water. In this way the 
 difRcnlty was entirely oliviated." 
 
 507. Necessity and Value of a Family Dairy Room. — Every farm-house 
 should have a room for milk, solely devoted to that, and nothing else. In 
 very dry soils this can be made easiest and best in the cellar, provided it 
 has a chimney ventilator of ample dimensions running to the top of the 
 house, wliich can be easily made when building, and no milk-room is perfect 
 without such ventilation, and in our opinion the cause of bad bntter is as 
 much in the want of a suitable place to stand tiie milk, and a cool, sweet 
 room to store the butter, as in the process of manufacture. It is all import- 
 ant, also, that the milk-room should be of an imvarying temperature, so far 
 as it can be kept so without extra expenditure over the profitable advantage, 
 xin attachment to the ice-house is the best place for storing butter. The fol- 
 lowing is a good plan for a family dairy -room : 
 
 Build very convenient to the kitchen, but not adjoining, an eight-inch "wall 
 brick building, eight feet by sixteen feet inside, with a door in one end and 
 a window in the other, and arch it over ten feet high in tlie center, and plas- 
 ter it all over outside with water-proof cement. The top should be covered 
 with a coat of asphaltum, if to be had, or else with sand and tar. Give the 
 inside a coat of hard-finished plaster, and paint that well, so that it can be 
 washed. Where there is a good chance for drainage, the walls may be 
 dropped two feet-below the surface, or the whole built into a hillside, in 
 which case there can be no door nor window in one end, but there can and 
 must be a large chimney ventilator. Make the floor of cement or flag- 
 ging-stones, and, if not too expensive, use stone shelves, built in the wall. 
 The outside is to be banked up with earth and sodded over so as to form 
 a grassy mound, forming, in fact, a sort of cave cellar. A retaining wall 
 must be built each side of the door-way, and a shed over it, with wire- 
 screened windows in the door for ventilation, the sash being hinged to swing 
 down and fasten to the lower half of the door. Such a room will keep milk 
 sweet and of even temperature, and is not more expensive than a good 
 frame building. 
 
 The place where the milk is set, churning done, or butter stored, should 
 be absolutely sweet, clean, and deodorized of every smell. Water — cold 
 water, and its liberal application — is an essential about the dairy house, and 
 outside of it ; upon everything ever used, hot water, soap aud sand, and hard 
 hand-work, to make absolute purity, are the essential requisites to produce 
 good butter. Every woman should assure all the "men-folks," and often 
 repeat it to them, that no woman can make good butter if the cows are not 
 provided with suitable food. Recollect, food and shelter — airy, roomy, 
 clean stables, summer and winter; none of your milking in the road, among 
 the hogs ; setting milk for cream where the air is scented with hog-pen efflu- 
 via, or any other but that of roses, mint, and new-mown hay. 
 
452 DOMESTIC ECONOMY. [Chap. IV. 
 
 Food is the first, purity tlie second, temperature the third requisite in 
 making sweet yellow butter. 
 
 The best way to make dairy slielves is to use sti-ips sawed one by two 
 inches, and set so that the pans will stand upon their edges, or else place 
 them wide enough apart to receive the bottom of the pan, having cross 
 strips nailed in to support the sides, so that the pans would only touch at 
 ibnr points, and so cause the milk to cool quickly, and save labor in keeping 
 the shelves clean ; for a pan of warm milk set upon a flat shelf in a room a 
 little damp, or when the shelf has just been washed, will generate mold — 
 certainly more than when set on strips, as here recommended. 
 
 A Mr. Motley, of Massachusetts, has a dairy-room in the cellar of his house, 
 and arranged to be ventilated by an area window, which is covered Avitli 
 wire netting. The floor is cemented, and of course kept scrupulously clean. 
 Plain, broad wooden shelves around the four sides of the room hold tlie j)ans 
 of milk. A marble-top table, standing in the center of the apartment, is 
 used for working the butter, and preparing it for market. The milk is 
 churned in one of the well-known Crowell " thermometer churns," of a 
 capacity of thirty gallons. A small /lir-tight wood stove is used to insure 
 an equable temperature in winter. About 100 pounds of butter are made 
 weekly, which is sold to gentlemen in Boston at fifty cents per pound. It 
 is put up in neat quarter-pound rolls, prettily stamped, and sent to town in 
 tin boxes, fitted with shelves inside- to keep the layers of rolls separate. 
 As to the delicious quality of the butter, that is proved by the price. 
 
 508. How to Make Winter Diittcr,— If cows are fed with roots, meal, or 
 even whole corn, which, by-the-l)y, is only to be tolerated when corn is 
 worth less than twerity-five cents a bushel, there will be no complaint of 
 poor white butter, unless the fault is in the churning or the keeping of the 
 milk. Milk, in winter, should be kept about the same temperature as in 
 summer-time, and should not be allowed to stand unskimmed merely because 
 " it is taking no harm." Take off the cream, and if not enough for an im- 
 mediate churning, let it be kept cool and sweet till enough is accumulated, 
 when, if it is necessary to sour it, it may be put in a warm place and done 
 all at once. "When put into the churn, it should be at a temperature of 62 
 degrees, and if kept at that, yellow butter will be got in thirty minutes by 
 churning moderately, if your cows have had a little salt every day. 
 
 509. Butter Colored to Order.— Are the butter-eaters of New York aware 
 that butter, so far as color is concerned, is made to order as much as their 
 boots, hats, and coats? We assure them that sucli is the fact, as is well 
 known to all dealers, and should bo known to all consumers, and by them 
 wholly discountenanced. Our present notice of the fact arises from Iiear- 
 ing a woman bitterly denouncing the grocer who sent her " white butter." 
 After she had selected some "nice yellow" butter, at two cents higher price 
 per pound, and retired, the grocer asked us to test the samples. We found 
 the rejected white butter as sweet and fresh as could be desired, and worth 
 twenty per cent, more than the other, according to our taste. The other, 
 
Sec. 28.] THE DAIRY. 453 
 
 however, was pretty to look at. It was of a deep yellow hue, but we at 
 once declared that it was made so by aniiatto. " Yes," said the grocer, 
 "you are right. That butter was made to order for me for just such cus- 
 tomers as that woman, who do not know good butter by the taste — they 
 judge only by looks. It actually cost me two cents a pound less than the 
 other. You saw how I sold it." 
 
 A butter-maker, writing to the author about " coloring butter to order," 
 says : 
 
 " We think you Kew Yorkers possessed of remarkable tastes, if you really 
 prefer butter made yellow to order instead of that of a natural color, though 
 perfectly sweet. If it is the color instead of the rpiality that you care.for, 
 we shall have to solicit a sample of the shade desired, and order more dye- 
 stuff. "We shall have to make butter for home use and for city use, as no 
 one in the country will eat colored butter in winter except as the milk . 
 colors it. There is but very little in the country at this season (hat an- 
 swers tlie orders from the city, except such as has been fixed up to suit j'our 
 market." 
 
 Now, butter-eaters, you hear how yellow butter is made " fresh from the 
 cow" in winter, and how much you pay for the privilege of eating " anuatto 
 and other dyestuffs." 
 
 510. Rules for Salting Batter. — First, none but the very purest rock-salt, 
 or manufactured salt, prepared especially for the dairy, should ever bo used. 
 An experienced Scotch dairyman says: 
 
 "Take the best crystal salt, wash it, dissolve, strain, settle, and turn off; 
 boil it down in some perfectly clean iron vessel, skim as boiling ; when 
 stirred ofl" dry, it will produce fine salt, -white as the drifting suow, which, 
 if stirred up in a glass of water, will produce no sediment, and will be dis- 
 tinct from any mineral or other possible impurity." 
 
 Three experienced dairywomen in Berksiiire County, Mass., give the fol- 
 lowing rules for quantity : 
 
 " No. 1. A teacupful of salt to six pounds of butter. 
 
 "No. 2. One pint of salt to fifteen pounds of butter. 
 
 " No. 3. An ounce of salt to a jjound of butter." 
 
 Salting the cream before churning has been advocated as a good 
 practice. To every quart of cream, as it is skimmed and put in the pot to 
 accumulate until sufficient for churning, add a tablespoonful of salt. It 
 is stated that the time of churning is very much lessened by salting the 
 cream. 
 
 511. Packing and Preserving Cutter. — A patent has been granted to W. 
 Clark, of London, England, for a new method of treating butter. The but- 
 ter is worked in the usual manner, and is then placed between linen cloths 
 and submitted to severe pressure, which removes the whey and water. It 
 is then covered with clean white paper, whicli has received a coating on 
 botli sides with a preparation composed of the white of eggs and fifteen 
 grains of salt to each egg. Tlie paper is dried, and then heated before the 
 
4:54 DOMESTIC ECONOMY. [Chap. IV. 
 
 iire or with a hot iron just before it is applied to the lumps of butter. It is 
 claimed that butter treated in this way will keep two months without salt 
 in a cool cellar. Any ordinary cheese-press, or the presses accompanying 
 the portable cider-mills, now common, will answer the purpose. Pressing 
 removes the w^ter, and the prepared paper excludes the air. 
 
 Earthen jars, made of the size and shape of a fifty-pounds tub (not a 
 fii-kin), and put in a wooden tub, made to fit, with a head in each end, are 
 reconunended as an improvement for packing butter. If desirable, the 
 wooden tub may be made large enough to fill with salt between the two, or 
 can be made close. The heads should be made close to the butter-pot in 
 either case. Butfer jDacked in this way will keep sweet any length of time, 
 if well made, while in the present mode of packing, in nine cases out of 
 ten, it will taste of the tub after being packed two months. The first cost 
 of the two is about one dollar, and after being sent to market, they can be 
 returned a distance of 300 miles at a cost of about thirty cents. We fear the 
 expense of this improvement will jn-event its general adoption, though we 
 can perceive no reason to doutt its efficacy. 
 
 There is no doubt that if butter could be rendered absolutely pure, it 
 would keep, if excluded from the air, as well as sweet-oil. That it is hardly 
 ever pure may be shown by a sample melted, and put in a bottle, to stand a 
 few hours in a warm place, when the oily part will float upon the top of 
 water or other impurities it may contain. 
 
 512. How to Cool Butter without IcCt — The following plan of cooling but- 
 ter is founded upon the scientific principle of cooling a body by evapora- 
 tion. Fill a deep plate or fiat dish with water, and in that set a trivet, such 
 as are often used upon the ironing-table, to hold a plate of butter above the 
 water. Cover the butter-plate with a porous, earthen fiower-pot that must 
 have its edge immersed in water, and a cork in the hole in the bottom. 
 Now dash water uj^on the pot, and repeat several times as it evaporates 
 during the day, kecjiing it in a cool place, and at supper-time you may 
 bring your butter to the table as delightfully firm as you would from an 
 ice-house. 
 
 513. Milking by Machinery. — If anything lias been or may be invented to 
 relieve woman from tlie tiresome labor of milking, it will be hailed with in- 
 tense satisfaction. AVe therefore chronicle the fact of the recent invention 
 of a milking machine. The manner of its construction is simple enough. 
 It consists of two diaphragm putnps made of tin and India rubber, so ar- 
 ranged as to be easily taken apart for washing. The teat-cups are made 
 tapering to fit any size, and attached by flexible joints, so as to be spread 
 apart to suit wide-spreading teats, or those more contracted. It is possible 
 that it will prove a very useful invention. If so, we presume that farmers 
 will hear more of it. 
 
 The machine is attached to a pail, and set on a stool under the udder, the 
 four teats inserted in four tubes, and the pump operated, and the milk drawn 
 and conveyed by a conductor into the pail, the inventor says in a maivel- 
 
Sec. 28.] THE DAIRY. 455 
 
 ously short time — say three minutes for an ordinary cow ; milking entirely 
 clean, without injur}' and to her advantage, as it is beneficial to have the 
 work done quickly, and the machine is intended to do it quicker than it is 
 possible by hand. It is said also that cows gently stand this machine milk- 
 ing; the contrivance is ingenious, and will work. Its practical utility we 
 can not vouch for. 
 
 514. How to Make Cows give Down. — We have often heard that one man 
 could lead a horse to water, but two could not make him drink. The great 
 mistake of most people in the management of hoi-ses, cows, and even men, 
 is trying to make them do things by force instead of milder means. The 
 best way to make a cow give down is to coax her. Patience and perse- 
 verance will generally overcome the difficulty and effect a cure. We have 
 seen cows that had been trained to being fed Avhen milked until they would 
 only give down when bribed to do so. Strapping up the fore leg of a cow 
 with a strap slipped over the bent knee so that she can not walk until 
 milked, will sometimes cure her refractory disposition. If a cow will not 
 give down by gentle means, it is of no use to try to make her do it. 
 
 515. Milk Farms— Product, Price, Proflt. — Milk for Cities— foudeased Miik. 
 — The entire business of many farmers, near cities, is producing milk for sale. 
 It is sent by railway more than 100 miles. The average value upon I lie 
 roads that supply New York may be three cents a quart, ranging about as 
 follows, as a general thing: for five months, at 2 cents; one month, 2i cents ; 
 two months, 3 cents ; four months, 3i cents. Freight will average two 
 cents a quart, besides a great loss of cans. It costs the farmer most to pro- 
 duce milk in April. The cost of winter feed, 5 lbs. of meal and 15 lbs. of 
 liay per day. The annual average product of good cows would be fCO each. 
 If cream only is sold, say 10 quarts per Aveek at 15 cents, and 9 lbs. of 
 " skim cheese" at 8 cents, will make a cow yield $2 22 per week. 
 
 The yield of milk of extraordinary cows has been, for one, 15 i quarts a 
 day for 150 days; for another, li^ quarts a day for six months, sold at 3i 
 cents a quart, producing $107, from one cow, fed on grass and meal. 
 
 The income of an Illinois cheese and butter dairy, owned by Mr. Savory, 
 of Do Kalb County, is given as follows, in a poor, dry season : 10,500 pounds 
 of cheese, at 10 cents, $1,050 ; 500 pounds of butter, at 14 cents, $70 ; 50 
 calves, at $1 50, $75 ; whey and sour milk (estimated), $50 ; total income, 
 $1,245. Dr. : 50 cows — to getting 100 tuns of ha}', $150 ; care, milking, etc., 
 $200; two hired girls, 30 weeks, and board, $180; interest on cash value of 
 cows, $100. Total cost, $630— $24 per cow; and taking value of feed and 
 labor into account, was perhaps as profitable as a New York milk farm. 
 See 1 41, etc. 
 
 Condensed Milk. — There is one metiiod of sending milk to the cities, 
 lately adopted, that will enable farmers living beyond the limit of shipping 
 fresli milk, to send it to market. It can bo done upon the same principle as 
 associated cheese dairies. See T[ 518. Tlicre are two modes: the product 
 of one, called " condensed milk," resembles rich, thick cream ; the other, 
 
456 . DOMESTIC ECONOMY. [Chap. IV. 
 
 called " concentrated milk," resembles and is composed in part of dry, white 
 sugar. The former has nothing added, but much taken away. 
 
 The process of condensing milk was invented by Gail Borden, Jun. (him- 
 self an octogenarian). The first manufactory was established at Burrville, 
 Litchfield Co., Conn., if we remember rightly, about 1854:-55, and is still in 
 successful operation, conducted by "Wm. Borden. Another establishment 
 has since been started at "Wassaic, Dutchess Co., N. T., on the Harlem Rail- 
 road, 85 miles north of JSTew York. This is conducted by the inventor him- 
 self, whose residence is at that place, where parties desirous to commence 
 similar operations can obtain the necessary infornjation. The jaroduct of this 
 invention furnishes to residents in cities who have a taste for pure milk all that 
 they can reasonably desire. The process of condensation not only separates 
 the water from the more solid elements of the milk, but absolutely frees it 
 from all impurities, even including the unpleasant odor that is usually com- 
 bined with the milk of cows, and which sometimes, when they are unhealthy, 
 is exceedingly oflTonsive. Samples of milk from all the dairies are constantly 
 subjected to tests to indicate the quality and detect impurity. As it is brought 
 in from the farms, it is emptied through fine strainers into tin cooling vats. 
 These must be placed in running water or cooled with ice. The first process 
 in the operation of condensing milk is to free the natural milk of all its animal 
 heat; and during this cooling, if there is any sediment that was not removed 
 by the strainers, it is found in the bottom of the vats and rejected. The milk 
 is then heated by steam nearly up to the boiling-point. This brings up a very 
 small per-centage of cream that makes butter. The milk is now ready to com^ 
 inence the process of condensation, and is drawn by an e.xhaust-pipe into a 
 steam-boiler heated by coils of pipe which raise the temperature to a given de- 
 gree, converting the water into vapor which fills the upper part of the boiler 
 from which it is pumped oflf ; and as it is discharged into the air, it gives out 
 a fetid odor almost equal to the swill-milk of New York. This punipmg is 
 continued until this odor is exhausted, and until so much of the water has 
 been separated from the milk, that when it is once cooled again it has the 
 appearance of thick, smooth cream. It is then packed in cans for transporta- 
 tion ; and we see no reason why milk could not be put up in this way upon 
 the prairies of Illinois as well as the pastures of Dutchess County. 
 
 For many purposes the condensed milk is used in the same condition ; for 
 ice-creams, eating upon fruit, and many culinary purposes, it is delicious. 
 
 When milk is desired in its ordinary condition, add water until the con- 
 densed milk is thoroughly combined with it, and it is like good, rich, fresh 
 milk, except that it has lost a little of that piquancy which is found in some 
 " pure milk " and which some city people seem to relish. 
 
 The advantages to the farmer of this invention he will readily understand. 
 A milk-condensing factory established in any neighborhood, as it may be 
 wherever tliere is a j^ure stream of M-ater, would prove as great a conveni- 
 ence as a grist-mill, and more advantageous, because he can sell his grain 
 in the rongh state, but can not dispose of his milk unless it is converted mto 
 
Sec. 2R.] the DAIRY.— CHEESE-MAKING. 457 
 
 some condensed product. Tlic advantage of selling milk instead of convert- 
 ing it into butter or cheese, every farmer can calculate for himself, upon the 
 basis that it will require four quarts of milk for one pound of cheese, or 
 fourteen quarts for one pound of butter, taking the average product of cows 
 and average process of manufacture. If intended for a condensing factory 
 in the immediate neigliborhood, the fanner would be enabled to carry the 
 milk directly from the stable. 
 
 Another advantage would bo gained in the saving of cans, many of which 
 sent to cities are lost in spite of all the care of the owners. The establish- 
 ment of such factories will open up new fields of industry in many parts of 
 the country, adding wealth, comfort, and happiness to farmers' families. 
 We urge them all to consider the subject, and comi^are with other products 
 of the dairy this new one of condensed milk. 
 
 516. Cheese — How to Make It. — ^The following directions are given by Ed- 
 win Pitcher, of Martinsburg, N. Y., a noted maker of good cheese : 
 
 " The way to make a mild, rich, good-flavored, sound cheese is to work 
 the curd carefully, so as not to start the white whey, or, in other words, 
 work out the cream ; second, cook it well ; salt even, and enough to make it 
 good flavored ; press it well, and keep it cool and dry when made. A 
 neglect in part will spoil the whole. We set our milk 86 degrees, as nearly 
 as we can, and put in rennet enough to bring the curd in half an hour. 
 
 "We use a cheese-cutter. Cut the curd carefully over once, and then let 
 it stand fifteen or twenty minutes, till the whey begins to rise ; then work it 
 tine with a cheese-cutter; then put hot water enough under the tin vat to 
 raise the heat to 90 degrees. Stir often, so as not to let it pack down. We 
 then dip off about one third of the whey, and increase the heat to about 
 102 degrees, and keep it at that heat till it is well cooked, keeping it fine all 
 the time. When it is done, it will fall apart in the hand like wheat. We 
 dip out of the tin vat (when it is cooled down to 90 degree?) into a sink, and 
 when the curd is dry put in a teacupful of salt curd, enough to make fifteen 
 pounds after it is pressed. If the curd is a little too soft, put in a little more 
 salt to harden it. We cool in the vat, in hot weather, by putting in cold 
 water under the vat, to 90 degrees, before dipping out. I think it hurts the 
 cheese very much to dip it out too hot. 
 
 " My cheese-room is plastered, and I let down my windows from the top 
 in hot weather, and I have a ventilator in the center overhead. The floor 
 is matched and made tight, so as to shut up the room in cool weather, with 
 seven trap-doors to let in the air when necessary. I think it essential, 
 in making good cheeses, to keep them cool. The cheese-room should never 
 be over 75 or 80 degrees, and it is better not over 70 degrees. I use cold 
 water on the floor, and a large piece of ice in a pan on the counter if the 
 weatiier is too hot. Keeping cool is a great cure for almost everything. It 
 saves cheese from fermenting and becoming strong. You can not very well 
 cook your cheese too much in May or June, and you must be sure and keep 
 your rennet sweet." 
 
458 DOMESTIC ECONOMY. [Chap. IV. 
 
 A first-rate cbeese-maker of Herkimer County, N. Y., gives the follow- 
 ing as her practice : 
 
 " I set the milk at 90 degrees, in spring and fall, and 8G degrees in hot 
 weather. Heat np tliree times — first 90 degrees, then 95 degrees, and last 
 100 degrees. I put about one tcacupful of salt to sixteen pounds of curd, 
 and use much care in breaking it ui^ and working ; cutting at first with a 
 dairy -knife of four blades, and using the knife Avitb one band during the 
 whole operation, taking particular care not to scpieeze the curd in any way, 
 but pass one hand imder, and lifting gently, and letting it fall off the hand 
 and between the fingers, and with the other keep the knife in motion in the 
 curd, cutting it as fine as possible by tlie time it is ready for salting. 
 
 "Thought and care are essential in all the various operations. Intense 
 interest and anxiety are necessar}^ in order to do all tliese things well, for 
 they influence the texture, flavor, and quality of the cheese. 
 
 " Rennet. — The stomach of the- calf should be taken when empty (no 
 curd in it) — care taken not to get dirt on it — and, without rinsing or wash- 
 ing, salted inside and out with one teacupfiil of salt to a reimet, and placed 
 in an earthen dish. It should lie in the salt two days, then be stretched 
 and dried upon a stick in the form of a hooj?. When dried, take it oil" tlie 
 stick, and place it in a tight sack for use. Those prepared one season are 
 not to be used till the next. 
 
 " When rennets are to be used, put three in an earthen vessel ; then take 
 two gallons of water, put one cpiart of salt in it, boil and skim, and cool till 
 milk-warm. Tlien pour it upon them, and in one week the liquor will be 
 fit for use. One teacupful of it will curdle the milk of two milkings from 
 fifteen cows, fit to break up in forty minutes." 
 
 An experienced cheese-maker of Warner, N. II., gives her method as 
 follows : 
 
 "I first scald the tub, then strain the milk into it as soon as brought from 
 milking. Next put in sufiicient rennet, the quantity depending upon the 
 quality to fetch the milk to a curd in from forty to sixt^- minutes. The curd 
 is then dipped carefully into the basket for draining until the next morning. 
 The morning's milk is prepared in the same manner (after the thorough 
 scalding of the tub). The curd, when formed, is dipped in with that of the 
 previous evening; then left to drain, with an occasional stirring with a knife 
 or slice. I prefer a knife, as it is not so likely to injure the curd. When 
 sufficiently drained, which it will be by nine or ten o'clock if properly at- 
 tended to, I tie together the ends of tlie cloth, and liang in the cellar until 
 the succeeding day, when the curd of that day is prepared in the manner of 
 the previous day's curd. It is now ready for scalding. I pour boiling hot 
 water, at the rate of one gallon for ten pounds of curd, into the tub ; next 
 slice in the curd from the basket, handling it carefully, so as not to disturb 
 the white M'hey. The curd is next brought from the cellar and sliced in the 
 same manner. It is put in lastly, for being older it does not require as much 
 scalding as the newer curd. I now let it stand from five to ten minutes. 
 
Sec. 28.] THE DAIRY.— CHEESE-MAKING. 459 
 
 from the time the last slice is dropped in, then dip back into the basket, curd 
 and water together, to drain. I check and stir it up with the knife four or 
 five times, when it is ready for grinding. The mill is placed upon tlie 
 cheese tongs over the tub ; tlio curd is then sliced into the mill and ground, 
 wlien it is ready for the seasoning, which consists of a common-sized teacup- 
 ful of rock-salt and one teaspoonful of saltpeter for every twenty pounds of 
 curd. It is thoroughly mixed — not squeezed —with the hands. It is then 
 ready for pressing, which is done gently until night, when the cheese is 
 turned, cloth changed, and put back to pressing with sufficient weight, where 
 it remains until the next cheese is ready for the press." 
 
 We find in the best large clieese-dairies of this country, that where the 
 cTird is scalded by steam, that the right temperature varies among different 
 cheese manufacturers; thus Mr. O. S. Cumings, of Trenton Falls, N. Y., 
 scalds to lOi degrees; Mr. A. Coon, of Russia, from 108 to 110 degrees ; Mr 
 W. Buck, 102 to 101 degrees; and Mr. S. N. Andrews, 100 to 102 degrees. 
 
 517. Englisli fIseesc-Makias. — The method of heating the milk by the ap- 
 plication of steam to the cheese-vat, is a great improvement over the English 
 method. So is the method of separating the curd from the whey by strain- 
 ing it through a clotfi much more expeditious. In Cheshire the whey is re- 
 moved by pressing down a flat-bottomed pan gently on the curd in the 
 cheese-tub and allowing it to fill. When the curd is thus partially freed 
 from the whey, it is again gently broken and allowed to settle and sep- 
 arate and the whey is boiled out slowly, the curd being placed on one 
 side of the tub, which is slightly raised, and a board is placed on the curd 
 with heavy weights on top to press out the whey. 
 
 The curd is then cut into pieces six or eight inches scpiare, and again 
 pressed with heavier weights. When as much whey as possible is removed 
 in this way, the curd is placed in a vat and gently broken. It is then put 
 under the press and a slight pressure applied at first, which is gradually in- 
 creased till no more whey can be pressed out. To facilitate the flow of the 
 whey, the cheese is pierced "with skewers. This preliminary pressing occu- 
 pies four or five hours. The cheese is then taken out of the press, broken 
 up again very fine, salted, put up in the vat again, and pressed under a 
 heavy press for three or four days, clean and dry cloths being put round the 
 cheese as the old ones become wet. 
 
 This is a tedious process, and we think some of the operations of the 
 American process might be adopted in England with advantage. The es- 
 sential point of difference is the scalding ; this renders less salt and less 
 pressing necessary. There can be no doubt that the preserving action of the 
 salt is greater in proportion to the absence of whey in the cheese when it is 
 applied ; and it is for this reason that the Cheshire dairymen press their 
 curd before the salt is added. Many people prefer cheese made by the 
 English process. 
 
 51S. Cheese-Making by Assoriated Interest in manufactories. — This system 
 was originated, we believe, by Jesse Williams, of Rome, Oneida, Co., N. Y., 
 
460 
 
 DOMESTIC ECONOMY. 
 
 [Chap. IV. 
 
 somewhere about the year 1850. Since that time it lias been greatly extended 
 in Central and Northern New York, and considerably in Northern Ohio. It 
 is like the manufacturing of any other farm produce, except that this is 
 usually carried on upon joint account of the producers of the raw material. 
 The success of this mode of cheese-making has now become fully cstablislied. 
 It not only lessens the expense of manufacture, but improves the quality of 
 the cheese. The establishments vary greatly in size, using the milk of from 
 one hundred to fourteen hundred cows. The business has become so im- 
 portant that regular organizations have been effected, both in New York and 
 Ohio. To enable our readers to consult with those already engaged in the 
 business we give the following list, naming the owner or superintendent and 
 location of a number of establishments represented in a convention held at 
 Rome in January, 1864:. This list, though representing only a portion of the 
 dairy interest, shows how the subject has affected the minds of farmers in 
 the central part of New York. 
 
 Names, Factories located. Cows. 
 
 Hugh Quinn Oneida Co 527 
 
 Williams, Adams & Dewey . Oneida Co 350 
 
 G. W. Davis Oneida Co 380 
 
 F. Clark Oneida Co 350 
 
 Hiram Brown Chenango Co . . . COO 
 
 James Rathburn Oneida Co 707 
 
 Cliarles Rathburn Oneida Co 125 
 
 J. W. Brooks Oneida Co 320 
 
 G . E. Morse Madison Co G50 
 
 J. Greenfield Oneida Co 300 
 
 D. Ellis Warren, Mass. . . 600 
 
 Isaac Shell Herkimer Co. . . . 600 
 
 A. Anstead Oneida Co 500 
 
 J. G. Coates Oneida Co 300 
 
 Henry Hill Oneida Co 500 
 
 G. W. Wheeler Oneida Co 200 
 
 Gold Creek Factory Herkimer Co. . . COO 
 
 Ccrllins' Factory Erie Co 1,000 
 
 New Woodstock Factory. .Madison Co. . . .1,200 
 
 F. Smith Oneida Co 575 
 
 Crosby & Huntington Oneida Co 510 
 
 G. B.Weeks Oneida Co G40 
 
 H. L Rcsc Oneida Co 1,000 
 
 B. F. Stevens Lewis Co 800 
 
 T. Tillinghast. Cortland Co BOO 
 
 Kenny & Frazer Cortland Co 1,400 
 
 Rome Cheese Manuf. Ass . Oneida Co 624 
 
 Wright & Williams Oneida Co 550 
 
 Whittaker & Curry Oneida Co 500 
 
 D. ITiomas Oneida Co 500 
 
 Names. Factories located. Cows. 
 
 L. M. Dunton Lewis Co 800 
 
 Asel Burnhani, Jr Chautauque Co. 500 
 
 Hanck, Wilcox & Co Chantauque Co. COO 
 
 Clear Spring Factory; Chautauqua Co. COO 
 
 A. L. Fish Herkimer Co £00 
 
 Sehnser & Davis Fulton Co COO 
 
 Caydatta Cheese Factory . .Montgomery Co. (iOO 
 
 West Eaton Factory Madison Co 6(J0 
 
 Miller, Fowler & Co Oneida Co 800 
 
 R. U. Sherman Oneida Co ISO 
 
 Jerome Bush Lewis Co.. 
 
 A. S. King Oneida Co. 
 
 S. Allen Oneida Co. 
 
 700 
 2P0 
 500 
 
 Alfred Buck Oneida Co 470 
 
 Brown & Co Madison Co 800 
 
 F. A . Norton Madison Co 500 
 
 S. Conan Madison Co COO 
 
 Savory & Coventry Madison Co CC(J 
 
 Kirkland Cheese Co Oneida Co 80() 
 
 J. L. Dean Oneida Co 300 
 
 Colosse Cheese Factory .... Oswego Co £00 
 
 Harvcv Farrington Herkimer Co . . . 470 
 
 J. H. "Hiibb.ird Oneida Co 400 
 
 David Yourdeu Oneida Co 150 
 
 Ezra Barnard Oneida Co 220 
 
 Asa Chandler Oneida Co 270 
 
 X M. Farnhara Lewis Co 897 
 
 David W. Wilcox Oneida Co 750 
 
 Levi Tanner Oneida Co 950 
 
 E. S. Bennett Oswego Co 250 
 
PLATE XIV. 
 
 (Page 461.) 
 
 This picture illustrates the subject upon which the chapter treats, 
 where it is placed as a sign is sometimes shown, to indicate the 
 things within. It is the sign of the garden. In it were grown the 
 cabbage, corn, cucumbers, turnips, tomatoes, pumpkins, potatoes, 
 beets, carrots, parsneps, egg-plants, ornamental gourds, onions, and 
 so on of all the rest. It indicates some of the subjects of this chap- 
 ter, but not all. It would require a large picture to do that. So, 
 after taking a glance at this, look well at every one of the next 
 hundred pages. Every paragraph about " The Garden and its 
 Fruits" has a deep interest to every reader. The picture is only a 
 sort of wayside resting-place for the weary reader's eye. It is to 
 amuse and lead the traveler on to more substantial fare. 
 
r 
 
CHAPTER V. 
 
 THE GARDEN AND ITS FRUITS. 
 
 SECTION XXIX.- 
 
 -PLEASUllE AND PllOFITS OF GARDENING- 
 AND HISTORY OF VEGETABLES. 
 
 -ORIGIN 
 
 T is an error, and one that prevails to a considerable 
 y extent, to suppose that all labor bestowed upon a gar- 
 den is so much " labor lost." Many farmers pass through 
 a long life without ever having anything M'orthy of the 
 name of garden — a name which signifies: "1. A piece of 
 ground appropi-iated to the cultivation of herbs or plants, 
 fruits and flowers. 2. A rich, well-cultivated spot or tract 
 of country ; a delightful spot." 
 
 And colloquially, in the Northeastern States, a garden is 
 a spot not always delightful — where all the potatoes, beets, 
 turnips, cabbages, onions, etc., grown for family use, are 
 planted. It also includes a small patch of strawberries, a 
 row of currants along the fence, and sometimes a few flowers. 
 Often, however, it is as destitute of the latter as it is of all 
 the other attributes of a "delightful spot;" yet the vegetable garden is one 
 of the necessities of life that no farmer can afford to do without. As a gen- 
 eral rule, the garden of a farm should be in the form of a parallelogram, 
 running north and soutli, with orchard trees and shrubbery at the north end 
 and a grass-plat at the south end, and everything should be planted in long 
 rows. This admits of plowing the ground, with a place to turn at each end, 
 both in breaking up the soil early in the spring and in after cultivation. It 
 is just as well to have a row of beets twenty rods long as to have twenty 
 rows of one rod — indeed, much better, because you can do more in one hour 
 in deepening the soil sufficiently for beets with a stout horse than a man can 
 in a day with a spade. Even in a spaded garden, the old fashion of raising 
 beds and deepening alleys has come to ns from Europe, particularly Ireland, 
 where there may be a necessity for the practice ; there is none here. It be- 
 longs to the same family of antiquated notions as hilling up Indian corn. It 
 is a foolish notion. 
 
 Although a garden should be rich, it must not be made excessively so 
 with stable manure. We believe a continuance of any one kind of manure 
 to excess will render a soil unfit for crops in general. For an over-rich gar- 
 den soil the best remedy is lime, and the best way to apply it is in the form 
 of "lime and salt mixture," which is made by dissolving salt in water until 
 
462 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 it will dissolve no more, and then using that brine to slake lime. A busliel 
 of salt may thus be mixed with throe bushels of unslaked lime and the mix- 
 ture applied at the rate of 30 to 100 l)ushels of the slaked lime per aero. If 
 the lime after slaking is kept in a pile under a shed, the outward portion 
 effloresces, and it may be raked off and put away in barrels as it accumu- 
 lates. The lime is then in the best piossiblo condition for use. 
 
 Of the profits of gardens there can be no doubt. Any one who is fa- 
 miliar with the operations of the market gardeners near large cities, knows 
 that the business is more j^rofitable than ordinary farming. There is no 
 reason why many other persons should not enjoy similar profits. 
 
 There is not one village in ten in all (he Eastern States that is large 
 enough to support a locomotive butcher that would not support a good 
 market garden from (he first year of its establishment, the produce being 
 sent around to the houses in the same way that the butcher sends his meat. 
 Of course, all the waste or refuse of the garden must be fed to the cow, 
 pig, and poultry, and of course the owner would grow wealthy faster than 
 the owner of a large farm cultivated in the ordinary way. 
 
 The great secret of success in market gardening lies in the succession 
 of crops. Heavy manuring, thorough cultivation, and a good market arc 
 of course important adjuncts, but all of these will not give maximum re- 
 sults without the gardener's skill in keeping the ground fully occupied ; and 
 in that, more than in all other things, is where not only gardeners, but 
 farmers, fail. They keep too much unoccupied land, allowing a grain crop, 
 oats, for instance, to be followed by a crop of miserable weeds more wortli- 
 less than it is easy to imagine, for they are more exhausting than the grain, 
 and of no use to man, animal, or soil. Land should never be left idle. In 
 a well-arranged market garden one thing succeeds another so rapidly that 
 one row of the first crop is off to day and its successor growing in its place 
 to-morrow. The owner can not aflbrd to wait till all is off, because by 
 planting one after the other, he has the ripening crop for sale in the same 
 order, and thus secures the whole value of the manure. 
 
 The work in a market garden properly begins in autumn. There are 
 several vegetables that must be started at this season, and all the ground 
 should be manured either then or during the winter. Much of the success of 
 the garden pecuniarily depends upon having its products a little anticipate 
 the usual season. Potatoes early in the season are worth two dollars a 
 bushel. Three weeks later they are down to a dollar or less. There is a 
 like falling off from most other articles, though hardly anything fails to re- 
 turn a paying price. 
 
 Spinach is sown in September and October to furnish cuttings in April 
 and May. Cabbage is sown about the same time to furnisli plants for the 
 cold frame, which are kept through (he winter, transplanted in April, and 
 furnish heads in June. They are put into the frame in tows very near to- 
 gether in November, and when the winter sets in, are covered with boards, 
 removing only in mild weathci- and increasing light and heat as spring ad- 
 
Seo. 20.] PLEASURE AND PROFITS OF GARDENING. 463 
 
 vancc'S, imlil the open ground is in condition to receive them. These are 
 called cold-frame plants, and furnish heads about two weeks earlier than the 
 hot-bed plants started in March. The best varieties for this early crop are 
 the Earl}- York and the Wiiinigstadt, which makes a very solid head of ex- 
 cellent quality. 
 
 Lettuce is also sown in the fall, and with a little protection keeps well 
 through the winter. About the first of March operations commence witli 
 the hot-beds. These are prepared with various quantities of manure, ac- 
 cording to the heat required. The beds are generally from four to six feet 
 wide, for convenience in attending to the plants. They are covered with a 
 sash about three feet wide, the glass being not more than seven by nine. 
 In these beds a great variety of plants are forwarded — cabbage, tomatoes, 
 peppers, egg-plants, and other early plants. 
 
 The whole ground is covered as soon as it is sufficiently warm, and ar- 
 i-anged so as to allow a succession crop. In the first course come radishes, 
 spinach, lettuce, cabbage, potatoes, ])eas, turnips, corn, kohl-rabi. 
 
 Early potatoes are off in time for late cabbage ; early radishes in time for 
 celery, sweet corn, or cabbage. Early peas are always followed by a crop 
 of something that will ripen before frost. Early corn may be followed by tur- 
 nips, or by spinach for spring, which will be off in time for tomatoes. Beets 
 are followed by celer}', and pej^pers arc transplanted among the heads of let- 
 tuce a week or two before they go to market ; or squashes or cucumbers are 
 planted. Quassia chips, steejjed in hot water, and that sprinkled upon the 
 vines, are fonnd to be eflicient protection against bugs. Carrots form a good 
 succession crop to the onions. Tliey are sowed between the rows about the 
 middle of June. Two crops, and sometimes three, are always grown from 
 the same plot of ground in a season. Nothing but ignorance of these facts 
 prevents a great many small owners of land in the vicinity of small towns 
 from establishing market gardens for the supply of those who can not, or at 
 least do not, grow a supply for themselves of the most common sorts of gar- 
 den vegetables. It is a fact but little appreciated, that a very large portion 
 of those who have lived all their lives upon a farm, and made its cultiva- 
 tion their oidy business, are utterly incompetent to manage a garden — that 
 is, a garden intended for supplying any market with vegetables. 
 
 Illustrative of the pleasures and profits of gardening, we insert a report 
 of a visit of the author to tha garden of an avtlst, to show what an un- 
 professional gardener may do upon a little spot of ground. Geo. H. Ilite, 
 of Morrisania, lives upon a village lot, and is by profession an artist. Not 
 an artist in gardening — not one who professes or pretends to practice horti- 
 culture upon a scientific or artistic plan. Nor do I mention his garden as a 
 model of taste and skill which may be imitated by the wealthy at great ex- 
 pense. I mention it rather as the garden of a mechanic, and just such a one 
 as a great many mechanics or professional men might have if they would — 
 if they only knew how. I mention it full of hope that it may be the moving 
 cause toward inducing other men who have daily employment, as this one 
 
464 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 has, at some trade or profession, to devote a little time, some money, and a 
 great deal of sound common sense in the cultivation of the little half-acre 
 plats that we often see surrounding village residences, which are mere ex- 
 amples of the utter uselessness of land except to enable the owner to show 
 how bari'cn and worthless he can make it. There is no need of this idle use 
 of land. There is no reason why every owner of a village lot should not 
 revel in all the luscious fruits of tlie season, and treat himself and liis friends 
 to an occasional bottle of wine, equal to any that he could purchase for a 
 couple of dollars, just as Geo. II. Hite is now able to do, free of expense; 
 for his garden j^ays its own way, and a little more, of all cost of cultivation, 
 leaving him iii the enjoyment of its delicious fruits, fresh from tlie earth, or 
 their products preserved to continue almost as fresh throughout the winter. 
 And he is not by profession nor early education a gardener, being a native 
 of a State less noted for its horticultural skill and fruits tlian for its pro- 
 ductions of great corn crops, great bullocks, great men — physically and in- 
 tellectuall}'. Mr. Ilite is a Iventuckian, and some of his early years were 
 spent in painting portraits in Louisiana. Tlien he came to Now York, and 
 during otiier years acquired fame as an artist upon ivorj'. Then, some years 
 ago, like a sensible man, lie began to ci'eate a home for liis old age, wlien it 
 comes ; it is only in the blossom now ; and tliat home I have visited, and I 
 wish I could take every one who hears or reads of it with me to learn what 
 an artist has done, and what a mechanic, a lawyer, a doctor, or anybody 
 else might do in a garden upon a village lot. Will tlie sluggards who sigh 
 after an abundance of fruit, and envy tliose who have, yet take no steps to 
 have it themselves, believe me when I tell them that in this garden there 
 are grapevines of such extent, luxuriance, and fruitfiilness, that several bar- 
 rels are required to hold the juice of the surplus of the crop? Tlie fruitful 
 arbor that extends some fifty feet from the rear of the house, affords a de- 
 lightful shady spot, which, independent of the fruit, is well worth its cost. 
 Isabella grape wine, five years old, with no addition whatever to the juice 
 of the grape, is excellent. Strawberi-ies grow to jierfectiou in this garden ; 
 and as a cultivator of currants, Mr. Hite excels. Not merely a few basket- 
 fiils for family use, but bushel after bushel, red, white, and black. The ber- 
 ries of the true red Dutcli variety are upon the average as large as the cherry 
 currants under ordinary cultivation ; and as for productiveness, no state- 
 ment can convey an idea. To believe, you must see. And this is the result 
 of pruning. True, Mr. Hite follows the Scriptural injunction about a bar- 
 ren tree, to " dig about and dung it,"' with all of his trees, and vines, and 
 shrubs, and flowers, and table vegetables ; but with the currant the secret 
 of success is pruning. "Keep no old wood," is his injunction. Every 
 branch that has borne three crops must be cut away at the ground, having 
 been twice shortened in, by which the short fruit-spurs on the new M-ood 
 are always loaded, and the bunches growing close to the canes, so that they 
 look like ropes of red berries. To commence with a single plant, cut it 
 away close to the ground, to induce several vigorous shoots, instead of one. 
 
Sec. 29.] ORIGIN" AND HISTORY OF GARDEN PLANTS. 465 
 
 growing tree-shaped. Next spring shorten all these canes, and let the fruit 
 grow below and new shoots above, and next spring shorten these again. 
 Some of Mr. Kite's three-year-old plants are now five or six feet high, so 
 loaded with fruit that they have to be trained to stakes, which, by-thc-by, 
 is the true way to grow currants. !Next spring these vigorous, fruitful 
 branches, all that are three years old, will be unsparingly cut away. It is 
 the secret of success. Meantime, new shoots come up in successive order 
 to taho their place. I have no doubt of the fact that currant bushes thus 
 treated, of the sour sort that are now growing neglected along many a gar- 
 den wall, untrimmed in half a century, may be made to afford a field crop 
 of more than two hundred bushels per acre of superior size and flavor tc 
 those grown in the ordinary waj-, and that the cost of production will be far 
 below twenty-five cents a bushel. The annual pruning would be the great- 
 est part of the labor, and, in the vicinity of this city, the wood cut away 
 would be worth nearh' the cost of cutting ; and in the country, where stone 
 chimneys and brick ovens are still fashionable, the brush, when well sea- 
 soned, would make superior oven wood. Besides what I have said of this 
 garden, there is much more to be learned from it, and that where it blos- 
 soms now, nine or ten years ago was a wilderness of wild bushes, blackber- 
 ries, and rocks, and that ho who has said " jiresto, change !" is not a magician, 
 but a very humble individual, with no more power to produce such change 
 than the most humble one of the mighty multitude who have an idea above 
 the gutter, with a will to work that idea out in the rich productions of na- 
 ture improved. 
 
 Besides the fruitful grapes I have alluded to, Mr. Hite has others, prin- 
 cipall}' of the Delawares, now growing beautifully; and so satisfied is lie 
 with the advantages of growing superior grapes, that he dug up a fruitful bed 
 of strawberry -plants to make room for more Delaware grapevines, which 
 he thinks will be the greatest wine-grape in America. Some of the surplus 
 products of his little plot of ground afforded the owner one year $iOO in 
 cash, which was more than enough to pay for hired labor and manure. Tliis 
 should encourage others to go and do likewise. I would have gone to this 
 man for my miniature portrait, but who would think of going to an artist 
 to learn horticulture? Yet I have learned, and in my opinion others niav, 
 from very unexpected sources. Let us try. 
 
 519. Origlu and History of some Common Garden Vegetables,— The history 
 of some of our fruits and vegetables is, in many respects, extremely cui-ious. 
 
 "The artichoke, we find, was so highly esteemed in Rome, that an arbi- 
 tary law was enacted to prevent commoners from eating it." 
 
 This statement shows the importance of calling all plants by their botanical 
 or scientific name, since we can not tell whether the writer means the 
 IlcliantJms ivberosvs (Jerusalem artichoke), M'hich is a plant of the sun- 
 flower species, or the artichoke which somewhat resembles a thistle the 
 Cynara scolyrmis, which grows the edible part at the top instead of the 
 bottom. 
 
466 THE GARDEN AND ITS FRUITS. [Chap. V- 
 
 The plant used for flavoring, called hasil, Avbicli now stands so lilgli that a 
 London alderman would spurn a basin of turtle made without it, was, 200 
 years before Christ, condemned by Chrysippus as an enemy to the sight and 
 a robber of the wits. Pliny says they sowed the seeds with maledictions 
 and ill words, believing that the more it was cursed the better it would 
 prosper. 
 
 Lettuce appears, from an anecdote related by Herodotus, to liave been 
 served at the royal tables of the Persian kings, five or six hundrea years 
 before the Christian era, but they only knew one sort, M'hicli was a black 
 variety. This esculent has been greatly improved by cultivation as well as 
 cabbage. We can remember when a head of lettuce would have been a 
 great curiosity, and the heads of cabbage fifty years ago were very unlike 
 merchantable cabbage-lieads of the present day. 
 
 Hint ajipears to have been used formerly for other purposes besides 
 making mint-juleps, which produce a disease which, in ancient times, mint 
 was used to cure ; for Pliny says, at a consultation of j^hysicians in his 
 chamber, it was decided that a chaplet of pennyroyal was better for gid- 
 diness and swimming in the head than one of roses. 
 
 According to Ovid, mint was used by the ancients to perfume their tables, 
 by rubbing the leaves upon them before serving the supper; and mush- 
 rooms, both edible and poisonous, were known to the ancients. They were 
 considered, when good, a great dainty \i\(\\ the voluptuous Komans ; and 
 one of the poisonous sorts Avas used by Agrippina to destroy lier husband 
 Tiberius Claudius. 
 
 Mustard, it will be recollected by Bible-readers, was cultivated in Syria 
 at the time of our Saviour, as it is mentioned in one of his beautiful parables 
 as being the least seed that was sown in the field. 
 
 Garlic and onions must have been in high favor as food at a very early 
 daj', since it appears that the Egyptians worshiped garlic, and were said to 
 wish that they might enjoy it in Paradise ; though the Greeks held it in 
 such abhorrence, that they regarded those who ate it as profane. The Ro- 
 mans gave it to their laborers and soldiers to strengthen them, and to their 
 game-cocks previously to fighting them; and the Israelites, while in tlie 
 wilderness, lamented the deprivation of these stimulating roots, to which 
 tliey had become so accustomed in Egyj^t. In this country, onions are eaten 
 by all classes, and in New York city, we have noticed, are greatly esteemed 
 in winter by the very poorest classes, particularly the dissipated. They are 
 not generally considered unhealthy, though no dyspeptic should ever touch 
 garlic or onions in any shape, particularly raw. 
 
 Parsnej)s were held in high esteem by the Emperor Tiberius, who im- 
 ported them annually into Rome from Germany, probably because they 
 grew much better in tliat colder climate, as they are greatly improved here 
 by remaining in the ground to freeze during winter. 
 
 Parsneps contain a large proportion of sugar; beer is made from tliem in 
 the north of Ireland, and wine, closely approaching the malmsey of Madeira, 
 
^0. id.] ORIGIN AND HISTORY OF GARDEN PLANTS. 467 
 
 is made from the roots. Marmalade, made -with parsneps and a small 
 quantity of sugar, is said to excite appetite, and to be a very good food for 
 convalescents. 
 
 Parsley was cultivated, as it is now in gardens, in the time of Pliny, and 
 appears to have been highly esteemed as a seasoning of food. 
 
 liadishes were so highly esteemed by the Greeks, that they made them 
 of gold to offer at the shrine of Apollo. If these were made of the size that 
 radishes are represented as growing in those days, we certainly should prefer 
 the counterfeits to the real ; for it is stated that they grew to the weight of 
 forty or fifty pounds. Probably they were an entirely different article from 
 our radishes, and perhaps were a culinary vegetable. 
 
 Beets were made for the same juirpose of silver, which shows the com- 
 parative estimation in which they were held. With us it is quite the 
 reverse. 
 
 7'iir/iij>s, too, do not seem to ha\o becu highly esteemed, since Apollo 
 only got wooden turnips, while he got gold radishes aud silver beets. This 
 was souiewhiit owing to climate, undoubtedly, for we have observed that 
 turnip.s arc not es'eemed in llie cotton States, except for the tops to be used 
 as greens. 
 
 Thijmc was planted in Greece, and thence imported into the Roman 
 H.alcL on account of its value as pasture for the honey-bees. 
 
 Water-cress was esteemed as ^ stimulating article of diet, as well in olden 
 time as at present, and was often eaten with salad to counteract its effects, 
 which were thought to be chilly. An old writer says : 
 
 " Water-cress is one of the most wholesome of our salad-herbs, and one of 
 the oldest in use. Its qualities are -warm and stimulating, the reverse of 
 nearly all other raw vegetables. Xenoiihon recommended it to the Persians, 
 and the Romans gave it to those whose minds were deranged. Hence the 
 Greek proverb : ' Eat cress, and have more wit.' It is an excellent anti- 
 scoibutic ; and a salad so easily produced, and so important to the health of 
 townspeople, can not be too highly recommended. The daily supply at 
 Covent Garden, London, is about 6,000 bunches, but it is said if twice as 
 many more bunches were brought in they would be all sold." 
 
 C-ahhage appears to have been used for food from a very early period, 
 and few vegetables have undergone greater improvements, from the original 
 sea-kale to the large drum-head cabbage, some of which have heads almost 
 as solid as turnips, and of twenty pounds weight. Germany, of all other 
 countries, grows cabbage for food most abundantly. It is considered a 
 necessity for every family to have a barrel or more of sour-kraut, which is 
 uiade by cutting the cabbage-heads into small shreds, with sharp knives or a 
 machine, which is i>ackcd in barrels with a little salt, and sometimes a flavor 
 of spice, and in this way it keeps (we can not say sweet) in an eatable con- 
 dition all winter, and is usually stewed and eaten with vinegar, in place of 
 other vegetables, with meat. 
 
 Asparagus is another sea-plant, very much improved by cultivation. The 
 
468 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 first time we hear of this vegetable is in tlie time of Cato the Elder, two 
 hundred years before Christ. The Emperor Augustus was very partial to it; 
 and at Eavenna it grew to such a size that three heads weighed a pound. 
 Mr. Grayson, of Mortlake, near London, has produced one hundred heads 
 that M'eighed forty-two pounds, jserhaps the largest ever known in Great 
 Britain ; and hundreds of acres around the metropolis are devoted to its 
 cultivation. The small heads are sometimes cut into pieces and boiled, as a 
 substitute for green peas. Medicinally, it is considered diuretic, and is said 
 to promote the appetite. It is considered antiscorbutic, and very good in 
 dropsical cases, but is avoided by those having tiie gout. The most extra- 
 ordinary virtue is that ascribed to it by Antoine Mizold, who says: "If the 
 root is put upon a tooth that aches violently, it causes it to come out without 
 pain." Our modern dentists will, we are sure, thank us for this infonnation, 
 if it is true. 
 
 Asparagus and cabbage arc botli benefited by the use of salt for manure. 
 For asparagus, there is no danger of using too much salt. It may be used 
 in a crude state, or dissolved, or in com2:)ost. 
 
 Carrots, we are told, originated, or at least, were first cultivated for food, 
 in Holland. Tliey are not only nutritious, but the pectic acid which they 
 contain has the eflect to gelatinize oilier food, lience they are used in soups, 
 making them richer. There is no root grown by farmers of quite as much 
 value for stock as carrots. They are ver^j, nutritious food for oiu' tables, 
 simply boiled, and only require a little practice to be much liked. Tlie 
 white carrot is sometimes boiled, and maslied, and used in bread. The 
 foliage of carrots is truly beautiful, and we read that, in the time of Queen 
 Elizabctli, it was common for ladies to use the fresh, green leaves as orna- 
 ments of their head-dresses. 
 
 Potatoes have a history so wrapped in obscurity, that no one can tell for 
 a certainty where they originated. Their adoption, as a general article of 
 food, dates back only to a comparatively recent pei'iod ; that is, since tlie 
 settlement of America, yet they are now considered an indispensable article 
 upon almost all the tables of rich and poor in all countries where the 
 potato flourishes, as it does in the northern United States and England and 
 Ireland. 
 
 The potato-plant {Solaniim tuherosum) is said to belong to a family 
 of poisonous plants, and an extract, powerfully narcotic, may be made 
 from the leaves and stalks, and a weak spirit is often distilled from 
 the roots ; and a pretty good starch is made, both in a domestic way 
 and in large manufactories, from potatoes, with which sago is often 
 adulterated. 
 
 Potatoes make good yeast, and they are often used for making sizing; 
 and the water in which potatoes are boiled is good to wash any fabrics in 
 that are liable to fade. 
 
 Excellent as potatoes are for food, sad experience has proved that it will 
 not do for any nation to rely upon them. This reliance brought famine, 
 
Seo. 29.] HISTORY OF GARDEN PLANTS. 469 
 
 misery, starviition, and death to Ireland, and disappointment to a great many 
 who have lost entire crops from the potato-disease. 
 
 Salad-jilants have long been cultivated and eaten by the rich as a luxury, 
 and l)y the poor as a necessity, or rather, in many cases, more as an agree- 
 able economic article of food. In all cities and large manufacturing towns, 
 the laboring class are everj year becoming greater consumers of lettuces, 
 radishes, and celery, and find benefit from their use. This kind of food is 
 grown to great perfection, and is very largely consumed in France, Belgium, 
 and Holland — more so than in this country. 
 
 Salsiftj is a plant that should be known more extensively than it is, be- 
 cause it affords an excellent article of food. Its roots grow like parsneps, 
 and the cultivation is similar, but they have quite a different flavor, and on 
 account of a real, though slight, resemblance in smell and taste to oysters, 
 it is often called vegetable oyster-plant. 
 
 The greatest resemblance to oysters is, wlien the roots, which have stood 
 all winter in the ground, are dug in the early spring, boiled and mashed and 
 mixed with butter, and cooked and served hot, like oyster batter-cakes. 
 
 Oh'a is another valuable food-plant not much known and cultivated, ex- 
 cept in market gardens in the Northern States, though it is considered an 
 article of prime necessity at the South, being largely used by black and 
 white. The negroes make a ver^' favorite dish with oki'a and bacon, called 
 gumbo, and we have eaten gumbo in New York, but it is very rare. The 
 principal use of okra here is in soups. The seed-pods are the part used, 
 either green or dry. Tliey give the soup a mucilaginous character. The 
 bark of the okra plant is very fibrous — as much so as hemp, and more 
 tough. 
 
 Sweet corn (see 541), as it is now grown in a great majority of the gardens, 
 affords one of the cheapest and richest luxuries that America etijoys. In 
 the latitude of this city it is fit to eat in July, and continues in condition for 
 tlie table, with a little extra attention, till late in October. There are 
 several varieties, some of which are noted for keeping fresh very late in the 
 season. Tliere is no dish more universally liked than sweet corn while in 
 the green or milky state, and every family who have the means of growing 
 it should provide for a succession of crops during the season, so as never to 
 be without it, because no food can be produced cheaper, and none is more 
 nutritious, palatable, and wholesome. 
 
 We might go on to great length with this history and description of garden 
 plants, and at last should hardly know where to stop without breaking off" 
 abruptly ; so we do it here, to go more into particulars of garden cultivation 
 of proper vegetables, plants, fruits, and flowers. 
 
470 
 
 THE GAEDEN" AND ITS FEUITS. 
 
 [Chap. V. 
 
 SECTION XXX.-GARDEN CULINARY VEGETABLES. 
 
 'UR plan of treating lightly a great variety of sub- 
 jects will not wan-ant ns in giving a complete 
 "Young Gardener's Assistant." That can be 
 ught in a separate volume, and it is a valuable book, 
 it we shall give a little information about all the 
 incipal kinds of culinary vegetables usually cultivat- 
 by farmers, or which should be cultivated by them, 
 which wo trust will be found useful. In treating upon 
 some of the same things under ficld-cultul-e, in the cliapter 
 devoted to " The Farm and Its Crops," wo shall probably 
 give some further information, which may be useful to 
 those who only plant a garden. And so will what we say 
 here be \isefal to those wlio wish to grow vegetables upon 
 a large, as well as upon a small, scale. 
 520. The Brassica Family— Propagating and Saving Seedi— This family of 
 plants, which includes all that are near enough related to tlic cabbage to 
 hybridize with it, is the most universally cultivated of any variety of culi- 
 nary vegetables. In planting out cabl)age, cauliflower, broccoli, turnips for 
 seed, great care should be taken to set each kind by itself, at considerable 
 distances apart, to prevent hybridization, and no seedsman must keep bees, 
 for they are the greatest hybridizers in nature, carrying the pollen from one 
 blossom to another, and mixing the two together indiscriminately. All tlie 
 difierent varieties of cabbage, such as Flat Diitcli, Savoy, Drumhead, mix 
 very readily and spoil each variety, or else by one chance in a score of 
 millions, produce a new variety ■\vhieh may be worth cultivation. As a 
 general rule, however, all farmers who raise their own seed should try to 
 keep the varieties separate. This may be done in most cases by setting out 
 the seed-stalks in diflFerent fields. It is not necessary to confine them to the 
 garden. Where there is any great inconvenience about keeping the sorts 
 apart, you had better plant only one sort for seed, and buy seed for all 
 other sorts you may wish to cultivate. Do not try to grow your own seed, 
 if it will cost you twice as much as it would to buy a small paper of a pro- 
 fessional seedsman. The principal advantage in growing your own seed is 
 to select carefully the very best and throw away all others, and unless you 
 do that, you had better not grow any. To grow good cabbage and turnip 
 seed, select the very best roots to plant, and then select the best seed 
 branches. 
 
 A correspondent wants to know if turnip seed, harvestea from roots 
 that were left out over winter, will produce good turnips if sown for a 
 
Sec. 30.] GARDEN CULINARY VEGETABLES. 471 
 
 crop. " My neighbors," says the writer, " tell me it will not produce tur- 
 nips, but charlock." 
 
 "We do not believe that it will change in a single season, but we do know 
 of one instance where such seed was sown, and it produced turnip-tops and 
 seed, but few bulbs of any value ; and we believe that if the seed of these 
 bulbless jjlants had been sown again and again, the whole semblance of 
 turnips except the tops would have been lost. And this being the fact, why 
 may we not believe that the reverse will be the case, where the most perfect 
 bulbs are selected for propagation ? 
 
 521. Cultivation and Value of the Turnip Crop.— The value of the ruta- 
 baga turnip for stock-feeding (see 880) seems to be almost universally con- 
 ceded, while the common flat turnip appears to be under a cloud of J^reju- 
 dice in this country. We have, however, strong faith, from personal exjie- 
 rience, in its value as winter food for horned cattle and sheep. There is 
 great difference in the value of the several varieties. One of the best is the 
 Eed Stra]), which grows well up out of the ground, and all the upper part of 
 the bulb is of a rich plum red. This sort, if sown upon good land, grows 
 rapidly and solid, and such turnips always keep the best and afford the 
 most nutriment when fed to stock, and every vacant spot in the garden 
 may thus be profitably occupied. 
 
 For garden culture, turnips should be sown at three periods : first, as 
 early as the ground is dry and warm enough for the seed to vegetate ; 
 second, about the first of June; and the third, after the peas have ripened, 
 and in all other vacant spots from which a first crop has been removed. If 
 seed is sown as late as the middle of October, or, according to latitude, as 
 late as it M'ill grow bulbs the size of pigeons' eggs, and these are covered 
 over M'itli a mulch of coarse manure, straw, or leaves, and the mulch raked 
 off very early in the spring, you will get a fine crop of sprouts for early 
 greens, and sometimes the bulbs will grow again so as to be good eating. 
 Remember, never save seed from such roots. 
 
 522. Protection of Turnips from Insects. — The young plants are liable to 
 suffer from the attack of certain insects, especially the turnip flea, or beetle 
 — called in England " the fly." As a protection against such enemies, we 
 recommend the following recipe : Mix one tablespoonful of sulpihnr with a 
 pint of blood-warm water to half a pound of seed ; let it soak a few min- 
 utes, then pour off the water and mix the seed with ashes or plaster. 
 "Whether this would afford any protection against grasshoppers, could be 
 determined by trial. 
 
 There has been lately offered in market a new preparation of " attenuated 
 coal-tar," that is, coal-tar mixed with a dryer, making a granulated sub- 
 stance resembling gunpowder, which is said by those who have used it to 
 be a good preventive of insects. We know that the scent of coal-tar is of- 
 fensive to most of the farm-pest family. A board-fence painted with coal- 
 tar appears to act as a protector of fruits trained alongside of it. Ofcl-tar 
 mixed witli dried loam in the form of a powder should be tried as a pre- 
 
472 THE GARDEN AND ITS FEUITS. [Chap. V. 
 
 veiitivc of insects on the young turnips. In this form the expense would be 
 very trifling. It may answer for all other garden plants just as well as the 
 more expensive preparations sold for the same purposes. 
 
 523. The Kohl-Rabi— Its Character aud Use.— This relative of the turnip 
 and cabbage is comparatively a new garden plant, but one much approved 
 by all who are acquainted with it, and extensively grown for the New York 
 markets. It appears to be a cross between the cabbage and turnip, growing 
 with a bulb like the latter, which has the outward appearance of a cabbage- 
 stalk, with leaves like ruta baga. These bulbs, cooked, have more of tiie 
 flavor and general character of cabbage than turnips. Those who are not 
 acquainted with them should procure seed and give them a trial. They are 
 largely grown in England as a field-crop for stock, the seed being planted 
 by drills, four pounds per acre, and produce twenty-five tuns. For garden 
 culture, pursue exactly the same course as Avith cabbage. 
 
 524. Cabbage Cultivation, and Value as Food. — Almost every famil}- cul- 
 tivates cabbage in the garden as an article of food, for which purpose we 
 look upon it as of very little accouut. ~Wq know it is relished by a very 
 large portion of the laboring class, and that class alone should eat it, as it is, 
 particularly when cooked, one of the most indigestible articles of food ever 
 taken into the human stomach. Eaten raw, in small quantities, it is more 
 digestible, and serves very well as a relish in place of other green food at 
 seasons when the garden does not aftbrd a supply. 
 
 We recommend the cultivation of cabbage in all gardens, even where the 
 family do not care to grow it for the table, because a plant can be stuck in 
 here and there to fill up Avaste places, and if the plants are not wanted by 
 the family when grown, the cows will be very glad of them after the grass 
 is frosted in autumn. If cabbage is wanted for very early use, the plants 
 must be started in cold frames in autumn, and kept covered up all winter. 
 Such plants are much more hardy than hot-bed plants started in spring. 
 Seed may be sown, as soon as the ground is warm enough, in garden beds, 
 for ear]3- cabbage, but for such as are wanted for winter use, seed sown late 
 in May or June, or even in July, will be early enough to set where peas and 
 early potatoes have been harvested. Cabbage requires a strong soil, and will 
 bear heavy manuring, except with hog-pen manure. That, it is pretty well 
 settled, causes the disease known as " club-foot" in cabbage. This whole 
 order of plants delights in bone-dust as a fertilizer and bones j)i"epared as 
 superphosphates are still better. 
 
 The distance between the plants when set out varies from one and a naif 
 to three feet. A moist, cloudy day is the best time for transplanting, and 
 it is well to dip the roots before planting in a composition of black mold 
 and a little soot, made into thin mud with the addition of liquid manure. 
 
 Cabbages may be headed in winter by setting them with their roots in 
 good rich earih, just as they grew, and covering the tops so that they will not 
 free^ This may be done with a roof of boards, hay, or dirt, or brush and 
 rails and straw covered Avith dirt, with little air-holes. Cabbage grown in 
 
Seo. 30.] GARDEN" CULINARY VEGETABLES. 473 
 
 this Avay is blanched, sweet, and tender, and will pay much more than the 
 cost of thus arranging the late stalks wliich failed to form heads in the fall. 
 The work should be done just before the ground freezes, and at first only 
 slightly cover the tops. 
 
 The heads can be kept very sound and clean, and convenient for daily use 
 in winter, by packing them in wet moss in barrels or bo.xes, which should 
 be kept in a room where the temperature is just above the freezing-point. 
 
 The'easiest way that we ever j^ut up cabbages for winter use was as fol- 
 lows: Lay two common fence rails, or two poles on the ground, side by 
 side, about six inches apart, and as you pull up the cabbages, lay them 
 down, with the heads resting upon the poles and the roots on the ground on 
 each side, at right angles with the poles. If you take off the loose leaves 
 for feed, lay a thin coat of straw over the heads, and then throw up the dirt 
 from each side, so as to cover the heads about si.x inches deep, and form a 
 smooth mound, shaped like a winrow of hay. 
 
 Of the kinds of cabbage, we recommend the " Bergen," for its large size 
 and value for fodder. The " Fawn-colored Savoy" is more delicate for the 
 table. " Eed cabbage" grows with very liard, small heads, and is esteemed 
 for pickling. It is not as sweet or palatable as other sorts to our taste. A 
 kind called "Tliousand-headed" is mucli grown in some gardens for eating 
 green. It is a coarse variety. The " Green Curled Kale" is also grown for 
 greens. It does not head. So is the kind called " Brussels Sprouts." Tlie 
 earliest variety of cabbage is the "Early York," or "Early Wakefield." 
 Three other early varieties are called, "Early Sugarloaf," "Early Drum- 
 head or Ba*tersea," and " Early London." 
 
 A new variety, lately introduced, is called "Stonemason." It originated 
 with J. J. H. Gregory, of Marblehead, Mass. It grows a large, ricii head 
 on a very short stump. The " Marblehead Mammoth" is another new 
 variety, introduced by Mr. Gregory, which grows heads tiiat weigh thirty 
 pounds each. There is a new kinU called " Pomerain," which grows heads 
 sliaped like the Red Dutch, that is, conical, though much larger, and re- 
 markably solid. 
 
 525. Cauliflower is a delicate vegetable of the brassica family, the edible 
 part being the fiower-buds, before they shoot up to seed. Cultivators have 
 succeeded in forming these into a very compact mass of several pounds' 
 weight. This is done, first, by using seed of the very best variety and culti- 
 vating in very rich ground ; and second, by carefully tying up the leaves 
 around the heads, to make it grow compactly. A heavy, moist, fresh loam 
 is the best soil for cabbages and cauliflowers. 
 
 The way the Dutch obtain cauliflowers, famous for size and delicacy, is as 
 follows : 
 
 " In the autumn they dig deep some ground that has not been manured ; 
 at the beginning of May they sow the large English cauliflower upon a bed 
 of manure, and cover it with straw mats at night. When the young plants 
 are three or four inches high, they harrow the ground that had been pre- 
 
474 THE GARDEN AND ITS FKUITS. [Chap. V. 
 
 pared the autumn before, and with a -wooden dibble, eigliteen inches long, 
 they make holes about ten inches deep, at proper distances apart, and on 
 large them hy working the dibble round till the hole at the top is about 
 three inches in diameter. Thej immediately fill these holes with water, and 
 rejjeat this three times the same day. In the evening they fill them with 
 sheep-dung, leaving only room enough for the young plant, which tliey very 
 carefully remove from the bed of manure and place in the hole witii a litlle 
 earth. Directly afterwards they give them a good watering, and as soon as 
 the sun begins to dry them, water them again. Furthermore, as the plants 
 grow, they dig round them, and earth them uji in rows. "Wiien the head is 
 forming, they pinch ofi' some of the lower leaves of the plant, and use them 
 to cover the young head." 
 
 526. Broccoli is nearly allied to cauliflower, and though inferior in quality 
 is much cultivated. One of the secrets of growing cabbage is frequent hoe- 
 ing, and in case of drought, watering. The ground can not be stirred too 
 frequently, and it is well to hoe when the dew is on, if you are a little care- 
 ful about getting dirt on the plants. 
 
 Although cauliflowers are a little more diflicult to grow than cabbages, 
 we have no doubt they are much more nutritious and digestible as food. 
 We have said more about the cultivation of the brassica family in gardens 
 than we shall of any other, because the various sorts may be grown in a 
 great measure as a second crop, or to fill up waste places, and therefore it is 
 economical, because it affords such a great quantity of food. 
 
 527. Carrots, Beets, Parsueps, Salsify, and Horseradish. — All these plants 
 require one grand feature in their cultivation, and one which mtiny farmers 
 neglect. It is a perfect trenching of the earth, not less than two feet deep, 
 and far better if it is three feet. They all succeed best on a rather light 
 loam, not too sandy, which was manured the previous year with old manure. 
 If desirable to continue planting the same plat with these roots, let them 
 come in rotation, and use no manure that is not in a very pulverulent con- 
 dition. Guano, at the rate of three or four hundred pounds per acre ; super- 
 phosphate, at the rate of five hundred pounds j)er acre ; lime, at the rate of 
 fifty bushels per acre ; \inleachcd ashes, at the rate of ten to twenty bushels 
 per acre, are all good fertilizers for root crops. All these roots are apt to 
 grow pronged and ill-shapen in fresh-manured ground, as they always do in 
 ground badly spaded or plowed, unless prepared by the very best kind of 
 surface and subsoil plowing. 
 
 528. Carrots, for early use, may be sown as soon as the ground is dry. 
 For winter use, the last of May or first of June in the latitude of New 
 York. They are best preserved for winter use in dry sand. The best early 
 variety is Early Horn ; the best for winter, or stock, is the Improved Long 
 Orange, though some prefer the Altringham. The large, white, Belgian 
 carrot has been cultivated here, but the j-ellow is still the favorite. 
 
 529. Beets should be sown very early for greens. The Early Flat Bas- 
 sano" or Early Blood Turnip-Beet will produce food soonest; but for win- 
 
Sec. 30.] GARDEN CULIJT.UJY VEGET^IBLES. 475 
 
 ter, we prefer tlie Long Blood Beet or Smooth Long Dark-red. The last 
 should not be sown till near the first of June. If it matures early, the 
 top part, which grows out of ground, is very woody. Always soak beet- 
 seed twenty-four hours, and then roll it iu plaster, ashes, dust, or meal, to 
 dry it for handling while planting. An ounce of seed will plant a row one 
 hundred feet long. 
 
 530. Parsueps should be sown early, and may be left where they grow 
 till the ground is wanted for a second crop. The soil must be trenched 
 and rich, or manured deep below the surface, to grow good parsneps. An 
 ounce of seed sows a row two Imndred feet long — five pounds an acre. 
 The Long Smootli is the best variety. Parsneps are excellent food for 
 stock. 
 
 531. Salsify, or Oyster Plmit, should be sown early in spring; an ounce 
 of seed to a row thirty feet long. Like parsneps, they are improved by 
 standing all winter where they grew. 
 
 Horseradish, is a plant of the genus Cachlearia, which is a sort of scurvy- 
 grass, and is unknown to, or, at least, iincultivated by many farmers. Its 
 sharp, pungent root is very agreeable to most persons as a seasoning to 
 meats, and it is considered a healthy excitant of appetite. It is easily 
 grown from cuttings in any deep, rich soil, even a mucky one that is quite 
 wet. It is best after standing out all winter. In the vicinity of cities it is 
 extensively grown as a market crop, and is very profitable. For family use 
 a few plants will suffice. 
 
 532. Onion Culturei — There are three principal sorts of onions grown from 
 seed produced on the top — the red, yellow, and white. There is a kind 
 called Early Red, and the large "Wetliersfield Bed ; the latter grows the lar- 
 gest, and is best for field culture. The Danvers yellow variety is mild fla- 
 vored, early, and keeps well, and is preferred, where best known, to the 
 Yellow Dutch, Mdiich is known in some places as Strasburg or Silver-skin. 
 The White Portugal onion is the mildest, and good to grow for family 
 use, but requires great care to keep it over winter. In some parts of the 
 country scarcely any but top onions are grown. This kind produces 
 miniature onions on the top of the stalk, which are set to grow bulbs for 
 use. Onions require a rich sandy loam, highly manured with thoroughly 
 rotted compost, deeply and finely worked and rolled, and the seed sown, one 
 ounce to a row fifteen feet long, in drills fourteen inches apart, and the 
 plants left standing four inches apart. Unlike most other things, onions do 
 best upon the same plat year after year. Wood ashes, applied as top- 
 dressing, make one of the best fertilizers that can be given to an onion bed. 
 To prevent the ravages of the onion maggot, which of late years has proved 
 so destructive, it is recommended to sow poppies with the onion. 
 
 533. Peas— Choice Kinds and Cultivation.— The following are the best early 
 peas in their order: Daniel O'Bourke; Early Princess; Early Emperor; 
 Prince Albert ; Early Kent. The following are dwarf varieties : Tom 
 Thumb ; Bishop's Early Dwarf, quite prolific and early ; Bishop's New Long 
 
476 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 Podded, productive and good quality ; Dwarf-blue Imperial, liighly recom- 
 mended as a summer pea. Tlie following arc larger sorts, and are highly 
 recommended : Champion of England ; Fairbeard's Nonpareil ; Champion 
 of Scotland ; Eugenie ; Napoleon ; Missouri Marrowfat ; Large White Mar- 
 rowfat, a late sort ; Blackejed Marrowfat, an excellent kind, worthy of gen- 
 eral cultivation ; British Queen, very prolific, long podded, and fine fla- 
 vored ; to which add the sugar pea, with edible pods. 
 
 Judging from the little attention paid by many farmers to the cultivation 
 of garden peas, we suppose they look upon them as luxuries, only to be in- 
 dulged in by a few, except in very small quantities. In this they are quite 
 in error. There is nothing grown that is more nutritious and wholesome, and 
 much more attention should be paid to their cultivation, so as to have a full 
 daily supply, early and late. The first planting should be made just as soon 
 as the ground can be worked in spring, upon ground well manured the year 
 before, or else with very fine old compost or guano in the hill, but not in 
 contact with the seed. In small gardens, or where ground is scarce for early 
 crops, plant potatoes and peas together. Land can not be too rich for peas, 
 but if it is the richest of crude manure, more vines than seed will grow. 
 Ashes and plaster upon peas while growing, when a few inches high, will 
 help them remarkably. Plant in double rows, a foot apart, so as to set 
 bushes between. The largest sorts require four to six feet between the lines, 
 and we have found it advantageous to put them wide apart and plant a row 
 of potatoes between. You want a pint of seed of the dwarf sorts, in a 
 double row, fifty or sixty feet long. The large growing sort will take a pint 
 to a hundred feet. 
 
 Pea-bugs injure but do not destroy the germination of seed peas. It is 
 recommended to keep theaa in sealed bottles, and if a piece of gum cam- 
 phor as large as a pea is j^ut in, it will destroy all bug life. One writer 
 recommends planting peas five inches deep early in the spring to prevent 
 the weevil. He plants beets at the same time between the rows of peas. 
 Another writer recommends fall planting, or any time during winter when 
 there is no frost in the ground. 
 
 534. Beans for the Garden — Good SortSi — ^Ye recommend careful atten- 
 tion to the cultivation of garden beans, because they furnish such good, 
 cheap, palatable food. The following half dozen sorts are the best that we 
 can name of the dwarf or bush variety, which give edible pods, called snap 
 or string beans : 
 
 The Early Valentine grows excellent, long, tender pods. Early Yellow 
 Six-weeks is very productive. Early Mohawk is not only prolific, but hardy. 
 The Early China is an old favorite ; it is a white bean, with red eye. Tlie 
 Thousand-to-One sort is also an old and very popular kind. As young 
 bean-plants are easily killed by frost, you must not plant them till that 
 danger is past and the ground is light and warm. A pint of seed will plant 
 a drill eighty feet long. Cover lightly without manure, and never hoe when 
 the vines are wet, but stir the soil very often, and use plaster and ashes. 
 
Seo. 30.] GARDEN CULINARY VEGETABLES. 47 T 
 
 Of pole-beans, the Early Dutch Case-knife takes the lead. It is early, 
 prolific, and good green or dry. The pods are sometimes eaten, but can not 
 be reconiiuended. The pods of all the Cranberry beans are good. The 
 " Horticultural Cranberry or Wren's Egg" grows in beautifully red-striped 
 pods, is of a light red and cream color, speckled, of medium size, and very 
 good, both in the pods and shelled. The White, or Marrowtat Cranberry, 
 is very tender and nice, but is a shy bearer. Tlie old Eed Cranberry is more 
 prolitic and hardy, but the pods are less tender, and beans not so delicate in 
 flavor, but it is a valuable sort to rely upon. The beans grow of good size, 
 roundish, and deep-red color. 
 
 535. Lima Beans are a distinct order of plants from the o'diers, and more 
 difficult to cultivate, as thoy require a longer season of warm weather, and 
 if jilantod liefore the ground is warni, are apt to rot, and each seed requires 
 to be handled separately and put in the ground with the eye downward to 
 insure their coming up. 
 
 The best manure for Lima beans is superphosphate of lime. Tiiey grow in 
 long, flat, rough pods, and the vines are such great climbers, that they would 
 go to the top of poles thirty feet high. The best way is to use poles five or 
 six feet high, and pinch back the vines, or train them horizontally. To get 
 an early start, set each bean in a piece of sod two inches square, and place 
 these sods in a shallow I30X in the kitclien, and keep tliem well watered till 
 it will answer to set the beans out around the poles. 
 
 53G. faiiforuia Beans. — A variety of beans new to the Atlantic States, in- 
 troduced from California, has been highly recommended. A letter, written 
 by L. Korris, Windsor, Ashtabula County, O., says of it: 
 
 " This bean is of medium size, of a peach-blow color, and very prolitic. 
 It requires only one, or at most two plants in each hill, as it produces many 
 lateral vines. It is a short runner, only from tliree to four feet in hight. I 
 find by planting them with corn, one bean in each hill answers the purpose 
 well. By cooking these beans in the following way, they constitute a 
 savory dish, and need only to be tasted to be appreciated : Having cleaned 
 the beans, put thena in cold water ; add a little salt, and boil uuiil done, but 
 not so much as to have the beans crack oj)en. Have ready a frying-pan, 
 with some lard, whicii heat until it nearly boils; then take tlie beans out 
 with a skimmer and put them into the frying-pan and fry them until they 
 absorb nearly all the fat ; then add about a pint of the bean liquor (of which 
 you must reserve a plenty); then boil, or rather fry, a few minutes, stirring 
 it gently ; but be sure the liquor does not all boil away, as it is this wliicli 
 gives the beans such a delicious flavor. They are now ready for the table." 
 
 537. FlowerinjC Beans are growm almost exclusively for ornament, and are 
 known as '"Scarlet runners" or "White runnei's," being great climbers, and 
 profuse in beautiful flowers, and not very prolific bearers. It is a mistake 
 to suppose these beans are not edible ; they arc so, but not of such delicate 
 'flavor as to be recommended for that purpose ; they are very ornamental, 
 and may be planted to climb a pole in a showy spot in the garden, or near 
 
478 THE GAEDEN AND ITS FRUITS. [Chap. V. 
 
 the house trained to trellises, or climbing strings np the house side, around 
 windows, or along a piazza front. 
 
 538. Asparagus. — But few farmers have this delicious, early spring vege- 
 table in perfection, because they do not know liow to cultivate it properly. 
 It is a perennial plant, which, if once well set, produces its crop of tender, 
 rich shoots, j-ear after year, with very little annual cultivation. It may Lc 
 started from seeds or roots, which should be set in a deeply-trenched bed, 
 well drained, and made just as riph as rich can be, and heavily salted. 
 Every autumn, cut off the tops, and cover the bed with a thick coat of 
 manure, salted ; and in the spring, fork up the ground lightly, before the 
 sprouts start, mixing in the manure, and if any of it is unrotted, lay it as a 
 mulch between the rows. Lime and ashes are both excellent for surface- 
 dressings. There are three varieties of asparagus — the Large Green .Purple 
 Top, or Giant ; the Improved Ghent ; and Common Green — though some 
 contend that the difference is more in cultivation than anything else. The 
 common kind is certainly improved in size by higli cultivation. 
 
 In May, 1860, a Mr. Fecks, of Oyster Bay, L. I., exhibited, to the 
 American Institute Farmers' Club, specimens of a giant asparagus, grown 
 at Oyster Bay, originated from seed at Matinicock, L. I., the bed of which 
 is now over thirty years old. Some of the stalks were nearly an inch in 
 diameter. He stated "that he had about four acres, which he called only a 
 ' small patch,' because other persons had more than twice as much, and he 
 liad been told that one man near Jamaica has seventy acres. His beds are 
 made upon good potato-land, plowed deep, and highly manured with stable 
 or hog-pen manure. At one year from seed, the plants are set in rows four 
 feet apart, and fifteen or twenty inches apart in the rows. We trench four- 
 teen inches deep, with manure at bottom, which is covered with three inches 
 of soil, and the roots set, and the trench filled gradually during the summer. 
 In cultivation, we plow off the earth and put manure in the furrows abund- 
 antly. My bed is so near the level of salt water that the tide rises upon it 
 at very high water, and the yield is $300 an acre. We do not cut it much, 
 if any, the first two years. We put fifty loads of manure per acre, and five 
 hundred pounds of guano. Some growers use 1,500 pounds of guano per 
 acre. The bunches of sixteen stalks weigh four pounds. The best asparagus 
 is that which grows above ground. The white is always tough. We some- 
 times have bunches with eight inches of tender green." 
 
 It is a mistaken notion to cut or try to eat the white part of asparagus 
 stalks. None but the tender green part is fit to eat. An article now be- 
 fore us has the following sensible remarks upon this subject. The writer 
 says : 
 
 " The stalk is generally cut about four inches long, often not more than 
 two or three inches, and from one third to one half the length is white, 
 showing it grew below the surface of the soil ; this part is always tough and 
 bitter, and unfit to eat. In truth, it is never eaten, so that fully one half of 
 the weight of a bunch of asparagus, purchased in the market, is a dead loss. 
 
Seo. 30.] GAEDEN CULINARY VEGETABLES. 479 
 
 If the stalk be cut four inches long, and two inches below the earth's surface, 
 about one inch and a half of the top part is fit for nse — no more. Aspara- 
 should never be cut till it is five or six inches out of the ground. I 
 1 let it grow ten or twelve inches highj. When five or six'inchcs liigh, 
 Fshould be cut about a half inch above the ground ; but when ten or twelve 
 inches high, it should be cut six or seven inches above the surface of the 
 earth ; or, if it be cut near the ground, all the bottom part should be 
 rejected. 
 
 "After cutting it, take a sharp knife, and commencing at the lower end, 
 feel your way along toward the top, till you come to where it is perfectly 
 tender, then cut it off, throwing away the lower part. 
 
 " It is only the green, tender part that is above the ground that is sweet, 
 healthy, and nutritious, or fit to cook and eat. The white, tough, and bitter 
 part, that grows below the earth's surface, is not half as good as corn- 
 stalks, and should not be allowed to be sold in any market in the civilized 
 world. 
 
 "For private families, asparagus-beds should be made at considerable ex- 
 pense, and with much care. Four or five dollars will make a bed that will 
 amply supply, for many years in succession, a family of eight or ten per- 
 sons, if properly taken care of. To make a first-rate bed for that number in 
 a family, make it about five feet wide and twenty feet long. Dig out the 
 ground two and a half feet deep, and fill up with chips, sawdust, tan, or 
 sticks of wood, packed close together, five or six inches from the bottom. 
 Then put in five or six inches of the strongest stable manure, and fill up to 
 the top with manure and dirt, about half-and-half. 
 
 "The bed is now fit to plant. Put your roots about ten inches apart, each 
 way, over the entire bed, and then cover them about three inches deep with 
 the richest soil to be had, and sow evenly over the whole a peck of common 
 salt and a peck of ashes, mixed together. Asparagus is a marine-plant, re- 
 fpiii'iiig salt and alkalies for fertilizers, which should be supplied every 
 spring to make the plants flourish. 
 
 " Keep the beds clean of weeds and well manured, and for this quantity 
 of ground you will have a rich and abundant supply for eight or ten in 
 a family, every day, if desired, from about the first of April till the last of 
 June. The yield will be ten times as much as could be obtained from the 
 same numljer of square feet planted in peas or beans. There is not, among 
 all the green vegetables brought to market, another so productive, palatable, 
 nutritious, and healthy as this plant. 
 
 " AVhere it is raised for market, a warm, rich, vegetable mold should be 
 selected. A sandy loam is better than clay." 
 
 539. Oeleryi — ^This is another good vegetable for early spring, when there 
 is a longing for something green or fresh from the garden, which is but little 
 known to farmers in general. It is a hardy biennial, grown from seed sown 
 in the spring, which will produce seed the second year. For the table, the 
 stalks only are used, and generally raw, though good cooked, and to make 
 
480 THE GARDEN AND ITS FEDITS. [Chap. V. 
 
 them tender and palatable, are grown in a peculiar way, which blanches and 
 makes them crisp, tender, and pleasant to the taste, being aromatic and 
 slightly pungent, sweet, and agreeable to all who are accustomed to eating 
 them. There are several varieties in cultivation, some of the best of which 
 are named as follows : White Solid, Seymour's Superb White, Cole's Crystal 
 White, Cole's Superb Eed, Dwarf White French, Incomparable ; tliis is a 
 dwarf sort, of a short, stiff, close habit, growing crisp, solid, and white, and 
 keeps juicy and perfect longer than some other sorts. Laing's Mammoth 
 Red is the largest sort, and is highly esteemed in England, but not as much 
 60 here as Nonesuch, which is said to possess an excellent flavor, and keep 
 well in spring witliout seeding. Mead's Improved White is a new American 
 variety, getting into good repute. Celery-seed should be planted early in 
 spring, and covered shallow in rich, mellow soil, beating the earth down com- 
 pactly over the seeds with the back of a spade. When tlie plants are three 
 iuclies high, tliin them out to four inclies apart, and keep them clear of weeds 
 till six inches high, and tlien transplant into trenches about a foot deep, first 
 fillhig them half full of fine manure, well mixed with soil, and set the 
 jilants six inches apart, first shortening roots and tops. As they increase in 
 size, draw in tlie sides of the trencli, and continue to earth up, keeping the 
 stalks and leaves all drawn close together, so the tops only show a few inches 
 above the ridge. There is no better fertilizer tlian salt for this plant. 
 Sprinkle the ground eacli time before earthing up, and take care each time 
 to hold the stalks together, so that no dirt will fall into the center of the 
 bunch. An ounce of celery -seed will produce some five thousand plants. 
 Both in tlie plant-bed and in the trenches, celery will drink up a great deal 
 of water or liquid manure. Some recommend keeping the plants in the 
 trenches constantly saturated with water, tinctured with guano, or strong 
 manure and salt. If keiit constantly moist, the earthing-up process may be 
 deferred till late in the fall. One says : 
 
 " Late in autumn the whole bed is covered with forest loaves, a foot or 
 foot and a half thick, with a few cornstalks to prevent their blowing away. 
 From this bed tlie celery may be readily obtained at any time, fresh, sweet, 
 and crisp, during the winter." 
 
 Another covers the ridge with coarse manure, so it will not freeze ; and 
 another takes up the plants, and packs them in an upright position in a 
 trench three feet wide, and covers the whole with coarse manure. This is 
 only necessary where the plants are required in winter for market purposes. 
 For family use, a few can be kept in wet moss, while the ground remains 
 frozen. As a general I'ule, we believe the blacker tlie earth that celery is 
 grown in, the whiter will it blanch. Some jiorsons blanch with boards, set 
 up against the ]ilants, covered with charcoal-dust. A writer in the Garden- 
 er s Chromch, London, recommends the use of sawdust, which he finds an- 
 swers the purpose better than any otiier material, especially for late croj^s 
 to be kept during the winter. He says : 
 
 " Having had some trouble in keeping late celery from rotting, where the 
 
Sec. 30.] GARDEN CULINARY VEGETABLES. 481 
 
 soil was very retentive and damp, and the plants earthed up in the nsual 
 manner, I nsed sawdust, and found that it answered perfectly. Last winter 
 all the late celery was earthed up witli sawdust, and it kept quite sound till 
 April, and no slugs or insects attacked it underground, the heads being very 
 solid, clear, and crisp, and well ilavorcd. I had some doubts that the saw- 
 dust from resinous trees might give the celery a disagreeable flavor, but on 
 trial I found this not to be the case. Before the late severe frost occurred in 
 October I had just finished the earthing up of all the late celery with sawdust, 
 and I find it is now wonderfully fresh, the frost not having penetrated far 
 through the surface to the hearts." 
 
 Another corresiJondent recommends charred earth in preference to saw- 
 dust, "as it will not only answer the purpose as well, but will allow the 
 rain-water to percolate more freely to the roots of the plants, and be of in- 
 finite service to a soil of a damp, i-etentive nature." The sawdust, he thinks, 
 will induce an injurious growth of fungi in the soil. 
 
 5i0. Chiccoryt — ^Tliis is a garden plant, scarcely' known to American 
 farmers, though extensively grown in England, 'and within the last ten 
 years it has become a favorite article of growth and consumption. It grows 
 somewhat like carrots, and its cultivation is similar, and its principal use is 
 to furnish a substitute for coffee, or an article to mix with it, as it is to a 
 great extent with all that is sold in a burnt and ground state for the pur- 
 pose of reducing the price, or if sold at the price of j^ure coffee, giving the 
 manufacturer a larger profit. 
 
 The carrot-like roots of the chiccory are washed, scraped, and cut into 
 small pieces, and kiln-dried, and then roasted and ground like coffee. To 
 give the chiccory an oily appearance like coffee, lard is put in the roaster at 
 the rate of two pounds to a hundred of dried roots. It is colored with Ve- 
 netian red, or logwood and mahogany dust, where the chiccory is to be sold 
 nearly pure for " pure coffee." 
 
 Although not much grown here, we believe some coffee roasters in New 
 York know its value to them, and import it in considerable quantities. No 
 doubt it may be profitably cultivated, not only for sale or use as a substi- 
 tute for coffee, but for a good forage crop in the tops. Sow it in April in 
 drills a foot apart for hand hoeing, just as you sliould carrots, on rich, deep 
 soil, on such ground as would produce a good carrot crop, and harvest in 
 autumn. Some grow the leaves blanched, to use as a salad, by taking up 
 the roots in autumn and trimming off the tops, and setting the roots in sand 
 in a dark cellar, M-hen young blanched leaves start out. The roots live over 
 winter like parsneps, but, like them, are tough and stringy the second year. 
 The leaves resemble dandelion, and tops and roots have a delicate bitter 
 taste, and are slightly aromatic. For a forage crop, the tops grow very 
 rapidly and thick, and may be cut four or five times. The roots, too, are 
 very good for stock. We recommend its cultivation in gardens, in a small 
 way, until it^ value is well tesfed. 
 
 5il. Com in the Garden. — There are several varieties of sweet corn suitable 
 
482 THE GAEDElsr AND ITS FRUITS. [Chap. V. 
 
 for early and late use. "We -will mention a few, and advise all fanners to 
 select such an assortment as will serve to give tliem ears fit for the table 
 through the longest season possible. The earliest may be started in hot- 
 beds, and transplanted as well as any other plants, or it may be planted, as 
 we have recommended for early beans, in square bits of sod, or in small 
 pots kept in the house, where it is warm and constantly moist. Smith's 
 Early White is a dwarf variety, which may be planted for the first yield in 
 hills only two and a half feet apart. Darling's Extra Early sweet corn is 
 thought by some to produce ears the earliest of any variety ; and the Early 
 Eed Cob is also a very early sort, growing short ears, eight or ten rowed, 
 which fill well out to the end. The Early Tusearora is a large variety, and 
 matures early, but not as much so as the dwai-f sorts. It is eight rowed, 
 with broad, white grains, and remains fit for boiling a long time. This sort 
 requires a very rich soil. For the main crop, the kind known as Large 
 Sweet is perhaps the most productive ; and for very late eating, Stowell's 
 Evergreen or Burr's Mammoth Sweet should be planted in rich hills, three 
 and a half or four feet apart, as late as the middle of July. "We have seen 
 it yield well, planted late in August, by protecting the hills with stalks of 
 the early sorts tied around them. It is also kept good till December by 
 cutting or pulling up the hills and setting them in a dry cellar or out- 
 building. Both of these late sorts grow ears with twelve to eighteen rows, 
 large grains on white cobs, and very bushy stalks. There should be a 
 planting of corn for family use every fortnight from April to August. 
 
 "Where land is scarce, we recommend planting corn and potatoes in the 
 same hill. The corii will be just as good as though no potatoes were there, 
 and if the stalks of the corn are cut away as soon as the ears are mature 
 enough to boil, the yield of potatoes will be a fair one — in our experience 
 just as good as hills alongside without corn. 
 
 542. Early Gardea Potatoesi — It is quite important to farmers to know 
 what are the earliest sorts of potatoes, since they are the most staple food 
 article grown as garden vegetables, and we therefore name some of the most 
 approved varieties. "\Ye have always found the nutmeg potatoes the earliest 
 of any, but objectionable on account of their general small size, and because 
 they do not yield well. There is a sort called '•Mammoth Nutmegs," which 
 grow larger and yield better. The Nutmegs have a very smooth skin, light 
 yellow, with M'hite flesh, and keep well, but are good for nothing for winter 
 use. The Early June is a good potato, and more productive. The Extra 
 Early AYhite is said to be productive, and capable of producing a very early 
 crop. Tlie Early ."Wendell and Early^ Carpenter are both spoken of by those 
 who grow them as the best early variety known. We have been well satis- 
 fied with the Buckeye as an early growing potato, but it did not keep well 
 with us. The Dykeman is not as early as some others, but answers first-rate 
 to mature a week or two later. Either of these niay be grown to g:eat ad- 
 vantage in the garden, and we reconmiend fftat all of them should be tried, 
 and proved which is best for each particular locality. 
 
Seo. 30.] 
 
 GARDEN CULINARY VEGETABLES. 
 
 483 
 
 543. Cucurbita — GourdSi — The family of cucurlita, embracing everything 
 from gourds to cucumbers, appears in an ahnost countless variety of forms, 
 under some of which it is to be found in almost every garden. In our 
 youthful days, almost every family raised a few gourds, and very conve- 
 nient things they were, not only for water dippers, but holders of a great 
 many little articles. "We used them for storehouses of small seeds. At the 
 South, and in some of the new portions of the West, gourds are still grown 
 to a considerable extent, and when we traveled through most of the South- 
 western States between 1840 and 1850, we should have thought something 
 was lacking if we had not found a pail and one or more drinking-gourds at 
 some convenient spot about the house — generally on the front piazza, where 
 every traveler could help himself to a drink of water. Often, too, on visit- 
 ing the springs by the roadside or in the plantations, we have found the in- 
 dispensable gourd hanging to a tree. They are grown of all sizes, from a 
 gill to a gallon ; and one kind that grows without the elongation for a 
 handle we have seen of the capacity of half a bushel, and the shell so hard 
 that they would last many years for dry storage. In Texas, a variety with 
 a depression in the middle, and bulb of equal size at each end, is frequently 
 used to carry water on horseback, it is so convenient to lash to the saddle. 
 A little drinking-gourd, as hard as wood, and almost white, holding about 
 a third of a pint, was given lis by a lady in Mississippi, which accompanied 
 us during many thousand miles of journeying, and out of which we had 
 many a sweet drink of water from roadside springs. No one thought it 
 worth while to steal a gourd from the wagon, while a tumbler, tin cup, or 
 earthen mug would probably have disappeared the first night. We heartily 
 commend this good old fashion of growing gourds to the attention of all 
 farmers. It will save many a dollar used up in tin cups and dippers, and 
 costly, fragile glass and earthenware. 
 
 544. CucumberSi — These rarely fail if planted in hills made as rich as it is 
 possible to make them, six or eight feet apart, leaving only two or three 
 plants to run to vines from each hill, and sometimes that is too many. Tlie 
 ground must be kept free of weeds in all the stages of growth of vines, to 
 insure a good crop. A very good way to raise a few early cucumbers for 
 family use is to fill a barrel or larger cask with hog-pen or other rich ma- 
 nure, Qpvered with sand, and set it in the grass-plat, near the house, where it 
 can be watered every day — no matter how often. Wo have seen a good lot 
 of cucumbers grown by earthing over the ash-leach and letting the vines 
 hang over the sides. This also requires frequent watering, for that is the 
 great source of all great garden productions. Without it, high manuring is 
 worthless. 
 
 Perhaps the earliest variety' is one lately introduced, called the Early 
 Russian. It is prolific, and matures for the table ten daj's sooner than the 
 Early Cluster, or Early Frame, or Short Green. The Early White-spined 
 sort is considei-ed best for the table. It is larger than the other early sorts, 
 straight, smooth, and dark green. For pickles, there are several good sorts : 
 
484 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 the Long Green Prickly ; Long Green Turkey ; Stockwood Eidge ; and 
 Carter's Long Kidge. 
 
 For early use, cucumbers may be planted in sods inverted in a box that 
 can be taken in and out of the house, according to weather, until it is -warm 
 enough to set them in place. You can not make the hills for cucumbers 
 too rich. Some market gardeners divide the hills in quarters, and plant one 
 fourth at a time, a week apart; so that if one planting fails, anotlier will 
 succeed. The plants should be hoed freqtieiitly, and the bugs watched care- 
 fully. Seed improves by age ; an ounce will plant a hundred hills ; though 
 as they are planted on Long Island for market, an ounce would be needed 
 for a dozen hills. The market gardeners put in such a quantity of seed, 
 that the bugs are not able to eat all until some get too big for them. 
 
 545. Musk-MelollS should not be planted till the earth gets warm, and 
 then in hills dug deep and made rich with well-rotted manure. It is a good 
 practice to pinch out the bud of the main shoot as soon as half a dozen 
 rough leaves are formed, as that causes lateral branches, and makes the fruit 
 set earlier. Light, dry, sandy loam made rich, and a dry, hot atmosphere, 
 if the plants are kept moist, will grow fine melons. We think the Green 
 citron, a small, rough green skin, roundish form, the best sort. The Pine- 
 apple and Jenny Lind are similar, and excellent. The Nutmeg melon 
 grows larger, with rough skin and greenish flesh, aromatic and sweet. 
 Skillman's Fine Netted looks as though the green melon was bagged in a 
 brown net, and is a very fine melon, and ripens early. The Christiana is a 
 yellow-fleshed sort that ripens very early. It is a Massachusetts seedling- 
 
 546. Water-Mclons, though grown in all the Nortliern States, never come 
 to such perfection of excellence as they do in warmer climates. Here they 
 should be planted in May in light, dry ground, and the}' often do best upon al- 
 most pui"e beds of sand, having hills prepared by digging out large holes and 
 filling them with manure, and covering it with soil. If the plants are wa- 
 tered witli a solution of two pounds of Peruvian guano in a barrel of water, 
 their vigor will be much increased. It is a great object to get them forward 
 as fast as possible. A very successful grower of water-melons upou the gra- 
 nitic soil of Westchester County, N. Y., says : 
 
 "I dig a hole three feet wide and three feet deep or more, and fill it with 
 cow-yan-d manure early in the season — say 1st of May, and cover tlijn with 
 light soil, six or eiglit inches deep, before planting the seeds. For musk- 
 melons I manure with well-decomposed manure, sown broadcast and worked 
 into the soih I would also work in a little of this fine manure in the top 
 of the water-melon hills." 
 
 The vines fruit better if the leading shoots are frequently pinched back. 
 Water-melon hills should be ten feet apart in rich, sandy loam or artificially 
 enriched sand. Six or eight seeds to. a hill, not over an inch deep, in fine, 
 black soil, over any amount of lich manure, will produce vigorous vines. 
 The varieties of water-melons are almost innumerable. Tiie Mountain 
 Sweet and Black Spanish are pur favorites. Cut-worms and bugs are the 
 
Sec. 30.] GARDEN CULINARY VEGETABLES. 485 
 
 greatest pests of all vines, and the best of the many remedies in our opinion 
 is file cheapest, -which is simply inclosing the hill as soon as planted with a 
 board box six or eight inches high, drawing tlio earth np a little around the 
 outside. It has been found unnecessary to cover the top with thin muslin 
 or flakes of cotton batting, except for the "[Mirpose of keeping the earth 
 Avarmer. These boxes should be made about a foot square, and tapering 
 enough to admit packing them in nests to stow away as soon as the plants 
 are large enough to allow of removing their wooden walled protection. 
 Other seeds maybe protected by such boxes against scratching hens, as they 
 will seldom, if ever, get inside to do mischief; and so long as hens do not de- 
 stroy seeds or plants, or fruit in a garden, they are useful, for they «at up 
 thousands of worms and bugs. 
 
 Other melons should be planted and treated as we have said of water- 
 melons ; and of all the various sorts of musk-melons, the small green melon 
 that looks as though covered with a fine flaxen netting is the best, to Our 
 taste, though we have great hopes that the new Persian melon, that grows 
 as big as the old musk-melon, will prove as rich as its first fruits indicate. 
 
 Great care is necessary to save melon seed pure. Vines of cucumbers 
 and melons never should grow near to each other. Let the truth be ]-e- 
 membered, that the varieties of all this family will mix, and that seedlings 
 seldom improve either sort, and that the best always suffer by the contact. 
 
 Bees are great mixers of the pollen of flowers, and they can only be pre- 
 vented by getting up earlier in the morning than the bees. Select a number 
 of female blossoms which have opened during the night. They may be 
 known by growing on the end of the young scpiash, melon, etc., while the 
 male blossoms (" false blows," as they are often called) have no fruit. Scat- 
 ter tlie pollen of the male blossoms upon the stamens of the female ones, and 
 carefully cover the latter with millinet, or anything which will protect them 
 from the visits of the bees. A piece of cotton cloth, or even a scpiash leaf, 
 kept in place by a few clods of earth, will answer a good purpose. "When 
 the blossom withers, the covering may be removed, and the fruit marked by 
 a colored string tied loosely around the vine. 
 
 547. Melons Started in the House. — It is recommended by one who has 
 met with success, to fill some small open baskets with earth and start the 
 plants in them by artificial heat. Suitable baskets to hold a pint may be 
 made for half a cent each of bark or willow twigs, or split stufi', or even 
 shavings, or old, worthless strawberry baskets may be used. Perhaps straw 
 baskets would answer, and be very cheaply made. Anything that will 
 hold the dirt until the plants are large enough to set out, will answer the 
 purpose, and then the baskets and all the contents are j^hmted in the hills. 
 The object in using baskets is not to disturb the roots of the plants, as they 
 are very tender, and do not bear transplanting. Any other tender plant 
 may be grown in the same way. 
 
 548. The Apple-Pie Melon. — L. Norris, of "Windsor, Ashtabula County, 
 O., says: "The apple-pie melon, with good. cultivation, will attain to 40 or 
 
486 THE GARDEN AND ITS; FRUITS. [Chap. V. 
 
 50 lbs. each, and if gathered carefully when ripe, and kept in a dry, cool 
 place, will keep sound a year, and will always ]irove a good substitute for 
 fruit for pies or sweetmeats. To use, peel oif the skin, take out the pulp, cut 
 fine, and stew three or four hours, when the substance will resemble stewed 
 green apples ; to ■which add aiigar and lemon-juice, and it will make pies 
 that can not easily be told from those of apples." 
 
 Another cultivator says : " This melon attains a large size ; I have grown 
 specimens the past season, eighteen inches in length, weighing from 30 to 
 40 lbs. Tliey are cylindrical in form; color, when ripe, a golden tint, very 
 solid, and flesh close-grained ; color of seeds, a dark green or blue ; ripens 
 in September, and will keep sound and good, it is said, for two years, but 
 we have not as yet tested their keeping qualities. They prove hardy and 
 of easy culture, and I consider this melon a valuable acquisition. We have 
 tested tlie quality of them for pies, and find them very delicious. To pre- 
 pare one for cooking, peel and cut up the melon small, taking out the seeds 
 and soft pulp. Put the pieces in a preserving kettle with just enough 
 water to keep them from burning, and stew over a tolerably brisk fire for 
 three or four hours, or until the whole is reduced to a soft, pulpy mass, free 
 from lumps, and thoroughly done. You have then a substance resembling 
 green apples stewed, and by adding a little sugar and lemon-juice to it, and 
 making it with crust in the usual way, it is impossible to tell it from a fresh 
 apple-pie. If you desire a pie like pumpkin or custard of the melons, stew 
 as above directed, but omit the lemons, and bring the pulpy mass to the 
 proper richness and consistency by the addition of sugar, milk, and eggs. 
 Little of either of these ingredients will be found necessary — only sufficient 
 to give the melon color and flavor." 
 
 549. Squashes — Summer aud Wiuter Varieties. — The varieties of squashes 
 are so numerous, that almost every neighborhood has some favorite. The 
 most universal one is the Boston Marrow, and next the Hubbard squash ; the 
 last the best, but being a newer variety, has oidy become generally known 
 within a few years. They are both medium-sized, and are extremely rich 
 food for winter use, simply boiled and eaten as a table vegetable, as a 
 substitute for sweet potatoes, or for pies and other cookeries. The form of 
 the first is ovate, pointed, witli thin, salmon-colored rind, and flesh of deep 
 orange color and fine-grained ; keeping all winter. Average weight, six 
 to eight pounds. The Hubbard is a better substitute for sweet potatoes 
 than the other. It iias a hard shell, and is an excellent kind to keep 
 through the winter. It grows about the same size as the Marrow, and is 
 immensely prolific. The Lima Cocoanut is a variety much esteemed by 
 some as a winter squash ; it grows large, oblong, of a bluish color, very fine- 
 grained, and sweet. The LTonolulu, a new variety, is said to excel all others 
 in productiveness, fine flavor, and good keeping qualities. A large, almost 
 white squash, which we have grown several years, we like full as well as 
 either of the above for pies, and it is more hardy, and sure to produce a 
 good crop in all situations. The flesh is sweet and rich, but not as fine- 
 
Sec;. 30.] GARDEN CULINARY VEGETABLES. 487 
 
 grained as tlio. others, but it grows three or four times larger, with a smooth, 
 jiolished skin, the color of white wax. In size of fruit and vines, it is more 
 like piniipkiiis than ordinary squashes. Among all new varieties, we should 
 not forget the old Crookneck. It is a squash of good eating and keeping 
 quality, and not so delicate in its growth as some others. There is also a 
 crook-necked summer squash, which is considered by those who have grown 
 it, the largest, the very best of all the summer varieties. It is early, pro- 
 ductive, and one of the kind called bush, or non-running sorts. Its color 
 is yellow, and has a warty skin, and hard shell when ripe. The Early 
 White, scolloped, a bush variety, wo have grown with satisfaction as to its 
 eating qualities, though we thought it a shy bearer. The hills for squashes 
 should be highly manured with well-rotted stable manure or compost, but 
 not with anything very putrescent, which will give off ammonia and kill 
 the young plants, which are very tender. The seeds must not be planted 
 while there is any danger of frost, as a very slight degree of cold will kill 
 the vines while new. The use of salt in manure must be avoided with all 
 the eucurhita family, but plaster may be used to great advantage both as a 
 fertilizer and bug preventive. 
 
 550. Egg-Plants. — ^These garden plants are not as much grown in Northern 
 gardens as in Southern ones, because they can rarely be brought forward 
 early enough in the spring without the aid of artificial heat, as the young 
 plants are very tender. If you have no hot-bed, sow the seed as early as 
 possible in a sheltered, warm, dry situation, and protect the young plants 
 with hand-glasses or boxes, or some covering in cold nights, until tliey are 
 three or four inches high ; and when the weather has become steadily warm, 
 transplant them into very rich^ mellow soil, setting the plants two and a 
 half feet apart. A fourth ounce of seed will produce more plants than any 
 family wants. The earliest variety is called Long Purple, and grows a 
 plum-colored fruit of several pounds' weight, M'hich those who are accustomed 
 to eating it, call delicious. There is a sort, called Large Oval Purple, that 
 grows larger than the above, and is perhaps preferable for general culture. 
 The early and late sorts may be distinguished while growing by the stems. 
 The earliest grows smooth and the others prickly. There are two sorts 
 grown for garden ornament— one red and the other white— of much smaller 
 size than the sorts generally grown for cooking. 
 
 5oL Salad-Plants — Lettuce. — Lettuce is the principal salad-plant cultivated 
 among farmers, and so far as our observation extends, the poorest varieties 
 are most in use, and rarely made to jiroduce semi-solid heads, such as we 
 often see in the city market, almost large enough to be mistaken for cab- 
 bages. The best sort for early spring use, sown in open ground, or for hot- 
 bed forcing, is the Early Curled Silesia, because it makes a strong growth 
 of yellowish-green tender leaves, which are very good eating as soon as they 
 are large enough to pick, and will afterwards form loose heads. Do not pull 
 up the young roots, but pick off the leaves, or clip them from the roots with 
 a pair of scissors, and others will soon grow. The Early Tennis Ball is 
 
488 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 esteemed one of the best varieties which form heads. Kecollect that some 
 sorts of lettuce will not head, with all your care, but the leaves may be made 
 more tender by tying them up, so that they will grow blanciied. One of the 
 best sorts of non-heading lettuce is the Ice Cos, the leaves of M'hich are 
 brittle, growing long, narrow, and dark-green, and of somewhat an icy ap- 
 pearance. 
 
 There are also four other sorts of Cos lettuce — the Paris Green, Paris 
 White, Florence or Golden, and Spotted Cos — each of which you will 
 be told is best by the person who grows it, and no other. The hardiest sort 
 is the Brown Dutch, which may be started in autumn, and slightly protected 
 60 as to endure winter, and grow early in spring. It will form a loose head, 
 but is not generally grown for heads, but for the early young leaves ; the other 
 sorts being preferable to it for heading. One of the largest varieties is called 
 Large India ; it is less curled than the Silesia, and the leaves are whiter, 
 slightly edged with pink. This kind endures the summer heats well, and 
 forms large, round heads, which cut solid and crisp. There are several 
 other sorts, but what we have said of these is enough to show that there is a 
 great variety in this family of garden plants. 
 
 To grow good lettuce, the ntmost care must be used in preparing the 
 ground. The soil should be made as fine as the seed, and as rich as good 
 garden mold can be. The seed should be sown every fortnight from Feb- 
 ruary to June, to get a succession of young plants. The ground must be 
 kept loose between the rows,«and it pays well to water with guano in a weak 
 solution. 
 
 An ounce of lettuce seed will grow plants enough for half a dozen families. 
 It would require a bed about ten by twelve feet to sow an ounce of seed, 
 and it would produce some 5,000 plants. . 
 
 552. Mustard is often grown for salad, the white or yellow seed variety 
 being very good for that purpose. It should be sown in the fall, or it may 
 be started in spring, in a hot-bed or warm southern exposure, in rows 
 six inches apart, and no matter how thick in the rows, as it is to 
 be cut when two inches high. The black seed kind is often sown for 
 greens, as well as to grow seed for use or sale. It ripens seed in July or 
 August. 
 
 553. Nasturtium! — This is another salad plant, when very young, though 
 generally grown for its fruit, which is used for pickling. The pods are 
 gathered before they ripen for this purpose, and some use the fl.ower-buds, 
 esteeming them as good as capers. The orange-colored flowers are also used 
 for garnishing dishes. For salad, sow the dwarf variety early in spring, in 
 drills an inch deep, along borders of beds, so that what is not cut for salad 
 may grow for ornament. 
 
 554r. Garden-Cress. — This is a favorite salad plant, and in this character 
 only the seminal plants are used. It is very hardy and prolific, and may 
 be sowed once a week, from the opening of the ground in spring until the 
 close of the season. Old rich garden soil is the most congenial to it, but 
 
Sko. 30.] GAEDEN" CULINARY VEGETABLES. 489 
 
 any lands of fine textnre will, if properly pulverized and enriched witli 
 putrescent nianure, produce a good crop. 
 
 Do not mistake this for the plant more known as poppergrass than it is 
 as cress. Tiie article we allude to grows annually from seed or from roots, 
 forming compact bunches of twenty or tliirty stalks, which grow a foot high, 
 and bear smooth succulent leaves and an npriglit stem full of seed-pods, souie- 
 thing like turnip. It is very apt to seed itself, and may become trouble- 
 some if care is not taken with it. It is so hardy that it keeps partially 
 green all winter, under a very sliglit covering, and its greatest value is, that 
 it affords sometliing green very early in spring. 
 
 555. Water-€ress {iSis)/mbi'iu77i nasturtium) can be easily grown from 
 seeds or roots, wherever there is a stream or spring in the ground near tlic 
 house. It grows best in situations where the roots are always in water, and 
 in winter the whole plant is overflowed, and it particularly delights in pure 
 water, clear and cold, such as runs in th« little spring-brooks. If you hap- 
 pen to have one that does not freeze, you may have water-cress at any time 
 during winter. It is started by sowing the seeds or setting the plants in a 
 suitable spot for its growth. After it once gets fixed as a habitant of any 
 [)]acc, it requires no care in its cultivation. 
 
 55(J. Endive, a plant of the chiccory species, is often cultivated for a 
 winter salad, thougli more used in stews and for garnishing tables. The 
 Green Curled is the hardiest sort, growing beautifully curled leaves, dark- 
 green, which are tender and crisp when young,- and much esteemed as salad 
 by some persons, and are considered wholesome. The French use the Bata- 
 vian Endive iu stews and soups. It is a broad-leaf sort, which grows not 
 much curled. This, when very young, is eaten as salad, but is not as good as 
 cither the Green or White Curled. The seed is sown late in the spring, or even 
 middle of summer, for fall use, and the leaves are blanched for use by tying 
 the outer leaves over the inner ones. An ounce of seed will sow a bed eight 
 by ten feet. 
 
 557. Turiiip-Sprouts, grown under a straw mulch, are blanched and tender, 
 and make a delicate, sweet salad, and may be had early iu the spring with 
 a little care. 
 
 558. Okra. — Under the head of "History of Some Common Garden 
 Vegetables" we have told the uses of this plant. Its consumption has in- 
 creased so much in New York since its introduction a few years since, that 
 one market gardener of our acquaintance grew seven acres of it last year 
 (1860), part of the crop selling green and part dried. There is no plant 
 grown in the garden that affords cheaper food than okra. The pods, iu soup, 
 make it mucilaginous and nutritious. There is a dwarf okra plant which 
 does not grow more than two or three feet high, and is very prolific of 
 branches and pods, that for this latitude will be a valuable improvement 
 over the large kind, which grows five or six feet long. Kipe okra seeds are 
 sometimes used as a substitute for coffee. It is doubtful whether they are 
 as good as the seeds of asparagus. 
 
490 THE GAKDEN AND ITS FKUITS. [Chap. V. 
 
 Okra seed should not be jdanted till the ground has become warm in 
 spring, and may then be treated much like Indian-corn in all its cultivation, 
 and grows "well in soil suitable for corn. 
 
 559. TomatoeSi — The rapidity ^yith which this vegetable has been brought 
 into almost universal use is well-nigh beyond belief. It is quite within the 
 memory of middle-aged people that it was grown only because its fruit was 
 ornamental, and by many supposed to be poisonous. Its common name in New 
 England was " Love Apple," though no one loved it. Now there are not 
 many families that do not esteem tomatoes as much as any garden vegetable, 
 and gardeners are constantly making eiforts to produce new varieties of im- 
 proved quality. Let no one suppose he has got the best sort until he has 
 tried several others. There is more dilierence in the quality and value for 
 food of tomatoes than there is in potatoes. "We will name a few of the best. 
 We have grown a very large yellow tomato, which we prefer over all others, 
 because it is less acid, and the meat aj^pears to have more of the food prin- 
 ciple in it than any of the red ones, unless it is one called Fejee Island 
 Tomato, which we think identical with one called "Perfected," and said to 
 have been introduced by C. Edwards Lester. It is a very large red sort, 
 and very good eating, and a little finer grained than one called the Large 
 Mammoth Red. The poorest tomato in existence is the one almost univer- 
 sally grown for the New York market. It is of medium size, smooth, round- 
 ish, with a tough skin, and sour, hard meat, frequently very hollow, partially 
 filled with seeds and sour water, and being generally gathered in a green 
 slate, is no more fit to eat than the vines it grows upon. It is grown be- 
 cause it bears transportation better than the good sorts, and it will sell to 
 people who do not Icnow how to appreciate a good tomato. As a general 
 rule, to select good sorts of tomatoes for cultivation for family use, choose 
 those which grow uneven-shaped rather tliau smooth, such as you can pull 
 apart without cutting, the lobes separating with a glistening fracture. If you 
 wish to have some ripen earlier than the large sorts, you may choose a round, 
 smooth, n}edium size, called Early Apple Tomato. For pickles and pre- 
 serves there is a sort known as pear or fig tomatoes, being about the size and 
 shape of figs. There is a small yellow sort, grown for preserving, and so is 
 the sort which grows about the size of potato-balls, and as round and smooth. 
 A distinct variety, called AVinter Cherries (see 675), grows with a husk 
 about the size of large cherries, and is much liked by some to eat out of 
 hand. Care must be taken to prevent the difi'erent sorts of tomatoes from 
 mixing, else, if you have a choice kind, you will be apt to lose it, as the in- 
 clination is to run down rather than up the scale of improvement. 
 
 The cultivation is very simple. In warm latitudes they are >self-propagat- 
 ing. In this latitude, where the family has no hot-bed, the seed should be 
 sown for early use in boxes or pots, in February and March. The seeds sown 
 in boxes, if kept in a warm room, in the light of a window, will grow healthy 
 plants, which, when two inches high, may be pricked out and set single in 
 pots, and carefully nursed till aU danger of frost is over, in some warm, 
 
Seo. 30.] GARDEN CULINAEY VEGETABLES. 491 
 
 sheltered situation, where tliey can grow out-doors. To hasten the first 
 fruit, pincli off all shoots above the first formed ones as soon as the tomatoes 
 are the size of cherries. Afterwards cut ofl' most of the leaves, to let the 
 sun have its full force xipon the fruit ; you will thus get a small crop several 
 weeks ahead of the ripening when planted out at the ordinary time and left 
 to the natural course of growth. To have really good tomatoes, fit to be 
 eaten in a raw state, which certainly is the most delicious form in which 
 they can'be eaten, you must have a good sort, and grow them on good land, 
 and select the first fruit, and trim the vines so that the sun shines upon it, 
 and let it become fully ripened before it is gathered. It should always 
 be eaten while fresh to get its full value. Then it is both palatable and 
 wholesome. 
 
 If tlie seed bo sown in May, in good rich soil, of a warm nature, with a 
 sufliciency of old, well-rotted manure, there will rarely be any danger of 
 failure. Wlien the vines begin to show leaves, they should be provided 
 with a trellis, or tied to stakes fixed in the soil, to keep the fruit from being 
 injured by coming in contact with the dirt. 
 
 There is, however, a new sort lately introduced, called " Tomato de Lays''' 
 in France, and with us, the Upright or Tree-Tomato, that requires no sup- 
 port. Its stem is two feet high or more, and so remarkably strong and stiff", 
 that they are nearly self-supporting — a highly commendable quality. It 
 branches less than the common Great Ked Tomato, is less leafy, does not 
 want so much pinching, does not bear so freely, but its fruit is larger and 
 more regularly formed. 
 
 Medicinally, the tomato is in high repute. Dr. Bennett, a professor of 
 medicine of good standing, has published the following opinion of its good 
 qualities : 
 
 " 1. That the tomato is one of the most powerful deobstruents of the Ma- 
 teria Mcdica, and that in all those affections of the liver and other organs, 
 where calomel is indicated, it is probably the most eflective and least harm- 
 ful remedial agent known in the profession. 
 
 "2. That a chemical extract will be obtained from it which will alto- 
 gether supersede the use of calomel in the cure of disease. 
 
 " 3. That he has successfully treated serious diarrhea with this article alone. 
 
 " 4r. That when used as an article of diet, it is almost a sovereign remedy 
 for dyspepsia or indigestion. 
 
 " 5. That persons removing from the East or ISTortli to the South or West, 
 should by all means make use of it as an aliment, as it would in that event 
 save them from the danger attendant upon those violent bilious attacks to 
 which almost all unacclimated persons are liable. 
 
 " 6. That the citizens in ordinary should make use of it either raw, cooked, 
 or in the form of a catsup, with their daily food, as it is the most healthy 
 article in the Materia Alimentariar 
 
 Prof. Rafinesque, of France, says: "It is everywhere deemed a very 
 healthy vegetable, and an invaluable article of food." 
 
492 
 
 THE GARDEN" AND ITS FRUITS. 
 
 [Chap. V. 
 
 Dunglison says : " It may be looked iiison as one of the most wholesome 
 and valuable esculents that belong to the vegetable kingdom." 
 
 A writer in the farmer's Begister says : " It has been tried by several 
 persons with decided success. Tliey were afflicted with chronic cough, the 
 primary cause of wliicli, in one case, was supposed to be a diseased liver; in 
 another, diseased luugs. It mitigates, and sometimes effectually checks, a 
 fit of coughing." 
 
 The method most commonly adopted in preparing this fruit for 'daily use 
 is to cut them in slices, and serve with salt, pepper, and vinegar, as you do 
 cucumbers. 
 
 To stew tomatoes, remove them ripe from the vines, slice up, and put them 
 in a pot over the stove or fire, without water. Stew them slowly, and when 
 done, put in a small piece of good butter, and eat them as you do apple- 
 sauce. Some add a little flour-bread, finely crumbed, or a couple of crackers 
 pulverized, to a quart of the stew. 
 
 560. Radishes. — Almost every family grows radishes, but every one does 
 not grow them to perfection. The radish appears to have originated from 
 China, where it is still grown to much higher perfection than in any country 
 of its adoption, and is largely used as an article of food throughout the year, 
 one variety being grown especially for winter use. Although not a very 
 nourishing sort of food, it is a very palatable condiment, and very ac- 
 ceptable upon all tables in the sjiring season. The tops are frequently 
 used when quite new as a salad, and the green seed-pods make nice small 
 pickles. To grow good radishes, your ground must be rich from manur- 
 ing in previous years, or by guano in solution, or superj^hosphate, while 
 the plants are growing, and not by fresh putrescent manures. Radishes are 
 only good when the growth is rapid. To have this they must have a good 
 soil and frequent waterings, either naturally or artificially. 
 
 For early use, sow on mildly hot beds, or in boxes in-doors, and after- 
 ward in sheltered places, and water frequently, thinning out the weakest 
 plants. Put in a few seed every ten days, as long as you want to continue 
 the production, in drills ten inches apart, or with other seeds of slower 
 growth, to mark the rows. An ounce of seed will plant a bed ten feet 
 square. One of the best early sorts is known by the long name of Early 
 Short-topped Long Scarlet. It grows half out of ground, and very crisp. 
 The Olive-shaped radish, lately introduced from France, is an early and fa- 
 vorite sort. It resembles the scarlet turnip radish ; is rose-colored, oblong ; 
 top quite small, and if grown rapidly, is crisp and sweet. For our use, we 
 prefer turnip radishes to the long sorts. For winter use, the Spanish, or 
 Black radish, or a sort called Rose-colored China, is sown in the fall, and 
 gathered before freezing, and packed in sand in a dry cellar. 
 
 561. Rhubarb, or Fie-PIant.— This valuable garden vegetable is easily 
 grown, and affords the first thing in spring for pies and tarts. It is best to 
 get roots for a start, as it is not always true to the kind from seed. 
 
 Autumn is the best time to make a rhubarb or pie-plant bed, and the 
 
Seq 30.] 
 
 GARDEN CULINARY VEGETABLES. 
 
 493 
 
 roots may be put in at any time when the weatlier will admit. The great 
 secret of success is to get a deep, rich bed to begin Mith. It can not be too 
 deep or too rich. We would dig it five feet deep for family use, and fill one 
 foot with cobble-stone, if we could, or with broken brick, timber, and brush, 
 so arranged as to give a good drainage. Then fill up with sods, chip 
 manure, wood's mold, good soil, and well-composted manure in a homo- 
 geneous mass, casting away the subsoil. Such a made bed will last as long 
 as its maker will, and if ten feet wide and twenty feet long, set with three 
 rows of roots, two feet apart in the row, it will furnish the largest family 
 with more than they can use, so that some of their indolent neighbors can 
 get a portion. Except when grown for market, we would not select the 
 largest variety of rhubarb. Seedling plants may be cut after the first year 
 to a small extent. It is good to mulch the bed summer and winter. Seed 
 stalks must be kept carefully cut away as fast as they appear, and the bed 
 must be richly manured every fall. 
 
 Some of the sorts in highest repute are the Yictoria, Linnreus, Eoyal Al- 
 bert, Scarlet Nonpareil, and Mammoth. The largest sort is known as Ga- 
 lloon's Seedling. It is better esteemed for wine-making than eating. Fif- 
 teen hundred gallons an acre have been made from this sort, grown xvpon 
 well-drained, rich, loamy land in Wisconsin. The stalks are cut in lengths of 
 two or three inches, and ground and pressed in a cider-mill, one hundred 
 pounds of stalks yielding ten gallons of juice, which is mixed with an equal 
 quantity of water, and about three and a half pounds of i-efined sugar to 
 each gallon of the mixture. This, if treated like other small fruit wines, 
 gives a palatable beverage, salable, and very profitable to the grower and 
 manufacturer. 
 
 502. Savory aud Medicinal Garden Plants, — There is a variety of plants 
 which every farmer's family should grow in the garden, which are useful in 
 the kitchen, nursery, or sick chamber, a few of which we will name. 
 
 Iloarkound. — This plant {Ifarruhium vulgare) is called hoar on account 
 of the white, downy growth upon the leaves and branches, which resembles 
 hoar frost. The plant is in high rejiute as a remedy for colds and coughs. 
 It is not a native of America, but was introduced by the first settlers as a 
 valuable medicinal plant, and from the garden it has spread to the road- 
 side and fields in every favorable location, as it propagates readily from 
 the seed. 
 
 A good many other medicinal plants were introduced in the same way as 
 hoarhound by the New England pilgrims. Among them we may name 
 lavender, from which spirits of lavender and oil of spike are made, although 
 another plant (Z. spica) gives the name. Comfry is another of the old-time 
 medicines that our ancestors made use of in cases of inflamed throat and ii - 
 testines, and for emollient poultices and salves. 
 
 Peppermint and Sjjearmint are pretty well known and generally esteemed. 
 One, if not both, come from Europe, and have been largely cultivated in this 
 country for the oil which, when diluted, or " cut" with alcohol, forming 
 
4:94 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 essence of peppermint, is esteemed as a remedy for flatxilence. Until the dis- 
 tillers of peppermint took to cheating by mixing oil of tiii'pentine with their 
 product, which spoiled the trade, the growing of peppermint was a good 
 business in some of the New England States ; bnt since it has been so much 
 injured by fraud, it is not worth while for farmers to engage in its field 
 culture at the present price of the oil, though it should be grown in gardens 
 for family use. 
 
 As a crop, this plant can be grown npon any moist, rich soil ; that which 
 will produce good corn will grow peppermint. The land should be plowed 
 deep, and it will be found advantageous to use the subsoil lifter, and the 
 crop must be cultivated while the plants are small to keep the weeds down, 
 and therefore should be planted in rows eighteen inches apart. Sj^ring is 
 the best time to set out a new plantation by offshoots or subdivision of old 
 roots. The yield will be small the first year, and upon some land, after two 
 or three j'cars, it gets so full of grass as to render it necessary to turn the 
 whole sod over and let the mint grow up again, which it will do, and the 
 process of turning under enriches the land. The mint is cut for distillation 
 when in blossom, and we think yields from fifteen to twenty pounds of oil 
 per acre. 
 
 Wo)'7mvood is another imported plant, and is a very hardy perennial. 
 Its leaves, bruised and wet with vinegar, are esteemed a valuable applica- 
 tion to sprains and bruises, and its bitter properties used to be esteemed as 
 a tonic. 
 
 Balm, Saffron, Hyssop, Lavender, Fennel, Bene, and Bosemary are all use- 
 ful medicinal herbs to cultivate in gardens, and the following are grown 
 for various uses in cookery: Anise, Sweet Basil, Carraway, Coriander, Dill, 
 Fennel, Sweet Marjoram, Summer Savory, Thyme, and Sage. Tlie last is 
 considered almost a necessity in some families, and is grown upon perennial 
 roots. It is better, we think, to plant seed every year, and not keep the roots 
 over two years. All of the above-named herbs are grown by gardeners near 
 cities to sell in market. 
 
 Parsley is another agreeable, savory herb, much used as a garnish of 
 meats on the table and seasoning of soups. It is easily grown in good gar- 
 den mold. It is sometimes planted as a fringe for beds or walks in the 
 garden. It is grown in some places for the roots, which are like small 
 carrots, to feed to cattle. An ounce of seed is enough for a row two hun- 
 dred feet long. 
 
 Peppers should always be grown in sufficient quantity for seasoning all 
 soups and stews, as such is far healthier than pepper that we import. 
 
 The Long Caj^enne is a very pungent sort, and grows up dwarf-stalks. 
 The Cherry pepper is also a good dwarf sort. For pods to pickle green, 
 grow the squash pepper, which has a tomato-shaped pod, rather mild, and 
 very-productive. The Sweet Mountain grows in a similar form, but mucli 
 larger. The Sweet Spanish is the mildest of all for pickling or to eat green 
 as a salad. 
 
Seo. 30.]' HAKDEN" CULINARY VEGETABLES. 495 
 
 Peppers should be sown early in light, warm soil in a seed-bed, and trans- 
 planted and manured with guano water or hen-dung in solution. 
 
 5G3. Jerusalem Artichokes. — Tliis plant, the IlcUanthus tuherosus, should 
 have a small corner in every garden, or somewhere convenient about the 
 farmery, as it affords very agreeable food early in the spring, when some- 
 thing is longed for fresh from the earth. It is one of the best antiscorbutics 
 known. It also affords a great crop of good pig feed. One man in Ohio 
 estimates the yield at the rate of 1,700 bushels an acre. "We recommend 
 this plant as altogether preferable for cultivation over the Chinese yam, 
 Dioscorea latatas, about which so much has been written and said. All 
 tliat is necessary to be known about that plant wc give in the next par- 
 agraph. 
 
 564. The Chinese Yam. — This new escidcnt has certainly been tested long 
 enough in tliis country to determine its true value for cultivation. Tliat it 
 is palatable and nutritious, when pi-operly cooked, no one doubts. That it 
 would ever be adopted as a substitute for the common potato {Solanum 
 iulerosiun), or of the sweet potato {Convolvulus hatatas), among those who 
 grow those roots as a sale crop, we have never believed, but have hoped that 
 it might prove a valuable addition to our family of food- producing plants ; 
 but as yet we have not the evidence that this will be the case. 
 
 The London Gardaiers^ Chronicle of September, 1858, says of tlie Chi- 
 nese yam {Dioscorea hatatas) that — 
 
 " Many excellent results were obtained last year in various parts of the 
 country, and gardeners begin to understand the nature of this strange pro- 
 ducti<in, which, although provided for the food of man, naturally grows in 
 the ground in such a way as to make it impossible for him to pull it up. It 
 is now, too, agreed that the quality of the root, when properly cooked, is 
 excellent. " 
 
 " When first introduced to Europe by the French, this escnlent was re- 
 garded as a mere curiosity, and maltreated accordingly ; but eventually 
 such information concerning it was obtained from M. de Montigny, French 
 consul at Shanghae, as led to its receiving the attention due to a root which 
 might some day be found good to eat. 
 
 "The herbage of the Chinese yam is singularly like that of Tamus com- 
 munis^ the common black bryony of this country, consisting of long, weak, 
 angular, wiry, annual stems, covered with heart-shaped shining leaves. It 
 ordinarily begins to push its roots as soon as the ground temperature 
 rises to about 50 degrees, which, near London, corresponds with the begin- 
 ning of May. Shortly afterward the shoots appear and soon spread over 
 •the surface, not, however, with much vigor at first, nor, indeed, till the 
 month of August. The plant is evidently occupied for some weeks in 
 making these true roots and preparing for the singular development of that 
 false root, which is the yam itself — the part to be eaten. "When the roots 
 and stems have attained the necessary vigor, M-hich seems to be when the 
 ground has become heated up to GO degrees, or thereabouts, in August, there 
 
496 THE GARDEN AND ITS FRUITS.* [Chap. V. 
 
 appears among the roots a soft, fleshy liorn', which directs itself perpendicu- 
 larly downward, and growing with considerable rapidity, soon becomes a 
 club-shaped body, the small end of which is near the surface of the ground. 
 This manner of growth is exactly like that of the arrow-root plant {Maranta 
 arundinacea), and continues until the end of October, when the yam is 
 completed, and under proper treatment will have attained the lengtli of from 
 15 to 2i inches, weighing about one pound. In France, specimens have 
 been dug up weighing two and a half pounds, and measuring a yard in 
 length. In its perfect state it resembles a very long trumpet gourd or a 
 large parsnep, with the crown downward. The tail, which forms one third 
 of the lengtli, is cut oif and divided into inch lengths for propagation ; the 
 thicker part is eaten. In the course of its downward growth, the power of 
 developn»ent is so great that the thick end will force its way into hard clay, 
 and even bury stones or fragments of pottery in its substance if its progress 
 is sufficiently opposed. All obstacles ought to be carefully removed. 
 
 The best results in the cultivation of this yam have been obtained where 
 tlio temperature was highest, and the first oliject of the gardener should be to 
 obtain all the heat the sun can give him in soil three feet deef>. 
 
 Tiie plant should be grown in ridges, made to run east and west, and rise 
 eighteen inches above the level, in earth trenched three feet deep. Tiie yam 
 will not be Avorth growing in poor or worn-out land, nor among stones. 
 
 Tiiere is no doubt of one beneficial result from the attempt to cultivate 
 tliis root, if the above directions are complied with. If it does not produce 
 a profitable crop of yams, it will fit the ground most admirably for any other 
 crop; and any man wlio has ever planted, grown, and gathered them, and 
 afterward planted ax\j other crop upon the same ground, must be convinced 
 of the advantage of deep cultivation, since the yams can not be extracted 
 witliout digging two or tliree feet deeji, which, even without manure, is a 
 most excellent preparation for beets, carrots, parsneps, or anytiiing else ever 
 grown \ipou the farm, orchards included. 
 
 5G5. Sweet PotatoeSi — The first steji in the cultivation of sweet potatoes is 
 to know how to sprout them, as they are grown from sets, not from tubers 
 planted in the hill. J. W. Tenbrook, of Rockville, Ind., published the fol- 
 lowing directions, which wo copy and approve. 
 
 " Arrangements should be made early in the winter to have frames and 
 covers made and seed potatoes, manure, and all necessary material for the 
 hot-beds ready in due time. 
 
 " The po'tatoes should be kept in a warm, dry room, until they are placed 
 in the hot-bed, which must be warm, as tliey will not bear a lower tempera- 
 ture than 40 degrees without injury. « 
 
 "The location of the beds should be near a street or public road, on dry 
 ground, with a southern inclination, and convenient to pond or branch 
 water. 
 
 "The best material for a hot bed is fresh horse-stable manure that has not 
 been rotted ; and if mixed with one fourth to one half its bulk of either 
 
Seo. 30.] GARDEN CULINARY VEGETABLES. 497 
 
 sawdust, fresh leaves, tan-bark, or straw, the lieat would he more mild and 
 durable, and less liable to scald the j)oiatoes. 
 
 " About the first or second week of April, in this latitude, haul the 
 materials for the bed, and mix them together in a ridge where the bed is to 
 be made, and as soon as it is hot, shake it thoroughly, mixing the cold and 
 hot, wet and dry portions togetiier, forming a bed on the top of the ground, 
 running east and west, which, when settled with the fork — not trampled — 
 should be fourteen inches high, moi'e or less, as there is a greater or less pro- 
 portion of manure used, and six inches wider on all sides than tlie frame to 
 be placed over it. 
 
 " Hot-bed frames should be made of two-inch oak plank, framed together 
 at the ends with keys, so as to be easily taken ajiart and stored when not in use. 
 They should not be over twenty feet in length, nor exceed four in width. The 
 front, or south side, should be eight inches high ; the north, from eight to 
 twent}', according to the slope of the ground on which the bed stands, as the 
 top of the frame should have a pitch of eight to twelve inches to receive the 
 heat of the sun, and to shed otf the rain freoh'. Temporary beds are made 
 l.iy setting slabs or plank on edge, and tilling in the manure ; but such 
 beds are dilBcult to cover, and if used, the potatoes should not be laid within 
 six inches of the sides. [See 598.] 
 
 '■ Cover the beds five inches deep with the mellow earth, on which set the 
 frames and proceed to lay the potatoes two inches apart, with the top end 
 of the potato toward the planks, and inure them to the open air. Glass- 
 covered hot-beds cause the plants to spring up tender and weak, and such 
 lilants do not grow, when set out in the hill, like those raised in open beds. 
 
 "The best covere are made of strong oiled muslin, tacked on lath, so that 
 they can be rolled up conveniently. These covers will admit the light, shed 
 olT tlie rain, and be cheaper in the end than other covering, and sufficiently 
 warm except in extremely cold weather, v/hen straw or some warm covering- 
 should be thrown over them. Trampled straw, or mats made of rye straw, 
 answer in the absence of better covering. 
 
 "The beds should be watered in the evening -with a suitable watering-pot, 
 to keep the earth in a good growing condition. If spring or well water is 
 used, it should stand in the sun or be warmed before using. After the plants 
 are up, they should, if the weather is warm, be kept tolei-ably moist, to en- 
 courage the growth of good strong roots, and light warm showers would be 
 better than watering, but cold and heavy rains must be guarded against, as 
 they would soak into the beds and ruin them. 
 
 " Ditches should be formed around the beds, and the earth thrown up to 
 keep the water from running under and chilling them. 
 
 "When the plants are three inches high, and well rooted, they are ready 
 to pull, which is performed by taking hold of the plants with the thumb 
 and forefinger of one hand, while the potato is held firmly in its place with 
 the other. Careless drawing, by inexperienced persons, frequently destroys 
 half the profits of their beds. 
 
498 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 "When plants are to be sent a distance, they should be set in shallow 
 boxes, with their roots in wet earth or moss, but they must not be packed in 
 wet weather, nor have their leaves wet, or they will rot immediately. 
 Plants may be taken off the beds and preserved in a cave or cellar for a 
 week or more, with their roots packed in damp moss or earth, if not packed 
 too close. 
 
 " If by bedding too early, or crowding, the plants should grow long and 
 slender, they may be cut down to two or three inches in length ; but this 
 should be avoided by giving plenty of room and air, and by working the 
 earth in among the roots with the fingers as it is lifted up by the plants, and 
 settling it by watering." 
 
 The best ground to grow a crop of sweet potatoes upon is sand, enriched 
 with very well-rotted manure, leaf-mold, fine compost, guano, or snperphos- 
 jjhate. Tlie hills are rounded up like mounds, a foot or more high. All 
 who live upon sandy land, south of latitude 41 degrees, can grow a few 
 sweet potatoes in tlie garden, if not as a field crop. They are best preserved 
 by packing in cut straw, in barrels, set in a stove-heated room, where the 
 thermometer never will sink below 40 degrees, and rarely rise above 60 de- 
 grees. See 438. 
 
 5C6. Hot Water for Seeds. — There are many seeds which may be greatly 
 quickened in tlieir vegetating powers by the use of hot water. Onion-seed, 
 lor instance, may be made to sprout upon the instant by pouring boiling 
 water upon it. You need not fear killing it. Put some in a saucer, and 
 pour on water from a tea-kettle, and after a half minute pour it off again, 
 and you may see the sprouts shooting out the next minute ; and if then 
 planted, while hot and moist, in pulverulent earth, closely packed upon 
 them, you will get them forward two or three weeks earlier. The same ef- 
 fect will be produced upon all black, hard-shelled seed, such as onion, 
 asparagus, sunflower, water-melon, api)le, and many others. Locust-seed 
 should be thoroughly scalded in boiling-hot lye, or several repetitious of hot 
 water. 
 
 567. Cranberries ia (he Garden. — Cranberries have been so long looked 
 upon as wild plants of swamps, that it is diflicult for people to realize that 
 they can bo grown in gardens as well as strawberries, whicli are naturally a 
 wild field growth. 
 
 Cranberries do naturally grow in swamps, but they may be made to grow 
 artificially in good loamy garden soil, or that whicli is naturally a little 
 mucky, such as is the most suitable for potatoes, if deeply worked. The 
 best soil, however, for cranberries, is almost pure sand, with water naturally 
 standing, or percolating through it, within less than two feet of the surface. 
 A bed occupying one rod and two fifths, in the garden of Charles B. Phelps, 
 Culebrook, Conn , planted in June, 1857, yielded three bushels in 1860. 
 The vines were taken from a natural bed, and set in small tufts, one foot 
 apart in the rows, which were two feet apart, and these were kept clear of 
 weeds until the whole ground became matted with vines. The bed then 
 
Seo. 30.] GARDEN CULINARY VEGETABLES. 499 
 
 will continue longer in bearing than any bed of strawberries, without en- 
 riching the soil. 
 
 The cranberry is a semi-aquatic slender evergreen, content to occupy that 
 part of a farm which is too low and too wet to be used for any other pur- 
 ])Ose, and is satisfied to feed on water, and the slightly alluvial deposits 
 afforded by the adjacent highlands, and does not, like some overgrown 
 annual plants, make heavy drafts upon the soil. 
 
 For field culture of cranberries, all that we have said here will be almost 
 equally applicable, but the subject is treated more at large in No. 700. 
 
 568. Number of Trees, Plants, or Rows to au Acre.— The following tables 
 will aid any one in determining how many trees or plants he can grow 
 upon one acre, which contains 43,500 superficial feet : 
 
 No. of feet apart. No. of Plants. 
 
 1 43,560 
 
 li 19,300 
 
 2" 10,890 
 
 2J 6,869 
 
 3' 4,840 
 
 4 2,722 
 
 5 1,742 
 
 1,210 
 
 No. of Plants. 
 
 637 
 
 12 362 
 
 15 193 
 
 18 134 
 
 21 98 
 
 24 75 
 
 27 69 
 
 The following table shows the number of rows, of different widths, in a 
 square acre, and number of plants an acre contains : 
 
 No. of feet apart No. of rows. . Plants in a row.- 
 
 12 in. apart. 15 in. apart. 18 in. apart. 24 in. apart. 
 
 2 105 22,0-30 17,640 14,7U0 11,025 
 
 2i 85 17,8.50 14,280 11.900 8,925 
 
 3" 70 14,700 11,760 9,800 7,350 
 
 3i 60 12,600 10,080 8,400 6,300 
 
 4" 52 10,920 8,736 7,280 5,460 
 
 ii 46 9,660 7,728 6,440 4,830 
 
 5' 42 8.820 7,0.'56 5,880 4,410 
 
 5J 38 7.980 6,384 5,.320 3,990 
 
 6 35 7.350 6,880 4,900 3,675 
 
 7 30 6,300 5,040 4,200 3,150 
 
 8 26 5,460 4,.368 3,640 2,730 
 
 9 23 4,8-30 3,864 3,220 2.415 
 
 10 21 4,410 3,528 2,940 2,205 
 
 It is a common practice to measure an acre thirteen rods each way ; that 
 gives an excess of nine rods. At the South, it is common to measure seventy 
 yards each way for au acre, which is an excess of 540 yards. In calculating 
 the number of plants per acre, set four feet apart — for instance, cabbages — 
 it is common to say ten thousand j^er acre. This allows nearly nine hundred 
 missing plants. In garden work these rules will always be useful. 
 
500 
 
 THK GARDEN AND ITS FRUITS. 
 
 [Chap. V. 
 
 SECTION XXXI.- 
 
 -THE FLOWER-GARDEX-VAPdETIES AND CULTIVA- 
 TION OF FLOWERS. 
 
 -IRST, let lis talk a little about tlie moral 
 influence of flower culture. We are just as 
 well satisfied of the beneficial moral eflects of 
 flower cultivation, as we are tbat tbe efiects of tbeir 
 beauty upon tbe senses of nearly all beboldei"s is 
 pleasing. A motber wbo loves flowers is apt to infuse 
 the same feeling into ber cbildren. A love of flowers is 
 a love of tbe beautiful ; a love of tbe beautiful is a love 
 of tbe good ; and so step by step the cbild walks in tbe 
 pleasant paths of love, till its mind becomes thoroughly 
 imbued %vitb all tbe sentiments of moral goodness. There 
 is no spot on the farm tbat grows such a " paying crop" 
 as the little parterre near the dwelling, devoted to tbe 
 cultivation of flowers. If it does not pay in golden coin, 
 it does in all that makes life worth staying here for. What golden hours 
 of joy are spent by the family in the flower-garden ! What blessed influ- 
 ences such hours have upon the character of cluldren ! If you doubt the 
 moral influence of flowers, look about you, and study the character of those 
 who cultivate them in contrast with those who do not. We have long since 
 fettled tbe question of tbe beneficial influences of flowers upon all families, 
 I'.iid tlierefore devote a little space to give, upon this subject, some very use- 
 ful information. 
 
 509. Suitable Soil for a Flower-Garden. — LTpon tbe subject of soil, we 
 copy from the catalogue of Benjamin K. Bliss, of Springfield, Mass., one of 
 the most successful cultivators and sellers of flower seeds in tbe United 
 States, the following sensible observations : 
 
 "Tbe soil best adapted to flowering-plants generally is a liglit friable 
 loam, containing a moderate amount of vegetable matter, and sufficient 
 sand to render it porous ; but as it rarply happens that the amateur has 
 much choice of soil, it is fortunate that most of them will succeed in any 
 but such as is of an extremely dry, sandy, or calcar(*ous nature, or of a stiff, 
 li'oavy, retentive character. In the former, the plants are sure to be starved, 
 and in tbe latter, if tliey ever feirly take root, tliere is generally an undue 
 development of tbe foliage at tbe expense of the flowers. In soils of this 
 description much may be done by thoroughly breaking up tbe superficial 
 crnst, or, as it is technically termed, ' trenching' it at least one spade deep, 
 digging in sharp sand or road-scrapings, and if the operation be performed 
 in autumn, so tliat tlie loosened soil is thoroughly exposed during the winter 
 to the disintegrating influences of frost and other atmospheric agencies, the 
 advantage will be greatly increased. 
 
G-B-Owy I5y a jEak2D.ib.'s irit-K . 
 
PLATE XV. 
 
 (Page 600.) 
 
 This picture is placed here for the same purpose as No. XIV. in 
 its place. That to indicate the vegetable garden — this to mark the 
 entrance among the flowers. What woman looking upon this lovely 
 vase will not feel a desire to be a producer of such beautiful things ? 
 Feeling that desire, she will be inclined to read what the author 
 says of " The Flower Garden.'' Reading of flowers, she will never 
 be content until she possesses them. And they will mark her 
 elevation to a higher order of civilization as distinctly as this plate 
 marks the entrance to the portion of this book devoted to a good 
 purpose. It is for this that the picture was designed — to entice her 
 to enter upon a path that leads to pleasant groves, to peace and 
 happiness. 
 
Seo. 31.] THE FLOWER-GARDEN. 501 
 
 " In soil of an opposite cliai-cacter, i. e., sand}' or calcareous, the remedy 
 will obviously consist in the addition of loam, in conjunction with decayed 
 leaves or old rotten manure ; or where expense is no object, the surface may 
 be entirely removed to the depth of eight or ten inches, and its place su[- 
 plied with the best loamy compost at hand. The use of strong crude manui-e 
 of an animal nature s'.iould be avoided. In ordinarily good soil an annual 
 light dressing of leaf-mold, decayed turf, or thoroughly rotten manure, in 
 quantities jiroportioned to the requirements of the soil, dug to the depth of 
 a few inches, will be all that is requisite. These should be applied in spring, 
 only just previous to sowing the seeds, or much of the benefit resulting from 
 their application will be lost, though a single digging may be advantageously 
 given in autumn. In preparing tlie beds, care must be taken that they arc 
 so arranged that the ground may be a little elevated in the middle, that the 
 water may run off and the plants show to a better advantage. 
 
 "It is particularly requisite that seeds should not be sown too deep, 
 whence arises most of the failures of inexperienced gardeners. The depth 
 at which seeds are sown will vary with their size ; large seeds, sucli as those 
 of the Lupins, Sweet Pea, or Marvel of Pern, may be three quarters of an 
 inch deep ; other varieties from an eighth to a half-inch deep, according to 
 the size or nature of the seed. Some that are very small require to be sown 
 on the actual surface, a slight pressure being then sufficient to imbed them to 
 a proper depth. For the majority of the seeds a very thin covering sufilces ; 
 if sowed too deep, they are longer in germinating," and the small ones are 
 liable to decay. It sometimes insures a more even distribution of very small 
 seeds, such as those of Campanula, Digitalis, etc., if they are intimately 
 mixed before sowing with a little fine, dry soil, the mixture being sown in 
 the same way as the seeds. Woolly seeds, which adhere to each other, like 
 the Globe Amaranthus, etc., should be rubbed with a little fine sand, which 
 will generally separate them. In all cases, the more thinly the seeds are 
 strewn the better ; when too thickly sown, the seedlings become elon- 
 gated and sickly, an evil which no subsequent thinning out will entirely 
 remedy. 
 
 " If the soil be dry and the weather snnnj'^, it will be necessary to water 
 the seeds slightly from a very fine rose watering-pot. Rain-water is prefer- 
 able. In the absence of rain, this application must be repeated every day 
 or two, for it is important to observe that, when once the seeds have begun 
 to swell, they are peculiarly susceptible to injury from drouth, and will speed- 
 ily perish unless the soil be maintained in a moist condition ; to a neglect. 
 of this important precaution, many failures are solely attributable. On the 
 other hand, an excess of moisture previous to germination will often cause 
 the seed to decay, especially in cold seasons ; early in the spring, therefore, 
 the water-pot must be used with judgment, and never late in the day, when 
 frosts threaten." 
 
 "We have found the practice of warming water in the sun or by fire-heat 
 very much preferable to the use of cold water. As it requires the very finest 
 
502 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 preparation of soil, we recommend all who sow the most delicate flower- 
 seeds to sift the earth through a sieve fine enough for corn-meal. 
 
 570. How to Make a Flower-Bedi — The following extract, from a paper 
 read hefoi'c the Farmers' Club, tells how the author made a flower-bed uijon 
 a very hard, rough spot . 
 
 " I do not expect to tell a professed gardener, nor an amateur who already 
 knows how, anything new ; but I wish to tell some who do not know, how 
 to make a flower-bed. At least I will tell how I make one. and leave it to 
 others to follow suit or not, just as they can aflford. I received, May 10th, a 
 package of choice flower-seeds, and a dozen l)ulbs of Gladiolus. As the old 
 flower-beds had already been appropriated, new ones must be made ; and as 
 there is always a right place relative to the house and other things, the right 
 place in the present instance fell in a very bad place — on a spot of sod just 
 beneath the window that gives light to my writing-desk and book-case. 
 Here I marked out the forms of my beds in shapes to suit the ground, and 
 not like any diagram laid down in the books. I first took out a spading, as 
 deep as I could drive the spading-fork, breaking up the turf and the remains 
 of a mortar-bed left last autumn by the masons. This first spading and the 
 loose earth left I threw one side, and the next spade- deep the other side. 
 Then I took out another spade-deep and carted it away, and all the stones, and 
 that not a few, and then broke up another course still deeper, and then threw 
 back the second spading, and then the first, forking it all over loose and 
 mellow. Next I put in a heavy charge of rich manure, and over that 
 garden-mold and leaf-mold, mixing all up and raking fine. Next I put a 
 coat of sand, and then rich garden-mold, old rotted sods, and leaf-mold, 
 mixed and sifted. Now the bed was ready for the seeds, and after being 
 marked off to suit the fancy of her who does the planting, they were covered 
 by sifting earth over them, and watered. It is true this was a laborious job, 
 but once done, it is done forever. Here is a bed of earth, rich and mellow 
 as an ash-heap, more than thirty inches deep, with a subsoil of coarse sand, 
 gravel, and decayed granite rock, that gives good drainage. It will require 
 only an annual dressing of compost, and a light forking and raking, to keep 
 it in order to produce the most lovely ornament that ever added beauty to a 
 farm-house — a beautiful bed of flowers. Early this spring — almost as soon 
 as the snow was away — there came, first the little crocuses, and these were 
 followed by the hyacinths, and tulips, and dielytra spectabilis — beauty 
 upon beauty, enough to pay richly for all the labor of making a flower- 
 bed. 
 
 " "What man with a head a whit better than a pumpkin or a cabbage-head 
 would devote his whole soul to feod vegetables, and refuse his family the 
 gratification and cheap happiness of a flower-bed ? 
 
 " "What woman with a soul above soft-soap and scrubbing-brushes, that 
 would live in a country home and not insist upon ' woman's right' to have 
 a flower-bed — ah ! to have her house surrounded with flowers, blooming from 
 spring till snow comes again ?" 
 
Seo. 81.] THE FLOWER-GARDEN. 503 
 
 571. Cultivation of Hardy Annuals. — Hardy annuals are those plants that 
 flower and ripen their fruits and perisli in one season, but many of them 
 may be sown in autumn to flower early the next year. Hard}' annuals 
 irrow without artificial heat, and come to perfection in the open grounds ; 
 Init what arc known as half hardy plants need pushing a little, except in 
 very favorable localities. Tender and small seeded varieties sometimes fail, 
 not on account of the bad growing properties of the seeds, but solely from 
 bad management. Delicate seeds, like the Calceolaria, or Chinese primrose, 
 must not be sown in the open ground. One party complained that some 
 fine seeds failed to grow which were sown from one to two inches deep — 
 literally buried. The most inexperienced in gardening matters can sow sweet 
 peas, but it requires a practiced hand to look after such delicate seeds as 
 Calceolaria, Cineraria, Fuchsia, and such like. 
 
 Many persons think that when they make a hole in the soil with a trowel, 
 and throw in such small seed as Mignonette, that it should be sure to grow ; 
 and if it does not, they lay the blame upon the seed, when in nine cases out 
 of ten the fault is in sowing too deep. The proper depth for planting flower 
 seeds is but little more than their diameter, though Lupine and Sweet Peas 
 may be planted one inch deep ; but such small seeds as Portulaca and Mig- 
 nonette require to be sown almost upon the surface of the soil. Some seed 
 are difficult to germinate. Cypress seed require to be soaked in warm wa- 
 ter about one hour. The seeds of the Globe Amaranthus are covered with 
 a thick woolly substance, which greatly retards germination, and if planted 
 without soaking, few, if any, will come up. The most convenient method 
 of sowing annuals is to take a round-pointed stick, with which draw a circle 
 six or eight inches in diameter, and from an eighth of an inch to an inch 
 deep, according to the size of the seed to be sown, placing a label with the 
 name in the center. The labels ought to be five or six inches long, painted 
 white, and marked with a lead jjencil before the paint gets dry ; in this way 
 the name will last a long time. Larkspurs, and many of the hardy annuals, 
 when sown late in autumn, lie dormant all winter, thereby making much 
 stronger plants, and flowering earlier than those sown in spring. The 
 dwarf Kocket Larkspurs, when sown on the edges of the borders, present a 
 beautiful sight with their various colors ; the seed requires to be sown in 
 October, and protected by a slight covering of straw during winter. Phlox 
 Drummondii are of all shades and colors ; they delight in a moist and 
 shaded situation ; seed sown one eighth of an inch deep in May, blooms from 
 June until October. 
 
 572. List of Choice Annuals. — ^The following choice list of hardy annuals 
 was made by Thomas Cavanach, a practical, sensible floriculturist in Brook- 
 lyn, N. Y. It is worthy of the attention of all who desire to beautify their 
 homestead. 
 
 NcmopMla Lisignis, or Blue Love Orove. — Seed sown in May, blooms 
 in July ; likes a rich soil and moist situation ; suitable for vases. 
 
 Abronia Ombellata. — A verj^pretty annual, with long trailing stems, 
 
50i THE GARDEN AND ITS PRUITS. [Chap. V. 
 
 bearing beautiful lilac aud white flowers ; very fragrant suitable for vases ; 
 seed may be sown early in April, flowering in June. 
 
 Aster CJtinensis, or China Aster. — This beautiful annual comprises over 
 twenty-flve difiierent varieties. Trufl'aut's, for general cultivation, is the best, 
 on account of the beauty of its flowers aud variety of their colors ; seeds 
 sown in the open ground in May, in rich soil. All single or semi-double 
 flowers should be pulled up and thrown away. 
 
 Calliojms, or Coreopsis. — This is a very showy annual — fourteen different 
 varieties ; flowers, bright yellow, mottled with a rich velvety crimson, 
 highly ornamental ; seed may be sown in October or early in April ; easily 
 transplanted. 
 
 Balsam, or Lady's Slipper. — A well-known tender annual. The ca- 
 melia-flowered contains twelve varieties, of all shades and colors, variously 
 striped and mottled. Seed sown in the open ground in the latter part of 
 May. To have them early, seed should be sown in pots in the house in 
 April, and transplanted to the garden when four inches high. Plant singly, 
 pulling up all semi-double or single flowers. 
 
 Cuphea Platycentra. — A very pretty annual or green-house perennial, 
 with scarlet and purple flowers, suitable for vases ; flowering all summer, 
 and in winter, if taken up in autumn and kept in the house ; sown in pots 
 in the house in April. Plants may be procured from any florist for a trifle. 
 
 Cypress Vine. — A splendid running vine, delicate foliage, bright crimson 
 flowers, of a star shape ; Alba, pure white. Seed sown in the latter part 
 of May ; likes a rich soil. A very ornamental pyramid may be made by 
 setting a straight pole in the ground six or eight feet high, surrounded by a 
 hoop three or four feet in diameter, fastened to the ground with three pegs; 
 run strings from the top of the pole to the hoop. Sow the seed outside of 
 the hoop. It may also be trained over arches or vases. 
 
 Lathyrus Odoratus, or Sweet Pea. — One of the prettiest and most fragrant 
 of the popular annuals which ornament the flower-garden. The sweet pea 
 grows four or five feet high in rich soil. The plants should be tied to a stake 
 or an old tree. Sow the seed in April ; flowers in July. 
 
 Ageratum Mexicanum. — A half hardy annual, with light blue flowers. 
 Seed sown in May ; flowers in July, blooming profusely until killed by the 
 frost. 
 
 Alyssum Ifaritimum, or Sweet Alyssum. — This is a hardy annual, growing 
 one foot high ; flowers white ; very fragrant. Seed may be sown in autumn 
 or early in spring. 
 
 Cacalia, or Scarlet Tassel Flower.— A. veiy pretty annual, with scarlet 
 and orange tassel-shaped flowers. Seed sown first of May ; blooms from 
 July iintil October. 
 
 EschschoUzia California, or California Gold Flower. — Flowers bright 
 yellow, very showy. This, with slight protection during winter, will flower 
 the second season ; blooms from June until October. 
 
 Clarhia Flegans. — A hardy annual, vei^ showy. Seed sown in Septem- 
 
Seo. 31.] THE FLOWER-GARDEN. ' 505 
 
 ber flowers nuicli better than when sown in spring. For sirring sowing, 
 plant early in April, in poor soil. 
 
 Ifirahilis Jalapa — commonly called Four- o'clock, from its habit of 
 opening its flowers about that time in the afternoon. Mirabiiis \& a Latin 
 word for wonderful. The roots of this plant, when dried, form the principal 
 constituent of the jalap of druggists. It is generally considered an annual ; 
 it has a large tuberous root which, if taken up in October, and stored in a 
 dry cellar, will flower the second season. Seed sown in April ; flowers 
 in June. 
 
 Scahiosa, or IToiirning Bride. — A variety of colors, from a jet black to a 
 deep lilac. Seed sown in May ; blooms in the latter part of June. 
 
 Zinnia Elegans. — One of the most showy annuals in cultivation ; flowers, 
 brilliant scarlet, white, orange, and light j)urple. The new double-flowered 
 Zinnia forms a beautiful addition to this class of annual flowers. The flowers 
 resemble the double French marigold ; they will bear transplanting. Seed 
 sown in May ; blooms in July. 
 
 Clintonia Elegans. — A beautiful, tender annual, covered with deep-blue 
 flowers ; grows about six inches high. Seed sown in May, in light, rich soil ; 
 blooms in July and August. 
 
 Gomphrcna Glohosa, or Globe Amaranihus. — Five diflferent colore ; the 
 seeds are rather ditficult to vegetate ; they require to be soaked in warm 
 water. The flowers, if gathered and kept in a dry place, will retain their 
 color for several years. Seed sown in May. 
 
 Mignonette is one of the sweetest of the annuals. Thousands of pots of it 
 are sold annually in the markets of Paris and London. It has been found 
 growing upon the walls of ruins near Paris, springing from every crevice 
 where the seed could germinate, and scenting the air with its fragrance. 
 Tlie mignonette is of very easy culture ; in rich soil it grows luxuriantly, but 
 with poor flowers, that have little or no fragrance ; but in poor soil the flow- 
 ers will be large and very fragrant. When once the seeds are planted, it 
 will retain possession of the soil, springing \ip year after year. Seed sown 
 in May almost upon the surface of the soil. 
 
 Among the curious annuals is tlie Mimosa, or Sensitive Plant. Seed, 
 sown in the open ground in May, in rich soil. This singular plant, at the 
 slightest touch, closes its leaves. 
 
 " Weak with nice sense tlie chaste mimosa stands, 
 From each rude touch withdraws her tender hands." 
 
 MeseinbryantKemum., or Ice Plant. — This curious plant has thick leaves, 
 which have the appearance of being covered with ice ; very ornamental for 
 vases. Seed sown in May. 
 
 Loasa Acanthifolia. — A running vine, covered with curious yellow flow- 
 ers; the stem and leaves are covered with hairs or small bristles, which, 
 upon being touched, leave a stinging sensation similar to nettles. Seed 
 sown in May. 
 
 Coix Lachryma, or JoVs Tcar^^K. kind of ornamental grass. It is called 
 
506 ■ THE GARDEN AND ITS FRUITS. {Chap. V. 
 
 Jolt's fears on account of its shining, pearly seed, which, by a considerable 
 stretch of the imagination, may be likened to a falling tear. Seed sown in 
 May half an inch deep. 
 
 The Avena, or Animated Oat, is a curiosity. AVhen the seeds have fallen 
 oif, their strong beard is so sensitive to the various changes of the atmo- 
 sphere, that they are continually in motion, like some insect crawling on the 
 ground. Seed sown in April. 
 
 Anagaliis, or Pii»pernci.—A dwarf-trailing plant, with blue and pink 
 flowers. Tiie anagaliis has been termed the Poor Man's Barometer. Not 
 the pimpernel alone closes its flowers when exposed to damp air, but many 
 other plants are equally sensitive. Stdlaria Media, or Chickwecd, and many 
 others, shut their flowers upon the approach of rain. 
 
 Another gardener gives the following list as a choice selection for a small 
 garden : 
 
 Ali/ssum 2faritimurn — Sweet Alyssum. — A very desirable dwarf annual, 
 M-ith small, white, honey-scented flowers. in great profusion, blooms for a 
 long time. 
 
 Asters. — Showy, hardy annuals. The fine German and French asters are 
 certainly among the finest flowers we have. 
 
 BaUams. — ^The camelia-flowered balsams are most beautiful, and very 
 desirable. 
 
 Cacalia, or Tassel Flower. 
 
 Calliopsis, or Coreopsis. — Very showy and i-ich. 
 
 Candytuft. — A large quantity should be grown of this plant for bouquets. 
 
 Clarkia. 
 
 Eschscholtzia. — Yery showy and handsome. 
 
 Everlasting Flovxr. — Fine for winter bouquets. 
 
 Four-o' clocks. — A well-known plant, desirable in large gardens. 
 
 Glohe Amaranthus. — Excellent for winter bouquets. 
 
 Jacohea, or Senecio. — Very pretty. 
 
 Marigold. — The dwarf varieties are pretty. 
 
 Mignonette. — Sow plenty of this for bouquets. 
 
 Nasturtiums. — Tlie dwai-f varieties much resemble Tom Thumb gera- 
 niums, and are very desirable. 
 
 Nemophila, or Love Grove. — Plants with very small but pretty flowers. 
 • Dwarf. 
 
 Petunias. — Among the verj' best plants ; of easy culture, and flowering 
 profusely the whole season. 
 
 Phlox Drummondii. — The very best annual; of long duration in bloom, 
 rich in color, excellent for bouquets ; unequaled in all respects, in my esti- 
 mation. 
 
 Poppies. — Very showy, and great variety. 
 
 Portulaea. — One of the best annuals. 
 
 Scabiosa, or Mourning Bride. — Showy. 
 
 Stocks. — Many annual varieties are cultivated, and are very desirable. 
 
 Sweet Sultan. — Quite pretty. 
 
 Whitlavia. — A very beautiful blue flowering annual. 
 
 Zinnia. — Very showy, free flowering plants. 
 
 573. Hardy Flowering Herbaceous PlantSi — The following list gives a good 
 
Seo. 31.] THE FLOWER-GARDEN. 507 
 
 assortment of some of the most desirable hardy flowering plants, some of 
 whicli grow and bloom in beauty every year with almost no care. Of 
 course the list can be greatly extended, or selections can be made from this 
 and others to suit each taste. To many who do not know what to select, 
 these lists Avill be useful guides. We will briefly notice some of the most 
 desirable sorts. 
 
 Achillea Ptarmlca. — Of the double-flowering variety, dwarf, continues in 
 bloom a long time, good for bouquets, flowers small, of a pure Avhi'e. 
 
 Aconite. — Monkshood, mostly with blue flowers; various liights. 
 
 Althea Rosea. — Hollyhock, double varieties, very beautiful, all colors ; 
 six or seven feet high. 
 
 Anemone t/ajyofiica.—Ja'p^ncso Wind-flower, purplisli red flowers, double; 
 about two feet in bight. 
 
 Baptisia Australis. — False Indigo, fine blue flowers ; two to three foet 
 high. 
 
 Campanula. — Bell-flower, many varieties, with M-hite and blue flowers ; 
 various bights, all pretty. 
 
 Delphinium. — Larkspur, one of the best herbaceous plants, with fine blue 
 or white flowers. D.formosum and grandifiorum are the best. 
 
 Dictammus Fraximella, or Gas plant. 
 
 Dielytra, or Dicentra Sp>ectahilis. — The very finest herbaceous plant. 
 
 i^K«Ka, or Day lily, many varieties; all desirable. 
 
 Iris, or fleur de lis (flower de luce). 
 
 Lychnis Chalccdonica. — The double variety has splendid scarlet flowers. 
 
 Phloxes, — A splendid class of plants, all beautiful, without any exception. 
 
 Pyreihnwi. — Feverfew, double white flowers, very neat and pretty. 
 
 Spirea. — Meadow Sweet, many varieties, all desirable. 
 
 Ti'adescantia. — Spiderwort, with white, blue, or red flowers, very pretty. 
 Valerian. — A tall-growing plant, with fragrant white flowers. 
 Yiola Odorata. — Sweet Yiolet, very fragrant. 
 
 Chrysanthemum. — Much improved of late years, and in several varieties, 
 is one of the most desirable of hardy flowering plants, and is very much 
 loved wherever known. It is one of the very last to flower and cheer us 
 with its many-headed blossoms for the last three months of the departing 
 year, when most other plants have gone their way. Then, again, it is one 
 of the very best window plants. It not only flourishes, but luxuriates in- 
 doors, if properly cared for. As floral ornaments for the green-house and 
 conservatory, they are unsurpassed. 
 
 To get early flowers from chrysanthemum seed-plants, you must sow the 
 seed early in April in pots in the house, and transplant, or else sow seed in 
 a very nicely prepared warm bed in May. Be careful to thin out, so as to 
 give ample room for the plants to branch out. 
 
 574:. Bulbous Flowering Plants* — The earliest flowers of the garden come 
 from bulbs planted in autumn. In a well-prepared bed, nicely sheltered 
 with a coat of leaves, the crocuses begin to bloom almost as soon as the 
 
508 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 covering is removed, after the frost is out of the ground. All tender bulbs 
 and perennials under a coating of leaves will keep sound till spring. It is 
 necessary to lay brush or something else over the leaves, to hinder their 
 blowing away by the winds. Leaves make the best kind of covering for all 
 tender things. Frost rarely penetrates through a thick coating of them, as 
 may be seen during our most severe weather; by removing a bed of leaves 
 the ground will be found unfrozen. 
 
 There is no sight more striking to the eye than the effect produced in early 
 spring, when delicate snowdrops and the modest, many-colored crocuses 
 enamel the lawn, or make the garden lovely with their stainless purity, and 
 with the brilliancy of their colors. Coming, as they do, before the swallow, 
 these firstlings of the season have a special claim to the popular regard. 
 They are the harbingers of buds and blossoms, of leafy trees and unbound 
 waters, of sunshine and of singing birds, and when their tender green spears 
 begin to push themselves through the soil, we know that nature is awaken- 
 ing from her winter slumbers, and that more genial weather is at hand. 
 These little pilgrims that come to us with glad tidings, and that put on for 
 our delight the gayest robes, and silently, yet eloquently, assure us that we 
 are entering upon a new cycle of soft sunshine, and bland airs, and fragrant 
 odors, deserve to be more cherished than they usually are by all country- 
 women. Of all the flowers that bloom, those that come to us earliest are 
 entitled to receive the most cordial welcome, and it is for this that we appeal 
 in behalf of the more general culture of bulbous flowers. 
 
 Wc appeal to all farmers' wives and daughters for a more general cultiva- 
 tion of flower gardens and parterres around the house, because we believe 
 in their humanizing influences ; in the lessons they teach, and the sympa- 
 thies to which they appeal. We believe every family who has ground 
 should cultivate Ilyacinths, Tulips, Jonquils, Crocus, Crown ImpeAals, 
 Iris, Snowdrops, Polyanthus, Warcissus, Double Narcissus, Lilies, Gladio- 
 lus, and Dahlias. To these add Peonies, Diehjtra, {Dicenti\i) Spectabilis, 
 and many other hardy herbaceous plants, such as Hollyhocks and the 
 Phloxes, Yucca filamentosa, etc. 
 
 Of all the bulbous flowering plants, the gladiolus takes the lead, accord- 
 ing to our fancy. The varieties of G. (/andavensis are numerous, robust, 
 stately, with beautiful taper leaves of bright green, and long racemes of ex- 
 quisitely beautiful lilj'-shaped flowers, comprising every variety of shade 
 of colors, which can be kept up by timely planting from July to October in 
 the open air; and then, before hard frosts come, if stalks with undeveloped 
 buds are cut and set in water in the house, they will continue to bloom some 
 time longer. The bulbs must be taken up for winter, and need about the 
 same protection as onions. 
 
 Several bulbs, hyacinths in particular, may be grown in any room where 
 water will not freeze, in glasses adapted to the purpose, so that the bulb 
 rests in the mouth of the glass, and sends its roots down into the water. 
 Dark-colored glasses are preferable to white glass. The water should not 
 
Seo. 31.] THE FLOWEU-GARDEN". 509 
 
 be allowed to rise more than to touch the bottom of the bulb ; otlierwise 
 thej will rot. When first put in glasses, they should be stored away in a 
 dark, cool place, till the roots are about an incli long. If the roots do not 
 grow vigorously, give two or three drops of hartshorn in each fresh supply 
 of water, and put in the glass a small lump of charcoal. The water should 
 be changed every fortnight, or tlii'ee weeks at farthest ; but to do this the 
 jilant must not be taken out, but the glass held horizontally, and the water 
 poured ofi'. Soft or rain-water sliould alwaj's be used. By this mode of 
 treatment, and not keeping them in too warm or close a place, they will 
 bloom beautifully. 
 
 They may also be grown in the house in pots, in the open light and air. 
 The bottom of the pot should liave plenty of broken tiles in it to allow of 
 perfect drainage, and be frequently, but moderately, supplied with water. 
 Do not stand tlie pots in saucers of water. 
 
 575. The Hollyhock is a fine flower to grow in clumps about a lawn, and 
 may be made perennial by not allowing the stalks to ripen seeds. As there 
 have been great impi-ovements made in these flowers, we annex the names 
 that two dozen fine sorts are known by among seedsmen. 
 
 576. Select List of UoUyhOCkSi — 1. Anak (Bircham). — Crimson ; flowers of 
 a fine form and full. 
 
 2. Black Prince (Gibbon). — Flowers large and veiy double ; black. 
 
 3. Brcnnus (Bircham). — Light crimson ; a fine, showy variety. 
 
 4. Churl I s Baron (Ohater). — Flowers very large and full; color pink, 
 sliadcd with sahiion. 
 
 5. Beauty of Chestnut (Paul).— Flowers of a very fine form ; spike -ong, 
 and beautifully furnished with flowers of a beautiful bright rosy red; a very 
 fine variet}'. 
 
 6. Charles Turner (Black). — Spike very close ; fiowers of fine form, large, 
 and of good substance ; color deep crimson ; extra fine. 
 
 7. Comma7ider-in-Chief (Baron). — Flowers large and showy; dark-red. 
 
 8. Eva (Roake). — Flowers large, shape very fine ; color peach. 
 
 9. Emperor (Roake). — Form quite first-rate ; color a beautiful pink ; one 
 of the finest. 
 
 10. Felicia (Bircham). — Flowers and spike of excellent form and sub- 
 stance; color amethyst ; extra. 
 
 11. General Bern (Veitch). — Spike very fine, flowers full size: color 
 briglit red. 
 
 12. lion. Mrs. Ashley (Roake). — Flowers medium-sized, of great depth, 
 and very double ; color a delicate peach. 
 
 13. Lilac Model (Chater). — Flowers medium-sized, full, and of good sub- 
 stance. 
 
 14. Mrs. Foster (Turner). — A noble spike ; flowers large, of first-rate form ; 
 color beautiful light rose. 
 
 15. Miss Parsons (Parsons). — Spike full; flowers medium and close; 
 color pinkisli salmon ; fine. 
 
 16. Maynum Bonum (Baron).- — Flowers very large ; guard petals broad, 
 but not quite substance enough ; very showy. 
 
 17. Margaret Ann (Black). — Spike very fine; flowers good form, very 
 compact ; color bright rose. 
 
510 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 18. Model of Perfection (Baron). — Many better models at the j^resent 
 day ; color creatny white. 
 
 19. Susannah (Veitch). — Flowers medium-sized and moderately smooth ; 
 color creamy white. 
 
 20. Pyramid (Parsons). — Flower medium-sized ; spike close and good ; 
 color buff. 
 
 21. Poupre de Tyre (Bircham). — A noble sjiike ; flowers large and free ; 
 color rich dark-purple ; a first-rate variety. 
 
 22. Penelope (Bircham). — A very showy and beautiful variety ; color fine 
 rose. 
 
 23. Walden Gem (Chater).— Spike very fine; flowers large and of fine 
 form ; color deep crimson. 
 
 2-1. Minnie Gray (Loring). — Size medium, form good; color white. 
 
 As these have all been produced by planting seeds, and saving none but 
 the finest flowering plants, we recommend a continuance of the practice by 
 all who grow hollyhocks. 
 
 577. The Verbena is an almost indispensable plant in lawns, it is so pretty 
 to fill up cut figures in the sward. The name, verbena, is an unmeaning 
 one, being derived from the Latin herha, which means any low, spreading 
 plant. This plant has been very long in cultivation, and it was used in 
 ancient times in some of the sacred ceremonies, the altars and priests' heads 
 being wreathed with verbenas. Celsus speaks of the use of verbenas as a 
 febrifuge in sickness, but it is doubtful whether it was the same plant known 
 now by this name. Tlie verbena is indigenous in the country of Buenos 
 Ayres, and was taken from there to England in 1825, and to this country 
 ten years later, by Robert Buist, of Philadelphia. Now it is known every- 
 where and is everywhere a favorite, as its cultivation is simple, and its low- 
 creepiug habit and pretty floM'ers will keep it in favor until some new rival 
 comes to take its place. It flourishes best in sand}', rich loam, in garden- 
 beds, and blooms from midsummer till late in autumn, and if potted, con- 
 tinues in bloom through the Avinter. Verbenas do not require frequent 
 watering; they will grow upon very dry ground, and wet in excess mildews 
 and injures them. For pots, take half-and-half leaf-mold and good loam, 
 and add sand enough to give a preponderance of sand in the whole mixture. 
 As it is naturally a running plant, it must be cultivated in that Avay, and 
 not, as M'e have seen it, with stiff, upright stems. Nothing is more easy 
 than producing new varieties of colors iu verbenas. AVe have only to grow 
 seedlings and select the best and cast away the remainder. All colors, ex- 
 cept light-blue and yellow, have been obtained. The following are the 
 names of a few of the latest new varieties, with their characteristics an- 
 nexed : 
 
 Giant of Battles. — Flower and truss large, habit good, foliage large; color 
 dark-scarlet, with purplish ej'c ; a new imported variety. 
 
 Dred. — Flower medium, habit weak, a good bloomer, but of a dull, pur- 
 plish, lake color ; pretty for variety. 
 
 Admiral Dundas. — Foliage and habit good ; color velvety scarlet ; fine. 
 
 Celestial. — A strong, rapidly growing variety, the leaves often two inches 
 
Seo. 31.] 
 
 THE FLOWER-GARDEN. 
 
 511 
 
 across ; truss large, elongated, forming a fine head ; color pink, with darker 
 eye ; desirable for its size and color. 
 
 Mrs. Ahhott. — Habit and foliage good, truss small ; color very dark, 
 velvety purple, light eye; fine. 
 
 Evening Star. — Color dark-crimson, with well-defined whitish-pink eye ; 
 growth small ; a decided novelty, and a very striking fiower. 
 
 liosij Gem. — A lovely verbena, foliage and fiower of medium size ; color 
 rosy lake, Avitli light eye ; extra fine. 
 
 For an ordinary purpose, however, some that have been long" in use, that 
 can be bought for a tenth or a hundredth part of the price of these new 
 sorts, might give equal satisfaction, for the varieties have been so multiplied 
 that it is ditticult to tell which are the favorites. 
 
 578. Flowers Grown as a Farm Crop. — There are many persons in France 
 who grow flowers as an exclusive crojj. It is their sole dependence. "The 
 growing of flowers, for tlie production of fine essential oils and for medicinal 
 purposes, is confined mainly to the southern portion of the department of 
 Var, lying on the Mediterranean, adjoining the late Italian, but now French, 
 province of Nice. There are extensive factories in Nismes, Montpelier, 
 Nice, and in Algeria, but the great center of this branch of industry is the 
 town of Grasse, lying some few miles inland, and its sea-port, Cannes, the 
 winter residence of Lord Brougham. 
 
 " It would be impossible to state, even approximately, the product of the 
 flower-fields of this interesting region. Tliere are no less than sixty factories 
 in Grasse, giving employment, in the various departments of field and in-door 
 labor, to 5,000 persons. Many manufacturers grow their own flowers, others 
 buy them in the open market daily, and still others are supplied by con- 
 tracts. The latter system prevails among the leading houses. Contracts 
 are made at a fixed |)rice for a term of years for the total product of a farm, 
 at rates varying from 8 to 10 cents per kilogramme (2} lbs.) of rose leaves, 
 up to $1 for tuberose leaves, and even higher rates for violet leaves, which 
 last are mainly grown at Nice. The average prices are about as follows : 
 
 cents the kilogramme. 
 
 Rose leaves 8 to 1 cents the kilogramme. 
 
 Jessamine 40 to 50 ' ' " 
 
 Orange 40 " " 
 
 Acacia 60 to I 
 
 Tuberose 100 
 
 Violet 80 to 1 30 
 
 " These are the leading garden flowers used in Grasse ; only small quanti- 
 ties of the jonquil, narcissus, mignonette, etc., are cultivated. A great 
 breadth of land is devoted to lavender, rosemary, thyme, and other medic- 
 inal plants, which are sold at much lower rates than the above. 
 
 " The preparation of all these plants divides itself mainly into four classes : 
 essential oils, distilled waters, pomades and oils, and dried flowers. The 
 great bulk of essential oils produced consists of lavender, rosemary, sage, 
 thyme, spikenard, and others of a terebinthine nature ; the most valuable 
 oils produced in any quantity are those of Neroli and Petits Grains. The 
 former is the result of the distillation of orange-flower water from the petals 
 of the flowers of the Bigarade, or bitter orange (the sweet or Portugal or- 
 ange yielding an inferior product), and the latter is obtained from the green 
 
512 
 
 THE GARDEN AND ITS PEDITS. 
 
 [Chap. V. 
 
 leaves of the same tree. The price of Neroli varies, with the seasons, from 
 $30 to $45 the pound, and of Petits Grains from $8 to $12. These two oils 
 are extensively used in the composition of Cologne water, and in combina- 
 tion with bergamot, give it its distinctive character. The orange-flower 
 M-ater is consumed in immense quantities in France, in the ' eau sucree,' so 
 universally drank in the hot season. This, by tlie way, is the only shape in 
 which a Frenchman will drink water at all. The Bigarade orange-tree re- 
 quires ten years to mature and twenty to obtain perfection, and yields an 
 average of seventeen pounds of flowers per annum. 
 
 " Eose water is also distilled in large quantities. A result of its distillation 
 is an exceedingly small quantity of otto of rose of the very highest quality ; 
 it appears in small supernatant grains or drops, which are carefully skimmed 
 oS" and rectified. It is superior to the famous Kizanlik, or Turkish otto, 
 and congeals, at ordinary temperatures, in beautiful, transparent crystals. 
 The ' Rose de Mai,' or double May rose, is the oiie universally grown. 
 
 " Another very costly article, of which less tlian one ounce had been pro- 
 duced in 1855, is the essential oil of jessamine. Up to that period its exist- 
 ence in the plant was stoutly denied by the distillers, although to what other 
 principle the fine odor of the plant was due, the}' failed to prove. In that 
 j-ear an Algerian chemist obtained a minute quantity, which cost him, as 
 we were informed, at the rate of 17,000 francs the kilogramme, or $90 the 
 ounce. It has, since then, been produced at a cheaper rate, but still toe 
 dear for commercial purposes. The wild Arabian jessamine is grafted on 
 the cultivated plant of the same species, acclimated, and bears for many 
 years, if not winter killed, yielding 90 to 150 lbs. of flowers per thousand 
 plants. It is closely trimmed in spring, and deeply covered in winter. The 
 caterpillar is its most formidable enemy. 
 
 " A most important branch, and one in which great i-ivalry exists, is the 
 preparation of perfumed pomades and otto, which have a two-fold use : first, 
 as bases for the finer kind of pomatums and hair oils ; and next, as a me- 
 dium for obtaining spirituous extracts for the toilet, such as Lubin's well- 
 known extracts for the handkerchief. Their preparation is the most in- 
 teresting and curious feature of the Grasse establishments, and merits a word 
 of description. For the oils, the inodorous virgin olive oil is used, expressed 
 from olives just before their maturity. 
 
 " The pomade ' bod}',' which is prepared in winter, is composed of one 
 part of beef suet and two parts of leaf lard, thoroughly hashed, washed in 
 sevei-al Avaters, and among the best manufacturers it is washed several times 
 in rose water to deprive it of all unpleasant odor, and then carefully melted 
 and stored away in huge tin cans in airy, cool vaults, for use in the sea- 
 son of flowers. The busy operations of the year commence with the rose 
 season. 
 
 " There are two processes for impregnating the pomade body and the oils 
 with the floral odors — one by infusion, the other by ' enfleurage.' The 
 first is employed for the strong, less volatile odors of the rose, orange, and 
 
Ssa 31.] THE FLOWER-GARDEN. 513 
 
 acacia ; the latter for the sensitive, ethereal perfumes of the jessamine, tube- 
 rose, joiKj^uil, and all the bulbous tribe, which will not endure the applica- 
 tion of even a moderate degree of heat. 
 
 " And first, liy infusion ; about 100 kilogrammes of the pomade body are 
 put into a tin-planished copper water-bath, melted at a low temperature, and 
 charged, at daybreak, with a certain quantity of the freshly gathered flow- 
 ers, which are stirred constantly during the day and night, the mass being 
 kept only warm enough to maintaim a semi-fluid state. About midnight it 
 is removed from the fii-e, put into strong bags made of fish-cord, and suli- 
 jected to heavy pressure in large, perforated, vertical iron cylinders, stand- 
 ing on marble bed-plates, which are gently warmed to prevent the conge- 
 lation of the exuding mass. Next morning fresh leaves are added, and the 
 process repeated daily until the desired strength of perfume is obtained, 
 when the pomade is put into cylindrical tin boxes and sealed up for ship- 
 ment. The oils are treated in like manner, but are filtered instead of pressed. 
 
 "In preparing the oils, coarse, heavy, spongy cotton cloths, made especially 
 for this purpose at Marseilles, are saturated witli oil and spread upon the 
 netted frames ; flowers are then strewn thickly upon them, and they are 
 piled up in like manner as the pomades. AVhen sufficiently charged with 
 odor, the oil is expressed from the cloths by powerful levers. 
 
 " Many hundred-weight of flowers and herbs are dried annually, and arc 
 variously used in the healing art, and in the composition of scent-bags, 
 caehous, fuming pastils for the sick chamber, and kindred compounds of the 
 perfumer's art. 
 
 "The Parmezan, or double violet, is grown under the shade of trees, and 
 yields a delicate and delightful perfume. It was the favorite odor of the 
 Athenians under Pericles, and is now the fashionable scent of the Parisian 
 heau monde. 
 
 "The flower farms receive the highest culture; under-draining is not 
 practiced, but great attention is paid to irrigation. Some fields have a com- 
 plete network of irrigating tubes substantially laid in cement. A constant 
 warfare is waged upon insects, each plant having, as with us, its pet borer, 
 grub, or bug, and ' eternal vigilance is the price' of success. The heat in 
 summer is intense, though tempered by the sea breeze, and the winter is at 
 times as rigorous as in AYashington or Richmond. 
 
 " Labor costs, per day, 35 to 40 cents for males, and 15 cents for females." 
 
 There is no other reason than that contained in the last sentence why flower 
 farms can not be established in this country as well as France. The ques- 
 tion rests entirely upon the cost of labor. 
 
 579. Soil for Flowers— fompost for Potting— Protectinsr from Insects.— All 
 flowers require a deep, rich, well-drained soil, and that should be annually 
 fertilized with a fine compost, in which wood's eartli or leaf-mold pi'edom- 
 inates. Tiie following directions of a practical gardener, though given 
 mostly in reference to potting plants, will be found useful, the same soil 
 being good for flower-beds, particularly for an annual dressing. 
 
514 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 " To liave suitable compost for plants, the diiferent soils sliould be mixed 
 for some time before they are wanted. In making composts, the following 
 soils should be obtained: First, soil and turf from an old pasture ; second, 
 decoujposed horse or cow manure; third, peat soil or leaf mold from the 
 woods ; fourth, white sand ; fifth, coarse sand or gravel ; sixtli, charcoal and 
 broken pots. The charcoal and broken pots are for drainage. A suitable 
 compost for fuchsias, roses, and geraniums consists of one part white sand, 
 one of leaf-mold, and one of decomposed manure and turf-mold. These 
 should be well mixed togetlier and sifted before using. A compost for cac- 
 tus is made of sand, leaf, and turf-mold, with a good drainage of charcoal 
 and broken pots. All bulbous roots require a very rich soil composed of 
 equal parts of sea sand, rotten cow manure, peat soil, and good turf-mold. 
 
 " In taking plants out of pots, all that is necessary is to put the hand on 
 top of the dirt and then turn the pot bottom up, and hit a gentle rap, and 
 the ball of earth will slip out. Most people water plants too little. Two or 
 three times a week is necessary, or oftener in a dry stove room. 
 
 " To grow flowers in the greatest perfection, gardeners often cover them 
 and take gi-eat pains to preserve them free from contact of insects or the 
 pollen of other flowers. 
 
 " The thing of most importance in potting is suitable soil. Many persons 
 imagine that all that is requisite is earth, be it good or bad. We have seen 
 plants potted in common street manure, the owners laboring under the im- 
 pression that it was the very best kind because it was black. 
 
 " Unsuitable soil and large pots generally given to small, weak plants for 
 the purpose of causing thcnx to grow, is, in nine cases out of ten, the cause 
 of their death. 
 
 " Giving small pots to weak plants encourages the growth of the roots 
 toward the side of the pot in search of air and moisture. In potting plants, 
 glazed pots should never be used, as they prevent the evaporation of all im- 
 purities through the sides of the pot. 
 
 " Of all the insects which infest house plants, the green fly, red spider, 
 and mealy bug are the most diSicult to get rid of They are easily de- 
 stroyed in the green-house by tobacco smoke. For parlor plants, take a 
 pail of soft water, invert the plant over the pail, cover the surface of the pot 
 with a piece of paper to prevent the soil from falling out, and brash the 
 leaves downward with a dust brush, dipping the plant in the water several 
 times. The mealy bug may be found in the axils of the leaves of orange- 
 trees, camelias, passion flowers, and various other plants. They look like 
 small specks of cotton, and are only to be got rid of by picking them ofi^. 
 If plants should happen to get frozen, they should be syringed with cold 
 water and screened from the rays of the sun. Thus plants are frequently 
 saved that would otherwise be destroyed." 
 
Sec. 32.] 
 
 LAWKS. 
 
 515 
 
 SECTION XXXII.-LAWNS-HOW TO MAKE AND HOW TO KEEP THEM- 
 TREES AND PLANTS SUITABLE FOR LAWNS. 
 
 COUNTRY house -without a lawn ! it is a house 
 in a desert ! It is not a structure in the midst of 
 beauty. There is nothing — not even expensive 
 statuary, flowers, and shrubbery — that adds so 
 much to the surrounding embellishments of a 
 farm-house or suburban residence as green grass upon 
 a well-kept lawn, and it is a beauty that is permanent 
 and inexpensive. If the ground is well under-drained 
 and the grass well dressed in the fall, it will start fresh 
 as soon as the snow is off, and often earlier, and it 
 keeps green through the most severe droutli upon 
 ground that has been well prepared. With here and 
 there a shade, what a lovely sight it is to see children 
 playing upon a smooth lawn ! With what glee they 
 run from tree to tree, the old dog joining witli great 
 satisfaction in the sport! In spring, in summer, in autumn the lawn is beau- 
 tiful, and even in winter it speaks of refinement of the resident occupants. 
 It tells, too, of art and industry in man, since lawns are seldom, if ever, found 
 in a natural state. The sea of grass upon the Western prairies is only beau- 
 tiful when seen at a distance. It does not bear close inspection like the vel- 
 vet}' sod of a lawn. 
 
 Whenever we see a lawn turning brown in snnmier, we know that it was 
 neither trenched with the spade nor subsoil plowed, without which manuring 
 will not always preserve its perpetual green. 
 
 Those who build country houses are too apt to expend tlieir means upon 
 a grand mansion, expensive out-buildings, ornamental fences, fine carriages 
 and horses, and sometimes gaudy, inappropriate furniture, wliich is all un- 
 satisfactory to visitors of refined tastes, if the grand house is not embowered 
 in trees, and has no grassy lawn. 
 
 580. IJOW (0 Set a Lawn in Grass. — A small lawn may be covered witii 
 sods; a large one nnist have the sod formed uim.iu it. Two quarts of white 
 clover seed, mixed with a bushel of the chafly seed of red-top, and sown 
 evenly upon the third of an acre of well-prepared ground, will form a fine 
 lawn turf. Some add a little seed of the vernal or sweet-scented grass that 
 is so fragrant in new-mown hay. To make the ground perfectly level and 
 smooth, if the space is small, rake it carefully ; if it is large, use the roller. 
 If you intend to use sod, prepare the ground as smooth as possible after 
 having worked it deep and finely pulverized, and then go with your bar- 
 row, if the distance is short, to the spot where you will cut your turf. If 
 
516 HOW TO KEEP A LAWN. [Chap. V. 
 
 ftir distant, of course a cart must be used to haul home the load. If less 
 distant, an ox-sled will be found more convenient. In cutting sods, do 
 not take them up by the spadeful, but stretch a line and cut throiigli the sod 
 with a sharp spade. If much is to be cut, it would be better to do it with a 
 plow-coulter, ground sharp, and set in a beam with handles, and guaged to 
 the right depth. An implement could be made with but little expense that 
 would cut the edges and bottom all at once. If cut with a spade, Hue off 
 the courses exactly a foot wide, and cut the sods evenly one and a half 
 inches thick and roll up a course upon a handspike as big as two men can 
 carry to the vehicle that is to transport it, and carry the roll in the same 
 way to the ground prepared for your lawn and unroll just as you would a 
 carpet. Afterward use the roller or something to compact the sods down 
 firmly in place. 
 
 581. flipping the Lawn, — More persons fail in the care of than in the 
 making of a lawn. They can not see the necessity of the frequent clip- 
 pings, without which they can not have a good lawn turf. One has only to 
 look at the sod of a once-a-year clipped mowing field and compare that with 
 a closely-grazed pasture or roadside sod, and see which is preferable for a 
 lawn. Let it be set down as a rule, that a lawn can not be clipped too often, 
 and that it must be clipped twice a month, and that it will improve the sod 
 to roll it as frequently. If there is grass enough, so they would not wear it 
 out, a troop of playful children upon the lawn every day would make the 
 sod grow thick and firm and the grass fine and soft. It is a good thing for 
 a lawn to go over it every spring in a rainy day and scatter grass seed 
 wherever tliere is the least show of bare ground. 
 
 582. Watering and 3Ianuring the Lawn.— If you have a hydrant, have a 
 long hose with a sliowcring nozzle, and use it often in dry weatlier ; other- 
 wise you must, if you desire to sec your grass always green, water by hand 
 or with a Avatering cart or garden engine. It will greatly add to the ad- 
 vantage of watering if you will dissolve some fertilizing substance in the 
 water — a few pounds to a hogshead-full. You may use guano, salt, niter, 
 lime, potash, soda, and several other ingredients. If there are grubs in tlie 
 sod, salt them to death. Carbonate, pliosphate, or sulpliate of lime may all 
 be used at times to advantage on a lawn, sowed on in moderate quantity. 
 A dressing of well-decomposed compost is the only manure that should be 
 applied, and that in tiie fall or early spring. 
 
 583. Cause of Grass Dying Out upon Lawns.— Many persons who have 
 taken much trouble to make small grass-plats or lawns around their dwell- 
 ings have found the grass dying out without being able to account for it. 
 Kuth Lynde, a practical woman of New Bedford, Mass., gives the following 
 as the cause. The cure will be readily suggested by reading what she says. . 
 
 " I have had tlie grass destroyed in two different places M-here I have 
 resided, and found the same cause productive of the same result at each. 
 
 "During the winter and spring the servant girls were in the habit of 
 throwing soap-suds, after wasliing clothes or dishes, upon the grass-plat, and 
 
Seo. 32.] LAWNS. 517 
 
 I noticed invariably that the plantain and sorrel came up instead of the 
 grass. Here, at my mother's, I have a bit of a garden, and there is a grass- 
 plat also, and since I urged upon her notice the ill effects of soap-suds upon 
 the grass, and she commanded its discontinuance, the grass has come in 
 again, and much white clover with it. Most houses in the country have a 
 patch of plantain around the kitchen doors, and the same habit of throwing 
 out soap-suds is the cause of its growth." 
 
 Although this effect is produced by deluging grass with soap-suds at the 
 wrong season of the year, there is no better fertilizer than it for grass, if di- 
 luted and put on with a sprinkler. 
 
 58-4. A New Lawn Grass, or Evergretii Planti — Within a few years, a new 
 plant has been introduced into cultivation to a considerable extent in En- 
 gland, and to a limited extent in this country. It is more successful in the 
 moist climate of that country than it is in the drier climate of this, but it is 
 still worthy of notice. It is thus described : 
 
 "The new plant is called ' Sjx'rgida 2)ilifera,'' and is a neat-growing dwarf, 
 hardy, perennial-tufted Alpine plant, forming close, compact, wiry, grass-like 
 stems, from a quarter to half an inch in hight — at first erect, afterward decum- 
 bent, clothed with closely set green bristle-like leaves, which, by permanent 
 growth and occasional rolling, form an unbroken, level, velvet-like surface 
 of the richest conceivable verdure, remaining uninjured in severe drouth or 
 intense cold, and assuming the same beautiful verdurous tint during the 
 winter months as in summer. The seedling plant of this highly interesting 
 object starts into growth with a single unbranched, perpendicular radicle or 
 root, and afterward manifests a remarkable power of extension in its rami- 
 fying hair-like roots, penetrating to the depth of one to two feet; a fact 
 quite suflicient to account for its enduring the opposite extremes of severe 
 heat and cold. In addition to its hardiness, under the vicissitudes of an 
 English climate, its value is considerably enhanced in its adaptation to all 
 the varieties of common garden soil, requiring but a thin firm surface- 
 stratum of one-inch ordinary sifted or broken loam. Maintaining its ver- 
 dant freshness alike beneath storm and sunshine, it combines every needful 
 feature of adaptation with economy, and a uniform aspect of neatness witli 
 the least possible care or attention. Its fertility in bloom during the month 
 of July is equally beautiful, being at that period studded over with myi-iads 
 of low, compact, salver-shaped snow-white blossoms, appearing not as in 
 fancy, but in reality the living picture of an emerald-green velvet carpet, 
 spangled with innumerable stars. From the preceding remarks it will be 
 seen that the established growth of this plant maintains a dwarf close web 
 of green verdure, and entirely dispenses with the extra toil and expense of 
 •mowing; its numerous small brittle flower-scapes being removed by tlie 
 gentlest movement of a wing or brush over the surface of the hnvn, either 
 while in bloom or afterward, and these constitute the only snrface-growth or 
 tokens of its beauty, which require this operation but once a year. For 
 small or medium-sized lawns, terraces, verges, mounds, etc., this remark- 
 
518 ORNAMENTING LAWNS. [Chap. V. 
 
 ably interesting and beautiful little plant offers an object of great interest to 
 every lover of gardening pursuits, and every lady amateur cultivator may 
 superintend and personally manage the slight attentions required to pre- 
 serve the terrace margins or velvet lawn in the highest condition. The 
 permanent and uniform condition of dense growth, with the penetrative 
 power of its roots, preserves it from all risks of being parched by extreme 
 exposure in sultry weather, and the progressive accumulation of its moss- 
 like growth gives an elastic pressure to the foot, much softer than the finest 
 Turkey carpet. The seed may be sown either in or out of pots, -in the usual 
 method observed for fine seeds, with a slight but uniform covering of soil, 
 and placed within either a frame, cool pit, or green-house, using the usual 
 precaution of shading the seed-pans from intense sunlight daily for a few 
 hours, imtil well germinated, after which it may either be re-planted in 
 stores of ten to fifty plants within dishes or large pots, or otherwise planted 
 out in rather a shady border of the open ground for a few weeks, and ulti- 
 mately transplanted upon the prepared lawn-surtace in two or three plants, 
 within one inch or more of each other, and such little plant-groups may be 
 formed at a distance of six, nine, or twelve inches apart. In such positions 
 the growths will progressively meet and form the rich and beautiful surface 
 now described. It is also admirably adapted for picturesque green tufts 
 and edgings on avenue lines and borders, for grouping the front spaces of 
 massive rock-work, and surfacing partially raised mounds around classic 
 fountains and basins or artistic columns, where grass is unavailable for 
 mowing, and equally telling for cultivation in larger vases in alternate effect 
 with tlie silvery sheen of the beautiful Cerastiam tonientosum on terrace 
 verges and architectural approaches." 
 
 Another account says : " Plats established four years since, have grown 
 into a close sod, and give promise of a continual healthy endurance." 
 
 585. Ornamenting Lawns. — More ornamental than statuary, expensive 
 rock-work, or any other structures, ai-e well-arranged beds of flowers, and 
 groups of flowering plants and shrubs. These may be provided for in lay- 
 ing down a lawn, or the sod may afterward be cut out in foTn:s to suit the 
 fancy, for flower-beds. This kind of ornamentation should be attended to 
 by tlie mistress of the house, and if she have daughters, let them always be 
 advised or instructed in the plans, and in carrying them into execution. 
 Select neat plans for cutting tlie sod for flower-beds. In tliis follow nature. 
 Sometimes the form of a maple-leaf may be adopted. In other places, use 
 a grape-leaf, or a grapevine with several leaves, for the form of yom- bed. 
 Again, take the crooked branch and limbs of a tree for a pattern. 
 
 586. How a Woman Made aii^ Ornamented a Lawn. — The following letter 
 from a " Housewife" of Colchester, Vt., is worthy of a i>lace here, as en- 
 couragement to all other housewives to persevere in the same way, until they 
 also compel husbands to acknowledge their success. Our correspondent says : 
 
 "The cultivation of flowers, and beautifying the surroundings of home, 
 should be attended to as well as in-door work, lest that love of the beau- 
 
Seo. 32.] LAWNS. 519 
 
 tifiil, which is implanted in every heart, should perish through neglect. 
 Many housewives are so entirely devoted to cooking, house-cleaning, and 
 sewing, that they can not have a minute's time even for reading, except on 
 Sundays, and then they ' are so tired, they had rather rest than read.' 
 
 " I hereby advise them not to cook so much, not to scrub so much, and 
 sew with a machine. Others will say they have so many human flowers to 
 attend to, that they can not cultivate any others, and these will let their 
 door-yards run to waste and weeds instead of having them seeded down, and 
 flower-beds cut in the rich, green turf. 
 
 "I have cultivated a few of the common kinds of flowers ever since I M'as 
 a child, but have lost the delight of seeing some new, strange flower expand 
 its beauties to my view, because I knew not how nor where to procure an 
 assortment of choice, rare seeds. Last spring, I accidentally looked over a 
 flower-seed catalogue with much interest, because it was the first of the kind 
 I had ever seen. I found I could have new and lovely flowers at a very 
 trifling expense. My ambition was fired ; I gave my liusband no peace 
 until he had the kitclien-garden removed to the rear of the house, and re- 
 moved the fence which separated the old kitchen-garden and the door-yard, 
 thus making a fine little lawn. I got a man to help me — not a gardener — 
 we have no professed gardeners witliin ten miles. I drew the plan of my 
 flower-beds m^'self, and had the man cut them out of the turf in the desired 
 forms. 
 
 " Previous to this, I persuaded three or four housewives — all mothers of 
 families, with plenty to do— -to join me in sending for flower-seeds and roots. 
 Tiiese we exchanged with each other, thus obtaining a fine variety at a small 
 expense. We followed the directions given in the catalogue, and were very 
 successful with the most delicate seeds. My lawn was beautiful ; indeed, so 
 ricli and varied were the efi'ects of French and German asters, German 
 balsams, German stocks, English pansies, phloxes, verbenas, and dahlias, 
 from seed the first season, that my husband, who had at first ridiculed my 
 flower venture, was obliged to acknowledge its success. 
 
 "Last fall I sent for a few hyacinth, crocus, and early tulip bulbs, and 
 liad a fine display of flowers in our living-room during the dreary winter 
 months. My room is even now filled with the exquisite fragrance of hya- 
 cintlis, which still continue in bloom. I hope this article will attract the at- 
 tention of my toil-worn sisters ; they can have no idea what a source of 
 purest enjoyment the cultivation of flowers will be to them. Its in- 
 fluence has been very beneficial to my little ones, who watch the expan- 
 bidii of the delicate and wonderful buds with an interest fully equal to my 
 own." 
 
 5S7. Planting Lawn Trees. — "We beg of yon not to plant in rows, nor any 
 firm of mathematical precision. Follow nature; go to the woods for a pat- 
 tern, or rather to some natural park, like the bur-oak groves of Micliigan and 
 Indiana. Keep in view " what for?" every time you set a tree. The object 
 is either ornament or shade ; it is not to fill up. Keep also in view the fact, 
 
520 TREES IN LAWNS. [Chap. V. 
 
 that tlie tree you are planting is to grow. It requires a combination of skill, 
 taste, judgment, foretliought, that few jjersons possess, to plant the trees in a 
 lawn, great or small — from a door-yard to a royal park. 
 
 The great thing to remember is this : a short green grass and compact sod 
 is the leading beauty of a lawn or park, and trees and flowere are only 
 thrown in to fill up or hide ugly spots, or break the uniformity, or furnish 
 agreeable shade. Make everything — grass, trees, flowers, rocks, water. 
 Avails, fences — to look as natural, and just as little artificial, as possible, 
 and your lawn will excite admiration in strangers and satisfaction in 
 yourself. 
 
 You need not entirely exclude fruit-trees, shrubs, and vines from the lawn. 
 In some places an apple-tree may be entirely suitable. In others a 
 grapevine, to climb a blank wall or dead tree. A quince-tree at the 
 north, and an orange-tree at the south, would be ornamental in a park or 
 large lawn. Study fitness of things, and thus obtain beauty and utility com- 
 bined. 
 
 588. Botanical Names of Trees and Plants. — We do not know of a more 
 appropriate paragraph for this section than the following, which gives a 
 long list of names of trees suitable for planting in a lawn and other places, 
 for ornament and shade, with their proper botanical names, as well as 
 those Ijy which they are most commonly known. 
 
 It is so important for farmers, and particularly farmers' children, to learn 
 the botanical names of trees and plants, so as to be able to identify them by 
 the names common to the same trees in difl'erent localities, and the means ' 
 of obtaining such information in the country not being easy, we employed 
 Andrew S. Fuller, a horticulturist of Brooklyn, who has been all his life in 
 the nursery business, to make out such a list as Avill be most useful. In 
 proof of the necessity of using botanical names, look at the variety of names 
 in a single family ; for instance, the oaks, and so of the maples or the 
 birches. 
 
 If a pei'son speaks of a " birch-tree," what do we understand ? For several 
 years a paragraph has been floating through the press, i-ecommending a de- 
 coction of " walnut leaves" with which to wash horses in fly-time, as a cer- 
 tain preventive of annoyance from these pests of the horse and his rider ; 
 but we have never been able to find an individual that could tell for a cer- 
 tainty what the writer of that article meant by " walnut leaves." In New 
 England the term walnut is almost universally applied to the hickory 
 {Cai-ya) family, not even distinguishing between the five varieties of this 
 class of trees, all of which are spoken of in that section under the general 
 term of walnuts. At the South and West nothing rs known by the name 
 of walnut but the Juglans nigra (" black walnut"), and Juglans cinerca, 
 the butternut of New England, known at the West as the " white walnut." 
 Now, with such a confusion of names, who can tell what a writer means 
 when he talks about " walnut leaves ?" Let him add the botanical name, 
 and we can then understand. 
 

 
 
 
 
 
 
 
 
 
 
 
 
 Sec. 32.] 
 
 LAWNS. 
 
 521 
 
 
 5S9. Trees Indi 
 
 ^enoiis to the Uuited States : 
 
 
 
 
 Botanic Names. 
 
 Common Names. 
 
 Botanic Names. 
 
 
 
 
 Silver Mai>le 
 
 . Acer dasvcarpum. 
 
 Great-leaved Magnolia 
 
 .Magnolia macrophyUa. 
 
 
 
 
 Grcat-leavcd Maple . . . 
 
 . Acer macrophyllum. 
 
 Umbrella-leaved Mag- 
 
 
 
 
 Red Maple 
 
 . Acer rubrum. 
 
 nolia 
 
 .Magnolia tripetela. 
 
 
 
 
 Hxigiu llaple 
 
 . Acer saccharinum. 
 
 Broad-leaved Magnolia. Magnolia latifolia. 
 
 
 
 
 Black Maple 
 
 .Acer nignnn. 
 
 Florida Bread- tree. ... 
 
 . Malia azederach. 
 
 
 
 
 Striped Maple 
 
 . Acer striatum. 
 
 Ash- leaved Maple 
 
 . Negundo aceroides. 
 
 
 
 
 Hort,e Chestnut, or Buck- 
 
 California Negunda . . 
 
 .Negundo Califomicu 
 
 
 
 
 eye 
 
 .jEscuIus Ohioensis. 
 
 Pepperidge-tree 
 
 .Nyssa multiflora. 
 
 
 
 
 Ked-fiowering Chestnut. Pavia rubra. 
 
 Sour Gum-tree 
 
 .Nyssa aquatica. 
 
 
 
 
 
 
 
 
 
 
 
 . .(Esculus glabra. 
 ■ Betula populifolia. 
 
 Button Wood 
 
 . Platanus occiden talis. 
 . Platanus Californica. 
 
 
 
 White Birch 
 
 California Plane-tree. . 
 
 
 Yellow Birch 
 
 . Betula excelsa. 
 
 American Aspen 
 
 .Populus tremuloides. 
 
 
 
 
 Ked Birch 
 
 . Betula rubra. 
 
 Great Dentate Poplar. . 
 
 . Populus grandidentata. 
 
 
 
 
 Canoe Birch 
 
 .Betula papyracia. 
 
 Weeping Poplar 
 
 . Populus pendula. 
 
 
 
 
 Black Birch 
 
 .Betula lenta. 
 
 Birch-leaf Poplar. . . . 
 
 .Populus betulifolia. 
 
 
 
 
 White-heart Hickory . . 
 
 .Carya tomentesa. 
 
 Cottonwood 
 
 .Populus Canadensis. 
 
 
 
 
 Shagbark Hickory 
 
 .Caryaalba. 
 
 Balsam Poplar 
 
 .Populus balsamifera. 
 
 
 
 
 Shellbark Hickory .... 
 
 . Carya sulcata. 
 
 Cotton-tree 
 
 . Populus argentea. , 
 
 
 
 
 Bitternut Hickory 
 
 .Carya amara. 
 
 Variou.s-leaved Poplar 
 
 . Populus heterophylla. 
 
 
 
 
 Pignut Hickory 
 
 . Carya porcina 
 
 Custard Apple 
 
 . Percelia triloba. 
 
 
 
 
 Pecan-nut Hickory 
 
 American Chestnut. . . . 
 Chinquapin Chestnut. . 
 
 . Carya oliviformis. 
 
 . Castanea vesea. 
 .Castanea pumila. 
 
 Wild Plum 
 
 . Prunus Americana. 
 . Prunus Chicasa. 
 . Pyrus Americanus. 
 
 
 
 
 Mountain Ash 
 
 
 Catalpa 
 
 . Catalpa syring^folia. 
 
 Crab Apple 
 
 . Pyrus coronaria. 
 
 
 
 
 Nettle-tree 
 
 . Celtis occidentalls. 
 
 Willow Oak 
 
 .Quercus phellos. 
 
 
 
 
 Hagberry-tree 
 
 . Celtis crasslfolia. 
 
 Laurel Oak 
 
 .Quercus imbricaria. 
 
 
 
 
 
 . Celtis integrifolia. 
 
 Downy Black Oak 
 
 . Quercus tribola. 
 
 
 
 
 Wild Cherry 
 
 .Cerasus Virginiana. 
 
 Water Oak .. 
 
 .Quercus aquatica. 
 
 
 
 
 Choke Cherry 
 
 . Cerasus serotina. 
 
 Quercitron Oak 
 
 .Quercus tinctoria. 
 
 
 
 
 Judas-tree, or Red-bud- 
 
 Black Jack Oak 
 
 .Quercus nigra. 
 
 
 
 
 tree 
 
 . Cercis Canadensis. 
 
 Scarlet Oak 
 
 .Quercus coccinea. 
 
 
 
 
 White Fringe-tree. . . . 
 
 .Chionanthus Virginica. 
 
 Grey Oak 
 
 . Quercus ambigua. 
 
 
 
 
 wood Comus Florida. 
 
 Red Oak 
 
 .Quercus rubra. 
 .Quercus palustris. 
 
 
 
 Pin Oak 
 
 
 Red-flowering Dog wood. Cornus Sanguinca. 
 
 Shrub Oak 
 
 . Quercus ilicifolia. 
 
 
 
 
 
 .Diospyros Virginiana 
 
 Post Oak 
 
 
 
 
 
 
 Over-cup Oak 
 
 Mossy-cup Oak 
 
 . Quercus macrocarpa. 
 .Quercus olivifonnis. 
 
 
 
 
 White Beech 
 
 .Fagus Americana. 
 
 
 
 
 Black Ash 
 
 .Fra.xinus sambucifolia. 
 
 White Oak 
 
 .Querctis alba. 
 
 
 
 
 White Ash 
 
 .Fraxinus acuminata. 
 
 Chestnut Oak 
 
 Quercus prinus. 
 
 
 
 
 Walnut-leaf Ash 
 
 
 Yellow Oak 
 
 .Quercus cestauea. 
 
 
 
 
 Broad-leaf Ash 
 
 .Fraxinus latifolia. 
 
 Swamp White Oak. . . 
 
 .Quercus bicolor. 
 
 
 
 
 Long-leaf Ash 
 
 .Fraxinus longifolia. 
 
 Rock Oak 
 
 .Quercus montana. 
 
 
 
 
 Blue Ash 
 
 .Fraxinus quadrangu- 
 lata. 
 
 Stag's-horn Sumach. . 
 Smooth Sumach 
 
 .Rhus typhina. 
 .Rhus glabra. 
 
 
 
 
 Red Ash . . . 
 
 
 
 . Rhus copallina. 
 .Rhus venusta. 
 
 
 
 
 Honey Locust 
 
 .Gleditschia tricanthus. 
 
 Poison Sumach 
 
 
 
 
 Thornless Locust 
 
 . Gleditschia inermis. 
 
 Yellow Locust 
 
 .Robinia pseudacacia. 
 
 
 
 
 Kentucky Coifee-tree. 
 
 . Gymnocladus Canaden- 
 
 Gum Locust 
 
 . Robinia viscosa. 
 
 
 
 
 Black Walnut 
 
 sis. 
 . Juglans nigra. 
 
 
 . Taxodium distichum. 
 .Tilia Americana. 
 
 
 
 American Linden 
 
 
 Butternut 
 
 American Larch 
 
 .Juglans cinerea. 
 Larix microcarpa. 
 
 
 .Tiliaalba. 
 
 .Tilia heterophylla. 
 
 
 
 Paper Linden 
 
 
 Sassafras 
 
 . Laurus sassafras. 
 
 American Elm 
 
 .Ulmus Americana. 
 
 
 
 
 
 
 
 
 
 
 
 Tulip-tree 
 
 . Liriodcndron tulipifera. 
 
 River Elm 
 
 .Ulmus nemralla. 
 
 
 
 
 Osage Orange. ....... 
 
 . Madura aurantiaca. 
 
 WahooElm 
 
 .Ulmus slata. 
 
 
 
 
 Cucumber-tree 
 
 . Magnolia acuminata. 
 
 Yellow Wood 
 
 .Virgilia lutea. 
 
 
 
 
 Yellow Magnolia 
 
 . Magnolia cordata. 
 
 
 
 
 
 
 590. Evergreen 
 
 -Trees Indigenous to 
 
 the Uuited States and Territories : 
 
 
 
 
 Common Namea. 
 
 Botanic Names. 
 
 Common Names. 
 
 Botanic Names. 
 
 
 
 
 White Mpruce 
 
 .Abies alba. 
 
 Menzies Spruce 
 
 .Abies menziessii. 
 
 
 
 
 Hemlock Spruce 
 
 . Abies Canadensis. 
 
 Mexican Spruce 
 
 . Abies Mexicana. 
 
 
 
 
 California Spruce. . . . 
 
 .Abies amabilis. 
 
 Black Spruce 
 
 . Abies nigra. 
 
 
 
 
 Douglass Spruce 
 
 . Abies Douglassii. 
 
 Bed Spruce 
 
 .Abies rubra. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

 
 
 
 
 
 
 
 522 PROPER NAMES OF TREES. [Chap. V. 
 
 Common Namea. Botanic Names. 
 
 Common Names. Botanic Names. 
 
 
 
 Sabine's California 
 
 Jersey Piue Pinus iuops. 
 
 
 
 Spruce Aljies Sabini. 
 
 Scrub Pine Pinus banksiana. 
 
 
 
 White Cedar Cupressus thuyoides. 
 
 Pitch Pine Pinus rigida. 
 
 
 
 Lambert's Cypress Cupressus Lambertiana. 
 
 Long-leaved Pine Pinus palustris. 
 
 
 
 Great Coned Cypress.. . .Cupressus maerocarpa. 
 
 Pond Pine Pinus serotina. 
 
 
 
 Mexican Cypress Cupressus Mexicana. 
 
 Mountain Pine Pinus pungens. 
 
 
 
 Red Cedar Juniperus Virginiana. 
 
 Loblolly Pine Pinus ta;da. 
 
 
 
 Great Flowered Magno- 
 
 Lambert's Californian. .Pinus Lambertiana. 
 
 
 
 lis Magnolia grandiflora. 
 
 American Arbor Vitae. . . Thuya occiden talis. 
 
 
 
 
 Giant Arbor Vits Thuya gigantea. 
 
 California Torreya Torrcya Californica. 
 
 California Noble Fir Picea noblis. 
 
 
 
 
 Great Californian-tree . . Sequoia gigantea. 
 
 
 
 Yellow Pine Pinus mills. 
 
 
 
 591. Foreign Evergreen-Trees, common in Uie nurseries of this country: | 
 
 
 
 Common Names. Botanic Names. 
 
 Common Names. Botanic Names. 
 
 
 
 Silver Spruce Abies argentea. 
 
 Juniper, English Juniperus communis. 
 
 
 
 Dwarf Alpine Spruce. . .Abies crunoniana. 
 
 Juniper, Cracow Juniperus Cracovia. 
 
 
 
 Blue Spruce Abies cerulea. 
 
 Juniper, Himalaya Juniperus excelsa. 
 
 
 
 Norway Spruce Abies excelsa. 
 
 Juniper, Irish Spiral.. . .Juniperus Hibernica. 
 
 
 
 Spruce, Himalaya Abies moriuda. 
 
 Juniper, Hudson's Juniperus Hudsonii. 
 
 
 
 Spruce, Mucronate Abies mucronafa. 
 
 Juniper, Japan Juniperus Japonica. 
 
 
 
 Spruce, New Holland. . . Abies Novee HoUandiae. 
 
 Juniper, Phenician Juniperus Phcenicia, or 
 
 
 
 Spruce, Yew-leaved Abies taxifolia. 
 
 Lycia. 
 
 
 
 Spruce, Narrow-leaved. .Abies tenuifolia. 
 
 Juniper, Sacred Juniperus religiosa. 
 
 
 
 Chili Pine Araucaria imbricata. 
 
 Juniper, Swedish Juniperus Suecica. 
 
 
 
 Chinese Lance-leaved 
 
 Juniper, Spanish In- 
 
 
 
 Pine Araucaria lanccolata. 
 
 cense Juniperus thurifera. 
 
 
 
 Brazil Pine Araucaria Braziliensis. 
 
 Fir, or Spruce, European 
 
 
 
 Billwill's Pine Araucaria Bidwillii. 
 
 Silver Picea pectinata. 
 
 
 
 Morcton Pine Araucaria Cunning- 
 
 Fir, Weeping Silver Picea pectinata pendula. 
 
 
 
 hamii. 
 
 Fir, Kumaon Pindrow. .Picea pindrow. 
 
 
 
 Norfolk Island Pine. . . . Araucaria excelsa. 
 
 Fir, Altaic Picea pichta— Sibirica. 
 
 
 
 Graceful Pine Araucaria gracilis vel 
 
 Fir, Mount Atlas Picea pinsapo. 
 
 
 
 elegana. 
 
 Fir, Nepal purple-coned. Picea Webbiana. 
 
 
 
 Cedar, African Green. . .Cedrus Africanus viri- 
 
 Pine, Austrian Black . . Picea Austriaca. 
 
 
 
 dis. 
 
 Pine, Calabrian Pinus Calabriensis. 
 
 
 
 Cedar, Deodar, silvery 
 
 Pine, Siberian Cembran . Pinus cembra. 
 
 
 
 foliage Cedrus deodara. 
 
 Pine, Nepal short-IeavedPinus Gerardiana. 
 
 
 
 Cedar, Green Deodar. . .Cedrus deodara viridis. 
 
 Pine, Haguenea Pinus Haguensis. 
 
 
 
 Cedar of Lebanon Cedrus Libani. 
 
 Pine, Aleppo Pinus Halepensis. 
 
 
 
 Mount Atlas SilveryCedrus Libani argentea. 
 
 Pine, Dwarf mountain.. Pinus mughus, or pu- 
 
 
 
 Cedar 
 
 milio. 
 
 
 
 Japan Dark-green Yew. Cephalotaxus adpressus. 
 
 Pine, Italian stone Pinus pines. 
 
 
 
 Fortune's Chinese Yew. Cephalotaxus Forttmei. 
 
 Pine, Scotch Pine, or 
 
 
 
 Mountain Yew Cephalotaxus montana. 
 
 Fir Pinus Sylvestris. 
 
 
 
 
 Yew, English Taxus baccata. 
 
 Yew, Silver-striped. . . .Taxus baccata argenteis. 
 
 
 
 
 
 
 Japan Dwarf Cypress. . . Cry ptomeria nana. 
 
 Yew, Weeping Taxus Dovastonii pen- 
 
 
 
 Cypress, Australian .... Cupressus Austraus. 
 
 dula. 
 
 
 
 Cypress, Spreading Cupressus expansa. 
 
 Yew, Irish Spiral Taxus Hibernica fasti- 
 
 
 
 Cypress, Chinese Cupressus funebris. 
 
 giata. 
 
 
 
 Cypress, Graceful , Cupressus gracilis. 
 
 Arbor Titae, Fern- 
 
 
 
 Cypress, Weeping Ctipressus pendula. 
 
 Cypress, Pyramidal Cupressus pyramidalls. 
 
 
 
 
 Arbor Vitas, Australian. .Thuya Anstralius. 
 
 
 
 Cypress, Sacred Cupressus religiosa. 
 
 Arbor Vitte, Japan Thuya Japonica. | 
 
 
 
 Juniper, Silver-leaved. .Juniperus argentea. 
 
 Arbor Vitte, Nepaul, or 
 
 
 
 Juniper, Berry-bearing. Juniperus bacciformis. 
 
 Tartarian Thuya Nepalensis. 
 
 
 
 Juniper, Bermudas Ce- 
 
 Arbor Vita;, Chinese. . .Thuya Orientalis. 
 
 
 
 dar Juniperus Bermudiaua. 
 
 Arbor Vitie, Siberian. . .Thuya Sibirica. 
 
 
 
 Juniper, Chinese Juniperus Chinensis. 
 
 
 
 
 592. Our Native Creepers.— Three j: 
 
 rincipal varieties of our native creep- • 
 
 
 
 ing plants, that is, climbing by rootlet 
 
 s or suckers, are generally confused iu 
 
 
 
 the minds of the people, and all go bj 
 
 ' the name of Poison Oak. This mis- 
 
 
 
 take has contributed to cause the negl 
 
 ect of several highly ornamental creep- 
 
 
 
 
 
 
 
Seo. 32.] LAWNS. 523 
 
 ing vines, under the impression that they were poisonous. A brief descrip- 
 tion of tlie three varieties referred to is liere given, so that any common 
 observer may readily know tliem. 
 
 Poison Oak, Poison Ivy {Rhus Toxicodendroti). — Ch"mbing by rootlets 
 over rocks, etc., or ascending trees ; leaflets tlu-ee, rhombic-ovate, mostly 
 pointed, and rather downy beneath, variously notched or cut lobed, or entire. 
 Common in thickets. Flowers greenish-white or yellowish. June. Poi- 
 sonous to the touch to some persons. 
 
 Virginia Creeper {Ampelops'is Quinqitefolla). — A common woody vine 
 growing in low rich grounds, climbing extensively, the tendrils fixing them- 
 selves by dilated, sucker-like discs at their tips ; blossoming in July, ripen- 
 ing its small blackish berries in October. Also called American Ivy. 
 Leaves digitate, with five oblong lanceolate leaflets ; turning bright crimson 
 in autumn. 
 
 Trumpet Flower, Trumpet Creeper {Tecoma Padicans). — Climbing by 
 rootlets; leaves pinnate ; leaflets from five to eleven, ovate, pointed, toothed ; 
 flowers, trumpet-shaped, or tubular tunnel form, from two to three inches 
 long. 
 
 The last two are not poisonous, and may therefore be safely grown to 
 climb around piazzas or any other part of the house. The first is very 
 pretty to climb old park trees or rocks, and being the most hardy, may well 
 be grown for such purposes. It should have a label, giving its name and 
 notice that it is poison. 
 
 593. Roses and their Enemies, and Flowers for tlie Lawni— There are but 
 few farm-houses destitute of roses of the hardy and most common sorts 
 which can be grown without labor or care. Many persons would have 
 more and better ones if they knew what to get and how to get them, and 
 that a beautiful assortment of a dozen could be bought for three or four 
 dollars. The moss roses are beautiful, and some of them quite liardy. 
 Bourbon roses flower in lat. 41° and 42° from June to October. These re- 
 quire winter protection. China roses are perpetual bloomers, and also 
 require protection. Tea roses are exceedingly fragrant, and fine for potting. 
 Boursault roses of diflferent varieties keep up a succession of blooms. 
 Prairie roses are hardy climbers. One called the Queen of the Prairies, and 
 the Baltimore Belle, are very showy. Fortune's yellow rose is a climber, 
 but not hardy. Noisette Augusta is a very fragrant climber, but too tender 
 for winter in the Northern States, Noisette Cloth of Gold is a very largo, 
 "beautiful rose that may be grown here in sheltered situations. Noisette 
 Solfatere is a good rose to train to a pillar; it is sulphur yellow. La 
 Morgue rose is very large and creamy white, good for training, and blooms 
 abundantly. "We could go on a long time naming roses, but that is not the 
 object—it is to urge more attention to their cultivation, and more knowl- 
 edge and better taste in making a selection. 
 
 In Mississippi, and other Southern States, there is a rose largely used for 
 hedges, called the Cherokee rose, which, although only a small single 
 
524 
 
 HOT-BEDS, AND HOW TO MAKE THEM. 
 
 [Chap. V. 
 
 flower, is very fragrant, and makes a beautiful show upon a long line of 
 roadside hedge, as it is white, with a yellow center, and the foliage a rich 
 green, and tlie vines often twenty feet long, and the hedge often ten or twelve 
 feet high and equally wide, so covered with white flowers as to show at a 
 distance like a long bank of snow. 
 
 694. Rose-Slugs aud Rose-Bugs are the great enemies that have to be con- 
 tended with, and in some localities tliey are so bad that many persons have 
 abandoned growing fine roses. There does not appear to be any effectual 
 remedy for these pests. In some cases, air slaked lime scattered over the 
 bushes and under them seems to have the desired effect. In other cases it 
 failed entirely. Occasionally, a writer states that he saved his roses by 
 syringing the bushes with whale-oil soap. Then some one else states that 
 he used it to no purpose. The successful man replies : " You used it 
 too weak." Another one answers : " I used it strong, and killed all the 
 leaves and buds on my rose-bushes." Again we are told that a decoction 
 of ailanthus leaves will keep off the rose-destroyers, if sprinkled upon the 
 bushes. As this is a cheap remedy, let it be tried ; wc have some faith in 
 its value. 
 
 Eose-bushes in clusters are lovely ornaments of a lawn, and should not be 
 neglected any more than evergreens. 
 
 SECTION XXXIII.-HOT-BEDS, COLD FRAMES, AND PLANT PROTECTORS. 
 
 -ARMERS, in general, look upon each of the 
 things named as tlie title of this section as be- 
 longing rather to market gardeners than farm- 
 ers. They see them on what are usually denominated 
 " gentlemen's places," and look upon them rather as a 
 luxury than a necessity. In this they are quite mis- 
 taken. A hot-bed can be made upon any farm by any 
 man after reading this section, and once made, it will be 
 found such a comfortable addition to the garden that it 
 will not soon be dispensed with. 
 
 595. Conversation of Gardeners about Hot-Beds.— The' 
 following conversation upon this subject at one of the 
 meetings of the American Institute Farmers' Club, gives 
 the necessary information, with the names of the speak- 
 ers for authority : 
 
 Mr. QuiNN, farmer and gardener upon Prof. Mapes' farm, said : The 
 earth for hot-beds should be gathered from woods, or rich mold, and com- 
 posted in summer, and well worked over, and in the fall covered with dung 
 
Seo. 33.] HOT-BEDS, COLD FRAMES, AND PLANT PROTECTORS.. 525 
 
 manure, so as not to freeze. This is so as to have it in order for sifting 
 when it is wanted. Tlie manure is very carefully prepared — one part of it 
 so as to heat, and one part not. The cold manure is first spread eight inches 
 thick, and tlien a layer of hot manure, and then a layer of cold, and then 
 covered with the prepared earth. The frame is made so that the sash will 
 shed rain and set on the bed, and the earth and manure filled in all ^ro^i'id, 
 and then the sash is covered with. mats, and seed not sowed for four days. 
 The ground being carefully prepared, and seeds sown, the sash is kept close 
 one day, and the second day opened. Some seeds start much easier than 
 others. Cabbage seed would spoil before egg-plant seed would begin to 
 germinate. We transplant from the seed-beds to other beds, and we are 
 careful to give tiie plants air, but it must be done with care, because the 
 new plants are so tender that they are easily killed by too much air at 
 first. Vfe prefer a southeastern exposure for our hot-beds. Tlie size of 
 each may be from three and a half by five feet to five by eight feet. 
 The former we make eighteen inches high in front and thirty inches in 
 the rear. Our frames are four by six feet, and the mats five by eight feet, 
 so as to lap over the edges to keejj the beds warm. We generally sow the 
 diflerent varieties of seeds in separate beds, as the plants require difierent 
 treatment. 
 
 We sow the seed for cold frames in September, and transplant in October 
 into the cold frames, setting from 500 to 800 plants under a light of glass. 
 The glass is covered in winter with boards, and air is given in mild days ; 
 and we sometimes set the plants out in the field so early that snow covers 
 them, yet without injury. 
 
 R. G. Pardke — A neighbor of mine at Palmyra used to sow seed in open 
 ground, and before freezing covered the plants with mats, and before winter 
 he puts over a frame covered with boards, and on them earth, leaving one 
 end open for air as long as he dared to, and then closed up both ends, and 
 occasionally ventilated the bed during winter. He said that he had used 
 oiled cotton cloth as a substitute for glass, with good success. 
 
 Mr. Cavenach, gardener, of Brooklyn, stated that he had successfully 
 grown cabbage plants in a similar way to the above, using salt hay for a 
 covering. 
 
 Mr. Fuller showed an improved form of glass for hot-beds, rounding on 
 the lower edge. This tends to keep the fiow of water in the center. 
 
 Mr. Wheeler, of Wayne County, thinks this an important question for 
 the country, if farmers can be taught so as to make cheap hot-beds for 
 family use. 
 
 Wji. S. Carpenter — My plan foi- a hot-bed for family use is to prepare 
 my ground in the fall by digging out the earth two and a half feet deep, 
 and leave the sash on over that hole till March, when I put in the manure 
 and earth prepared for the seed, and sow it. I plant corn and other vege- 
 tables in pieces of inverted sods, so as to take up the pieces of sods with 
 the plants rooted in them. I have thus been able to get green corn the first 
 
526 THE GARDEN". [Chap. V. 
 
 of July. My hot-bed lettuce I do not pull up, but cut off, and the root 
 sprouts out successive crops. 
 
 Mr. Weight, of Poughkeepsie, said that he iised half turnips, in place of 
 sods, for com. He inserts the seeds in the turnip, and that rots, and the 
 corn grows rapidly. Melons may be grown in the same wa}'. 
 
 John G. Beegen — Any farmer may put down a hot-bed about March 
 1st, and fill in two feet deep of manure and dirt, and if he has no mats to 
 cover with, hc'may cover with boards. One of the most important things 
 about growing hot-bed plants is giving them air judiciously. The cabbage 
 plants of the Long Island market gardens for early plants are grown from 
 seed sown in the fall, and the plants preserved in cold frames. These cab- 
 bage plants are set early in spring, in frames like hot-beds, but without heat, 
 and there grow under glass, large enough to set, by the time the field is 
 ready. Then the plants of the late cabbage are from seed sown in the open 
 ground in April, May, or June. The ground for cabbage plants should al- 
 ways be very rich. 
 
 596. Hot-Beds on the Surface Recommended. — A letter to the author from 
 a practical gardener gives his reasons for not excavating the soil for a hot- 
 bed. He says: "For the reception of the bed, a trench is often dug of its 
 determined length and breadth, and sixteen inclies deep, if tlie soil is wet, 
 or eighteen, or more, if it is dry. In a dry soil and climate this can not bo 
 productive of much injury, but otherwise it almost always chills the bed ; 
 at the same time it is to be observed, that it is never productive of benefit, 
 further than not being so high, it is easier of access, hut gives much addi- 
 tional trouble, both at the time of founding and afterward, when linings are 
 to be applied." 
 
 And another says : " The bed of dung may be placed either wholly on 
 the surface of the ground or in a shallow trench of from six to twelve inches 
 deep and four or five feet wide, according to the frame ; but if made en- 
 tirely on the surface, it affords an opportunity for renewing the linings when 
 the heat has declined ; in a trench, the wet settling about the bottom of the 
 bed, chills the dung, and causes the heat soon to decline. 
 
 "Now, from the 1st of Januarj^ to the 31st of March, in the Northern 
 States, neither soil nor climate are dry, strictly so ; and it is plain to sec 
 that in the most favorable soil the shed of rain from the sash is directed at 
 once upon tiie dung in the front of the trench, which in the case of the sur- 
 face-bed is all thrown off l)y the, as it Avere, thatched slope of the linings. 
 I should think it could hardly be denied that the decline of heat in the 
 buried mass of dung in the one case would be very much greater and more 
 rapid than from the action of cold winds upon the linings of a surfjice 
 hot-bed. 
 
 "Beds of dung for hot-beds are more frequently made about eighteen 
 inches or two feet in entire depth than three or four feet ; there are many 
 small gardeners who have not sufficient dung to form beds of greater deptii, 
 and it is important that they should have the most enduring heat possible to 
 
Sko. 33.] IIOT-BEDS, COLD FRAMES, AND PLANT PROTECTORS. 527 
 
 be got from this scant supply, and as more dung accumulates, to have the 
 means of renewing the linings to keep up a protracted warmth inside. By 
 building on the surface, both can be secured with less trouble and more 
 chance of success." 
 
 597. U'liat a Uot-Bed is for. — "A hot-bed is not a mere make-shift, nor a 
 cold frame, nor a pit, but a bed of dung for forcing purposes — one in which 
 it is not tlio mere object to start seeds and guard the young plant from 
 changes of weather, but to force things to grow out of season by giving the 
 plants the most uniform and prolonged heat practicable, until they can be 
 safely transferred to the open garden or into special frames, with an extraor- 
 dinary advancement in growth. Yet with all of the well-known advantages 
 to be derived from hotbeds, but few comparatively possess one. Surely the 
 farmer deserves the first fruits of the season, and he may have them if he 
 will. Lettuce, cabbage, cucumbers, tomatoes, cauliflower, melons, etc., may 
 be upon his table fi'om four to six weeks earlier tliau usual, by a little pains- 
 taking, at a season when the time to do this work can be easily spared from 
 other occupations." 
 
 598. Uow to Make a Hot-Bed. — "The first thing to be done is to deter- 
 mine the size of the bed wanted. If it is only for family use, and to supply 
 a few friends with early plants, twelve feet long and six feet wide will be 
 ample. To make the frame, take two-inch pilanks, cut tliem into suitable 
 lengths, and nail or hook them to cedar posts, set at tlie four corners. If 
 hooks are used, the planks are more easily taken apart and stored away after 
 the season is over. Tliese posts should l)e three or four inches square. Tlie 
 frame has, of course, no bottom. The back should be about three feet high, 
 tlie front a foot and a half, and the ends made with a regular slope from 
 back to front. So made, the i-ain will be carried oft' from the sash, and the 
 light will reach all the plants within. The sash may bo made like a common 
 window sash, except that there are no cross-bars, and the panes of glass 
 overlap each other a quarter of au inch at the bottom, so as to shed rain 
 like the shingles of a roof. The sash should be made of good seasoned pine, 
 one and a half to two inches thick, and painted three good coats. Small 
 panes, say 6x8, are less liable to breakage than larger; and in glazing, 
 they should be bedded in soft putty. For the sash to rest and slide upon, 
 strong strips should be placed across the frame, and morticed in at each end. 
 Choose a good situation for a bed, with a dry bottom, and sheltered, if possi- 
 ble, on the north and west sides. Determine the size you need, and then drive 
 stakes at each corner. Kow, wheel on the manure. The litter and strong 
 manure from the horse stable is the best ; but in lack of this, tanner's bark 
 may be used, or leaves; oak-leaves are best. If dung is to be had, lay up a 
 bed of it, six inches to a foot wider on all sides than the frame which is to 
 rest upon it, pressing it down gently and equally throughout. The average 
 higlit of such beds is from two to three feet. If, as some persons prefer, the 
 bed is sunk a foot or more in the ground, the manure need not rise more 
 than two feet above the surface. Having set the frame and sash upon the 
 
628 
 
 THE GARDEN. 
 
 [Chap. V. 
 
 dung-bed, with the lower side tpward the south, let the whole lie a few days, 
 until the most violent fermentation has passed off; then put on about six 
 inches of the garden-mold. The part devoted to radishes and lettuce may 
 have a foot of soil. In a few days the seed may be sown, which should be 
 done about six weeks before the usual time for transplanting to open 
 grounds. Examine the bed daily, and if tlie heat becomes excessive, run a 
 stake or crowbar down into the manure to let the steam escape ; the sashes, 
 ■ also, may be raised a little. If the ground becomes dry, water occasionally 
 with tepid water ; if the heat declines, keep it up by the addition of fresh 
 manure piled up around the side of the be^. In cold nights, cover the beds 
 with matting or straw. The only danger is from the generation of too vio- 
 lent heat and the jjrevalencc of steam from the fermenting materials. Tan 
 bark has been successfully used to cover with, as this keeps the steam from 
 rising." See 565. 
 
 599. Cold Frames. — Tlie use of cold frames among market gardeners is 
 very important. The plants are started in the open ground in autumn, and 
 taken up and set very close in the frames, or else the seed is sown in them 
 •ind started with glass, and afterward covered with boards and mats, or 
 straw and dirt, and tlie plants thus kept in a sort of torpid state till spring. 
 Sucli plants are more hardy for ojjen culture than hot-bed plants. 
 
 GOO. Protectiou of Plants. — Many plants, called hardy, require winter 
 protection in our climate. Tlie best covering is leaves, and the more you 
 let remain in the spring to rot the better, because they furnish the best of 
 all manurial substances. The earth-covering needs to be but slight. Some 
 tender shrubs should be bent down, and sliglitly covered. Coarse manure 
 should be used where leaves are not at liand. Clean straw will answer to 
 protect the roots. Evergreen boughs answer a very good purpose, and so 
 tliey do to tie around shrubs. Tea-roses are sometimes sheltered by a little 
 roof of boards, covered with dirt. 
 
 Protecting plants from the sun is sometimes as necessary as protecting 
 them from frost. The following easy plan of making these protectors of 
 garden plants, upon a cheap scale, is recommended : 
 
 Take three pieces of boards, about a foot wide and fifteen inches long, and 
 nail them together so as to form three sides of a box. Small braces at each 
 corner Mill add to their strength. If they are made with the closed end 
 narrower than the other, they can be packed into each other wlien stored 
 away. The purpose of these boxes is the protection of plants from the sun 
 or cold wind. B}^ setting them on edge, so as to surround a plant on three 
 sides, when the spring winds blow raw and chill, the advantage will soon be 
 perceptible in tlie improved condition of the plants over those that are un- 
 protected. If there is danger of a frosty night, a loose bit of board may be 
 laid over the top of the box. A hill of melons, cucumbers, early beans, 
 pei^pers, or any other te.nder vegetables, or a dozen or two hills of early 
 corn, may be protected for a week or two with these cheap plant protectors. 
 When they have been on during the day as a screen from wind, and there ia 
 
Sec. 33.] HOT-BEDS, COLD FRAMES, AND PLANT PROTECTORS. 529 
 
 no danger of a frosty night, they may be removed to give the dew fnll 
 l^ower upon the plants. In transplanting cahbage and other plants, tli^se 
 boxes, set np on their ends, make good shades, and they serve a good pur- 
 pose when the soil is dry and plants or seeds need moisture, after the ground 
 has been well watered. Tiiey serve also to protect melon-vines from bugs. 
 Tills is done by setting a loose piece of board against the open side, so as to 
 form a box and fence in tlie plants. The bugs will rarely get over this 
 fence. 
 
 If you wish to transplant your cabbages, or anything in your flower- 
 garden, do not wait for a season, but do it any day, just at niglit, in fresh- 
 dug soil, giving the roots a good watering. Cover them daily with the pro- 
 tectors, taking them off at night, that they may be freshened with tlie dew. 
 After a couple of days it will be sufficient to stand the protectors on edge on 
 the south side of the plants to keep off the mid-day sun. In three or four 
 days the roots will be established. Another use for them is when the wea- 
 ther is so dry that hills of melons, squashes, etc., will not come up. Water 
 the hills with a fine rose watering-pot, and lay the protectors over the hills, 
 and the young seedlings vtill soon make their appearance. When above 
 ground, take ofi' the protectors and let the dew fall upon them at night, and 
 in a day or two dispense with it entirely. They are excellent, also, to cover 
 over the patches of newly-planted flower-seeds, causing them to come up 
 nmcli sooner. Remove them when necessary to admit mild rains, and en- 
 tirely when the plants appear. Try a few of them, and you will find they 
 are far better than flower-pots, which arc generally used for these purposes, 
 excelling in cheapness, convenience, and utility. 
 
 Another cheap kind of snn-shades for plants is made in the following 
 way : 
 
 Take a piece of stout hardware paper — say a foot square — and make a 
 fold like the tuck of a woman's dress, half an inch wide through the center 
 each way, and drive a tack through the crossing of the folds into the top of 
 a stick, long enough to set one end in the ground and support the paper like 
 an umbrella over the plant you wish to shade. Such papers will stand a 
 good deal of wetting and recover again, though it is better to take them 
 under shelter in a storm. Shades can be also made of large, dry leaves, 
 tacked to a stick, or of coarse plats of straw. The lining of a tea-chest, cut 
 up and tacked upon standards, the lead side up, makes good shades, durable, 
 and cheap ; and of whatever material, such shades often pay their cost in 
 once using. 
 
 In some places it will be convenient to get branches of evergreens f )r 
 shades, which are better than nothing, but are not so good as the tiiree-sided 
 Moodcn box, with a loose piece of board to form the other side or lay across 
 tiie top. These are very convenient. Frames covered with cotton cloth are 
 recommended as sun-shades. They may be made six feet long and three 
 feet wide, and if needed to bo thicker tlian the cloth, may be whitewashed 
 with the mixture recommended in No. 3G1. 
 
5^0 
 
 THE GARDEN AND ITS FRUITS. 
 
 [Chap. V- 
 
 The following preparation for painting cloth, to be used for shading 
 plSnts or for other out- door purposes, is recommended as cheap and durable 
 by 11. Carl Green, of Warren County, Pennsylvania. It is easily tried. 
 
 "Mix a pint of powdered lime WMth water till it is of the consistency of 
 thick cream, and add this to a quart of boiled linseed-oil, and heat and stir; 
 and then beat separately the whites and j'elks of eighteen eggs, and stir all 
 together, being careful not to heat hot enough to cook the eggs. Apply the 
 mixture at once as you would other paint." 
 
 SECTION XXXI V.-SM ALL FRUITS OF THE GARDEN. 
 
 )S a general thing there is nothing about the for- 
 mer's home more neglected than small garden- 
 fruits. Many do not have the least pretension to 
 a strawberry-bed ; and others who have one, do- 
 not seem to appreciate that tliere is as much dif- 
 ference in strawberries as in corn or potatoes, and that 
 it is important to have a variety. Sometimes one 
 sort will produce well one year and sometimes another-; 
 and one sort comes early and another late, in straw- 
 berries, rasj)berries, etc., just as it is with the varieties 
 of corn. Currants, too, are not all alike ; neither will 
 the farmer receive the greatest profit from their 
 growth when suffered to grow up like a neglected 
 hedge along the garden wall. To induce a more ex- 
 tensive growtii of these small fruits, we intend to give 
 some pages to the subject, filled with practical information, and sucli hints 
 upon the use of fruit, in a hygienic point of view, as will stir up the farmers, 
 or certainly their wives and children, if it does not them, to increase the growtli 
 of this health-giving food. In families where garden-fruits are used the most 
 extensively, you will always find the greatest degree of health. Instead of 
 producing summer-complaints in the bowels, tlicy are the very best pre- 
 ventives. Besides having some of tliem upon tlie table every meal while in 
 season, you sliould preserve such quantities in sealed bottles or jars that you 
 can have them without stint all winter, and until strawberries are ripe in 
 June. 
 
 601. Currants— Varieties and Cultivation.— Tiie currant is one of tlie m<-8t 
 valuable of our small fruits — not as delicious as the strawberry and r;.s; - 
 berry, but keeping much longer, and applicable to a greater variety of jiui- 
 poses, which makes it of more value in the family. As soon as tlie berries 
 are well formed, and before they begin to ripen, they are used by many for 
 pies and sauces. At maturity there is nothing better for either of these 
 
Seo. 34.] CULTIVATION OF CURRANTS. 531 
 
 purposes, while for preserving and bottling, none of our fruits keep as well, 
 and few are better for winter use; for jams and jellies, every housekeeper 
 knows the currant has no superior. It also makes a wholesome domestic 
 wine. For a dessert or table fruit it has been considered too small, too acid, 
 and lacking in flavor, but this is not so with the finest varieties — the White 
 Grape and La Versailles, for instance, with bunches five or six inches in 
 length, and berries one and a half inches in circumference. The poor 
 varieties, as usually grown, are certainly unfit for the table, as they are 
 small, sour, and almost entirely filled with hard, M'oody seeds. 
 
 We consider the currant a most valuable fruit for eveiy man who iM^a 
 spare foot of ground. In cultivation it has been sadly neglected, receiving 
 no pruning, or pinching, or training, or mulching, such as are lavished on 
 its more favored neighbors. Not only has the currant been neglected by 
 farmers, but by those who have given special attention to the raising of new 
 varieties of small fruits, yet no variety has more valuable qualities. It is 
 in perfection in the New York market the first part of July. 
 
 A writer in the Indiana Farmer speaks of currant bushes seven feet high, 
 and of his success in growing the fruit, which he attributes to the fertiliza- 
 tion of jirine and soap-suds, applied during summer about the roots. 
 
 The " Cherry currant" averages a good deal more than double the size of 
 the old-style crimson berries, of good flavor, and great productiveness. We 
 are sure the profitableness of such a crop must be greater than any of the 
 ordinary farm crops, nearly as ten to one, yet very few persons are engaged 
 in the business, and but few who are not will believe we are serious in rec- 
 ommending growing'currants in fields as large as their present fields of rye, 
 corn, or grass. There is no danger of glutting the market any more than 
 there is with ten-acre fields of strawberries, raspberries, pie-plant, or aspara- 
 gus. Tiie more there are grown the more the demand will increase, as it has 
 for other fruits. Let us have a great increase in the production of currants, 
 particularly while they sell fresh from the bushes at from four to ten cents a 
 pound. 
 
 It is said that the Cherry currant docs not bear pruning like the old sort — 
 that the limbs should be tied up to short stakes. The best Dutch currants 
 are obtained by careful trimming, cutting in the ends of the limbs early in 
 the spring, and cutting away all three-year-old wood, and by hoeing very 
 often. 
 
 One of the great faults about growing currants is picking them before 
 they are ripe. Color does not indicate ripeness, as some are red long 
 before they are mature. The Versailles should hang a long time after 
 they are red ; so should the Cherry currant, which is naturally strono-ly 
 acid, and unfit to eat unless fully ripe. One of the peculiar characteristics 
 of La Versailles is, that the fruit upon young bushes is generally small, and 
 I'ads persons unacquainted with it to doubt its good quality. The Cherry 
 currant grows about as large as ever the first time the bushes produce, and 
 plants also grow vigorously from the first, while La Versailles is a feeble 
 
532 THE GAEDEN AND ITS FRUITS. [Chap. V. 
 
 grower when young, but very strong when aged. Although some of these 
 currants are good, we want something better. We want a currant of as vigor- 
 ous a habit as the cheriy, and as productive, with berries as large, combin- 
 ing all the good qualities of La Versailles, White Grape, Imperial, and 
 Cherry, and sweeter than any of them. We need not despair of yet obtain- 
 ing such a great desideratum. It is very easy to grow seedlings. Take the 
 seeds of the best sorts out of the berries when ripe, by washing and mixing 
 with sand, and putting in a box with earth, which should bo placed on the 
 north side of a building or wall, and kept till all danger of thawing and 
 fnppng is past, when the seed should be sown in drills in very rich ground, 
 Avhere the sprouts will grow four inches high the first year. Next spring 
 tra,iisplant in rows where they can be cultivated. Cut off half the length 
 of the plants when transijlanted. The seed may be kept a long time in 
 dried currants. The currant has a wide extent of growth, and one variety 
 is a native of this country. 
 
 602. Descriptive List of CurrautSi — The following list of currants is given 
 by Andrew S. Fuller, with their names in their order of excellence: 
 
 1. La Yersailles. — Large red. 
 
 2. ^Yhite Grape. — Large ti-ansparent white. * 
 
 3. White JIoUa7id. —ldcntk-'.\\ with No. 2. 
 
 4. White Frovence. —lindi like No. 2. 
 
 5. Yelloio Imperial — Large white, slightly tinged yellow. 
 
 6. The True lied Duieh. 
 
 7. TJie Cherry. — Large red, a little more acid than No. 1, and thicker skin. 
 
 8. The Victoria. — A late variety. 
 
 9. La Ilative.- — Red, eai'ly. 
 
 10. La Fertile. — Red, medium size. 
 
 11. The Champagne. — Pale red. 
 
 12. White Butch. — Not large, but excellent. 
 
 13. Imperial. — Red, similar to No. 1 in quality; not so large. 
 
 14. Angiers. — Red, similar to No. 13. 
 
 15. Red Frovence. — Late, and not worth cultivating. 
 
 16. Gloire de Sablons. — A new, worthless variety, striped. 
 
 17. Old Striped.— ^imWAV to No. 16. 
 
 18. Old White. — A small, sweet variety. 
 
 The following short description of different sorts of currants will sliovr 
 how they vary, and enable persons unacquainted with them to make suit- 
 able selections. 
 
 Victoria is a late variety ; light, brigiit-red ; berries medium size to large, 
 and biinches very long. A productive and beautiful variety. 
 
 Frince Albert is also a late variety ; similar in color or a little lighter than 
 Victoria ; berries larger. Very productive. 
 
 The White Dutch, like the Red Dutch, is a good currant, but as a gen- 
 eral thing has been so badly neglected that its true character is little known. 
 It is a high-flavored fruit ; berries larger and bunches rather shorter than 
 Red Dutch ; of a yellowish white, and very transparent skin. Very pro- 
 ductive. 
 
Sec 34.] CTTLTIVATION OF CURRANTS. 533 
 
 The W/iite Grape is now the favorite white currant. This and the Cherry 
 have heen for some years the most popular sorts. Bunches long ; berries 
 very large, whitish yellow, sweet and good. Very productive. 
 
 Transparent is a new French currant; very productive, and similar to 
 "White Dutch. The White Clinton is very similar to "White Dutch, and 
 probably the same. White Antwerp, very large, white, sweet ; bunches 
 rather long, and productive. Neither of these, we think, is sufficiently 
 distinct from the "White Dutch and "White Grape to justify their dissem- 
 ination. 
 
 The Black English is the common, well-known black currant. "With 
 good cultivation and plenty of manure, it produces a good croj) of fine fruit. 
 It has a bad habit of dropping its berries at the time they get about rijie, so 
 that the bunches when gathered have but few berries remaining. 
 
 The Black Naples is larger and Ijetter than the Black English, and is the 
 best of the black currants. Bunches rather short, but berries very large. 
 This is now about the only black currant planted, and is a most desirable 
 variety. 
 
 The Bangup is an English black variety, with short, heavy bunches, 
 shouldered. The berries hang on the bunches well, and bids fair to be a 
 very valuable sort. 
 
 The roots of the black currant are short and fibrous, and consequently it 
 has a small space in which to gather food. It is also a great feeder, and 
 therefore requires a liberal supply of manure. The taste for the black cur- 
 rant, like that of the tomato, must be acquired, and then becomes a neces- 
 sary luxury. Those who make wine should try the black currant for that 
 purpose. In England it is preferred to all others for jams, jellies, and tarts, 
 and black currant jam or jelly is there considered an almost infallible rem- 
 edy for colds and sort throat, and invaluable in cases of fever. The good 
 English housewife would hardly feel safe to pass through a winter without a 
 good store. 
 
 Reel Dutch is an old and well-known sort, with fair-sized bunches and 
 berries. It is a good bearer and a free grower, and a much better currant 
 than most people suppose, as any one can ascertain by giving it good culture. 
 
 Long-Bunched Bed is very much like the above, but a larger berry and 
 larger bunches, and we think a little more acid. 
 
 Short-Bunched Bed has short, heavy, compact bunches. The berries, not 
 quite as large as Bed Dutch, hang on the stems well, and we think will 
 make an excellent market fruit. It is the favorite sort of the growers for 
 market around London. 
 
 The Cherry is, perhaps, the largest red currant, having berries of extraor- 
 dinary dimensions. It is not a distinct species of the genus Bihes — only a 
 new variety oi Bihes 7'uhriim, of which the Red and White Dutch and many 
 others arc also varieties. J[t is therefore just as hardy as the common cur- 
 rant. The distinguishing properties of the Cherry currant are : strong, ro- 
 bust growth of the bush, the shoots being stouter, the leaves larger, and of a 
 
534 THE GARDEIT AND ITS FRTJITS. [Chap. V. 
 
 darker green than tlie common sort. The blossom of the Cherry cxirnuit is 
 easily distinguished from the greenish yellow blossom of the Red and White 
 Dutch by its darker brownish color. But the greatest and most valuable 
 distinction of the Cherry currant consists in the uniformly great size of the 
 berries. They measure from half an inch to live eighths of an inch in diam- 
 eter, all the berries of a bunch being generally of nearly one size, Avhile the 
 bunches of tlie common currant taper down to a very small berry at the 
 end. Besides this, the berries are also distinguishable by their dark-red 
 color. Another and very striking feature of the Cherry currant consists in 
 the manner the bunches are distributed over the branches ; while with the 
 common currant the fruit is rather thinly — at least, by comparison — scat- 
 tered over the branches, the Cherry currants hang in massive clusters so 
 tight that the stems of the fruit-strings can scarcely be seen. Branches of 
 the bush of from one to three feet in length are often unbroken clusters of 
 luscious fruit, which give the bushes a charming rich appearance. 
 
 603. How to Grow Currants* — The following directions are given by 
 Charles F. Erhard, a German gardener, Kavenswood, N. Y., a grower of 
 Cherry currants : 
 
 " Many farmers and market gardeners seem to think that these good qual- 
 ities can only bo brought out by very high culture, such as the amateur 
 gardener only can bestow on a few pet bushes. This is an error. I would 
 say : Manure, plow, and hoe tliem as you do your Indian corn, and you will 
 have them in as great perfection as the nurseryman. 
 
 " As the bushes grow very strong, they should be planted not less than 
 4x4 feet, or, perhaps, 4x5 feet apart, which will give 2,178 plants per 
 acre. I prefer the latter method, and would plow only one way between 
 them, allowing the branches to spread in the direction of the rows, so as to 
 form something like a hedge. These rows should run north and south, to 
 shield the bushes from the hottest mid-day sun. Shade to the fruit is indis- 
 pensable to bi'ing it to perfection ; if too much exposed to the hot rays of 
 the sun, the berries ripen j^rematurely before tliey attain their full size. 
 Now, all the shade necessary to protect the fruit is furnished by the bush 
 itself, if you do not disable it to do so by pruning and cutting away what 
 was evidently intended for that purpose; and this brings "me to the shape in 
 which currant bushes should be pruned. I am aware that there exists a 
 great difference of opinion among cultivators as to this point. Many be- 
 lieve that the tree-shaped is decidedly tiie best ; others think the bush form, 
 with several branches springing directly from the root, the better and most 
 natural shape. I have tried both ways, bjit prefer the latter method 
 greatly. The great advantage of the bush form, it seems to me, consists in 
 the system of renewal which should be combined with it. 
 
 " Suppose you plant young bushes with two prongs or branches. Plant 
 them deep and allow the first year two shoots to grow up from under the 
 ground. These shoots will at the same time send out their own roots and 
 grow luxuriantly. If you allow, then, every year two more shoots to spring 
 
Sec. 34.] CULTIVATION OF CURRANTS. 535 
 
 up from the root, you will, in the summer of the fourth year, liavo two 
 branches each of live, four, three, two, atid one year's growth. Six of these 
 branches, tliat is, the five, four, and three-year-old ones, will be loaded with 
 fruit, the two-years' growth may have some berries, and tliose of this year's 
 growth will only be straight shoots. The bushes will now be as large as 
 tliey should be, and the two five-year-old branches may be cut out as soon 
 as the fruit is picked ; and heiicefortli, by allowing still two new shoots to 
 come up every year, and by cutting out the two oldest branches after the 
 gathering of the fruit, the bushes will be kept young and bear fine fruit for 
 many years more. Of course this is onlj' meant to elucidate the general 
 principle. The practical cultivator will know how to modify the above rule 
 for every individual bush." 
 
 604. Producliveiicss of Cherry Currants. — "In calculating the profits of a 
 crop, great caution must be used, and casualties must not be forgotten. Al- 
 tliough I have seen four-year-old bushes that bore nine pounds of berries to 
 each bush, I would not think it safe to put down the average yield of a full- 
 grown five-year-old bush, trimmed as above, at more than six pounds. 
 This would amount to 13,068 lbs. to an acre. The price of common cur- 
 rants in the N'ew York market, generally very small, sour little things, 
 varies from four to seven cents per pound at wholesale, which certainly 
 justifies the anticipation of six cents per pound for Cherry currants for many 
 years to come, and this would make the value of the crop, per acre, equal 
 to $7Si." 
 
 605. Expenses of Cnltirating: and Gatherini? fnrrants. — " Half a day of 
 plowing and three days of lioeing by one man will clean and stir the 
 ground of one acre most effectually, wliich, at ordinary wages of man and 
 horse, will cost $3 50, which makes four plowings and hoeings cost $14. 
 Picking 13,068 lbs., at one third cent per pound (about 15 cents per bushel), 
 will be $43. If we allow $27 for manure every year, the whole expenses 
 per acre would sum up to $84, leaving $700 clear, of which only the cost of 
 bringing them to market would have to be deducted." 
 
 Tiie above, although it is the statement of an interested nurseryman, is 
 nevertheless the truth, not exaggerated. The fruit can be grown for two 
 cents a pound, and every family can eat it as a condiment with their bread 
 and meat every day in the year, and can afford to drink a delicious, whole- 
 some wine — currant wine — instead of getting drunk and dying as they do 
 now from poisoned stuff called beverages. We have no need of sending to 
 Zante for currants, Madeira for grapes, or France for wine, nor should the 
 folly be any longer tolerated of importing currant jelly. It is our duty, as 
 American farmers, to grow this fruit, for Ave contend that if religion consir^ts 
 in doing good to our fellow-creatures, it is a religious duty to encourage 
 the cultivation, the imj)rovement, and projiagation of all the fruits tliat a 
 good Power has made the earth produce for man's sustenance and allevia- 
 tion of human diseases. 
 
 The healthiness of currants is conceded by all physicians. Currant jelly is 
 
536 THE GARDEN" AND ITS FRUITS. [Ohap. V- 
 
 a most too;lijome sub-acid condiment for convalescents, particularly those re- 
 covering from fever. It has been much sought for of late in army hospitals. 
 
 COG. Black Currants— How Growu for Wiue iu Frauce.— It is about twenty 
 years since tlie manufact;ure of wiue from black currants was commenced iu 
 the Department Cote-d'Or, France, upon a scale large enough to furnish a 
 wine of commerce, since wliich the manufacture has increased very exten- 
 sively ; three houses at Dijon produced in 1860 about 88,000 gallons. Near 
 Lyons, black currants are grown to sell to the Dijon wine-makers. There 
 are other establishments at Beaune, and other small towns, and the manu- 
 facture is now so well established that landowners are cropping their land 
 Avitli black currants alone, the number of plants introduced into vineyards 
 being also on the increase. Tiie rage, indeed, for jdanting was so great 
 in 1857, that rooted plants sold as high as $16, and even $24 per thou- 
 sand. Now, however, price has found its usual level, that of $4 to $6 
 per thousand. Tlie exact number of plants cultivated around Dijon does 
 not seem to be ascertainable, the proprietors themselves not knowing how 
 many they have planted. It is, however, probable that to estimate the 
 number near*Dijon at 1,500,000 would be greatly below rather than above 
 the mark. 
 
 " In the Department of the Cote-d'Or, the center of currant cultivation 
 exactly coincides with that of the vine. In fact, it may bo said to extend 
 from Chagny to Dijon iu a narrow zone skirting the eastern slope of tlie 
 mountain chain of the Cote-d'Or, eighteen to twenty-five miles in length, 
 and from one to three miles in breadth. Within these narrow limits are to 
 be found all the great growths of Burgundy wine, connected by vineyards 
 only producing vin ordinaire. It is among these, and in land of a similar 
 nature, that the black currant is cultivated. Many of the villages pro- 
 ducing large quantities of the latter, are noted for the excellence of their 
 wines, as, for example : Volnay, Beaune, Aloxe, Savigny, Premeaux, Nuits, 
 Vougeot, Chambollo, Yosne, Morey, Gevrey-Chambertin, Bi'oclion, Fixin, 
 Marsannaj^, Talant, Fontaine. Leaving this center, the currant follows the 
 vine in the valleys that traverse the mountain range toward the west. 
 There are extensive plantations at Nolay, Plombieres, Malain, Laumes, and 
 Montbard, and others occur occasionally iu the large and fertile plain which 
 extends from the foot of the Cote-d'Or chain to the Saone, and in which the 
 vine is not cultivated. Finally, they are to be found in the Department of 
 the Saone-et-Loire, particularly in that part of it which adjoins the Cote- 
 d'Or. Kather considerable plantations also occur near Autun and Chalon- 
 sur-Saone. 
 
 " Contrary to what might have been expected in fruit with so strong a 
 flavor, there exist great difterences in the quality of the currants from difl'er- 
 ent localities. The French liqueur-makers easily distinguish them, and 
 carefully reserve currants of superior quality for first-class liqueur, which 
 sells as high as 66 cents per quart, wholesale. In general, indeed, wherever 
 wine is good, the currant is also good. By this is not meant the choice 
 
Sec. 34.] STRAWBERRY CULTURE. 537 
 
 iCiowths but vins ordinait'es, the vines producing which are frequently grown 
 iilong with currants. 
 
 "Tlie currants are planted about four feet apart, and the after-culture 
 consists in hoeing the ground deeply iu tlie spring, and two or three hoeings 
 during the summer to keep down the weeds. Pruning is done in the spring 
 at the same time with the vines. As to soils, chalk or limestone, with a 
 little clay in its composition, such as prevails in French wine districts, suits 
 very well. 
 
 " In regard to amount of fruit, and tlie price that can be obtained for it, 
 Dr. Maillard estimates that every bush that has been planted live yeare, 
 when the land is wholly occupied with the currants, will yield 3| lbs. of 
 fruit. The yield on bushes growing singly among the grapevines is much 
 greater. Estimating the average yield at only 2} lbs. to a bush, and 2,2-iO 
 bushes on an acre, we have 4,928 lbs. as the produce per acre. The average 
 price of the fruit in former years was — in IS-tl, 80 cents per cwt. ; in 18-42 
 and '43, $1 ; 1844 and '45, $2 ; 1856 and '57, $4 ; 1858, $7 50 ; and in 1859, 
 from $5 to $7. It appears that some of the most important houses in Dijon 
 have contracted with growers to take all their crops for ten or twelve years 
 to come at $3 per cwt. This would give $147 per acre as the price of the 
 fruit. Tlie trouble of growing black currants is very little, and they make 
 a delicious and healthy wine, far superior to what is usually sold under the 
 name of Port." 
 
 It must be seen from this statement that black currants could be profitably 
 grown in this country for the same purpose. Indeed, they have been, to a 
 limited extent. 
 
 GOT. StraM'bcrries — Profitable and Ilealtliyi — "We suppose we need not oiFer 
 argument to any one who has overgrown strawberries iu the garden, to prove 
 that no other fruit or vegetable can be grown with greater profit, whether 
 for sale or use. Equally profitable for use as for sale, because promotive 
 of health in an extreme degree ; affording, too, a degree of satisfaction to 
 the family not realized by anything else grown in the garden. This is owing 
 in some measure to the cii'cumstance of its being the earliest garden fruit, 
 when nature craves just such sub-acid food as the strawberry alone fur- 
 nishes, and if produced iu such an abundance, of the most choice varieties, 
 that all the family, hirelings included, can eat to their heart's content, we 
 are willing to warrant that for the time being there will be a hapjjy fam- 
 ily ; and while strawberries are in season, we will guarantee that the family 
 has very little occasion for calling in the doctor. There is no fruit that can 
 be indulged in to excess with so much impunity as strawben-ies. Tliere- 
 fore, for the promotion of health, wealth, and happiness, we urge farmers to 
 pay more attention to their cultivation ; and to enable them to do so judi- 
 ciously, we will give them some valuable facts about how to make a good 
 
 lection, and how to make them productive. 
 
 608. The Best Sorts of Strawberries. — It is just as important to grow the 
 best sorts of strawberries as it is to grow the best varieties of corn and 
 
538 THE GARDEN" AND ITS FRUITS. [Chap. V. 
 
 potatoes. The trouble is to know which are the best sorts. Every locality 
 has its favorite, and many individuals hold fast to the kind always grown in 
 the family, and will not inquire whether there is a better one. 
 
 To enable those who wish to improve to do so, and to assist those who 
 would like to make a selection of the best, we give the following opinions 
 of competent persons. 
 
 During the strawberry season of 1859 the strawberry question was ably 
 discussed before the American Institute Farmers' Club, and a committee 
 was appointed to name six strawberries most worthy of general cultivation, 
 in the order of their value. That committee reported the following, which 
 was approved by a full meeting : 
 
 "1. Wilson's Alha7iy. — Its promising good qualities are productiveness, 
 size, and firm, juicy flesh. It is, however, too acid for tlie taste of many. 
 
 "2. Long-worth's Prolifio. — Early, large, and of excellent flavor; only 
 moderately productive; sometimes running too much to leaf. 
 
 "3. Ilooker. — Good size, of a rich, sweet flavor; moderately productive. 
 
 "4. MacAvoy's Superior. — Productive, large, and of excellent flavor; 
 berries often defective in form. 
 
 " 5. Hoveifs Seedling. — This variety is too well known to need any de- 
 scription. Its only defect is dryness and want of high flavor. 
 
 " 6. Hurras New Pine. — Of exquisite flavor, medium size, only moder- 
 ately productive ; plants want vigor and hardiness." 
 
 At Boston, the same season, the question was discussed by the Horticultu- 
 ral Society, and a ballot taken as to the best six varieties for market, which 
 resulted as follows : Early Scarlet, 19 votes ; "Wilson's Albany, 19 ; Hooker, 
 11 ; Hovey, 10 ; Triomphe de Gand, 8 ; Burr's New Pine, 6 ; other varieties, 
 1 to 4 votes each. 
 
 Another ballot was taken for the best six varieties for amateurs, which 
 resulted in the following list: Early Scarlet, Hooker, Burr's New Pine, 
 Hovey's Seedling, "Wilson's Albany, and Triomphe de Gand. 
 
 The same season R. G. Pardee, of New York, author of a book on straw- 
 berry culture, made a report to the Farmers' Club, naming six sorts most 
 profitable for cultivation for market purposes, including Early Scarlet, "Wil- 
 son's, Longworth's, Hovey's. • 
 
 At the same time Dr. Ward, a successful cultivator near Newark, N. J., 
 exhibited twenty-three varieties, and made the following statement : 
 
 " I will only speak briefly of some of the most prominent. Tlie one 
 much cultivated at Cincinnati, called the Iowa, is only good because it is 
 very early. The Genesee seedling is without an equal for its beauty, and it 
 is of a pleasant flavor. 
 
 " The MacAvoy's Superior is too soft for marketing and apt to rot, though 
 fine-looking. 
 
 " Longworth's Prolific, which can be grown thirty-two to the pound, is a 
 remarkably fine variety. 
 
 "The "Wilson Seedling has one objection for field-culture — its heavy ber- 
 ries beat down to the earth and injure, unless the laud is well mulched. It 
 
Sec. 34.] STEAWBERRIES. 539 
 
 is a vigorous grower, and the most prolific of all, and is a good berry for 
 transportation, as well as prolific. 
 
 "The Virginia Scarlet is the earliest of all varieties, but it is good only 
 for a very early ci'op. 
 
 "The Monroe Scarlet grows in clusters, and is easily separate^ from the 
 stalk, and good on that account. 
 
 " The Wyllie is much like the Monroe, but not easily separated. 
 
 "The Walker is an excellent berry, but too soft for market. Yet it is 
 very rich when picked and eaten in the garden, and well worthy the atten- 
 tion of private families. It is an honest berry. 
 
 " The Crimson Cone is a great market berry, but too soft for transportation 
 without injury. 
 
 " Burr's New Pine is tlie richest berry that we have. It bears rather 
 shyly. It is not productive enough for a market-gardener's fruit, but should 
 be in every garden. 
 
 "The Hovey Seedling is one that I can not dispense with ; it is always 
 satisfactory. The average is not very large, but very good, and bears car- 
 riage pretty well. 
 
 " The Boston Pine should always be grown by the side of the Ilovey, both 
 for a fertilizer and for its fruit. 
 
 " The Moyameusing Pine is a good late berry ; valuable for preserving as 
 sweetmeats. 
 
 "Young's Seedling, from Philadelphia, is nothing but a Hovey Seedling. 
 
 " A nameless berry, that originated on my place, has many good points ; 
 but I must not say too much about it. The excellence of the berry is, that 
 in itself it is all that we want ; it does not need sugar, has a fine aroma, is of 
 good size, and is very hardy ; the foot-stalk stands up well, so the fruit does 
 not get dirty. 
 
 " The Peabody Seedling is not quite all that many expected by the eclat 
 given to it by the original propagator, thougli a pretty good berry. 
 
 "For productiveness, or best pecuniaril}-, the strawberry for me is tlie 
 Iowa; yet it is the least valuable fruit. I have never marketed Wilson's, 
 but I think it will pi-ove at least one of six most prolific of returns to the 
 cultivator, if not quite the best. Longworth's Prolific and Hovey's are 
 among the six. The seedling I have shown bids fair to be more profitable 
 than anything that I have grown. It is my business to grow strawberries 
 and other fruits to make money, and I can get three times as much for equal 
 measure of Ilovey 's Seedlings as for the common market sorts." 
 
 As to productiveness and value of varieties. Dr. "Ward said : 
 
 " The most productive strawberries that I gro;w are staminates or her- 
 maphrodites, and I think that is the opinion of others. 
 
 " The following four varieties, in their order, are likely to prove most profit- 
 able to the market gardener : Wilson's Seedling ; Iowa Strawberry ; Early 
 Scarlet, Virginia Scarlet or Scotch Runner; and Longworth's Prolific. 
 These are what are called hermaphrodite, or staminates, and they are all 
 
540 SMALL FRUITS OF THE GARDEN. [Chap. V. 
 
 great jDroducers, and more so than any pistillates or any other that I ever 
 grew. 
 
 "The "Wilson Seedling has a perfect blossom, and is one of the most pro- 
 ductive strawberries known ; the fruit is pretty strongly acid. Many of the 
 flowers o^the wild strawberry are barren for want of other plants near tliem 
 to furnisli impregnating pollen, and that is the reason why we see such a 
 show of blossoms sumo seasons in the fields, and so little fruit. 
 
 " liovey's Seedling must liave fertilizing plants set with it. Wilson's 
 Seedling is a perfect plant, and fertilizes itself." 
 
 Mr. Knox, a large cultivator of strawberries near Pittsburg, after a trial 
 of three years, previous to 1860, places at the head of the list of strawber- 
 ries the Triomplie de Gand. He says: 
 
 "But little has yet been said about tliis variety, and it has not been 
 generally cultivated, but as soon as well known it will be the most popular 
 strawberry in the countr}'. There is no known excellence which it does not 
 possess. The plants arc thrifty, hardy, and vigorous growers, bearing their 
 fruit well up, whicli renders it easy to be kejit clean. They are also wonder- 
 fully productive, and the fruit is not only usually of very large size, but uni- 
 formly so and throughout the season, which is longer with it than with most 
 other varieties. The flavor is everything which could be desired. It is of 
 a very beautiful crimson color, glossy, and altogether lovely. It keeps well 
 after being picked, retaining its beautiful color and firmness, and carries 
 better than any other variety." 
 
 He regards the Wilson's Albany as a very valuable and i^rofitable 
 variety, and has shown his faith in it by planting fifteen acres. In addition 
 to its many other excellences, it has proved a superior berry for canning or 
 preserving. Its weiglit, size, solidity, flavor, and color render it popular for 
 this use. 
 
 Scott's Seedling is remarkably mild, combining a pleasant peach and 
 strawberry taste, much liked, except by those who prefer very acid fruit. 
 It is a conical, bright crimson berry, of fair size, with, generally, a cavity 
 in the center — hermaphrodite. 
 
 " The true Bishop's Orange M-ill be good lor a late ripening crop, and 
 is remarkable for its beautiful orange-scarlet color, and for its productive- 
 ness. 
 
 The Jenny Lind is very early, a good bearer, double the size of Early 
 Scarlet, fine color, well flavored, productive, and a favorite in New En- 
 gland. 
 
 Peabody's Seedling is a very shy bearer, and is nowhere a favorite at the 
 North. 
 
 Prince's Scarlet Magnate is a beautiful sort, and a rampant grower. 
 
 The Bartlett, said to be a new seedling, originating in Brooklyn, N. Y., is 
 an excellent strawberry. 
 
 The pleasantest flavored strawberry grown is Bui-r'sNew Pine, and Swain- 
 stone's the richest, but these are not productive sorts. 
 
Seo. 34.] STRAWBERRIES. 541 
 
 The following is a description of tlie Austin, a seedling originated by the 
 Watcrvlict Shakers: 
 
 Fruit large, roundish to conical, sometimes flat, occasionally necked, and 
 uuiforiuly with a large core; color light scarlet; seed brown, slightly im- 
 bedded ; flesh white, rather soft and dry, acid, and somewhat deficient in 
 flavor ; calyx large, many-parted, and persistent ; stem stout and erect ; 
 flowers staminate. It is said to be very productive, but the frnit is too soft 
 tor long transportation. 
 
 The Boyden Seedling is noted for its mild character, which is such that 
 the most delicate invalids may iise it with impunity. It grows to a large 
 size, is a very delicious berry, but rather a shy bearer. 
 
 The White Alpine may be cultivated for variety and late fruit, but tlie 
 berries are small, and the vines not productive. 
 
 "We have made the following selection for our own use, all of which have 
 their points of excellence, as grown in our garden for family use, to wit : 
 
 "Wilson's Albany Seedling, the most prolific, and when its large berries 
 are well ripened, not too acid. The trouble is, that servants will pick them 
 before ripe, because they are red. They are so a full day before they are 
 ripe. 
 
 Hooker's Seedling grows vigorously, and is productive, and fruit excel- 
 lent ; large size, and handsomer than the Wilson, which is very dark. This 
 is one of the best for family use. It was originated in 1850 by II. E. Hooker, 
 of Rochester. 
 
 The Bartlett, we believe will prove equal to either of the aliove for family 
 use. 
 
 The Austin Seedling is likely to prove valuable for family use, because it 
 is a later ripening sort than the others. 
 
 The Ilovey is a very shy bearer in our garden. The Jenny Lind is not so 
 promising as it is said to be in Massachusetts. JMacAvoy's Superior is good 
 for fajnily use, but too tender for marketing, and so is Burr's New Pine, but 
 is of high flavor, and recpiires high culture. 
 
 Prince's Eclipse, Scarlet Magnate, and Climax are all handsome sorts, and 
 wonderfully vigorous growers, 
 
 The Boston Pine produces an excellent berry, round, deep crimson ; very 
 handsome. 
 
 The Genesee is a good-sized, long-necked berry, very mild, but not very 
 excellent. 
 
 The British Queen is a high-flavored strawberry in England, where it is 
 considered the standard of perfection. Fruit irregular shaped. 
 
 Long-worth's Prolific, originated by the celebrated Nicholas Longworth, 
 of Cincinnati, is an excellent family berry. 
 
 The Peabody strawberry, originated by Chas. A. Peabody, of Columbus, 
 Ga., and sold l)y him at a high price, is not worth as much for cultivation 
 with us as several other sorts. 
 
 Rivers' Eliza, an English sort, has the highest reputation of the imported 
 
542 SMALL FPwUITS OF THE GARDEN. [Chap. V. 
 
 varieties. The fruit is large, rich, and juicy, but the plants do not stand our 
 hot dry weather very well. 
 
 The Eed Alpine, a native of the Alps, will produce an autumn crop if the 
 spring blossoms are cut oil. 
 
 Scott's Seedling grows one of tlio handsomest strawlierries of the fam- 
 ily ; it is very bright crimson, large, conical form, aud pretty ; high 
 flavored. 
 
 Besides these, we have one called Chili, which we can give a high recom- 
 mendation. These make up a fine assortment, but we can not advise farmers 
 generally to try to cultivate more than three or four good sorts, embracing 
 an early, medium, and late ripening kind. 
 
 609. Seedling Strawberries. — Seeing what wonderful improvements have 
 been made within a few years, every one who can devote attention to it 
 should continue the effort to obtain a still better seedling than has yet been 
 produced. We shall hope on till some enthusiast gets a seedling as large 
 and prolific as the Wilson, and as high flavored as the Swainstone, British 
 Queen, Rivers' Eliza, Boston Pine, or any other. In 1S61, Andrew S. 
 Fuller, a skillful horticulturist of Brooklyn, N. Y., and an enthusiast in 
 pursuit of seedlings, had over a liundred new ones, all of which were good, 
 grown from the seed of the Wilson, Ilovey, Peabody, and some other large 
 sorts, and twenty-seven of them were selected by a committee of liorticul- 
 turists as fully worthy of fui-ther trial ou accouut of their many excellent 
 qualities. 
 
 In 1862 the same committee made repeated examinations of these seed- 
 lings while in bearing, and finally selected three sorts, which we believe, and 
 so do^nany persons who tested them and saw their growth and productive- 
 ness, make up as good an assortment as it is possible to obtain for family 
 use. All are hermaplirodite plants; rank growers; very prolific ; berries 
 of large size and good color ; one of them remarkabl}' lumdsome. One 
 ripens early, one late, and one between, so as to give ripe fruit tlirougliont 
 several weeks. 
 
 These new seedlings will become universally known as the Tribune Peizio 
 Strawbeeeies, liaving been purchased by the New York Tribune Association 
 for $3,000, with the design to send plants to all of its subscribers. They 
 will probably be known hereafter as the " Colonel Ellsworth," which is the 
 earliest ; the Monitor or Tribune Mammotli, wliich is the next ripe ; and 
 the Brooklyn Scarlet, which is one of the handsomest strawberries ever 
 produced. 
 
 This great sale of seedlings should encourage others to produce them. 
 Take ripe berries and mash tliem with sand, and thoroughly mix and sow 
 the sand and seed in carefully prepared beds. The seed-bed must be made 
 in a shady spot, and kept well M'atered. When the ](lants are large 
 enough, they are transplanted to the bearing-beds, and the runners care- 
 fully cut off. When the plants fruit, if one is promising, remove it to the 
 trial bed, where it can remain fruiting two or three years. 
 
Sec. 34.] STRAWBEKEIE8. 543 
 
 Mr. Fuller carefully liybridized hy hand all the blossoms of the plants 
 from which he obtained his seedlings. 
 
 610. S'roduct of Strawberries per Acre. — The following statement (18C1) 
 from a strawberry -grower in Delaware tells how many berries were produced 
 as a first crop, and shows that what has been done may be done again, not 
 by one, but by many who will pursue the same course. He says : 
 
 " The soil is sandy loam, with a subsoil composed of clay and sand in 
 nearly equal parts. In January, 1859, the ground was plowed to the depth 
 of eight or ten inches, turning under a timothy sod three years old, and sub- 
 soiled ten or twelve inches deeper, so that every part of the soil and subsoil 
 was loosened to the depth of eighteen to twenty' inches. In April, 1850, I 
 plowed under a heavy dressing of stable manure, harrowed and raked the 
 ground until it was well pulverized, removed all the grass, and after-giving 
 a top dressing of twelve bushels of unleached ashes, set out Wilson's Albany 
 Seedling strawberry plants in rows three feet apart and one foot between 
 the plants in the row. The bed had two hoeings before the runners com- 
 menced to grow, and afterward was kept free from weeds by the hand. 
 This constitutes the great expense of cultivating strawberries upon an ex- 
 tensive scale, as it is essential to the production of large crops for successive 
 years that the plants shall not be smothered nor the ground exhausted by 
 the production of weeds. No protection was furnished to the bed during 
 the winter. This spring the ground Avas almost entirely covered with plants, 
 and permitted to remain undisturbed, with the exception of the necessary 
 weeding. Tlie bed blossomed early and very freely. On May 27 the first 
 quart of berries was picked, and the bed continued to yield until June 10. 
 Every cai-e has been taken to keep an accurate account of the quantity 
 gathered, and the yield has been 880 plants, making 9,050 quarts, or 282 
 bushels to the acre. The juimber of berries growing and manuring upon 
 single plants was frequently over. 200, and in several instances 300 were 
 counted upon a plant. The berries were large and fine looking, those first 
 sent to Wilmington selling for 25 cents a quart at a time when the common 
 variety was bringing only 10 cents. Having other beds for my own con- 
 sumption, all th^ berries from this bed were sold for $11G 14, from which, 
 deducting $21 98 for commission, freight, and picking, leaves $94: 16 as the 
 net return from less than one tenth of one acre of ground. This variety 
 possesses all the requisites of a market berry, being large, handsome, and 
 very firm, meeting with a ready sale, and yielding, under equal circum- 
 stances, as great a number of bushels to the acre as can be obtained from 
 the cultivation of the potato. I am confident that a greater yield can be 
 obtained by cutting paths one foot in width between the rows, as originally 
 planted, thus dividing the plantation into beds two feet in width, so that tlie 
 vines can receive more air and light, and the berries be gathered without 
 trampling upon the plants." 
 
 611. Staminate, Pistillate, and Hermaphrodite Blossoms.— It appears to l)c 
 a settled question that there are three distinct forms among the blossoms of 
 
544 SMALL FRUITS OF THE GARDEN. [Chap. V. 
 
 strawberries, and that two of them will not produce fruit except by impreg- 
 nation one with the other. These are called male and female flowers, the 
 male flower growing stamens without pistils, and the female flower pistils 
 without stamens. The other, called hermaphrodite, is furnished with both, 
 and has the power of self-fertilization in each blossom. Tiie female, or 
 pistillate flower, has a golden center, the jjistils covering it like short stiff 
 hairs. The male, or staminate flower, has a dark center, from which grow 
 a dozen or more stamens, which are little stems with knobs on the ends, 
 which bear the pollen that must come in contact with the pistils to 
 fructify them, or else the plants will be barren of fruit. Some plants 
 bear all staminate and some all pistillate flowers, and where that is the 
 case, unless the two sorts grow in uroximity, both will be nearly destitute 
 of berries. 
 
 It is often observed that strawberry blossoms are abundant in the fields, 
 and fruit scarce. This is owing to the sexuality of flowers, and the lack of 
 favorable circumstances to produce impregnation. The great scarcity of 
 bees in many of the old States cuts ofl' tlie agencies by which nature carries 
 on the work of fecundation of flowers. 
 
 Some varieties of strawberries always produce hermaphrodite flowers, the 
 center of which is like the pistillate, with stamens growing out of it, as they 
 do from the center of the staminate flower. This kind of blossoms will pro- 
 duce fruit if there should be no other sort growing near. 
 
 Although a pistillate variety will not produce without the aid of starain- 
 ates, if the two kinds are set together the staminates soon outgrow the others, 
 and so take possession of the ground, that in three or four years the bed 
 affords but a meagre supply of fruit. Great care, therefore, must be used in 
 cultivating strawberries not to let the barren, rapid-growing, male plants 
 overpower the female ones, which are the true fruit-bearers. 
 
 C12. Soil— Preparation and CultivatiOH for Strawberries. — The best soil is that 
 lately in forest, of a gravelly-loam character, situated on a gentle southeast- 
 ern slope, and should be nnderdrained, spade-trenched, or deeply subsoiled, 
 and made rich and mellow before setting the plants. If nnderdrained 
 thoroughly it will soon pay the cost in extra productiveness. If possible, 
 protect the north and west sides by high fences or hedge. The best manure 
 is woods-mold, and unleached ashes, and what is known as the "lime and 
 salt mixture" — that is, a bushel of salt in just water enough to dissolve it, 
 and that used to slake three bushels of lime ; shell-lime is best. If land is 
 parched with drouth, without artificial watering the fruit will be deficient, 
 though all other requisites are complete. All the fertilizers should be 
 mixed in the soil before the plants are set. Twenty or tliirty bushels of 
 ashes, three bushels of salt, and nine of lime may be -used up on an acre, 
 and the more the soil is stirred in its preparation the better; and it should 
 be as free of weeds and grass as possible. 
 
 When ready to set your plants, rake the bed smooth and mark off the 
 rows, and procure sti'ong-rooted plants, and dip the roots as you proceed in 
 
Sec. 34.] STRAWBERRIES. 545 
 
 water, thick with rich earth or compost, and set them no deeper than they 
 naturally stood, being careful to cover with line earth well pressed. 
 
 If you intend your bed to cover all the earth, set the plants a foot apart 
 each way. If to be kept in hills, two feet apart. If in rows, make them 
 three feet apart, and the plants eight to twelve inches apart in the rows. 
 
 There is no wrong season, when the plants are not bearing, to transplant 
 strawberries. Perhaps the best time is after the old roots send out runners, 
 and the first of them get well rooted. Tlien cut the connection with the old 
 stool, and keep the new root from sending out runners until it becomes a 
 strong root, and then, if your new bed is to be made in the same locality, 
 take up the plants with a transplanting-trowel, with all the dirt that will 
 adhere, and lay them on boards and carry right to the spot where they are 
 to be set, and put them in suitable holes scooped out with the trowel or 
 hand, and they will keep on growing almost as freely as thougli they had 
 not been removed. Keep the ground free of weeds, and frequently stirred 
 between the plants, till winter, and then cover with forest leaves, held in 
 place by brush or a little dirt scattered over. In the spring, rake the leaves 
 off the plants, and leave them as a mulch between. After fruiting, the run- 
 ners begin to put out. If j-our plan is to keep distinct hills, cut off all run- 
 ners every week. If your plan is for rows, keep working between the rows, 
 and turn the runners so as to form a growth of plants a foot wide, leaving a 
 space for working two feet wide between. This is the best plan for field- 
 culture, working the beds by horse-hoe. "When the rows get grassy, and 
 need changing, run the siibsoil-plow deeply and repeatedly through the rows, 
 and work in the necessary fertilizers, and j)i'epare a new row of plants by 
 setting or training runners to the right spots, and let them set themselves, 
 cutting away all the surplus ones. Then, late in the fall, the old row is to 
 be completely turned under by the spade or plow, and so this renewal sys- 
 tem may be continued, turning down a portion of the old bed each year, 
 and thus having vigorous plants always in full bearing. 
 
 Where the plants are set with the design of covering all the surface, the 
 runners are permitted to spread where they will the first year, and the 
 second year the poorest plants, old or young, should be cut out, so as not to 
 allow the bed to become matted. When it begins to fail, from being over- 
 run with weeds or grass, or from the plants becoming feeble from age or 
 want of room, divide it into strips two feet wide, and turn under alternate 
 ones, and fertilize the ground for a new setting of plants to spread over it 
 from runners ; and when they are well established, turn over the other strips 
 in the same way, and so continue. At every new preparation of the bed 
 add ashes if you can, or bone-dust, or superphosphate of lime, or fine co!n- 
 post, in which rotted sods, leaves, and woods-mold hold the greatest share, 
 and then no other manuring will be necessary while the plants are in bear- 
 ing except the mulching of leaves, sti-aw, or salt hay, that you should give 
 every winter. Where it can be had convenient!}-, always get spent tan-bark 
 for mulching. Turners' chijis are a very good substitute, and so ai'e lea'her 
 
546 SMALL FRUITS OF THE GARDEN. [Chap. V. 
 
 shavings. "When any fine material is used for niulcbing, be careful not to 
 smother the plants. Sawdust, and also scrapings from the wood-pile, may 
 be used if care is had about smothering. 
 
 Covering the ground permanently with saw-log slabs lias been practiced 
 with pleasing success. The plants were set in well-prepared soil, in straight 
 rows one foot apart, and tlien slabs notched on tlie edge about three inciies 
 deep were fitted to the plants, so that they grew in bunches in holes about six 
 inches wide, and of course free from weeds and grass. By this plan no new 
 plants are made from runners ; so, if such are desired, a bed must be kept for 
 that purpose. The old stools of strawberry plants, after a few years, grow so 
 much above the surface that they are not productive. Hence the necessity 
 of frequent renewals. 
 
 Some Long Island market gardeners set the plants so as to work between 
 the rows with a horse cultivator the first season, keeping the ground clean 
 until the runners begin to take root. Next season the field produces one 
 heavy crop, when the weeds are allowed to grow a few weeks, and vines and 
 all are then plowed under, and a new plantation started. 
 
 Never set the plants any deeper than they originally stood. Although 
 we should always prefer new plants, yet it may be remembered that the act 
 of transplanting old roots, even those that liave become barren, causes them 
 to send out new bearing crowns, and so become fruitful again. It is also 
 recommended, by those who have proved its value, to hill up old stools with 
 fresh earth, which has the effect to make them fruitful again. 
 
 Watering in a dry time is highly important. It will keep the plants in 
 bearing twice as long as without it. Charles A. Peabodj', near Columbus, 
 Ga., has certainly been one of the most successful strawberry culturists 
 in this country. lie has carried berries to market more than six months of 
 the year, and lie obtained them by copious watering with a movable pump 
 — a garden engine. lie planted his beds upon sandy land, newly cleared 
 of pine and oak timber, choosing a flat near a little brook, on account of con- 
 venience of water. lie used no other fertilizer at first than what was obtained 
 by burning the timber and brush and scattering the ashes, and afterward iiy 
 mulching with forest leaves. After the fruit season, his practice was for a 
 hand to go through with a hoe and cut up the poorest-looking plants, so as 
 to keep them from getting too thick, and tlien the mulch being put on, pre- 
 vents the runners from setting, and they are afterward cut away. He is 
 careful to have all the vines cut off left on the ground, considering them the 
 best kind of fertilizers. This is true in regard to all kinds of plants; tlie 
 ashes are the best kind of manure for the same kind growing 
 
 613. Raspberries. — This delicious fruit has not yet reached the perfection 
 that strawberries have. "We regard the strawberry as the chief of tiie small 
 fruits, from its being the earliest fruit to come into bearing after planting, 
 its cosmopolitan character, its enormous ^productiveness, ease of culuire and 
 reliability, and last, though not least, its delicious qualities ; and we regard 
 the best of our cultivated raspberries nearly equal, but unfortunately the 
 
Sec. 34.] RASPBERRIES. 547 
 
 plants are not liardy. It is perplexing to a farmer, and so'it is to any one 
 but a professional gardener, to liave to look after the raspberry plants, and 
 carefully cover them before -winter sels in. "We i;eed a new raspberry, as 
 delicious as Fastolf or Brinckle's Orange, and hardy as the Black Caj), or wild 
 red sort which produces so abundantly in Vermont and Canada. To this 
 end we must undoubtedly look to the native seedlings principally to obtain 
 the hardiness and vigor of constitution necessary to enable the canes to with- 
 stand our winters, if possible, Avithout injury. 
 
 Many seedlings have been introduced, but they are mostly direct descend- 
 ants of European kinds, and have not generally proved much hardier than 
 their parents ; and like them in that and some other respects, have not grown 
 generally po])ular or given entire satisfaction. "We do not despair of seeing 
 a new raspbei'iy that will have all the good qualities desired. 
 
 E. C. Clark, of New Haven, has shown specimens of a new seedling 
 raspberry which promises to be an acquisition of considerable value to 
 fruit-growers. It is stated as being hardy for out-door cidture, red color, 
 and certainly a very good flavor and fair size, and sutHciently hard to bear 
 transportation. 
 
 Lewis F. Allen, of Black Eock, N. Y., has distributed a raspberry that 
 promises good results, and by some is very highly approved. 
 
 II. II. Doolittle, of Oak's Corners, Ontario County, N. Y., t'links he has 
 improved the Black Cap raspberry so as to get the good qualities we have 
 mentioned. He says the bushes are as hardy as the wild sort, and he is 
 well backed by certificates of good men that they bear abundantly, and that 
 the fruit is rich, and that it bears transportation perfectly. 
 
 The Catawissa raspberry is called an ever-bearing sort, but is not more so 
 than the Belle de Fontenay, though it may be a little more hardy. It is 
 objected to by those who wish to increase the plants, that it does not throw 
 otf sufficient off'shoots. 
 
 The Kirtland raspberry has received some high commendations in Ohio, 
 ripening its fruit in June, and continuing to produce rich red berries abun- 
 dantly for three weeks. 
 
 R. Ct. Pardee, in speaking of this variety of fruit, says : " Most of the 
 plants sold for pure Antwerp raspberries are poor things, and, in fact, we 
 have but very few sorts of raspberries worthy of cultivation that are luirdy. 
 Brinckle's Orange is about the best light-colored sort cultivated, but that 
 is not quite hardy. Tiie Belle de Fontenay is highly esteemed, but that 
 nor no other can be truly called ' ever-bearing.' The only way to get a full 
 crop in autumn is to cut away all the canes in May ; that throws the 
 strength of the whole root into the new canes. The Belle and the Four 
 Seasons, and perhaps some other of the ever-bearing sorts, will produce a 
 good fall crop with this treatment. I believe the Fastolf the best family 
 raspberry that we have." 
 
 614. Blackberries. — There is but one variety of blackberries extensively 
 cultivated, and that is known as the "Lawton," or "New Rochello Black- 
 
5iS SMALL FRUITS OF THE GARDEN. [Chap. V. 
 
 licrry ;" and it is truly a most magnificent fruit, and productive beyond 
 belief. "We are fully satisfied that it is as liardy with us as the native black- 
 berry, the thermometer having been several times below zero, our impro- 
 tected vines have sustained no injury. Its universal productiveness is 
 undoubted by all who have seen mature plants in full bearing. The size of 
 the fruit exceeds any other sort, and when suffered to remain on the vines 
 till fully ripe, it is not too acid, which is the only fault we ever heard 
 charged against it. Tliese berries often appear fully ripe to an unpracticed 
 eye, yet are really unfit to eat. Wiien perfectly ripe, the berries lose the 
 shining appearance, and if tickled a little will fall into the hand. 
 
 The New Rochelle blackberry originated in the town which it is named 
 after, about twenty miles northeast of New York city. It is either an ac- 
 cidental seedling- of the wild variety, or else a sort brought there by the 
 French Huguenots, who settled that place. It was discovered growing wild 
 by a Mr. Secor, from whom "William Lawton, who lived in the village of 
 New Rochelle, obtained his first plants, and began their propagation; though 
 slowly, because he lacked the skill of a professed nurseryman. 
 
 George Seymour & Co., of Norwalk, Ct., nurserymen, obtained some 
 jdants about the same time, and went to \vork skillfully to increase their 
 stock before advertising the wonders of the new berry to the world. In the 
 mean time Mr. Lawton made a show of tlio fruit, and the enormously thrifty 
 growth of the plant, before the American Institute Farmers' Club, which 
 was given to understand, from his statement, that it was a seedling originated 
 by him, and thereupon it was named the " Lawton Blackberry." Others, 
 knowing that he did not originate it, have insisted that he was not entitled 
 to the name, and call it the "New Rochelle Blackberiy." By either name 
 the fruit is the same, and is well worlhy of cultivation. The bush is one of 
 the rankest-growing ones of the ruhus family, and bears enormous crops. 
 "We have counted over a thousand bei-ries on a single cane, and know that a 
 hundred bushels have often been picked from an acre. The berries arc in per- 
 fection the middle of August, and the common selling price in New York for 
 some years was twenty-five cents a quart, and when the wholesale price fell 
 to ten or twelve cents, some of the largest growers would not sell them, pre- 
 ferring to squeeze out the juice and convert it into wine or cordial. 
 
 The quality uf the berries is that of a very juicy pulp, much larger in 
 proportion to the seed and hard core than in the very best wild sorts, and 
 the berries grow to nearly double the size, of roundish form, about an inch 
 long, more resembling the running variety than any of the berries of the 
 wild high vines. 
 
 The plants endure the coldest weather M-ithout any protection, and will 
 grow upon any rich soil and bear any amount of manure. 
 
 G15. How to Plaut and Cultivate (he Lawton Bfackberrics.— If the plants 
 are taken from the ground and planted while the roots are fresh, they will 
 all live. If suffered to get dry, the most of them will die. Even one hour 
 of exposure to the sun or drying wind is apt to prove fatal. If they are 
 
Seo. 34.] BLACKBERRIES. 549 
 
 put up by nurserymen in good order, they will bear transportation well. 
 AVlien the jiackago is opened, bury tlie roots immediately in fresh earth, and 
 draw fhem out only when ready to sot immediately in their places. Under 
 no circumstances must the roots be exposed long enough to get dry, nor 
 drenched with frequent waterings after being set, nor must you expect them 
 to grow in poor soil Avitliout manure. The whole rulus family are gross 
 feeders, and none more so than the Lawton blackberry. 
 
 For a garden plat, lay out a bed from four to six feet wide, near a fence 
 or any other convenient jjilace; spade the ground from sixteen to twenty 
 inches deep ; if the subsoil is gravel, throw it out and ])ut good soil in its 
 place. Distance should be fi'om six to eight feet apart. The stems of the 
 jilants should be cut down to six inches. Plant the roots about three to six 
 inches deep ; when jj'anted in autumn, cover with straw, mulch, or litter, 
 which remove in the spring. 
 
 Allow but two canes to grow from each root the first summer; these will 
 produce fruit the second summer. At the same time other shoots will make 
 their appearance, preparatory to bearing the ensuing season, and but two of 
 these should be allowed to grow — consequently there will be two growing 
 and two bearing canes to each root every season — the latter will die in the 
 fall and should then be r(pioved. 
 
 It is no trifling job to trim up a lot of these plants as they should be, and 
 no one sliould attempt it without being suitably dressed with stout cloth — a 
 kind of duck, such as sailors wear, is the best — and leather mittens. 
 
 If j'OU wish to set out a field of blackberries, manure the ground as you 
 would for a crop of corn, plow deep and harrow well, then run furrows e%ht 
 feet apart ; cross-mark same distance apart with a chain or other instrument, 
 giving eight feet each way between the plants — some cultivators recom- 
 mend ten feet each way — set about six inches deep, and only one plant to 
 the hill. 
 
 The vines or canes will, the first year, take rather a low or trailing 
 form ; these should be shortened in a little in the spring ; then cover 
 the ground with old straw or litter imder them, after putting the ground 
 in order, letting the fruit rest upon the mulch, which keeps it clean from the 
 ground. 
 
 The next, or second year, the plant takes an upjright form, throwing up 
 two, three, and sometimes four large shoots. 
 
 Plow and cultivate freely but shallow, using plow and cultivator two or 
 three times the fore part of the season, keeping down all weeds and the 
 ground in fine tilth, after which mulching with salt-hay, straw, seaweed, 
 or anything that can be got hold of, will be found of special value, keeping 
 the ground moist and friable, and the fruit clean. 
 
 When about four and a lialf feet high, prune by pinching out or cutting 
 off the buds of the leading shoots, which will cause the side-shoots to start 
 and make stouter and better bearing plants. 
 
 After pruning, stake the plants, tying them in an inclined pi^sition, be- 
 
550 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 cause if trained upright the side-branches are apt to break down from the 
 weight of the fruit. 
 
 The above are the directions given by Mr. Seymour, who had five acres 
 in full bearing when we saw and made a careful examination of them some 
 years ago. On the first half acre planted we found ten rows, of thirty-two 
 bunches each, making 320 roots as originally set upon the half acre. The 
 lowest estimate of any of the gentlemen present was five quarts of berries 
 to a bunch of roots. That would make five bushels to the row, and fifty 
 bushels to the half acre. Knowing that it takes only an average of 120 
 berries to a quart, from rough calculation of numbers we are satisfied the 
 average will be eight quarts to the bunch. But let us take the lowest 
 estimate, one hundred bushels per acre, and we have a crop worth eight 
 hundred dollars, at the then wholesale price of twenty-five cents a quart. 
 And even at only one fourth that price the crop would be a good one. Mr. 
 Lawton's method of pruning his plants consists in carefully heading back all 
 the branches to the fully-ripened wood. In some cases half of the length of 
 the plant is cut away — generally about one third of the length. Then all 
 the fruit comes in perfecti(m. Commence to head back with the plants the 
 first year of bearing, when 200 to 250 berries may be expected from each 
 plant, as it branches out xevy full of bearing liml^. 
 
 016. The Dorchester Blackberricst — Since the successful introduction of 
 the New Rochelle blackberry, several attempts have been made to bring 
 others, possessing some peculiarity, into notice. Among these the best and 
 most successful is one called the Dorchester blackberry, originating in the 
 to\^ of that name in Massachusetts, and first brought into notice by Capt. 
 Lovet, of Beverly; it is a sweet, excellent fruit, and by many persons in 
 that State is much more preferred than the Lawton, which does not ripen as 
 well in the vicinity of Boston as it does at New York. 
 
 CI 7. The Thornless Blackberry originated, or at least was brought into 
 notice by Jonas Newman, in Ulster County, N. Y., where it is said to be 
 remarkably prolific. If so, it loses its character whenever removed far from 
 its original locality. The fruit is sweeter than the New Kochelle variety, 
 and it is much easier gathered on account of the partially thornless charac- 
 ter of the plants ; but they are very shy bearers in every locality where we 
 have seen or heard of their cultivation east of the Hudson. 
 
 C18. White Blackberries, if such a misnomer may be allowed, are among 
 the novelties of the day, or rather among the old tilings which are every 
 now and then brought forward as novelties. The berries are of a dirty 
 white color, of an insi]iid sweet taste, having no distinct character either 
 sweet or sour. We would not, even for the novelty, give them garden- 
 room. 
 
 619. The Tarsley-Leafed Blackberry is an old variety, which is every now 
 and then brought forward as somet'.iing new. It is unlike the Lawton in 
 this particular, that it does not bear pruning, and its long, climbing vines 
 must be trained upon trellis-work to produce well. It is valuable to use as 
 
Sec. 34.] BLACKBERRIES. 551 
 
 a covering of unsightly walls or rocks, and may be grown on a trellis or 
 rock-work to good advantage, as its foliage is very ornamental and the fruit 
 delicious. 
 
 620. The Cut-Leaf Blackberry, we thiidc, is the same as the Parsley-leaf 
 variety, being called differently in difierenl; places. 
 
 There are two sorts known as "Double White Blossomed" and "Double 
 Pink-Blossomed," used for ornamental purposes, and for tliat are really 
 pretty adjuncts to landscape-gardening. But the most ornamental black- 
 berry that we have ever seen, is a new variety which we first saw in the 
 garden of Andrew S. Fuller, Brooklyn. The whole stem is of delicate pale- 
 green color, and the foliage is very pretty. 
 
 C21. The RuiiHiug or Trailing Blackberry has been lately cultivated with 
 great success, and as much improved in quality, size, and productive- 
 ness as any other wild fruit by cultivation and rich manuring. It will 
 grow upon very poor land if manured, and particularly delights in old 
 stone walls, rocks, stumps, or fence rows, and might be made particularly 
 useful upon many places where rocks abound, as they do in New England, 
 New York, New Jersey, and Pennsylvania. On Long Island, the running 
 blackberry is one of the most valuable crops that many farms produce. 
 The business of picking and sending to market has been systematized by 
 Joseph French, whoso name is worthy of mention as a benefactor to that 
 region. Much of the land from which Long Island blackberries are gathered 
 is very sandy, and almost barren, having been turned out to common as too 
 poor for longer cultivation. But since picking blackberries has become a 
 business, some farmers have allowed cornfields to grow up along the i^ws, 
 and continued plowing between, and in some cases using manure, which has 
 made the berries double the size of wild ones. 
 
 AVe recommend growing a plot of running blackberries in every farm gar- 
 den where this variety grows naturally. 
 
 622. Value of Blackberries for Wine. — Besides the object of raising black- 
 berries for the fruit to cat or sell, there is another of equal importance. A 
 very palatable wine or cordial can be made, which, if sold at the usual rates, 
 will make the crop a very profitable one; for the juice of 80 quarts of Law- 
 ton blackberries, with 90 pounds of double-refined sugar, will make a barrel 
 of wine, such as has commanded $2 a gallon, for several years, in New York. 
 Now if we count the wine at a wholesale ]>rice of only $1 a gallon, and re- 
 duce the price of berries, the following M'ould be something like the items 
 of cost of wine: 2i bushels (80 quarts) of berries, for a barrel, at 6i cents, 
 $5; 90 pounds of sugar, at Hi cents, $10 35; crushing and mixing, 65 
 cents; cost per barrel, $16. 
 
 The product of wine per acre, yielding 100 bushels of berries, would be 
 40 barrels, costing, exclusive of berries, $11 a barrel, and selling, at $1 per 
 gallon, for $1,200. Upon this calculation, will the market ever be_ glutted, 
 or will the crop, which costs no more than a crop of corn, exclusive of the 
 picking, ever cease to be remunerating ? 
 
552 SMALL FRUITS OF THE GARDEN. [Chap. V. 
 
 Tiiere is another tiling in this connection. "We have, we do, we shall send 
 Ohio whisky to France, to be run through the stills upon the lees of the 
 wine-press, which we buy back at a high price under the name of brandy. 
 From blackbei'iy wine we can make a very superior brandy at less cost and 
 far more fit for medicinal purposes. We can also make blackberry sirup, if 
 we have the fruit in abundance, that will cure all the summer complaints in 
 the community, and save the lives of an army of children every year. 
 
 For sirup, no water is added to the juice and sugar; for wine, after the 
 sugar is well dissolved by frequent shaking of the barrel, it is filled up with 
 water and allowed to ferment, and then treated as all domestic wine should 
 be. [See 46!) to 476.] 
 
 623. Gooseberries. — There are about a dozen sorts of gooseberries in com- 
 mon use, the most of them English; and however much they may be pre- 
 ferred, we have to say that the English varieties of the gooseberry have never 
 succeeded in this country, only in a few localities, and we doubt if they ever 
 will. Indeed, there is no place on the Eastern Continent where the goose- 
 berry has been brought to the perfection that it has in England. In Italy, 
 where it is found in its wild state, it has never received extensive cultivation, 
 or thought worthy of it. In Spain it is scarcely known ; in France it is but 
 little esteemed ; and in no country does it thrive so well as in the humid at- 
 mosphere of England. And it is to this perfect adaptation of the climate to 
 the plant that the great improvement of this fruit is owing more than to the 
 skill of the cultivator. In Holland and some parts of Germany it is culti- 
 vated with success, having a climate milder than that of England, with much 
 of its humidity. To succeed here with gooseberries, we must plant them 
 upon soil that is cool and moist, on the north side of a hill, or a cool and 
 half-shady place, and then keep the bushes properly pruned ; for under such 
 circumstances we have seen abundant and regular crops for years in succes- 
 sion. If cultivators would take indigenous varieties, of which there are some 
 twenty, and many of them superior to the native European variety, and sow 
 the seed, and by so doing improve the fruit, we should soon have varieties 
 that would be equal, if not superior, to any imported variety. Besides 
 being native, they would be exempt from those diseases which we have to 
 contend with in the cultivation of the foreign kinds. 
 
 The Shakers of New Lebanon, N. Y., have a gooseberry, called the 
 " Mountain Seedling," that is very hardy, and of fair size and quality, that 
 was found growing wild in that vicinity. 
 
 You must not entertain the idea that you will get an improved vari- 
 ety of fruit by purchasing sorts which have given remarkable results from 
 very high cultivation. The currant will grow and produce fruit in almost 
 any locality, badly neglected ; but the gooseberry will not grow in that way. 
 "We know that the English gooseberry has failed in most places under ordi- 
 nary cultivation. But we have some very good native gooseberries that are 
 perfectly hardy, and some of these have been greatly improved ; and we 
 hope others will be, until we have a native gooseberry as hardy as the wild 
 
Seo. 34.] QUINCES. . 553 
 
 one, and as good as the best English ones, which are all seedlings from wild 
 sorts, common in Piedmont and France. The Houghton Seedling appears 
 to be tlie i'avcjrite sort at present. 
 
 The Houghton is a large, fine berry for marketing, but is not so delicate 
 in texture nor excellent in flavor as some of the English sorts. "We have 
 seen a seedling variety that originated on Staten Island, that had grown sev- 
 eral years free from mildew, and appeared very promising. Some persons 
 think the most delicate kinds can be grown upon " the renewal system" — 
 that is, never suffer old wood to remain. Others say that if grown upon a 
 clay soil, and no heating manures ever nsed, and the ground mulched with 
 salt-hay or its equivalent, all the English varieties of the gooseberry can bo 
 grown in our climate as well as in England. Perhaps. As a general rule, 
 the red varieties appear the most hardy. 
 
 We believe that good cultivation and care will enable any one in almost 
 any locality to grow good gooseberries free from mildew. But we do not be- 
 lieve that farmers in general will bestow that care. It' any one will, it is not 
 necessary, perhaps, for us to resort to the native sorts, but we may at once 
 procure the very choicest English varieties, like some of the beautiful speci- 
 mens exhiliited at every fruit show. 
 
 "We will give the names of a few of the leading sorts of gooseberries culti- 
 A'ated by gardeners and amateurs: Sheba Queen, Champagne Red, Cham- 
 pagne Yellow, "Whitesmith, Golden Drop, Keen Seedling, Green Gage, 
 Crown Bob ; the first and last of the list are the most popular. The '• Mount- 
 ain Seedling" should be added to tlie list. 
 
 62i. Quinces. — Although quinces can not properly be ranked among the 
 " small fruils of tlie garden," we will introduce them here because they more 
 properly lielong to the garden than to the orchard. They should belong to 
 every garden, because they are excellent fruit, alwa^'s acceptable for family 
 use, or salable at a liberal price in market. The tree is very hardy, and 
 grows from four to twenty feet high while in good bearing condition. We 
 have known them set by the side of a garden wall and stand there neglected 
 for thirty j'ears, producing a crop every year. They will, however, pay for 
 better treatment. If set in clumps in a lawn and kindly cared for, they arc^ 
 highly ornamental. The main stem of a young quince bush should be cut 
 back at a year old, and then it will form several branches, with curious 
 crooked limijs, and it may be trimmed to form a bushy head of almost any 
 shape. The form, foliage, flowers, and fruit are all ornamental. Tliis plant 
 is a bush rather than a tree, and comes to us from Cydon, in Crete, its bo- 
 tanical name being Cijdonia vulgaris. It grows best in moist, or rather 
 mucky soil, by the side of rivulets, or streams, or ponds ; but it should not 
 be neglected as it is generally, unless knotty, miserable, bitter, sour fruit is 
 preferred to the fair, smooth, high-flavored fruit produced by cultivation. 
 No tree or shrub pays better for manuring than the quince. It is true, after 
 its form is once established, it needs but little care in the way of pruning, 
 and if located in a favorable situation, does really flourish without care. 
 
554 THE GARDEN AND ITS FRUITS. [Chap. V. 
 
 But we are sure that a quince orchard would pay for care as well as one 
 of peaches. The variety called the Apple quince is very productive, and 
 the fruit, though it is unlit to eat out of hand like peai's, apples, peaches, is 
 always salable, for it is universally esteemed for sweetmeats, jellies, marma- 
 lade, etc., and for adding piquancy and a delicious flavor and aroma to apple 
 tarts, pastry, and stewed fruit. The quince can be easily dried either raw 
 or cooked, and is then excellent to add to other fruit. In England, wine 
 has been made of quinces, and it is esteemed a valuable medicine by asth- 
 matics. 
 
 It is very easy to extend the cultivation of quinces to any desirable point, 
 and the plants are generally true to the seed, and if not, seldom produce a 
 worthless sort. They also grow from cuttings set early in the spring in a 
 rich shaded border, where they may be put in as tliick as hair until roots 
 start, and then set in a nursery bed. The poorer stocks can also be budded 
 with good sorts, and they liave frequently been grown by budding upon 
 thorns. Quince stocks for the propagators of dwarf pears, are indispensable. 
 
 625. Varieties of Quinces. — In i:>urchasing quinces, do not suppose that there 
 is a large variety of sorts because you find a great number of names in the 
 nurserj' catalogues. Tliere are just three distinct varieties : the Apple- 
 shaped, or Orange quince ; the Pear-shaped, or oblong quince ; and the 
 Portugal quince. The fruit of the last is considered superior to cook, and 
 it is occasionally mild enough to eat out of hand. The leaf is larger and 
 broader than the common sort, and the tree grows strong and bears large 
 fruit of oblong shape, of rather light-colored skin, but the flesli, when cooked, 
 turns to a fine purjile. This variety Avould be more esteemed if it was not 
 such a shy bearer. 
 
 Ilea's Seedling is the name given to one of the quince family, the fruit 
 growing very large and handsome in color, shape, and general appearance 
 like tlie Orange quince. 
 
 62G. Ornamental Quinces. — The Japan quince is more for ornament than 
 use. Tiie blossoms are handsome, of bright scarlet color, and the fruit green, 
 hard, and useless. 
 
 The Cliinese quince is of the same character as the Japan, an ornamental 
 ehrub — nothing more. 
 
 In conclusion, we will say of the quince in general terms, it. is one of the 
 very best fruits for preserves, marmalades, sauces, sirups, jellies, either alone 
 or with other fruits, to which it imparts its fine flavor. The liquid, after 
 washing the mashed fruit with water, and standing for twenty-four hours, 
 makes a good wine with sugar. Medicinally, the quince is strengthening, 
 giving tone to the stomach. Baked with sugar, they are superior to apples, 
 and dried quinces are frequently mixed with apples, in making pies, to im- 
 prove their flavor 
 
PLATE XVT. 
 
 (Page 655.) 
 
 This is a fitting frontispiece to this important cliapter upon the 
 orchard. It is indeed "a dessert fit for a farmer." It is placed 
 here as a sign of something good in the following pages. It is made 
 tempting in its ajipearance to tempt you to taste of what is said 
 of fruit culture. The basket is a symbol of what every farm 
 should be— overflowing with its abundance of choice, rich, luscious 
 fruits. Its place by the side of the wall is suggestive. Fruit needs 
 protection. The view of water behind the wall is symbolical. A 
 situation near water, if the soil is drj^, is favorable for fruit-growing. 
 The scene beyond is that of the quiet country home, where six days 
 of labor and one of rest and thanksgiving in the village church shall 
 bring a store of just such fruits as ai-e here exhibited. Reader, look 
 at this picture ! study its lessons, thank God, and enjoy the fruits 
 of the orchard. 
 
SECTION XXXV.- 
 
 CHAPTER VI. 
 
 THK ORCHARD. 
 
 -PROPAGATION, PLANTING, AND CULTIVATION OF 
 TREES. 
 
 1 T will not be expected that we shall give a complete 
 i^ treatise upon so important a subject as the title of this 
 section indicates in the space allotted to each subject in 
 this work. We only aim to brief hints, just enough to 
 awaken attention and induce farmers to procure and study 
 some of the many valuable works easily attainable, such as 
 " Downing's Fruits and Fruit-Trees of America," " Kenrick's 
 New American Orchardist," now somewhat old, but full of 
 useful information ; also " Cole's Fruit-Book," a pocket edi- 
 tion ; "Manning's New England Fruit-Book;" "Elliott's 
 American Fruit-Growers' Guide ;" " Barry's Fruit-Garden ;" 
 " Waring's Fruit-Growers' Hand-Book ;" and " Tiiomas' 
 American Fruit Culturist." All are modern and standard 
 works, of small size and cost, having a great mass of val- 
 iiable information condensed into such brief space that the busiest man can 
 find time to read them, and to study carefully such parts as are directly 
 adapted to the particular case in hand. Many of the nurserymen give val- 
 uable information in their annual catalogues. This is particularly the case 
 with Dr. Grant's catalogue of grapevines. It gives the most information 
 about grape culture of any work we are acquainted with. Some of the 
 agricultural and horticultural papers, which are published so very cheap 
 that every farmer can afford to have one or more always upon his sitting- 
 room table, often contain single items about fruit culture worth ten times the 
 cost of annual subscription. 
 
 The annual reports of transactions by the American Pomological Society, 
 as well as those of other societies, should be in the hands of all persons who 
 have any interest in fruit growing. Then to such as can afford the cost or 
 time of study, the publications of London and Paris will give a world of in- 
 formation upon this subject. Some of them have most expensive colored 
 plates, such as no American publisher has dared to rival, though we have 
 had a few feeble imitations. " Field's Pear Culturist," with colored fruit, 
 though inferior to Paris works, yet contains some valuable information. 
 'Those who are able should possess "Lindley's Guide to the Orchard and 
 Kitchen Garden," which, although published thirty years ago, and adapted 
 
556 THE ORCHARD. [Chap. VI. 
 
 to England, contains much valuable information for American farmers, and 
 also all of Lindley & Loudon's works; and many others, botli English and 
 American ; and we hope that this chapter will contain a little, if but a little, 
 that will be valuable. 
 
 One of the most thrifty orchards we know of was planted by an old sea- 
 captain, who took reason rather than practice for his guide. He made but 
 one error — he used trees too large, such as fail nine times in ten. He first 
 plowed and subsoiled his orchard ground nearly two feet deep ; then lie dug 
 holes eiglit feet across, two and a half feet deep, and filled them all with sur- 
 face soil, scattering that dug from the bottom in place of that taken from 
 the surface between the rows. Then he went to the nursery and dug his 
 own trees, or at least directed every stroke, and brought them home in his 
 own wagon and planted them with his own liands, straiglitening out and 
 carefully bedding all the roots just as deep as they originally grew, and 
 then mulched, and kept mulched for two years, the whole space occupied 
 by the roots. In six years he had a productive orchard of apples, pears, 
 and peaches, and in eight years it was one of great notoriety for its vigor 
 and fniitfulncss. 
 
 The following-named trees are transplantable in the order in which they 
 stand, as to the success attending their removal, viz. : plums, quinces, ap- 
 ples, pears, peaches, nectarines, apricots, clierrles. Yet we have successfully 
 removed choice cherry-trees of six inches diameter. 
 
 Make it a rule never to occupy the ground of an old orchard with new 
 trees. In the first place, you can not properly plow the ground, on account 
 of roots ; and secondly, if you could, the trees will not grow as thriftily. 
 
 The aspect of land for an orchard in a hilly country is a matter of some 
 importance. Tlie most natural one for the growth of trees appears to be 
 a hillside, facing the southeast; but it has been found that some trees, liable 
 to injury from spring frosts, are more apt to be afi'ected upon such an aspect, 
 because the morning sun strikes the trees earlier than upon other aspects; so, 
 many farmers, of late, have planted trees on the side of a hill facing tlie 
 north. But there is then danger from the extreme cold of winter, as it has 
 been pretty well ascertained tliat a sudden turn from mild winter weather 
 to twenty degrees below zero is fatal to peach-buds, and dangerous to buds 
 of other fruit-trees ; and there is sometimes danger tliat a northern ex- 
 posure will not perfectly ripen tlie fruit of some trees. Upon the whole, 
 we would compromise the matter l)y selecting a hillside with a southwestern 
 aspect. South of New York, northerly slopes may be more safely selected, 
 and as far south as Washington would be generally preferable ; and by the 
 same rule, as far north as the middle of Vermont, the southern slopes will 
 always be found the safest. 
 
 627. Roots— Their Function, and the Effect of Soil.— The function of the 
 roots of a tree are not merely, as some persons suppose, to g^vo it a hold 
 upon the ground, to support it in its j^lace, but to feed it as really as an ani- 
 mal is fed. The many spongioles at the extremity of the fibrous roots are its 
 
Seo. 35.] PftOPAGATIOJf, PLANTING, AND CULTIVATION OF TREES. 557 
 
 mouths. These, as the name indicates, are little sponges that suck up and 
 cany into the circulation any substance that presents itself in a liquid form; 
 and manure, until it assumes that form, is as useless to plants as sticks or 
 stones, and it can not become liquid until it is thoroughly decomposed ; hence 
 the value of composing all coarse manurial substances before ajjjjlying them 
 as fertilizers. Hence, too, the advantage of deep tilth, that these sj)ongioles 
 may go in search of food. Let it be remembered, when we think about the 
 flinty character of the outside coat of stalks of wheat, rye, corn, and some 
 of the "sickle-edge" grasses, that this all comes from quartz held in solu- 
 tion, having been dissolved by alkaline substances furnished l)y the decom- 
 position of vegetable matter that atibrds potash, or from some other source, 
 and that this liquid flint has been sucked up through these little rootlets and 
 carried in the sap to the outer coat of the stalks, and de])0sited there to dry 
 and harden in the sun, to give strength, which enables the slender stalk to 
 support the fruitful head. 
 
 Let us also remember that every variety of soil grows its own parlicular 
 variety of plants, and that it is useless to attempt to grow those naturally 
 adapted to one kind of soil upon another. As a swamp is drained and made 
 dry, the vegetation naturally changes. The ^Egilops, a wild grass of Italy, 
 cultivated carefully upon rich soils, has become wheat. And if we would 
 jJroduce the finest fruit, we must not onlj^ plant the right kind of trees, but 
 we must plant them in the right kind of soil, and give them proper cultiva- 
 tion. Soil that will grow apples may not produce peaches ; and careful cul- 
 tivation may produce almost as great a change in all fruit as growing wheat 
 from ^gilops. 
 
 628. Propagation by Cuttings and Layers. — Some kinds of fruit are much 
 easier propagated by cuttings than grafts or buds. Cuttings of last year's 
 growth of currants, gooseberries, quince, figs, mulberries, and hardy grape- 
 vines, with two buds, one planted below and one above the surface, in good, 
 moist soil, will send out roots and branches, and soon form iluifty plants. 
 The cuttings must be taken otf in autumn, and placed in dry soil, about one 
 third out, or in boxes of sand in the cellar, to winter, or else they must be 
 cut very early in the spi'ing, before the buds swell. 
 
 Some prefer to have the cuttings a foot long, and plant two ihirds of the 
 length below the surface, and that is a safer plan than short cuts, witii persons 
 not well skilled in the business. Scientific propagators, with the aid of hot- 
 houses, fine soil, and moisture, in pots, will propagate from a single leaf bud. 
 
 Propagating by layers is done by cutting a branch half ofl' on the under 
 side, and laying it down under the soil, staked down, with the end turned 
 up, so as to be supported in its growth by the parent stock, while loots start 
 out from the cut, by which a rooted plant is obtained by cutting ofl' ihe 
 branch beyond the new roots. The limb should be layered in spiii]g, and 
 may be transplanted in autumn, or next spring. 
 
 Cherries and some other fruits may be propagated from suckers, whei'e 
 the sort you wish to multiply comes from the root. 
 
558 THE ORCHARD. ' [Cuap. VI. 
 
 As a general rule, suckers of any fruit-tree should not be used for graft- 
 ing. If other stocks can not be obtained, select your suckers from trees 
 which do not naturally produce them in abundance ; because the rule holds 
 good, that like produces like, and if the tree originates from one given to a 
 continual production of suckers, your now tree will be likely to do tlie same, 
 either from roots, body, or branches. An apple-tree covered with suckers 
 lias an unsightly appearance. We have just sent a man through the orchard, 
 in June, to clear it of these useless sprouts, Avhich absorb a great deal of the 
 sustenance of trees, and give nothing in return. 
 
 620. When and How to Plant Fruit-Trees.— This is still a mooted question, 
 which we can not settle to the satisfaction of any of the advocates who con- 
 tend, upon one side, that autumn is the very best time; and on the other 
 side, others contend that trees never sliould be planted at any other time 
 than spring. Is this so ? Much the largest portion of the trees planted 
 have been removed fi"om the nursery to the orchard in the spring, often to 
 the inconvenience of the farmer, because lie was impressed with the idea 
 that that was the only safe time to dig up, remove, and re-plant them. Yet, 
 in nine cases in ten, where the trees are ordered from a professional nursery- 
 man, he dug them up in the fall, and kept them heeled in, ready for sale in 
 the spring. Now if it is a good practice to dig them up, and bury the roots 
 so as to have them handy to pack up when ordered, why would it not be a 
 better practice to put them at once where they are to grow? 
 
 630. Shall we Plant Trees in Spring or Autumn ?— Andrew S. Fuller, an ex- 
 perienced liorticulturist, of Brooklyn, N. Y., says : 
 
 ''Twenty years ago, the cry was that the country would soon be over- 
 stocked witli nurseries and nursery trees. But that much-looked-for day has 
 not yet dawned upon a fruit-loving community, and we fear it never will. 
 
 "There are at least ten millions of fruit-trees for sale in New York State 
 to-day ? "Will they all be sold ? Most assuredly. "Will they all live and 
 bear fruit? No, not one half of them. There are several reasons why they 
 will not, among whicli we may mention that many are unsuited to the cli- 
 mate ; otliers are grafted or budded upon stocks that have not sufficient affin- 
 ity for the graft to make a permanent and perfect union ; many will die in 
 being tiausported from the nursery to the place where they are to be plant- 
 ed, owing to improper packing. 
 
 " But the great destroyer, and the one wlio thinks everybody and every- 
 thing to blame — soil and climate included — is the planter liimself ; while the ' 
 nurseiymau, as well as others who are careful in such matters, will take trees 
 that have been boxed up on board of a vessel from two to four months, and 
 plant them, and not lose one in a thousand. Another person will take trees 
 fresh from the ground, and plant them again within the hour, and yet he 
 will not make one half grow. Why this wholesale destruction ? Simply 
 because the planter is ignorant of the first principles of v.'getable physiol- 
 ogy, or he is wofnlly negligent. 
 
 " We are obliged to confess that we, as a nation, are very ignorant in re- 
 
Sec. 35.] PROPAGATION, PLANTING, AND CULTIVATION OF TREES. 559 
 
 gard to many things tliat pertain to the garden. Most of the European 
 nations ai-c in advance of ns in this branch of industrj'. Besides, we have 
 no patience — when we undertake to phxnt trees, we hnrry through the job. 
 If it is well done, so be it ; if poorly done, we blame somebody — generally 
 the nuiseryman, but never ourselves. 
 
 " Is the fall of the year the best time to plant trees ? We answer, Yes, 
 for some kinds, but not for all. We would never plant evergreen trees in 
 the fall, but always late in the spring, just at the time they commence to 
 grow. 
 
 "Apples, pears, hard}^ ornamental trees and shrubs wo would plant in the 
 fall, provided our soil was well drained either naturally or artificially. 
 
 "If trees are planted in wet, heavy soil in the fall, the roots are very likely 
 to rot or be very much injured before spring. 
 
 "When trees are planted in the fall, in suitable soil, the wounds that arc 
 made on the roots while being transplanted become healed over; a callosity 
 is formed, from which, or near which, the new roots put forth. 
 
 " It is a disputed point among vegetable physiologists whether the cal- 
 lous which is formed on the root is indispensable in the formation of new 
 roots. 
 
 " We know it seems natural for plants to form this callous before they 
 emit new roots. 
 
 " We make cuttings of hardy trees and shrubs in the fall, for we have 
 found that cuttings made at this time root much more readily than if de- 
 ferred until spring. 
 
 "Tl>is is evidently owing to two causes: first, they are not exposed to the 
 cold, by which they lose much of their vitality and power of emitting roots from 
 the alburnum or inner bark, which is always more or less injured by severe 
 cold ; second, when cut and put away in a dark place, where the frost does 
 not reach them, they are placed in a position to commence the change from 
 branches to roots, which they must undergo if they live. Now it takes time 
 for a plant to make this change, and it is evident that we had better give 
 plenty of time than too little. Further, roots will form at a much lower 
 temperature than that at which leaves are produced ; and, owing to this fact, 
 we can have our plants rooted and ready to furnish nourishment to the leaves 
 as soon as they put forth. 
 
 "Trees transplanted in the fall, and the roots properly prepared, cutting 
 off all broken parts, and smoothing the ends with a sharp knife, will com- 
 mence the formation of roots in the spring, long before the leaves are pro- 
 duced. Yet most persons will succeed better with spring planting than with 
 Tail planting, because trees require much care to keep them in a proj^er 
 position through the winter, when they have lost a portion of their roots. 
 
 " In transplanting trees either in the fall or spring, they should always 
 have a portion of their branches pruned ; no matter how carefully the 
 operation may be performed, the roots will surely receive a check, and some 
 of tnem may be lost; therefore, to establish an equilibrium between root 
 
560 THE OECHARD. [Chap. VI. 
 
 and top, a portion of the latter sliould be cut away. We always sliorten the 
 branches at least one third when we transplant any deciduous tree. 
 
 "If we receive trees that have become dry and shriveled by long ex- 
 posure, we bury them, root and branch, in the ground, and let them remain 
 there until they have swelled out to their original condition ; then lift the 
 top branches first; then, in a few days, lift a portion more, and so on, until 
 the whole stem is exposed. Then take it out and prune it severely and plant 
 it. A tree that has become so dry that it would never show a sign of life if 
 planted immediately, will often make a vigorous growth the first Season if 
 treated as we have described. 
 
 " One fatal error into which many fall is in buying large old trees instead 
 of small, young, and thrifty ones. The old adage, ' Haste is not always 
 speed,' is wonderfully true in this case. 
 
 "What we strive to get by fall-planting is to get the trees in a condition 
 to grow at the earliest possible day in the spring. The roots of a fall-planted 
 tree will heal and begin to grow in the fall, if properly planted, and not too late. 
 That is why I advocate fall-planting. I transplanted some peach-trees in the 
 middle of summer by cutting off all the limbs, and the trees lived, and are 
 now growing finely. 
 
 " Pear-trees may be transplanted at almost any age or size, but as a 
 general thing two or three years' old are the most convenient size. In 
 planting dwarf pears, we want all the quince stock to be covered ; the 
 junction to be one or two inches below the surface. If the root is too long, 
 and there is danger of the lower roots becoming injured by being buried too 
 deeply, cut oif a portion of the lower end. If your soil is as deep as it 
 should be, and well drained, then the quince root will remain perfectly 
 healtlij' one foot below the surface; if it is not, then you had better defer 
 planting dwarf pears until you can properl}' prepare the ground for their 
 reception. 
 
 " There is no danger of planting dwarf-trees upon land that is dug two feet 
 deep. The quince stock should always be buried so as to throw out roots, 
 but if the root is too long, be sure to cut it off. Ti-ees should never be 
 grown in the nursery with deep roots. Care should be had in cutting back 
 the first year's growth of a tree, to cut it at a bud opposite the side budded, 
 so that the main limb will balance the tree. Cut off all the ends of long 
 roots and most of the fibrous roots, and all that are broken or bruised, when 
 you transplant a tree." 
 
 "In Great Britain," says Ilovei/s Magazine, "planting is continued from 
 autumn imtil spring, the weather usually being sufliciently mild to permit 
 of this; besides this, the latter season is dull and moist compared wifh our 
 own, and there is no heat of summer to disorganize and set at naught all 
 that has been accomp)lished. No cloudless skies and torrid bias's of weeks' 
 duration disturb the fears of the planter or bliglit his hopes. Whether 
 done at one season or the other, though there may be some preference even 
 in that climate, there is little or no danger tliat any fatality worthy ot con- 
 
Seo. 35,] PEOPAGATIOIT, PLANTING, AND CULTIVATION OF TREES. 561 
 
 sideration will attend the labors of the cultivator, and he may await con- 
 tentedly the result. 
 
 " But all is changed here. Spring arrives with its cold storms, making 
 the ground as the frost leaves it, a cold, clammy, sodden earth, too wet to 
 dig or plant, until so late in the season that the trees have already begun to 
 swell their buds and put forth their blossoms. Yet, so rapid is vegetation, 
 that the work must proceed with haste, or the opportunity be lost till another 
 year. Even under these disadvantages, all would be well enough but for 
 the summer heat and drouth. These set in at once, before the tree has had 
 time to recover, and following so close, exhaust the sap, shrivel the wood, 
 and if they do not kill the tree, enfeeble it more or less, so that at least one 
 year is lost in the work of recovery. If these are tlic effects that follow in 
 our climate, which we think will not be denied, then, at least, it must be 
 acknowledged that climate must be taken into consideration in transplant- 
 ing ; for however advantageously the operation may l>e performed in a cool, 
 damp climate, like that of Great Britain, it will not do here. 
 
 " There are few springs, unless late in May, when the soil is in such a 
 loose, dry, and friable condition as it is in the latter part of October mid 
 November. Besides, it has not yet parted with its warmth, which is of more 
 importance than is generally supposed ; for the roots, yet active, continue 
 their growth M'hen not checked by cold and wet. Experiments have been 
 accurate!}^ made by careful i3lanters, who have found fresh roots from trees, 
 transplanted in October, in a growing condition during the winter. The 
 opportunity to prepare the soil, its better condition at the time of removal, 
 and its greater M'armth, are all in fiivor of autumn })lanting. 
 
 " As a general rule, do not have manure, unless perfectly decayed, applied 
 in immediate connection with the roots, particularly in spring planting, for 
 it acts as a stimulus when the delicate fibers are not in any condition to ab- 
 sorb it, and the effect is to cause their decay rather than their growth and 
 extension. Especially is this the case when the summer is dry and hot. 
 But in autumn planting there is not so much danger of injury, even with 
 fresh manure. The soil, cooling down as winter approaches; prevents any 
 heating effects from the manure, while its mechanical operation is to lighten 
 the earth M'hen it Avonld too rapidly become compact by winter rains. In 
 autumn planting, manure is best applied upon the surface of the soil, by the 
 application of a bushel or two immediately around the tree. This not only 
 protects the earth from deep and penetrating frosts, but all the entire 
 strength and virtue of the manure is carried into the soil." 
 
 681. Simple Rules about Trce-Plantiiis;. — A great many other experienced 
 persons just as earnestly advocate spring planting. Our opinion is, that 
 both are right, under certain circumstances. Upon a well-drained or 
 naturally dry soil we should prefer to plant in the spring, if it could be 
 done early. If farmers will prepare the orchard ground by deep plowing 
 and subsoiling in the fall, and by digging large holes, leaving tliem open, 
 and the dirt thrown out in a pile, to be pulverized by the action of freezing" 
 
562 
 
 THE ORCHAKD. 
 
 [Chap. VI. 
 
 and tbawiiig, and then set their trees early in the spring, there will be no 
 doubt about their growing. As tree-planting is generally done in the hurry 
 of spring work, we are sure it is not as likely to produce good results as 
 autumn planting. But whether planted in spring or autumn, it is of the 
 utmost importance that the tree has not been spoiled in taking it up. There 
 is where most trees get their death-blow. Adoj)t these few simple rules, 
 whether you plant in spring or autumn. 
 
 First, have plenty of roots to your trees. Second, dig large holes and 
 make tlie ground mellow at the bottom. Third, do not set your stocks too 
 deep. Fourth, fill the earth carefully around them, and trample it solid. 
 Fifth, raise the earth slightly, so the M-ater can not stand in a puddle around 
 the tree. Then cover the ground, four or five feet each way from (he tre.e, 
 with some kind of mulching, and depend upon it you will not complain of 
 trees dying. There is one thing more for you to do. Keep your horses, 
 cattle, sheep, and goats out of your orchard. 
 
 The best form of setting apple-trees is that called quincunx. Set four 
 trees two rods apart in a square, and a ilfth one exactly in the center. 
 
 " No tree should be planted in a hole less than four feet square and two 
 feet deep. The bottom of the hole should be well loosened, and a compost 
 of leaf-mold and manure mixed with it. In planting, care should be taken 
 to cut off all bruised or broken roots. In filling, the soil should be finely 
 pulverized and worked in among the roots, and the tree gently shaken \\\), 
 60 that the soil may reach every root. 
 
 " A tree should never be moved backward and forward, as every pull you 
 give it draws the roots out of their places, and causes them to become 
 doubled up, thus defeating the very object you had in view when you spread 
 the roots. Great care should be taken in treading in the soil,, for if not prop- 
 erly filled in, the roots are very apt to be broken off. 
 
 " Avoid deep planting ; more trees are lost every year from this cause than 
 any other. No tree should be planted more than a couple of inches deeper 
 than it was before. 
 
 " Mulching trees after transplanting is a very useful practice ; in winter 
 it helps to exclude frost, and in summer prevents cvajjoratiou of moisture, 
 and prevents the roots from suffering from drouth. 
 
 " In pruning the heads of trees before transplanting, much will depend 
 upon the size of the tree ; large trees require more pruning than small ones. 
 It needs but little judgment to enable the planter to ascertain how much 
 of the top it is necessary to prune, in order that the loss may be equalized 
 between the branches and the roots. The poor success attending the trans- 
 planting of the large trees in the Central Park of this city may be attributed 
 to the fact of their not having been pruned ; if one third of their tops had 
 been taken off, the result would have been different. 
 
 " In transplanting, two very important things are to be considered : first, 
 preservation of the spongioles of the roots ; second, the prevention of evap- 
 'oration. The next important jjart is to choose that season when the tree or 
 
Sko. 35.] PROPAGATION, PLANTING, AKU CULTIVATION OF TREES. 663 
 
 plant, according to its kind, is either losing its sap in a state of reiaose, 
 or just before sap commences to start for another season ; each has its advo- 
 cates ; every tree, even of the same species, will not admit of transplant- 
 ing at the same time, and it will tlierefore depend much upon the judg- 
 ment of the planter. The majority are in favor of early autumn planting, 
 but this has reference to tlie state of the plant as well as the state of the 
 season." 
 
 Although large trees may be transplanted by following the advice given, 
 it by no means follows that it is advisable to buy large nursery trees, be- 
 cause both theory and practice indicate that it is more economical to trans- 
 plant small trees, that is, from three to seven feet high. The impatience 
 of those who are about to establish new orchards is very apt to prompt 
 them, whether buying trees, or moving them from their own nurser}'-, to 
 select trees too large for successful transplanting. Young, vigorous trees, 
 of the size of a man's thumb, three feet high, will generally produce a bear- 
 ing orchard sooner than trees four times that size, and not one tenth as 
 likely to die at first as the large ones are, and the mature trees will last 
 much longer, because they need not lose much top or roots in transplanting, 
 and the vigor of growth will scarcely be checked. 
 
 Whenever it is possible, go yourself to the nursery and select your trees 
 and see them dug, choosing always good stocky plants, rather than large 
 sizes. The sooner you get them home and in their places the better; but if 
 you can not move them home at once, see that they are carefully heeled in 
 to await your order ; and when they arrive at your place, if you are not 
 ready to plant them, have them heeled in where water will not stand about 
 the roots ; and in so doing, let the trees rest easy at an angle of about forty- 
 five degrees, with dirt well sifted among the roots, and if to remain over 
 winter, you may cover the ground over the roots with mulching, but do not 
 cover the bodies of hardy trees, lest you make a harbor for mice. If possi- 
 ble, have your orchard ground, and the holes for trees, all ready before you 
 go to the nursery. 
 
 C32. How to Blove Large Trees. — If you desire to move a large tree, 
 whether an apple or any other kind of fruit, or a forest-tree, you must com- 
 mence the year before, or at least the autumn previous, by digging a trench 
 around and cutting off the roots, leaving a ball of earth with the tree in the 
 earth. If the tree is very large, it is best to remove it while the ball is 
 frozen, and this can be done with a pair of timber-wheels, lifting and keep- 
 ing the tree upright. It can also be done with an ox-cart, by tipping it up 
 and fiistening the tree to it, and then tipping it down, with the root lianging 
 ofi' behind. It will generally be necessary to load stone on the forward end 
 of the cart, or else have three or four men jump on to make it balance. The 
 tree may be loaded on a wagon, witbou' any box, by backing up to it and 
 pulling the top down, so as to have tiie roots hang behind the hind axle. 
 The tree may also be pulled over and rolled upon a sled, or set upright on a 
 stone boat. If you move any tree with a large top, you must also move a 
 
564 THE ORCHARD. [Chap. VI. 
 
 large root. Tlie trimming of tlie tops and roots sliould correspond. It is a 
 good practice to prepare trees of large size for moving two years in ad- 
 vance, by digging and cutting all the roots aroi^nd the center ball of earth, 
 and then filling the trench and leaving the tree over one summer to throw 
 out new roots, and heal the wounds of the ones cut off, and also the wounds 
 of the limbs. By tliis process a very large apple, pear, cherry, or other tree 
 can be safely moved. 
 
 We have known a farmer to defer building a new house, year after 
 3'ear, because he could not build without destroying some favorite tree, and 
 did not know how to move it. We have often known a new road fought 
 against for years because it would cut through some man's orchard, the 
 owner of which finally had to yield to the necessity of the case, and see liis 
 valuable trees sacrificed, perhaps just as they were large enough to com- 
 mence bearing, because he did not know how easily he could move them. 
 It is our opinion tliat, as a general rule, trees from four to ten inches di- 
 ameter can be moved at an expense not larger, per tree, than a dollar for 
 each inch the tree is in diameter. 
 
 An orchard, with half the trees prostrated by a gale, the trees of which 
 would average eight inches in diiuneter, we have seen righted at an expense 
 of not over a dollar a tree. The broken roots were carefully cut away, and 
 the earth behind properly excavated, and about half of the top cut away, 
 and a tackle attached from a standing tree to the fixllen one, when two men 
 would set it up in five minutes and brace it fast with two poles. The 
 second yeav after, these trees bore as good a crop as they ever did before. 
 
 Thomas Cavenach, an experienced and observing gardener of Brooklyn, 
 furnishes us some good rules about moving trees. lie says : 
 
 "Large trees and shrubs can not be removed without injury to their roots 
 and at their ends, the very parts of most importance to them, because there 
 the spongioles are situated, and these, if once destroyed, must be reproduced 
 before the plant can derive any nourishment for its future sui)port. Trees 
 removed in the fall will have these organs the soonest produced, and in the 
 spring the latest, if at all in the later case ; the trees are left without support 
 at the very time they most need it, and in consequence the leaves wither, 
 the tree dies, or becomes greatly injured. The state of the weather has 
 much to do with the successful removal of all trees. Dry, windy, and frosty 
 weather, as well as very warm sunshine, is the most unfavorable of all ; 
 evaporation goes on more rajjidly in such states of the weather than at any 
 other. time. A mild, damp day is the most fitting for the operation of 
 transplanting, and this will be greatly enhanced if mild showers full during 
 the night. 
 
 " Small trees and plants may be moved with less chance of failure than 
 large ones, because their fibers are less liable to injury than others. Ever- 
 greens should always be removed when in a growing state, because the 
 moisture surrounding the roots is absorbed, and at once assimilated as food . 
 for the plants. The wounds where the roots have been injured quickly heal 
 
Sec. 3d.] PROPAGATION, PLANTING, AND CULTIVATION OF TPvEES. 565 
 
 over, and new roots are formed ; but if removed in winter, when the ground 
 is frozen and the tree in a dormant state, the moisture which surrounds the 
 roots has a tendency to rot the portion of the roots wliere tliey have been 
 severed. 
 
 " Forest and fruit trees may generally be most advantageously moved in 
 autumn, because the wounds made in their roots will commence to cicatrize 
 and throw out granulous matter, and sometimes even spongioles imme- 
 diately, so that by the time spring arrives the tree will grow with almost as 
 much vigor as if it had not been transplanted. 
 
 "Preparation of the ground is the most important matter connected with 
 moving trees. I have known many who could not in otiier matters be called 
 ignorant persons, plant trees much in the same way as we would set up a 
 post in the ground, under the mistaken idea that a tree, when it is placed in 
 the soil, will grow under anj- circumstances. 
 
 633. Preparation Necessary for Trce-Plantiiig:. — The greatest cause of fail- 
 ure of success in growing trees is in the preparation of the soil. Let it be re- 
 membered that the soil for a tree nursery should be as good and well worked 
 as a well-cultivated kitchen garden. Manure, and particularly that-made of 
 leaves or ashes, is valuable for tree nurseries, whether fruit or forest trees. 
 Weeds must be exterminated, or they will destroy the nurser}'. Care must 
 be taken in selecting soils. Ko wet soil, nor a ferruginous one, should bo 
 chosen. The young trees, too, must be carefully guarded against the de]>re- 
 dations of cattle, as all farm-stock are fond of young shoots of most fruit or 
 forest trees. 
 
 Do not plant trees on a retentive soil in wet weather. It is almost as 
 Necessary to keep a new plantation of forest-trees or an orchard clear of weeds 
 for two or three years, as it is to keep the nursery clean. 
 
 In all cases farmers should be much more careful in preparing the soil 
 and planting trees. The want of success in growing fruits is to be traced to 
 negligence in this department, because a tree is a vitalized body, possessed 
 of delicate organs, by means of which the tree is enabled to build itself up 
 from the food to be found in the soil and the air — also to perfect its fruit. 
 Study the habits of your trees, and give them all tliey require. But of one 
 thing do not lose sight: all fruit-trees of value require a Ipose, deep soil, free 
 from excessive quantities of water, and well supplied with mineral food. 
 If your soil is wet, drain it deeplj' ; if compact, loosen it with a plow as 
 deeply as possible, and follow in the bottom of the furrow with the lifting 
 subsoil plow, if in a field ; and if in a garden, trench the soil deeply through- 
 out the whole jilat. Supply no manures but those well decomposed, such 
 as woods-mold, muck, chip dirt, rich road scrapings, composted with ashes, 
 or salt and lime, or both, some weeks before applying them to the soil, mixing 
 in the compost a small quantity of tine barn-yard manure. 
 
 When the soil has been thus prepared, place the tree no deeper than it 
 grew in the nursery, unless it be a pear on a quince stock, when it should be 
 left so as to entirely cover the quince with soil. None but the best soil 
 
566 THE ORCHARD. [Cdap. VI. 
 
 should be put under or about the roots. No plaster, ashes, phosphates, or 
 guano should touch theui. No fomenting manures of any kind should be 
 allowed under the tree to injure its roots by the escape of gases. Sprinkle 
 fine soil on the roots while the tree is held still, regulating it as necessary 
 to secure the natural position. In all but heavy clay soils pour a pail of 
 water over the loose earth and allow it to settle away lielbre setting the 
 tree. Do not churn the tree up and down in the hole. Do not trample on 
 the earth with your feet, leaving great spaces in which no soil finds its way. 
 Do not throw in clumps of earth or stones. Fill up the hole carefully, 
 keeping awa^' grass and sods. Cover a wide space around the tree with 
 coarse litter, leaves, salt-hay, sawdust, tan bark, or stones loosely piled 
 around. These will shade the soil, keep in moisture, and enable you to 
 water the tree without forming a thick crust on the top of the soil, or pack- 
 ing it down too closely. 
 
 Should you be unable to subsoil or trench all your land, dig wide and 
 deep holes, leaving out all the subsoil, returning nothing but surface soil, 
 and proceeding as before. For large trees, use strong, limber stakes, to 
 which they should be attached by soft ties of willow or straw. Trees thus 
 carefully set will grow and reward the planter. 
 
 C3J:. How to Winter Young Apple-Trees. — A new beginner in the nursery 
 business, in "Wisconsin, wants information. He says: "I planted, last liill, 
 about three acres of ground to apple-seeds, and have now some fifty thousand 
 fine-looking plants. Now will it be the best way to take them uj) and house 
 them in a cellar the first winter, or leave them standing, and shall I cover 
 them or not? If taken up, could I graft them successfully during the win- 
 ter? Which is best — to graft them in the root or stock ?" 
 
 It is the safest plan to take them up and store them in a dry cellar, or else 
 heel them down in furrows in the nursery grounds where they grew. They 
 may be grafted, when of the size of one fourth to one half inch in diameter, 
 inserting the graft in the stalk close down to the crown of the root. On ac- 
 count of grafting, it is better to put all that are large enough in the cellar, 
 where they can be got at to work upon in M-inter. If left standing and cov- 
 ered, the trees are sometimes half cut off by mice. 
 
 L. M. Parsons, of Waukau, Wis., speaking of the benefits of snow, 
 says; 
 
 "Tlie virtue of perennial life is due to processes which can only be carried 
 on in conditions which exclude the light, like that of snow, rubbish, or shade. 
 Indeed, the tannin increment is almost limited to snow-clad districts; and 
 perennials are the most abundantly supplied with it where the concealment 
 of snow in winter is continued through the summer by the agency of moss, 
 leaves, and shade. Hence it would seem, that to peipetuate an old orchard, 
 it should either be supplied wath the perennial increment in solution, or 
 that the ground should be so concealed from light as to secure a perpetual 
 elaboration of that element. 
 
 "This view is supported by the dwarfed appearance of perennial plants 
 
Sec. 35.] PROPAGATIOIf, PLANTING, AND CULTIVATION OF TREES. 567 
 
 throiiglioiit the prairie region of the "West, where autumnal fires, from time 
 unmeasured, liave robbed the soil of every concealing olject, thereby limit- 
 ing the time of perennial gestation to the short period of shade afibrded by 
 cereal plants, and the quantity of perennial food to the simple want of such 
 plants, wherewith to embalm their seeds. Hence young orchards, on our 
 richest cereal soils, like our scattered foi'est trees, are weak in fiber, false in 
 heart, and early show the marks of dotage, and on them the undying para- 
 site makes his pre-emption before his time. [N'olhing is more fatal to prairie 
 orciiards than open culture, or blighting than the plow, and nothing more 
 beneficial than straw, boards, or anything to make concealment. The soil 
 of old orchards, however well supplied with the embalming element, in its 
 virgin state, becomes exhausted by open culture, naked grazing, and usually 
 deprived of shade by the unsocial distance of the trees, so that in the run of 
 time the soil of Eastern orchards, like Western prairies, fails to do perennial 
 service. 
 
 " Six years ago I jjut out some nursery trees of three years' growth, on 
 prairie sod, digging the pits only three inches deep, with a drain, and cov- 
 ered the roots with soil from an old cultivated field, and having scattered 
 potatoes over the ground, covered them with straw fifteen inches deep, putting 
 a little dirt on the top to pack the straw, and some sawdust around each tree 
 to protect it against mice. I had a good yield of potatoes, all the trees lived, 
 and now have the spread of an old orchard, and give a good yield of fruit. 
 One tree was set where there had been a hog-pen ; that tree has borne, for 
 five years, the finest of fruit (though a seedling) to such extent that it has 
 been necessary to support every limb, and it now measures fifteen inches 
 around its body a foot above the ground. None of these trees have a blight 
 upon them, while trees near by, treated in the usual way of open culture, 
 have not over one third the growth, and already show the mark of dotage, 
 the yellow leaf, and the worm of time." 
 
 Snow sometimes jiroves detrimental to trees, by aflPording the mice an op- 
 portunity to gnaw them. The following is given as a remedy by Andrew 
 Kerns, of Grundy County, 111. He says : 
 
 "La&t winter, the first we knew, ten or fifteen young apple-trees were 
 completely stripped of their bark — some of them from the ground eight or 
 nine inches upward. Upon examination, we found a nuuiber of mice-roads 
 through the frozen ground and grass. We mixed two ounces cayenne pepper 
 in a pan of soft-soap, and gave all the trees — about one hundred — a good 
 coat of tins wash with a brush, and not a mouse has tDUched them since. 
 We shall repeat the dose next winter." 
 
 G35.' Winter Protection — Fruit-Trees on the Prairies. — We advocated the 
 plan, twenty -five years ago, of planting orchard trees on the surface, hauling 
 up a sufficient quantity of earth to cover and support the roots, instead of 
 putting them below tlie natural level of the earth, where, in many sites that 
 we have seen orchards planted upon, the water would stand for weeks, so as 
 to completely cover every fiber of roots. This is not alone the case upon flat 
 
563 
 
 THE ORCHARD. 
 
 [Chap. VI, 
 
 prairies, but frequently where it is quite rolling, the soil being of such a na- 
 ture that it retained water ahnost as well as a sponge. 
 
 Had the plan been generally followed liy those who have planted orchards 
 upon rich, loamy, prairie soil, there would have been now many more thou- 
 sands of apple-trees alive in Michigan, Indiana, Wisconsin, Iowa, and Mis- 
 souri, in all of which States we have annual moanings over winter-killed 
 fruit-trees. If all orchards were phmted and tended like the one mentioned 
 in the following extract from a letter in the Prairie Farmer, we should 
 cease to hear anything about winter killing. We advise all prairie orchard 
 owners to put the plow at w'ork. The letter alluded to says : 
 
 "I visited, not long since, the successful orchard of 75 acres owned by 
 Mr. James Wakeman, of Cottage Hill, Du Page County. One of the lead- 
 ing features of this orchard is, that the trees luive the appearance of being 
 planted on ridges, which has been caused by annually plowing toward tlie 
 trees. He commences plowing next to the rows of trees, and this leaves a deep 
 furrow in the center between the rows, which acts as a partial drain — ^a very 
 efficient surface drain in winter. For when the snow is thawed by the influ- 
 ence of the sun, the ground being frozen, it runs into the liollows, as it can 
 not penetrate the soil, and if the slope is completed to the dead furrow, it flows 
 there. But if there is a hollow immediately about the body of the tree, 
 water settles in it. I have seen it stated recently that the expansion or lift- 
 ing power of ice is nearly equal to twice tlie lifting power of gunpowder. 
 Hence the efi'ect of a body of ice immediately about the bole of a tree — 
 hence, too, the importance and benefits of banking up with earth, in the fall, 
 so as to shed off water. I have had trees destroyed in winter by ice form- 
 ing about the collar, and I have seen hardy grapes ruined in the same way. 
 Scores of trees, whose bodies are otherwise protected from freezing, are killed 
 at the collar by this lifting ice. It is a good plan, I think, to bank up about 
 ti'ees in the fall, and especially to plow orchards as above described." 
 
 It is a good plan — there is no doubt of it — to plow ever}'- orchard iipon 
 retentive soil, in the maimer indicated ; and the advice, like the almanac, is 
 suited to all places in this latitude. 
 
 It is true the best plan is under-draining ; for there is not one acre in ten 
 in all the West that will grow au orchard successfully imtil it has been 
 thoroughly drained ; and even then, we believe ridging the ground before 
 planting the trees would be advantageous. Some kind of winter protection 
 is also much needed, particularly for nurseries. 
 
 When an exposed situation is unavoidable, then the very first step should 
 be to provide shelter in the speediest possible manner. For this purpose, 
 belts of rapid-growing trees — say double rows — should be planted so as to 
 intersect the ground at intervals, and ward off the prevailing and most inju- 
 rious winds of the particular locality. In the culture of dwarf trees, flowers, 
 vegetables, and all crops of low growth, common hedge-rows of buckthorn, 
 privet, Osage orange, or any rapid-growing shrub, will be of great service 
 as a protection from cold winds, though some of them exhaust the soil. 
 
Seo. 35.] PROPAGATION, PLANTING, AND CULTIVATION OF TREES. 569 
 
 The value of woodland for a winter protection of orchards is not suf- 
 ficiently appreciated. The prairies have never been wooded. The land is 
 now just in the natural condition of the bottom of a lake, from which the 
 water has receded and the land dried np, and which first jjroduces weeds, 
 then grass, and afterward trees, as the prairie land now readily produces 
 them where fires are kept out ; and one of the wisest things for any one who 
 would grow an orchard or nursery of choice fruit upon such open grounds, 
 is to begin with a belt of forest trees. The locust, JRobinia pseudacacia, will 
 grow in five years so as to form quite a shelter. 
 
 A correspondent gives us a detailed account of his observations npon a 
 piece of wheat in Delaware, about five acres of which, alongside a grove, 
 made a good crop, and seventy acres exposed to the full blast of an almost 
 Siberian winter was not worth cutting. lie says also of the efi'ect of wood- 
 land in Michigan upon fruit-trees: 
 
 " Our orchards here did very well when the country was new and the 
 clearings were small. But as our forests recede from the orchard, the bark 
 on the west side of many a fine fruit-tree is killed by tlie piercing west wind. 
 Some of our neighbors have very considerately preserved belts of timber 
 and clusters of shell-bark, black walnut, and butternut; while others, like 
 time, have cut down all, and are now gathering the fruits of their folly in- 
 stead of their orchards." 
 
 The winter protection of snow is one of the causes of health in many trees. 
 Without it they would perish. 
 
 63G. €hoap Labels for Fruit-Trees. — Take two pieces of wood, and hinge 
 them together v/ith a leaden wiie, and write the name belween the two. 
 The lead wire is preferable to all other metals, because it is always flexihlo 
 and readily adjusted. The name being written on the inner side, is -shielded 
 from the action of the weather, which soon efi'aces the name when exposed. 
 The cost is not over fifty cents a hundred. Zinc labels, written over with a 
 lead pencil, arc also durable. If written upon with any acid ink, it will eat 
 the name into the zinc. 
 
 The following recipe for making ink that is indelible, used on zinc labels, 
 is recommended : Take one drachm of powdered verdigris (acetate of cop- 
 per), one drachm of powdered sal ammoniac (muriate of ammonia), half a 
 drachm of lampblack, and ten drachms of Avater. Mix the ingredients to- 
 gether in a two-ounce vial, and shake it every time before using it afresh, and 
 from time to time while using it. It is ready for use as soon as the verdigris 
 and sal ammoniac are dissolved. In using the indelible ink there is one 
 secret to he attended to, it is this — that the zinc label should, just previously 
 to being written upon, have been rubbed bright witli some fine glass-paper. 
 A steel pen is far better than a quill for writing on zinc. 
 
 Tiie best form of tree-labels we ever saw or used is made of a slip of zinc, 
 seven or eight inches long, three quarters of an inch broad at one end, 
 tapering regularly to a point at the other, with a quarter-inch hole in the big 
 end. On these labels a number or name may be stamped, or the name of 
 
570 
 
 THE ORCHARD. 
 
 [Chap. YI. 
 
 the fruit written with ink prepared as above, or with a soft lead pencil, 
 which latter is I'emarkably permanent, though not very conspicuous. The 
 danger of cutting trees by attaching labels by wires is so great that it 
 should be guarded against ; the label is broken off, or forgotten, or unnoticed, 
 and by the growth of tlie stem or limb it is nearly cut off by the wire. 
 "With these labels that difficultj' is obviated. The zinc strip is bent around 
 a limb, loosely, and the pointed end tucked through the hole and clinched. 
 
 SECTION XXXVI.-THE ART OF PRUNING, GRAFTING, AND BUDDING. 
 
 EAFTING, budding, pruning, are all arts that 
 must be acquired, like any otiier art or work of 
 skill. A pruner must understand why he prunes, 
 and never cut a limb without first being fully aware 
 ^ of the effect. Yet pruning is mostly done at random — 
 a limb here and a limb there is cut away, the top 
 lessened, and that is all. The fruitfuluess of the tree is 
 not improved, and its looks as a systematic work, such 
 as nature builds, most decidedly injured. It is idle 
 for any man of common sense to employ an itinerant 
 pruner. They are often ignorant of the first principles 
 of the art, and generally do more harm than good. 
 If you doubt it, ask this question of one when he is 
 about to cut off a limb : " What for ?" If he can an- 
 swer that to your satisfaction, he possibly understands his business, provided 
 you can answer the question yourself. This is the true law of pruning. 
 Never sufier a tree to go unprnned that needs it, and never cut away a limb 
 without first asking and answering that question — wliat for? 
 
 If you understand the art, you may have a tree of any desired form, and 
 always of handsome shape. The great feature of this was cutting back very 
 short the first year's growth. Never plant a tree with a full top. Pruning 
 in autumn makes the strongest trees or vines. Spring pruning produces the 
 most fruit. A weak-growing tree should always be trimmed in autumn. 
 
 G37. The Right Time for Pruning. — The right time is in the growing season 
 — the time when wounds heal the most readily. The time to begin is the 
 first year of growth in the nursery ; not to trim up sprouts to grow whip- 
 stalks, but to shape the trees just as nature intended the particular species to 
 grow. If an apple-tree, a short bole with a round, symmetrical head ; if a 
 pear-tree, a somewhat longer bole, with a top shaped like a well-formed, 
 slim haystack. A peach-tree may be grown with a single short bole and 
 a very open-branching top, or it may be branched from the ground by cut- 
 
Sec. 36.] THE ART OF PPwUNING, GRAFTING, AND BUDDING. 571 
 
 ting away tlie top of the young shoot the first year — a plan that we prefer. 
 A quince-bush sliould always be grown in that way, branching from tlic 
 root ; and it always looks to us like forcing nature to prune a currant-bush 
 into the form of a tree. A dwarf pear-tree should be pruned from the start 
 to form a pyramid or sharp cone. Look at tlie extinguislier of your candle 
 for a pattern. Clierry-trees do not need nor bear much pruning, except to 
 cut away the winter-killed ends of limbs, and that should be done to all trees. 
 As a general rule in pruning, study symmetry ; it is the first law of beauty ; 
 if you can not see it otherwise, try it upon yourself. Lop off a I'ight ear, a 
 left eye, a right hand, and so on, just as some pniners do the symmetrical 
 beauties of a tree. In pruning all sorts of fruit-trees, keep "What for?" 
 constantly before your eyes. The answer is, to increase their productive- 
 ness. This can not be done by cutting away many healthy limbs, but by 
 disentangling them, so as to let in the light and air to the center of the 
 branches. 
 
 038. Over-Pruning. — There is a tendency to over-prune among all amateur 
 fruit-growers, and more particularly among all who are just beginning to 
 grow ornamental shrubs and trees. There is no practice tliat needs reform 
 more than this one. There is no quicker way of spoiling such trees than 
 this injudicious over-pruning. There is not one forest-tree in ten that will 
 bear the eternal clipping to which some are subjected. Autumn appears to 
 be the most favorite time for this sort of vandalism. Tiiere is nothing like 
 the let-alone system, and above all for all sorts of evergreen-trees. With 
 very little assistance, nature will do all the pruning that is required. Use 
 the knife and sliears only to assist nature, when trees are brought into un- 
 natural situations. Of evergreens, do not cut away the lower limbs till you 
 make your tree look like a big broom with tlie handle stuck in the ground. 
 In all pruning of fruit or ornamental trees, or shrub or vines, do not make a 
 cut till you think what for, with what object, and what will be the effect. 
 This is always necessary to prevent over-pruning. 
 
 639. Objections to Spring Fnining. — Tliere never was a more certain truth 
 uttered than the following words of the editor of the New England Farmer, 
 who is not only a practical farmer, but one who never does a thing without 
 first answering the question, " What for ?" to the satisfaction of liis own 
 reason, and therefore is more entitled to attention than a mere utterer of dog- 
 matism?, lie says : 
 
 " Never prune an apple-tree in the montlis of March, April, or May. All 
 the borers in the world do not commit half the havoc in our orchards that 
 the pruning-knife and saw do, applied at the wrong season of the year. In 
 the spring the sap is abundant, thin, and active, and where limbs are taken 
 off, it passes through the pores of the wood to the surface, and coming in 
 contact with the atmosphere, becomes bitter and acrid, runs down the bark 
 and poisons it, so that it is often killed quite into the wood. This is what 
 causes most of the black lines so often seen upon apple-trees, which fre- 
 quently causes their death." 
 
572 THE ORCHARD. [CniP. VI. 
 
 640. Objections to late Autumn Pruningo — William S. Cari>enter, of "West- 
 cliester County, N. Y., has devoted niucli attention to the cultivation of 
 fruit, and he says : "There is no time so good as midsummer to prune all 
 sorts of fruit-trees, and no worse time than late in autumn. That is rather 
 worse than early spring. I am an advocate for pruning young trees in sum- 
 mer with the thumb and finger, or a pocket-knife, so constantly and regu- 
 larly that they will never require the saw. If that must be used, let it be 
 applied in midsummer. "With me that course is the most successful. In 
 planting trees, apple or pear, I dig two feet deep and six feet wide, and fill 
 the hole with good soil, and set the tree nearly level with the surface, and 
 never use manure. I make the earth very fine, and am careful in setting 
 them. In budding pears upon quince, set them on very short stalks. A 
 dwarf pear set upon a quince stalk a foot high is almost worthless. It will 
 be quite so if not carefully pruned." 
 
 Another practical fruit-culturist gives the following: 
 
 6il. Practical Directions about Pruning. — "Trinmiing is now reduced to a 
 system. By dwarfing various kinds of trees, such as the pear on the quince 
 stock, we are enabled to train it and keep it within our reach, and make it 
 both ornamental and useful. The most approved form is the pyramidal. In 
 order to form a perfect pyramid, we should encourage the tree to branch 
 near the ground, and train the side branches so that they will be regularly 
 distributed along the body. To effect this, summer pruning or pinching 
 must be resorted to. Having as many side branches as we desire, M'e 
 may continue its shape by pinching off the laterals from the side branches 
 when they have grown to about three inches in length, taking care to leave 
 these laterals about one inch long after you have pinched them ; these will 
 again push and grow, and must be treated as before. This method of sum- 
 mer pi'uningAvill check its woody growth and force it to expend its energies 
 in fruit-bearing, and at the same time increase the size and quality of the 
 fruit. For standard or orchard trees, a different treatment must be prac- 
 ticed. For these, but little pruning is necessary, beginning when the trees 
 are young, and annually going over the orchard. Cutting out all suckers 
 and crowded branches, you avoid the necessity of cutting off large limbs 
 in after years — a practice that should always be avoided. I have seen 
 whole orchards nearly destroyed by this injudicious pruning. A limb should 
 never be cut from a tree when more than two inches in diameter. Pruning 
 should never be done excejit late in the spring or in midsummer. I would 
 never prune a tree in winter. A limb cut ofl' when full of frost will cause 
 the wound to crack and split, thereby admitting the air into its wound, 
 which will soon cause it to decay. It is to be regretted that so little atten- 
 tion is paid to the orchard. It is quite common to see suckers growing 
 around the bodies of trees until they are nearly hid from view, their 
 branches covered with moss, and putting on altogether a stunted and 
 neglected appearance. You come to the conclusion that the owner of such 
 an orchard does not think that fruit-growing is profitable. The wonder is 
 
Sko. 3G.] the art of PRUNING, GRAFTING, AND BUDDING. 5T3 
 
 that such trees bear at all. But they will make an effort, as it is natural 
 for all fruit-trees to reproduce, but the specimens will be miserably small 
 and deficient in flavor. If we desire good fruit, an orchard that will pay, 
 trees that will delight lis and our friends, wo must do something for them. 
 "Wo must clear away all suckers, scrape off all the old rough bark and moss 
 tliat liave been the safe abiding-places for the destructive insect, and then 
 witli a solution of potash and water wash the trunks and limbs of the trees. 
 If the orchard is yet young, plow it and put on a good top dressing of ma- 
 nnre, and then cultivate a crop of potatoes, or corn, or any other crop that 
 will I'cquire thorough tillage; follow this practice for a few years, and you 
 will find it will most effectually renovate your orchard, and you will bo 
 made to acknowledge that fruit-growing is profitable, and that your orchard 
 is your dependence and delight, and you will be found encouraging your 
 nciii-hbors to plant, and thus extend this delightful branch of industry." 
 
 (j-ii*. Root-Prunillgi — Koot-pmning is apt to induce fruitfulness where the 
 tree is making a too rapid growth, and pruning during the growing season 
 in June will accomplish a similar result. Patting a wire around a branch 
 of the grapevine so as to obstruct the flow of sap, will improve the quality, 
 lioot-pruuing is to check the too i-apid growth of wood. The result of ring- 
 ing the vine is the same, and that enlarges the fruit. 
 
 Various methods have been proposed for making fruit-trees bear early. 
 As a general thing, it is not best to force trees into early fruitfulness, as it is 
 necessary that they should have time to make a good and substantial growth, 
 and obtain a proper form to bear, in after years, tiie strong demand made 
 upon the vitality of the tree by successive crops. Eoot-pruning tends to in- 
 duce a slower growth and more solid ripe wood, and checks the tendency to 
 over-bearing, wiiich always injures the young tree. 
 
 (jiS. Graftiug and Biiddiug. — It is easy for any one to learn, to graft, but 
 to be a skillful grafter or budder requires a steady hand and a good deal 
 of practice. K^o farmer — indeed, no person having an interest in a garden 
 spot — should neglect to learn how to perform both operations skillfully, 
 because it is the true way of propagating almost all choice fruits. It 
 is an art which women can practice as well as men. It has been practiced 
 from a very remote time, as we have accounts of it in the earliest printed 
 books. 
 
 The proper time of grafting fruit-trees is in the spring, as soon as the sea- 
 son is warm enough to put the sap in motion. This period comes earlier 
 with the cherry and plum than it does with the apple and pear. In this 
 vicinity apple-grafting often continues till the last of May in backward sea- 
 sons. The best time is when April showers are prevalent, but the scions 
 must have been previously cut. They may be cut and liuried in autumn, 
 or stored in a dry, cool cellar, with the lower ends in sand or dry soil. For 
 scions, cut the thrifty wood of the last season's growth from bearing limbs — 
 not water spi'outs. Those shoots foimd near the top or center of the head of 
 an old tree are preferred by grafters. Kever cut scions from sickly trees or 
 
574: THE ORCHARD. [Chap VI. 
 
 branches. Scions from young trees are apt to grow most vigorously, and 
 we prefer them froui the upright branches. 
 
 Stocks for grafting, if not grown on the spot, should be transplanted to the 
 nui'sery at least a year previous to being used, as there is not usually vigor 
 enough in a tree to recuperate its own powers and grow a graft the same 
 sea^iou it is transplanted. 
 
 6ii. Grafting an Old Orchard, with the design of giving trees entire new 
 heads, is practiced as follows : Commence the summer j)revious to cut away 
 the old tops freely. Ne.xt spring set the grafts, cutting away all that is 
 necessary to give them room, and free sunlight and air. Next spring, go 
 over the trees about the first of June, and pull off all the suckers, particu- 
 larly around the grafts, and cut off any limbs that interfere with their 
 growth. We advise a side branch left upon each limb tliat has a graft in 
 its end, to aid in keeping up a healthy circulation. Indeed, branching 
 limbs should always be selected in grafting an old tree. Watch the growtli 
 of the grafts during the second summer, which is sometimes very rapid, 
 and may reach overhanging limbs; in which case, cut them away. In June 
 or July, after the grafts are two years old, nearly or cpiite all the old top 
 may be removed, and, if necessary, the grafts trimmed slightl}', to put the 
 t02> into the right course of forming a new, handsomely shaped top. 
 
 6io. Cleft Grafting is the mode practiced in putting a new top to an old 
 tree. That is, a large limb, or one perhaps two or three inches diameter, is 
 split by driving a strong knife or chisel in the end just sawed off, and the 
 cleft held open by a wooden wedge, driven in the center, while the scions 
 are sharpened and inserted in the edges of the cleft, so that the bark of graft 
 and stock exactly fit, and then the wedge is withdrawn, and the end of tiie 
 limb covered with grafting-wax. 
 
 646. Splice Grafting is practiced when the stock and graft are of equal 
 size, Ijy cutting the stock with a sharp knife scarfing upward, and the scion 
 downward, so that the two will fit an inch or two together, the edges of the 
 bark exactly corresponding, and then the two are tied together with bass 
 matting, or woolen yarn, if the former can not be had, and covered over 
 with grafiing-wax, or grafting clay, which by some is preferred. Some 
 grafters spread their wax on strips of cotton cloth, and wind that around, 
 and siick fast the end or tie it. Watch must be kept after the gratt is grow- 
 ing vigoi'ousl}', that whatever is tied around does not get too tight before it 
 is cut off. 
 
 647. Tongue Grafting is much like splice grafting, except that a shoulder 
 or sort of cleft is cut at the bottom of the scarf on the stock, and the point 
 of the scion cut to fit in it, or else the notch is cjit in the upper end of the 
 scarf, and the scion shaped to fit. By this mode small grafts can be set 
 upon large stocks, pr four can be set upon a stock so as to form a four- 
 branched head, if aft grow. All that is necessary is to see that there is some 
 point of contact of scion and stock, and that the inner bark of one exactly 
 fits the other; the more the better, but tlie graft may live with a very 
 
Sec. 36.] THE ART OF PRUNING, GRAFTING, AND BUDDING. 575 
 
 small poiut in connection, if carefully fastened and covered. The covering 
 should be removed about the middle of July. If clay is nsed, remove the 
 ball after a rainy day. 
 
 Care should be used, in cutting a scion, to have a bud come close down to 
 the top of the stock. 
 
 C48. Root Grafting is much practiced by nurserymen, the scions and roots 
 both being stored in autumn, and the work done in winter, by splitting the 
 end of a root and inserting the scion, and laying these away in a cellar till 
 spring, when they are planted out ; the joint being entirely covered, no wax 
 is used. Farmers may do the same. Sometimes roots are grafted while 
 attached to the tree, by digging them np and cutting off an end and insert- 
 ing the graft, and then putting the root back, with the end of the graft out 
 of the ground. "When it is a year old, a section of the root is dug up and 
 transplanted. 
 
 649. Saddle Grafting, which is done by cutting tlie stock to a wedge, and 
 splitting the scion, is particularly recommended for cherry-trees, because it 
 gives a larger surface of union. Sometimes one leg of the scion is fitted so 
 as to insert l)etween the bark and wood of the stock, while the other leg is 
 brought down and fitted upon a scarf on that side of the stock. 
 
 050. Kew Method of Grafting.— Horace Everett, of Council Blutfs, Iowa, 
 writes us about a method of grafting common in Tennessee, that may be 
 worth knowing in other localities, and which he says is not described in any 
 fruit-book that he has read. The following are the directions : 
 
 " A. long, smooth shoot or limb is selected, cnt from the tree, and a sharp 
 iron wedge driven through the limb, every four or five inches. Upon with- 
 drawing the wedge, the graft is inserted, allowing the shaved end to extend 
 an inch or s > through, so that when a graft had been inserted in every split, 
 the limb lonk.d like a long stick, with the grafts extending from it at right 
 angles, a shoot of four feet having about twelve grafts. This stick or limb 
 WHS ilicn buried in the ground, the top of the grafts only being allowed to 
 come above the surface. During the year the grafts took root, and grew 
 from twelve to thirty-six inches. The next fall the limb was taken up and 
 sawed apart between the grafts, thus leaving every graft with a portion of 
 the limb adhering to it in the shape of a cross. I planted these grafts, and 
 tlie trees grew and throve well. It is certainly a very cheap and economical 
 stock lor grafting." 
 
 C51. Natural Grafting> — "We give the following reported fact for the 
 encouragement of farmers who may happen to entertain any doubts upon 
 the practicability of grafting : 
 
 "There. is a white oak tree, of fine healthy growth, standing near Eobin- 
 son's Coal-Oil "Works, in Perry County, Ohio, on which, at fifty-five feet 
 from the ground, is engrafted a black oak top of lofty and vigorous growth. 
 It is about two feet in diameter at the nsual hight of witting trees, and the 
 body stock is fourteen inches at the grafted portion, and the black oak imme- 
 diately above it at once enlarges to twenty-two inches." 
 
576 THE ORCHARD. [Chap. VI, 
 
 The joining is perfect, aud botli above and below the limbs are true to 
 the stock from which they spring. "What freak nature performed in setting 
 the graft is only to be imagined ; its condition should admonish every one 
 who owns fruit-trees to set grafts. 
 
 652. Antiquity of Grafting. — There is a style of grafting called the Aristotle 
 graft, and also the Pliny graft. This shows the great antiquity of grafting. 
 The Tschuda graft is another curious style of grafting, and by the process 
 tomatoes are grafted upon potato vines, selecting stalks of the same size, and 
 cutting both with a knife as sharp as a razor — sharper, if possible — the join- 
 ing being bound together with a ligature, and the plant shaded until the 
 two unite. It will then grow tomatoes above and potatoes below. An 
 ancient writer speaks of grafting cultivated grapevines upon wild ones with 
 success. 
 
 653. Grafting Clay and WaXi — Clay used to cover grafts is made by mix- 
 ing one part vi' pure horse-dung with two parts of clay and a little plaster- 
 ers' hair. It must be very thoroughly M'orked several days before required^ 
 and made very plastic when used, by heating and tempering. 
 
 Grafting-wax, which is made of three parts of beeswax, tliree parts of 
 j'osin, and two parts of tallow, melted together, and worked while warm 
 by the hands in water, is much neater, and more convenient, and not 
 much more expensive than clay, where only a little work is to be done. 
 Where large limbs or wounds arc to be covered, of course clay will be the 
 clica])cst. 
 
 Grafting-wax is sometimes composed of six parts rosin, one part beeswax, 
 aud one part tallow ; but this, we should think, would be too hai-d for cool 
 weather. 
 
 French grafting-wax is made of half a pound of pitch, half a pound of 
 beeswax, a pound of cow-dung, boiled together, and spread on the graft, 
 while hot, with a brush. Another sort is made of equal parts of beeswax, 
 rosin, and turpentine (crude pitch), and spread on cloth or paper, to be used 
 in strips wrapped about the graft. 
 
 The most common American grafting-wax, aud the cheapest, and easiest 
 remembered and made, is composed of rosin, tallow, and beeswax, in equal 
 parts, melted, and worked in water ; if it is needed of a softer texture, it is 
 made so by increasing the proportion of tallow. 
 
 Prof Mapes gives the following formula for making grafting-wax : Take 
 Canada balsam one pound, clean beeswax one pound, and boil together aud 
 knead into a putty consistency, or keep in a kettle, tg be warmed as wanted 
 for use, and put on with a brush. It is very convenient, when spread thin 
 upon cloth or paper, to be cut in strips for use, and its great advantage over 
 any other material is tliat it will adhere to a wet surface. This is sometimes 
 of great advantage, as tlie composition may be used to cover wounds in va- 
 rious [ilants. 
 
 65i. Preservation of Grafts. — Grafts packed in pure sawdust of any sweet 
 wood, it is said, will keep fifteen months. Moss for packing sliould be put 
 
Seo. 36.] TEE ART OF PRUNING, GRAFTING, AND BUDDING. 577 
 
 up sliglitly damp. Grafts set in crab-apple stocks, thorn stoek=, or any other 
 wild shrubs, generally produce one result — lost labor. The greatest advan- 
 tage we ever found in setting grafts in such stocks was in preserving them 
 over one season, in a new country, where apple stocks ordered failed to ar- 
 rive in time to set the grafts. 
 
 655. What Influence has (he Stock on the Graft ? — Perhaps the only answer 
 needed to this question is, "None whatever." And this is true, if the stock 
 is of a cliaracter suited to grow the scion engrafted into it. An apple should 
 be engrafted into a stock of similar texture to the scion to form a good tree. 
 That is, a scion from a free growing tree engrafted upon a wild crab-apple 
 may live, but it never will do well, because tlie graft outgrows the stock, but 
 it has no influence upon the fruit. So it is M'ith pears engrafted upon 
 quince, wliich dwarfs the growth of the tree, but does not affect the fruit 
 either in size or flavor, though the productiveness is increased ; but that is 
 owing to tlie obstruction in the descending sap when it reaches the stock, 
 thus forcing more into the fruit-buds and limbs bearing fruit. 
 
 Another influence that a stock has upon a graft is to enable us to produce 
 fruit from a semi-tender plant, by engrafting it upon a hardy native ; as the 
 peach upon plum or almond, the pear upon quince or mountain ash, or fine 
 plums upon wild stocks, or foreign grapes upon native vines. 
 
 Make it a rule never to engraft anything upon a diseased stock ; not that 
 it is likely to influence the fruit, except so far as it will affect tlie scion and 
 make it unhealthy. 
 
 It is asserted that a diseased graft will communicate the same malady to 
 the stock, so that a shoot springing from the stock below the union will sho^ 
 the same symptoms that afiect the graft. 
 
 650. Budding is a mode of engrafting which can be practiced after the 
 season for grafting is past. The budding season does not commence until 
 after the leaves have grown and the bark will slip. Then a bud of the pres- 
 ent season's growth is neatly cut from a thrifty shoot, avoiding double buds, 
 which are fruit-buds, and the leaves being cut oif, leaving half an incli of 
 the foot-stalk to hold the bud by, it is set in a slit made in the bark of the 
 stock, by a T-shaped cut, and loosening up the edges with the flat bone 
 handle of the budding-knife. Some persons remove tlie wood cut from the 
 stick with the bud, and some insert it. After pressing the bud as far down 
 in the slit as you can, cut oflF the upper end even with the cross-cut of ihe 
 slit, and tie strips of soaked bass matting around to keep all snug. If the 
 bud lives, it will look plump two weeks after it is set, and in four weeks will 
 need to have the liandage loosened, or perhaps removed. Late buds may 
 not have to be loosened till spring, and at tnat time the limb of the stock 
 budded must be cut away, and the bud goes on to form a new limb, or the 
 whole tree, if a single stock was budded. 
 
 Some trees do not grow buds as readily as others, and such may be tied 
 with a band above and one below. Tlie latter being first removed, allows 
 the bud to grow, while the upper one checks the flow of sap up the stock 
 
578 • THE ORCHARD. [Chap. VL 
 
 two or three weeks longer. All buds must be watclied and untied at the 
 proper time. 
 
 Another method of budding is called annular budding, and consists in 
 cutting two rings around the stock, and taking off a ring of bark, a quarter 
 or half inch wide, and filling its place by a strip taken from a budding slioot 
 containing a bud, which will grow if the bark adheres, wliich it is likely to 
 do if carefully tied and the joints covered with wax or clay. This mode is 
 sometimes practiced to save mice-eaten trees. 
 
 Many other kinds of trees and shrubs are propagated by budding, as well 
 as fruit-trees. 
 
 657. Use of Bass Matting iu Budding. — Bass matting is imported and used 
 extensively in place of our native stock, we suppose, because people do not 
 generally know bow easy it is to prepare the bark for use. It is simply to 
 take tlie whole bark of the bass-wood, or linden-tree, as it peels from the trees 
 when the sap flows freely, say about June in this latitude, and sink it under 
 water until the liber (inner bark) will peel and separate easily from the 
 coarse bark. This soft, tough substance is then dried and stored away for 
 future use, and the purposes to which it can be api^lied are almost num- 
 berless. 
 
 In budding it is almost indispensable, being one of the very best and 
 cheapest articles for tying the buds in the stock. 
 
 658. Uses of Shellac and Collodion in Graftiug. — Gum-shellac, or seed-lac, 
 dissolved in alcohol, is kept constantly on liand by some orchardists, and 
 used to seal the ends of cuttings or accidental wounds in trees, or to cover 
 the stumps of large limbs pruned off at a time when they are liable to 
 decay. The following method of i^reparing shellac is recommended as 
 superior to that dissolved in alcohol, which will sometimes jjeel off. 
 
 Take an ordinary glue-pot, which is in a water-bath, and put therein one 
 part of spirits of ammonia (hartshorn) and eight parts of water ; bring them 
 to nearly the boiling-point; put in shellac gradually, until the whole is 
 about the consistency of varnish, stirring all the while ; when entirely dis- 
 solved, take it fi'om the fire, and continue stirring until it is cool ; then bottle, 
 and keep for use. This makes an entirely waterproof coating, and in sum- 
 mer pruning may be applied to tlie ends of the limbs with decided advantage;. 
 
 For all trees that exude gum, like the cherry, peach, i)lum, and many 
 forest and ornamental trees, it is extremely useful when applied to all wounds 
 and cuts", as it keeps out the water and allows the wood to heal quickly. 
 
 Shellac can not be dissolved iu water alone. The ammonia in the mixture 
 dissolves it, and afterward evaporates, leaving nothing but shellac and water, 
 which can not in any way be injuiious. Seed-lac is about as good; it is 
 certainly cheaper. 
 
 Tlie above mixture forms an elastic covering, which is much better than 
 shellac dissolved in alcohol. It must not be made in an iron keltl,' ; it will 
 not mix well. Use copper, zinc, or tin. 
 
 It is said that shellac may be dissolved in alcohol; then add waiter and 
 
Sec. 37.] 
 
 APPLE AND PEACH TREES, ETC. 
 
 579 
 
 boil till the alcohol is evaporated, and it will make a coating that will not 
 peel off; but a soliitiou of amniunia is undoubtedly best, and should be used 
 whenever procurable. 
 
 Some persons paint the wound or cut witli white lead in oil, which, if 
 thickly applied, answers very well. So would a coat of tallow, or covering 
 of clay. A coating of dissolved shellac is sometimes used in cleft-grafting 
 large limbs, instead of wax or clay. 
 
 Collodion is made by dissolving gun-cotton in ether. It is sometimes 
 called " liquid cuticle," as it may be spread over an abrasion of the skin and 
 form a substitute, perfectly impervious to air and water. 
 
 This substance is excellent for all wounds, particularly slight burns, to 
 shut out the air, and is invaluable and perfectly eflflcacious to prevent pits 
 from suiall-jiox. 
 
 In England it has been applied to the purpose of preserving cuttings of 
 plants, by dipping the end in tlie solution, which completely shuts up the 
 moisture in the wood, so that they are more than twice as likely to live as 
 when left unprotected. It is an excellent thing to apply to wounds in deli- 
 cate plants, is not very expensive, and is sold l.)y druggists generally. 
 
 The Imperial Journal of Horticulture, Paris, gives an article iij)on a new 
 mode of grafting or budding. This method may be employed at any time 
 of the year, provided the buds are cut at the right season and preserved. 
 A little piece of wood is taken off when the bark will not peel, and th.e bud 
 fitted and sealed over immediately with collodion. None but large, strong 
 buds should be used. 
 
 SECTIOX XXXVII.-APPLE AND PEACH TREES ; THEIR GENERAL 
 5IANAGEMEXT-CH0ICE KINDS OF APPLES. 
 
 (HAT apples shall we cultivate? is a question of 
 much importance. The short answer to this ques- 
 tion, for farmers- who grow them principally for 
 their own use, and with a view to sell tlie surplus 
 to their neighboi's or nearest village, without mak- 
 ing a regular business of putting uji apples for' 
 market, is this: you should select such as will give 
 you a succession of fruit, from the very earliest 
 summer apple to such as will keep sound till July. 
 
 "We can not give you a list that will suit all sec- 
 tions, but for the vicinity of New York the follow- 
 ing short list has been recommended by a committee 
 of gentlemen who gave the subject careful consid- 
 eration, and who say : 
 sf object in making this selection has been to guard the ine.v- 
 
 "Thech 
 
5S0 THE ORCHARD. [Chap. VI. 
 
 perienced cultivator against the errors so-ofteu made when tlie lists of the 
 nurserymen are the only guitlc. Many young orchardists buy everything 
 reconiuiended in the fruit-books and catalogues, and lind, after years of 
 careful cultivation, that a large portion of their trees are worthless, and the 
 fruit of the remainder of but little value. Some fruits of the first considera- 
 tion in one locality are -worthless in another, and some trees are productive 
 on one soil and barren on another. 
 
 "This frequently involves the necessity of regrafting, causing years of 
 delay and labor without reward, until in many cases patience becomes 
 exhausted. As an instance, the Virgalieu pear, in western New York and 
 most of the Western States, is probably without a superior ; while here and 
 on the sea-coast generally, it is only an incumbrance to the ground. The 
 same may be said of many other though less known varieties. 
 
 "lu making this selection, we do not wish to be understood to discourage 
 amateurs from planting any, or even all, the old varieties that the catalogues 
 pronounce good, neither do we wish to discourage eflorts to originate new 
 kinds ; but we do say, from our own experience, that, in this locality, we 
 believe the list here recommended will j)rovc satisfactory — that all these 
 si)r:s, with proper cultivation, will be productive, and that none will require 
 I'cgrafting. 
 
 " Many persons will pirobably think, on reading this report, that better 
 sorts have been omitted, and .some of the eonnnittee will concur in this 
 opinion ; but they beg leave to say that while they have left out such fine 
 varieties of apples as the N<irihi.'rn Spy, the Swaar, Pennock's Red, Newtown 
 Pippin, Yandevere, Pearmain, Smitli's Beauty of Newark, Ilubbardstown 
 Nonsuch, etc., all could not be included without making too long a list, and 
 tiiat some of them are only superior in their native localities. Some have 
 been proved inferior here, and others have not yet been proved at ail. The 
 same may be said also of all lists of j^ears, plums, and other fruits." 
 
 659. Select List of AppleSi — The following is their list of apples : 
 
 Summer J/)j;Zc*. — Early Bough (sweet). Early Harvest (acid), American 
 Summer Pearmain, Summer liose, Strawberry. 
 
 Autumn. — Autumn Bough, Gravenstein, Ilawley, Fall Pippin, Porter, 
 Jersey Sweeting. 
 
 TFinfc;".— Baldwin, Rhode Island Greening, Jonatiian, TMonmouth Pippin, 
 Spitzenberg (Esopus), Tallman's Sweeting, King of Tompkins County, 
 English Russet. 
 
 The lied Astrai'an apple we consider one of the very best early varieties. 
 The Strmoherry apple is also a very choice one, and the most fragrant of all. 
 Its peculiar aromatic quality and its beauty should commend it, even 
 though it were not, as it is, an apple of most excellent flavor. We believe 
 it is rather a shy bearer. The Jersey Sweeting we think one of the best 
 sweet apples ever grown. 
 
 The Vandevere ajiple is a great favorite with some farmers. William 
 Lawton, of New Rochelle, has a tree that is over lUO years old, perhaps 150 
 
Sec. 37.] APPLE AND PEACU TREES, ETC. 681 
 
 years, which bore, in 1860, at least twenty bushels of apples. The tree is 
 Btill veiy healthy, and several feet in diameter. The branches have spread 
 very M'idc and high. He also has a tree of the same age, very large, sound, 
 and healtliy, called the Grandfather apple. 
 
 The KiH.(j of ToinjyJiins Count ij we suppose lias been or can be over- 
 praised, but it is a very good apple, large, fair, and of a mild, pleasant acid 
 flavor. It is larger, more mellow, but less pungent than the Spitzenherg^ 
 which is our "king" apple. The tree is said to be a free bearer, and to 
 have many other good qualities which we are acquainted with at second 
 hand only. The apple is very showy, of a color shaded between red and 
 yellow, and is said to have sold in New York at §6 to $7 per barrel. It 
 will not supplant the established favorites, but we think it may wisely be 
 tried along with them by those who may now or hereafter be putting out 
 an orchard. 
 
 The Northern Spy is a very highly praised apple, and one that usually com- 
 mands the higliest price, but in this vicinity it proves a very shy bearer; 
 so much so that we can not recommend it for general cultivation, though a 
 most valuable apple, particularly in spring. It originated as a seedling in 
 East Bloomfield, N. Y. The trees grow slowly, and only bear well when 
 fully matured. They grow best upon clayey loam. The Norton Melon is an- 
 other remarkably fine apple, which originated iu the same locality. There 
 is a great want of attention to the difference in soil in planting trees. "What 
 will succeed in one location utterly fails in others. 
 
 John Buckholder, of Adams County, Pa., sent us some specimens of an 
 excellent apple, common in that section of the State, which is not known 
 here. It is a medium-sized, red streak, roundish form, very white flesh, 
 and delicious flavor, and is a good autumn apple, and keeps well in 
 winter. 
 
 The Glfford apple ripens in harvest-time, and is of fine size and excellent 
 quality. It is a variety not well known, but one highly recommended. 
 
 The following early apples are recommended by R. Peters, of Atlanta, 
 Ga., as very well suited to that region : 
 
 Yellow May. — Size small, ripe the last of Maj'; valuable for its being 
 the earliest known variety. It is extensively grown in southern Virginia 
 for shipment to the New York market. Tree a slow grower, but productive. 
 
 Red Astracan. — Size, medium to large ; ripe early in June ; an apple of 
 great beauty and fair quality ; valuable for market pui'poses, its crimson 
 color and rich bloom making it very attractive. Tree, a good grower and 
 productive. 
 
 Early Harvest. — Size, above medium ; ripe early in June ; one of our 
 best early apples, of fine quality, valnal)le for the table and for cooking. 
 Tree, rather a poor grower, but an abundant bearer. 
 
 Red June. — Size, over medium ; lipe the middle of June ; a well-known 
 and truly ])Opular Southern apple, valuable for all purposes. Tree, a fair 
 grower, and a regular beai'cr. 
 
 Yellow Jane. —Size large ; ripe from the niid<lle to last of June. 
 
582 THE ORCHARD. [Chap. VI. 
 
 The following are the names of Indian seedling apples which flourisli at 
 the South : 
 
 Tillaquah. — The original tree of this magnificent fruit is still growing 
 some four miles from Fi'anklin, N. C. It is so great a favorite with all wlio 
 pass the road, that hut few remain on the tree to thoroughly ripen. Its name 
 signifies "big fruit." 
 
 Toccoa.^^his apple was found in the orchard of Jeremiah Taylor, an old 
 Revolutionary soldier living near the celebrated Toccoa Falls, in Habersham 
 County, Ga. It ripens in August ; is a very delicious, high-flavored fruit. 
 Toccoa, when rendered in the English language, means " beautiful." 
 
 Cullasaija. — Is a seedling from the Horse-apple, raised by Miss Ann Bry- 
 son, who resides on the bank of the Cullasaga, or Sugartown fork of the 
 Tennessee River, in Macon County, N. C. ; is a very aromatic, early winter 
 apple. Its name signifies " sweet water," or " sugar water," and is pro- 
 nounced cullasajah. 
 
 Yahoola. — Was found growing on the banks of an old gold-pit near Ya- 
 lioola Creek, a largo stream in Lumpkin County, Ga., and was brought into 
 notice by Wm. Martin, Esq., of Dahlonega, who informs us it is a desirable 
 winter variety. The meaning of its name we do not know. 
 
 Chestoa.- — -Takes its name from its resemblance to a rabbit's head, being 
 conical oblong in form, with one side near the calyx, jutting over the other 
 like a rabbit's nose. 
 
 The Bellejicur in some localities is a very favorite apple, and in New 
 Yoi-k it always sells well. 
 
 The Newtown Pij)pin is one of the most favorite sorts grown by those 
 who make a business of growing apples as a regular farm crop. It has been 
 stated that Robert L. Pell, of Ulster County, N. Y., has 20,000 Newtown 
 Pippin apple-trees. We have heard him say that some of his' early ship- 
 ments to England sold at $20 a barrel, and in New York frequently at $7. 
 
 Downing, in speaking of this apple, says : " The Newtown Pippin stands 
 at the head of all apples, and is, when in perfection, acknowledged to be 
 unrivaled in all the qualities which constitute a high-flavored dessert apple, 
 to which it combines the quality of long keeping without tiie least shrivel- 
 ing, retaining its high flavor to the last. It is very largely raised in New 
 York and New Jersey for exjjoration, and commands the highest price in 
 Covent Garden Market, London. This variety is a native of Newtown, 
 Long Island, and it requires a pretty strong, deep, warm soil to attain its 
 full perfection, and in the orchard it should be well manured every two or 
 three years. For this reason, while it is planted by acres in orchards in 
 New Yoik and the Middle States, it is raiely raised in largo quantities or 
 with much success in New England. On the Hudson, thousands of barrels 
 of the fairest and richest Newtown Pipjiins are constantly produced. The 
 tree is of rather slender and slow growth, and even while young is always 
 remarkable for its rough bark. 
 
 " Fruit of medium size, roundish, a little irregular in its outline, caused 
 by two or three obscure ribs on the sides, and broadest at the base, next the 
 stalk ; about three inches in diameter, and two and a half deep. 
 
Seo. 37.] APPLE AND PEACH TREES, ETC. 583 
 
 "Skin dull green, becoming olive green when ripe, -with a faint, dull 
 brownish blush on one side, dotted with small gray specks and with delicate 
 russet rays aronnd the stalk. Calyx quite small and closed^set in a narrow 
 and shallow basin. Stalk half an inch long, rather slender, deeply sunk in a 
 wide funnel-shaped cavity. Flesli greenish-white, very juicy, crisp, with a 
 line aroma and an exceedingly delicious flavor. "When the fruit is not 
 grown on healthy trees, it is liable to be spotted witli black spots. This is 
 one of the finest keeping apples, and is in eating from December to May, 
 but is in the finest perfection in March. 
 
 "The Yellow Newtown Pippin strongly resembles the foregoing, and it is 
 difficult to say which is the superior fruit. The Yellow is handsomer, and 
 has a higher perfume than the Green, and its flesh is rather firmer and 
 equally high flavored ; wiiile the Green is more juicy, crisp, and tender. 
 The Yellow Newtown Pippin is rather flatter, measuring only about two 
 inches deep, and it is always quite oblique, projecting more on one side of 
 the stalk than the other. When fully ripe, it is yellow, with a rather lively 
 red cheek, or a smooth skin, and few or none of the spots on the Green variety, 
 but with the same russet marks at the stalk. It is also more highly fragrant 
 before and after it is cut than the Green. Tiie flesh is firm, crisp, juicy, 
 and with a very rich and high flavor. Both the Newtown Pippins grow 
 alike, and they are both excellent bearers. This variety is rather hardier, 
 and succeeds best in the Eastern States. We have kept the fruit until the 
 4th of July." 
 
 Excellent, however, as this variety is, we would not recommend a farmer 
 to plant a large orchard of Pippins unless he was so situated that he could 
 ship the fruit to New York, because other sorts are more popular in other 
 cities — the Baldwin, for instance, in Boston. Care must be taken, too, in 
 buying trees, to get real Newtown Pippins, if that is the object, as there 
 are about a dozen kinds of that name, one variety being strictly an autumn 
 apple. 
 
 Probably the best plan to adopt in making a selection for a new orchard 
 is to examine carefully what sorts succeed best in that vicinity, if there are 
 any orchards of improved fruit — of various sorts — in the neighborhood, and 
 if not, go where there are such upon similar soil to your own, similarly 
 located as to bight, exposure, distance from water, salt or fresh, in great 
 bodies, and all other circumstances calculated to influence the growth of the 
 trees and ripening of the fruit, since it is a certain fact that kinds which 
 succeed admirably in one place, utterly fail in others. We have seen some 
 of the " Indian Apples," as the native sorts are called, growing finely in 
 several of the Southern States, while those from the North failed entirely. 
 As a general rule, in planting an ovcliard upon the rich soils of the prairies, 
 we would select sorts of trees of the slowest growth. 
 
 An idea of the varieties of apples known may be gathered from the 
 statement that the London Horticultui-al Society have nearly Ij.'iOO, and this 
 of course docs not include many of the seedlings of this country, wiiere new 
 
581 THE ORCHARD. [Chap. VI. 
 
 soris are constantly springing up, some of which flourish luauy years in the 
 neighborhood where they originated without being known anywhere else. 
 Tliis is the case with the Kirtland apple, one of the best keeping apples of 
 good flavor known to orchardists. It originated about the beginning of this 
 century in Clinton, Oneida County, N. Y. The Baker apple is another in 
 the same category ; a large, handsome, red apple, of excellent quality, 
 originating and known many years in Ridgeiield, Conn., before it was heard 
 of anywhere else. Indeed, there are numbers of such cases all over the 
 country, besides the known varieties, which are so numerous that we can 
 not say definitely what sorts shall be cultivated most profitably. 
 
 660. Tlic Use of Apples— Apples for Stock. — The use of apples for food is 
 hardly snfiiciently apjireciated. In short, no farmer can aftord to do with- 
 out an orchard that will furnish his family, including all his laborers, all that 
 they can cat, because nothing that grows upon the farm aflords such cheap 
 food, nor anything that will keep his family in better health. Six months of 
 the year we usually have baked apples upon our table every day, and almost 
 every meal. Apples carefully dried and well cooked aftord an excellent 
 condiment for all meals, and apples cooked in almost any form really aftord 
 very heai-ty food. And who that was born upon, or even lived upon, a New 
 England farm, in the "good old olden time," can forget the winter store of 
 " apple-sauce," nuido of boiled eweet apple-cider, and partly sweet and 
 partly mild, sour apples cooked iu the cider, with quinces enough to give 
 their peculiar flavor ? 
 
 Apples for stock are not sufliciently appreciated. There is no feed that 
 will nuike fatting pigs grow so fast as sweet apples or cooked sour ones, and 
 if corn is fed a short time before killing, there will be no complaint about 
 Iho pork not being hard. 
 
 In Westchester County, in 1860, the apple crop was very large; and as it 
 had not been so before for many years, there was a scarcity of cider-mills, 
 so that all the apples could not be ground up for that purpose, and many 
 people fed them to cattle, and those who kept cows for milk-dairies found 
 that apples increased the quantity very largely. It is probable that they 
 would not much increase the product of butter. A milch cow will consume 
 a bushel a day. 
 
 Farmers certainly do not consult their own interest while neglecting so 
 important a source of profit and comfort as a good orchard. If your old one 
 is not good, employ a grafter. If that is not convenient, graft them your- 
 selves. You can do it, and by that means make that portion of land 
 covered with fruit-trees a source of more profit, with less expense, than any 
 other portion. You must keep trees suflflciently pruned, and now and then 
 draw manure to the roots of the trees ; and if they are not in a thriving con- 
 dition, scrape the bark with a sharp hoe, and wash them with solution of 
 potash or caustic soda, and do all that is necessary, and then it is easier to 
 grow apples than wheat and corn. Let the hogs root around the trees; it 
 will do them good, and is better than plowing, and it is much easier to feed 
 
Sec. 37.J APPLE AND PEACH TREES, ETC. 585 
 
 your jii^s upon apples than it is upon grain, wliicli you can only g;ow by 
 hard toil. Try it. Try also the value of apples fed to other stock. Even 
 poultry will thrive finely upon boiled apples, with a very small quantity of 
 grain or meal rai.xed with them. Try to get better sorts in your old or- 
 chards for eating or for selling. Even for feeding stock, it costs no more to 
 grow good apples than it does poor ones. 
 
 CCl. How (0 Grow Large Fruit. — A friend in Illinois writes us that he 
 grows apples of twenty ounces weight each. One man near Alton averages 
 $1,500 a year, net income, from his orchards. Apples in that State generally 
 grow much larger than the same sorts do in the Eastern States, and we have 
 seen specimens from Oregon and California which show more than double 
 the size of the originals. As this increase of growth is owing to the great 
 richness of soil, it behooves us here to consider whether it would not be 
 profitable to make the soil of our orchards better. 
 
 A correspondent of the Gardener'' s Gazette says fruits may be raised about 
 one third larger than usual, of improved quality, by supporting them so 
 they shall not hang theil' whole weight upon the stock, or twist about in the 
 wind. When fruit is allowed to hang naturally, the increasing weight 
 strains the stem and lessens the quantity of nuti-itious food flowing to the 
 fruit. It may be supported either by tying to a branch with a piece of 
 string, or by inclosing it in a small net. Flowei-s, such as dahlias or peonies, 
 may also be rendered much larger by this system. 
 
 "\Ve do not suppose any one is going to adopt this plan upon a large scale, 
 but he may do so very well witli a few choice specimens for curiosity, if 
 nothing more, and just to show how fruit can be made to attain a greater 
 size. 
 
 ^^1. The Natural Form of Various Apple-Trees.— The following state- 
 ment about the natural forms of apple-trees comes from a committee of the 
 Cincinnati Horticultural Society, which says : 
 
 "In ascertaining the habits of growth of various trees of the several 
 popular varieties of apples that are largely cultivated in the neighborhood 
 of Cincinnati, we have taken our own experience as a starting-point, and 
 then added to this such additional information as we have been able to 
 obtain from other members of this Society. The result of our labors is the 
 following classification : 
 
 " Of an Uj^rigJd Conical Growth. — Eenoni, Early Strawberry, Golden 
 Russet, Early Sweet Bough, Lady Apple, Pryor's Eed, Northern Spy, Tal- 
 man's Sweeting. 
 
 " Of an Upright Growth, hut loith a Bound Head. — Eed Astracan, "White 
 Pippin, Alexander Kaighn's Spitzenberg, Michael Henry Pippin, Drap d'Or, 
 Bohannan, Belmont, Rallies' Janette, Fall AVine, Rambo, Rome Beauty, 
 Summer Rose, High Top Sweet, Myer's Nonpareil, Fall Pippin, and 
 Porter. 
 
 " With Spreading Limhs and Bound Uead. — Smith's Cider, Maiden Blush, 
 Baldwin, Roxbury Russet, Newtown Pippin, Tulpehocken, Winesap, Broad- 
 
586 THE ORCHARD. [Chap. VI. 
 
 well's Sweet, Gravenstein, Jersey Sweeting, Hubbardstown Nonsuch, Bel- 
 mont, Yandevere. 
 
 '■'■ Of a Drooping, Pendent Form — Ileael Symmetrical.- — Yellow Bellc- 
 flcui-, Peiinock, Rhode Island Greening, Newark Pippin, and Fall Pippin. 
 
 " Of a Pendent, Drooping Form — Head Loose, or Straggling and Open. 
 — Ortlej, White "Winter Pearmain, and Newtown Spitzenberg. 
 
 '• Of tlie above, we woTild particularly refer to Smith's Cider, Yellow Belle- 
 flciir, White Pippin, Eome Beauty, and Eaules' Janettc, as trees of a 
 marked vigorous growth and healthy, hearty habit. The Benoni, Winesap, 
 and Summer Pose are of only moderate growth, but appear perfectly 
 hardy. 
 
 "The Early Sweet Bough, Newtown Pippin, and Ortley (or White Belle- 
 fleur) appear to possess a less vigorous and a somewhat unhealthy con- 
 stitution." 
 
 This valuable information should be remembered liy all pruners. 
 
 663. Dwarf Apple-TreeSi — Wlien scions of the common apple are engrafted 
 on what are called Paradise-stocks, the trees beco«ne dwarfish in growth. 
 They thus form, when in a l)earing state, very pretty objects in the garden, 
 and they oftentimes bear more apples, in proportion to their size, than com- 
 mon trees of the same variety. As they are small, they can not of course 
 produce a large crop, but are fine garden ornaments, combining both beauty 
 and utility in a small compass, and will bear full, upon perfect trees not 
 over two feet high, if the land is very rich, and rather moister than is suit- 
 able for apples. These dwarfs are made by grafting the crab scion in a 
 shrub known as chokeberry. We would suggest, in addition to this, that 
 the common thorn-bush, which grows about our pastures, would make a 
 good stock to engraft the apple upon for dwarfing. The pear will grow well 
 upon it, and the apple will also probably do pretty well. But the best way 
 to get dwarf trees is to order them from an experienced nurseryman, unless 
 you are a skillful grafter and would like to try your hand to see what you 
 can produce for your own use. 
 
 664:. Peacli-Trecs— How to Plant and Treat Them.— Peach-trees of one year 
 old are the only ones that should be planted. Shorten their side branches to 
 two or three buds, and the main stem one third ; wash the roots clean and 
 examine them carefully ; see that you do not plant a peach-worm with the 
 tree. Trim the roots and then dust them over with ashes. After the tree is 
 planted, put a handful of ashes or lime around the stem on the surface of the 
 soil ; this will almost invariably prevent the peach-worm attacking the tree 
 the first year ; next year, put a little more lime or ashes around them, close 
 to the bole, keeping the ground clear of weeds with the hoe or cultivator 
 duringfthe entire season. This is indispensable, and must not be neglected. 
 Nectarines and apricots should be treated in the same way. 
 
 It requii'es more care than is generally bestowed upon the planting of 
 peach-trees to insure success. Prof. Mapes says : 
 
 " In taking a tree from the nursery, I cut off all the limbs and set the tree 
 
Seo. 37.] APPLE AND PEACH TREES, ETC. 587 
 
 an inch liigher in its new place than it stood before. I shorten in till the 
 limbs next year two thirds the length by cutting ott' always at a leaf-bud, 
 and not a frnit-bnd ; and I let the trees branch from near the ground. 
 Xatnral seedlings are longer lived than budded trees. It is positively neces- 
 sary to distui'b the ground as early as possible in the spring. All peach 
 limbs should be shortened in so as not to be pendent. No organic matter 
 will answer for peach-trees. Barn-yard manure will kill them. Nothing 
 but inorganic manures will answer. Trees should be trimmed early in the 
 spring, as soon as tlie weather is warm enough to make the limbs supple." 
 
 6G5. Soda-Wash for Peach-Worms. — ^These are frequently destroyed, or, 
 rather, prevented, by using the caustic soda-wash — an application accident- 
 ally discovered by a New Jersey gardener, a few years ago, to be the best 
 thing ever applied to kill insects and make smooth bark. 
 
 "This soda-wash is made as follows: Take common sal soda and put 
 it in any old iron pot or other vessel, and heat it red-hot, and then put it 
 liot into water — one pound to one gallon — and let it stand till cool, and use 
 it with a brush or swab to the body or limbs of the trees you wish to clean, 
 and it kills all insects it comes in contact with, and makes the bark assume 
 a smooth, polished appearance. It will not injure any growing plants." 
 
 G6G. Cutting out Worms from Peach-Trees is a remedy somewhat like the 
 Frenchman's flea-powder. The only easy remedy is boiling water. Put a 
 cloth around the tree and pour boiling hot water on, and the steam will kill 
 the worms. There is no difliculty in killing peach-worms in trees with hot 
 water. It would not hurt the tree to apply a jet of steam direct to the 
 worm-afl:ected part, but it will hurt the worm. It Avould be impossible to 
 pick out the worms in an orchard, such as some in Jersey, of 80,000 trees. 
 The best cure for the yellows is to give the trees as vigorous a growth as 
 possible, by the use of inoi'ganic fertilizers. 
 
 667. Winter-Killed Peach-Trees.— The severity of some of the past winters 
 has entirely destroyed all peach-orchards, even of twenty years' growth, far 
 south of the center of Illinois, and committed great havoc in the apple- 
 orchards. The same, or some other course, has produced a similar effect, 
 we believe, generally, thi-oughout the country. In the face of these in- 
 clement winters, trials have been successfully made to produce fruit-trees in 
 Minnesota under otherwise unfavorable circumstances. Ought those of a 
 milder climate to be discouraged on account of partial failure? 
 
 Let us notice some facts that favor the opposite opinion. 
 
 As far as the hardier and more valuable fruits are concerned, they are 
 easily produced in central New England and New York, Avhere the climate 
 is colder and not so uniform, and the soil less friable than it is in many 
 places two or three degrees farther south. 
 
 The Lake Ontario slope of western New York produced peaches abund- 
 antly before the country was laid open by the removal of the primeval 
 forests, and is now one of the best fruit-producing regions on the continent, 
 as it respects the really valuable fruits. 
 
588 THE ORCHARD. [Chap. VI. 
 
 The cold snap of tlie M-inter of 1859-60 killed a great deal of fruit in the 
 State of New York, but that should not prevent further trials. 
 
 C. Olncy, of Pittsford, Monroe County, writes under date of Jan. 21, ISGO : 
 
 "The peach crop in this vicinity bids fair to be almost an entire failure 
 the coming season. I find more living buds upon trees that stand in the 
 corners of the fences than upon those where the land was cultivated last 
 season. On some of them nearly all are alive ; on others, not more than ten 
 feet distant, every one examined is dead. I am unable to say M'liether any 
 particular variety escapes more than another, for I have only owned my 
 present promises one year, and last season there was no fruit on the trees by 
 which I could tell the varieties. My thermometer has onlj^ indicated four 
 degrees below zero. Who can tell the causes of destruction, if it is true, as 
 it has often been asserted, that it requires a degree of cold 18 degrees below 
 zero to kill peach-buds?" 
 
 668. Seedling vs. Budded Peach-Trees. — A general impression prevails that 
 seedling peaches are more hardy than tliose projiagated by budding. Tliis 
 is true, though not in the sense in which it is generally received. The pro- 
 cess of budding in no M'ay changes the character of the variety budded, 
 either for hardiness or otherwise. The fruit is no more liable to be killed 
 by frost than the original seedlings from which the budded trees have de- 
 scended. 
 
 All varieties were once seedlings, and it is said are improved from the 
 bitter almond. This improvement is the result of cultivation, crossing, and 
 hybridization. The pulp is merely the envelop or covering nature has pro- 
 vided for the protection of the seed. Hence the vital force is directed to 
 this end, and the seed is consequently fully developed, and the product is 
 Lardy, and those varieties that are least removed from the original type are 
 the most hard}^. The imjn-ovement is the result of art, and so far as im- 
 proved or removed from the state of nature, just in that proportion is it at 
 the expense of the hardiness of the variety. 
 
 This fact iiolds good tin-oughout all the departments of animated nature 
 as well as in the vegetable kingdom. Compare the native Indian M'ith the 
 present cultivated races of mankind, also our races of domestic animals with 
 those in the state of nature — how different is tlieir character for haidiness ! 
 One characteristic of the peach is, the power of tiie diflerent varieties to 
 withstand the effects of cold according to the character of the l)lossoms. 
 Some — and this is generall}' true with seedlings — have large blossoms, the 
 petals of which afford a thicker covering to the embryo fruit ; hence this class 
 is generally most hard}', while those kinds with smaller blossoms are more 
 tender, and others are still more so where the petals stand out, or the blos- 
 som is the least cupped. 
 
 It is only the improved kinds that are found most desirable to perpetuate 
 by budding ; these have become tender because they are improved and far- 
 ther removed from the state of natiire, not because they have been propa- 
 gated by the artificial process of budding. 
 
Sec. 37.] APPLE AND PEACH TREES, ETC. 589 
 
 In our extremely variable climate the propagation of seedling peaches 
 should he practiced to a greater extent than it is, but with more care and 
 calculation. In selecting seed to plant, choose from the best of those kinds 
 that have large blossoms, as well as others most hardy with smaller cupped 
 blossoms. The yellow-fleshed peaches can be depended on with more cer- 
 tainty to produce their kind than the white-fleshed peaches. In some in- 
 stances the seedlings may be superior to the parent ; in more, they may bo 
 of equal quality, while a large proportion may be inferior ; but as the infe- 
 rior peaches are most hardy, these may aflbrd us a crop, while the others or 
 budded varieties entirely fail ; so that where land is cheap or in favorable 
 situations, we advise that calculations should be made to produce seedling 
 peach-trees every year of the seed of the most improved varieties. 
 
 (309. Pcach-Trees for Fuel. — Peach-trees should be grown upon the prairies 
 for fuel. No tree grows more rapidly, and no seed is more sure of germi- 
 nating than the peach. The stones should be planted in the nursery, and 
 the first summer's growth cut off two or three buds above tlie ground before 
 autumn, or in time for the wound to heal and new shoots lo start. The 
 young trees may then be taken vy> and planted out ten feet apart in or- 
 chards. This mode of cutting back gives two to live trunks instead of one, 
 which make more wood, and are less likely to be winter-killed. If the shoot 
 is not cut back nntil the next spring, let the root remain another season in 
 the nursery. 
 
 Another good way is to plant the stones in drills, ten feet apart, in the 
 orchard, the ground to be M'ell prepared, and the rows kept free from weeds 
 by the plow. In the fall, turn a good furrow from each side against the 
 rows, and level them, if necessary, with a hoe, and then mow off the shoots 
 even with the ridge. Draw out, for planting the next sunnner in other 
 places, the M-eakest of the plants, and let the otiiers grow, heading back 
 each year. In three years the trees will begin to bear, and those which do 
 not promise good fruit may be used for fuel. Of course, the fruit is a sec- 
 ondary object, and all that is got is clear gain — as the trees are grown that 
 fuel may be had at less cost and trouble than to haul it from a grove four or 
 five miles distant. 
 
 670. Manuring Fruit-Trees— Use of Hogs. — There is no better manure for 
 an orchard than swamp muck, composted with lime and salt — that is, lime 
 slaked by a solution of salt. Wood ashes, leached or unleached, are also 
 good, and we doubt not coal ashes are beneficial. If the land is in grass, it 
 should be thoroughly harrowed in the spring, and again after mowing. Use 
 the orchard in the fore part of tlie season as a sheep pasture, and graze close. 
 When the apples begin to fall, turn in the pigs and let them eat the wind- 
 falls. Valuable trees, or those of delicate nature, will be highly benefited 
 by mulching, both summer and winter. 
 
 The use of hogs in an oi-chard we have never seen so clearly demonstrated 
 before as we did in the summer of 1862. The Shaker Society at New Leb- 
 anon discarded the use of pork and quit keeping hogs about 1860. From 
 
590 THE ORCHARD. [Chap. VI. 
 
 that time, an orchard that had been used as a hog pasture, declined in vigor 
 and fruitfiihiess, and as the land could not be very well cultivated, it was 
 determined to try the hogs again, and a number were purchased and set to 
 work. In a few weeks, in pursuit of tlie worms, they had tlioroughly rooted 
 up the turf, and the effect upon the apple trees was so visible as to be readily 
 remarked by every one acquainted with their previous condition. 
 
 Autumn or early winter is a good time to manure fruit-trees, provided 
 you do not use such as will harbor mice, for that will be likely to injure 
 young trees more than the manure will benefit them. Ashes and rotten 
 wood and leaf-mold are particularly good for trees, and so is any well-rotted 
 compost. Spread it over as much ground as the top covers, and do not be 
 afraid of putting on too much. A heavy-bearing tree, or one that you want 
 to make bear plenty of good fruit, must have some food to produce it from ; 
 and a 3'oung tree needs as much cultivation every year as a hill of corn, and 
 should have, in proportion to its size, about the same manuring. And 
 there is no crop that will pay better for nuuiure and cultivation than fruit 
 of all kinds. It is the secret of peach-raising in New Jersey and Del- 
 aware. 
 
 671. LimiJ for Trees. — We have seen a statement that lime has been most 
 successfully used in England in transplanting trees by mixing a small quan- 
 tity — a quart or two — with the earth in which the tree-roots are planted. It 
 serves a double purpose — assisting to keep the earth moist, and converting 
 vegetable substances into food for the tree. Tlie statement looks so reason- 
 able that we advise its trial. The English papers say that every tree in a 
 large plantation served in this M'ay flourished finely. 
 
 ^Ye object to applying lime to trees in the form of whitewash upon the 
 boles, but in no other way, Mhether liquid or powder. 
 
 Hon. John A. Clayton, late of Delaware, assured us that half a bushel of 
 powdered lime applied close about each peach-tree was tlie best thing that 
 he ever tried to promote health and increase growth. Whitewashing trees 
 is not a good practice. Indeed, we know of nothing that can be said in its 
 favor. Water, saturated with lime, used as a caustic wash, would be bene- 
 ficial, M-liile the lime itself, ]ilastered upon the tree in the form of thick 
 whitewash, would be injurious. It would be of far more use to the tree 
 spread over the ground ; there it would add to the nourishment of the tree. 
 
 Another benefit derived from the use of lime around fruit-trees, is the fici. 
 of its serio*ly affecting more or less all kinds of worms and insects tliat 
 infest the apple tree. Most of the vermin that annoy fruit-trees in the sum- 
 mer remain in the ground during the winter. A cpiantit}' of lime spaded in 
 around the roots of the tree will have a good effect toward destroying the 
 canker-worm, if ajjplied in season, and a small mound of lime around the 
 collar of the tree will prevent the ravages of the borer, which almost always 
 enters the tree in the tender bark near tlie ground. It is beneficial on ail 
 soils, except, perhaps, calcareous ones ; it will greatly assist in destroj'ing 
 all vermin that harbor in the ground under the tree ; it is always injurious 
 
Sec. 37.] RENOVATING ORCHARDS. 591 
 
 when applied to the bark, as it stops the pores and impairs the liealtli of the 
 wliole tree. 
 
 G72. How to Renovate an Old Orchard. — It may not always be practicable 
 to renovate an old orchard with swine, as practiced by the Shakers, as men- 
 tioned in 670, therefore the following account of wliat a woman did is valuable. 
 
 Ruth II. Lynde writes us from New Bedford, Mass., as follows: "Some 
 years ago I lived on a small farm in New York State, and one of the in- 
 ducements held out for hiring it was, that there was a fine apple orchard of 
 choice grafted fruit. This decided — but the trees were in a miserably sickly 
 condition, and the fruit scanty and mean, knotty and wormy. In the fall, a 
 circle was dug around every apple-tree nearly two feet from the crown and 
 over a foot and a half in depth. Dressing from the hog-pen was put into 
 each hole until within half a foot of the top, and anthracite coal-ashes spread 
 over up to the crown. In the spring the trees were pruned, the orchard 
 plowed, oats sown, and the crop of oats was fair; the trees bloomed more, 
 but the fruit was scarce and still poor. That fall, after the leaves Iiad fallen, 
 the trees were scraped — the trunks, branches, and boughs — and the grulis 
 scraped off that were in the loose bark sufficed to feed for two days a hun- 
 dred fowls, consisting of turkeys, hens, and guinea-fowls. The fowls gen- 
 erally were in an inclosed place, and corn kept in a trough for their daily 
 use; as the corn was untouched and the fowls healthy, my statement can be 
 relied on. Next spi'ing the orchard was a mass of blossoms, and so beau- 
 tiful, I never wearied looking at it. The trees were so laden with fruit that 
 two of them split in the fork, and a person could not walk upright under 
 them. I never saw such quantities of fruit, and fine fruit, too — Bell Flow- 
 ers, Fall Pippins, Seck-no-Furthers, Summer Pie-aj^ples, etc." 
 
 The subject of renovating old orchards has been discussed several times 
 by the American Institute Farmers' Club, and here are some of the facts 
 elicited. "We give them with the names of the authors for what they are 
 worth, as they are all men of experience in fruit-growing. 
 
 Prof. Mapes — There was an old orchard on my place that had ceased 
 bearing, which I fully renovated and afterward cut down, because I can not 
 afford the shade. The land is too valuable to grow large trees upon, I can 
 produce fruit upon dwarfs more economically. All old apple-orchards are 
 deficient in lime, but the lime must be properly prepared to be of use. The 
 caustic soda-wash, spoken of last week, will clear them of insects and fungi, 
 I subsoiled the old orchard, which was in grass, and applied lime. I recom- 
 mend ten bushels per acre, sowed in a caustic state on the surface. Lime is 
 only soluble in large quantities of water. The next spring I applied phos- 
 phate of lime. This orchard was then in vigorous bearing, and had not 
 before borne for years. The grass crop was also more than doubled. Run 
 the subsoil plow up and down hill and it will serve to drain the land. I 
 only run the subsoil lifter furrows some four feet apart, without disturbing 
 the soil. Lime and manure should not be applied at the same lime to 
 orchards. The plowing is an important part of the treatment. 
 
592 THE ORCHARD. [Chap. VI. 
 
 Mr. Yeeedee, of Albany, said: A German, working for me, practices re- 
 moving tlie earth from the apple-tree roots in the fall, and that lias com- 
 pletely renovated an old tree on my farm. I have great faith in the value 
 of cutting off the long runners of tree roots. I know one apple-tree that 
 bore, two years ago, in Schenectady County, seventy barrels of apples. 
 
 Adrian G. Bekgen said — I wish I could make the apple-trees on Long 
 Island produce as they did thirty years ago. The trees have generally 
 failed. I believe trees are failing all over the land. It is not all owing to 
 Avant of lime. There is something besides this that affects apple-trees. 
 
 Andrew S. Fuller — I recommend renovating old trees to find how far out 
 tlie roots extend, and would dig so as to cut off three or four feet of the out 
 ends of all the roots by a ditch three feet deep and three feet wide, which I 
 M'ould fill with good soil and manure. It will almost always renovate them. 
 If trees are mossy, scrape them with a hoc. 
 
 Tnos. "\Y. Field — I agree with Mr. Fuller in this recommendation. 
 
 "\Vm. p. Gates, of Windham, Ct., wants to know how to treat the soil in 
 an old orcliard, or where trees have been planted ten years. Plowing cuts 
 and bruises the roots, and, he thinks, must injure tlie trees. How, then, 
 shall the soil be loosened ? 
 
 Judge French, of New Hampshire — "We generally keep our orcliards 
 plowed two thirds of the time, and work the land at first as deep as possible. 
 We do not think it good policy to ripen grain in an orchard. Sowwitli oats 
 and cut them for green fodder. Plant M'ith corn, and cut green. Potatoes 
 are the best hoed crop for an orchard, old or young. 
 
 Tiios. W. Field— I have been trying to answer this question a long time. 
 Some orchards on Long Island that are plowed often, have ceased to bear, 
 while trees in tlie hedges and walls continue to bear fruit abundantly. Some 
 poniologiits contend that orchards should not be disturbed bj' the plow. 
 Trees derive very little nourishment from deep soil ; it nearly all comes from 
 the fibrous roots near the surface. If m'c can keep the surface loose, it will 
 be useful; but plowing I believe injurious. 
 
 Prof. Nash, of Amherst, Mass. — I concur generally with Mr. Field in 
 this; but for naturally drained land, I have no doubt it is the best practice 
 to let the land lie in grass. No general rule can be given, but it must be 
 adapted to the situation and circumstances of each orcliard. 
 
 Robert L. Pell — My experience is, that all orchards require plowing. 
 I have found roots in my orchards as large as my arm, extending fourteen 
 feet deep. Eye will kill an orchard quicker than anything else. I never 
 stop to inquire whether my plow is cutting the apple roots or not. It does 
 not injure them. 
 
 Solon Robinson — I hold to the Scriptural injunction to renovate an old 
 tree; it was: "Dig about and dung it." Success attends the same method 
 now. Dig about certainly as far as the branches extend, but do not dig too 
 deep or injure the roots unnecessarily. Stirring the surface soil frequently 
 is what they want. Try that, and you will be amazed at the renovation you 
 
Sko. 37.] i;k.\uvating orchards. 593 
 
 work in an old apple-tree. Mulching, or cnltivating with a hoe to keep 
 down weeds and let in air and moisture, answers the same purpose. 
 
 To clear suckers from orchard trees they should not be cut off, for new 
 shoots will spring from every stub left. The riglit way is to keep the ground 
 smooth, mellow, and clean ; and then about the middle season ot' growth, or 
 during the first half of summer, put on thick cowhide boots and stout buck- 
 skin mittens, seize one sucker at a time, placing tlie boot upon it close to the 
 tree, give a sudden jerk with the hands, and it will be torn out root and 
 branch, leaving no stump. An occasional repetition of this process will 
 keep the orchard clear. Suckers always give a slovenly appearance to an 
 orchard, and favor the depredations of tlio borer. 
 
 Trees growing on mucky soil sometimes make wood so fast that they ap- 
 pear to have no power to produce fruit. In such cases we recommend 
 heavy dressings of lime, salt, and bone-dust, and if convenient, sand and 
 clay. The debris of an old charcoal-pit or a brick-kiln would be beneficial. 
 
 When old pear-trees fail to bear, or, rather, to perfect their fruit, Ave would 
 invariably dig about them and add all the above ingredients, and afterward 
 stable manure spread on the surface as far around as the limbs extend, or far- 
 ther, after having dug up the surface thoroughly. A caustic soda-wash, or a 
 wash made of weak lye, or of a solution of two pounds of potash to ciglit quart? 
 of water, and rubbed on the stems of the tree, will prove more beneficial and 
 far less injurious tlian whitewash. There is probably no substance that can 
 be applied at so small a cost as lime that will do so much toward the renovation 
 of an old orchard. It will ]iromote in an astonishing degree the flowering 
 and fruiting of almost all plants, because calcareous salts promote evapora- 
 tion and the concentration of the sap. Air-slaked lime is an excellent 
 manure for fruit-trees as a top-dressing; or if spaded in around the tree, it 
 will render it much more fruitful where the soil is not too calcareous by 
 nature. In the use of lime, do not use it in great quantities, because only a 
 small portion can be appropriated by the growing plants. Our opinion 
 favors about ten bushels per acre, though many persons apply thirty bushels. 
 We believe if that quantity were applied at the rate of six bushels a year fo ■ 
 five years, it would be more beneficial, and we would always apply it on tiie 
 surface either in autunm or spring, according to the crop, and not work it 
 in. It will find its way down as deep as water can penetrate. The worst 
 situation that can be selected for an orchard is a deep valley with a small 
 stream of water, for there the frost is much more apt to kill buds than it is 
 upon exposed hill-tops. This is not the case with the bottom lands of large 
 streams, nor on the borders of lakes, or ponds of considerable size. Where- 
 ever fog follows frost, it will save the fruit from injury. 
 
69i 
 
 THE ORCHARD. 
 
 [Chap. VI. 
 
 SECTION XXXVIII.-CHERRIES-BEST VARIETIES, SOIL, SITUATION, 
 AND CULTIVATION-HISTORY, USE, AND VALUE OF CHERRIES. 
 
 / HE clierrj, as one of tlie fruits of the farm, is not ap- 
 \ preciated as uiucli as its merits warrant. The rea- 
 
 son that farmers do not appreciate it is, simply 
 because they do not know it. Not one farmer in a 
 tliousand, take the whole country through, ever had 
 a tree ujjon his place that produced cherries of first quality, 
 and not one in a hundred ever tasted of the best sorts ; and 
 some, we know, do not believe that cheri'ies ever grow of 
 such a size that it is necessary to " make two bites of a 
 cherry," nor of such lusciousness that a family would sit 
 down to eat and enjoy a dish of cherries as they would sweet 
 peaches, plums, pears, or apples. The reason is, that their 
 standai-d of opinion, of the character of cherries, has been 
 formed from such as have been most generally cultivated, sucli as the 
 Kentish, which is the old, common red pie-cherry, sour and bitter until very 
 ripe; or the old-style Morello, or Cluster-cherry ; or the old Black Mazzard, 
 the 0.\-heart, Red-heart, and Remington, etc., none of which are hardly fit 
 to eat out of hand; awd with opinions based upon such a standard, it is im 
 wonder that cherries are not esteemed by some as worth the time and trouble 
 of growing, which, however, is very small, for no kind of fruit is easier 
 grown, and none will give a family greater satisfaction. 
 
 If any doubt this, we beg them to seek the opportunity of tasting some 
 of the finest sorts in their perfection, a few of which we will name. 
 
 673. Choice Varieties of Cherries. — The Bujarremt, most generally known 
 as Yellow Spanish, is in perfection the last of June, and is a most delicious 
 fruit; the flesh firm, pale yellow, juicy, and rich, and grows very large. 
 This cherry is often picked before fully ripe, and is not then esteemed. The 
 tree is a thrifty, though not a large one, but forms a handsome head. 
 
 The Wapoleon Bigarreau is also an excellent cherry, ripening later than 
 the other, of very large size and firm flesh, so much so as to be urged as 
 objectionable. The skin is pale yellow, or amber, when shaded, dotted with 
 red, with a crimson-marbled cheek, very handsome. 
 
 The Black Tartarian is a superb cherry of large size and good flavor, 
 and the trees are very productive, and of a remarkably rapid, vigorous 
 growth, with crest head. The leaves are large and beautifi.il, and the tree 
 very ornamental when fidl of ripe fruit, which is glossy -black, very rich 
 and delicious, half tender, of a purplish color inside, with a very small 
 stone, ripening from tlie middle to the last of June, and a few days after 
 Mayduke. 
 
Sec. 38.] CHERRIES. 595 
 
 Cog's Transparent is a great favorite with foino persons. It is iMcdium 
 size, tender, melting flesh, sweet and delicate, ripening a little earlier than 
 Black Tartarian. It is too tender for a marketing fruit, hut vcrj- ])n)(liietivc 
 and worthy of cultivation for family use. 
 
 Downer'' s Late tVuvvv/ is valuable because it is late. It is an excellent 
 fruit, and comes after the other good sorts are gone. The color is red, flesh 
 sweet, and fruit grows in clusters. 
 
 The Elton is considered one of the best cherries grown. The trees are 
 vigorous, with a singular mark of dark-red foot-stalks to the leaves. The fruit 
 is large, with pale yellow thin skin, shaded on the sunny side with red ; the 
 flesh firm, and when fully ripe, tender and luscious, ripening middle of 
 June 
 
 Tlie Governor Wood is becoming one of the favorites of this country. 
 Indeed, it is esteemed by some above all others. The fruit is large, light 
 yellow, marbled with bright red, nearly tender flesh, sweet, juicy, rich, and 
 delicious, ripening middle of June. 
 
 The Amei'ican Heart is a tree of luxuriant growth, producing cherries in 
 clusters, of pale red color, half tender flesh, very juicy, and sweet enough 
 in dry seasons ; ripens early in June. 
 
 The American Amber ripens the last oi June, the tree vigorous and pro- 
 ductive, fruit medium size, tender flesh, of a rather sharp flavor ; skin tliin, 
 light amber color, mottled with red. 
 
 iJowninr/ 8 Red Cheeh is a very handsome and very good new cherry, 
 originated by Charles Downing, of Newburg, N. Y. The fruit is large, 
 white skin, with crimson cheek, or rather side, for more than half is red. 
 The flesh is yellowish, sweet, and luscious, and what is termed half 
 tender, ripening about the middle of June. It will undoubted]^' become a* 
 favorite. 
 
 The MayduTce Cherry is better known than some of the other good ones 
 we have named. It is really the most popular sort known, as it thrives in 
 all countries equally well. It is a good cooking fruit before it is fit to eat 
 out of hand, and the fruit does not ripen all at once, some parts of the tree 
 being several days behind others. Tlie tree grows in a handsome, upright 
 form, and fruit in clusters, roundish form, dark-red skin, reddish flesh, tender, 
 melting, juicy, and good-flavored when ripe. It is too often picked before 
 fully ripe. In favorable seasons it begins to color, about New York, the 
 last of May, but is never fully ripe in that month ; nor does it take its 
 name from ripening anywhere in May, but from the province in France 
 where it originated, named Medoe, which has easily been corrupted into 
 Mayduke. 
 
 The Late Dul'e is of the same character, both in tree and fruit, except the 
 period of ripening, which is the latter jiart of July, and the fruit hangs on 
 during the first week in August. This is esteemed a very valuable variety, 
 both for eating out of hand and for cooking. 
 
 The Archduke is another good sort, of the same general character belong- 
 
596 THE ORCHARD. [Chap. VI. 
 
 iiig to the family of Dukes; the flesh is light red, rich and juicy, of good 
 flavor, ripening the fore part of July. 
 
 Vail^s August Duke, as its name indicates, is a later variety, but much 
 like the Mayduke in other respects. The fruit grows large, heart-shaped, 
 of regular forin, and the tree is naturally prolific. 
 
 Princess Duke, though large, good fruit, is not much cultivated, because 
 the tree is such a shy bearer. 
 
 Jeffrey's Duke is a line lively red cherry, with amber-colored flesh, rich 
 and juicy, growing in thick clusters, the trees being of a slow growth, and 
 tiierefore hardy and lasting. 
 
 The Kentish CJterry is one of the old English sorts, which has been ex- 
 tensively grown in tliis country near market towns on account of several 
 good qualities as a marketing fruit. The tree grows pretty large, and is very 
 productive. The fruit, though not ripe, is in the New York market from 
 New Jersey in May, and continues through June, growing larger and better 
 after it has turned quite red ; and when fully lipe is a good acid cherry, of 
 medium size, round shape, always growing in paii'S. A peculiarity of this 
 sort is the adhesion of the pit to the stem, which enables one to pull out the 
 pit by the stem in preparing the fruit for cooking or for drying, for which 
 purpose it is excellent. 
 
 The Carnation Cherry is much esteemed by those who preserve fruit in 
 spirits, making excellent "brandy-cherries," and is also good for sweetmeats. 
 The fruit is large and round, and usable when of a yellowish-white color, 
 mottled with i-ed, but is not ripe until nearly all red, and is then good for 
 eating out of hand. The trees grow low and spreading, and bear well ; the 
 fi-uit hangs on long after it is ripe, which is about July 15. 
 ^ Of the old variety of cherries bearing the appellation of " Heart," there 
 are several worth cultivating, and we will mention one of each color. 
 
 Early White Heart ripens first of June, medium size, skin a dull whitish 
 or yellow color, and not good to eat until fully ripe, when it is specked with 
 red. 
 
 The Black Heart Cherry is an old variety, long grown in this country as 
 a standard, on account of its fruitfulness and the large size and beauty of 
 growtli, as an ornamental tree. The fruit is glossy purple black when ripen- 
 ing, and dead black when fully ripe, of medium size, tender, rich, and sweet; 
 in perfection the last of June. 
 
 The Jied Heart is an old English sort, introduced into this country and 
 much grown many years ago. It is dark red, with reddish flesh, half tender, 
 and not; half as good as many other sorts. 
 
 The Honey Cherry is a small, late variety, well worthy of a place upon 
 every farm. It ripens the middle of July, and though small, the fruit is 
 much esteemed, particularly by children, who love sweet fruit. One kind, 
 called Sparhawke's Honey, is said to be a profuse bearer, and the tree more 
 vigorous than the older sorts ; and the fruit, which is lively red when ma- 
 ture, juicy and sweet, ripens in June. 
 
Sec. 38.] CHERRIES. 597 
 
 The Black Mazzard is the parent of our extensive family of cherries, and 
 is still adhered to bj many farmers on account of its hardiness. It is the 
 wild cherry of Europe, and has become semi-wild here, as it springs up al- 
 most siiontaneously. The fruit is small, roundish, on long, slender stems, 
 flesh soft and melting, but the juice slightly bitter, even when ripe, and 
 acid when unripe. It hangs well on the tree till late in Jul}'. 
 
 Although Ave have not mentioned a tithe of the good cherries well worth 
 cultivation, to make \ip a great variety, we have said enough, perhaps, to 
 show readers how they can make iip a little assortment of this excellent 
 fruit, which should find a place upon every farm; and now we will name a 
 few sorts that should find a place in lawns and j'ards, as ornamental trees. 
 
 6TJ^. Ornamental fherry-Troes. — There is a variety of cherry-trees, liearing 
 double blossoms, which produce no fruit, but are very ornamental in lawns 
 or grounds about the dwelling. 
 
 Tlie kind known as the Large Double-flowering cherry throws out blossoms 
 an inch and a half diameter at the time of blossoming of other cherries, and 
 being so showy is quite ornamental, although producing no fruit. The 
 foliage is that of the common Mazzard, but the flowers bear greater re- 
 semblance to white roses than cherry-blossoms. The tree is a free grower, 
 and forms a large head, so it must be allowed sufiicient room. There is, 
 however, a double-flowering cherry-tree that grows cpiite dwarfish — more like 
 a shrub than tree — which is very pretty, tho\igh the flowers are not so 
 large and regular as the Large Double-flowering variety, but it is better 
 suited to ornanient small places. There is also another kind, known as 
 the Chinese Double-flowering cherry, that is medium between the large 
 and dwarf sorts, which bears ■white flowers, tinged with pink, in fascicles 
 and foliage, with cut edges, called serrulate, and is altogether an orna- 
 mental tree. 
 
 The Weeping or Ever-flowing cherrj' is a beautiful, small, ornamental 
 tree, with slender hanging branches and myrtle-like foliage. It bears a red, 
 acid fruit, which in favorable seasons continues a long time. If grafted on 
 a Mazzard stock, five or six feet high, it grows into a sort of parasol-shaped 
 top, the branches weeping half way to the ground. 
 
 The native- wild cherries of this country are often grown as ornamental 
 trees, but still more often are left to grow naturally about the fields and 
 fences because they are ornamental, and form fine shade-trees, and aflbrd a 
 good deal of food for birds. The fruit is not much used to eat out of haml, 
 but is 1o a considerable extent for nuiking a poisonous decoction called 
 cherry rum ; poisonous, because the pits contain the essential principle of 
 prussic acid. The variety known in New England as the " Black Cherry," 
 Avhich grows to a large tree in old forests, and to botanists as the Cefasus 
 serotina, is the one we allude to. The Cerasus Viiyiniana is a low-growing 
 shrub, which is quite ornamental both in blossom and in fruit. We have 
 seen bushes only two or three feet high loaded M'iih the shining, reddish 
 berries. This variety is called " choke cherry" on account of its astringent 
 
698 THE ORCHARD. [Chap. VI. 
 
 quality, wliicli makes it entirely unfit to eat, while the other, the common 
 wild black cherry, may be, when fully ripe, eaten with satisfaction. 
 
 675. Winter CherrieSi — We mention these in this connection simply be- 
 cause they have acquired the name of cherries among common people. They 
 grow upon an annual plant {Physalis viscora) of the family of Solanacce, 
 and of course have no relation to the Cerasus family. The fruit has obtained 
 the name of cherries from its appearance. It is of the same habit as the to- 
 mato ; the fruit grows about the size of Mayduke cherries, of a yellowish or 
 pale red color, inclosed in husks, or, rather, a thin, loose, skin-like semi- 
 transparent covering, and it will kee]) till late in winter, if put away in its 
 husks just as it grew. Some persons are very fond of these "winter cher- 
 ries." To vis they are sickish sweet, and totally unlike in taste to any true 
 cherry. They can be grown wherever tomatoes can, and in the same way. 
 
 676. Grafting and Budding Cherry-Trees.— An experienced propagator 
 gives the following rules for grafting the ciierry : 
 
 ''The trees should be taken up early in spring, before the swelling of the 
 buds, the branches trinmied off and top cnt back to within four or five 
 inches of where the head is to be inserted. They are then to be planted in 
 orchard or nursery rows, to be grafted as soon as the buds are ready to break 
 and until the leaf is half grown, which is the seasQu of grafting. Tiie scions 
 should have been cnt in the fall or winter and kept in some cool place, so 
 that they shall not have materially swelled their buds. If the stock is half 
 or three fourths of an inch in diameter, cut it off at an angle of forty-five 
 degrees, sq\iare off the upper part of the cut, and insert as in cleft-grafting, 
 with this difference, that the knife is held at an angle so as to cut instead 
 of splitting the bark ; but when the stock is of less size, make the usual splice 
 graft, but without the tongue, simply putting them together and winding 
 with linen thread. Cut in lengths of sixteen to eighteen inches, and protect 
 by melted wax, put on with a brush. So soon as the growth indicates that 
 the thread will cut into the bark, it must be cut, and cutting down through 
 the thread, even into the wood, will do no harm, but the thread should not 
 be removed, as the wax will hold it so as to protect the graft from blowing 
 off until it is firmly knit to the stock. 
 
 •' Do not prune too much before grafting, nor cut back the branches at the 
 time of grafting ; they are to be shortened in, as the graft is capable of ab- 
 sorbing the sap. Those suitable for splice-grafting can be safely pruned at 
 the time. The fault in grafting the cherry has been mainly in doing the 
 work before active growth. 
 
 " Grafting the cherry and plum, even after they are in bloom, is safer than 
 very early. The caution to be observed in rooted trees, is not to cut away 
 too much of the top at once ; and in newly transplanted trees, deprived of 
 vigor and the growth checked, it is not safe to set the graft until the growth 
 is resumed. No buds or sprouts should be rubbed or cut from the tree the 
 first season after transplanting." 
 
 Most nurserymen prefer budding to grafting. They plant the common 
 
Seo. 38.] CHERRIES. 599 
 
 Black Mazzard clierries to produce stock. The cherries are gathered when 
 fully ripe, and allowed to lie in bulk until the pulp will wash off easily, and 
 then the pits are planted at once about an inch deep in seed-beds. At a 
 year from planting, set the plants in nursery rows a foot apart. The next 
 August tlie plants will be in order for budding. When setting the plants 
 in nursery rows, place all of equal sizes together, so that the growth will 
 be even. 
 
 677. Soil, Situation, Cultivation, History, and Uses of Cherries.— Any rich, 
 dry soil will grow cherries, but a sandy or gravelly loam or rocky situation 
 produces the finest fruits. In wet soils the cherry-tree is apt to decay 
 young; and if the soil is very rich, the young trees are apt not to ripen the 
 wood and therefore winter-kill the ends of the limbs and make scrubby 
 trees, or else produce more wood than fruit. It is well to set cherry-trees 
 for fruit on northern exposures, wherever they are apt to start very early in 
 the spring, as that is often fatal to the crop of fruit. This was almost uiii- 
 ■s ersally the case in the spring of 1861 in the vicinity of New York. 
 
 Pruning cherry-trees should always be done in midsummer, and but little 
 of it, only cutting out dead branches, or those that interfere. More harm 
 is done than good, as a general thing, by pruning. 
 
 It is believed that our cultivated varieties of cherries came from Asia, first 
 to Italy, and then to all other European countries. The name Cerasus comes 
 from the name of the place they were brought from into Italy, more than 
 liiilf a century before the commencement of the Christian era. Our stock 
 came over with the early immigrants from England, Holland, Belgium, and 
 France. 
 
 As a dessert fruit, cherries are everywhere esteemed, and are better to 
 eat out of hand than in any other way ; that is, the varieties that are not 
 only sweet, but lusciously so, rich and delicate, and the peculiar admixture 
 of sugar and acid is exceedingly refreshing. Cherries are also excellent for 
 culinary purposes, both fresh and dried. Some of the sorts are so particu- 
 larly applicable to the purpose that they are called pie cherries. 
 
 In Europe, intoxicating liquor is distilled from cherries. In Germany, a 
 very fieiy stuff, called kirschwasser, is made of Black Mazzard cherries, 
 ground, so as to break the pits, and the mass then fermented. 
 
 At Grenoble, France, a peculiar cordial is made of cherries, well known 
 by the name of ratafia. 
 
 In Italy, a celebrated liquor called maraschino, is made by mashing a 
 small Mazzard cherry and fermenting it with pulps, pits, and leaves mixed, 
 to wliich honey is added. 
 
 In this country the common wild cherry, both the black and choke va- 
 rieties, are used to make " cherry rum," which is done by filling a barrel 
 half full of liquor, and then adding whole cherries to fill it, and bunging 
 tight to stand a year or more. 
 
 The wood of the cherry is hard and durable, and when this country was first 
 settled, and large forest-trees of Cerasus serotina were abundant, the wood 
 
GOO THE OECHARD. [Chap. VI. 
 
 was extensively used for furniture and liouse-joiuery. One locality was so 
 celebrated for the abundance and size of these trees that the town took the 
 name of " Ciierry Valley" (N. Y.), by which it will be known long after 
 the origin of the name is forgotten. 
 
 The gum of the cherry-tree is much like the gum known in commerce as 
 gum-arabic, and is much esteemed by some for its medicinal qualities, and 
 is called rich in nutritive matter, though but seldom used for either of these 
 purposes. The cherry tree does not exude gum in large quantities while it 
 is in a healthy condition, and when it does exude copiously, it is generally a 
 sign of final decay. It is recommended to cut out gum spots when they 
 first make their api>earance upon young trees, being careful to injure the 
 bark as little as possible. We think it better to keep the bark clean by 
 good cultivation and in a healthj' state of growth. Trees may be much im- 
 proved by washing with soda or potash solution. Sometimes trees are hide- 
 bound, and are benefited by slitting the bark in midsummer. The boles of 
 cherry-trees sometimes burst by freezing. AVlien this happens, it is a good 
 plan to pare tlie edges of the bark in spring with a sharp knife, and plaster 
 the crack over with grafting clay (653). 
 
 Cherries and plums may be safely transplanted when they are two or three 
 j'ears old, but we prefer two-year-old trees to any others. 
 
 All of our stone-fruits are liable to produce gum from their wounds, and 
 this often prevents them from healing over, and the older the tree the more 
 liable it is to l)ecome diseased from its wounds. This can be seen by exam- 
 ining an old cherry-tree which has had a branch broken off; it takes a long 
 time to heal over, if ever, while on a young tree it heals over quickly, 
 scarcely leaving a sign of the accident. 
 
 S. N. Coats, in the Gardencr''s Monthly^ says it is reported on good evi- 
 dence that a cultivator of cherries has met with signal success by training 
 his trees with low heads, and at the approach of winter bending down the 
 lower tier of branches all around and covering them up with soil, having 
 the position of the tree so that no water can stand about it. At the ap- 
 proach of spring he removes the soil, and the work is done. It is stated 
 that not only the branches and fruit-buds covered by the soil, but those 
 left exposed to the winter's cold, are perfectly preserved fi'om' its effects. 
 
Sec. 39.] 
 
 VARIETIES OF PEARS. 
 
 601 
 
 SECTION XXXIX.-PEARS-SOIL, SITUATION, CULTIVATION, AND 
 VARIETIES. 
 
 "EARS may be named as tlio favorite fruit cf man- 
 kind. Tiioiigh not as universal as apples, nor 
 quite as much sought after as peaches in their short 
 season, tliey are everywhere appreciated as the best 
 standard fruit we have, and in some of tlie numerous 
 varieties having almost as long a season as the apple. 
 The wonder is that fanners do not pay more attention to 
 tlie production of such a ricli fruit — one that is not only uni- 
 versally a favorite on account of its pleasant taste, but one 
 that really affords a very cheap, healthy food, and can be 
 grown near a market town as a profitable crop. At least, 
 such is the opinion of a great many pear culturists, though 
 some other persons declare that pears, as a general thing, 
 can not be grown profitably. We thirds they can, and will 
 try to tell liow. In the first place, select good sorts. For 
 a small assortment, suitable for any farmer, the following list has been rec- 
 ommended by a competent committee for the vicinity of New York : 
 
 678. Varieties to Grow, and Cultivation. — Summer Pears. — Doyenne d'Ete, 
 Dearborn's Seedling, Beurre Giftard, Rostizer, Tyson. 
 
 Autumn. — Bartlett, Seckel, Beurre d'Anjou, Beurre Superfin, Doyenne 
 Boussock, Duchesse d'Angouleme (on quince), Flemish Beauty, Fondante 
 d'Automne, Speldoii, Urbaniste. 
 
 Winter. — Beurre Gris d'lliver Nouveau, Lawrence, Vicar of Winkfiekl. 
 
 Some of the committee were anxious to place the Beurre Bosc high on 
 the list of pears, and if it was uniformly as good with others as it always is 
 with Mr LLaycs of New Jersey and some few other cultivators, it could 
 with propriety head the list of late fall varieties. "VVe recommend all ama- 
 teurs to try this also, and if they succeed in bringing it to full perfection, 
 they will have a pear in size, beauty, and quality inferior to no other. 
 
 In the second place, give your pear-trees deep, generous tillage, by which 
 is meant a trenching and manuring of the soil from one and a half to three 
 feet deep. In other countries, where labor is cheaper and fruits dearer than 
 they are here, this work is often extended to a depth of four feet, receiving 
 a profitable return even from so small a fruit-bearing plant as the straw- 
 berry. It is from a want of such cultivation that the finest j)ear-trees taken 
 from our nurseries often die or come to nothing. The}' have "no deepness 
 of earth," " no root," and, as a natural consequence, they share the fate of 
 the wasted seed of the parable. 
 
 The following rules are also important : 
 
 1st. Cultivatinjr or mulching the surface around the trees for a distance 
 
602 THE OECHARD. [Chap. VI. 
 
 equal, at least, to the drip of their branches. But especial care shonkl be 
 laken to avoid the slightest bruising of the roots, and the mulch must not 
 be so thick and heavy as to smother them. 
 
 2d. Uiider-drainage, wherever the subsoil is of a retentive nature. But 
 all covered drains, whether of tiles or stones, should be not less than three 
 feet deep — no less than six or eight feet distant from the trunks of the 
 trees ; for many a fine tree set out directly above a shallow underground 
 conduit has been poisoned to death by the foul air therein contained. 
 
 3d. Thinning of the fruit, especially of the class of trees known as great 
 bearers. 
 
 Pruning may be performed at any season of the year ; but the best time 
 is believed to be about the longest days of summer, while the worst effects 
 tliat happen arise from using the saw or knife during the full flow of sap 
 in the spring. An exception, however, must be made in cases where it is 
 considered necessary to liead in a newly planted tree. 
 
 As to the kind of soil, almost any thoroughly drained soil will answer, but 
 a dry one is absolutely necessary. A true loam, or sandy one, if enriched, 
 will answer a good purpose. A rocky or gravelly soil, fertile for grass and 
 other farm-crops, is good for pears. A hillside is generally considered a 
 favorable situation ; and in all localities affected by late spring frosts, a 
 northerly slope is recommended, on acccunt of keeping back the buds, which 
 are apt to start during early warm days in southern exposures. 
 
 679. Rules for Pear Culturei — A cultivator of pears in Missouri gives the 
 following as his rules for pear cultivation. He says : 
 
 " In the fruit countries of old Europe, pears are generally more plentiful 
 than apples, and easier to raise. They will not do quite so well here, but 
 would do a great deal better if the following rules were observed, by fol- 
 lowing which I have no difficulty in raising sound trees that bear well, un- 
 less, perchance, a late frost or very heavy showers of rain injure the 
 blossoms. 
 
 " 1st. For position, I prefer the northern slope of a hill, otherwise the 
 northern corners of a fence running west and east. 
 
 " 2d. The soil should be rather heavy than light, yet permeable to a depth 
 of at least three feet or more ; not altogether wet, but not too dry. 
 
 " 3d. The growth of the pear-tree should be only moderately rank ; by the 
 end of June the young shoots ought to cease growing. Do not manure your 
 pear-trees nor stimulate their growth by much cultivation of the ground, 
 unless they appear to grow too poorly. Do not stir the ground or remove 
 the grass during hot and dry weather. 
 
 "4th. The lower the head is formed, the sounder the tree will be. Such 
 varieties as the Seckel, growing in the shape of a poplar, might liave their 
 lower branches one and a half feet from the ground ; others are best at three 
 feet. 
 
 " 5th. Bend the lower limbs toward the southwest, to make them fully 
 shade the trunk and ground around it. If that can not well be done, cover 
 
Sec. 39.] GROWING 'PEAnS. 603 
 
 the ground round the trunk witli half-rotten straw, and keep the trunk en- 
 veloped with straw, rags, or even paper during summer. 
 
 "6th. Do not trim much ; a hearing tree will generally help itself with- 
 out much pruning. 
 
 " 7th. In setting out your pear-trees, make a deep and wide hole, fill up 
 with ordinarily rich ground, then plant not deeper than the young tree had 
 been in the ground before. 
 
 " 8th. Urine is good manure for jjear-trees when applied in the winter 
 time. 
 
 " Fine pears can be profitably raised at a dollar a bushel. Plant Seckel, 
 White Doyenne, Kapoleou, Bartlett, Beurre Bose, etc., all good bearers, 
 and yielding delicious fruit. 
 
 " Thus far goes my experience in Missouri."' 
 
 Thos. W. Field, of Brooklyn, author of a work on pears, says : " Near 'New 
 York city we can not grow apples to any profit. So it is with every crop ; it 
 must be adapted to suitable soil and climate. Within fifty miles around New 
 York the pear grows to perfection, with the exception of a few kinds. The 
 pear-tree here has a great longevity. The peach is ephemeral. Apple-trees 
 endure in a scraggy form, but unproductive. Cherries and plums are short- 
 lived, while pear-trees are found everywhere al)0ut here of great size and ao-e." 
 
 680. Size and Improvement of Pears.— The original pear, like the apple, 
 was very unlike the improved sorts now known to us. Something like it 
 may be seen here and there growing in a semi-wild state, called choke 
 pears, a sort only eatable when cooked. 
 
 The pear has been a cultivated fruit a great length of time. It was so among 
 the Romans at an early period — so history tells us ; and it was also known 
 to Syria, Egypt, and Greece. Pliny speaks of numerous varieties, some of 
 which were, by his description, as delicate and agreeable as they are at the 
 present day. There were also early and late pears, some df which were used 
 for only baking. Probably the Romans did not better understand the art 
 of ripening pears in a fruit-room than most of our farmers, some of whom 
 have no idea that some pears, which are uneatable in autumn can be ripened 
 artificially into perfect lusciousness. 
 
 We knew an instance illustrative of this fact. A pear culturist saw a 
 farmer in jSTew York market with a couple of bushels of " winter pears," 
 which he recommended as "good for baking." Our friend saw at a glance 
 what these " winter pears" were, and bought the lot at a very low price, 
 because, as the owner said, " seems as though nobody wanted baking pears." 
 He had, however, met with a customer who did, and who paid him a dollar a 
 bushel and took them home and stored them in his fruit-room. In January 
 following he brought them to a Broadway fruit-dealer, and sold them by 
 count at a price equal to over $20 a bushel. So much for knowing what to 
 do with choice fruit. 
 
 Pear-trees do not appear to be native to this country, though flourishing 
 well in almost every locality, and sometimes attaining great age. The "old 
 
604 THE t)RCHARD. [Chap VI. 
 
 Stuyvesaiit pear-tree," still standing at the corner of Third Avenue and 
 Thirteenth Street, Xew York, lias borne several crops of fruit since it attained 
 the respectable age of two hundred years, having been planted by the old 
 Dutch Governor Stuy vesant upon his farm, tlien a long wa}' out of New 
 York city, or rather the little hamlet that has since attained to its city 
 dignity and size, and has absorbed the old governor's farm, and many others 
 miles farther from the starting-point at the old Battery. 
 
 There is a remarkable old pear-tree near Vincennes, Indiana, on the other 
 side of the Wabash. The trunk girts ten feet above the swell of the roots, 
 and more than half that nine feet above the ground, and it has yielded one 
 hundred and eighty bushels of pears in a single season, and every year gives 
 a great product of early autumn pears of fair quality; some who never 
 tasted better ones think them excellent. If the quality was like the Bart- 
 lett, Flemish Beauty, Seckel, or some other choice autumn pears, or Easter 
 Beurre, Do3'enne d'PIiver, Lawrence, Winter ISTelis, or other choice winter 
 pear.-^, which often bring $5 to §10 a bushel, what an enormous money pro- 
 duct this one tree would give its owner! And if other trees would not give 
 as much, it is certainly for the encouragement of all farmers to plant pear- 
 trees to know how long they will live, and how much they will produce in 
 quantity- and value. 
 
 In England, France, and Belgium, pears are largely grown for the same 
 purpose that cider-apples are here, the fermented juice, called Perry, being 
 much used as a beverage. The fruit is also dried, and extensively used as 
 an article of food. It is so, to a limited extent, in some parts of this country ; 
 and so it is for cooking in various ways, and preserving in air-tight cans, but 
 its great value is for a dessert fruit, and for this purpose none are suitable 
 but those sorts having a soft texture and buttery, melting flesh filled with 
 sugary juice and delicious aromatic flavor, of which we consider the Seckel 
 the type. 
 
 681. Wheu to Gather aud how to Ripen Pears. — One of the most common 
 mistakes with those who grow pears, particularly among farmers who have 
 not, as a general thing, studied much upon the subject, is in letting the fruit 
 hang upon the tree to ripen. With some of the best sorts of winter pears 
 this is simply impossible, and with nearly all of the best varieties it is im- 
 politic, because the fruit is far better when picked before it is ripe, and 
 mat«i"ed in the house. Of late many people have built fruit-rooms on pur- 
 pose to ripen the choicest varieties both of pears and apples. Some pears 
 that are almost worthless when allowed to hang ujson the tree, arc excellent 
 when artificially ripened. 
 
 The time to gather pears which are to be ripened in a fruit-room, or in 
 default of such a room, in a dry, sweet cellar, or in a cool upper I'ooni, may 
 be judged by Avatching for the ripening of those which have been injured 
 by worms and a few prematurely ripening specimens. Then all that appear 
 full-grown may be gathered and placed singly on shelves, or on the floor 
 of the room where they are to ripen. Sometimes the pears show maturity 
 
Sko. 39.] AVHEN' TO GATHER PEARS. 605 
 
 by a change of color, or by a disposition to fall from the twig upon a very 
 slight touch. Then, if taken into the house, they -will gradually attain their 
 proper ct)lor, and will possess a richness never attainable on the tree. Pears 
 ripened indoois will mature more gradually than upon the tree, so that you 
 will have the fruit in perfection nuich later. 
 
 Tiiere is another important advantage to be gained by this indoor ripening. 
 A thief will seldom strip a tree of hard, uneatable pears. He probably does 
 not know the art of ripening them, and if he does, has not the conveniences. 
 Besides, he has not the opportunity that the owner has to know when is the 
 proper time to gather them. The owner may therefore frequently save the 
 crop by his superior knowledge and ability to gather it while quite unfit to 
 eat, and ripen it in a safe store-room. 
 
 Some of the latest winter peai's, like late winter apples, should be allowed 
 to hang as long as tlie state of the M'eather will admit. The finest sort for 
 the table should be vei'y carefully handled, and wrapped each in a piece of 
 soft paper, and packed in barrels, or boxes of smaller dimensions than a 
 barrel, and stored in a dry room — not in the cellai- — just barely warm enough 
 not to freeze, where they should remain till about two M^eeks before the 
 time required for use, and then ripened in a warm room, keeping them 
 covered to prevent shriveling. In this way some pears, that are natu- 
 rally tough, become tender and delicious. When brought into a warm 
 room to finish ripening, the temperature should be kept at about 60 or 70 
 degrees. 
 
 There are some pears that may be gathered and treated exactly like winter 
 apples, and they will ripen just as well. The one called D'Aremberg is of 
 this kind. The Glou Morceau, Columlua, Redding, Easter Benrre, Char- 
 monte, and Vicar of "Winkfield grow well near New York, and there is no 
 difficulty in any farmer in AYestchester County producing fine crops of these 
 winter pears as easily as winter apples. 
 
 In sending pears to market, great care should be used in putting them up 
 neatly. 
 
 A person who grows pears some distance from this city had a quantity of 
 Louise Bonne de Jersey, which is only a second-rate pear, and he put them 
 up in such a neat manner, one dozen in a box, that they sold at .$.5 to $7 a 
 hundred. This shows how imjjortant it is to know how to put up fruit for 
 market. 
 
 682. Fears and Poultry. — There appears to be a coimection between pears 
 and poultry which is worth inquiring about. Messrs. B. & S. Beatty, of 
 Aurora, New York, have a very large poultry establishment ; they fatten 
 and prepare tuns of poultry for market every year. Of course they have a 
 good deal of the very best manure, the feathers forming no mean portion 
 of it. They grow, probably in consequence of using this manure, remark- 
 ably fine, large, rich pears ; and the richness of them is not the mos:: re- 
 markable thing, for some of the Seckels were the largest we ever saw, and 
 were, they said, a fair sample of many grown on two standard trees, standing 
 
606 THE ORCHARD. [Chap. VI. 
 
 near a stone ash-house, which consequently get plenty of alkalies. They are 
 also dug around and manured. 
 
 Does tlie keeping of lai'ge numbers of fowls have a tendency to lessen the 
 ravages of cuiculio ? Tliat is a question worthy of more attention. 
 
 683. Pear Blight. — That something to increase the production of this 
 valuable fruit is M'orth thinking about is very certain. The greatest difficulty 
 appears to be in what is familiarly known as ^)(?a?' hlight. This mysterious 
 disease of the jsear-tree has, so far, baffled all tlie arts of pear culturists, and 
 more than anything else has deterred men from extending their attempts to 
 produce larger quantities. 
 
 684. Seedliug Pears. — It is thought by some that if we should pay more 
 attention to seedlings we should be more free from disease. Independent of 
 this, there is great encouragement to grow seedlings, since some of our 
 valuable varieties are such. The Tyson pear was found in a hedge near 
 Jenkintown, Pennsylvania. It is thus described : 
 
 "Fruit small, roundish, jiyriform, irregular; color yellow, shaded red to 
 the sun, russeted, and numerous black specks ; stem long, slender, inserted 
 without depression ; calyx large, in a shallow basin ; flesh fine-grained, 
 sugary, melting, aromatic ; season, from the middle to tlie end of August. 
 Mr. Barry believes it to be a cross between the Madeline and Seckel." 
 
 A remarkably good summer pear, brought into notice within a few years 
 by Mr. Charles F. Erhard, of Ravenswood, opposite this city, on Long 
 Island, originated from a small tree found in the woods and transplanted to 
 the garden, where it fruited and proved one of the very best early sorts 
 known. It is smaller than the Seckel, but nearly as rich, and is a summer 
 pear, while that is an' autumn one. 
 
 685. Cau Farmers Grow Pears as a Profltable Crop ?— Lewis F. Allen, of 
 Black Rock', N. Y., has written a good deal in the Horticulturist and New 
 York Tribune to prove the negative of this question. He is a well-known 
 farmer, stock-raiser, and agricultural writer, and his opinions are entitled to 
 respect. He says : 
 
 "There are some localities in the country where the pear once flourished, 
 but now they have all, or nearly all, died out; and newly planted trees are 
 refractory, or, if growing for a few years, then dying away, and ])roving an 
 unprofitable object of cultivation. 
 
 ^'' Seco7id, There are certain localities in the United States where pears still 
 appear to be successful ; but those localities are limited in number, and no 
 one disposed to embark in pear culture should do so unless assured, from a 
 limited trial of his own, or the experience of others in that locality, that it 
 is favorable to their growth and longevity. 
 
 " Third, The dwai-f, or the pear worked on the quince to any extent, is a 
 recent introduction in this country ; and although millions of trees have been 
 propagated and sold by nurserymen, peai's are still scarce and dear fruit in 
 market, and not at all abundant on the tables of their cultivators. 
 
 ^^ Fourth, Although thousands of both, on their own stocks and on the 
 
Sko. 39.] IS IT PROFITABLE TO GROW PEARS? 607 
 
 quince, have been jjlanted in my own vicinity, I do not now know of a single 
 orchard of any size that has not proved a failure, so far as either profit or 
 general success is concerned. Such is the experience, not only in my own 
 neighborhood for many miles around, but in diiiereiit parts of this and other 
 States. 
 
 '''■ Fifrh, Some ten years ago, partaking of the entliusiasm which pre- 
 vailed for dwarf pear culture, 1 planted out an orchard of about six hundred 
 trees, togclher with a few hundred on their own stocks, or standards, on my 
 .Grand Island farm, situated in the Niagara River, and fronting it on the 
 east, about four miles from the outlet of Lake Erie. The land has been re- 
 cently (about twenty years) cleared from the original forest ; well elevated 
 (fifteen to twentj-'five feet) above the water, gently declining toward the 
 stream ; rich in phosphates, a clayey loam soil, the best possible for both 
 quinces and pears, each on their own stocks, and on which I had them, with 
 many apple-trees, growing successfully for some years ; the pear, however, 
 with the drawbacks already named. On this pear-orchard site I had pre- 
 viously cultivated in succession good crops of corn, oats, barley, wheat, pota- 
 toes, sugar-beet, mangel-wurzel, beans, carrots, and parsneps. It was well 
 surface-drained, naturally rich, and highly manured with barn-yard dung. 
 I obtained my dwarf trees from several diiferent nurseries — of a celebrated 
 Rochester one among others, to the number of one hundred and fifty, cer- 
 tain, if not more, good-looking trees. Some of the trees were unpromising 
 in appearance; some so-so; some very good ; but such as they were, with a 
 previous preparation of the ground with a well-cultivated potato crop, I 
 planted faithfully and well, imder my own immediate eye and hand. The 
 trees were properly pruned and cut back, both at root and top, according to 
 the authorities. The first year the trees, on an average, grew well, but few 
 dying. The next year more died, which I replanted with new trees from 
 the nurseries, some uf them imported, and said b}' the venders to be better 
 than those of domestic origin and growth. Some of the trees by this time 
 bore fruit, fair in appearance and quality ; and although I cultivated them 
 well, and according to the books, they still continued to die. The cause of 
 their death was an occasional ' fire blight' striking them promiscuously over 
 the field, yet often by a sort of bark and leaf blight, or canker, appearing 
 in black blordies, diseasing the bark, leaves, and twigs — at all events they 
 died, although they were hoed repeatedly, and manure was forked in, and 
 the ground turned up for several feet around their roots every year. In that 
 orchard, although but of six hundred living trees at any time, I planted out 
 about fifteen hundred while it lasted — that is to say, I replanted nine hun- 
 dred to keep the orchard. Some of the trees, of the first planted, grew well, 
 bore well, and flourished to the end. In short, they were a mixed-up collec- 
 tion of good, bad, and doubtful growth — all of the ' best' varieties in fruit, 
 and dying out in about like proportions of the various qualities, in appear- 
 ance of the trees as they came from the nurseries. To cut this long story 
 short, after about eight years of this point-no-point experience, in the fail of 
 
608 THE ORCHARD. [Chap. VI. 
 
 1855 the whole country became infested with myriads of field mice, and 
 during the succeeding winter immense havoc was made tliroughout the 
 nurseries and oi'chards by them, and they cut down nearly all my pear or- 
 chard, both dwarf and standard, and thus terminated my hitherto very 
 doubtful labors in that line ! 
 
 " Now M-hether, liad the mice let my trees alone, I should have reached 
 any final success, I do not know. I do not believe I should, judging by the 
 practice and experience of my neighbors since. I sold and marketed a good 
 many pears while my orchard existed ; but the price I obtained led me to 
 abate very much of my confidence in the public valuation of a good pear. 
 Three dollars a bushel is the highest price I ever knew the best Bartletts to 
 sell for. A'^irgalicus, which, by the way, are apt to crack and spot all over 
 the country, are scarcely worth four to five dollars when good ; and Seckels, 
 the best of all, though inferior in size and appearance, bring no more, on 
 account of their looks; and no better pears, in their season, than the above 
 three, are grown. 
 
 "I liave mentioned the apparent diseases which have killed the dwarf 
 pears, both my own and those whicli I have observed in other grounds, with 
 tlie exception that many of them blew down, being dislocated at the point 
 of junction on the quince stocks. But the gist of the want of success in the 
 culture of the dwarf, in my opinion, is this : 
 
 '^ Siact/i, A want of compatibility in tlie open-pored, thrifty wood of the 
 pear to unite with the close-pored, small wood of the quince. The pear, in 
 its natural estate, is a large tree, gi'owing, at full maturity, fifty feet high 
 and two feet and upward in diameter. Consequently, when the pear is 
 worked on tiie quince stock, and growing thriftily, as it does for a few years, 
 it tlien demands more sap than the quince root and stock can furnish ; it 
 then stops growing at all, or the growth is feeble and sickly ; and it is no 
 secret to say that when a young tree of any kind lacks for nutriment, 
 although it may, for such lack, go to bearing fruit, yet, if no young wood 
 can be formed to still grow on to its natural stature, such tree must, in com- 
 pliance with its pliysical nature, become diseased and die. It is an unnatu- 
 ral forced life which has been put upon it. Neither soil, climate, nor any- 
 thing else wliich man can do, can long perpetuate its existence. And 
 although extraordinary efforts or circumstances may prolong its life for a 
 few years on tlie quince alone, unless it can strike its own roots from above 
 the junction of the quince into the soil, so as to give it new expansion and 
 support, it must die. The opposite formations and natures of the pear and 
 quince refuse to join and become an inter-knitted wood, as the woods of two 
 varieties of the same species, as the apple, pear, or quince, separately, 
 will do when grafted or budded into each other ; and tiius the pear and 
 quince, so worked, years afterward, in most cases, will be found to be 
 only partially joined at the bark and a portion of the sap-wood, the body 
 of the dift'erent woods still preserving tlieir own difi'erent form and 
 habit. An occasional exception may be found in the case of a small-grow- 
 
Sso. 39.] CULTURE OF DWARF PEARS. GU'J 
 
 ing, close-grained pear-wood worked on a very tbriftj, open-pored quince, 
 but rarely. 
 
 " And this I conceive to be the grand difficulty and cause of disease and 
 death in tlie dwarf pear, and, of course, the want of success in their cultiva- 
 tion ; for they have been years cultivated in ground immediately adjoining 
 tiirifty growing and bearing pear and quince trees, standing on their own 
 roots, with not half the cultivation and pains given to the dwarfs, while the 
 latter have become diseased and died. Now, if the quince would grow and 
 thrive on its own roots and tops, why not on its own roots with a pear top, 
 if my theory is wrong? Analogous to working the pear on the quince is 
 the long-exploded practice of grafting or budding the pear on the common 
 wild thorn. It used to be practiced in old times, when, for a temporary 
 inirpose, our farmers wanted a pear in sliorter time than it would bear on its 
 own stock. But although they succeeded for a few years, they M-ere short- 
 lived and unprofitable. The quince, although fibrous rooted and more tena- 
 cious of life tlian the thorn, and therefore easier worked and transplanted, 
 I consider in the same category when permanent pear-orcharding is the 
 object." 
 
 There arc others who contend just as strongly that dwarf pears can be 
 profitably cultivated ; and one writer, who visited Mr. Allen's farm, insists 
 that he failed because the orchard was located upon the bleak eastern shores 
 (if Grand Island, in the Niagara Kivcr, on a level, stiflf agricultural clay that 
 liad never been under-drained, and probably, as it was recently-cleared forest 
 land, never deeply plowed, and so full of water that mosses and coarse sedge 
 grasses (calex) were found growing in the sod, and lichens upon the young 
 trees, and the recently turned-up earth dried in the sun almost as hard as 
 sun-dried brick. 
 
 Now let this fact be remembered by all who would grow pears, either as 
 dwarfs or standards, that land naturally cold must be warmed ; naturally 
 wet, must be drained — not upon the surface, but three or four feet below ; 
 naturally stiff land must be ameliorated, and made as friable for pears as for 
 garden vegetables ; and land naturally poor will not grow pears any more 
 than naturally ricli land will that is suffered to grow weeds and grass till the 
 life is choked out of the trees, or eaten out in winter by mice. 
 
 And let this other fact also be remembered, that signal failures liave 
 occurred, upon soil aj^parcntly suitable, with no lack of care and cult'vation. 
 
 The above facts and arguments in opposition to cultivation of dwarf jiear.^, 
 or, rather, both dwarf and standard, may be all facts at BuflFalo, and quite 
 the reverse at Boston, as the following statement from that vicinity will 
 show : 
 
 6S6. The Weight and Culture of Dwarf Pears. — "When we come to speak 
 of luscious pears weighing from half a pound upward, we are conscious of 
 presenting weighty arguments in favor of their culture. The merits of the 
 little trees which load themselves with fruit when they have scarcely a 
 growth shoulder high, are not appreciated by our farmers. If they were. 
 
610 THE ORCHARD. [Chap. VI. 
 
 we should not see so many risking all their chances for fruit on standard 
 trees that may bear in seven years or seventeen, as the case may be, when 
 they could have it in three or four from dwarfs. It will be a novelty to 
 most of our farmer friends, we presume, to learn that we have seen pears, 
 enumerated in the following list, sold to rich people at one dollar apiece, 
 and that it is quite a common thing for them to be sold at 18 to 25 cents 
 each. This enormous folly does not result from the extreme tenderness 
 and a necessary rarity of dwarf pears, but from the fact that the ease and 
 profit of their production are not fairly known. Generally speaking, it is as 
 easy to raise dwarf pears as apples ; while their early fruiting, and the 
 small garden space they require, commend them to the favorable notice of 
 the smallest landholder. It has often been asserted, and as frequently de- 
 nied, that dwarf pears weighing above tliree quarters of a pound are com- 
 monly raised. The Worcester (Mass.) Horticultural Society have settled 
 the question by the aid of steelyards. They took the fairest specimens of 
 several varieties shown at the fairs of 1850 and 1860, and found a marked 
 difference in their weight in the two years. It appears that this year, in 
 twenty-four sjjecimens, the aggregate gain since tiie former year has been 
 forty -seven ounces, or about two ounces to the pear. Of course, the remark- 
 able increase is in part owing to a very favorable season, but probably 
 much more to improved cultivation. 
 
 Weight in 1850. 1S60. 
 oz. oz. 
 
 Andrews 8.V 7 .J 
 
 Beune d'Anjou lO" 1 1 { 
 
 Beurre Clairgeau 12J 14 J 
 
 Beurre Gris d'Hiver 7| 10' 
 
 Beurre Montgeron 5 Of 
 
 Beurre Bosc 8 9| 
 
 BeuiTe Diet lU 15 
 
 Beurre Langelier 5" 8i 
 
 Belle Lucrative 8 10| 
 
 Buffum 5 6i 
 
 Doyenne de Cornice Git Ill 
 
 Doyenne Boussocli 9' 14" 
 
 Weight in 1850. 1860. 
 
 Duchesse 12 1 8i 
 
 E;ister Beurre 7 10 
 
 B^ulton 4 5 
 
 Flemish Beauty 12 13 
 
 Gansel's Bcrgamot 5 7} 
 
 Glou Morceau 9 12.; 
 
 Henry IV 4J 5" 
 
 Paradise d'Automne 5 6} 
 
 Seckel 3J 4J 
 
 St. Michael 6 6* 
 
 Urbaniste 9 10 
 
 Winter Nelis 5 J 5.V 
 
 "Three varieties only of acknowledged merit were exhibited in 1860 that 
 were inferior to the specimens of 1850, viz., Duchesse d'Orleans, Sheldon, 
 and Zcpherin Gregoire. 
 
 " The following is the weight of a few other leading varieties exhibited 
 that year, of which no specimens were shown in 1850 \vorthy of particular 
 notice. Several of them have probably seldom, if ever, been surpassed : 
 
 Lawrence (i.V 
 
 Marie Louise 8| 
 
 Swan's Orange 14{ 
 
 SieuUe 9J 
 
 Bartlett 12 
 
 Beurre Nantais 83 
 
 Beurre Superfin 1 3.j 
 
 Dix 
 
 St. Michael Archange 7 J 
 
 687. List of Pears for Cultivation. — "We copy the following list from 
 "Downing's Fruits and Fruit-Trees," as a guide for persons desii-ous of 
 making up a good assortment, ripening in succession from harvcsNtinie till 
 spring, the winter pears, of course, being carefully stored for ripening. 
 
Seo. 39.] LIST OF CHOICE PEARS. 611 
 
 "Pears to Ripen ifi Succession from, July to April. — Doyenne d'E'e, Made- 
 line, Bloodgood, Dearborn's Seedling, Beurre Gitford, Rostizer, Ott, Bart- 
 lett, Tyson, Osbands' Summer, Belle Lucrative, Flemish Beauty, Beurre 
 Bosc, Doyenne White, Doyenne Boussock, Beurn5 d'Anjou, Seckcl, Urba- 
 niste. Church, Beurre Diel, Dix, Beurre Langclier, Lawrence, Winter Nelis, 
 Beurre d'Arcmberg, Beurre Gris d'lliver, Nouveau, Easter Beurre. 
 
 '■'■ Pears for a Cold Cliinatc. — Doyenne d'Ete, Bloodgood, Rostizer, Ful- 
 ton, Heathcote, Buffum, Benrre Bosc, Flemish Beauty, Louise Bonne de 
 Jersey (on quince). Belle Lucrative, L^rbanis'e, McLaughlin, Dix, Beurre 
 Diel, Bcune d'Amanlis, White Doyenne, Lewis, AVinter IS^elis, Prince's 
 St. Germain, Glou Moreeau (on quince), Jaminette, Vicar of Winkfield, 
 Doyenne d'lliver, Nouveau. 
 
 " Pears for Dwarfs on Quince <StocA'.s.— Belle Lucrative, Beurre d'Aman- 
 lis, Beurre Diel, Beurre Langelier, Beurre d'Anjou, Duchesse d'Angoi;- 
 lenie, Doyenne d'Ete, Doyenne Boussock, Easter Beurie, Figue d'Alen^on, 
 Glou Moreeau, Louise Bonne de Jersey, Napoleon, Nouveau, Poiteau, Ros- 
 tizer, Soldat, Laboureur, St. Michael Archange, Urbaniste, Uvedale's St. 
 Germain or Pound (for baking). Vicar of Winkfield, White Doj'enne." 
 
 A list of pear-trees of fine appearance, of vigorous growth, ||f a natural 
 pyramidal shape (or easily kept in that form), of good bearing disposition, 
 with fruit of good or best quality ; in a word, best adapted to a lawn or 
 garden walk, where ornament and beauty are required, as well as the more 
 essential qualities of a pear-tree, given by Louis E. Berckmans : 
 
 Beurre Langelier, Beurre Superfin, Belle Lucrative, Esperine, Fig of 
 Angiei's, Glou Moreeau, Nouveau, Poiteau, St. Michael Archange, Ur- 
 baniste, Vicar of Winkfield, Andrews, Buffum, Belle Epine, Dun^as, Cap- 
 sheaf, Frederika Bremer, Kingsessing, Lawrence, Onondaga, Oswego Beurre, 
 Sterling, Walker. 
 
 With the above lists always at hand for reference, no one can be at a loss 
 what to select so as to make a good assortment either for family iise or to 
 grow as a crop for market. If you liave room for only one tre.e, you may 
 safely choose the Bartlett. For a second sort, take the Seckel. The best 
 early pear is the Rostizer, and perhaps next best. Dearborn's Seedling. The 
 Flemish Beauty is an excellent pear, and the trees hardy, and good bearers. 
 Winter pears will not give as general satisfaction to farmers as summer and 
 autumn ones, because they really require a good deal of skill and exjierieuce 
 to riDsn thena to perfection. 
 
612 
 
 THE ORCHARD. 
 
 [Chap. VI. 
 
 SECTION XL-PLUMS, NECTARINES, APRICOTS, MULBERRIES, AND 
 OTHER FRUITS-TRANSPORTING FRUIT. 
 
 HE parent of onr cultivated jjlums came from Asia and 
 the soutli of Europe, and as iLis fruit lias almost ceased to 
 a, J pay for cultivation on account of disease and insects 
 Y^ wliicli infest tlie trees, it is matter of interest to in- 
 ^^ quire whether we should not look to llie sorts native 
 to American soil and flourishing in a wild state from Maine to 
 Florida, and up to the Lakes and over the Rocky Mountains. 
 There are three principal varieties of wild plums in this 
 country, all of which are good, tliough not as good as tlic 
 improved sorts in cultivation. They are named and de- 
 scribed by Downing as follows: 
 
 " I. The Chickasaw Plum {Prunus Chicasa, Michanx), 
 Fruit about three fourths of an inch in diameter, round, and 
 red, or yellowish red, of a pleasant, sub-acid flavor; ripens 
 pretty early ; skin thin. The branches are thorny, the head rather bushy, 
 with narrow lanceolate, serrulate leaves, looking at a little distance some- 
 what like those of a j)each-treG. It usually grows about twelve or fourteen feet 
 high, but on the prairies of Arkansas it is only three or four feet high, and 
 in this form it is also common in Texas. The Dwarf Texas Plum, described 
 by Kenrick, is only this sjiecies. It is quite ornamental. 
 
 " IT. Wild Eed or Yellow Plum {P. Americana, Marsliall). Fruit round- 
 ish oval, skin thick, reddish orange, with a juicy, yellow, sub-acid pulp. 
 The leaves are ovate, coarsely serrate, and the old branches rough and some- 
 what thorny. Grows in liedges and l)y the banks of streams from Canada 
 to the Gulf of Mexico. Tree from ten to fifteen feet high. Fruit ripens in 
 July and August. 
 
 "III. The Beach Phim, or Sand Plum {P. maritima, Wang). A low 
 shrub, with stout, straggling branches ; found Uiostly on the sandy sea-coast 
 from Massachusetts to Virginia, and seldom ripening well elsewhere. 
 Fruit roundish, scarcely an inch in diameter, red or purple ; covered with a 
 bloom ; ideasant but somewhat astringent. Leaves oval, finely serrate." 
 
 688. Soil, Climate, and f ultivatioii for Plums.— That the soil and climate are 
 well adapted to the growth of cultivated plums is fully proved by the natural 
 growth of these wild sorts, and if we could get rid of the enenries of the 
 plum, we could raise all that could be eaten fresh, and a great surplus for nse 
 dry, or for exportation in the form of what are called "prunes"— that is, 
 dried plums. 
 
 Unlike pears, plums should be fully ripened on the tree, whether for eat- 
 
Sec. 40.] CULTIVATION OF PLUMS. 613 
 
 iiig out of hand, or drying, or making into sweetmeats. For drying, the 
 phims are halved, the stone extracted, and the fruit dried in the sun, or iu 
 slow ovens, or a drying-room. Sec 349. 
 
 Prunes are largely imported into America, principally from Fiance, tlie 
 best coming from tlie neighborhood of Tours, made of tiie St. Catherine 
 plum, and Prune d'Agen, and Perdrigon Blanc, the Brignole, and Prune 
 d'Ast. The plums are allowed to ripen on the trees until they will fall upon 
 being lightly shaken. Tiic plums are laid upon wicker-work forms in the 
 sun several days, which softens them, and then shut up in a spent oven 
 twenty-four hours, and then taken out and the oven re-heated, and as they are 
 now considerably dried they will bear a greater heat, and this is again re- 
 peated witli increased heat. What is termed "rounding," which gives the 
 prunes of commerce their particular form, is done after drying, though wliile 
 still soft, by turning the pit half round by the fingers, without breaking the 
 skin, and pressing in the long ends by a pinch between the thumb and 
 finger, after which they are dried and packed. 
 
 In picking the finest kind of plums for the table, the French are very 
 particular not to touch tlie fruit. Each one is broken off from the twig by 
 the thumb and finger, and laid upon vine-leaves in a broad basket, so as not 
 to touch each other. Care is taken to pick them a day or two in advance 
 of using, and tlie early morning hour is selected, so as to jireserve tlie 
 bloom. In the fruit-room they grow mellow and attain the highest per- 
 fection. 
 
 The propagation of fine varieties is generally rather difficult, except by 
 experienced nurserymen. The pits of wild plums, or those of any free- 
 growing sort, are planted while fresh in beds (damsons are not free-grow- 
 ing), and the next year the largest jjlants are transferred to nursery-rooms, 
 first reducing tops and the tap-roots. The following July tliese may be 
 budded. Insert tlie buds on the north side of the stock, and tie light, and 
 do not be disappointed if half do not grow. 
 
 Plum-trees require but little pruning, but the fruit is always improved by 
 thinning Out. 
 
 The best soil is rather a heavy loam, and the trees flourish well upon the 
 banks of ponds and streams, and some suppose that in such situations the 
 fruit escapes the curculio. It is a general opinion that curculios are much 
 more troblcsome on sandy soils than upon soils of a more compact nature ; 
 and it is asserted by some that a close pavement under a plum-tree is tlie 
 best remedy for this pest. 
 
 One of the best manures for plum-trees is salt-water marsh-mud. In the 
 absence of such, the mud of a fresh swamp may be beneficially used, with 
 an addition of salt, at the rate of from half a peck to a peck to e;;ch tree. 
 This should be applied in winter or early spring. 
 
 Seedling plums of such rare excellence have been so often produced, 
 that we recommend every one who succeeds in growing them to plant 
 every year a few seeds, and nurse the plants up to a period of fruit-bearing. 
 
614 THE ORCHARD. [Chap. VI. 
 
 It is possible you may get a seedling not only of good quality, but one not 
 so liable to be destroyed by tlie little beetle called plum-weevil, or curculio, 
 against whicli no certain remedy has been discovered, though several " in- 
 fallible" remedies have been from time to time published, the best of which 
 is to spread a sheet under tlie tree, and then by a sudden jar, as by a stroke 
 of a mallet, shake down tlie insects, and gather and burn them. This rem- 
 edy, to be effectual, must be continued every day for at least a month, and 
 perhaps all the months of May and June. 
 
 Making tiie plum-orchard a pig and j^oultry-yard in the same inclosure is 
 recomn:ended as one of the best preventives of curculio. 
 
 Covering the ground with a thick coat of clay mortar, and picking up all 
 the fallen fruit and destroying it, is highly recommended. 
 
 Lime and sulphur is another remedy. To a barrel of -whitewash add 
 eighteen double handfuls of sulphur, and apply the liquid with a syringe to 
 the trees as soon as the fruit is set, and continue to apply it every two or 
 three days for four or five M-eeks. 
 
 The black knot, which so disfigures plum-trees, it is pretty well settled, 
 arises from this same insect, so tliat any remedy that Avill save the fruit will 
 also prevent the appearance of the black knot. 
 
 GSD. Selection of Choice Varieties of Plums.— The list of really good plums 
 has become so large, that one needs some guide in making a selection. The 
 following list is given from good authority (Downing) : 
 
 Eivers' Early Favorite, Green Gage, Imperial Ottoman, Jefferson, 
 Lawrence's Favorite, Purple Favorite, Purple Gage, Coe's Golden Drop, 
 McLaughlin, Imperial Gage, Howard's Favorite, Prince's Yellow Gage, 
 Prune d'Agen, Peine Claude de Bevay, Schuyler Gage. 
 
 The most popular, and for substantial reasons, of all the list is the Green 
 Gage. It is high-flavored, and everywhere esteemed. It is one of the old 
 sorts, having been named Queen Claude, in France, in the reign of Francis 
 I., say about 1520. It took the name of Green from its color when ripe, and 
 Gage from an English family of that name, who introduced it from the 
 gardens of the monks of Chartreuse. It afterward acquired the title of the 
 " Best Plum in England." The fruit is hardly medium size, round, with a 
 yellowish-green skin, often dotted red at full maturity. The suture is 
 faintly marked, the stem slender, slightly inserted, less than an inch in 
 length. The flesh of the plum is also of a pale-green color, and separates 
 freely from the stone, and is juicy, melting, luscious, sprightly, and ripe in 
 August. 
 
 There are many seedlings of the Green Gage, none of which are superior 
 to the original. 
 
 Some of the other favon'tes named in the list are larger ; for instance, 
 the Golden Drop, which is a very large plum, oval-shaped, and yellow in- 
 side and out, and of a rich flavor, rijjening here the last of September, and 
 not sure to ripen much north of this. 
 
 The Jefferson plum, which originated with Judge Buel, at Albany, is one 
 
Seo. 40.] PLUMS AND OTHER FRUITS. 615 
 
 of very large size, and of such excellent flavor that none but connoisseurs 
 would be able to say it was inferior to the Green Gage, and on account of 
 its superior size it is always more attractive. The skin is golden-yellow, 
 with purple-red cheek, and flesh deep orange, parting freely from the stone, 
 and rich, juicy, luscious. 
 
 690. Graftiug Wild Stocks. — This is worth while in many places where 
 wild stocks are plenty. In the report of the "Wisconsin Fruit Growers' 
 Apsociation, John C. Kanouse gives his experience as follows upon this 
 subject: 
 
 "1. Grafting English plums upon native sorts renders them nmch more 
 hardy and less liable to injury by our severe winters. 
 
 " 2. They will fruit from two to three years earlier than when grafted on 
 the English stock. 
 
 " 3. The fruit is less liable to injury ; the crop more certain. 
 
 " This practice has one disadvantage, viz., the tree will be somewhat dwarfed. 
 This can be remedied by planting more of them. My method of cultiva- 
 tion is as follows — 
 
 '■Early in the spring I go out in the forest and take iip the native plum, 
 about one inch in diameter, being careful to take as much of the root as 
 possible uninjured. Cut off" the tops, then take the roots home; then, with 
 a fine saw, take ofl" the body about an inch al)ove the roots, insert the scion, 
 and then set them out where I intend to have them fruit. The scions should 
 be of the present year's growth, and one of the buds must be under the 
 ground. If the scion dies, still the root is sure to sprout, and then you can 
 bud the sprout the next year. If you desire fruit the second year from the 
 scion, select large trees, take them up with great care, and graft in the top; 
 but these you will be likely to lose with high winds, etc., and yet this 
 practice will abundantly repay any man on a new farm. By staking the 
 scion he may have fruit for two or three years, and then his others, grafted 
 at the ground, will take their place." 
 
 COl. Apricots. — AYe do not recommend this fruit for general cultivation hy 
 farmers, particularly where they fail with peaches and plums ; for there they 
 would surely fail with this more delicate fruit. The apricot-tree grows 
 handsomely, twenty feet high, flowering very early, and is highly orna- 
 mental in flower, foliage, and fruit. It is liardy enough to produce fruit be- 
 low 42^, if the insects would allow it. The fruit is smooth-skiimed, and 
 peculiarly attractive to curculio. The color when ripe, at midsummer, is a 
 beautiful ruddy gold. It is quite delicious, of a peacii flavor, and, ripening 
 between cherries and plums, would be very acceptable. In countries where 
 it does flourish it is used for a dessert fruit, and for sweetmeats, and pre- 
 served in spirits, and also for drying. 
 
 It is generally propagated by budding on plum stocks, though many good 
 fccedlings are grown, which appear to be more hardy and productive than 
 the finer sorts which have been imported. It bears fruit in the same way as 
 the peach, and may be treated in the same way, though it is more commonly 
 
616 THE ORCHARD. [Ciiap. VI. 
 
 grown as an espalier, trained upon a trellis or brick wall. It should not be 
 exposed to the morning sun, for fear of encouraging the buds to start too 
 early in spring. The apricot is a very common fruit in Arabia, China, Ja- 
 pan, and other Eastern countries, and would be here, if we could get rid of 
 the destructive curculio. 
 
 There are about twenty named apricots grown in this country, out of 
 which you may select the Large Early, the Breda, Peach, or Jloorpark for 
 family use; or if j'our situation is pretty tar nortli, take the Red Masculine, 
 Roman, and Breda ; but do not tiiink of getting a crop without a continual 
 fight for it with insects. 
 
 Tiiere is a double-flowering apricot used for an ornamental tree in Europe, 
 but not very common in tliis country. There is another tliat is grown for 
 its ornamental fruit, which resembles a small, yellow plum, growing very 
 abundant, in clusters. 
 
 692. The JVectariue, an India fruit, is simply a wild variety of peach, 
 growing small and smooth-skinned, of a piquant flavor, exceedingly liable 
 to be destroyed by curculio, but is a very popular dessert fruit, when it can 
 be produced, from its beauty, being of such a wax-like appearance. The tree 
 grows anyM'here that the peach-tree flourishes, and if the fruit is not de- 
 stroyed, there is no trouble in getting as certain crops of nectarines as of 
 peaches, and the culture is exactly the same. 
 
 The Early Violet, Roman, Boston, New White, and Ilardwicke's Seedling 
 may be taken as a good assortment for a garden. 
 
 693. Mulberry Fruit. — A new mulberry has fruited in England, which is 
 called the " Synion Sweet White Mulberry," that is very highly spoken of, 
 the berries being very sweet, and growing as large as the common black 
 mulberry, this being of a pearly white. The foliage of the tree is also said 
 to be very beautiful. 
 
 The tree may be beautiful, but if the fruit is better than "Downing's 
 Seedling Mulberry," it is remarkable, for that is very richly worth cultiva- 
 tion, being very fruitful, and bearing a long time. Tiie fruit is much richer 
 than the fruit of the common purple or wild mulberry, and more than twice 
 the size, and it is really a very pleasant fruit to cat out of hand, and it pos- 
 sesses excellent qualities for cooking — in a pudding, better than any oiher 
 berry. The tree grows in quite an ornamental form, with rich foliage, and 
 when filled with its purple fruit is beautiful. 
 
 094. Pawpaws. — It is a wonder that pawpaws are not cultivated, or at 
 least preserved from annihilation, in the great regions of the West, where 
 they were found growing wild in great abundance. The fruit is sometimes 
 called the American custard-apple, on account of its resemblance, when per- 
 fectly ripe, to a rich custard, as the mellow pulp within a tough skin is 
 opened to view. 
 
 Pawpaws are a feature of the St. Louis market; huckster-stalls and fruit- 
 shops all having them for sale in abundance. They are nearly, if not quite, 
 as good as bananas. Some people prefer them to bananas, or even any other 
 
Sec. 40.] PACKING AND TRANSPORTING SMALL FRUITS. 617 
 
 fruit. We think they could be growu in anj' garden soufii of lat. 41°. They 
 flourish best in shaded places, upon rich bottom lands of Ohio, Kentucky, 
 and other Western States. The natural gi'owth is about as large as quince 
 bushes, usually branching in several shoots from one root, and in appearance 
 are not unlike a bunch of young chestnut sprouts around an old stump. 
 
 C05. The MangostecH. — This is the name of a tropical fruit that has been 
 lately perfected in English hot-houses, and is attracting some attention in 
 this country, on account of its very peculiar character, it having a thick, 
 succulent rind that is so astringent that it is used as a medicine for dysen- 
 terj', and whicli exudes a yellow gum in M'et ■weather that resembles gam- 
 boge. The fruit is of a spherical form, of the size of an orange ; Avhen young 
 it is of a reddish green color; when ripe, of reddish brown ; and when old, 
 of a chestnut brown. The pulp has a snowy whiteness, melting in the 
 mouth, with a refreshing, delicious flavor. The seed-lobes separate like those 
 of an orange. 
 
 69C. The Jujube Fruiti — This is another tropical fruit, though it has been 
 grown in Georgia, and maj'' become acclimated farther north. The fruit re- 
 sembles a plum, and, although not so much prized aa a dessert fruit, is con- 
 sidered valuable where it grows, because it furnishes the material for the 
 well-known jujube paste. 
 
 The seeds were imported from the south of Europe for experiment in the 
 Southern States. The tree grows in the form of a shrub of middle size, bear- 
 ing a red, oval fruit, about as large as olives, inclosing a stone of the same 
 shape. The fruit is sweet, but not eaten among us out of hand. In Algiers 
 the fruit ripens in the month of June, and is much sought after by the in- 
 habitants, who consume large quantities, both fresh and dried, as well as in 
 the form of a delicious paste. 
 
 G97. Small Fruits for Field Culture. — What we have said in Section 
 XXXI \^., about the cultivation of blackberries, raspberries, strawberries, 
 and cranberries, is applicable in a general sense to their more extended cul- 
 tivation in large fields, as a farm crop, where the farm is situated within easy 
 reach of a market. What the distance must be to bring it within easy 
 reach of market depends entirely upon the facilities of transportation. We 
 will state a few facts which will enable readers to judge for their particular 
 cases, whether they can send their fruit to a city market. 
 
 For a number of years previous to the rebellion, the New York mar- 
 ket was regularly supplied with strawberries from Norfolk, Va., via Balti- 
 more, and by steamers direct. For several years, strawberries have been 
 sent to New York from Albany; and the present 3'car, from Pittsburg, a 
 passage of 18 hours by rail. This is the longest transportation of such a 
 tender fruit within our knowledge. 
 
 Every year of the last five or six, since people learned that it could be 
 done, blackberries and raspberries are brought from i>0 to 150 miles by rail 
 h this market. 
 
 Grapes, if properly packed, may be transported still greater distances, as 
 
618 THE ORCHARD. [Chap. VI. 
 
 peaches, pears, and other perishable fruits are. The greatest difBculty in all 
 transportation of fruit is in its preparation. 
 
 In no art are we more deficient tlian that of packing fruit so that it may 
 be carried a long distance without injury. Three fourths of all our summer 
 fruits sent to market any considerable distance are more or less injured. 
 Indeed, much that is brought to cities by growers only a few miles distant 
 is scarcely fit for sale. Occasionally fruits are sent us. Math a request to ex- 
 hibit them at our horticultural shows, but in most cases the specimens are 
 60 injured when received as to be entirely unfit to show. 
 
 698. How to Pack Fruit for Transportation. — As no person can enter into 
 the business of field culture of small fruits with any hope of success, unless 
 he fully understands the art of transportation, we will give some general 
 rules ; and first those adopted by Mr. Kidd, gardener to the Marquis of 
 Breadalbane, who sends fruit and flowers from the garden near Hampton 
 Court, England, to the Highland residence of the Marquis, subject to SOU 
 miles' carriage ; yet his method of putting them up insures their safe trans- 
 portation and' arrival in almost as sound and fresh condition as when first 
 gathered. Eipe tomatoes, for instance, which are as diflicult as almost any 
 article to transport, arrived in a perfectly sound condition. 
 
 He gives his method of packing fruit as follows : " I have found no better 
 method in all my experience, which has extended over a pei'iod of twenty 
 years, with all kinds of fruit, varying in distance from 50 to 500 miles. It 
 simply is — box, soft paper, and sweet bran. A box is chosen, in size, accord- 
 ing to the quantity to be sent. A layer of bran is put at the bottom ; then 
 each bunch of grapes is held by the hand over the center of a sheet of 
 paper; the four corners of the paper arc brought up to the stalk and nicely 
 secured ; then laid on its side in the box, and so on until the first layer is 
 finished ; then fill the whole over with bran, and give the box a gentle shake 
 as you proceed. Begin the second layer as the first, and so on until the box 
 is completed. Thus, with neat hands, the bloom is preserved, and may be 
 sent to any distance ; but witii clumsy hands, quite the contrary, and often 
 an entire failure, as the putting in and taking out of the box are the most 
 important points to be observed. I have, invariably, packed sixty or eighty 
 bunches of grapes and fifty or sixty dozen of peaches or apricots in one 
 box, and received letters from employers to say that they have arrived as 
 safe as if they had been taken fi'om the trees that morning." 
 
 "We commend this plan to all fruit-growers in this country. 
 
 K fruit- carrier was patented a few years ago, which appears to us like a 
 useful aid to the transporters of tender fruits. A frame of any given size is 
 made to surround the box or crate containing the baskets of fruit, say about 
 eight inches larger than the box. In this frame the box is suspended by 
 gum-elastic straps, which sustain it in the air, never touching any hard sub- 
 stance, bottom, or sides. To illustrate: Take the frame of the lower part of 
 a common kitchen chair, without the bottom, and a box, the cube of which 
 is some inches less than the space within the frame, and suspend that by two 
 
t^Kc. lu.j PACKAGES FOli bMALL FKUITS— FIGS. 619 
 
 strings from the top round upon each side, and then attach two other strings 
 to each side of the box and the lower rounds. jSTow place something in the 
 box, and take hold of the frame and shake it, and you will see that the jar 
 is far less upon the articles in the box than it would be if the shaking was 
 applied directly. With such an easy carrier as this, and such packing as 
 Mr. Kidd recommends, we believe that the softest fruits might be as safely 
 carried 500 miles as they could one mile in the rough way they are too fre- 
 quently brought to market. 
 
 Tlie neatest small fruit basket is one known as Cook's patent, inade to hold 
 exact pints and quarts. Those of quart size are 3i inches across at bottom, 
 and 5i at top, and 5 inches high. One is made of eight pieces of stuff nearly 
 an inch and a quarter wide, and a full sixteenth of an inch thick, cut into 
 four strips at top and over half the length, so as to allow spreading equal!}'. 
 They are fastened to a wooden bottom, which has a hole in its center, by 
 tacks driven through a baud of tin about one fourth inch wide, and the tops 
 are held iirmly in place by a strip of tin put on like binding over the edge 
 of cloth, and crimped hard upon the wood, making a smooth, neat finish, 
 and baskets cheap and durable. Of course, the work is all done l)y inge- 
 nious machinery, contrived especially for the purpose, and the baskets are 
 put up in convenient-sized crates for transportation ; that is, 56 quarts or 112 
 pints in a crate, which, being made with openings at the sides, allows a free 
 circulation of air among and through the baskets, which is considered better 
 than tight boxes for all kinds of beri'ies. 
 
 The great desideratum, however, is a basket made so cheap that it could 
 be sold with a quart of berries for a cent or less, so that it would not be 
 necessary to return it. The same plan is now pursued with honey, Mhich is 
 stored in cheap boxes, "which are sold with the contents. 
 
 Such baskets, we believe, can be make of shavings cut just -wide enough 
 to form one side of a basket, and laid two strips across, when the ends being 
 turned up and fastened, would form a square box or basket of sufficient 
 strength for the service required. 
 
 "Wild blackberrries, which have oecome an extensive article of traffic in 
 the New York fruit market, are generally picked in square wooden boxes, 
 of the capacity of a quart, and these are packed in the field in crates of one 
 to four dozen, which are carried directly to the retailer, so the berries are 
 not disturbed until required by the consumer. All berries, however packed, 
 should be handled no moi-e than what is barely necessary between the picker 
 and consumer. 
 
 Blackberries and whortleberries are frequently brought to market in bulk, 
 and are often in a musty condition before they reach the consumer. It is a 
 poor way to send any kind of fruit to market. Every kind of berry should 
 be put up in just such sized packages as families usually buy, and these 
 should go undisturbed to the very tables of the consumers. It is on this 
 account that we hope yet to see baskets or boxes made so cheap that the re- 
 tailer would not desire to empty them before sending the contents to his 
 
C20 TUE OKOUARD. [Chap. VI. 
 
 customers, knowing, as lie generally does, that it is about au even chance 
 that a buyer will not return the basket. 
 
 699. Figs — Where aud How they Grow. — Figs grow in almost all countries 
 with a semi-tropical climate. In the southern portion of all the Southern 
 United States they flourish as well as peaches, and, with moderate winter 
 protection, as far north as New York, figs have been ripened j'ear after year, 
 but they do not possess the excellence of those grown in a warmer climate. 
 Figs are' natives of Asia and Africa, where the tree grows in the form of a low 
 spreading peach-tree, some twenty feet high. The leaves of a fig-tree are 
 rough, deeply lobed, and not unlike those of the sycamore in size, and some- 
 what in appearance. The most curious thing about a fig-tree is that it ex- 
 hibits to the casual observer no appearance of blossoming. The flower and 
 fruit are united — that is, the former, such as it is, is concealed in a fleshy 
 substance which grows at once into fruit, which, in its ripe state, just plucked 
 from the tree, is as unlike its dried representative as a dried peacii is unlike 
 the luscious fruit we eat out of hand in the peach-orchard of choice fruit. 
 
 The fig-tree has become so completely naturalized in the south part of 
 Europe, that the cultivation of its fruit forms an important occupation of 
 many inhabitants. It is one of the most popular market fruits in all coun- 
 tries where it grows freely, and forms an article of food to a large extent, 
 and has been the longest in cultivation of any fruit known to us. The 
 Homans had some dozen or two varieties ; the first introduction of figs into 
 Italy being about the year IS-tS. It was brought to the United States in 
 1790, and spread rapidly, being easily propagated by cuttings taken off in 
 spring and planted in a mellow soil naturally calcareous, or made so by the 
 addition of lime. In the Middle States, fig-trees should be grown in the 
 form of low shrubs, easily covered in winter, and kept carefully root- 
 pruned to prevent too much growth of wood. It is possible that by pur- 
 suing this course, a hardy sort of figs may be acclimated gradually north- 
 ward, just as sweet potatoes have been. In truth, the peacli was once 
 thought to be as much a tropical fruit as the fig is now. Of course, we can 
 expect but one crop a year ; in warm climates the tree gives two crops. In 
 unfavorable seasons the ripening of figs is hastened by inserting a drop of 
 sweet oil in the eye of the growing fig by using a rye straw dinued in oil, 
 and thus carrying a drop to the eye of the fruit. 
 
 The best varieties for open culture in this country, except at the extreme 
 South, are the Brown Turkey fig, Brown Ischia, White Ischia ; tlie hitter a 
 very small sort, growing about one inch in diameter. Loudon says, a fig 
 called Nevil is the richest one grown in England. One called Pregussata, 
 appears to he the favorite for growing under glass. 
 
 We recommend all who live in latitudes where figs' can be grown easily, 
 or by a little extra care, not to neglect trying to produce enough at least 
 for family use. One friend assures us that he can grow figs at New York 
 as easily and surely as he can the choice kinds of raspberries. Let us all try. 
 
Seo. 41.] MISCELLANEOUS MATTERS ABOUT FRUIT CULTURE. 
 
 621 
 
 SECTION XLI.-MISCELLANEOUS MATTERS ABOUT FRUIT CULTURE. 
 
 jS it is a fact that not one family in fifty has a sup- 
 ply of the most common of the fruits we have 
 mentioned, not even those most easily grown, such 
 as currants, strawberries, blackberries, raspberries, 
 cherries, we can hardly say too much to encourage 
 leir extended cultivation, and therefore, under this 
 lead, will add several little things that may be useful 
 the searchers after knowledge. 
 
 Would that we could whisper a word of encourage- 
 ment to every land-owner, be it a quarter section or a 
 four-by-oiglit lot, till he resolved to furnish himself 
 with an abundance of these liltle luxuries ere another 
 ^'car lolled around. Many plants are so cheaply in- 
 creased by division of the roots, and so easily kept in 
 order, they may and should be purchased by all with- 
 out hindrance. Any man with the facilities for growing a full supply of 
 small i'ruits, who fails to do it, should be doomed to eat sour grapes, wild 
 strawberries, and crab-apples as long as he lives. 
 
 Though a class of fruits are termed small, there is, in reality, no excuse 
 for their being so inferior in size that they are scarcely worth the gathering. 
 Give them good cultivation, thoroughly working the ground with the spade 
 and the lioe ; then cover it over with half-rotted manure (chips are best), 
 which will be a mulch as well as a source of fertility, and the result will 
 probably astonish you. 
 
 700. fraiiborrifs as a. Field Cropi — "We have already said that cranberries 
 may be grown in the garden, and we now say they may and should be grown 
 as a farm crop upon hundreds of farms that have tracts particularly well 
 adapted to their growth. Upon this subject. Noble Hill, of Caton, Steuben 
 County, N. Y., writes as follows : 
 
 "That the cranberry is a favorite luxury, is abundantly proved by the 
 high price which a good, and not unfrequently an inferior, article will com- 
 mand in fhe markets. That it is easy of cultivation, and that there is an 
 abundance of land now lying waste which is just adapted to its growth, is 
 perhaps not so generally known. If the thousands of acres of swamps, of a 
 peat soil, within the bounds of the single State of New York, were to be 
 converted, as they certainly might be, into cranberry meadows, the fruit 
 would never again be quoted at $14 or §15 per barrel in New York city. 
 The following is submitted as the result of several years of observation and 
 experience in the cultivation of the cranberry. The subject of my experi- 
 ment is a swamp of several acres, and of a peat soil. Formerly it was cov- 
 
623 THE ORCHARD. [Chap. YI. 
 
 ered with small brush, moss, grass, and weeds ; no largo timber being found 
 on it, owing to the fact that it was submerged during a great portion of the 
 year. On the borders of this swamp a few cranberry vines, indigenous to 
 tlie soil, were to be found. By a series of open ditches leading across it and 
 through a bank at its margin, I was enabled to remove the superabundant 
 surface water. Tliis done, cranberry vines began to make their appearance 
 in dificrent portions of the swamp, but more plentifully in the central por- 
 tion, from which they began to spread over the land at a rapid rate. In 
 their jirogress, however, they encountered an enemy in the shape of the 
 brush, which not only retarded their growth and prevented the full develop- 
 ment of tlieir prolific qualities, but in some places entirely excluded them. 
 Hence it occurred to me that an advantage would be gained by thoroughly 
 subduing the soil previous to its occupancy by the cranberry. To this work 
 I then addressed myself, accomplishing it with the plow on the borders, 
 where the land had become sufficiently dry to render that mode practicable, 
 and with a spade in other portions on which a team could not be driven. A^ 
 done by a spade, the work consists in paring off the surface and throwini;' 
 the result into heaps, which, when rotted, answer a good purpose as manure 
 for fruit-trees. Tlio clean surface thus exposed should be spaded to the 
 depth of two or three inches, when the process of transplanting may be per- 
 formed. If, liowever, the transplanting be deferred iintil the following 
 spring, and the soil be occasionally stirred daring summer with a hand- 
 harrow, the plants will thrive the more rapidly. They should be set closely, 
 as they will tlie sooner cover the ground to the exclusion of weeds, from 
 which, if kept free for two or three years, they w'ill thenceforth need but 
 little, if any, attention. In soil thus prepared, I liave transplanted the last 
 of May, and have picked fine clusters of berries the ensuing fall. In two or 
 three years a fine crop may be expected, and thenceforth, so far as my ex- 
 perience goes, W'ill bo annually realized. To insure large crops, the soil 
 during snninier should be kept well saturated with water, and if flowed in 
 the sjiring, all the better. This I accomplish, as far as possible, by a proper 
 adjustment of my drains, opening and closing them according to the varia- 
 tions of the weather from wet to dry. As to transplanting, there is no diffi- 
 culty whatever. If an equal number of cabbage and of cranberry plants be 
 set, more failures would be found among the former than among the latter. 
 A cranberry plant a yard long, set in a mellow peat soil in a wet season, will 
 take root at every point of full contact with the soil." 
 
 It is a pity that we can not convince all the owners of such swamps as Mr. 
 Hill describes that tliey can grow just as good berries as he does. There 
 are many such places within a few miles of this cit}' that are now pests to 
 the owners, that would be profitable ever after if once set in cranberry 
 vines. 
 
 The cranberry has been very much improved — as much so as any other 
 fruit. 1 do no: know of anj- fruit that offers greater inducements to experi- 
 ment with than the cranberry in seedlings, since it has already shown such 
 
Seo. 41.] CBANBERRIES— FIELD CULTURE. 623 
 
 good results. If cranberry seed, or any other hard seed, is difficult to veg- 
 etate, it may be scalded with boiling water. 
 
 There is no doubt that cranberries can be grown upon any soil that has 
 water a few Indies below the surface. Upon toJeraljly dry upland cranber- 
 ries have been grown to advantage, and they M'ill grow in very bare sand if 
 either natui-ally or artificially watered. 
 
 Considering the high price which cranberries always bring in market, and 
 the cheap cost at which they can be produced, it is strange that more shrewd 
 farmers have not gone into the speculation. A good deal of attention has 
 been given to the cultivation of cranberries in Burlington County, New 
 Jersey, about 150 acres having been planted in one season. Of this, one 
 farmer named Chetwood lias set out 25 acres ; another, named G. Gowdy, 
 17 acres; and Mr. Allen, 10 acres. 
 
 Upon Cape Cod, where cranberry culture has been carried to the greatest 
 extent, swautpy land that was a few years ago considered utterly worthless, 
 has now a salable value of $800 to $1,200 an acre ; and some of the owners 
 of such land have found it a good investment of time and money to expend 
 from $200 to $1,000 upon an acre to bring it into a condition fit to be planted 
 with cranberries. 
 
 All over this country there are numei'ous bogs which might easily be con- 
 verted into fruitful cranberry gardens. 
 
 In view of these facts we make this pertinent inquiry of every farmer in 
 all the Northern States, where ci-anbferries are found growing wild : " Are 
 there no swamps, or wet valleys, or brook borders upon your farm, now, 
 perhaps, unsightly spots — wet swamps in winter, and dry and pestiferous in 
 summer ? If you have such, plant them with cranberry-vines, and tend 
 them one or two years till the vines get well set, and then they will tend 
 themselves, and produce you on an average more bushels of fruit per acre 
 than you get of potatoes ; and it is not much more work to gather it than it 
 is the tubers, and, generally speaking, you can sell a bushel of cranberries for 
 the price of five busliels of potatoes." 
 
 Truth, it is said, lies at the bottom of a well. The well that holds the 
 truth in relation to cranberry culture and its profitableness upon many of 
 the worthless bogs that render farms unsalable, and detract from the value 
 of the upland, must be a remarkably deep one, or it M'ould have been dug 
 out before now, and made to shine in all the rich crimson luster of a field 
 of this ripe fruit. 
 
 701. Vaiicties of Cranberries aud How to Grow Them. — The American cran- 
 berry {Oxt/coccus macrocarpus) is divided by growers and dealers into three 
 varieties — the Bell, the Bugle, and the Cherry. It will grow on almost any 
 soil where the water is not more than a foot from the surface, j-et experience 
 has proved that the soil best adapted to thein is nothing more nor less than 
 the plain beach saud, entirely free from any matter, either animal or vege- 
 table ; in fact, this berry may be said to live entirely on air and water. 
 
 Peat is found to be well adapted to this berry, but requires some care iu 
 
624 THE ORCHARD. [Chap. VI. 
 
 preparing, owing to its liability to bake and crack in hot weather; this may 
 be obviated, however, by taking off the turf and grass, leaving the surface 
 exposed to the action of the weather for a year, after which it becomes light 
 and porous, and fit for the reception of the vines. 
 
 Cutting-planting has been adopted by some as the most economical plan, 
 and as the plant sends out long runners, sometimes to the length of five or 
 six feet, it is self-evident that the first cost of cuttings must be small. The 
 cutting should be about six or eight inches long, and should bo planted by 
 thrusting the middle into the earth with a dibble, permitting a few inches of 
 each end to project, so that when it takes root you have two plants instead 
 of one. 
 
 Another plan of propagating by cuttings is to cut the vines into pieces of 
 about two inches in length, for which purpose a common hay-cutter may be 
 used, and sowing them broadcast on ground prepared for them, and then 
 harrowing them in as you would wheat or rye. It is preferable to plant them 
 in drills at such distances as will permit cultivation with the plow for the 
 first two years. These small cuttings will soon take root from the point 
 where branches join the stem, and will send out runners the second year 
 after planting. 
 
 Planting separate vines has been found to be the most effectual plan, and 
 although it consumes more time, and is perhaps attended with rather more 
 expense, yet from the absence of weeds and tlio fine chance for the vines to 
 spread, the cultivator finds himself amply repaid for the increased outlay. 
 
 The distances of planting must be regulated by the nature of the soil; if 
 liable to weeds, you must give yourself room to work among the vines; but 
 if you are planting on plain beach sand, the closer your plants are the bet- 
 ter, for the great object in forming a cranberry-yard is to have the entire 
 Burlkce covered by a thick mat of vines as soon as possible. 
 
 The time of planting generally preferred is in the spring, as in this case 
 the roots are not so liable to be thrown out by the winter frosts — say from 
 the 15th of April to the 1st of June. 
 
 As a general rule among farmers, they will be able to select some spot of 
 meadow land which is low and moist, free from stagnant warer, and some- 
 what sheltered from storms, as this may be considered the best location. 
 
 A position where the yard can be flooded in winter is very desirable, as 
 the vines, when exposed to very severe weather, are liable to be winter- 
 killed down as low as the root.^, which throws them back in bearing for a 
 year; besides which, it is sometimes desirable to flood them during the fruit- 
 ing season to prevent the attack of the worm, which in some localities is 
 quite destructive. 
 
 An acre of vines, properly cultivated and well matted, will produce at 
 least two hundred and fifty bushels of berries ; in some instances a yield of 
 four hundred bushels per acre has been obtained, but this is above the aver- 
 age, and may not be relied upon. 
 
 Two hundred and fifty bushels of berries, at the low price of three dol- 
 
Seo. 41.] CRANBERRIES— FIELD CULTURE. 625 
 
 lai-s per busliel, gives lis seven hundred and fifty dollars as the product of 
 one acre. Vines for a new plantation should be procured from meadows 
 which have borne well, and of good fruit, as the best way of knowing good 
 bearers. 
 
 If the yard can be flowed, though not absolutely necessary, the water may 
 remain on all winter, and be let off in March. It should be let on about 
 the 20tli to the 25th of May, and again the 1st of June, not exceeding thirty- 
 six hours. After this it is not needful. Blossoms are injured by the water 
 remaining on too long ; the object of flooding is to destroy the insects. 
 After this second flowing, there is little to fear from them. 
 
 A Cape Cod cranberry grower gives some useful advice to persons dis- 
 posed to embark in cranberry culture. He says : 
 
 "Suppose that those who are favored with some of the natural facilities 
 desire to do something with cranberries, it would be folly Jo expend much 
 money in clearing up a swamp. The best thing to be done is to study the 
 nature of the soil in -which the vine is flourishing, and then to prepare a 
 small patch — say two or three rods — and plant the vines there, and bestow- 
 ing some trifling degree of care ujjon them, by way of weeding occasionally, 
 you will see b}-- this experiment whether it will do for you to proceed much 
 farther in their cultivation. If you fail, that failure will most likely sug- 
 gest to you the remedy. Great mistakes are made in anticipating from 
 planting waste lands with cranberry vines, that they are about to realize two 
 hundred per cent. It will do very well for an experienced man to make 
 large yards, and with certainty of success, but it will not do for a man who 
 knows nothing about the cranberry and its culture to go rashly to work. 
 You will prevent future expense and galling disappointment by making your 
 first trial on rather a small scale. 
 
 "Tlie cranberry vine can be naturalized to those regions of country in 
 wliich it is not indigenous. The Bugle cranberry is generally found to throw 
 its runners from the .swamp toward the upland. The runner receives its 
 moisture from the roots of the vine which rest in the damp soil. Now, if 
 you will take these runners and plant them where there is some moisture, 
 in an upland soil, and stir it frequently during the hot montlis of summer, 
 t'.iey will live through the apparent drouth. Two years lience take the young 
 vines and carefully plant them, and you will find that you have done much 
 toward naturalizing the vine even to a situation where there can not be any 
 overflowing. Many persons have planted on the upland with vines from the 
 swamp, and the transition from abundant moisture to a comparatively dry 
 situation has been too sudden, and the vines have consequently died. Those 
 who try the upland should get the vines which have been naturalized to a 
 dry soil, or it will require immense trouble and some years to do anything to 
 advantage. It will be well for those who intend to try the cranberry vine on a 
 comparatively high and dry situation, to remember that the fruit produced 
 is not so large, nor yet are the quantities equal to those which are j-ielded in 
 more favorable locations, where there is either peat, beach-sand, or fine 
 
626,,^ THE ORCHAED. [Chap. VI. 
 
 gravell}' loam, and the ability to flow in winter. I believe that the time 
 will come wlien the commercial value of the cranberry will be better binder- 
 stood, and when farmers in all parts of the country will feel it to be their 
 interest to cultivate a patch of this fruit, and when its requirements will be 
 better under tood than at present, and when it M'ill be a source of profit to 
 tliose who think it worth their while to raise the berry. 
 
 " A short time since I saw a swamp which was formerly so covered over 
 with brakes, huckleberry-bushes, and briers, that it was of no use to the 
 owner until he paid some attention to the subject of cranberry cultivation, 
 and cleared the swamp, which he found to have a peaty bottom. The ground 
 was then planted over with vines, and the property, including clearing, vines, 
 and planting, cost him $300, but I was informed by the proprietor that he had 
 muck from the swamp which he valued at $150. The first year he had off 
 this one acre and a half one or two bushels; the second, twelve bushels; 
 and the next year, seventy-three bushels, which were sold at $1 per bushel. 
 If the yard cost him $300, he nearly realized in the third year subsequently 
 to its being made, the sum of money he first expended upon it." 
 
 Our final advice, to all who desire to plant cranberries to any extent, is to 
 hire some experienced person to do the work, and give instructions for the 
 future care of the yard, according to the circumstances of its location. 
 
 High bush, or tree-cranberry, is the common name of a berry sometimes 
 sold under the recommendation of being equal to the fruit we have been 
 describing. It belongs to a very different order of plants from the cran- 
 beri'y — the real oxycoccus. 
 
 The only use of it is as an ornamental shrub. No housewife will try to use 
 it but once in the place of the true cranberry. Tne fruit is almost wholly a 
 hard, long seed, scarcely covered with pulp, and when cooked with much 
 sugar, though resembling the true cranberry, sadly mocks the taste. 
 
 702. How (0 Cook Cranberries is an important question. They are sour, 
 acrid, unpalatable, and unwholesome in a raw state, and but little better as 
 they are usually cooked. We have ofcen seen them hastily scalded, sweet- 
 ened, and brought to the table floating in their juice, not one half of them 
 cooked enough to burst the skin. Bah! what food! But how diflerent 
 when cooked! Put them, with only water enough to prevent burning, in a 
 tinned sauce-pan, and stew until by stirring the whole becomes a homogene- 
 ous mass, with no semblance of whole berries, and then add clarified sirup, 
 previously prepared, and stir a few minutes while boiling. When cold, you 
 have delicious cranberry jelly. 
 
 703. Fruit-Tree Protectors, of an ingenious character, to guard against 
 worms that crawl up the bole of a tree, invented by Wm. W. Taylor, of 
 South Dartmouth, Mass, have been considerably used in New England, and 
 found highly efiicacious and satisfactory, being so constructed as to be an 
 impassable bar to everything that seeks to go up or down the body of the 
 tree. This protector consists of a circular kind of dish that shuts on to the 
 body of the tree, and is kept filled with some liquid, usually a preparation 
 
Sec. 41.] MISCELLANEOUS MATTERS ABOUT FRUIT CULTURE. w'eST 
 
 of bitter or salt water, entirely offensive and destructive to insect life. The 
 top part of tiie dish constitutes a projecting roof, to prevent flying up from 
 the lower ledge, also to exclude rain-water. 
 
 The}- are usually made of cast iron and of different sizes, to adapt them to 
 different-sized trees. There is a soft packing used to fill a considerable space 
 between the collar of the dish and the body of the tree, so as not to interrupt 
 growth or free circulation. 
 
 Y04. Watering Newly Transplanted Trees often does as much injury, or 
 more, than it does good, by forming a hard crust over the ground imme- 
 diately over the roots. 
 
 If water is applied at all, the earth should be first removed from the roots, 
 and a copious supply poured on. But this, too, is of little use. The roots 
 are drenched for the moment, and in a short time are as dry as ever. The 
 only remedy is a thick, heavy mulching. If of old straw, it should be about 
 six inches thick^^ covering several feet in diameter. A young ti'ee will 
 scarcely ever die if treated with such a covering, though transplanted in 
 midsummer, when without the mulch, death would surely ensue. 
 
 705. Thumb Pruuing, that is, pinching off buds, which if let alone would 
 grow into useless shoots, is much better than waiting until they are grown, 
 when the knife or saw must be used. In large trees, shoots often grow out 
 from the upper side of large branches, and in process of time make a thick 
 bushy top, where good fruit can not grow nor be easily gathered. Rub 
 them off when forming, or leave only such as will improve the tree. 
 
 The same thing should be practiced upon blackberries and raspberries, 
 Avhose new shoots, Avhen about four feet high, should be pinched in, that is, 
 have the tips nipped off with thumb and linger. This will start out side- 
 shoots, which should also be pinched in when a foot or so in length. This 
 treatment makes stout, compact bushes, that will bear abundantly next 
 season ; whereas, if left neglected, the stems will extend in every direction, 
 prevent proper cultivation, and scratch and tear every person who comes 
 within a yard of them, besides giving a poor crop, and leading the owner to 
 conclude they are a humbug. As soon as they have done bearing they 
 should have the old bearing canes cut out, and all the new shoots, except 
 half a dozen of the best, which will then grow unimpeded, and make fine 
 bearers another year. The common practice of allowing a mass of canes to 
 grow up thickly together, to be thinned out only the following sjiring, is a 
 waste of growth, and weaker canes and smaller crops are the result. 
 
 706. Stirring the Soil about newly planted trees or plants of any kind 
 during drouth is one of the best things that can be done, so that care is used 
 not to disturb the roots, for it increases moisture. Heat, light, and elec- 
 tricity are all accelerated in their action as chemical agents by moisture. 
 Therefore let it be known that a vast bed of soil well stirred and mellowed 
 is a prodigious laboratory, producing, chemically, all the elements necessary 
 for vegetable nutrition. It is owing to this, and not manure, that the peach- 
 orchards of New Jersey and Delaware have furnished such immense crops ; 
 
628 ^ THE ORCHARD. [Chap. VI. 
 
 they are frequently plowed, but not ulanted to othci crops. The plowing is 
 to cultivate the trees. 
 
 707. Tobacco for Worms that infest peach-trees is highly reeommcndeil. 
 A person w!io thinks he saved his trees by applying tobacco, says : " I found 
 the gum oozing out plentifully, and just under the eaith's surface, in and 
 about the roots, numbers of small white worms. I took a mason's trowel 
 and a sharj) knife, and scraped all I could away ; also the ground from the 
 roots, and then purchased a keg of common smoking tobacco, cut fine, cov- 
 ered the trunk just above the roots with it, and drew the earth around the 
 tree again. This summer the trees have revived and are now in a healthy 
 condition." 
 
 708. Su^ar-Drying Peaclies is one of the methods of preserving this fruit 
 that should be known to all who have orchards too far from market towns 
 to enable them to sell their fruit direct from the trees. Peaches prepared in 
 this way are richer than by any other pi'ocess, and to our taste far superior 
 to figs or raisins to eat out of hand, as they will almost melt in the mouth, 
 giving the true peach flavor. To prepare this fruit, pare rich, ripe peaches, 
 and take out the pits, and lay the halves on the back upon plates, filling the 
 hollow with fine white sugar. This dissolves and forms with the peach-juice 
 a most excellent sirup. The best plan would be to place the peaches on 
 perforated covers of shallow dishes, so that the juice would drain down, leav- 
 ing the fruit to dry slowly in the sun or a slow oven. A steam-pipe heated 
 room would be better. The quantity of sugar required is about one sixth 
 of the weight of the fruit. The process is very simple and easy, and the 
 product both in sirup and fruit very good. See 485. 
 
 The sirup is bottled and used for sauce on puddings, cakes, etc., and for 
 flavoring mince-pies. Excellent as this preparation of fruit is, vast quanti- 
 ties of peaches go to waste every year, even where they are gathered for 
 market, for some become too ri^je for ti-ansportation, and such are just right 
 for sugar-drying, and would undoubtedly sell higher than figs or raisins. 
 
 709. The Best Apples for Keeping are those grown upon mature trees, 
 planted upon dry soil The most important thing about preserving apples 
 for shipping is to pile them under straw on a barn floor and sweat them dry ; 
 then put a layer of sand at the bottom of the barrel ; then layers of apph s 
 and sand, and head up air-tight. The latter is very important. Apples mny 
 be kept through freezing weather in an upper room headed iip in this way, 
 and so they may in linen bags. 
 
 710. Cider-Making without Pressing.— It is stated that a man at Parkers- 
 burg, Ya., is successful in making cider by the following process : lie grinds 
 the apples, and fills casks with one end open, the bottom having some 
 sticks and straw, like a leach-tub for ashes. On the pomace he pours as 
 much water as it would yield juice by pressure, and that displaces the juice 
 and sends it to the bottom, from which, after two days, it is drawn by open- 
 ing the faucet, and as the cider is heavier than water, it runs oif at first 
 pure. The pomace, too, having an afiinity for water, absorbs that, which 
 
Sko. 41.] MISCELLANEOUS MATTERS ABOUT FRUIT CULTURE. 629 
 
 displaces the natural juice and leaves the pomace quite tasteless. This 
 process may be useful to persons who have a few apples and no cider-press. 
 
 711. The Orchard House is the name given to a glass-roofed structure 
 now common iu England, and to a small extent used in this country, to 
 grow all kinds of fruit, though not by artificial heat. At Newport, R. I., 
 "Wm. B. Lawrence has what we see termed an oreliard-house, 300 feet long, 
 which is heated by hot-water pipes, while real orchard-houses are intended 
 to keep an even temperature all the year round ; but since this can not be 
 done except by fire heat, owing to our severe climate, the objections are 
 many against this mode of growing fruit. Such structures are nearly as cool 
 at night as the temperature outside, while the sun heat hj day, without con- 
 stant airing, is equivalent to an English vinery. Hence the trees, being un- 
 protected, are chilled by frost and excited by heat, either of which, alone, 
 would bo injurious to the crop, and, in combination, destructive, so that 
 orchard-houses, wherever necessarily conducted as mere hot-houses, arc too 
 expensive for growing any but high-priced fruits. 
 
 712. Apple-Paring Machines are a necessity in every family that owns an 
 orchard, and an equal necessity is to know which of tlie many that have 
 been patented, and offered with w^onderful recommendations, it is worth 
 while for a farmer to buy and try to use. After spending a goodly sum of 
 money, and a good deal of time and patience iipon a variety of apple-parcrs, 
 wo wrote our experience for the benefit of others, wherein we said of one : 
 " As a funny rattle-trap to amuse children, and sell for a good profit, it was 
 a very ingenious Yankee invention, but as an ' apple-parer and slicer' it 
 was a — humbug." 
 
 Having thus vented our opinion of apple-parers, we were favored with 
 one more of the same family, called by the inventor the " Turn-table Apple- 
 parer," and after three years' use, we are willing to say of it, that it will 
 pare apples expeditiously, and it can bo operated without the aid of an 
 engineer. It makes no pretensions to do anything but pare the apple. 
 You put it ou with one hand, turning the crank all the time with the 
 other, and no matter what size or shape the apple is, the knife will follow 
 tlio surface and take oif the skin. When the skin is off, the same motion 
 of the crank continued, carries the knife away from the apple and back to 
 llie place of starting, where it is to begin upon another. Tiie pared one 
 is taken off and another put upon the fork while the knife is passing round. 
 The whole machine is made of iron, and can be packed in a box eight inclies 
 wide and four inches deep. When used, it may be attached to any table or 
 bench by a thumb-screw. This perfect little machine, which every family 
 that pares a peck of apples a year should have, is made so cheaply by 
 Yankee ingenuity and machinery, that it is sold at retail for a dollar, and it 
 is, iu our opinion, the best of the whole family of apple-parers. 
 
CHAPTER VII. 
 
 THE yiNEYAED. 
 
 SECTION XLII.-HOW TO PLANT AND CULTIVATE VINES-WHAT SORTS 
 TO PLANT. 
 
 _ F any of our readers expect to find in tliis section the 
 r -whole art of planting and cultivating a vineyard, and 
 manufacturing its fruit into wine, they will be disap- 
 pointed. The intention of -the author is to produce just 
 enough information to whet the appetite for more, and 
 induce research into other sources of instruction, from some 
 of whicli we shall draw facts that will be interesting and 
 useful for ever}' one to learn. 
 
 713. History of Varieties of Grapes. — Tlie origin of varie- 
 ties is a matter of interest. The most common and best 
 known sort is supposed to be a native of South Carolina, 
 brought to Brooklyn, N. Y., and distributed from there 
 under the name of Isabella^ in respect to Mrs. Isabella 
 Gibbs, wife of Capt. Gibbs, who brought the vine home from 
 one of his Southern voyages. It is very remarkable that this grape is not 
 found now in the State where it is supposed to have originated, except where 
 it can be traced l)ack to the Gibbs vine. 
 
 The Catawba is also a Southern grape, having originated, according to the 
 best evidence we have seen, in North Carolina. It is a little singular that 
 both the Catawba and Isabella are now well acclimated north of latitude 
 42 degrees, and are much more grown in Northern than Southern States. 
 The Herbemont also does well at the North. 
 
 We give some slight descriptions of several of the most common sorts of 
 grapes, taken mostly from Dr. Grant's catalogue, which is a pretty good 
 treatise upon grape culture. Dr. Grant is the greatest propagator of 
 vines, imder glass, in the world, liaving about an acre covered, on an 
 island called lona, in the Hudson, near Pcekskill, forty-five miles above 
 New York. 
 
 The Offen Grape is the name of a seedling originated at Painesvillc, Ohio, 
 a sample of which, sent us by Mrs. Nancy T. Offen, convinces us that she 
 had better devote her attention to cultivating one of the dozen other sorts, 
 which are far superior to this in all that constilutts a good grape for the 
 table, and for raisins or wine. 
 
 Nicholas Lougworth says : " I obtained from Yermont a grape, liardy 
 
Sec. 42.] HISTORY OF VARIETIES OF GRAPES. 631 
 
 in tliat region, called the Lyman, and some other.?, that I believe will be 
 valuable for wine. And the Clinton grape, from tlie northern part of New 
 York, from Mr. James II. Watts, of Rochester, I have made wine from. 
 
 "The Fox grape is readily distinguished. It has a tine aroma and flavor, 
 and may be smelled at a distance, but is deficient in sugar and not abundant 
 in juice ; skin thick, pulp hard, leaf thick and white on the under side, vine 
 moi'e or less covered with hairs." 
 
 Union Village, a standard garden variety, is worthy of general culti- 
 vation. 
 
 Lenoir, I'ipens early, has a great degree of hardiness of wood, and win- 
 ters perfectly in very exposed situations farther nortli than the Isabella. It 
 will still ])e prudent to stop the shoots in August or September of young 
 vines, and lay them down for winter. 
 
 AllerbS Hylrid. — This shows itself vigorous and hardy, and probably will 
 not disappoint the high ex])ectation entertained of its value as a leading 
 garden variety, and our best white table grape. 
 
 Taylor, or Bullitt. — This is a beautiful white grape, of excellent flavor, by 
 Judge Taylor, of Jericho, Ky. It is described as remarkable for hardiness 
 and productiveness, and is worthy of trial wherever the Isabella will thrive. 
 
 Pauline comes highly recommended from the South, but from actual 
 trial, little known at the North. It is very distinct in its flavor, and adds 
 to our variety. 
 
 At the South, especially in Carolina and Georgia, some very excellent 
 varieties are grown, of which the Hcrbemont is a type. It was first intro- 
 duced, about the year 1825, by Mr. N. Ilerbeinont, a zealous pioneer in 
 wine-making, at Columbia, S. C, where the original Herbemont's Madeira is 
 still growing. 
 
 The Delaware is a small grape of surpassing beauty and most excellent 
 flavor. It attracted the attention of Mr. A. Thomson, of Delaware, Ohio, 
 and was exhiljited by him at the county fairs, under the name of Heath 
 Grape. A few years later, after becoming fully assured of its great value, 
 he introduced it to the public under the name of Delaware. Its great ex- 
 cellence proved a Iiindrance to its dissemination, for it was claimed that no 
 such grape could be of American origin. 
 
 Tiie history of the Delaware grape is, that it originated in the garden of 
 Mr. Prevost, in French town, N. J., and is supposed to be a seedling from 
 the Catawba, fertilized, perhaps, with some foreign variety. Wherever 
 known it is esteemed above all other varieties for its wonderful hardiness as 
 well as excellence of fruit. Mr. Longworth, Mdio at first thought tlie Dela- 
 ware and Traminer identical, has now given up all ideas of that kind, and his 
 head-gardener stated, a short time since, that he considered the Delaware the" 
 best grape in this country for general cultivation. 
 
 Persons who have ordered vines have undoubtedly been mucli imposed 
 upon by this Red Traminer grape, sent to them as the genuine Delaware. A 
 Rochester grape-grower says the Delaware is the best of all American grapes, 
 
G32 THE VINEYAPwD. [Chap. VII. 
 
 and is the best that avo have ever seen for out-door culture in this latitude, 
 because it possesses great hardiness, productiveness, and earliuess. 
 
 It has been known to stand uninjured where Isabella, Clinton, and Ca- 
 tawba have been killed to the ground. It is a great bearer. The berries 
 and bunches increase in size as tlie well-cultivated vine grows older, and it 
 probably will produce more pounds of fruit to the acre than any other sort 
 in cultivation, and it ripened at Delaware, Ohio, about the middle of Au- 
 gust, and in western New York will ripen early in September, and there is 
 no other native grape, nearly as good, that ripens so early. 
 
 Delaware vines are very hardy, and adapted to all situations, ripening both 
 wood and fruit in the uplands of Ohio or on tiie sea-board. It grows finely 
 at Hartford, Conn., and New York, Albany, and Newburg, N. Y., in various 
 soils and situations. It is more hardy than the Catawba or Isabella at lona, 
 where it has been more largely propagated than anywhere else ; and Dr. 
 Grant is entitled to the gratitude of the lovers of good fruit for having done 
 moi'e than any other man to bring this valuable new grape into notice ; for 
 the world will appreciate it as soon as it comes to know the value of it, both 
 as a table grape and for wine, for which it is the best of any grown in the 
 Atlantic States. 
 
 The Marion grape deserves attention as a very early variety. 
 
 The To Kalon grape resembles the Black Hamburg. Dr. Grant speaks 
 of it as desirable for a private garden, and says the fruit is exceedingly 
 sweet and luscious, has very delicate aroma, and when well ripened is with- 
 out toughness or acidity in its flesh. It ripens a week earlier than the 
 Isabella. 
 
 The Concord is a very vigorous and healthy grower, and bears abundantly, 
 although not much disposed to over-bear. It ripens ten days before the Isa- 
 bella, and its leaves are much less likely to mildew than that variety. In 
 flavor it is very sweet, and will undoubtedly become a valuable market fruit 
 in the latitude of New York and farther south. 
 
 The Rebecca, originated by Mrs. E. M. Peake, and introduced by Mr. 
 Brocksbank, of Hudson, N. Y., added another to the list of valuable and 
 beautiful grapes. 
 
 The Diana takes its name from Mrs. Diana Crehore. It is a grape of sur- 
 passing excellence and beauty. 
 
 The Anna\i, an early and profuse bearer, and the produce of j'oung vines 
 is of very high flavor, but not without a considerable degree of toughness, 
 which disappears as the vines acquire age and maturity. 
 
 It ripens quite as early as the Diana, and fully two weeks before the 
 Catawba, hangs very late on the vines, and is not injured by severe freezing. 
 For late keeping it is unequaled, and its raisins are not surpassed in quality 
 by any foreign variety. 
 
 The Hartford Prolific is hardy, vigorous, and productive. Bunch large, 
 shouldered, and rather compact. Berry large, globular. Skin thick, black, 
 and covered with a thick bloom. Flesh sweet, moderately juicy, with con- 
 
Sec. 42.] VARIETIES OF GRAPES DESCRIBED. 633 
 
 siderable toughness and acidity in its pulp, with a good deal of native per- 
 fume. Ripe ten days before the Isabella — at New York, September 5t]i. 
 
 Our objection to it was its disposition to drop its fruit as fast as it ripens, 
 just like the Fox grape in the woods, covering the ground with scattered 
 berries. Cultivation has nearly cured this fault. 
 
 The York Madeira is early, hardy, and when fully ripe very sweet and 
 somewhat vinous. There are two or three sub-varieties of larger size, but 
 of greatly inferior quality to that which has been somewhat extensively dis- 
 seminated under that name, and of which Canh>/''s August appears to be a 
 synonym. 
 
 The Elsinghurg is vigorous, hardy, and productive ; ripening early — 
 about one week before the Isabella — and is in quality best, but its berries 
 are small, and its bunches not compact, though generally large. It has no 
 toughness or acidity in its pulp, and to give a large, rich mouthful of its 
 enjoyment, several berries may be taken at once. It is worthy of a place in 
 every garden. 
 
 Tiie Louisa, a seedling raised by Samuel Miller, of Lebanon, Pa,, must be 
 considered an acquisition by those who adopt the Isabella as a standard of 
 excellence. It is ten days earlier in ripening, and to most tastes a better 
 fruit, and appears to be more hardy. 
 
 The Logan is a black grape of medium size, and bears a strong resem- 
 blance, in general character and ajipearance, to the Marion, which also was 
 found in the same region. 
 
 714. Dr. Grant upou the Cultivatiou of Grapevines. — The following direc- 
 tions were given by Dr. C. "W".,Grant in an address upon the subject of grape 
 culture. In relation to pruning, he said : 
 
 " Cut off the first year's growth above two buds, and next year cut back 
 so as to leave two buds of that year's growth. In nature a vine grows both 
 branch and roots to a great length before bearing fruit, as it can bear no 
 fruit until its leaves and branches reach the air and sun at the top of the 
 tree. In cultivation we must train vines to new habits. We can not de- 
 pend upon any but native varieties. A well-grown vine will reach five or 
 six feet the first year, and ten or twelve feet the second year, and its success 
 as a bearer will mainly depend upon the manner of training and trimming it 
 the first years. No untrimmed vine can remain healthy or be productive. 
 Fruit-buds grow upon the same branches but once. Ten feet square of 
 ground is required for a root, and six or seven times that for the vine. 
 Mildew is the great enemy to contend with, and the vine must have air and 
 vigorous growth, for that tends to prevent mildew, and it must have room 
 so as to expose every leaf to the sun. On the third year two bunches to a 
 cane or branch are all that can be grown to perfection ; all others must be 
 plucked off. The leaves naturally develop themselves to the sun, and no 
 more leaves must be left than will fill the space. No healthy leaf grows in 
 the shade. Vines suffered to bear too full the third year are ruined ever 
 after. 
 
634 THE VINEYARD. [Chap. VII. 
 
 " The fourth year train up four upright canes, and these will each produce 
 three bunches, and the horizontal shoots will produce twenty -four bunches 
 and bud out new shoots. Only three bunches to a shoot should be grown, 
 and a bunch never should be exposed to the noonday sun. Training vines 
 upon the trellis is best for the vineyard. The arbor gives shade, and may 
 give satisfac'ion,but the trellis gives the most fruit. Four feet length of 
 elevation of canes is as much as will produce perfect fruit. 
 
 " At the end of the seventh year the vine is fully established, with three 
 branches on each shoot, which will give six bunches, three on each arm be- 
 tween each upright. At the base of each shoot is a bud for the fruit-bear- 
 ing shoot next year. The ends of the fruit-bearing branches must be 
 stopped at about two feet from the base. It will shoot again and must be 
 stopped again, leaving one leaf. The best thing to tie vines to the trellis 
 wires is basket willow. Bulrushes are also good. Hatters' trimmings are 
 also recommended. 
 
 " If all the fruit-buds are permitted to grow, the vine will soon be ruined. 
 The best bunches always grow nearest the stalk. November is the best 
 time to shorten back a vine to the buds that are to be left for bearing. It is 
 an object with the young vine to cut back or stop the growth of branches 
 to give strength to the root. Pinching the bud of a growing vine is to give 
 vigor to the root as well as the buds that are to fui-nish the canes for fruit 
 next year." 
 
 The Doctor exhibited vines one year old six feet long, and two years old 
 twelve feet long, grown from two-eyed cuttings of the Diana grape, which is 
 considered a slow grower. He said : 
 
 " Long cuttings should never be planted. Two or three eyes are better — 
 two eyes are best. A serpentine form given to a young vine makes it grow 
 stronger. The best plan to get new vines is' by layers. It makes vines that 
 will bear earlier. I have seen five bunches upon a Delaware cane of one 
 year grow perfect ; but three bunches to a cane generally is as much as can 
 be depended upon. A vine must not be made to over-bear or over-produce 
 wood. Sparing the knife spoils the vine. I think in this country that the 
 trellis form of growing vines, both for wine and market fruit, will be the 
 best plan — better than growing upon stakes. On posts seven or eight feet 
 high place five wires, and set the rows ten feet apart, and running north and 
 south if convenient. Grapes can be grown to advantage in the city. A 
 vigorous vine can be carried up six or eight feet a year without bearing 
 until it reaches the top of the house, and there trained upon a trellis, and 
 produce good fruit many years. Vines can also be trained upon brick walls 
 or in yards that have four hours of sun a day. It is not necessarj' that the 
 sun shine constantly on the ground where a vine is rooted, so that it reaches 
 up to a sunny spot for leaves and fruit. I have trained vines up a house- 
 side three stories high. 
 
 " All sides of a house may be used, but on the north side the fruit will 
 not ripen well. A northeast exposure on the sea-coast is not a good one for 
 
Seo. 42.] PRUNING AND TRAINING. 635 
 
 grapes. One objection to au eastern exposure is bright suns after frosts. 
 Suniuier pruning is indispensable. In the angle between the k-aves two 
 buds start, and if one is not pinched out it will produce a shoot tluit will 
 bear green grapes in the fall. Care must be taken not to cut off the 
 vines in the hard wood in the summer. The shoot must be stopped in 
 the bud by pinching, and not by cutting away hard wood. Vines never 
 should be trimmed with ordinary shears, but with a very keen knife, with a 
 smooth cut. 
 
 " The bunch next to the main stem covers the bud of the fruit bearing 
 liranch for next year. In autumn pruning, all of the fruit-bearing arm is 
 cut away to one bud. November pruning is better than March, on account 
 of the sap exuding. There are many advantages in pruning in November, 
 but if neglected then, it must not be neglected altogether, for upon that, 
 and also plucking off all excess of fruit, depends the success of grape- 
 growing. 
 
 " Carrots are an excellent crop to grow upon ground prepared for grapes ; 
 they will pay all the expense of preparation. 
 
 " Any good corn land, deeply prepared, will grow grapes, but for a suc- 
 cessful vineyard the land should be trenched three feet deep and made rich, 
 and there is nothing better than swamp muck for this purpose. It should 
 be composted with animal manure, and well rotted, and thoroughly mixed 
 with the soil. 
 
 Dr. Grant stated that he had imported " every variety of grape, and Lad 
 found none that could withstand our winters, while the Delaware grows in 
 every kind of exposure, and never suffers. As for the story about the 
 Delaware growing wild in Pennsylvania, I have investigated that matter 
 thoroughly, and defy any one to produce an iota of evidence to sustain 
 the story. , 
 
 " In planting a vine, recollect the above few simple rules, and you will 
 have no difficulty in growing them to your satisfaction. 
 
 " Although the wants of the vine are few, simple, and easily supplied, yet 
 they are imperative, and, as with all the other fruits of our climate, it is only 
 to judicious care that it can yield its richest delight." 
 
 715. Grafting Grapes* — "Grapes can be and are sometimes grafted when 
 it is desired to test a variety in as short time as possible. We understand 
 that Mr. Longworth sometimes obtains fruit the same year the grafting Is 
 performed. This is owing to the fact that the grape bears fruit on the cur- 
 rent year's growth, and not on wood of one, two, or three years old, like the 
 peach, apple, and others. It is not, however, a profitable method of in- 
 creasing the grape, being rather a slow job and uncertain in growing. Be- 
 sides, the same labor in raising stocks on which to graft might grow a better 
 kind of vines from cuttings or roots." 
 
 The late Dr. Togno, who spent much of his life in this country in pro- 
 moting the culture of the vine, told us, when establishing his vineyard at 
 Wilmington, N. C, that he expected to derive considerable advantage in 
 
636 THE VINEYARD. [Chap. VII. 
 
 grafting cuttings of choice grapes into tlie wild vines that grew abund- 
 antly upon the land, and that only under similar circumstances would 
 grafting be of any use. His process of grafting was very simple. In some 
 cases we noticed that gimlet-holes were bored, with a small inclination 
 downward, into large vines, and the graft sharpened and inserted so as to 
 bring the base of a bud in contact with the fresh cut in the old stock ; and 
 in others the grafts were inserted in a cleft, either in the side of a vine or the 
 sawed-ofF end. 
 
 716. faution about Buying Grape Cuttings. — Do not buy cuttings of Dela- 
 ware vines, and others of similar growth, as they can not be depended upon 
 to make roots under ordinary cultivation. They are not cheap at any price 
 to ordinary farmers, who usually will be obliged to plant them in open 
 ground, where they will have but little attention. 
 
 It needs hot-house propagation and very skillful management to grow 
 good Delaware gra])evines from buds. It has obtained such a wide noto- 
 riety for its excellence that great care should be exercised, so as to be sure 
 not to get a Red Traminer, or something equally worthless. Buy rooted 
 vines of responsible men, and though slow of growth the first years, do not 
 be discouraged ; keep your vines well cared for, and you or yours will enjoy 
 the fruit. 
 
 717. Profits of Grape-Growing. — Mr. Andrew Reisinger, a German vine- 
 dresser of forty years' experience, settled some years ago in the town of 
 Pultney, Steuben County, N. Y., and in 1854 procured from Ohio six 
 thousand cuttings of the Catawba grape, which he planted, four feet apart, 
 on land well trenched and subsoiled, and in 1857, from an area of less than 
 an acre, jiressed three hundred gallons of juice. Next sj^ring he increased 
 his area of grape culture by an acre and a half, and from an acre of older 
 vines, one eighth only two years planted, pressed six hundred gallons of 
 juice, besides keeping four hundred pounds of grapes to show to buyers of 
 cuttings the quality of the fruit. He thinks the grape culture can be made 
 decidedly profitable, even on the highest suitable lands in New York ; that 
 is, on sandy or gravelly loam having a southern to southeastern exposure. 
 Of course the cultivation must be very thorough. 
 
 A Mr. Provost, of Williamsburg, L. I., manures his vines highly, and 
 covers the manure with sand. He exhibited a bunch of an Isabella vine 
 ten feet long with seventy bunches of grapes. Such a vine must be much 
 more profitable than the one mentioned in the next paragraph. 
 
 718. Gigantic Grapevine. — The Horticulturist for October, 1858, gives an 
 engraved representation and account of a grapevine at West Hill, near Bur- 
 lington, N. J., that measures six feet and one inch around the trunk three 
 feet above the ground, and three feet around at ten feet high. In extent, it 
 is equally enormous, spreading over four large forest trees, one of which is 
 a full-sized black oak, the largest tree being ten feet in circumference two 
 feet above the ground. This monstrous vine is a male, of the wild grapes 
 of the country, and although regarded as a wonder, it had never been known 
 
Sec. 42.] VINE-GROWING IN CITIES. 637 
 
 to Lear fruit. The diameter of tlie circle of the ground covered by the 
 branches of this vine is over one hundred feet. Vines are recorded of tlie 
 known age of six liundred years. Statues have been carved from grape- 
 wood, and pillars made from it ; even the large doors of tlie cathedral of 
 Ravenna are made of the grape-tree. In some parts of Italy, saj's Miller, 
 "A vine is considered young at one hundred years, and there aro plants in 
 existence which have been cultivated three hundred years." 
 
 711). Uow to Grow a Vine hi a City Lot. — " It so happens sometimes that we 
 have an inside walk running near the house — so near that we have not room 
 enough to make a border between it and the house on which we wish to 
 train our vine. In that case we should take up the walk and enrich the 
 ground under it, so the roots can penetrate it, which they will readily do; 
 or we may plant the vine on the outside, and when we haTe produced a good 
 strong cane — say eight or ten feet long — we can take np a narrow strip of 
 the walk, make the soil rich, and then lay the vine down, covering it three 
 or four inches with soil, put down the walk again, and bring the vine out on 
 the opposite side. Yines treated in this way will grow as strong and as well 
 as when planted in the open border. 
 
 "The most simple and easiest managed system of training the vine is with 
 horizontal arms. To grow a vine on this plan, we commence by growing 
 one cane on an upright stake, pinching off the little side branches or laterals, 
 leaving one leaf; this pinching is to be repeated when the latcials grow 
 again, and an additional leaf is left at each successive pinching. 
 
 " If the vine is planted in a lot so shaded that the giapes will not ripen 
 near the ground, the vine may be trained up the wall, quite to the top of 
 the house, and the fruit-bearing arms formed on a trellis on the roof. By 
 skillful training a vine can be grown, and grapes produced in abundance, 
 upon any city lot, no matter what the exposure." 
 
 720. Traiuiiig Vines I'poa Walls. — This is more practiced in Europe than 
 here. There walls are built on purpose and pay a profit, and doubtless might 
 be made to do so near cities in this country. Tiie plan is much practiced in 
 France. A very thick high wall is found to be so heated in the daytime 
 that it retains the heat during night, and this makes the grapes much sweeter, 
 and saves them from danger of cold weather. 
 
 721. Riugiiig Grapevines. — This is a process adopted to increase the pro- 
 duction of a vine and enlarge the fruit. It is to remove a ring ot bark 
 about one fourth of an inch, or perhaps half an inch wide, from the bearing 
 branch, near the junction with tlie main stem, about the time of the setting 
 of the fruit in spring. The effect is an increased vigor of growth ui)iin the 
 branch so treated, and larger, handsomer — not better — fruit, which in some 
 instances has ripened ten to fifteen days earlier than the fruit upon branches 
 not rung. But mark, these rung branches will have to be cut away another 
 season, as the wound is not likely to heal over so as to make a heahhy 
 branch next year. So, you see, care must be taken not to ring an}' branch 
 of a vine that you "wish to preserve for training, and it would be advisable 
 
038 THE VINEYARD. [Chap. VII. 
 
 to ring only a portion of the branches you intend to cut away at the next 
 pruning. 
 
 722. Grapes Under Glass. — Mr. Charles Butler has demonstrated to the 
 suburban residents ot' New York city what can bo done in raising grapes 
 under glass. His place is near AVhite Plains, "Westchester County, N. Y. 
 
 Mr. Butler has erected vineries a thousand feet in length, with a tine ex- 
 posure, and has introduced the rarest and finest grapes, and in less than three 
 years from the time of setting out the vines, ho has taken off about two 
 thousand jjounds of grapes, of extraordinary size and ilavor — the Black 
 Hamburg ; t!ie Muscat of Alexandria ; tlie Zinfendel, a native of southern 
 Italy; the Tokay, the Syrian grape, growing in immense clusters, sometimes 
 attaining, in its native clime, the weight of ten or fifteen pounds. These 
 are the grapes of Eschol, such as the spies brought on a pole between them 
 as samples of what the land of Canaan would yield. 
 
 Beside these, he has the Cannon Hall, Chasselas of Fontainebleau, West 
 St. Peters, Lombardy, White Frontignae, Purple Damask, and White Nice. 
 But the most magnificent of all is the Barbarossa, which has rarely been 
 fruited in this country. 
 
 723. EconoBilca! Grape Trellis.— At Westchester, Pa., Mr. Jeffries has a 
 cheap grape trellis. A cedar-tree, possessing a symmetrical form of branches, 
 is selected, and when cut down the branches are carefully preserved, thin- 
 ning out the smaller twigs, but leaving the pyramidal shape prominent. 
 Tliis is used as a stake, and when covered with vines is highly ornamental, 
 as well as forming a superior support for the grape. A row of them, seen 
 fi'om a distance, has the appearance of luxuriant forest trees. 
 
 Tlie French, near Fontainebleau, have a cheajj way of making very good 
 and durable trellises. They set posts of locust, about three or four inches in 
 diameter, two feet in the ground and six out, and about eight or ten feet 
 apart. They then tie across the posts strips of white oak or ash, about one 
 inch thick and ten or twelve feet long. These strips are split out in the same 
 way that we split out hoops for flour barrels, and tied to the posts with an- 
 nealed iron wire. i 
 
 721. Delaware and Red Traminer Vines Described.— Andrew S. Fuller 
 gives the following directions for distinguishing the Delaware from the Ked 
 Traminer. He says: 
 
 "There has been much talk about the Delaware grape being the Red 
 Traminer, but it was only by those who did not know either. How any 
 person, even a casual observer, could confound the two, is more than we can 
 understand, for the difference between them is so apparent that a man, by 
 the sense of feeling; could easily tell one from the other. The buds of the 
 Traminer, like all the foreign varieties, are very prominent — much larger 
 than the Delaware, although the latter has buds quite large for a native. 
 The large bud is a marked characteristic of the foreign varieties. The bark 
 of the Delaware has the deep striated appearance of all our natives, with a 
 hard silicious covering, perhaps the hardest of all, not excepting the Con- 
 
Seo. 42.] MANAGEMENT OF GRAPEVINES. 639 
 
 cord, wliicli it resembles ia color. It is nearly destitute of Lloom, Avliich is 
 alwa^'S upon the wood of the Traminer. Toward the end of the slioots, the 
 Delaware exhibits the peculiar hairiness which is another characteristic of 
 the native vine. The Traminer has a soft wood, with large, light-colored 
 spots upon it, especially when grown in the open air, and is quite tender in 
 this latitude, killing to the ground unless protected, while the Delawai'e is as 
 hardy as any of the wild fox-grapes. The Traminer has a thin rufSed leaf, 
 difficult to press flat without its lobes overlapping or splitting. The Dela- 
 ware is perfectly flat, thick, and leathery, like the Catawba, Diana, Concord, 
 and Anna. All of these have thick leaves, and are not liable to sun-scald or 
 mildew, while the Isabella, Eebecca, and some others have thin leaves, and 
 are subject to this disease unless grown under very favorable circumstances. 
 The mildew is not likely to attack a perfectly healthy native vine, and it gener- 
 ally attacks them at the time of cold, cloudy weather, when the leaves have 
 become weak from the want of sun ; therefore it will be seen that vines, to be 
 healthy, must have a full exposure to the sun if you would keep them free 
 from this malady. "Weak growers are not likely to have well-ripened wood 
 and leaves the first year from cuttings, unless assisted by artificial heat, con- 
 sequently they have uuripened roots. The Traminer does not rijjen its wood 
 in the open air, while the Delaware does perfectly. It is quite diflicult to 
 make the Delaware strike roots from cuttings ; the Traminer strikes very 
 readily. The mildew tliat attacks our native vines is quite diflerent from 
 that which attacks the foreign. The one that attacks the foreign commences 
 on the upper surface, and jiasses to the peduncle, and thence to the fruit, 
 and is of a dark color. The one to which our native varieties are liabh^ ap- 
 pears more gross, presenting the appearance of small transparent bladders 
 or minute pearls, that are disposed to attach themselves along the middle of 
 the leaf on the under side, consequently they often destroy it before a per- 
 son is aware of what is tlie matter. This native mildew and sun-scald are 
 mutually disposed toward each other; that is, if a plant is weakened by sun- 
 scald, it is particularly predisposed to be attacked by mildew, and a plant 
 upon -svhich mildew fastens is obnoxious to sun-scald, as its life-blood is 
 sucked out by this jjarasitic plant. The fruit of the Traminer does not re- 
 semble the Delaware as much as a Baldwin apple does a Spitzenberg, and 
 one who can see a diflerence between these, would not find it diflicult to dis- 
 tinguish the grapes. If you will pick the Delaware before it is quite ripe, 
 you will find that the skin parts readily from the flesh like the other natives ; 
 the Traminer adheres to the flesh the same as others of its class. If you al- 
 low young vines of the Delaware to mature all the fruit that sets, they will 
 have quite a tough pulp, and have that peculiar foxiness which no foreign 
 grape ever had " 
 
 725. The Isabella Grape— Is it a Seedling ?— The falawba.— It is stated that 
 the original location of the Isabella grape Avas Newbern, N". C. It was 
 brought to Brooklyn in 1818, but it is not known whether the grape brought 
 from North Carolina was a seedling or the original of the variety. 
 
640 THE VINEYARD. [Chap. VII. 
 
 One of the great difficulties of growing seedlings from any native fruit is 
 to get it to vary from the wild sort. There is no difficulty in getting varia- 
 tions from those cultivated or improved. "When a variation is once obtain- 
 ed from any seedling, it is very easy to continue this variation, and produce 
 something better. 
 
 The best proof that the genuine Isabella is not an ordinary seedling is its 
 high character, so different from the wild Fox grapes. It is important that 
 the country should know if it is a fact that this variety of grapes is failing, 
 or diseased so as to be more difficult to grow than other sorts. By many 
 persons it is stated as an incontrovertible fact, that the Isabella grape is dis- 
 eased, and that it is not worth while for any one to plant a vineyard of Isa- 
 bella vines in their present unhealthy condition. 
 
 "William S. Carpenter states that he has taken much pains to grow them, 
 and has not had a good bunch of Isabellas for five years. He lias tried 
 both close pruning and no pruning, and his pruned vines produced quite as 
 well as the unpruned, which proved the assertion false, that the failure is 
 owing to injury from close pruning. 
 
 Mr. Pardee states that he saw five distinct sorts exhibited at one fair all 
 labeled Isabella. Of course these were seedlings, and though like the orig- 
 inal, were not the pure sort. "With so many grapes called by one name, 
 how is any one sure of getting the true Isabella? 
 
 The Catawba is supposed to be like the Isabella, a native wild grape of the 
 Southern States, and it is now considerably cultivated in Georgia and the 
 Carolinas. It was introduced North about 1830, and since has been our 
 jjrincipal wine grape. It flourishes best away from the moisture of the sea- 
 coast in the dry climate west of the AUeghanies, and at this time thousands 
 of acres at the West are devoted to this crop. 
 
 Geo. Ilusfman, well know.n as one of the most intelligent grape-growers 
 in Missouri, thinks " the Catawba should be struck from the list as unwortliy 
 of cultivation, because it is superseded by better sorts. The same is cer- 
 tainly true of the Isabella hereabout." 
 
 Ira Smith, of Peoria, 111., under date August 16, 1860, says : 
 
 " I have a hundred Catawba grapevines, which I cultivate on poles the 
 usual way. Having all ray grapes destroyed last spring by a late frost, and 
 being desirous to increase the number of vines to enlarge my vineyard, I 
 buried all my last year's wood and allowed an extra vine on each trunk to 
 grow from a point near the ground, which I have also buried. The side 
 branches of the old and new vines are taking root and growing finely, and 
 have not at all hindered a heavy growth for next year's fruit of from two 
 to three vines climbing up the poles; but some of my neighbors inform me 
 that the side branches, commonly called suckers, will not produce good 
 bearing vines." 
 
 This is a mistake. It will not make the least difference whether the 
 bearing vines are taken from such suckers as the writer mentions or from 
 the main stalks. 
 
Sbo. 42.] CATAWBA AND ISABELLA VINES. 641 
 
 The Isabella grape flourishes finely upon Kelly's Island, in Lake Erie, in 
 the neigliborhood of Sandusky, Oliio. In 1S60 it was estimated tliat nearly 
 one tenth of tiie land on the island, or 230 acres, liad been planted in vines. 
 This is in lat. 4H^, but the climate is ameliorated by the proximity of the 
 water, the land not being elevated much above tbe lake. As a general 
 thing, it is not safe to depend upon the Isabella or Catawba as far north as 
 lat. 41° for a market fruit crop or for wine. 
 
 The most successful grower of these two varieties in the vicinity of New 
 York city is Dr. Underbill, at Croton Point, thirty-five miles up the Hud- 
 son, where the vineyard is almost surrounded by water, and is but slightly 
 elevated above it ; the soil a sandy loam, which has been deeply trenched 
 and fertilized by immense quantities of muck dug from a marsh that has 
 been subject to tide-water overflow. The same thing is true of the vine- 
 yard of J)r. Grant, upon lona Island, about ten miles farther up the Hud- 
 son. His land has been made homogeneous by trenching three feet deep, 
 and working in muck and manure compost. Upon such land in favorable 
 situatio'ns, below lat. 41°, the Isabella and Catawba can be grown ; but even 
 as far south as Maryland, as appears from the testimony of many persons, 
 other sorts are preferred. 
 
 726. How to Grow Grape Cuttings. — The most difficult thing with those 
 who have no experience about graj^e culture is to get a start from cuttings, 
 which, they are told, are just as good as rooted vines. So they may be to 
 those who know how to use them. The following plan of an amateur grape- 
 grower appears to be a good one : 
 
 " Have a box two feet high and about two and a lialf feet wide— the 
 length as 3'ou require ; fill half full of well-pulverized soil ; prepare the 
 cuttings with three eyes ; cut smooth below the bottom one ; place them in 
 a slanting position, with the last bud just above the soil ; nail a thin piece 
 of cotton cloth tightly over the box ; give warm soft water freely every 
 evening. Place the box in a sunny nook, and in a few weeks it will be 
 filled with grapevines ready for potting or planting in borders." 
 
 727. The Hardiness of Varieties of Grapevines in Winter, — The following 
 statement, published in 1860 in the Genesee Farmer, shows how the winter 
 afl'ects different kinds of grapevines at Rochester : 
 
 " In the garden of a gentleman in this city there is a long trellis, on which 
 are grown several vines of Isabella, one of Delaware, one of Rebecca, one 
 of Diana, one of To Kalon, and one of Hartford Prolific — -all having the 
 same exposure. 
 
 "The vines ai"e pruned early in the winter, and left tied up without any 
 protection, and are all from six to eight feet in hight, with laterals. 
 
 " Most of the buds of the Isabella are killed from the tops of the vines to a 
 line within two feet of the ground. This is particularly the case on young 
 wood of last year's growth, and many of these canes, even, are dead. 
 
 "The Diana suffered fully as severely as the Isabella, and shows live buds 
 only on the lower part of the vine. 
 
642 THE VINEYAKD. [Chap. Vir. 
 
 " The Rebecca and the Hartford Prolific were killed entirely, buds and 
 wood, within a foot of the ground. 
 
 " The Delaware is entirely uninjured ; every inch of wood is perfect to the 
 very tips, and all the buds are now bursting. 
 
 "The To Kalon is uninjured, and is as Lardy as the Delaware. 
 ■ " This test we consider a very fair one, and it must place the Delaware — 
 combining, as it now appears, superior quality with maturity and great 
 hardiness — at the head of all our varieties of native grapes." 
 
 At Utica, a vine obtained by a Mr. Foster from New Jersey, without a 
 name, almost as long ago as one of the same sort was taken to Delaware, 
 Ohio, proved to be the true Delaware, and stood eighteen years unprotected, 
 and never failed to yield him a full crop of most luscious grapes annually, 
 and had always ri]iened before our early frosts. 
 
 728. Five Grapes iu their Order of Excellence. — A correspondent of tlie 
 American Farmer, whose experience entitles his opinion to respect, fur- 
 nishes the following list of gra^^es, the merits of which are given in numer- 
 ical order : 
 
 " 1. Delaware. — Bunches and berries medium size, round, red ; ripens 
 four weeks earlier than the Isabella ; of the highest excellence as to quality, 
 hardiness, and productiveness. Its right eminently to the first rank is gen- 
 erally conceded by all who have learned its value. 
 
 " 2. Diana. — Bundles large, mostly shouldered ; berries large, round, 
 red ; vine vigorous and productive ; ripens two weeks later than the Dela- 
 ware, and approaches it in excellence, botli for table use and fdr wine. If 
 grown iu a small space, must be root-pruned at the end of the first season, 
 and if very vigorous, at the end of the second. 
 
 "3. Anna. — A white grape of the highest flavor; bunches and berries 
 medium to large; vine hardy and productive. It begins to ripen as early 
 as the Diana, but does not progress so rapidly, but is much earlier than the 
 Catawba, and greatly surpassing it in rich vinous flavor. 
 
 " i. Uerhemont.- — -An immense grower, and the most ornamental of all 
 our out-door vines ; perfectly hai'dy south of New York ; its berries are me- 
 dium or small iu size ; color deep purple, covered with bloom ; the bunches 
 are very large. Its rich, spicy, vinous flavor is very distinct and of the 
 greatest excellence. It is fitly desci-ibed by Downing, who says its berries 
 are bags of wine. An admirable variety for the latitude of New York city 
 and farther south. In texture and flavor it may stand in comparison with 
 the best European varieties. 
 
 " 5. Lenoir. — All that has been said of the ITerbemont will apply generally 
 to this variety, except that the Lenoir is much earlier, ripening at least two 
 weeks before the Isabella. Its fruit is very sweet, rich, sjiicy, and vinous, 
 and has a very high character for wine as well as for table use. 
 
 "The Reieccav;o\x\A deserve all commendation for the garden, were it not 
 that its leaves, which are not abundant, like those of the Isabella, in most 
 localities, are subject to mildew in unfavorable seasons. 
 
Seo. 42.] REMEDY FOR THE ROT IN GRAPES. 6-i3 
 
 " There are two other varieties that should not be passed without a word, 
 since few who have gardens would like to be without them, viz. : 
 
 " Union Yillage — which originated with the Shakers at a place of that 
 name near Cincinnati, Ohio, and was introduced by Mr. Longworth. In 
 appearance it is like a monstrous Isabella, and resembles it in flavor, but is 
 richer, and ripens at least one M'eek sooner. In bunch and berry it may be 
 represented as twice the size of that variety. 
 
 " The other is the — 
 
 " Eisinghurg. — This is directly the reverse of the above, having small ber- 
 ries, but of the highest flavor, and of a decided European character, but it is 
 hardy, early, and productive ; with care, its long shouldered buijches become 
 very handsome ; fruit sweet, spicy, and delicious. 
 
 "The skin of the Ilerbemont, Lenoir, and Elsingburg adheres firmly to 
 the flesh, like all of the foreign varieties." 
 
 729. Diseases of Grapes— Remedy for (he Rot. — The following remedy for 
 the rot, and the reason why it is a remedy, is translated from the Kolnische 
 Zeitung : 
 
 "Dr. Franz Yulkan, of Eppan, in the Tyrol, having learned by experience 
 that the parasites of vegetables can not exist on animal matter, has discov- 
 ered a remedy for the grape disease. He dissolved two and a lialf pounds 
 of common glue in ten gallons of water by boiling, and then cooled the so- 
 lution until it was neither stiff nor yet too watery, but had the appearance 
 of lye. Diseased grapes were dipped in this solution, and after forty-eight 
 hours they assumed a lustrous, dark-green color, like that of those which had 
 not been attacked. In September they ripened into the finest fruit. To 
 make sure that it was that solution which produced the desired result, he se- 
 lected three bunches on the same branch ; he dipped the whole of the first, 
 half of the second, and the third not at all. The first was entirely un- 
 touched, the second as far as it had been dipped, the third remained dis- 
 eased, and in four weeks burst and rotted. On another vine, where branches, 
 leaves, and fruit were infected in the highest degree, a similar experiment 
 produced a similar result. In places where large tracts of vines were struck 
 with the blight, single clusters were dipjjed, and these were healthy and 
 gave very fine fruit, Avhile all the rest rotted. Perhapis the sprinkling of po- 
 tato vines might be equally successful. The cheapness of that remedy com- 
 mends it to general use." 
 
 Mr. Bullock Webster, of England, writes from Athens that the applica- 
 tion of sulphur has proved most successful in Greece upon grapes, pota- 
 toes, beans, peas, fruit-trees, roses, etc. The sulphur ought to be ajiplied in 
 a very fine powder in the early stage of the growth of the plant, as soon as 
 any blight shows itself, either by means of a large tin pepper-box or small 
 bellows, by which a woman can dress an acre of vines per day. Should rain 
 fall within five days after the application of the sulphur, tlie operation has to 
 be repeated. 
 
 A French journal recommends removing the grape disease by brushin;j: 
 
644 THE VINEYARD. [Chap. VII. 
 
 off the fungus with a soft wing of a bird. The bunches appear covered 
 with a dust which is easily brushed off. In the experiments tried, tlie 
 bunches brushed perfected themselves, while those unbrushed entirely 
 failed. 
 
 In this section, a small caterpillar some seasons trims off the bunches of 
 gfapes. Perhaps it is only a pi-ovisiou of nature to prevent over-bearing. 
 "Wm. Aldrich, in a letter to the Gardcncr''s Monthly, relates a curious fact 
 in relation to the effect of different trees upon the healthiness of vines. lie 
 says: "A neighbor of mine has an Isabella grape on a Balm of Gilead tree, 
 bearing full crops of grapes, while vines on a Black locust generally rotted. 
 Another neighbor had a vine, one branch of which extended from a locust- 
 tree to a Balm of Gilead tree, with the same result between the different 
 branches of the same vine, thougli on the two respective kinds of trees." 
 
 Y30. Hints upou Piaiitiug, Pruning, Fertilizing, and general Care of Grapc- 
 vines< — Those who have neither the time nor the taste to carry out any par- 
 ticular system need not be fearful of producing plenty of fruit if they follow 
 the one cardinal rule, of not allowing any old wood to accumulate, for that 
 never bears a second time. This should be ever kept in view, for though a 
 vine may extend its shoots a hundred feet, or be traiud to a four-foot stake, 
 it will bear just in proportion to its strength. 
 
 It has been urged that our native grapes were more injured by pruning 
 than the exotic vines ; but whether this is so or not, remains to be fully 
 proved. The rot which attacks the Catawba and other natives has been 
 attributed by some to the French system of pruning, though not many ex- 
 periments have been made to prove it. The foreign vine is, as a general 
 rule, much more subject to disease here than our native sorts. We have no 
 doubt that much in regard to health as well as fruitfulness depends upon 
 pruning and proper training. 
 
 The importance of system in the treatment of the vine, both under glass 
 and in the open air, is therefore apparent. And independent of .those facil- 
 ities which attend it, the beauty which couies from method is a powerful 
 reason that we should practice it. With the adoption of system, the same 
 course of pruning is pursued year after year. When the vine is pruned 
 once, it is pruned again without much trouble; a fresh exertion of judg- 
 ment is not necessary that too much should not be taken away here or there, 
 and after all, the result be unsatisfactory. 
 
 The land for grapevines must be deeply disintegrated. It is idle to plant 
 them in hard ground, or stick them into holes dug or punched in a stiff soil. 
 There is no preparation equal to trenching with a spade three feet deep. 
 The next best preparation is by the double plow, reversing the top soil fifreen 
 inches, and stirring the subsoil ten or fifteen inches more with the subsoil 
 lifter. The very best manure for grapevines is swamp muck, composted 
 with animal substances. 
 
 The ground intended for a vineyard should be well manured the previous 
 year, either by a coating of lime, where that kind of manuring is proper, or 
 
Sec. 42.] HOW TO PLANT AND CULTURE VINES. 645 
 
 by gypsum, where it can be had ; or by plowing under some green-sward, 
 such as clover ; or; at least, by a good and thorough coat of manure, straw, 
 or even leaves. 
 
 Afterward the surface, for the depth of twelve inches, should be turned 
 beneath the next twelve inches with the spade, or if stony, with the mat- 
 tock. For this purpose a trench is first dug four feet wide, and to the 
 depth to which the vineyard-man is going to spade up and trench his vine- 
 yard. 
 
 It is far better to have a small, good vineyard, than a large poor one. 
 
 The ground thus spaded up should be permitted to settle well before the 
 vines are planted. One or two good rains will generally accomplish this. 
 The best method is to trench in the fall and plant in the spring. 
 
 We are all too apt to trust to the virgin richness of our soil, and in our 
 confidence are apt to forget that spading up the groimd for several feet is 
 done for other reasons besides mere fertilizing ; the present surface-soil being 
 full of decomposed vegetable matter, is the hot-bed of all manner of insects. 
 
 In ni^iy parts of Europe they spade up the ground to the depth of three 
 and four, and even five feet. We never prepare the ground itself during 
 the preceding year, while in Europe it is tended in clover with good coat- 
 ings of gypsum and manure. 
 
 Some soils are naturally rich and deep, liut we woiald sooner trust to a 
 hard, rocky, or gravelly soil that rec|uired digging with a mattock to the 
 necessary depth. 
 
 -In vineyards along hillsides it is well to use the stones for the purpose of 
 erecting walls. Where stones are lacking, you may raise banks by sodding 
 them. They are not as good as stone walls, since the green-sward is apt to 
 subject the neighboring vines to frost, but the ground must be protected 
 froui washing even at this risk. 
 
 Some persons suppose that throwing old logs, brushwood, or stones under- 
 neath, promotes the growth of vines. Tiiey ma}' not hinder them, it well 
 packed with ground, but great care should be had not to leave vacuities, as 
 thej' are sure to impart to the roots an unhealthy state. 
 
 One successful viue-grower throws in a layer of corn stalks or brush, cirt 
 M'ith the leaves on in summer, at the bottom of the trench. This serves as 
 a partial underdrain, and also as a manure. 
 
 George Husman, of Missouri, says : 
 
 "The best situations are generally our hillsides, with an eastern, south- 
 eastern, or southern exposure. The freer the location, and the more exposed 
 to the draft of our prevalent winds in summer, the better. The slojses ad- 
 joining small water-courses should be particularly avoided, as they are 
 peculiarly subject to frosts in winter and spring, and also, generally, to mil- 
 dew and rot. 
 
 "The Soil best suited for the vine is a drj', calcareous loam, with a jiorous 
 subsoil. Any soil retentive of moisture, for example, wet, stiff clay, or wet, 
 spongy land of any kind, should be avoided, as the grapes are much more 
 
646 THE VINEYARD. [Chap. VII. 
 
 subject to mildew and rot on such soils, and the vines are apt to make a 
 rampant, unhealthy growth. 
 
 " It' you intend to make a plantation of cuttings, they should he made of 
 sound, well-ripened, young wood, and contain at least four eyes or joints; 
 cut them off close below the lower eye, and about an inch above the upper ; 
 if a heel of the old wood is left attached, so much the better. They should 
 be cut in autumn, tied in bundles, and buried in the ground until wanted for 
 planting. This refers, of course, only to such varieties as Catawba, Isa- 
 bella, and otlier kinds whicli will grow from cuttings. Many of our most 
 valuable kinds, such as Norton's "Virginia, Delaware, and others, will not 
 grow from cuttings, and must be propagated by layering or grafting. Most 
 of those varieties which have very firm hard wood and but little pith will 
 not propagate readily from cuttings. 
 
 " As a general tiling, rooted plants are very much to be preferred when- 
 ever they can be obtained at a moderate cost. The first summer after plant- 
 ing, nothing is necessary but to keep the ground free from weeds, and the 
 surface well pulverized, either with the hoe, cultivator, or plow. Should 
 the vines grow very strong, they may be tied to the stakes used for marking 
 ofi" the ground, and only one shoot be allow,ed to grow. The next winter, 
 stakes should be provided. Here, again, opinions diifer, some preferring 
 simple stakes, others prefer trellis. The latter is undoubtedly the best, and 
 also the cheapest, if well made in the following manner : Take cedar posts, 
 where they can be had; if not, mulberry, walnut, locust, white oak, or any 
 other durable timber, split np to about three inches in diameter and seven 
 feet long. Point one end, and make holes with a crowbar two feet deep in 
 the spaces between the vines, setting the stakes firmly. To these' stakes nail 
 three laths, one about two feet from the ground, the others eighteen inches 
 apart. They can be split of black oak, one inch broad by half an inch 
 thick. Provided the stakes are made of durable timber, such a trellis will 
 last from ten to fifteen years; is much more convenient for tying the vines 
 and training the young wood to them, and will prove the cheapest in the 
 long run. 
 
 '•The after-culture of the ground is precisely as in the first and second 
 years. It is generally observed as a rule that, during wet seasons, the ground 
 should be kept clean and smooth, stirring but little. During dry seasons, 
 the ground should be drawn up to the vines and well stirred. Should a 
 vineyard show a decrease in vigor, it can be manured by digging a small 
 trencli just above the vines, laying in manure, and covering up again with a 
 plow or spade. 
 
 "Vegetable manure and compost I should consider most suitable; but 
 good decomposed stable-yard manure will also do. Ashes are, no doubt, 
 very beneficial to the vines. 
 
 " After the third year the vine may be considered as established, and a 
 full crop expected. It is in pruning now that the nicest judgment, as to the 
 capabilities of each vine for bearing, is required, as the success of the vintner 
 
Sbo. 42.] HOW TO PLANT AND CULTURE VINES. 647 
 
 in raising a good crop, and also preserving his vines in a healthy condition, 
 depends prineipally on judicious pruning. 
 
 " Pruning is best done late in autumn or early winter, but it can be fol- 
 lowed up all winter until the 1st of March, though it is best in autumn, as it 
 will prevent all flow of sap, and the cuttings arc also better if required for 
 propagating." 
 
 Summer 2n'i(ning is earnestly recommended by Andrew S. Fuller, of 
 Brooklyn, N. Y. He says : 
 
 " By summer pruning we do not mean the cutting off of large branches, 
 but a system of pinching or stopping the young shoots with the finger and 
 thumb, which is called summer pruning. When a vine is planted, we 
 should never allow but one shoot to grow upon it the first season, and never 
 allow any side-shoots or laterals to grow any length ; if we do, the Lnd at 
 the axil of the leaf where this lateral springs, M'liicli is the embryo fruit- 
 branch for the coming season, will be very much injured, if not entirely 
 destroyed ; besides, the sap will be distributed through many small branches, 
 instead of being concentrated into one strong shoot. 
 
 "In all modes of training, this operation is necessary for directing the 
 vital principle and proper maturation of the plant. It is not only an 
 economical operation, saving much labor that would be otherwise lost if the 
 vines were left until the annual pruning, but hy concentrating the sap 
 into that particular portion of the vine where it is needed, we are able 
 to produce a much larger quantity of superior fruit than we otherwise 
 siiould. 
 
 " The operation of pinching ott" the laterals is generallj' performed thus : 
 When they have pushed out and formed one or two leaves, then the end is 
 pinched off, leaving one leaf; when tliey have pushed again, pinch again, 
 and leave another leaf, and so on as long as the vine continues to grow. 
 This keeps them in check, and by leaving occasionally a leaf it does not de- 
 prive the vine of so many leaves as it would if the laterals were broken off 
 close to the main stem, as is sometimes done, and as we may safely do at the 
 beginning of the season ; but at midsummer, and later in the season, there 
 is danger of forcing out the next season's fruit-bud, which is at the base of 
 the lateral, and when this is done, of course you lose your next season's crop. 
 This summer-pinching has always been an operation that was strictly attended 
 to in all well-regulated vineyards in all ages. 
 
 "It was called, in olden times, pampinating — -taken from the word pam- 
 pinus, a young shoot; in later days, weeding the vines. Columella says 
 that we should suspend the operation while the vines are in flower, for 
 fear of destroying the embryo fruit — an idea worth remembering. The 
 main shoot may be stopped when it arrives at the proper hight, and then 
 let the uppermost buds push out and grow for a while, and then check 
 these. By dning so we can often make our vines much stronger in growth 
 than they would otherwise be if this was not done, besides ri'pening 
 their wood thoroughly. If we allow all the laterals or side-branches to 
 
648 
 
 THE VINEYARD. 
 
 [Chap. VII. 
 
 grow on a vine, and by doing so divide and subdivide the nutriment which 
 it receives througli iis roots, we shall then have many small and weak 
 branches, none of which will be strong enough to fully develop or mature 
 their fruit. 
 
 "In our northern latitude we have always observed that, when vines were 
 allowed to grow in this way, these small shoots were never well ripened 
 when the cold weather came, and the consequences were we had immature 
 wood and immature roots, both of which were destroyed by the cold weather. 
 For it is indisputable that unless a vine is made to mature all its branches 
 by the time cold weather comes, a corresponding number of its roots will 
 also be unripe. To this cause alone a great j^roportion of the failures in 
 vine culture in this vicinity can be attributed. Further, when we come to 
 the annual pnming, if we have one hundred branches to cut ofi" we make 
 one hundred wounds, each one of which will take a certain amount of al- 
 burnum to heal over, and thereby cause a vast amount of the strength of the 
 vine to be directed to this jDurpose, which might have been used in furnish- 
 ing food for new wood and fruit had there not been more than one tenth of 
 that number of wounds, which is all that would have been necessary if the 
 vine had been properly summer-pruned. 
 
 "No detiuite rule can be given that will be applicable in every case, for 
 Bome vines will grow strong and others weak ; some disposed to throw out 
 many branches, others few ; besides, each different mode of training will re- 
 quire summer pruning consistent with the plan adopted. 
 
 " In some modes of training it is found quite beneficial to pinch off the 
 end of the fruit-bearing branch three or four leaves beyond the last bunch 
 formed ; in other modes it would be very injudicious. But in pruning, as well 
 as in all other operations in the vineyard, the operator must fully understand 
 what he wishes to accomplish, knowing that certain causes will produce 
 certain results. Those who believe that nature is the best teacher, and 
 therefore leave their vines to ramble without check or restraint, would do 
 well to remember that our cultivated fruits are no longer wild plants, but 
 have, in a great measure, changed their natures, and have become somewhat 
 artificial and no longer in their normal state. 
 
 "The objects of pruning are various ; among the most prominent are, pro- 
 moting the formation of fruit-buds ; lessening bulk ; modifying form ; pro- 
 moting growth ; increasing tlie size and proper distribution of the fruit 
 among the branches ; creating an equilibrium between root and stem ; re- 
 moval of diseased portions of the plant, etc., all of which should be kept 
 constantly in view when the operation of pruning is being performed, for by 
 doing it we will save much time and be more likely to produce the intended 
 results. 
 
 "There are various opinions in regard to the best form in which vines 
 should.be trained ; but all of them that have been successful for any consid- 
 erable length of time have been founded upon the same principles. All 
 successful plans are commenced by a gradual accumulation of wood from 
 
Seo. 42.] HOW TO PLANT AND CULTURE VINES. 649 
 
 two to six years, at whicli time tlie structure may be considered as finished, 
 after whicli the vine is not allowed to extend, always pruning it to the same 
 point as nearly as possible from year to year. 
 
 " The vine is thus made to produce its fruit very near the old wood. 
 This is very important when high-flavored fruit is desired. The importance 
 of having old or matured wood in close proximity to the fruit is a principle 
 so generally conceded to be true by experienced vine-growers, that in the 
 best wine districts of Europe they seldom attempt to make wine for the 
 purpose of testing the quality of a variety until the vine has been established 
 for several years. It is necessary to have old or well-matured wood as a 
 basis upon which to grow your fruit. A superabundant quantity, instead 
 of being beneficial, is deleterious. 
 
 "This is one reason why all the various plans that have had for their object 
 the entire renewal of the vine biennially or triennially from the same root have 
 been discarded when thoroughly tried. These renewal plans have often 
 been brought forward by theorists, but what is equally true, none of them 
 have succeeded, and at the present time not one of them is in successful 
 operation. 
 
 " Another difficulty which we have had to contend with, when growing 
 vines on these renewal plans, is that we are obliged to resort to such severe 
 pruning at the time of renewal, that we destroy the equilibrium between 
 root and top. When the vine has become fully estal)lished (say from five to 
 ten years, and no vine can be considered as establtshed in less time), it is 
 with great difficulty that it can be restrained sufficiently to produce a healthy 
 shoot from the one eye or bud to which it is pruned. 
 
 "The large amount of food which will be accumulated in the roots of a 
 healthy vine, and is constantly being collected by them, can not find em- 
 ployment, and the new shoots or shoot which put forth can not consume this 
 superabundant supply, and a sort of plethora is produced. A portion of the 
 roots becomes inactive, and consequently decay. 
 
 " Let any one examine the stump of a large tree that has been cut 
 down, and he will see this fully demonstrated. A few trifling shoots may 
 be produced which will grow rapidly, biit the greater portion of the old 
 roots will die in consequence of the sudden check which they have received. 
 Some varieties of trees will not produce sprouts at all from the old root 
 when the top has been cut away, while others will produce them in 
 abundance. 
 
 "We believe the only true mode of renewing the entire vine, when it 
 has become enfeebled by age or accident, is by layering a portion of its 
 young shoots. This is the general and successful method practiced in old 
 and established vineyards. 
 
 "The first pruning a nursery vine receives is when it is transplanted, at 
 which time it should be cut down to one eye or bud above the ground, from 
 which one shoot is allowed to grow. This should be kept tied to a stake, 
 all side shoots, or laterals, as they are termed, plucked off", leaving one leaf 
 
650 THE VINEYAED. [Chap. VII. 
 
 on them the first time ; if they start again, pinch them oif, leaving another 
 leaf, and so on through the growing season. 
 
 " The second year the vine is down to two buds, if strong, but if weak, 
 cut again to one bud, and repeat the operation as the first year. When the 
 vine makes a strong growth the first §eason, it may be safely cut back to 
 two buds, and from there we allow two slioots to grow, which must be at- 
 tended to during their growth, such as tying to stakes, or trellis, and pinch- 
 ing off laterals, as was done the first year. 
 
 " The third year we are supposed to have two strong shoots from one root, 
 and we are now ready to adopt the plan on which m'c intend to train our 
 vine. Nearly all the systems now in use start from this point, whether it 
 be the bow system, thomery, or the common trellis plan ; this seems to be 
 the starting-point for them all. 
 
 " A very simple plan, and one •which is peculiarly adapted for a trellis, is 
 formed by bending down the shoots which we sliould have on our vine at 
 the end of the second or third year, to form horizontal arms, leaving them 
 about two feet long. The shoot that grows from the end bud we save for 
 continuing the arm next season ; but it should not be lengthened more than 
 two feet in any one season. Only the number of buds required for the up- 
 right shoots should be left to grow upon these arras. The upright shoots 
 are to be cut down to one or tAvo eyes every year, and from the young slioots 
 that spring from these we obtain our fruits. 
 
 " Another mode is t»^ut down every alternate shoot to one eye, and the 
 others to four or five, the long canes bearing several bunches, and the others 
 none. Next season this order is reversed, those bearing this year bear none 
 the next, and so on. 
 
 " Sometimes a vine is planted in a trench five or six feet from the trellis 
 or wall on which it is to be trained, and each year a portion of the vine, 
 say two feet, is layered, and thus we go on, step by step, until we reach 
 the trellis, and have formed our two shoots for arms. The object of this 
 layering is to get a large quantity of root before the vine is called upon 
 to produce a large quantity of fruit. There is a sufficient amount of top 
 allowed to remain on the vine each year (which is also allowed to bear 
 fruit) to keep the roots active and healthy. Whatever system you adopt, 
 let it be vigorously adliered to until yon succeed or fail ; and in case the 
 latter is your fate, you may confer a great favor upon others by doing so, 
 for it is often the case that the failure of one man is of more benefit to the 
 community than the success of many. If you do not adhere to the one sys- 
 tem that you start with, we can not tell whether it was your neglect or the 
 fault.of the system that caused the failure. Of course we are supposing that 
 there is no fault in the variety or in the cultivation." 
 
 Mr. Fuller advocates the single eye system for propagation, as likely to 
 produce the best vines in the shortest time. The old -wood serves to nourish 
 the new shoot until it can send out new roots to sustain itself. The best 
 plan for framing vines for family use is upon trellises. Ko vine should 
 
Sec. 42.] HOW TO PLANT AND CULTURE VINES. 651 
 
 ever be trained upon an arbor for any other purpose than a shade. Never 
 use an arbor to grow fruit. It is very difficult to arrange an old vine into 
 any good shape; to malvc a good one, you must start ariglit Avith a new 
 vine. Upon whatever plan you train your vines, make j-our fruit grow 
 close to the grouud — that is, within reacli without using a fireman's ladder. 
 He gives the following as the pliilosophy of autumn pruning : 
 
 " During active growth of leaves and stems the liquid portion of the sap 
 is exhaled almost as fast as it enters the vine. When cold weather lii'st 
 checks growth, it does not affect the roots, Avliich continue absorbing food. 
 In autumn, then, the vine becomes surcharged with sap, which, during win- 
 ter, undergoing its natural change, would deposit solid matter througliout 
 tlie entire length of the vine, so that each bud would be equally supplied 
 with its quota of food to commence vegetation anew in spring. Now, sup- 
 pose a portion of the vine is cut away in the fall or early winter, it is ap- 
 l")arent that what remains has the whole root for its support, and it may 
 receive all the strength that wonld have been diffused throughout the un- 
 pruned vine. These few buds will of course put forth in spring mucli more 
 vigorously, and continue to send out fruit-bearing wood in g:-eater perfection 
 than it is possible for an unpruned vine to do. 
 
 " The rule for pruning, then, should be : If the vine is weak, prune early, 
 that is, as soon as it sheds its leaves. If your vine bears fruit, and is not a 
 vigorous grower of wood, and you wish it to produce more, prune early- 
 If your vine is a vigorous grower, but a shy bearer, 'prune late. If severe 
 cold may soon be expected, at the time you are pruning do not cut the 
 cane near a bud, but several inches above it. If desirable, you can cut 
 away the spur above the bud after cold weather is past. The growth of 
 wood or fruit is regulated more by pruning than by the soil in which the 
 vine is grown. 
 
 "It may be set down as a fact, that no vine in the climate of New York 
 can ri])en a crop of fruit upon all the wood its roots will produce." 
 
 In pruning, the vintner should have a two-fold object in view. First, to 
 raise a good crop of well-developed and well-ripened fruit ; secondly, to get a 
 supply of strong, well-ripened young wood, to give a good crop next season. 
 
 Dr. Underbill says : 
 
 "It depends upon the richness of the soil about summer pruning. If the 
 soil is very rich, there is danger of the fruit-buds starting as soon as the lat- 
 erals are pinched in. If the laterals and leaders are both pinched off, the 
 tendency will be, in a strong, growing vine, to send out the fruit-bud form- 
 ing, so as to have new grapes in autumn and no crop next year. In mod- 
 erately fertile soil, the Isabella will bear pinching m pi-etty closely, but not 
 upon highly fertilized vineyards. I do not of late stop the growth of my 
 Isabellas. I think the practice of summer pruning inapplicable to the Isa- 
 bella variety and all other strong growing plants. 
 
 " The Catawba grows its wood more firndy, and admits the German cul- 
 tivation better than the Isabella. No grape but one of slow growth will 
 
652 THE VINEYARD. [Chap. VII. 
 
 bear to be cu]tivatecl entirely on the renewal system. • I would put new 
 plants into generous soil, and give tliera all the growth I could to ripen the 
 wood thoroughly. Still, it is not best at any time to drive the growth of a 
 vine too fast. A rapid growing vine, or a vineyard forced by high manur- 
 ing, will not make as good wine as one of slower growth. Bones and com- 
 post of muck and yard manure are the best fertilizers. I never use guano, 
 nor any very heating manures, such as that from the hen-house or pig-pen." 
 
 The advantage of taking off laterals off a very rapid-growing vine is to give 
 the fruit moi'e sun and air. 
 
 " In 1860 it was estimated that there were about four thousand acres laid 
 out in vineyards in the State of Ohio, of which nearly one half were in the 
 immediate vicinity of Cincinnati, and witli good weather that the yield 
 would be 1,600,000 gallons of wine. 
 
 " Propagating choice vines by layering should be practiced by all. 
 When trimming your vines in the fall, save one or more of the canes of well- 
 matured wood, and in the spring dig and manure the ground in a line for a 
 trench, in which to lay down the vine, which at first you may cover about 
 two inches deep. Drive some pegs over the vine to keep it fast, and when 
 the eyes have sprouted and grown a foot or so high, tie them to stakes, and 
 earth up around the base, and repeat this from time to time until the layer 
 is six inches deep. The result will be that each upright will become firmly 
 rooted, and be a good vine for transplanting next season." 
 
 731. What Is a Merchantable Grapevine ? — A vine with a stem no bigger 
 than a straw is not a fair merchantable vine. Such a vine, of one of the 
 very rare sorts, may be sold to a purchaser present who perfectly under- 
 stands what he is buying, but should not be sent out to fill orders. Neither 
 should a stump of a vine, upon which a few roots have been forced to grow 
 in a hot-house pot. No definite rule can be adopted as to the size of vines, 
 because there is a great variation in growth of different varieties. The 
 Isabella, the Catawba, the Concord, the Northern Muscadine, the Hartford 
 Prolific, and some others, are strong-growing, rather coarse, woody vines, 
 which at two years old might be twice as large as a good Delaware, Diana, 
 Eebecca, Anna, or some other sort that does not make wood fast while 
 growing. The Delaware, in particular, grows a small, hard, wiry vine, very 
 hardy, and well rooted. 
 
 A No. 1 Delaware vine, from an honest nurseryman, will have a cane 
 as large as a pipe-stem, with three good eyes and a mass of fibrous roots, 
 which will require a hole twelve to eighteen inches across to spread them 
 out in, as they should always be in planting a vine. The Diana, Kebecca, 
 Lenoir, and Anna are of the same character of growth, and should be of 
 the same size to be " merchantable." 
 
 The Catawba, Isabella, Herbemont, Concord, Hartford Prolific, Union 
 Village, Canby's August, etc., being vines of a stronger growth, should be, 
 when sold from nurseries, the size of one's little finger, with either entire 
 canes or three eyes and plenty of roots. Such vines may be taken as a fair 
 
Sko. 42.] HOW TO PLANT AND CULTURE VINES. ^653 
 
 standard, and people ■who are anxious to plant vines should not be cheated 
 hj having inferior ones palmed off upon theni. It is that which discourages 
 them, and sets back the grape cultivation more than all we have said in irs 
 favor for years can set it forward. 
 
 732. Grape Culture in f aliforniai — In no other part of the United States 
 has grape culture advanced with such rapid strides as it lias, or rather does 
 (1861), in California. The California Farmer of September 7, 1S60, speaks 
 of a vineyard ■wliich the editor visited in Sonoma, on the estate of Gen. 
 Vallejo, managed by Mr. Eyan, that looks like rivaling in a short time some 
 of the large vineyards of Europe. It says : 
 
 "TJie old vineyard called Laehrynia Monte, or 'Mountain of Tears,' was 
 planted M'itli about 3,000 vines by the old Jesuits. The trunks of the vines 
 are now like trees ; the balance of this vineyard — 7,000 vines — was planted 
 in the years '56, '57, and '58. 
 
 "The new vineyard, which contains 20,000 vines of California grape, and 
 5,000 foreign varieties, was all planted on subsoiled ground thoroughly pre- 
 pared, twenty to twenty-four inches deep, and these vines are now doing ad- 
 mirably. 
 
 " Dr. Victor Fourze is the vintner, and the wine vaults are five in 
 number; four are 22 by 50 feet, and one 20 by 40 feet; the buildings are 
 adobe, very thick walls, floors double, and admirably fitted up as wine 
 cellars. Tlie stock on had now is about 8,000 gallons, and several parcels 
 bottled of wine of '56 to '60. The amount anticipated this year is 15,000 
 gallons, and he will make 5,000 or 6,000 bottles of champagne, besides 200 
 gallons of brandy. 
 
 " Col. Harasztby's vineyard is on a tract of mountainous land of about 
 5,000 acres. Tlie vineyard covers 260 acres in all. There are now SiJ 
 acres in bearing, with CSO vines to the acre, set 8 by 8 feet, which is the 
 proper distance. The vines bore well last year, and made 4,000 gallons No. 
 1 wine. They will make this year 60,000 gallons, valued at $1 50 the gal- 
 lon, or $90,000. Some lots of vines averaged forty pounds per vine, and 
 there were vines that gave 300 pounds ; these were California grapes. Col. 
 Harasztby has already one hundred and eighty-six kinds of foreign vines, 
 but has tested only thirty-six kinds. He has already contracted to deliver 
 to Messrs. Grossinger, of San Francisco, 300,000 pounds of grapes this year 
 at 3i cents per pound, four miles from the vineyard, the purchasers to find 
 boxes. This will establish the value of grapes at wholesale for wine 
 purposes. 
 
 "The wine cellars of Col. Harasztby are made into the hill, composid tf 
 concrete matter, chalk, lime, blue clay, and gravel stone. There are two 
 cellars now, one is forty feet deep and the other one Imndred feet deep. 
 There is a new one building, which is to be 400 feet deep ; the first one is 
 fourteen feet wide and eight feet high, the last will be sixteen feet wide and 
 ^even and a half feet high. These are grand and complete cellars, being 
 moist and dark. The temperature will be uniform ; it should be sixty de- 
 
G54 . THE VINEYARD. [Chap. VII- 
 
 gi'ees, and moist. Some persons object to moisture in wiue cellars because 
 the casks decay, but the gain to the wine and less loss doubles the loss on 
 casks, as the evaporation of wine in dry cellars is great ; in moist cellars the 
 loss on a sixty-gallon cask is only one half gallon ; in a dry cellar, one and 
 one half gallons. 
 
 " The experience of Col. Harasztby is, that foreign vines are superior to the 
 California grape for wine, and he will not plant any more California vines. 
 There have been planted in Sonoma more than 1,000 acres. 
 
 "It is getting to be so common a thing in California to find vineyards of 
 eight or ten thousand vines, that they are not deemed particularly worthy 
 of notice. So rapid is the increase of vines, and the manufactures of wine 
 in this State, that the day is not distant when ships sent with cargoes — if 
 they have anything to send — from New York will return freighted with 
 wine-casks, and California wine will be as common in this city as wine from 
 France. It is also asserted that raisins can be manufactured in California, 
 and will be as soon as the price of labor finds a level corresponding with 
 other grape-growing countries. 
 
 " In France, a first-rate crop of grapes is 5,000 lbs. per acre, while 2,000 
 lbs. is regarded a fair crop. In the grape-growing districts along the Ohio 
 River, where a superior grape is produced, 8,000 lbs. is considered a very 
 large crop — 4,000 to 5,000 lbs. is regarded as a good average; but in Cali- 
 fornia, the ordinary crop is from 10,000 to 13,000 lbs. to the acre, and more 
 is not unusual. 
 
 " In the Old World, and in the Atlantic States, the grape crop frequently 
 fails on account of trosts and disease ; here, it is sure to yield abundantly. 
 There, the vine must generally be supported by poles ; here, it stands without 
 artificial aid. There, a large amount of cultivation is costly ; here, it can be 
 had for almost nothing. Tliere, the rains frequentl}^ interfere seriously with 
 the ripening and gathering; here, during the vintage, we have an un- 
 clouded sky. The returns of last year show the grape crop to have 
 been 51,000 tuns, and the wine product 300,000 gallons, besides a large 
 quantity of brandy." 
 
 733. Grape Culture in Austria. — Although European culture is not alto- 
 gether appropriate to this country, we think there are some things stated in 
 the following excellent letter from Austria, written by A. Hamilton Gilberts, 
 that are well worthy of preservation in this volume. He says : 
 
 "At the first planting of a vineyard in this country they invariably 
 use cuttings — so invariably that they would throw away a root and take a 
 good cutting from the vine to set out in preference. The manner of setting 
 out or planting is to dig a hole in the ground three feet long by two feet 
 wide, and the rule for tiie depth is, as deep as to a man's knee ; and the cut- 
 tings they use are the length across the bottom of the hole, up the side, and 
 lying against the side to the top of the earth. They then put into this hole 
 about five cuttings, spread along about two feet, the ends reaching six or 
 eijlht inches above ground. The man then stands in the hole on the vines 
 
Sec. 42.] HOW TO PLANT AND CULTURE VINES. 655 
 
 and cuts in the standing sides of the hole, treading the earth close upon the 
 vine about six inches deep, and then hauls the balance of the earth in, and 
 fills the hole up a little rounding. It is usual to throw in a handful of wheat 
 among the cuttings before filling in the earth. Its value I do not know. 
 The cutting in tlie side earth is to give a large, loose area to the roots. 
 
 "They put in live cuttings to insure vines enough. They make the holes 
 about nine to eleven feet apart in the rows, and the rows about twelve to 
 fifteen feet apart. 
 
 "The first and second year nothing is done to the vine except to keep the 
 ground loose and free from weeds. 
 
 " Between the rows they usually sow wheat or oats, or plant corn ; and I 
 notice they always plow a shallow furrow one foot from the vines, and turn 
 the earth away. If they do not plow they make this trench with a hoe. 
 
 "The third spring from setting out they tiim the shoots down very close 
 — say, leave one or two leaf-buds and set sticks to train the vine to, or what 
 is more usual, they plant with the cuttings a slip of a tree, somewhat re- 
 sembling the Lombardy poplar, which they head down, and only use to 
 support the stock. This third year the vines yield a few grapes. The spring 
 of the fourth year they take two or three of the most vigorous vines and 
 bend tiiem over about the hight of the knee, and carry them along hori- 
 zontally toward the next hill or cluster of vines, and bring some of the 
 shoots from that cluster, and wind and tie them together. If they do not 
 reach together, they cut a limb from the poplar and lengthen them out. 
 From tliese horizontal vines. they expect their grapes. 
 
 " It is of course a known fact that the climate of Europe, on the same 
 ]iarallels of northern latitude, is much milder than ours in New England. 
 The region in which the vines I send you grew lies a little north of 45 de- 
 grees, yet snow is rare, and ice on large bodies of water seldom seen over two 
 inches thick. We have, however, cold, piercing winds occasionally until 
 the middle of April. 
 
 "The mode of cultivating the grape here is in some respects peculiarly 
 adapted to a more inclement climate. They rarely allow the main trunk to 
 grow much higher than the knee, and the vines are trained together by 
 tying, and support themselves, or are helped temporarily by a stick in the 
 growing season, and then they can be trimmed in November, and brought 
 into a very small compass, and protected from the most extreme cold. 
 
 "The Tesano Eefosco is the grape from which is made the choice wine of 
 that name. It is quite peculiar to the province of Istria. A peculiarity of 
 its manufacture is, that after the fruit is ripe, the vine on which the fruit is 
 borne is cut oif, but suffered to hang in its place until it shrinks a little be- 
 fore it is picked and the wine made. Tliis is not a good table grape. 
 
 " The Muscats are of two varieties, the white and black. They are both ex- 
 cellent for eating out of hand, particularly the white variety, and both make 
 a good common wine ; that of the white is considered the best summer wine. 
 They usually mix them together in planting. 
 
656 THE VINEYARD. [Chap. VII. 
 
 " The Tesano is tlie grape from which the best of the common red wine 
 of this country is made, that is universally drank by all classes. Its retail 
 price is about twenty cents a quart. About half a pint of wine and bread, 
 worth a kreutzer — a little less than a cent — make the daily breakfast of tens 
 of thousands from childhood to old age. Such wine is simply the juice of 
 t!ie grape — a pleasant, cooling beverage, slightly acid. It is transported 
 into the city in two huge leathern bottles, across the back of an ass, quite in 
 the primitive way. 
 
 "It is most customary, however, for the country people to bring the fruit 
 into the city fresh from the vines, in large conical tubs, on rustic carts ; stop 
 in front of the houses, and inquire if you wish to buy their wine ; if so, then 
 they press it out and put it into barrels, and go on. It is then used with- 
 out adulteration or refining, after the first fermentation ; and in this form I 
 can readily appreciate it, with the corn and the oil, an inestimable gift from 
 a beneficent Providence. 
 
 " The Uva Bianca, or common white grape of the country — a large, delicious 
 grape, very good for dessert — makes a good summer wine. 
 
 "The Olovina, also a good table grape, large fruit, and from which, alone 
 or mixed, as is common with the Tesano, a good red wine is made. 
 
 "The common method pursued by those who make a large quantity of 
 wine is to cut their grapes in clusters and put them in large vats, with a 
 grating about midway of the vat, so fine as not to let the stems and leaves 
 through, but to admit the pulps and skins to fall to the bottom; the grapes- 
 are mashed, and usually turned once each day with a stick or ladle, for eight 
 days ; then the wine is drawn off and put into barrels, tlie bung left loose 
 four weeks ; it is then bunged tight or put into bottles. If kept in tlie bar- 
 rel and drawn from that for use, the bung should be just drawn and a little 
 fine sweet-oil poured in ; it makes a coating on top of the wine, and keeps, 
 it from souring. 
 
 " For the best wine for family use, tlie grapes are not mashed, but are 
 suffered to buret by fermentation. The wine is more delicate." 
 
 It must be kej:it in mind that the above rules of wine-makers, simple and 
 easy as they may be in Istria, witli the grapes of that country, may not be 
 so applicable in America, as the information we will give in the next section. 
 But all who desire to make wine should read both directions carefully. 
 
Sec. 43.] 
 
 CULTURE OF GRAPES FOR WINE. 
 
 657 
 
 SECTION XLIII.-CULTURE OF GRAPES FOR WINE-RULES FOR WINE- 
 MAKING. 
 
 ,_ IST Section XXVI. we have given rules suited to domes- 
 l'' tic wine-making, though principally intended for other 
 fruits tlian grapes. Some of tlie matter of this section 
 will be interesting to those who have, or may be about to 
 plant, vineyards. The production of pure wines for home 
 consumption is a subject not only of much importance as a 
 matter of economy to us as a people, but of still greater im- 
 portance as it relates to matter of health with the masses, 
 and will continue to be so as long as so many will persist in 
 drinking something besides water. We will not attempt to 
 discuss the subject of total abstinence, or whether wine is 
 better than water, but when we look over the past history 
 of man, wo find him always attempting to improve or change 
 the works of nature. He is not content with the fruits and 
 vescctables of earth as he finds them, but is continually trying to bring about 
 a change, or, as we express it, an improvement. A good and pure wine made 
 from good grapes has been acknowledged for ages to be a drink that is con- 
 ducive to the health and long life of the partaker. But it must not be ex- 
 pected that a palatable wine can be made from a hard and unpalatable 
 grape, and a wine made from such a grape, and made palatalde by mixing 
 some foreign substance with it, is well known to be pernicious ; and we have 
 been surprised to hear men state that large quantities of pure wine had been 
 made from our Northern Fox grape, with only the addition of sugar, when 
 they must know that when cane sugar is added to the juice of the grape it is 
 no longer pure wine. 
 
 A grape to make wine like the finer wines of Europe must contain sugar 
 and tartaric acid in sufficient quantities to make it spirituous and vinous, 
 but not strongly alcoholic ; although the alcohol that is generated by the 
 fermentation of grape sugar is not the same as that produced by the fer- 
 mentation of cane sugar, and it does not produce the same efl'ect upon the 
 human system. 
 
 Taste is simple, but flavor is compound. Thus, by high flavor in the 
 grape, we mean the combining of grape sugar and tartaric acid along with 
 that peculiar vinous aroma which belongs to the grape alone ; and when we 
 drink of its juice we taste what we smell, and both sets of organs which 
 constitute those of tasting and smelling are alike refreshed, invigorated, 
 and delighted. The mouth is left cool and free from that acrid, biting 
 sensation which is experienced when we partake of inferior grapes or wine. 
 734. What Makes Good Wiue. — The great difficulty with our grapes has 
 
658 
 
 THE VINEYARD. 
 
 [Chap. VII. 
 
 been that they did not contain sugar enougli to create alcoliol in sufficient 
 quantities to prevent tlie wine undergoing tlie acetic fermentation instead of 
 the vinous ; so tliat we had vinegar instead of wine — unless we added sugar, 
 which produces rum, and grape juice instead of pure wine. Grape sugar 
 and cane sugar are chemically different, therefore we conclude the alcohol 
 produced by the fermentation of the two is different. Although chemists can 
 not or do not tell us in what the difference consists, yet we know that they 
 act differently upon the human system. A grape to make wine that is pal- 
 atable and that will keep, must contain sugar enough to produce a certain 
 amount of alcohol, but not in such quantities as we get in our imported 
 trash, or in wines made from our poor sour grapes, with sugar added. None 
 of the best pure light wines of Europe are ever imported, for the very reason 
 that they will not bear a sea voyage unless they are recharged with alcohol. 
 Those who have been accustomed to sweet wines and sweet drinks of all 
 kinds, do not appreciate a pure wine if it is a little sour, as most of the 
 pure wines which contain but a small per cent, of alcohol fft-e. The acid of 
 wines is mostly tartaric acid, and therefore comparatively healthy. The 
 preservative qualities are alcohol and tannic acid, with a small quantity of 
 malic acid. Sometimes, when there is not sugar enough to produce alcohol 
 sufficient to preserve the wine — and a sour wine is not objectionable — the 
 juice is fermented with the stems and seeds, so as to extract more of the tannic 
 acid which is mainly derived from these. The wines made in hot climates 
 are more alcoholic than those of colder countries ; and when we get grapes 
 here that will make wine that is sweet enough for our tastes, or our tastes 
 become modified or cultivated so that we can appreciate a pure wine, then 
 we may rest assured that this latitude of the United States will produce as 
 pure and wholesome wine as any other country of the globe. 
 
 735. Wiue from Several Kinds of Grapes— Per Cent, of Alcohol. — John L. 
 Mottier, of Cincinnati, one of the best wine-makers in that city, has made 
 wiue from the Delaware, Ilerbemont, Minor, Lincoln, Union Village, and 
 Catawba grapes, nothing but pure juice, without the addition of any foreign 
 substance, which has been pronounced equal to any foreign wine. 
 
 The Isabella grape seldom contains sufficient sugar to produce alcohol 
 enough to keep it. If the grapes are partly dried before they are pressed, 
 the proportion of sugar to the juice is greater and the wine far superior, but 
 we do not consider it a good wine-grape. The best six wine-grapes in the lati- 
 tude of Cincinnati are named in the following order, and their relative quality 
 gi'aduated by Mr. Mo; tier in the order they are named : 
 
 1. Delaware. 
 
 2. Herbemont. 
 
 3. Miaor's Seedling. 
 
 4. Lincoln. 
 
 5. Catawba. 
 
 6. Union Village. 
 
 "With the Diana he had but little experience, but from the wine he had 
 made from it, he was inclined to place it next to the Delaware, in the place 
 now occupied by the Herbemont, that grape having proved to be very un- 
 certain in its crops, as the viue is too tender for this climate. 
 
Seo. 43.] CULTURE OF GRAPES FOR WINE. 659 
 
 The DcJaioai'e wine was the richest, and preserved tlie real bouqnet of the 
 grape, and it improved by age. The vintage of 1859 contained 81 j)er cent. 
 of alcohol. 
 
 Ilerhemont. — Very uncertain ; no good wine since 1850 nntil 1859, when 
 the crop was good ; wine very good ; quite delicate ; will not bear trans- 
 jwrting to any great distance. Alcohol, 5i per cent. 
 
 Minoy's Scedlmg. — Quite foxy in flavor, but a fine light-colored wine. 
 Alcoliol, 6 per cent. 
 
 Lincoln. — A dark-colored wine ; resembles the finer grades of clarets, only 
 much better tliau that we generally import. Alcohol, 4i per cent. 
 
 Catau'ha of 1859. — Much body and strength ; light amber color. Alco- 
 hol, 8 per cent. 
 
 Union Village. — A beautiful dark-colored wine ; not much body or 
 strength ; will make a fine, light, summer drink. Alcohol, 5i per cent. 
 
 These wines were all made from the grapes without the addition of sugar 
 or any other substance. Tlie grapes ai'e gathered when very ripe, and all 
 green, broken, or decayed berries picked out and thrown aside ; all the aji- 
 paratus that belongs to wine-making is kept in perfect order, and cleanli- 
 ness is a prominent feature with all siich wine-makers as Mr. Mottier and 
 Mr. Schneicke, as it always must be in every establishment where good wine 
 is expected. The wines of Cincinnati have already become so celebrated 
 that they sell for a much higher price than many of our imported wines. 
 It is charged that large quantities of poor Rhine wines have been taken to 
 Cincinnati and put upon the lees of the Catawba and fermented with them, 
 and then sold at a profit for Catawba wine, for that will bring $1 25 per 
 gallon, when cheap claret can be had for 50 cents. 
 
 To show that our pure native wines are not so strongly alcoholic as many 
 common drinks, we will give the amount of alcohol that some of these 
 beverages contain. Of course they vary much iu diflfevent specimens, but 
 this list will show very nearly the average : 
 
 Currant wine 20 per cent. 
 
 Porter 23 " 
 
 Champagne (pure) 12 " 
 
 Gooseberry wine 12 " 
 
 736. Rules of a French Wine-Maker. — The following are the rules adopted 
 by an extensive vineyard proprietor, as we find published in the Vignej'on, 
 a French journal devoted to the interest of grape-growers. These rules, in 
 all essential particulars, are as applicable in America as France, and are 
 very concise and pertinent. 
 
 "1. The grapes should not be gathered until they have arrived at com- 
 plete maturity, that is to say, when they do not grow sweeter in a sensible 
 degree. If the weather is good, they maj' be allowed to hang some time 
 after this for the purpose of giving the wateny parts of the fruit time to evap- 
 orate. This increases considerably the strength and sweetness of the wine. 
 Black grapes intended for red wine should not be allowed to become too 
 ripe; if they do, they injure the color of the wine. 
 
 Elderberry wine 9 per cent. 
 
 Cider 7J " 
 
 Ale 7 
 
 Tlie lowest Rhine wines 4i " 
 
660 THE VINEYARD. [Chap. VII- 
 
 " 2. The vessels should be clean, and, above all, should not have con- 
 tained soured wine. Care should also be taken that nothing should be al- 
 lowed to fall into the must, which might cause acidity during the ferment- 
 ation. 
 
 " 3. "White grapes should be put into a tub and pressed as quickly as pos- 
 sible, with the stems on. If obliged to wait before pressing the must, take out 
 a portion at least of the stems, else the wine may taste of them. The must of 
 weak and mucilaginous wines ought to be allowed to ferment some days 
 with the stems, so that the tannin whicli they contain will assist in the pre- 
 cipitation of the mucilaginous matter. For good wines, the mash or resid- 
 uum of the grape should never be pressed, as tlie last juice which comes 
 from the press usually contains a great deal of acid and but little sugar. 
 
 "4. For sharp Avines of inferior quality, and for sweet and mucilaginous 
 wines, it is indispensable to put the must into open tubs, and leave it there 
 several days. There forms during this time a layer or stratum of a dirty 
 browu color, which contains a great part of the mucilage, yeast, and acid 
 rejected by the must, and which sliould be taken otf with care every time it 
 forms, so as to remove all those substances which alter the taste of the wine, 
 cause fermentation, and do a great deal of mischief. 
 
 " 5. Care should be taken not to put the must into casks which are dirty, 
 or which have been fumed witli sulphur. There are some wine-makers who 
 think that the fumes of sulphur applied to casks preserve the sweetness of 
 wine, and purchasers are cheated in the quality of the wine by tlie sugar 
 which the unfinished fermentation has left without decomposing. Tlie fol- 
 lowing summer these wines are found to be muddy, and ferment often with 
 great force, become sour, and are often completely spoiled. Wine should 
 be placed in casks which have not been fumed, and no obstacle to fermenta- 
 tion should be opposed. There is no exception to this rule, save for those 
 autumns which aic unusually warm, and which cause fears that the fer- 
 mentation will be too strong. In such a case the vessels may be fumed 
 with sulphur. 
 
 " 6. The fermentation of red wine should be treated differently from that 
 of white. The must of black grapes may remain twenty-four hours with 
 the steius, so that tlie tannin contained in them may communicate itself to 
 the must ; then the stems and seeds should be separated by means of a sieve, 
 and the must poured into open vessels, which should be lightly covered 
 during the fermentation. The temperature of the must, during the fer- 
 mentation, sliould not be allowed to exceed 15 degrees of Reaumur (65f de- 
 grees of Fahrenheit), in order to prevent the spirit from escaping. Every 
 three or four hours the fermenting mass should be stirred, so as to prevent 
 it from souring. 
 
 " 7. At the end of fifteen or twenty days, when all action has ceased, and 
 the skins have yielded their coloring matter to the must, it should be put 
 under the press and strongly squeezed, so that all the coloring matter shall 
 be extracted. The wine is then placed in casks not fumed, and if it is de- 
 
Sko. 43.] CULTURE OF GRAPES FOR WINT;. 661 
 
 Bired to increase the capacity for tannin, some of the sceds^whicii should be 
 separated by a sieve from the mash — -should be added to it. 
 
 " 8. If the weather is cold, the openings to the cellars should be closed, so 
 that the fermenation may meet with no interruption. Persons should never 
 enter the cellars until they have been tested for carbonic acid by a light. 
 The carbonic acid may be driven from the cellars by opening all the issues, 
 by lighting a tire on the stairway, by throwing hot water into them, and l)y 
 scattering freshly-slaked lime in them. During the fermentation the bung- 
 hole should be closed with vine-leaves, or by a little bag filled with sand — • 
 the object being to prevent tiie air from entering at the same time that the 
 carbonic acid is permitted to escape. 
 
 " 9. Toward Christmas the clarification of the wine is about completed, 
 and the yeast, which has become insoluble during the fermentation, is pre- 
 cipitated. Four weeks after the commencement of the fermentation, the 
 casks, which should not be quite filled up at first, become completely full. 
 
 " 10. The racking or drawing off from the lees at Christmas is very im- 
 portant and necessary. Tiiere always remains in the wine, after the first 
 fermentation, a certain quantity of soluble leaven, and if this is not scat- 
 tered, and the wine still contains undecomposed sugar, the liquid will be- 
 come turbid, it will ferment again, and possibly be spoiled. In the first 
 racking, toward the commencement of the year, care should be- taken to 
 expose the wine as much as possible to contact with the air, in which case 
 the oxygen of the atmosphere precipitates the insoluble leaven, and the liquid 
 clarifies completely, so that the second racking may be retarded until the 
 end of April, there being no further fear of fermentation. 
 
 " 11. The following autumn anotlier racking should take place, after 
 which the wine may be considered as completely made. In drawing off, 
 great care should be taken not to mix the portion of the wine at the bottom 
 of the cask, which is still turbid, v/ith the clear part which is above. Tiie 
 turbid part should be placed in a separate vessel and submitted to a new 
 racking before it is added to the other." 
 
 Tlie author of these rules closes by saying : " If our wine-growers will 
 strictly observe these prescriptions, without permitting themselves to be 
 turned aside by local usages, the}' will obtain beautiful and good wines." 
 
 737. Rules of an American Winc-Maker. — The following rules for wine- 
 making we find given by Prof. Wm. Hume, of Charleston, S. C. He says : 
 
 "The grapes are bruised and pressed, and the juice strained into a cask. 
 To every gallon of this must let one pint of deodorized alcohol of 80 degrees 
 be added, and the cask shaken to efl'ect a mixture before the bung is put in. 
 The effect of this mixture is to coagulate and to precipitate all the fecula 
 contained in the must, so that at the end of twenty-four or forty-eight hours 
 a thick sediment is formed at the bottom of the cask and the juice brightens 
 in color. At this period I filter the whole by piercing above the sediment, 
 and allowing the clear portion to run first, and then the sediment. An up- 
 ward cloth filter or a downward sand filter is necessary', as the fecula soon 
 
662 THE VmEYAKD. [Chap. VII. 
 
 covers the cloth and renders it impervious. This filtration is practiced to 
 prevent the putrefactive fermentation from proceeding in the fecula and im- 
 parting a bad flavor. Its presence is of no possible advantage to tlie wine, 
 and its absence secures us against the possibility of future fermentation. 
 Whatever ferment there may have been in the must is now removed. All 
 the sugar has been retained to secure sufficient sweetness, and the added 
 deodorized alcohol has communicated no flavor or odor, and supplies the 
 place of that which would have been formed had two pounds of sugar been 
 added to the must. The original flavor of the grape is preserved, and with 
 such accuracy as to enable any one to detect the kind of grape that was 
 used to prepare the must. This quantity of alcohol, which is 10 per cent, is 
 sufficient to preserve the must from any future change, and ranks it in 
 strength to the Aveaker wines of France and Germany. The plan is so nat- 
 ural and simple that the wonder is that it has not long been i)ut in practice. 
 The nearest approach to the method is the practice common in Spain, Portu- 
 gal, and Madeira, of- adding brandy to their wines in order to strengthen 
 them to suit the taste of the English and American markets. A question 
 of economy frequently arises on the introduction of a new manufacture. I 
 am only anxious to point out those processes to which the grapes may be 
 subjected to produce a wholesome, agreeable, and harmless beverage, which 
 all may enjoy, at prices far below what is now paid for dangerous com- 
 pounds whicli may have been made in Europe, but are also largely made in 
 these United States." 
 
 738. Wiiie-Making in California.— The old mode of making wine, still used 
 by some of the old Californians, is to erect four posts four feet high, and 
 forming a square about two feet and a half in size. Upon the tops of these 
 posts the corners of a raw cow-hide are fastened, hair down, the middle of 
 the hide bagging down in the center. This bag is nearly filled with grapes ; 
 an Indian gets in, mashes the grapes with his feet by tramping about ; the 
 juice is then dipped out, poured into a barrel, left a few weeks to ferment, 
 and the wine is ready for use. 
 
 The native Californians have a wine which they call Angelica (pro- 
 nounced An-hd'-i-ca), whicli they make by mixing one gallon of grape- 
 brandy with three of grape-juice, fresh from the press, and adding some 
 sugar. It is a thick, sweet, and strong drink. 
 
 Messrs. Froehling and Kohler, and probably others, liavc another way of 
 making Angelica. They reduce the pure, fresh juice about one fourth or 
 one fifth by boiling, tlien place it in barrels, and rack it off once or twice 
 till it gets clear. Neither kind of Angelica ferments, the brandy and the 
 boiling serving as preventives, though, no doubt, the Angelica made by the 
 latter method would ferment if long exposed to the air in a warm place. 
 
 The manufacture of champagne wine was commenced on a large scale in 
 1858-9 by Messrs. Sainsevain Brothers, proprietors of the large vineyard of 
 Alisal, at Los Angeles, with indications of great success. Don Pedro 
 Sainsevain made a tour through the wine districts of France on purpose to 
 
Seo. 43.] CULTPRE OF GRAPES FOR WINE. 663 
 
 study tlie business, and he brought with liiin an experienced and skillful 
 wine-maker from the champagne districts. The firm have filled 50,000 
 b:)ttle3 of the vintage of 1859, and they intended to make 80,000 bottles of 
 the vintage of 1860. They use white wine, and mix with it about a fourth 
 (.if old white wine of previous years. 
 
 The first year they lost about one bottle in five by bursting; proof that 
 the wine will be as vigorous as the best of France. No foreign substance 
 is mixed with the grape-juice to make it lively; all the gases in it are jiro- 
 duced from its own substance. 
 
 Tiie grape used in California for making wine is of Spanish stock, and 
 was introduced by the Spanish missionaries when they established their 
 missions, between the years 1769 and 1780. The berry, when ripe, has a 
 dark reddish-brown color, varying to a purplish-brown in the northern part 
 of the State. The vine is hardy and healthy, the grape is juicy and strong. 
 An acre is expected to produce, ordinarily, 1,000 gallons of wine per year, 
 and never less than 800, though 400 gallons is considered a good yield in 
 Ohio, Franco, Germany, Spain, or Greece. 
 
 The California grape begins to ripen about the middle of September, and 
 is gathered from that time until the end of the year, there being no frost 
 and little rain to interfere with the harvest in the southern part of the State, 
 which is the chief seat of the vine culture. The berry is considered to be ripe 
 when the heart has taken a tinge resembling the darkness of the skin, when 
 the berry is sweet and may be picked easily, and leaves no juice upon its 
 stem, and when, on holding a bunch to the sun, the fibers running from the 
 stem into the grape are nearly or quite invisible. The bunches are cut off 
 with a knife, after nine o'clock in the morning, when the dew has disap- 
 peared, put into a basket and carried to the press. 
 
 Nearly all the wine and brandy made in California comes from Los An- 
 geles County, which is, no doubt, better fitted in soil and climate for the 
 culture of the vine than any other part of the State. It is estimated that 
 350,000 gallons of wine were made in the State in 1859, viz. : 
 
 Gallons. , Gallons. 
 
 Sainsevain Brothers 73,000 Clements 5,000 
 
 Froehling & Kohler 60,000 Julius Weiss 4,000 
 
 B. D. Wilson 20,000 Others 146,000 
 
 William Wolfskin 12,000 
 
 Matthew Keller 10,000 Total 330,000 
 
 It Avas also estimated that the amount of brandy would be 50,000 
 gallons. 
 
 A great many of those who make wine about Los Angeles throw away 
 all the refuse and sediment of their presses and M'ine casks, thus wasting a 
 large amount of matter, such as French brandy is made of by distillation 
 of lees and waste. The manufacture of grape vinegar might be very much 
 extended, where the refuse of wine is not used for making brandy. 
 
 739. Rules for Making Domestic Wine. — "We have already, in ^ 469 to 475, 
 given rules for making domestic wine, yet we will give one more here under 
 
664: 1'HE VINEYARD. [Chap. VH. 
 
 the head of wine-making, from one who has been uniformly successful, who 
 says: 
 
 "The currants should be fully ripe when picked; put them into a large 
 tub, in which they may remain a day or two; then crush them with the 
 hands, unless you have a small patent cider-press, in which they should not 
 be pressed too much, or the stems will be bruised and impart a disagreeable 
 taste to the juice. If the hands are used, put the crushed fruit, after the 
 juice has been poured oif, into a cloth or sack, and press out the remaining 
 juice. Put the juice back into the tub after cleansing it, where it should 
 remain about three days, until the first stages of fermentation are over, and 
 remove once or twice a day the scum arising to the top. Then put the juice 
 into a vessel — a demijolin, keg, or barrel — of a size to suit the quantity to be 
 made, and to each quart of juice add three pounds of the best double-refined 
 sugar, and water suflicient to make a gallon. 
 
 "Thus, ten quarts of juice and thirty pounds of sugar will give you ten 
 gallons of wine, and so on in that proportion. Those M-ho do not like very 
 sweet wine can reduce the quantity of sugar to two and a half or two pounds 
 per gallon. 
 
 "The cask must be full, and the bung or stopper left oiF until fermenta- 
 tion ceases, which will be in twelve or fifteen days. Meantime the cask 
 must be filled up daily with water, as fermentation throws out the impure 
 matter. When fermentation ceases, rack the wine off carefully, either from 
 the spigot or by a siphon. Cleanse the cask thoroughly with boiling water, 
 then return the wine, bung up tightly, and let stand for four or five months, 
 when it will be fit to drink, and can be bottled if desired. 
 
 " All the vessels should be perfectly sweet, and the whole operation done 
 with cleanliness. In such event, every drop of brandy or other spirituous 
 liquors added will detract from the flavor of the wine. The fermentation 
 of the sugar gives all the spirit required." 
 
 If any spirit is ever added to currant wine, or that made from any other 
 fruit in a domestic way, it should be deodorized alcohol, called " pure spirit," 
 for this is better than brandy for preserving fruits or fruit juice. 
 
 740. The Missouri Wine-Growers' Association. — Every neighborhood wants 
 just such an association as that at St. Louis, called The Wine-Growers' As- 
 sociation, before vineyards for wine-making will be successfully cultivated. 
 It is a business that no individual can undertake unless he is a man of very 
 large means. At St. Louis, or vicinity, any one with means enough to plant 
 one vine is sure of a market for his fruit at a fair price. In 1859 the Associa- 
 tion paid from seven to ten cents a pound for Catawba grapes, and from 
 seventy to one hundred cents a gallon for the juice. By this the poor vine- 
 grower is encouraged, for he can immediately realize the value of his crop, 
 instead of waiting to manufacture and ripen the wine. It was estimated 
 that year that at least eight hundred acres were covered with vines in Mis- 
 souri, within a radius of some eighty miles south and west of St. Louis, and 
 that the fruit was nearly all gathered by the first of October quite sound, 
 
Seo. 43.] CULTURE OF GRAPES FOR WrNE. 665 
 
 and would yield from tlirec to four hundred gallons of wine jjer acre in vine- 
 yards that have received careful and judicious management. A letter 
 says: 
 
 "The Catawba is about the only grape grown in vineyards to any extent. 
 Many experiments, however, are being made with other varieties by intel- 
 ligent men, who are desirous of procuring a sort that will prove its superior. 
 This, I think, will be found in the Delaware, and 1 look forward to the time 
 when the Catawba, as a wine-grape, will give place to the Delaware on our 
 hills of Missouri. It is now about fourteen years since William Glasgow, 
 Jr., first planted a vineyard of Catawba grapes for wine-making, and it is 
 from his example and success that a very great portion of the present faTor 
 toward vine-growing is attributable." 
 
 What a blessed thing it would be for a thousand other places if each had 
 a William Glasgow to plant a vineyard and give the business a start, since 
 there is scarcely a town in all the Middle States, south of latitude 43 de- 
 grees, that might not have its vineyard as well as St. Louis ! Every warm, 
 rocky hillside, now of little or no value to the owners, in Connecticut and 
 eastern New York, might be made to yield " three or four hundred gallons 
 of wine per acre." Every acre of Long Island that will grow scrub-oaks, 
 if planted in vines, would yield grapes as well as the lands of Missouri or 
 Ohio. 
 
 The native wild grape is gathered by the Germans by hundreds of bushels 
 in Missouri, and a heavy, strong, dark wine is made therefrom, much esteemed 
 by them, and used by the Wine-Growers' Company for making claret. 
 
 741. The German Vine-Growers of Missouri.— Ilermannn, the seat of the 
 German vineyards, is about eighty miles from St. Louis. One who has vis- 
 ited these vineyards thus pleasantly writes about them : 
 
 " For miles away, on the side of the river where we were, there was a 
 broken view of vine-topped hills, while the lower slopes were heavy with 
 rich woods, and the valleys green with grain. There is something about a 
 vine-growing country peculiarly suggestive of joy and gladness. We do 
 not easily escape the old associations of Hebrew terms — ' the shoutings and 
 singings in the vineyard.' 
 
 " Most of the settlers, said Mr. R., were very prosperous, and their wine 
 was coming into great demand. They covered the barren hilltops far in the 
 interior with their vineyards. They lived a good deal by themselves, and 
 had nothing to do with the slaveholding Americans, and he believed led a 
 happier life than any other Germans in the Western country. The town had 
 produced last year some 80,000 gallons of wine. 
 
 " The good situations for vineyards cost from $1 to $5 an acre ; those 
 which are already improved, $15 or $20. It needs three or four years' prep- 
 aration before a vineyard pays its cost. During this time the vine-grower 
 can support himself by farming and other work. Still, to succeed, each 
 new immigrant should have some $200 or $300 capital to build his wine- 
 cellar and house, buy his cattle, and pay extra labor. After three or four 
 
666 THE VINEYARD. [Chap. VII. 
 
 years the vineyard will yield, on an average, from 250 to 300 gallons of wine 
 to the acre ; a very favorable site has been known to produce 1,000 gallons, 
 and 400 gallons was the lowest Mr. Tl.'s place had given. One man, with 
 industry, can manage five acres. Tlie wine is worth from $1 25 to $1 35 
 per gallon, so that $400 an acre is a common return. 
 
 " The worst weather in Missouri is the sultry, moist heat of July — only a 
 few sorts of grapes can survive this — but the frosts and storms of September 
 and October, which destroy the vines or fruit in Germany, the American 
 vineyards entirely escape. I asked Mr. R. what effect he considered this 
 culture of the vine to liave on the habits of his countrymen. He tiiought 
 that those living in this vine region were much more sober than the Ger- 
 mans of the cities, and that the native M'ine was already driving out whisky 
 and brandy from use among the Americans. He believed the making of 
 cheap native wine the best of all means for checking intemperance witli the 
 mass of the people, and he had already seen its cflects in this direction in 
 Missouri. 
 
 " Great care was needed in selecting sorts of vines. He had experimented 
 with vines from California, from Spain, Italy, Hungary, and even from 
 Palestine, and had at last settled on certain native sorts — the Norton Vir- 
 ginia Seedling, the Isabella, and Catawba l^eing the best. He and others had 
 also worked out a number of new varieties, and some they had introduced. 
 Of these the most valued are the Clara (white), Eabee (red), Cassady (very 
 white), Rebecca, Emily, Diana, and Concord. 
 
 "The wines made are less alcoholic than the Ohio Catawba, and resemble 
 both burgundy and the common Rhine wine. Of the space in the State for 
 this culture, he says, with Prof. Swallow, that ' there is more good vine land 
 in Missouri than in all France.' " 
 
 742. Prize for a IVew Wiue Grape.— Nicholas Longworth, of Cincinnati, 
 dffers a prize of $100 for the discovery of a new Fox grape, superior to the 
 Catawba for wine. He says : 
 
 " I have for thirty years believed that a Fox grape might bo found, among 
 the thousand varieties which cover our land, that would prove superior to 
 the Catawba for the purpose of making wine ; the Catawba, it is well known, 
 belongs to the Fox family, and superior, also, to any wine grape in Europe 
 on account of the fine aroma and flavor. The only fault in the Catawba is 
 its not possessing more of the aroma and flavor which belong to the Fox. 
 The common Fox grapes have these qualities in a high degree, but they 
 have a thick skin, a hard pulp, yield but little umst, and are deficient in 
 sugar and moisture. 
 
 " I will give a silver goblet of the value of $100, or that sum of money if 
 preferred, for grapes that will be superior to the Catawba for the purpose of 
 wiue — the decision of the question to be left to our Vine-Growers' Associa- 
 tion. I will also be pleased to send the person who may furnish me with 
 the best quality of grapes a box of pure, still Catawba wine, with all charges 
 paid." 
 
PLATE XVII. 
 
 (Page GOT.) 
 
 All that we have said of Plate XYI. we might repeat of this. 
 It is one for careful study. It will give more information at one 
 examination than we could convey in twenty pages of type. It is 
 of the highest importance that every farmer should carefully study 
 this plate, for here he will learn that in growing the staff of life, he 
 has to contend with a host of enemies, and that he can not sit in 
 peace under his own vine. Although we have devoted a chapter 
 to the vineyard, we have not found room to describe these pests of 
 the vine-groves and destroyers of grain, except in a few brief notes 
 in Section XII., showing instead this more expensive, yet more 
 valuable method of calling the reader's attention to this very im- 
 portant study. We earnestly commend this plate to his careful 
 consideration. 
 
l>-.SErTS L>-.ii-:Mnr,s Tt) viTjikat. 
 
 XVII 
 
CHAPTER VIII. 
 
 CEREALIA. 
 
 SECTION XLIV.-WHEAT, RYE, OATS, BARLEY, MILLET, BUCKWHEAT. 
 
 ^NDEE, the title of tliis chapter we shall of course 
 talk about Indian corn {sea mays), but as this is the 
 great staple crop of America, it must have a separate 
 section. Of all the cereals, wheat should really hold 
 tlie first rank, because it is the parent of great men — 
 the chief fountain of brain food. All nations whose 
 principal food is derived from wheat are elevated in 
 character over those whose food is derived from coarser 
 materials. All food produces general results accord- 
 ing to its quality, and as wheat ranks highest, the re- 
 sults are most elevating to the human family. Let U3 
 look about us upon the nations of the earth, some of 
 whom live almost exclitsively \ipon the fat of sea ani- 
 mals ; others upon the flesh of animals obtained in the 
 wild woods ; others depend mainly upon insects and such things as can be 
 readily picked up. Then approaching civilization, are found people who 
 rarely taste animal food, living upon vegetables of a low order, some of 
 which are subject to epidemical diseases. Compare any of these nations 
 with one whose principal food is derived from the cereals, particularly wheat, 
 and we shall at once see the importance of any work that treats upon its 
 cultivation. 
 
 743. Wheat — Preparation of Soil. — In virgin soils, such as those obtained 
 by chopping and burning a forest, a wheat crop is often obtained without 
 much labor in the preparation of the soil, because the seed finds tlie proper 
 sustenance (o nourish its young shoot, and during all stages of growth, in the 
 decaying vegetable matter, and in the ashes of the wood burned in the clear- 
 ing. So upon the prairies, a good crop of wheat is sometimes grown upon 
 the turned sod with but little other preparation. In old land, however, it 
 will never answer to trust to making a wheat crop without the most thorough 
 preparation of the soil, the first and best of which is underdraining ; the 
 next, subsoil plowing ; the next, a crop of clover to precede the wheat ; and 
 finally before sowing, deep plowing, and again subsoiling and complete pul- 
 verization ; and lastly, a proper addition of the necessary manuring for per- 
 fect fertilization. As to subsoiling, none doubt that deep digging in the 
 
CEREALIA. [Chap. VIH. 
 
 garden is profitable, and none who try it under proper circumstances will 
 doubt that deep j^lowing in the field is so. 
 
 The subsoil plow is a valuable implement on most soils, in deepening the 
 tillage and giving suflicient room for the descent of the roots of plants, and 
 for the ascent of moisture in dry weather. 
 
 Where no advantage has been found from the operation of subsoiling, the 
 cause may undoubtedly be traced to the want of proper preparation of the 
 ground by draining. 
 
 Numerous examples have been given to the public, showing the great 
 utility of this implement. By its use the subsoil is loosened deeply, mixed 
 with the top soil, and gradually brought to the surface, where, by changes 
 from the air, snows, and frost, it becomes improved, and restores in some 
 measure many fertilizing substances that have been lost on old lands. 
 
 An American subsoil plow, which is far superior to the English one, is 
 the one generally known as " Mapes' Subsoil Lifter." Its form is tolerably 
 well represented by a sixth part of an orange-peel, pointed at each end and 
 rising in the middle, where a thin, flat standard is attached that connects it 
 with the beam. 
 
 74:4. Ftrtilization of Soil for Wheat. — Lime and salt are the first two things 
 to be thought of on an old farm — that is, upon a farm where it is said the 
 land is worn out so that it will not produce wheat, but M'ill produce clover. 
 
 If five bushels of salt are dissolved in water to a point of saturation, 
 and that water used to slake fifteen bushels of shell lime under cover, the 
 mass left until it effloresces, and then applied to an acre of laud thoroughly 
 pulverized, we venture to insure a good crop of wheat. We know whole 
 farms, and many farms together, that have been raised from almost entire 
 barrenness to a point that produces good wheat and clover crops by the use 
 of lime alone, spread at the rate of thirty bushels of air-slaked lime to the 
 acre on the surface after the wheat is sown. 
 
 In Virginia, between the Potomac and Rappahannock rivers, there are 
 large tracts of sandy land that had become so poor it would not produce 
 five bushels of rye per acre, and this land has liecn made to produce fifteen 
 to twenty bushels of wheat, followed by a fine growth of clover, from an 
 application of 200 lbs. per acre of Peruvian guano. In some cases, a bushel 
 of plaster per acre, sown in the spring, has benefited the wheat and been 
 of the greatest importance to the clover crop. The use of guano as a fertil- 
 izer of wheat has worked wonders in several of the wheat-growing States 
 south of New York. 
 
 Lime, plaster, guano, bone-dust, superphosphate, ashes, salt, potash, may 
 be all profitably used as fertilizers of the wheat crop. But after all, the 
 great fertilizer must be clover. 
 
 A most celebrated successful wheat-grower in this country is Gen. Har- 
 man, of Genesee County. He says: 
 
 " We can take a wheat crop every third year and improve our land, if we 
 feed ofi" the clover with sheep. I always sow timothy in the fall and clover 
 
Seo. 44.] FERTILIZATION OF SOIL FOR WHEAT. 669 
 
 in tlie spring upon all wheat land, and so I do with all small grain. "We 
 turn under the clover sod in June with the Michigan plow, and then work it 
 with a gang plow till first of September, and then sow Mediterranean seed 
 by a drill machine. If the sowing is delayed till October, the fly will eat it 
 all up, or, rather, that was the case. I have not lately seen the Hessian fly. 
 The Golden Drop and Dayton wlieat are much sown in my district. I tried 
 spring wheat some years, but it does not pay for growing. Tiiere is a dif- 
 ference of two weeks in wlieat maturing from seed of tiie same district. I 
 have sown forty sorts of wheat in one year from all sections. The Virginia 
 May wheat ripens earliest of any with me. All of the finest strawed wheat 
 ripens earliest. I am not satisfied that seed from the South will ripen any 
 earlier than the same sort grown here. I do not think there is any other 
 crop that can be grown to so gocjd advantage as wheat. 1 turn down clover 
 for corn, first spreading manure ; then I sow oats or barley, seeding again 
 with clover and timothy, and that clover I plow under after mowing or pas- 
 turing it one year, so that I get a wheat crop every tliird year. I do not 
 plant all my wheat land to corn, as I have about fifty acres in wlieat and ten 
 acres in corn. I average thirty or forty bushels of wheat per acre. I do 
 not believe that there is a gradual decrease in the productiveness of wheat 
 land iu this State, though the crop has decreased in consequence of the 
 midge. The use of plaster on wheat tends to prevent its early ripening, yet 
 I think one bushel of plaster and three bushels of ashes per acre will increase 
 the crop four bushels per acre. Plaster sown broadcast will do more good 
 than it will put on the liills of corn." 
 
 Another successful wheat-grower iu the same county, Lewes E. Ileston, 
 says : " My farm is on limestone soil. I drill two bushels of seed wheat per 
 acre, usually after peas, and iiarvest twenty-five bushels an acre. The straw 
 I feed to sheep. I think it desirable for the farmers to increase the wheat 
 culture, as we can graze sheep on clover, and feed them straw in winter. I 
 sow one peck of timothy with the wheat, and six quarts of clover-seed per 
 acre in the spring. I do not cut clover for hay, but pasture it and plow it 
 in. The soil is almost inexhaustible. I once spread the earth from the bot- 
 tom of a cellar, and the wheat grew so rank that it did not head well. I 
 cultivate 160 acres, and 50 of it in wheat. It is a common practice to sow 
 clover and timothy upon all wheat land." 
 
 J. Jackson, of Butternut Ridge, Ohio, gives the following as liis expe- 
 rience in getting a good crop of wheat : 
 
 " In 1857 I harvested a field of Mediterranean wheat that yielded 361 
 bashels to the acre; the ground was prepared in the following way: When 
 it had lain in clover one year after a crop of oats, it Avas plowed in the fore 
 part of June, about eight inches deej), with one strong yoke of oxen, and 
 harrowed three times. The third Aveek in August I gave it a light dressing 
 of yard manure, about twenty loads to the acre ; cross-plowed and sowed 
 the last week in August. The soil is a clay loam." 
 
 It is the opinion of many that land which has ceased to be remuneratively 
 
670 CEREALIA. [Chap. VIII. 
 
 productive in wheat would again bear good crops if the ground were put in 
 a condition to allow the roots to penetrate deeply into it to search out and 
 absorb new materials of stalk growth. The plant requires the mineral sub- 
 stances of the lower strata brought up and mixed with the vegetable sub- 
 stances of the surface, producing a mutual decomposition which will be fa- 
 cilitated by the growing of the root plants, and jjenetratlon of their roots 
 through all its comminuted grains. The roots of a plant will penetrate a 
 great distance in search of food and drink if the soil is made friable, hence 
 the productiveness of rich land is due to its naturally friable condition, 
 which allows the roots to penetrate, rather than to the richness of the sur- 
 face-soil. 
 
 Of the use of plaster on wheat, one writer says : 
 
 "The fact seems to be well established that plaster has a much better 
 effect on clover than on M-heat, while superphosphate benefits turnips 
 more than wheat. Liebig thought plaster drew ammonia from the atmo- 
 sphere. To this there are two objections: first, it is very doubtful whether 
 plaster will attract ammonia from the air ; and, second, if it does, an appli- 
 cation of plaster ought to have the same effect as a dressing of sulphate of 
 ammonia, but it has one just the reverse. Sulphate of ammonia improves 
 wheat much more than clover, while plaster benefits clover, and has little, 
 if any, efiect on wheat in the majority of cases." 
 
 Top-dressing wheat land with manure well decomposed, or with a rich 
 compost, will always much more than pay the cost \ipon all the old farms 
 of the Eastern States. One farmer who has practiced it says : 
 
 " On the part dressed with fine manure at the time of sowing, the seed 
 grew a week earlier and produced double the crop of that on the land un- 
 manured. It is true that the land that was top-dressed was higher and drier 
 than the unmauured portion, but that only affected the start. Top-dressing 
 gives the young plants a good start in the fall, enables them to withstand 
 the winter better, and brings the crop rapidly forward to maturity." 
 
 Salt for xolieat we consider as indispensable as it is for animals, and there 
 are not many farmers who can be made to believe that their stock would 
 not suffer without it ; and John Jolmson, " the old Scotch ftirnier" near 
 Geneva, N. Y., believes just as fully that his wheat crop would suffer witli- 
 out salt. In the autumn of 1858 he sowed five bushels per acre uj)on sixty 
 acres of wheat, and we heard him say that he believed every bushel of salt 
 used produced an extra bushel of wheat. But this was only a small item 
 in the account of profit. The great advantage was iu hastening the ripen- 
 ing several days, by which he escaped the ravages of the wheat midge, 
 while his immediate neighbors suffered great losses. It is believed to bo 
 also one of the best preventives known for rust, as it certainly stiffens the 
 straw and gives it more vigor. 
 
 The proper application of salt is five to eight bushels per acre, sown 
 broadcast immediately after the wheat is liarrowed in. 
 
 To prevent lodging, one writer recommends to sow several varieties together. 
 
Sko. 44.] SPRING WHEAT. 671 
 
 for the reason that some kinds bend less in storm, which helps the weaker 
 sorts to stand up, or get np after a storm, and a larger crop is gained. But 
 we believe that any of the fertilizers that we have recommended, particularly 
 salt, lime, potash, and bone-dust, will so strengthen the straw that it will not 
 lodge. 
 
 745. Naked Fallows for Wheati — This old-style system of fertilizing land 
 for wheat we hope to see give place to more enlightened views — such views 
 as those of General Ilarman, detailed in a preceding paragraph. A clo- 
 ver fallow is altogether preferable to a naked fallow. A few farmers who 
 follow the old beaten path of precedent, who seldom take the trouble to 
 think, still hold to naked fallows. An advocate of them, writing to us of 
 another's practice, says : 
 
 "He plows once in §^x years, and lets the land lie fallow one year, that 
 it may have the full advantage of the summer sun and the winter frost." 
 
 The full advantage of a want of thought! Expose land to the full ad- 
 vantage of the summer sun! What for? What is the object? What is 
 accomplished by the process ? The land is drenched and washed upon the 
 naked farrows, and some of the lightest portion takes its course toward the 
 ocean's depth, never to return, except in costly guano, sea-weed, or fish 
 manures; and it is baked and burned and dried in the sun, and its volatile 
 properties set loose to float away upon the wings of the wind to enrich the 
 growing crops of some farmer who never commits the great error of expos- 
 ing liis soil to waste in naked fallow. There is one kind of land that is 
 benefited by exposing naked to the action of the frost — it is a stiff clay. 
 But there is a better way to ameliorate that. It is by aerification through 
 tile drains and the furrow of the subsoil plow. We doubt whether autumn 
 plowing can be advocated, in itself, as a good system of farming. It is only 
 a resort of necessity, to help along the work of spring upon land not under- 
 drained,, wliich remains too wet to plow without injury, long after the frost 
 has left it loose enough. As a general rule, we do not believe that land in 
 good tillable order was ever improved by a naked fallow. If it is to be left 
 one year without a productive or salable crop, how much more sensible to 
 sow the fallow-plowing with any sort of grass or grain, even buckwheat, or 
 with turnips, but far better with clover, and let the crojj grow and fall 
 down, shading, mulching, manuring, and really improving tlie soil. The 
 man who practices in the manner quoted in the text of this item is spoken 
 of as " a man of facts." What facts has he, or his biographer, or anybody 
 else, to prove that naked fallows are more beneficial to lauds than green 
 fallows? We should like to know. 
 
 7i6. Spring Wheat> — Spring wheat can be more profitably grown than 
 winter wheat in some sections of the country, even wliere the winter variety 
 can be grown. In some sections, winter wheat is so liable to kill out that it 
 is an even chance whether a field sown will ever be reaped. 
 
 Mr. Walworth, a wheat-grower of St. Lawrence County, thinks spring 
 wheat exhaTists the soil less than winter wheat. This opinion is entertained 
 
672 CEREALIA. [Chap. VIII. 
 
 by a very large portion of the farmers in that section of the State, also in 
 all of the New England States. It is therefore of the highest importance to 
 find out the most improved varieties, since there is a difference of full twenty- 
 five per cent, in several kinds in common cultivation. 
 
 Ambrose Stevens, of Genesee County, IST. Y., speaks highly of a new 
 wheat from New Mexico, that ripens earlier than Canada Club wheat, and 
 almost entirely escaped the ravages of the midge that entirely destroyed the 
 other sort in the same field. It is a red Avheat, the berry flinty and pearl- 
 like in character; the straw medium in size and strong, the heads well 
 bearded, and the chafl" thick and tough. It was sown on the Tonawanda 
 Creek, April 10, and kept back by the cold, wet spring, and harvested 
 August 1, yielding from a light seeding seventeen bushels per acre. Mr. 
 Stevens says : " Had it been more plentifully seededy'and had the wire-worm 
 not troubled it, it would probably have produced from twenty-two to twenty- 
 five bushels to tlie acre; and it makes whiter flour and bread than the 
 Mediterranean wheat; and when grown, so as to allow of a fair comparison, 
 has yielded better." 
 
 In the summer of 1861 a new spring wheat, supposed to be the same as 
 the above, M-as grown in the east part of Westchester County, N. Y., that 
 would average thirty bushels per acre, ripening in July a long bearded head 
 and plump grain. 
 
 George Miller, a large farmer in Canada, sows spring wheat upon ground 
 that grew a crop of turnips in the previous fall, for which it was well ma- 
 nured, and he says: 
 
 " I can get ten or fifteen bushels an acre more of spring than winter 
 wheat. I got from seven bushels of seed, which I sowed at the rate of less 
 than a bushel per acre, 393 busliels of grain. I put manure upon all green 
 crops. I carry manure in winter upon turnip laud, and put that in the 
 turnip drills in June. I prefer to plow under my wheat seed." 
 
 Hon. A. B. Dickenson, of Hornby, N. Y., does not lielieve in spring wheat 
 in the southern tier of counties of New York. He says: 
 
 " I have known fifty-four bushels of winter wheat per acre in this State — 
 that can not be done with spring wheat." 
 
 Mr. Bowen, Orleans County, says: 
 
 "Some of my neighbors raised thirty-five bushels per acre of Mediter- 
 ranean wheat. Some of them sow sixty acres. It is put in the last of 
 August." 
 
 How can a farmer spend a little time more profitably than in the ex- 
 amination of the question of wheat-growing? First, whether by the use of 
 proper fertilizers he can grow wheat profitably ; and second, which sort, 
 winter or spring ; and third, which of the many varieties is the best. 
 
 747. Wheu lo Sow Spring Wheat. — As a general rule, we have found tliat 
 the earlier wheat can be sown in spring the better. If the ground is well 
 plowed, and manured if necessary in the fall, we would advise putting in 
 the seed with a drill, or cultivator, if you have no drill, just as soon as the 
 
sbo. u.] quantity of seed to the acre. 673 
 
 frost is out of the ground, and is dry enough to work. And even if it is 
 not very dry, the crop will probably be better than if deferred to a late 
 period. "We have seen spring wheat put in upon the prairie of Indiana and 
 Illinois when it was so wet that a man walking over the land would sink 
 almost over shoe at every step. This was in March. Right alongside a 
 piece was sown in May, when the soil was in excellent condition for working. 
 That first sown was worth double that last sown. 
 
 As a general rule, it is bad policy to work land while it is wet, but it is 
 worse policy to wait a month after it is time to sow spring wheat for the soil 
 to become perfectly dry. The only safe way to grow spring wheat is to pre- 
 pare for it in autumn. 
 
 748. When to Sow Winter Wheat. — The time depends somewhat upon lati- 
 tude, but the rule must be to give it a chance to grow and spread out 
 into a complete mat of leaves, covering all the surface before the ground 
 freezes. 
 
 It is a great object to get a good strong root to the wheat plant in the fall 
 of the year, as it sends up more shoots, and the heads are more likely to 
 ripen early. John Johnson says he would give a prize of $1,000 to any one 
 who could tell him how to ripen his wheat ten days earlier than it does now. 
 Even four days ahead of his neighbors is a great advantage, and saves him 
 in a great measure from the ravages of the midge ; and this is one of tlie 
 advantages that he has gained by the use of salt, lime, high manuring, and 
 underdraining his land. His object is to have his wheat in ear from the 5th 
 to the loth of June. 
 
 The Ohio Cultivator says : 
 
 " Between the 10th and 1.5th of September is the golden period for getting 
 in wheat in Ohio and other States of the same character in soil, climate, and 
 other agricultural condition. Peculiarities of season will vary this period ; 
 as, for instance, we have known the best of crops raised from fields sown in 
 August, and equally good from fields sown in October. It often happens 
 that the midsummer drouth is at its hight in the early part of September, 
 and grain put in at that time will not readily vegetate, or if sown shallow, 
 will never vegetate at all." 
 
 We indorse every recommendation to sow M'heat early. If the ground is 
 very dry, sow deep. 
 
 In 1861 we grew a small piece of excellent, beardless, white wheat, which 
 was sown in the last days of August on dry soil, plowed in. 
 
 71:9. How Much Seed to the Acre ? — "The quantity of seed to be sown to 
 the acre is a matter of the very highest importance, and may be considered, 
 first, with reference to the anticipated produce of a given quantity of land, 
 and second, to the yield of the grain sown. There is no doubt but that by 
 sowing thick a larger yield will be obtained than by sowing thin. East 
 of the Alleghanies, on rich land, 2i bushels yield 35 bushels to the acre, 
 when two bushels will only yield 30 bushels. In Mississippi, rich land, will 
 2i l)usliels sown, yield 44 bushels ; with two bushels, 40 bushels. In Vf - 
 
674 CERE ALIA. [CnAP. VIII. 
 
 ezuela, 2^ bushels will yield M bushels. In the environs of Paris, 2i bushels 
 will only produce 25 bushels. In England, on the best soils, oi bushels. In 
 Lonibardy, on irrigated lands, 25 bushels." 
 
 Tlie following table shows the number of grains upon a square foot, yard, 
 and acre at certain quantities : 
 
 Graiii3 per sq. foot. Grains per sq. yard. Grains per acre. 
 
 4 3t; 174,240— 1 peck 
 
 8 72 348,480-2 pecks. 
 
 12 108 522,720-3 pecks. 
 
 16 144 090,960-1 bushel. 
 
 32 288 1,393,020-2 bushels. 
 
 48 432 2.090,880-3 bushels. 
 
 64 576 2,787,840-4 bushels. 
 
 80 720 3,428,800—5 bushels. 
 
 " If any person will mark upon a board or paper a square foot of space and 
 then divide it into four equal squares, and place a grain of wheat in the 
 center of each square, he will have not far from one peck of seed to the acre. 
 If he can place two in each square, lie will have half a bushel, which, if 
 every seed should vegetate, Avould give as many plants as the land could 
 well mature, unless very rich. But divide the foot into sixteen squares, each 
 of whicli contains nine superficial inches, and place a grain in the center of 
 each square, and it will give one busliel of wheat to the acre. If any per- 
 son will e.xamine his winter wheat, he will find that if the plant liave a 
 vigorous growth, each seed fully stooled covers more space than it would 
 find in the area of nine inches. Put two grains of oats to each square, and 
 it will give two bushels to the acre. Make three to each square, and there 
 will be three bushels of seed to the acre. 
 
 " Place three grains of clover-seed_ upon cacli square inch, and it gives 
 less tlian a busliel of seed to the acre." 
 
 The experience of the farmers over the whole wheat region of tlie State, 
 after nearly or quite forty years' experience, is that sixteen pounds of good 
 clover-seed is a heavy seeding to the acre. 
 
 A Chenango County farmer says, " he knows two bushels of seed wheat 
 per acre are better than one, which his fatlier taught him to sow." We know 
 that it depends upon the soil, wliich this writer proves by saying that liis 
 fields yield 28 to 32 bushels per acre, where formerly they only gave 15 or 
 20 bushels from one sowed. That may be entirely owing to the increased 
 maturing power of the fertilizers added to the laud. 
 
 The writer also says : " I raised in my garden, from one grain of seed, 
 3,275 grains of plunij> wlieat in C4 heads, besides two heads given away, and 
 175 shrunk grains. Tlie land was in high cultivation where ashes, lime, and 
 salt had been spread, and the seed was planted in August." What would 
 have been the quantity of seed j^er acre required, and what the yield, if the 
 same facts had been applied to field culture ? 
 
 English wheat-growers seed heavier than Americans. On good wheat 
 land two bushels, and on poor land two and a half bushels are recommended 
 to be sown broadcast. If wheat is carefully drilled, we believe a bushel and 
 a peck suflicient. 
 
Sec. 44.] WHEAT.— SEED PER ACRE.— DRILLING. 675 
 
 All wheat for seed, should be washed thoroughly before sowing, to get 
 every foul seed out, so that notlung but wheat grains will ho sown. If 
 brine or solution of copperas or several other salts are used, the smut disease 
 will be cured. 
 
 750. Drilling Wheat.— The Hon. David Crocker, of Tompkins County, K Y., 
 i-ecomniends farmers who drill in their wheat to set the gauge so as to drop 
 only half the quantity of seed that they desire to plant per acre, and after 
 going over tlie field once, turn the other way and put in the other half, so 
 that the plants will stand in checks instead of rows. He puts in two bushels 
 per acre, and tliinks it produces better from being so much more evenly 
 planted over the whole surface, so that it more than pays for the extra labor. 
 The.heads of the drilled wheat stand up side by side, and nearly every one 
 has six rows. T!ie stalks of broadcast wheat are unequal in hight, and some 
 have only four rows of grain in the head. 
 
 One experiment showed a gain of nine bushels per acre in favor of drill- 
 ing in the same field. An advocate of drilling wheat refers to the follow- 
 ing Ohio farmers : 
 
 " Mr. Sickman, Mr. Napp, Mr. Molan, and J. Shook, of Wayne County ; 
 Isaac Smoker, of Ashland County; Squire Ililderbrandt, an extensive fiirmer 
 of Stark County (who plants 200 acres of wheat annually); John Shaw, of 
 Summit County; H. C. Kingsbuiy, of Medina County; John Fulton, of 
 Richland County, can give the names of over a hundred farmers in Wayne, 
 Stark, Medina, Ashland, and Richland counties, who urge all farmers, even 
 those who only plant twelve acres of wheat, to buy drills, because at the 
 very best they will warrant a yield of three bushels to the acre over that 
 sown. 
 
 " The seed is all deposited three and a half inches below the surface, in 
 rows eight inches apart, at the rate of li bushels of seed to the acre, and is 
 not as easily picked up by the fowls and pigeons. 
 
 " Drilled wheat is not winter-killed as often as that sown broadcast, and 
 being evenly deposited and well covered, it stands drouth better. The roots 
 having a firmer hold in the ground, the stalks are not so liable to be thrown 
 down ; and for the same reason, in seasons when the fly makes havoc in 
 broadcast wheat, that drilled is but slightly injured." 
 
 These facts prove that every man who annually plants ten acres of grain, 
 Indian corn included, can well afford to keei) '^ drilling machine, even if he 
 did not, as he undoubtedly would, have many profitable jobs from his neigh- 
 bors, who only put in three or four acres, and who would be sure to hire a 
 drill, though they were too" small farmers to buy one. As to the question 
 of open or close drills, the following is to the point : 
 
 Dr Ilartstein, Director of the Agricultural Institute at Poppelsdorf, in 
 Prussia, has demonstrated the futility of the idea tliat wheat grows lietterin 
 drills so wide that it can be cultivated. Four years of experiments have 
 shown that fields planted in rows four feet apart produce but four fifths as 
 much grain as that sown in the oi-dinary way ; it weighs, however, about a 
 
676 CEREALIA. [Chap. VIII. 
 
 pound and a half more to the bushel, and produces but little more than half 
 as much straw. 
 
 751. Seed Wheat— Selecting, Preparing, and Mixing Seed.— Next to the thor- 
 ough preparation of the soil, the most important thing to secure a good crop, 
 is proper selection and preparation of the seed, and then just such careful 
 planting as is effected by a good drill. 
 
 Too much care can not be given to the preparation of seed wheat; the 
 selection of variety, the growing of it, cleansing it, and then the time and 
 manner of sowing it, as also the kind of soil, and the preparation of that 
 soil. All the minutiae connected with that seed materially affects the crop. 
 One man sorted some Chili seed carefully by hand, and sowed four kernels 
 in a hill, and from one seed the product was nine hundred and twenty -seven. 
 By another experiment with two seeds of Club wheat, the product was one 
 hundred and thirty-two heads. One lot, planted in hills, required only eight 
 pounds to the acre. 
 
 Charles Brackett, of Rochester, Fulton County, Ind., says : 
 
 "In July, 1856, I noticed some wheat in my tield— one root — bearing 
 some two tiiousand grains. I planted several rows of this seed in my gar- 
 den, which yielded at the rate of two thousand one hundred and sixty grains 
 to the single grain of seed. The rows were eighteen inches, two feet, and 
 three feet apart, and at harvest the heads were as thick as they usually ap- 
 pear in a Held of sowed wheat, and were six and seven inches long, the 
 smallest containing seventy-two grains, and the largest heads one hundred 
 grains. Tlie wheat stood about six feet high, and was not lodged or in- 
 juriously affected by the heaviest winds. The soil in my garden is a 
 sandy loam, enriched by barn-yard manure, swamp muck, and ashes; the 
 subsoil a mixture of sand and clay, colored by iron and underlaid by coarse 
 sandy gravel. The surface soil to the red earth is from one to two feet 
 deep." 
 
 The following is the plan of an old farmer in selecting seed wheat : 
 
 " He took his seed wheat on the barn floor, and threw a handful at a 
 time across the barn, and none but the very nicest, plumpest kernels would 
 reach the farther end of the floor : all the chess and foul stuff would not go 
 half way across." 
 
 Samuel Heirstcrn, of Chester County, Penn., says that he practiced mix- 
 ing seed wheat sixteen years with the best results, and recommends that 
 each farmer should every year exchange with another a part of his seed, and 
 mix the two or more sorts together. 
 
 An Ohio wheat-grower thinks it would be to the advantage of farmers to 
 change their seed as often as once in three years, but that seed from milder 
 climates — as Italy, for instance — is not beneficial. 
 
 This is contrary to the opinion of some other farmers, who think seed 
 from the South would ripen earlier and escape the midge. 
 
 An Illinois wheat-grower states that his crop increased over three bushels 
 per acre by changing seed. The effect, in our opinion, was not produced so 
 
Sec. 44.] WHEAT— SELECTING AND PREPARING SEED. 67T 
 
 much by a cliange of seed, the variety being the same, as from tlic fact that 
 the seed he obtained had been better selected. 
 
 It would require but little labor for a small quantity of seed, compared 
 to the value it would produce, to go through the wheat-field selecting the 
 choicest heads. The next best way is to select the very best portions of the 
 field, and cut them especially for seed. Many years ago, wiieu wlieat- 
 growing was more common in the Eastern States than it is now, a farmer 
 became noted in his neighborliood for his superior variety of M'heat, which 
 he called "barrel wheat," and sold at a liigh price to his neighbors for seed, 
 before they discovered that it was identical with their own ; the only differ- 
 ence was in the manner of saving the seed, by which it got its name. And 
 this was it: He selected the best sheaves from tlie field, and took them to 
 his barn, and placed a barrel on its side upon tlie thrashing-floor, and 
 took each sheaf separately and beat and Avhipped it over tlie barrel, 
 by which the longest and best heads only were shelled, and tlie best grains 
 saved for seed, and the process repeated year after year until he got a 
 " new variety." 
 
 If seed M'heat is taken from the bulk, it should not be sown before it has 
 been screened over and over, until there is not a -grain of wheat or anything 
 else that will pass through the sieve. In this way you may make a pretty 
 good selection of the best portion of the wbeat, and exclude all small, 
 shriveled, diseased grains, and all seeds of chess and weeds, except cockle, 
 which defies the arts of machinists. 
 
 There is not one farmer in a hundred that docs not know and acknowledge 
 the advantage of selecting seed corn by gathering the most perfect ears in 
 the field. If he will practice selecting wheat seed, he will probably become 
 as fully convinced of its advantages. We believe that the wheat crop of the 
 wliole United States can be increased as much upon every farm as the Illi- 
 nois farmer increased his. 
 
 752. Pickling Seed Wheati — The value of pickling seed wheat, as a prevent- 
 ive of smut, is beyond doubt. It is a fixed fact. "Water saturated with 
 common salt is esteemed sufficient by some. In Scotland, a common pickle 
 is urine of cattle or people, saturated witli salt. Sulphate of coi^per, known 
 ]>y many as " blue-stone," used one pound to eight gallons of water, is highly 
 recommended as a pickle for seed wheat. Sulphate of iron (copperas) is also 
 highly recommended. In this pickle the wheat is thoroughly washed, and 
 then dried by rolling it in dry, powdered lime, or ashes, or plaster (sulphate 
 of lime), or dust. 
 
 In putting the wheat in the pickle, let it be scattered in very thinly, so 
 that any iuqaerfect grains or light seeds of any kind may float and be 
 skimmed oft', if any such have escaped the screening process, which should 
 be very perfect, so that none but the large, sound, heavy grains sliould go 
 for seed. If there still remains, from some imperfection in the operation or 
 incompleteness of the antidote, something that induces or produces some 
 smut in the product of the immersed seed, what may be expected of that 
 
678 CEREALIA. [Chap. VIII. 
 
 from seed taken right out of the heap as it comes from the thrashing-ma- 
 chine and winnowing mill? 
 
 753. What Becomes of Seed Wheat?— It Does Not all Grow.— Charles 
 Bi-ackett writes as follows, July, 185S : 
 
 " I wisli to present the following matter of vast importance in regard to 
 the cultivation of wheat. 
 
 " I planted last autumn five rows of wheat, with spaces between different 
 rows of three feet, two feet, and eighteen inches; this was kept clean with 
 the hoc, and the product is as follows — Average number of stalks from each 
 seed, 32 ; number of grains to the liead, 72 to 100. 
 
 " Now, if we count only thirty stalks from each grain of seed, and seventy- 
 two grains in a head, we get at the rate of over two thousand-fold, and three 
 thousand two hundred, counting the highest yield. From the year 1845 to 
 1855 the average of wheat in this and parts of the adjoining counties, ac- 
 cording to my record, was less than eight bushels to the acre, the very best 
 being thirty-three bushels. 
 
 "Tiiirty stalks to the square foot will give 104,089,600 grains to the acre, 
 which, allowing 898,560 grains to the bushel, gives nearly 116 bushels to the 
 acre. This estimate is a correct one, based upon actual facts, and, although 
 it looks like a wild calculation, will prove so nearly correct as to help reform 
 our present slovenly and extravagant mode of wheat culture. The quantity 
 of seed required to plant an acre is only a trifle over five pounds, if put in 
 as above described. 
 
 " Suppose every seed of the bushel sown, per acre, grew and produced, as 
 some wheat usually does, three stalks to the grain of seed, each bearing 
 thii'ty grains, would not the acre produce ninety bushels? But how much 
 does it produce? Eight bushels and less on an average. 
 
 "What becomes of seed wheat? is an interesting matter for investiga- 
 tion." 
 
 The following table shows an English calculation of the number of grains 
 of wheat in a bushel, as well as several other seeds : 
 
 Buckwheat 1,404,000 
 
 Red clover 15,000,000 
 
 White clover 40,220.000 
 
 Sweet vernal grass 9,250,000 
 
 ■Wheat 000,000 
 
 Oats 072,000 
 
 Barley 550,000 
 
 Eye 1 ,230,000 
 
 There is no doubt in our mind about the injury of wheat seed, by thrashing- 
 machines, and consequently there is an incalculable number of grains of 
 ■wheat which will not vegetate. Careful experiments are needed to show 
 the per-centage of loss upon machine-lhrashed seed over that thrashed by the 
 flail, to determine whether true economy would not dictate a change, and 
 that all grain for seed should be thrashed by hand. 
 
 According to the above calculation of 660,000 grains of wheat to the 
 bushel, there would be 2,640,000 grains in four bushels, and if we assume all 
 to vegetate, there would be one wheat plant to every 2f superficial inches, 
 if that quantity is sown upon an acre, as there are in an acre 6,272,640 
 superficial inches. A good strong wheat plant, upon good soil, with plenty 
 
Seo. 44.] WHEAT— WHAT BECOMES OF ALL THE SEED SOWN? 679 
 
 of room, will tiller ten-fold, and a field in proper condition should average 
 that. Now let the advocates of thick seeding make their own estimate, 
 and see how many plants they will have to the acre, and then go into 
 the hest field to be found, and see how many are actually growing upon 
 each foot square, and compare the result with the number that four bushels 
 of seed pev acre should produce. In our opinion, a better preparation of the 
 soil, a careful selection of perfect seed, and a careful planting of it, so that 
 all would grow, and so that half a bushel would give better results than 
 four bushels, would show the best economy. 
 
 Before, however, any certain rules can be adopted by American farmers, 
 tlie actual number of seeds in a bushel must be ascertained, and very care- 
 ful experiments made. 
 
 In the Xew York State Agricultural Society Transactions for 1S49 there 
 are sonje experiments reported. It is stated that wheat sown in squares one 
 and a half inches each way, taking nearly four bushels of seed per acre, 
 gave a product of almost seventy bushels, while one fourth the amount of 
 seed, in squares of three inches, gave fifty-one bushels ; and other trial plots, 
 using two bushels of seed, and three fourths of a bushel, gave respectively 
 products rating at sixty and at forty-five bushels per acre. English experi- 
 ments give about the same result, pointing strongly to an even distribution 
 of the seed over the ground on all clean soils. 
 
 Under a perfect system of tillage — giving all the ground and all the 
 strength of the soil to the one product of wheat — no doubt the rule would 
 hold good, that the greater the number of perfect stems and heads per acre, 
 the greater the amount of grain produced. 
 
 Weeding wheat, where needed,' compensates for the loss of space in drill 
 culture, and we are not without experiments showing thin seeding very 
 favorably by the side of the more liberal supply, especially in cases of early 
 sowing on rich or very carefully cultivated soils. 
 
 These various discussions and experiments point at least to one fact for the 
 guidance of the farmer — -but one not very generally known and considered — ■ 
 that rich, deep, thoroughly worked soils do not need as great an amount of 
 seed as those of a less fertile character. 
 
 A new kind of wheat, or cheat, was extensively advertised in the spring 
 of 1861, under the name of '• Japan wheat," which the issuers of the ad- 
 vertisement pretended will yield " three hundred bushels per acre." That 
 story is too big. It is a big effort to " raise the wind"' at the farmer's ex- 
 pense. It is rather more than every grain of four bushels of seed per acre 
 would j)roduce. 
 
 75-4. Wheu should Grain be fnt? — A most important question for every 
 farmer. Careful observation and some little experience during twenty years' 
 residence in a great wheat-growing country, have convinced the writer that 
 it is fully ten per cent, profit to cut wheat before the grain is fully ripe. Com- 
 mence cutting as soon as the earliest part of the crop has passed from the 
 milky into the dough state. There is no necessity to let it lie to cure, if 
 
680 CEREALIA. [Chap. VIII. 
 
 cut wliile the straw is still partially green. Bind it up as fast as cut, and 
 set the bundles in stocks, two and two leaning together in dozens or twen- 
 ties, or any given number, so as to give an even count. Set in this way, 
 the most unripe grain will cure and perfect itself. 
 
 The advantages are: the grain is heavier, sweeter, and whiter; there is 
 less loss of shattered grain ; the straw, where that is an object, is so much 
 better feed as to make it worth while to cut early, even if there were a loss 
 on the grain, which is not the case. 
 
 For seed, the best portion of the field should be set apart and left to ma- 
 ture until fully ripe, and then carefully cut by hand and very carefully han- 
 dled, because the very grains which should be saved for seed are the ones 
 most easily shattered. Give these bundles a slight thrashing, and give the 
 grain a thorough winnowing; screen out all but the most plump kernels, 
 and sow those for your next crop, and you will succeed in improving both 
 quality and product. 
 
 In the 2d volume of British Husbandry, pp. 136, 137, it is said that grain 
 should be reaped, as a general rule, before the uppermost grain can be shaken 
 out. But in this a medium course should be adopted, for although grain, 
 if allowed to become too ripe, assumes a dull, husky hue in the sample, yet, 
 if not ripened enough, it shrivels in the drying. 
 
 Cadet de Yaux asserts that " grain reaped eight days before the usual 
 time, has the berries larger, fuller, and finer, and better calculated to resist 
 the attacks of the weevil. An equal quantity of the corn thus reaped, with 
 corn reaped at maturity, gave more bread and of a better quality. The 
 proper time for reaping is that when the grain, on being pressed between 
 the fingers, has a doughy appearance, like a crumb of bread just hot from 
 the oven." 
 
 Mr. C. Howard, in the Report on Select Farms, says : '' Wheat ought 
 never to be allowed to remain uncut till it is fully ripe. By permitting it 
 to stand until the straw has lost its succulency, gains nothing in plumpness 
 or bulk of grain, and loses much in its color and fineness of skin, besides the 
 risk of shelling, by high wind, or by its being cut iinder the influence of a 
 burning sun. 
 
 " When fully ripened by standing in the shocks, no dry hour should be 
 lost in getting it well secured." 
 
 Loudon observes, that " in harvesting wheat, the best farmers, both in 
 England and on the Continent, agree that it ought to be cut before it be- 
 comes dead ripe. When this is the case the loss is considerable, both in the 
 field and in the stack-yard ; and the grain, according to Von Thaer, pro- 
 duces an inferior flour." 
 
 An experienced Pennsylvania farmer of our acquaintance always cuts his 
 oats while the straw is green. This he learned to do by accident, for it was 
 contrary to the practice of his father and all his neighbors. His hay crop 
 was short one year, and he determined to cut his oats green ; that is, a few 
 days too soon, as he thought, losing the grain for the sake of the straw. For 
 
Sec. 44.] WHEAT— WHEN AND HOW HARVESTED. 681 
 
 seed, lie left a strij) through the middle of tlie field, where the oats were 
 best. Tlie grain of those cut was just in the dough and milky state, and 
 he expected they would all shrivel up. Wiiat was his sur])rise when he 
 came to thrash, to find the early-cut straw yielding as much and as plump 
 grain as that which stood till it was dead ripe, while the straw was in- 
 comparably better — in fact, the stock ate it as readily as they would tim- 
 othy hay. 
 
 We have known many instances where early-cut grain was saved, while 
 that left to ripen was lost. A farmer offered two samples of wheat, one cut 
 on the 20tli of July in a green state, when the crushed grain had the ap- 
 pearance of thick dough ; the other, cut six days later in a ripe state, the 
 ears drooping, and the grain firm and hard. Both samples remained in 
 stack until the 17th of October, when the grain was thrashed, the green-cut 
 portion was equally dry with the other, and the green-cut grain weighed 
 twenty-eight ounces per busliel more than that which was allowed to stand 
 till it was quite ripe, and produced a better sample of flour with one twelfth 
 less bran. 
 
 755. Shocking Wheat in the Harvest-Field.— It will be often found to be 
 good economy to take the sheaves from the bunches or dozens which have 
 been set up two and two to cure, and put them in hand stacks, when they 
 can not be got into a permanent stack soon enough. The following is a 
 good rule : 
 
 Bring sufiicient sheaves together, say 100, and place them in a circle or ring 
 of about fifteen feet in diameter, with the butts to the center. Set a good- 
 sized sheaf in the center of the inclosed space on the ground, and lay down 
 successive sheaves, elevating the heads at first by laying them across the 
 first sheaf, and so on around this nucleus until a circular bottom is formed 
 sufficient to receive the quantity of sheaves brought togetlier— always taking 
 care to keep the heads of the sheaves duly elevated until the stack is fin- 
 ished. The bottom should be made of ample size, so as to permit the 
 sheaves to have due space ; otherwise the center will be too high and cause 
 the sheaves to tumble ofi', or the whole to assume a leaning position. It is 
 better, therefore, to allow full size, and then to draw the stack to an apex 
 rather suddenly in finishing. This is more especially necessary when the 
 sheaves are large, for it is diflicult otherwise to make the top sufiiciently 
 pointed. 
 
 With the foregoing directions faithfully observed, a man with ordinary 
 judgment may rapidly secure his wheat in the field against all ordinary 
 weather for a month or more. 
 
 756. Storing Grain in Stacks. — In England, where, for a certainty, there 
 is no lack of means to build barns, and where the climate is quite as humid 
 at harvest-time as it is here, there is a vast amount of grain put up in stacks, 
 and it is contended that there is less loss upon the average of grain stacked 
 than upon grain stored in barns. In this country there is an anxiety on the 
 part of farmers to have barn room enough to store everything, and stacking 
 
682 CEREALIA. [CnAP. VIII. 
 
 is considered wasteful. And so it is, as stacking is generally done, but it 
 need not be so ; the fault is in tlie stackers, not in the sj'stcm. 
 
 In England, a fanner has a permanent stack-jard, with forms, or founda- 
 tions upon which to build the stacks, and these are often made of stone pil- 
 lars, capped with flat stones to prevent rats and mice from climbing up and 
 getting into the grain. Here, some brush, old rails, poles, old straw, or a few 
 loose stones may be placed under the grain or hay, though often the stacks 
 are built right npon the ground, and we have seen a thickness of two feet 
 of the bottom of stacks frozen together so firmly that the hay or grain could 
 not be got at until after a thaw, and then only in a very poor condition. The 
 tops are frequently built equally faulty, and we once had a stack where the 
 lazy lout who built it clung to the pole and pressed the hay down around it 
 to such a degree that water settled in the cavity and penetrated down 
 through the center to the very foundation. Sometimes wheat-stacks are so 
 faultily built that the butts of bundles on the outside are higher than the 
 tops, serving as conductors of water to the center; and such stacks by hun- 
 dreds may be seen upon the prairies coated with green during a warm Sep- 
 tember rain. 
 
 With so many evidences of wastefulness in stacking, it is not to be wondered 
 at that American farmers are prejudiced against the system, and only adopt 
 that plan of storing grain when compelled by necessity. 
 
 Some of the remarks about stacking hay (835) will apply equally well to 
 grain. So well satisfied are English farmers about the economy of storing 
 grain in stacks, that wg see of late, in all the English agricultural papers, 
 advertisements of iron stack bottoms — iron frames, supported by iron pil- 
 lars, about a foot and a half high. 
 
 757. Thra$hiug;-Machines vs. Flails. — Because wheat must be cut by ma- 
 chines, farmers are apt to apply the same idea to thrashing. The rule will 
 not always hold good. Upon the great prairie farms of the "West the grain 
 nmst be thrashed by machines, because the work must be done in the open 
 air, and it is like hay-making, it must be done while the sun shines, and 
 therefore is usually done by a ponderous machine, driven by the power of 
 four, six, or eight horses, attended by eight to twelve men ; that is, one to 
 feed the sheaves into the thrasher, one to cut the bands and place the sheaves 
 on the table convenient to the feeder, and one to three, according to the 
 situation of the stack, to get the sheaves to the band cutter ; and three to 
 six men to take away the straw and grain, and one to drive, and a stout boy 
 to do a score of nameless things. It is a heavy and always dreaded job to 
 have the thrashing-machine about the place, and M'hen we grew wheat on the 
 jirairie the actual cost of thrashing was 12 to 15 cents a bushel. The straw 
 was of no value, and was often burnt after the thrashing was done to get it 
 out of the way. We once took the trouble to pile up the straw of fifty 
 acres, thinking it might be useful in just such a hard winter as the one that 
 preceded the harvest, for our own or some other one's stock, but it was not 
 needed, and the stack stood iintil it gradually decayed several years after- 
 
Sec. 44] WHEAT— STACKING AND THRASHING. 683 
 
 ward. In such places, where straw and chaff are worthless for cattle feed, 
 it will be good economy to thrash with a niacliiiie and get rid of the straw 
 in the easiest manner, which will be by hauling it away from tlie machine 
 with a horse-rake. But where straw is valuable, either for feeding or bed 
 ding, on the farm or in market, we think it good economy to thrash with a 
 flail or with a one-horse machine in the barn from day to day, as the straw 
 is needed. Upon this point we give the testimony of a very practical, ob- 
 serving farmer, one who knows whereof he speaks— the Hon. Geo. Gcddes, 
 of Fairmount, Onondaga County, N. Y., who has most sncccssfully con- 
 ducted the farm that his father managed, and which his son is now con- 
 ducting without deterioration in its productiveness. He writes under date 
 of March, 1858, as follows : 
 
 ''I M-ill give you some of the reasons that make me think that the flail is 
 better than the large thrashing-machines for most of the farmers of central 
 New York, except in those cases that require the grain to be thrashed soon 
 after it is harvested. The ordinary price for thrashing wheat with the travel- 
 ing machines here is five cents per bushel, the owner of the machine having 
 with it two men and four liorses that the farmer must feed. The farmer 
 must provide six more horses, and from five to eight men — say an average 
 of seven. All the expenses will bring up the cost of thrashing to ten cents 
 a bushel. I have paid that for thrashing a large crop. "Wheat is the only 
 crop that makes so good a comparison for the machine, for ten cents is just 
 a fair price for flailing out wheat in the winter, the tlirasher binding up the 
 long straw, and feeding the short straw during the day to the sheep and 
 cattle. 
 
 " Barlej' can be thrashed with a flail for three cents less than by machine. 
 Oats about the same, and yet there are cases where we use machines. Last 
 autumn we could sell our wheat for $1 50, and our barley for $1, so we 
 hired a machine and put the crop into market, well knowing tliat the prices 
 must fall before winter. We appeared to save about half a dollar on each 
 bushel, but there is some drawback on that calculation. Our men being 
 thrown out of this thrashing in the winter, we liave had to look up work 
 for them that we really did not want to do, and we have lost our straw 
 nearly, as the lieavy rains of October and November could not be kept from 
 going down through the stacks and injuring them very much. Tiiough our 
 sheep have had a vast amount of good hay, they are not in as good order 
 as usual at this time of the year. Most of the farmers in Onondaga raise 
 grain, make some butter and cheese, raise a few cattle, horses, and sheep, 
 and intend, during the winter, to make their stock eat and trample under 
 foot the straw of their grain, so as to get it into shape to manure their fields. 
 The plan of thrashing it during the winter, either by flails, or stamping it 
 out with horses on wide floors, or thrashing with a very small machine, that 
 two horses and three or four men can handle, has this advantage, that all 
 the sliort straw is fed from day to day as it is thrashed, and thus nearly 
 every grain saved in some way. The farmer will find it to his profit to keep 
 
684: CEREALIA. [Chap. VIII. 
 
 this winter work for his men, wlio he can not do without in summer, and by 
 doing this he can raise a few sheep, calves, and a colt or two, without losing 
 money on them. 
 
 "Thrashing is the only winter employment the farm can give hirelings, 
 and in this view, thrashing, in fact, costs but little, for the money paid to 
 these men during the winter enables us to employ them in the summer at 
 reasonable prices. The result to them is constant employment ; to us, econ- 
 omy in the first cost of thrashing. 
 
 " Machines do not thrash cleaner than flails. I have had a great deal to 
 io with machines, but I never saw one at my barns, or my neighbors', that 
 did not leave grain enough in tiie straw to make the stacks green with 
 sprouted grain as soon as the rain wet them. A good flail-thrasher will 
 leave but little, and that little the sheep know how to find. And oats and 
 barley are, when thus fed to stock, worth their usual market price, and wheat 
 more than half. 
 
 " If 3'ou find it necessary to employ machines, have a sufiicient number of 
 able-bodied men to assist. Persons inclined to diseases of the throat and 
 lungs should not labor in the dust created by the thrashing-machine. A 
 moistened sponge, tied over the nostrils to prevent the entrance of dust, 
 should always be used by those most exposed." 
 
 758. Cleauing Grain for Marketi — ^The practice of sending wheat to markat 
 in a very badly cleaned condition is injurious to the farmer's interest. In 
 1859 the Chicago Board of Trade reported that some samples of rejected 
 wheat, returned from New York, siiow that the grain was an originally good, 
 fair quality of spring wheat, and in about the condition of Chicago spring 
 wheat generally, but so badly cleaned that it had got damp and musty and 
 unfit for use, emitting a sour, disagreeable odor. Another lot, considered 
 standard, that passed inspection because dry, perhaps, was found to contain 
 oats, barley, kernels of yellow corn, and plenty of dirt. The berry of this 
 was so good that, if it had been properly cleaned, it would have jiassed as 
 extra, and fully equal to a kind known as Milwaukee Club, whicii sold in 
 New York at ninety cents, while the Chicago wheat brought but eigiity-two 
 to eighty-four cents. Now, what is fact in this case is fact in others arising 
 from the same basis, and no farmer can afford to be such a sloven. He can 
 not put twelve per cent, of dirt in among the grain, which he must do to 
 make up the difterence in price. But great as the fault is on the part of 
 farmers, it is greater on the part of those who buy the grain of tiie pro- 
 ducers, for they pay just as much for dirty as clean wheat, or if they find a 
 load too dirty to pass without notice, they deduct from tlie jirice paid the 
 producer, and then mix good and bad altogether, and it sometimes happens 
 that a farmer who has shipped wheat on his own account, that he had taken 
 exti-a pains to clean, only gets the average price of the whole cargo, his 
 honesty being taxed for the benefit of the cheater ; with many the cheat is 
 intentional — for dirt and cheaper grains have been purposely mixed in with 
 wheat, because it would then bring just as much a bushel as the cleanest. 
 
SEa 44.] THE PRODUCT OF WHEAT PER ACRE. 685 
 
 This may bo the case at first, but in tlie end, as in the case mentioned, the 
 loss comes back upon the farmer, and unfortunately all suffer alike, for the 
 value of the whole crop is reduced. The only remedy that we can suggest 
 is for every man who does honestly clean his grain to set his face against 
 all such cheating. Refuse to sell to a man mean enough to buy dirty wheat 
 because he can mix it with yours that is clean, and so average it ; and refuse 
 all countenance to a neighbor who purposely sells such grain. 
 
 759. The Product of Wheat per Acre. — What is the average product of 
 wheat per acre in any State, or in any given district, is a question very dif- 
 ficult to settle, because the poor crops are never reported, nor is such a year 
 as that of ISiO in the great wheat district tributary to Chicago, when the 
 entire crop was blasted with rust, ever averaged upon the most fruitful 
 years. There is generally, too, a disposition to estimate good fields too high. 
 The following method of making an estimate of the yield per acre of a 
 growing crop of wheat, rye, oats, or barley has been found correct in En- 
 gland, and seems easy of aiiplication and approximately correct: 
 
 Frame together four light sticks, measuring exactly a foot square inside, 
 and witii this in hand, walk into the field and select a spot of fair average 
 yield, and lower the frame squarely over as many heads as it will inclose, 
 and carefully shell out the heads thus inclosed, and weigh the grain. It is 
 fair to presume that the product will be , j jg „ part of an acre's produce. 
 To prove it, go through the field and make ten or twenty similar calcula- 
 tions, and estimate by the mean of the whole number of results ; it will cer- 
 tainly enable a farmer to make a closer calculation of what his field will 
 produce than he can by guessing. 
 
 A year or two since a statement was published in the American Farmer^ 
 at Baltimore, from M. T. Goldsborough, of Ellenboro, Md., that a field of 
 27^ acres, carefully measured on the farm of his father, yielded 55 bushels 
 of wheat to the acre, and nine of the best acres each yielded (S\\ bushels. 
 The field had been subject to a rotation of corn, wheat, and clover for a 
 number of years, and repeatedly manured with barn-yard manure, swamp 
 muck, woods'-mold, marl or lime, and especially with large quantities of cal- 
 careous manure obtained from the Indian oyster-shell banks. It was plowed 
 six inches deep but once, and harrowed and rolled till the earth was loose, 
 and not a clod could be seen. The seed was drilled in with a nine-inch drill 
 on the 4th, Gth, and 7tli of October. For 18i acres, only 28 bushels of seed 
 were used of white wheat frona North Carolina. The straw averaged five 
 feet six inches in hight, but many specimens six feet four inches long were 
 found. 
 
 S. P. Mason, of "Walnut Creek, N. Y., tells us how he grew wheat at the 
 rate of 80 bushels per acre from California seed. He inclosed with boards 
 an exact rod of dry, gravelly soil, and spaded it 18 inches deep, mixing in 
 well-rotted clayey turf, sifted, to the amount of a cart-load, and a peck of 
 salt, half a bushel of ashes, and one pound of guano ; then marked the bed 
 into squares of three inches, and planted, Sept. 10, one grain in a hole two 
 
686 CERE ALIA. [Chap. yill. 
 
 inclics deep in the center of each square, using nine grains to each foot, 
 which he thinks is too thick. It came up in eight days, and by Dec. 1 it 
 was a perfect mat, so that the ground was hidden. On this he sifted three 
 pecks of charcoal dust, and when the snow melted oif in March, tlio wiieat 
 ■was ver}' green. It was watered a little in a dry time, and harvested July 
 10, after the birds had taken a share, and dried, and the grain weighed 29i 
 pounds, or nearly SO bushels per acre. 
 
 Tliat, the yield can be increased we have abundant evidence. One writer 
 on wheat culture says : 
 
 " If the season is backward, we may hasten the germination of our seeds 
 by watering with a weak solution of chlorine, iodine, bromine, sulphate of 
 iron, dilute sulphuric acid, or nitrie acid, and the compounds of ammonia, 
 and afterward, by the proper application of suitable manures, we may con- 
 tinue tlio develojjment of all parts of the plant during the entire period of 
 its growth, and thus increase to an amazing extent the return of seed. 
 
 " I once sowed two and a half bushels of wheat on a well-prepared acre 
 of sandy loam ground, and it yielded me 1,600 lbs. of grain and 3,000 lbs. 
 of straw. On an acre of rich, stiff soil, abounding in organic matter and 
 calcareous earth, thoroughly manured, on a pea crop, the same quantity of 
 seed yielded 2,000 Iba. of grain and 4,000 lbs. of straw. 
 
 "The grain was placed in dilute sulphate of soda for two hours before it 
 was sown, destroying the germs of parasites." 
 
 760. The Ability of America to Produce Wheat, — ^Those who believe in the 
 inexhaustibility of American virgin soil to produce wheat will do well to 
 read the statistical facts in the following article prepared after the great 
 crop of 1860 began to come into market. Our belief is, tliat under our 
 present system the great wheat-producing regions of all the Atlantic States 
 are gradually becoming less productive, and will in time be reduced to tlie 
 condition of the New England States, where wheat is only grown upon 
 favor'te spots highly fertilized, and only in small plats for family use. In 
 thib view of the case, it becomes a serious question what is to be done to 
 maintain our ability to grow wheat. 
 
 "In 1790 the United States exported 1,018,339 bushels of wheat. In 
 1820 tlie export had sunk to 25,821 bushels. In 1830 it rose to 408,910 
 bushels ; in 1840 to 858,585 bushels ; and in 1850 to 1,026,735 bushels ; or 
 onl}' 8,386 more than sixty years previously. These extraordinary vibra- 
 tions in the export are measurably governed by the shortness or abundance 
 of tlie croj) ; but the fact has long been noticed that our wheat-producing 
 power is rapidly declining. In fifty years this great staple of Ohio has 
 diminished from an average yield of 30 bushels per acre to less than 15. 
 In eleven counties of that State, which in 1850 yielded 7,531,757 bushels, 
 there were but 4,413,207 produced in 1857, thougii in the interval many 
 thousands of acres of new land must have been broken up and sowed with 
 wheat. Virginia, Maryland, and Delaware have ceased producing largely, 
 while in New England the diminution is almost incredible. In 1840 Rhode 
 
Seo. 44.] THE ABILITY OF AMERICA TO PRODUCE WHEAT. 687 
 
 Island produced 3,098 bushels, but ten years later only 49. Within the 
 same period Connecticut fell from 87,000 bushels to 42,000 ; Maine, from 
 848,000 to 296,000 ; Massachusetts, from 158,000 to 31,000 ; New Hamp- 
 shire, from 432,000 to 186,000 ; Vermont alone maintaining her ground by 
 yielding 535,956 bushels in 1850 against 495,800 in 1840. In the same pe- 
 riod Tennessee fell from -4,569,692 to 1,619,386 bushels; Kentucky, from 
 4,803,152 to 2,142,822; Georgia, from 1,801,830 to 1,088,534; and Ala- 
 bama, from 838,520 to 294,044. The Avhole wheat crop of the Union in 
 1840 was 88,513,270 bushels, while in 1850 it had risen only to 100,585,844 
 bushels, an increase of only 12,072,544 in ten years, of which increase, Illi- 
 nois, Indiana, and Wisconsin supplied every bushel— showing conclusively 
 that all the old wheat regions were rapidly deteriorating. Within the same 
 period only "nine of the fifteen slave States increased their crops, while the 
 falling off in the whole fifteen was 2,200,316 bushels. 
 
 " In New York the increase in 1850 was not ten per cent, over 1840. 
 Many portions of the State, which once produced 25 bushels per acre, now" 
 barely average five. An English traveler in 1775 was amazed at finding 
 that the land around Albany yielded 30 to 40 bushels per acre witli the most 
 imperfect husbandry, while in England their best managed land did not 
 yield half so much. Yet in 1845 the average of the same Albany region 
 had sunk to 7^ bushels per acre. In Dutchess County it had dwindled to 
 five ; in Columbia to six ; in Rensselaer to eight, and in Westchester to 
 seven. In some portions of Maryland and Virginia, wheat is no longer cul- 
 tivated on land which forty years ago produced abundant crops. Oliio it- 
 self, the second on the list of wheat-producing States, is rapidly losing 
 ground. In Canada, the yield is so steadily diminishing that within a pe- 
 riod of seventeen years it fell from 22,981,244 to 942,835 bushels, a diff'er- 
 ence of over 22,000,000, 
 
 "It is evident that the relative production of food to increase of popula- 
 tion is annuall}' diminishing, notwithstanding the opening up of virgin soils 
 to the plow. As these are opened, others are abandoned from exhaustion. 
 Without these virgin soils to flee to, the failure of a single wheat crop would 
 occasion a national scarcity. Actual famine can never occnr in this country, 
 because in its enormous corn crop it will ever hold a granary almost ]ari!;e 
 enough to feed the world. The boast has been that we could feed the world 
 with wheat, but nothing could be wider of the truth. In the single month 
 of October, one year, we shipped $6,000,000 of grain and flour to England, 
 but in the same month of the preceding year we sent none. Such are the 
 irncertainties of dependence on a market abroad, instead of upon one at 
 home. The crop of 1848, amounting to 126,000,000 bushels, is held to he 
 an average one. We then had 22,000,000 inhabitants, giving within a frac- 
 tion of 5i bushels to each. But England consumes 166,000,000 bushels an- 
 nually, or six bushels each. We send lier wheat whenever she needs it, bnt 
 we spare it only because we have corn to fall back upon. If it were not Un- 
 this peculiar product of our climate, all the wheat we raise would be insufh- 
 
CERE ALIA. [Chap. VIH. 
 
 cient for our own wants. Our average export is 12,000,000 bushels. Onr 
 poj^ulation doubles in about twenty years, yet the relative diminution of the 
 wheat crop is so great that, unless our mode of agriculture is improved and 
 the ratio per acre increased, the export will entirely cease, and we shall not 
 produce enough for ourselves. The census of 1870 will probably establish 
 this fact. 
 
 " The gravest reasons exist for such an opinion. The prevalent belief that 
 this whole continent is adapted to wheat-growing is a great misapprehen- 
 sion. Our wild lands are not all wheat land. On the contrary, the true, 
 reliable wheat region of this country is ascertained to be limited to ten de- 
 grees of latitude and twenty of longitude, covering about half t«e States. 
 Beyond these limits wheat is certainly produced, but it is almost exclusively 
 spring wheat, an inferior article, giving less yield and always selling lower. 
 As New England lies outside of this belt, it can never be a wheat producing 
 region. Vermont alone increased her product in the last decade, the in- 
 crease being only 40,000 bushels, and tliis in the face of legislative pre- 
 miums held forth to stimulate its cultivation. Formerly she was a large 
 wheat-exporting State ; now she does not export a busliel, but imports more 
 than half of all the flour she consumes. Manufacturing has superseded 
 agriculture, because more profitable, and the consumer having placed liim- 
 sclf beside the producer, both are prospering. New England soil, when 
 first broken up, produces good wheat, but exhaustive cropping has dimin- 
 ished its productiveness ; everywhere, in fact, a virgin soil will wear out. 
 The lands south of North Carolina have never been and never can be re- 
 liable for wheat. In only four States south of this line has there been an 
 increase in the last ten years, and that of only 150,000 bushels. In the ex- 
 treme South the diminution has been enormous. The gain in Delaware 
 and Maryland exceeded more than half the loss of the whole fifteen slave 
 States. Florida, Louisiana, and Texas produced in 1850 only 43,373 
 bushels. 
 
 " Spring wheat is raised so readily on prairie soil that it is no wonder tlie 
 yield of Illinois rose from 2,335,393 bushels in 1840 to 9,414,575 in 1850, 
 and Wisconsin in the same period from 212,116 to 4,286,231. But the 
 popular opinion that this region is to be the permanent granary of the Union 
 may well be doubted. It will undoubtedly go on increasing its aimual 
 product as new prairies are broken up, until the whole has been subjected 
 to tillage ; but while the new lands are yielding liberally, tliose first tilled 
 \vill be wearing out more rapidly than those of the Atlantic States. 
 
 ''On the great American plains, extending to the Eocky Mountains, per- 
 petual barrenness rests. Thence to the Pacific is a wilderness in which 
 Indians alone can dwell, because it produces game only. Nearly all Sonora 
 is sterile, and most of New Mexico. No wheat can be grown over all this 
 vast region, unless it be in a small portion of western Texas, and the nar- 
 row belt along the Pacific. Ohio is the real Western boundary of the 
 wheat-producing region. As a general rule, in those sections where no 
 
Seo. 44.] WHEAT-GROWING IN DIFfEIiENT STATES. 689 
 
 heavy snows occur to protect the winter grain, wheat can nbt be raised to 
 profit, and spring wheat must be the substitute. It is even doubted by 
 close observers whetlier winter wheat has ever been grown to profit unless 
 covered by a blanket of snow. This region embraces Ohio, the southern por- 
 tions of Michigan and New York, all Pennsylvania, Maryland, and Delaware. 
 It is proved by the census returns that the product of those States in 1850 
 was 48,385,000 bushels, or 2,000,000 less than half of the whole national 
 harvest. Geological research points to the large mixture of clay in all these 
 soils as being indispensable to continuous production of wheat, and infers its 
 absence from the Western prairies as foreshadowing their early abandon- 
 ment as wheat fields. Ohio, with a clay loam, produces 16^ bushels to 
 each inhabitant, while Indiana, with a richer soil, pi-oduces onlj' Si bushels ; 
 and Illinois, with a soil still richer, yields only seven bushels to each in- 
 habitant. 
 
 " "While the ratio per acre has thus been steadily diminishing during half 
 a century, British agriculture has been revolutionized the other waJ^ Hero 
 we have been skinning the land to exhaustion, and like the wasteful cotton- 
 grower, pulling up and moving ofl^ to newer land that needed no labor for 
 manuring. There they have swept the battle fields of Europe for the bones 
 of friend and foe, brought them at great expense to their own shores, and 
 ground them up to fertilize their lands. Ships are often loaded at Kew 
 York and Philadelphia with bones for English wheat fields that ought to 
 have been retained for use at home. They have expended an untold sum 
 for guano. More underdrains have been laid in England than in all the 
 world besides. Fertilizers innumerable are consumed in immense quanti- 
 ties. Roots have become a staple of the kingdom, feeding more cattle than 
 ever, and producing manure in abundance. Under this renovating system 
 the land is so enriched, that in England the average yield of wheat is 3(3 
 bushels per acre, while crops of 88 bushels have been raised. Yet she has 
 never been able to raise food enough for her vast manufixcturing population. 
 A failure in her grain crop afiects the exchanges of the world. In Franco 
 the same calamity produces revolution. AVe are now helping to feed botli 
 nations, though England is our largest customer. Yet England is the 
 greatest exporting country known. What we sell to her in flour and grain 
 we buy back in cloth and iron, which we should manufacture ourselves, thus 
 building up communities of consumers on this instead of on the other side 
 of the ocean." 
 
 761. Wheat-Growing in Different States. — Calif oniia soil is undoubtedly the 
 most productive of wheat of any in America, or tlie world, unless it may be 
 Australia. The following item from a California paper shows what that State 
 is capable of producing, and our comments will show the fertilizer used : 
 
 "The Indian Agent at Fresno, in charge of the Reservation there, ri'ports 
 that the yield of 300 acres of wheat on the Reservation will probably 
 amount to 30,000 bushels ; that is, 100 bushels per acre." 
 
 As we know that farming upon these reservations is generally performed 
 
690 CEREALIA. [Chap. VIII. 
 
 by Indian laborers, there can be hotliing in the mode of cultivation to 
 account fur the yield, and we are naturally led to inquire what is in the soil 
 to afford such a production so much above anything we are accustomed to 
 on this side of the continent. Neither can we look upon this as an isolated 
 case, for such a production is not new in California. Now Avhat is in the 
 soil that makes it so productive i Nothing, probabl}', that is not in any 
 good wheat soil of the Atlantic States. 
 
 Then what is the fertilizer applied to make it so productive? 
 
 That question we can readily answer. Although in this account it is not 
 stated, yet we think, from our knowledge of what has been applied in other 
 cases, where great yields were the result, and the only thing that we ever 
 heard of being ajjplied, we know that we are safe in saying that the only 
 fertilizer applied was water — water from an irrigating ditch, led through the 
 field and spread out in a net-work of little channels upon the surface, moist- 
 ening all the roots just when most needing it. And need it they surely do 
 where there is no rain. Here, to make irrigation advantageous as it is there, 
 we must connect it with underdraining. And then in the same parallel of 
 latitude, say in Virginia, North Carolina, or Georgia, upon some of the first- 
 rate wheat soils abounding in these States, who can say that one hundred 
 bushels of wheat per aci"e will not yet be grown ? 
 
 Illinois wheat-growing does not appear to be very profitable by the fol- 
 lowing tables made up by these wheat-growers. " Making a calculation on 
 thirty acres of wheat, and estimating the crop at twenty bushels per acre — 
 a high rate, including the wliole State— and setting down the cost of seed 
 and labor at what wo farmers paid last year, the result is as follows : 
 
 37 J bushels seed wheat, at $1 S37 50 
 
 Plowing thirty acres 37 00 
 
 Sowing wheat, one hand three days, at 
 
 $1 per day 3 00 
 
 Harrowing twice, 6 days with teams, at 
 
 $2 50 15 00 
 
 KoUing ground in spring, 2 days 5 00 
 
 Cutting with reaper, 75c. per acre 22 50 
 
 7 binders, at $1 50 per day 21 00 
 
 3 shockers, at $1 50 per day 9 00 
 
 Boarding 12 hands, 72 meals, at 20 cents 
 
 per meal 14 40 Total $425 00 
 
 " Some may object to my estimate of the cost of thrashing ; but six cents 
 per bushel is what was charged last fall in this section, the owner providing 
 everything, and double that amount when he provided nothing. Thus we 
 see that the cost of producing was very nearly seventy-one cents per bushel." 
 
 Another one says : '" I consider it cost me last year to raise twenty-four 
 acres of wheat as follows : 
 
 Plowing land at $1 50 per acre SoC 00 
 
 Seed, 1} bushels per acie, at $1 25 per 
 
 bushel 52 50 
 
 Sowing and harrowing at 75 cents per 
 
 acre 18 00 
 
 Harvesting at $1 50 per acre 36 00 
 
 Hauling and stacking at 50 cents per acre 12 00 
 Thrashing 660 bushels,' at 5 cents per 
 
 bushel 33 00 
 
 Feeding 4 horses 2 days, at 25c. per head S2 00 
 Hauling, two teams and hands, at $2 50 
 
 three days 1500 
 
 2 hands stacking, 3 days, at $1 per day. , 6 00 
 
 Thrashing at 12 cents per bushel 72 00 
 
 Hauling from to 9 miles, at 6 cents per 
 
 bushel 36 00 
 
 Interest on 30 acres of land, $3 per acre. 90 00 
 Interest on horses, wagons, harness, plow, 
 
 etc 40 00 
 
 Hands, two teams, board, etc., while 
 
 thrashing $25 00 
 
 Hauling to market at 5 cents per bushel 33 00 
 
 Rent for land at $3 per acre 72 00 
 
 Total cost *317 50 
 
 Value of wheat at 50 cents per bushel . . "SO 00 
 
 Gain on 24 acres of wheat S12 50 
 
Seo. 44.] 
 
 "WHEAT-GROWING IN DIFFERENT STATES. 
 
 691 
 
 ' The first year I broke twenty acres, and here is what 
 
 Tlirashing 6G0 bushels, at 5 cents per 
 
 bushel $33 00 
 
 Hands, teams, and board 12 00 
 
 Hauling to market at 3 cents per bushel 19 80 
 
 Total cost $350 80 
 
 Value of wheat at 80 cents per bushel. 528 00 
 
 AiiotliL'r iiian says 
 it cost mc : 
 
 Fencing IGO rods SICO 00 
 
 Breaking at S2 60 per acre 60 00 
 
 Seeding, 1 i bushels per acre, at 80 cents 
 
 per bushel 24 00 
 
 Sowing and harrowing at 60 cents per 
 
 acre 12 00 
 
 Harvesting at SI 50 per acre 30 00 
 
 Hauhng and stacking at 50 cents per acre 10 00 
 
 " My gain was $177 20 ; or §8 86 per acre." 
 
 A Wi6!consi7i wheat-grower sums tip the account of wheat-growing, which 
 is very fair on ])aper, and very good in fact, every time it does not fail : '• I 
 take one liundred and, twenty acres, and fence eighty with rails ten and a 
 lialf feet long, got from the land. I used mortised posts, ten feet apart, 
 making a fence with three rails, the lowest two and a half feet from the 
 ground, making a strong fence against large stock ; stone handily got from 
 a ravine and blutf near, to underpin at leisure. 
 
 " The estimate is for debt and credit, as follows : 
 
 WHEAT CEOP TO SUNDRIES, DR., VIZ. : 
 
 To 120 acres of raw land, at S5 
 
 To two months of man breaking, at 
 
 $14 ; board $10 ...$38 
 
 To use of team, plow, etc., for same 75 — 
 To two mouths of man making and 
 
 hauling rails, at S12 24 
 
 To hoard SIO ; use of team, $10. . . 20— 
 To two months making fence, at S12, 
 
 $24 ; board SO 
 
 To 120 bushels seed wheat, at 80 cents 
 
 (present value of such wheat for St. 
 
 Louis market) 
 
 To harrowing and sowing 80 acres, at 
 
 60c. (large estimate) 
 
 To harvesting and shocking 40 acres, 
 
 at $1 .' $40 
 
 By 120 acres improved farm, at 
 
 $10 $1,200 
 
 To fanning mills, etc. , on hand . 50- 
 
 To harvesting and shocking 40 acres, 
 
 at SI 50 CO 
 
 To stacking 80 acres, at 40 cents ... 32 
 
 To board of harvest hands 20— $152 
 
 To thrashing-shed and fanning-mill ... 50 
 
 To four months' thrashing, at $12 ; 
 
 board $20 68 
 
 (Use of team, etc.. largely paid for by 
 
 straw thrown daily to stock.) 
 To one month man marketing, S12 ; 
 
 board. So ; teams $40 — 57 
 
 To raiscellanenous and personal ser- 
 vices 100 
 
 Total $1,362 
 
 CONTRA, CR. 
 
 I To 2,000 bushels wheat Dr. (52 
 
 cents per bushel) 1,120 
 
 1,250 I 
 
 " The wheat used and parceled out would much more than meet the item 
 for personal services, etc. Again, raw land in the neighborhood will not 
 readily sell at $5, while irajiroved would readily bring over $10. My object 
 has been to figure so as to make the wheat cost something. The real profits 
 of the operation were fully $1,600." 
 
 Will farmers please make a note of this fact. If j'OJi want to grow snnit, 
 BOW it. . If you prefer to have clean wheat, sow nothing but clean wheat 
 for seed. 
 
 Michigan is a good wheat State in favorable seasons. 
 
 L. G. Hunt, of Kalamazoo County, Midi., gives the following as first crops 
 upon newly-cleared woodland. On ten acres, cleared and burned ofiT in the 
 spring of 1855, and plowed ten inches deep, one half yielded fifty bushels 
 per acre of Dent corn, and the other half twenty-five bushels per acre of 
 eight-rowed yellow corn and three loads of jnimpkins. Sowed to wlieat in 
 
692 CEEEALIA. [Chap. VIII. 
 
 October, the yield next harvest was eighteen husliels per acre. In 1S56, 
 another ten acres yielded fifty bushels per acre of Dent corn, with the large 
 trees girdled and left standing, and was sowed to wheat in September among 
 the standing corn. In 1858, another ten acres, entirely cleared, gave forty 
 bushels per acre of Dent corn, and now has a growing crop of wheat sowed 
 among the standing corn. lie attriljutes his success to deep plowing, as by 
 deep garden culture he has secured good crops of all sorts of vegetables. 
 
 Minne&ota has just began to develop its capacities as a wheat-growing 
 State. 
 
 Hon. TV. C. Dodge, in a letter to the anthor, in 1861, speaks of an im- 
 proved variety of spring wheat grown in that State. He says of this wheat, 
 that " from two bushels sown on one and tliree fourth acres of land, there 
 were produced, gathered, and thrashed eighty bushels. Tliis would make 
 an average yield of forty-five and five seventli bushels per acre, which is 
 tlie more remarkable from the small quantity sown per acre — being only 
 about half the nsual quantity. It was grown by Messrs. Starr »fe Gay- 
 lord, of Lake City, "Wabasha County, Minn., on prairie land, on which corn 
 had been raised tlie previous season, and without manure of any kind. It 
 was sown April 2d, and harvested July 15. Mr. Geo. Hendrickson, residing 
 in Rose township, Ramsey County, near St. Paul, sowed the following kinds, 
 with the results as appended : 
 
 Number acres. Total yiehl. Tield per acre. 
 
 Kind of Wheat. acres, rods. bush. bush. 
 
 White Wheat 5 33 li;2.V 31 1-5 
 
 Scutch Club 3 47 loSj 46J 
 
 rao Grande 17J 572| 34 
 
 Canada Club 7| 217 28 
 
 "Average yield of whole crop, 33 bushels per acre. Of barley, 11^ acres 
 produced 500 bushels, averaging 45 per acre. Of oats, Sj acres produced 
 450 ; average, 53 bushels per acre. 
 
 "Mr. Middaugh, of Red Wing, raised a crop of wheat of sixty bushels 
 per acre, of sixty pounds per bushel, of sound, white, plump grains." 
 
 Ohio shows, by the assessors' returns, that 1,695,412 acres of wheat were 
 grown in that State in 1858. The product given is 17,655,483 bushels, 
 showing an average of lOf bushels per acre. It was estimated that the crop 
 of 1859, in Ohio, covered 2,000,000 acres, and that the average would be 15 
 bushels per acre. 
 
 The Ohio Farmer says that from 1840 to 1850, though the number of 
 acres of wheat grown in Ohio largely increased, the number of bushels de- 
 creased 2,084,310, which it attributed to bad farming. "We do not know 
 about that. "We are inclined to think tlie cause is owing to destruction by 
 insects, and perhaps to the natural deterioration of the soil in its ability to 
 produce this important portion of the stafi" of life. It is true that high 
 farming might correct the loss, but while all the West is open to settlement 
 and cultivation of new lands, high farming does not appear to pay. 
 
 Do the Ohio farmers, who perceive that the productiveness of their land 
 
Skc. 44.] WHEAT-GROWING IN DIFFERENT STATES. 693 
 
 for wheat is failing, always sow it upon a clover lea, which proves bo ad- 
 vantageous everywhere else? The falling off- in production is so great, that 
 something for a substitute has already been talked of. C. W. Carpenter, of 
 Mount Gilead, O., speaks very highly of a kind of spring barley from Italy 
 as a substitute for wdieat. He says : 
 
 "It weighs over 60 lbs. to the bushel, has no husk like the common bar- 
 ley, but is smooth like wheat ; it must be sown very early in the spring, and I 
 think it is as certain and will yield as well as oats — certainly better than 
 rye or wheat ; it has always been sown very thin on the ground in order to 
 increase it as fast as possible. It makes as white, nice flour, and bread as 
 white and light as wheat. It can not be distinguished from wheat bread, 
 on\j it is sweeter and more palatable. It is certainly the best substitute for 
 wheat known." 
 
 Pennsylva7iia feels the difficulty of " something wanting in the soil" to 
 grow M'heat. In a letter from Joel Sneedley, dated Fulton, Lancaster 
 County, Pa., 8mo. 9, 1858, he says: 
 
 " I have for several years past been troubled with my wheat failing before 
 maturity. I have been induced to believe there is something wanting in 
 the soil to impart strength to the stalks. The system that I have imrsned 
 for several years is to manure the corn ground in the spring with clover chaff, 
 having a clover mill ; this method almost invariably produces good corn. Tlie 
 next spring I sow the stalk ground with oats and clover seed. The oats fre- 
 quently fall before ripe ; the clover is left standing the next season, and either 
 mowed or pastured ; if the latter, the ground is manured from the barn- 
 yard, and after harvest is jilowed and sowed with wheat ; the wheat stubble 
 is again slightly manured from the barn-yard, plowed and sowed again with 
 wheat and timothy seed, with the view of setting it with grass. My fields 
 have all been hoed over twice, and some of them three times, within 
 twenty years. If a practical remedy for the evil referred to can be sug- 
 gested, a very important benefit will be conferred on a large portion of 
 the farmers of this section of country, who have suffered in a similar way 
 with myself." 
 
 It has been suggested that the use of a roller would be highly beneficial 
 in such cases as this. The rolling should be done as soon as the frost leaves 
 the ground. In England, wheat that is not rolled is apt to fall down. It is 
 first dragged by a large bush, and then rolled. One case is reported whei-e 
 the portion of a field that was rolled produced 16 bushels more wheat per 
 acre than the portion not rolled. 
 
 As a remedy for weak straw, we should recommend lime, salt, potash, and 
 drilling in tlie seed. 
 
 A farm in Chester County, Pa., of 224 acres, owned by Wellington Ilick- 
 man, which for ten j-ears has averaged 75 or 80 bushels of corn per acre, 
 gave an average of 30 bushels of wheat upon 14 acres in 1850. The follow- 
 ing is the statement of the entire products of the farm for that 3'ear, which 
 has 200 acres in meadow, pasture, and plow-land : 
 
694 CEREALIA. [Chap. VIII. 
 
 14 acres of wheat produced 420 bushels, at $1 40 $588 
 
 17 " oats •' 1,200 " 3o 396 
 
 It) •■ corn ■• 9b0 " 60 576 
 
 Market value of grain crops on 47 acres $1,560 
 
 42 acres of hay produced 75 tons, at $10 750 
 
 THE STOCK. 
 
 30 head of cattle, bought at an average cost of $40 per head, sold for S77 each ; 
 
 prolit on the thirty, at $37 1,110 
 
 72 ewes, bought at $2 50, sold with their 92 lambs at $4 25 ; profit on a total 
 
 of 164 sheep and lambs 002 
 
 Gross product of farm valued at $4,022 
 
 Of coitrse tliis statement is larger tlian the actual net return of the farm, 
 as the liay, and probably much of the grain, are counted a second time in 
 the jjrofit on the live-stock consuming them. But that does not lessen the 
 value of these figures for purposes of comparison. It will be perceived that 
 the wheat averaged 30 bushels per acre, and the oats a fraction over 70 
 bushels ; and that the money return was $i2 per acre for wheat, $23 29 for 
 oats, and $36 for corn, or an average of §33 19 per acre for the 47 acres in 
 the tliree grains, which is not by any means an unpleasant result to reach. 
 
 Mr. Hickman considers that pasturing the land with sheep before breaking 
 np for corn, and then putting a little salt in the hill, together constitute an 
 almost sure protection against the cut-worm. 
 
 702. Red and White Wheat.- — Though the white varieties maintain a supe- 
 rior price over the red, both in our own and foreign markets, yet red" wheats 
 are hardier, grow on poorer soils, and withstand the attacks of mildew, rust, 
 and insects better than the white varieties, and are cultivated with most 
 profit. 
 
 Red wheat that is partly transparent, hard, and flinty, is best suited to 
 the city baker, affording what is called strong flour, that rises boldly with 
 yeast into a spongy dough, and contains the largest proportion of gluten. 
 For bread of the first quality the flour should be fine as well as strong, and 
 therefore a nii.xture of the two conditions of wheat is best suited for making 
 the best quality of bread. 
 
 " Generally speaking, the lightest colored white wheats indicate most 
 opacity, and of course yield the finest flour, and red wheats are mostly 
 flinty, and therefore yield the strongest flour ; for a translucent red wheat 
 M'ill yield stronger flour than a translucent white wheat, and yet a red wheat 
 never realizes so high a price in the market as white, because it contains a 
 larger proportion of refuse in grinding." 
 
 763. The Price of Wheat for Sixty Tears.— The following table exhibits 
 the market price of wheat at Albany, at New Year's, from 1793 to 185J. 
 It is from the minutes kept at the ofiice of the Van Rensselaer Manor, at 
 Albany, where large amounts of rent are payable in wheat, or a cash equiv- 
 alent, on the 1st of January each year; and as two parties are deeply inter- 
 ested in the price, it is probably the most reliably correct of any record that 
 can be obtained. There is quite a lesson in these figures — look at them : 
 
Sec. 44.] 
 
 HOW WHEAT IS STORED AND HANDLED. 
 
 695 
 
 1793. 
 IJ'J-i. 
 1795. 
 1796. 
 1797 . 
 1798. 
 1799. 
 1800. 
 1801. 
 1802. 
 1803. 
 1804. 
 
 SO 75 
 
 1 00 
 
 1 37i 
 
 2 00 
 
 1 60 
 
 1 25 
 
 1 18| 
 
 1 56J 
 
 1 311 
 
 1 00 
 
 1 12.V 
 
 1 25' 
 
 1805. 
 1806. 
 
 1807 
 1808 
 1809 
 1810 
 1811 
 1812 
 
 1813 2 
 
 1814 1 
 
 1815 1 
 
 1816 1 
 
 1853 
 
 1817 
 
 18i8.... 
 1819.... 
 1820.... 
 1821.... 
 1822.... 
 1823 .... 
 1824.... 
 1825.... 
 1826.... 
 1827.... 
 1828.... 
 ..SI 18i 
 
 ,$2 25 
 . 1 87J 
 . 1 75 
 . 1 00 
 . 77 
 . 1 12J 
 . 1 25 
 . 1 25 
 . lOO 
 . 87i 
 . 1 00' 
 . 1 00 
 1854... 
 
 1829. 
 1830. 
 1831. 
 1!S32. 
 1833. 
 1834. 
 1835. 
 1836. 
 1837. 
 
 1838 1 62J 
 
 1839 1 75' 
 
 1840 1 12J 
 
 $1 75. 
 
 .$1 75 
 
 . 1 00 
 
 . 1 25 
 
 . 1 25 
 
 . 1 25 
 
 . 1 00 
 
 . 1 00 
 
 . 1 50 
 
 . 2 25 
 
 1841. 
 1812. 
 1843. 
 1844. 
 
 1845. 
 1846. 
 1847. 
 1848. 
 1849. 
 1850. 
 1851. 
 1852. 
 
 87 i 
 00" 
 93i 
 18| 
 
 18J 
 18J 
 12J 
 00" 
 
 You -vrill notice that only six times in all these years wheat has been 
 $2 or upward per bushel, while it Avas seventeen times at $1 or under — 
 once at seventy-five cents. Only once in thirty-seven years — that is, since 
 1817, to wit, in 1837 — has it exceeded $2. Tlie average price for the whole 
 period is $1 38. For the last thirty years it is $1 25. 
 
 The price of wheat at Chicago since that began to be a wheat market, say 
 about 1840, has ranged from 40 to 90 cents as a general thing. The amount 
 stored there in 1860 was almost beyond belief, considering the young age 
 of the country and the town as a wheat market. 
 
 764. liow Wheat is Stored and Handled. — AVithout dispute the city of Buf- 
 falo is the greatest grain market upon the American continent. Here on a 
 little creek, a convenient harbor for Indian canoes, just where Lake Erie 
 contracts into tlie Niagara River, a trading post was located, out of which, in 
 half a century, has grown a beautiful city. 
 
 From accurate information, we are assured that the quantity of grain 
 passing through Bnffiilo, including that in the flour, equaled thirty millions 
 of bushels in one year. 
 
 The lower part of the city is cut up with canals almost as much as Venice, 
 which unite with the waters of the creek on a level with the lake. The 
 creek is the harbor for all the lake vessels as well as for a fleet of canal boats, 
 and is entirely too narrow for the great commerce centering here, and would 
 be entirely inadequate but for the little tug-boats that pull the others here 
 and there, so as to prevent an inextricalilo tangle. 
 
 Along the north bank of the creek are located the warehouses and count- 
 ing-rooms of the flour and grain merchants, and with one exception the 
 steam elevators, by which all the corn, wheat, oats, etc., coming over the 
 lake in bulk is lifted from the hold of the vessel and carried to the high- 
 est loft of the warehouse, and thence spouted down to separate bins upon 
 either floor, and thence into canal boats. One of the largest of these ele- 
 vator warehouses is on the south side of the creek, having a slip under the 
 center long enough to hold and load three canal boats at the same time, with 
 a slip outside for a large vessel. This house can take in 57,000 bushels of 
 grain a day, and deliver 65,000 ; it can store 400,000 bushels. There are 
 eleven of these elevators on the creek, which are, altogether, capable of 
 lifting 25,000 bushels of corn an hour ; there is storage room for 1,600,000 
 bushels. 
 
696 CEREALIA. [Chap. VIII. 
 
 The charge for taking a load of grain out of a vessel and delivering it in 
 a canal boat is half a cent a bushel — one half to the vessel and one half to 
 the boat. If the grain is stored, the charge is one fourth cent a bushel for 
 ten days. The grain is accurately weighed as it is taken up, and that is the 
 measure by which it is bought and sold. And all this work is done by four 
 men — that is, 50,000 bushels of grain are taken up and accurately measured 
 and delivered to the boats that take it away, or lodged in store in one day 
 by four men, independent of the shovelers who throw the corn in the ves- 
 sel's Iiold up to the buckets that carry it up as fast as twenty men can shovel 
 it forward. The leg, as it is termed, that contains the elevating buckets, is 
 lowered down when the vessel comes alongside, into the hold, and when the 
 grain is exhausted from that end, the leg is lifted up and the vessel moved 
 forward so as to receive it in another hatchway. It is for tiie protection of 
 these elevators that we see those square towers on the main houses. If the 
 owner of corn requires it, he can at the same time it is elevated have it 
 screened and the weight made good for one cent a bushel. Wheat is 
 screened at the same price, but the owner takes the screenings and suffers 
 his own loss. 
 
 Wiien a merchant desires to sell a cargo of grain, he takes a sample in a 
 small box under his arm and goes to the Corn Exchange, where there is a 
 general congregation of all parties at twelve o'clock each day. If the sale is 
 made, the buyer receives the warehouse receipt and becomes the owner of 
 the grain specified, which he may sell again or remove at his pleasure. A 
 fluctuation of a cent or two a bushel often changes owners of immense quan- 
 tities of grain in the space of a single hour, and it is no remarkable thiug to 
 see a hundred thousand bushels started from the warehouse eastward in a 
 single day. How could all this grain be handled without steam machinery, 
 is the natural question of every one observing the magnitude of the grain 
 trade at this immense granary of the world. The New York Central Rail- 
 road Company have a very large freight-house on the dock, and an elevator 
 by which they can take the grain from the vessel's hold up into their store- 
 house and then spout it down and load a whole train of cars in less time 
 than one car could be loaded by hand. 
 
 In Chicago, Bufl"alo, and Oswego immense quantities of grain are all 
 measured and handled by steam-power machinery. At Oswego there are 
 eight elevators along the creek, live of which are double ; that is, two sets 
 of elevating buckets to each building. Elevators are also to be seen at many 
 other lake towns, and wherever they are known it would be considered the 
 very hight of folly to persist in measuring grain in a half bushel. 
 
 7G5. Preserving Wheat in Bins> — In sections where the weevil is trouble- 
 some, it is the practice of some farmers to store wheat after it is thrashed, in 
 the chaff. It is also stored that way on some prairie farms, where tight bins 
 can not be provided to hold it after it is cleaned. 
 
 The practice of putting stones or bricks in the center of a bin is good to 
 absorb moisture, and prevent mustiness. The best way to prevent weevil 
 
Sec. 44.] SMUT— ITS CHARACTER CONSIDERED. 697 
 
 from destroying -wheat that we have ever seen tested, is the one detailed 
 below. Mr. II. Barber, of Juneau, Wisconsin, is also well satisfied that it 
 is a preventive of sinut. Mr. Barber says : 
 
 " When I thrash my grain I sjjrinkle in drv slaked lime with it in the bin. 
 The lime absorbs the moisture, and when the grain is wanted for use, the 
 fanning-mill blows out all the lime. This method I have practiced for years, 
 and my seed I take from grain thus treated, and I never have any smut in 
 my wheat." 
 
 766. Smut — its Character Considered. — "What is smut? and, What causes 
 it? and, What will prevent it?" are interesting and important questions. 
 Some years ago, these questions were pretty thoroughly discussed here and 
 in France. M. Philippar, professor of agriculture in the Normal School of 
 Agriculture^ Versailles, France, asserts that smut is a parasite plant, belong- 
 ing to the mushroom tribe of the genus Urcdo. M. Poiteau declares that 
 it is a local disease, contagious by touch, and not a jjarasite plant. M. Tillet 
 and Tezzien, M. Benedict Provost and M. de Candolle, have written much 
 upon this subject, and have all expressed their opinion that it is a parasitical 
 plant,^ of the mushroom kind, and argue in the main and more essential 
 points with M. Philippar. 
 
 "A parasitical plant is one that derives its aliment from that on which 
 it grows. K fungus, a parasitical plant or production of a cellular texture, 
 having no flowers, and deriving its nutriment from the atmosphere, and 
 nourished also from the stalk, stem, or spawn. Its propagation is efiected 
 by means of small and very curious seeds, spores, or spoi'ides, inclosed in 
 skinny integuments, called Sjporidia, or spore cases. Animal and vegetable 
 substances in a state of incipient decay are those which most generally pro- 
 duce fungi, but those of the simplest organization frequently locate on tis- 
 sues. Of tills class we may enumerate common mold as being the most 
 familiar and best known. Of this, however, there are two types — the first 
 of which, when examined by a microscope, is found to exhibit jointed 
 threads, and to consist of a cellular structure, the small cavities or cells being 
 arranged end to end, apparently independent of each other, and capable, 
 under certain contingencies, of reproduction. The second type presents tlie 
 asjject of a thread-like structure, the spores being elevated on the tops of the 
 threads, or processes, and sometimes very thin and minute capsules or cases, 
 which explode, and thus cause the dispersion and dissemination of the seed. 
 
 "When smut was first declared to be a plant, the labors of the micro- 
 scope, applied to botany, were very imperfect; matters were declared to be 
 iircdos, erinees, and erysiphes, which have since been discovered to be 
 insects' nests, or tissular maladies to which the plant was subject. Hence 
 it followed that, as microscopic botany became better known, these pre- 
 tended plants gradually disappeared from succeeding editions of botanical 
 works. Now these plants have been generally classed in the category as 
 the smut ; and as these have been proved to be not of the mushroom race, 
 so may smut also. 
 
698 CEREALIA [Chap. VIII. 
 
 " A most remarkable thing is, that if the thick oil which is distilled from 
 siiiut by holding it over a hot fire, is placed in contact with sound grain, 
 nearly one third of the ear will be afiected by smut." M. Poiteau maintains 
 that this is altogether inexplicable, unless smut be contagious by touch. 
 
 After fairly considering all these scientific arguments, we arc of the opin- 
 ion that farmers should use all means within their power to kill the seeds 
 of smut, so as not to grow it from seed of their own sowing. 
 
 767. Chloroform for lasects in Wheat. — "A commission was appointed by 
 the French government at Algiers to inquire into the means of protecting 
 s'.ored grain from the ravages of insects. The commission state, as the result 
 of their experiments, that thirty grains of chloroform, or sulphuret of car- 
 bon, put into the interior of a grain-pit, hermetically closed, are sufiicient to 
 destroy every insect in a metrical quintal (220 lbs.) of corn in four or five 
 days. Or seventy-five grains of sulphuret of carbon, suitably divided amidst 
 the grain, will do it in twenty-four hours. Chloroform operates rather more 
 slowly. The sulphuret, in a still larger quantity, succeeds on grain laid in 
 a heap and covered with an impermeable tarpaulin. A committee of the 
 Academy of Sciences is to give its judgment upon the process." 
 
 If, as a German writer says, there are thirty thousand diflferent insects 
 that prey upon wheat, we think it will be a hard fight, even with all the 
 aids of science, ever to get entirely rid of the pests ; but we must keep up 
 the fight, and use all the preventives within our reach. One farmer says : 
 " I have learned, or think I have, that wheat sown early, say in July, in soil 
 properly enriched, will not suflPer from the fly." Then he will not need to 
 buy chloroform. 
 
 768. Whfat Heaving Out — a Preventive. — The disposition to heave out dur- 
 ing freezing and thawing that is natural to some land, can be cured as cer- 
 tainly as corn can be grown by the labor of plowing and hoeing. All that 
 is needed to prevent the soil from so doing is to drain it of surplus water. 
 Land that is saturated Avith water will heave out and destroy winter grain ; 
 and sometimes the diflficulty is so great that timothy grass will not endure 
 more than two winters. Thorough draining is the only remedy, and that is 
 a certain one. 
 
 Where the land is not drained, and the danger is great in the spring of 
 the year of losing the crop by repeated freezing and thawing, we recommend 
 rolling the land. If you have no roller, use a stone boat, or blunt-toothed 
 drag, or a heavy bush, or turn a large flock of sheep on the wheat, and drive 
 them about until they have trampled the ground thoroughly. The object is 
 to compact the earth, and press back into the soil those roots which have 
 been hove out by the frost. 
 
 769. Rye — its Cultivation and Yield. — All that we have said about tne 
 cultivation of wheat is about equally apj)licable to rye, which, though usu- 
 ally sown upon poorer soil than wheat, with much less care in its cultivation, 
 will always pay for extra care in its extra productiveness. 
 
 The following account of a great rye crop is given by a correspondent in 
 
Seo. 44.] RYE— ITS CULTIVATION AND YIELD. 69D 
 
 July, 1861, and is coinmenJed to the attention of those who doubt about 
 a crop of rye being profitable. We grant it is not, where the straw is of 
 no value, and where three bushels of grain per aero is all that can be 
 made. 
 
 ' In July, 1859," says the writer, " I had land in grass that gave a vei-y 
 light crop. It was plowed as the grass was taken from it. About the mid- 
 dle of September it was again plowed, and subsoiled, manured, harrowed, 
 and sowed with one bushel of rye to the acre. Grass seed was also put upon 
 it. In July it was harvested, and in February thrashed by hand. The pro- 
 duct was ninety-one bushels of rye from two acres and twelve rods of ground. 
 The straw weighed 9,400 pounds." 
 
 As this crop was made near New York, where the straw sells as high as 
 timothy hay, it must be set down as a profitable one. 
 
 Another farmer says : " "With regard to rye, I usually sow 2i bushels, and 
 find it will thrive in nearly all soils, and in many that will not grow wheat 
 at all ; the return of grain is nearly the same average as that of wheat. 
 From an acre of land producing 25 bushels, 51: pounds to the bushel, there 
 would be reaped 1,360 pounds of grain and 4,100 pounds of straw. 
 
 " On land of the same quality, where I only sowed 1^ bushels to the acre, 
 my yield of grain was 1,000 pounds and 3,000 pounds of straw." 
 
 Every farmer should sow an acre of rye for jiasturing sheep in autumn, 
 when all other herbage is dried up or consumed. By this means the flock 
 will be strong by the commencement of winter, and able to withstand the 
 rigors of that season. In spring this rye will afford the earliest and best soil- 
 ing for horses or cattle, and will furnish provender for nearly a month before 
 clover is fit to cut. 
 
 Eye is grown as a common crop in all the Xcw England States, and often 
 upon land that once produced a good crop of wheat. It is about the last 
 effort of some of the worn-out lands of Virginia, and produces from three 
 pecks sown, three bushels of rye upon an acre. When they will no longer 
 produce that, they are given up to old-field-pines and sedge grass — -both 
 worthless products. 
 
 Kye is generally considered an exhausting crop, but we do not know why, 
 uidess because it is a crop in a very exhaustive system, or rotation, that 
 will exhaust any land ever cultivated, which is less fertile than the delta of 
 the Mississippi. Such a system as corn upon a shallow-plowed field, with a 
 little shovelful of manure in each hill, followed by oats sown upon the corn 
 stubble, after splitting the hills with a single furrow, and this oat crop fol- 
 lowed with rye, fertilized with nothing but the oat stubble and weeds, and 
 that with buckwheat, and then corn again, unless, perchance, oats intervene 
 to save the trouble of the volunteer buckwheat in the corn ; and so on for a 
 scries of years, until the land can not produce more than three bushels an 
 acre of rye, and then we hear that "rye is an unprofitable crop." So it is, 
 and so have been all the crops ever grown by farmers who thus destroyed 
 the natural fertility of their farms. 
 
700 CEREALIA. [Chap. VIII. 
 
 Although rye, as a general thing, may not be as profitable a crop as wheat, 
 we are satisfied that it will give a handsome profit upon land that can not be 
 profitably cultivated in wheat, if it is treated M'ith a fair dressing of proper 
 fertilizing substance, such as either of the following : that is, bone dust, at 
 the rate of 10 or 15 bushels per acre ; Peruvian guano, at the rate of 250 to 
 300 lbs. ; superphosphate at the rate of 400 to 600 lbs. "Wood ashes, 30 
 bushels per acre ; or stable manure, 10 to 20 cords per acre ; or a cgmpost 
 of muck and manure, 30 one-horse cart-loads, with 10 bushels of salt in it to 
 an acre, all of them applied as a top dressing. 
 
 But to make this treatment profitable, clover and timothy must be sown 
 with the rye, and that must be dressed with lime, or plaster, or both. _^ 
 
 Kemember that rye is not a profitable crop on barren soil — it is profitable 
 on good soil, where the straw, as it does near New York, sells for as much 
 as the grain. 
 
 770. Oat-Growing Jarmers. — Those who usually devote their main atten- 
 tion to the oat crop are seldom very energetic in draining, composting, and 
 manuring — seldom go to any great expense to improve their breeds of stock, 
 or provide for their comfort and thrift in winter. 
 
 A dairy farmer gives the following account of his oat crop for the year : 
 " Sowed about two and a half bushels per acre, on six acres of sandy loam, 
 without manure, except one acre, which had about a dozen loads of horse 
 manure after potatoes. This acre yielded about double any other acre in 
 the field of six acres. 
 
 " The j-ield was two hundred and sixty bushels, or forty-three and one 
 third bushels per acre ; was the third crop of oats in succession, a kind of 
 farming he can not commend. It requires either rest or manure to bring the 
 land into grass, or the profitable production of any other crop, after being so 
 exhausted." 
 
 Oats are generally sown in the most hap-hazard sort of a way of any grain 
 in this country. One man writes : " I take less pains in preparing land for 
 oats than any other grain ; it does well as a first crop on newly-broken land, 
 and succeeds best on a soil not much pulverized, sown after a single plowing 
 as early in April as possible." This " less pains," is too true of many. 
 
 The old fashion in New England was to split the corn-hills with a small 
 plow and sow the oats, about one third of the seed falling upon fresh earth, 
 and the other upon the hard surface, or in pools of water, or on the hard roots 
 of the corn stubble. The seed was then very lightly plowed in, and perhaps 
 seeded with grass or clover, under a bush drag. If the butt- stalks of the 
 corn were not cut away when the corn was harvested in autumn, they were 
 frequently cut and burned in the spring. And such land was expected to 
 bring a crop of grain that requires and pays for manure as well as any crop 
 planted, except, perhaps, Indian corn. We are not even certain that that 
 does. We are certain that oats should always be sown upon land jiroperly 
 dressed witli some sort of fertilizer. 
 
 771. Quantity of Seed per Acre> — The qiiantity usually sown varies from 
 
.-EC. 44.] A GOOD CROP OF OATS, AND HOW TO MAKE ONE. 701 
 
 one to two bushels in this country, though a few reading farmers have 
 learned that it is profitable to sow more seed. 
 
 In England, the common oats arc sown at the rate of six bushels per acre, 
 and potato oats at the rate of five bushels, and one man v/ill sow sixteen 
 acres a day. 
 
 One American farmer publishes the following statement : " I sow from 
 three to six bushels to the acre, according to the size and weight of the 
 grain. If potato oats are sown, two bushels will always be ample, because 
 it has no awns, consequently there is a greater number of grains in a bushel, 
 and it litters better than any other oat. On medium soils, three bushels will 
 be requisite, and on upland soils six will not be found too much. If an acre 
 produce 2,260 pounds of oats, there will be 3,000 pounds of straw. This 
 can not always be calculated upon, because there is no grain grown that 
 yields so variable a quantity of straw as the oat. I esteem it very highly 
 as fodder; and it furnishes a large proportion of my winter feed for stock. 
 Its chief enemy is the wire-worm ; and if you find the ground impregnated 
 with the larvte, defer plowing until May, when you will bury them so deep 
 that the oats will grow beyond their reach before they can come to the sur- 
 face of the ground." 
 
 Another one says: "Two of my neighbors had each one acre of land, 
 which they wished to seed down with oats. Their farms join, and the soil 
 was the same, and treated alike, except that one neighbor sowed one bushel 
 per acre, and measured up forty, of as handsome oats as I ever saw, as the 
 result. The other man sowed three and one half bushels per acre, and 
 measured up but thirty-three bushels. But he had a much larger quantity 
 of straw. If these results were to decide the question, I should think that 
 where the largest quantity of fodder was the most of an object, the heavy 
 seeding would be the best. The man who has practiced seeding with but 
 one bushel per acre, has received nearly the like results for the past two 
 years." *■ 
 
 772. When to Sow Oats. — As a general rule, there is no time to sow oats 
 so good as just as soon as the frost is out of the ground, so that plowing can 
 be done ; and if the land is not naturally dry, or has been underdrained, so 
 as to plow very early in the sjiring, it should be plowed in autumn with a 
 Michigan plow, and then it can be harrowed or scarified with a cultivator, 
 and sown and lightly dragged. And it is even better to sow without any 
 stirring of the soil previously, if it is very soft, rather than to wait ibr a 
 good time. The year 1858 will be long remembered as one of unusual wet- 
 ness in the spring, and one of failure of the oat crop. Yet in every instance 
 where the seed was put into the ground early, where it had been previously 
 prepared, or where it had been underdrained, the crop was good, both in 
 straw and berry. 
 
 773. Wbat is a good Crop of Oats, and how to Make One ?— In the spring of 
 1860, wishing to sow a little patch of oats for soiling, if they should be 
 needed, we proceeded as follows. The ground was corn stubble, it was 
 
702 CEEEALIA. [Chap. VIII. 
 
 verj poor, and six hundred pounds of superphosphate to the acre had been 
 applied in 1859. It was plowed in autumn, and the next spriii<^ plowed with 
 a subsoil plow for the first operation. This new way of plowing attracted 
 some attention. Several passers-by stopped to look and wonder, and say 
 pooh ! After it was thus plowed, it received a moderate dressing, com- 
 posed of barn-yard manure, well-rotted, and hair and spent lime, from a 
 glue manufactory, and old ditch bank stuff, to which was added a small 
 per-centage of the bulk of jirinter's roller composition, and about half 
 a bushel of salt to a cord of manure. It was piled in autumn, and over- 
 hauled once in the winter, and was not quite ripe when a portion of it was 
 spread upon the oat ground. After harrowing over the manure, to break 
 the lumps and mix it with the soil, three bushels of common black seed oats 
 were sown, and plowed in with a light plow, and again harrowed. This was 
 done about the 12th of April, and the season that followed was not favorable 
 to the growth of a good crop. It was altogether too dry for the growing 
 jilants to get the full benefit of the manure; but they grew, and I soon 
 began to hear that " Robinson had the best piece of oats in the country." I 
 wished every day that the j'iece had been large, as well as the oats. Mj' 
 neighbors were sadly disappointed, I believe, that the crop did not all fall 
 down before it was ripe, but it did not — onlj' part of it, and that part on the 
 new ground — which is, say, two fifths of the whole. The great drouth in 
 July prevented the plants from attaining as large a growtii as tliey would, 
 particularly on the old ground, which is part of a piece noted for its povei'ly. 
 A fair average sample of the growth upon the corn-ground was about four 
 feet and a half long. Some of it on the new ground was full a foot higher, 
 and stout in proportion. Intending to feed the crop without thrashing, I 
 had it cut pretty green — that is, as soon as the most of the straw turned yel- 
 low. That on the corn-stubble part, and a portion of the other, was bound 
 up into very stout, double-banded sheaves, which were, when well seasoned, 
 quite as heavy as I cared to pitch upon a pretty warm day. Of these sheaves 
 we had thirty-one dozen, and the heads were well loaded with plump grain. 
 The other part was mowed and cured like hay, and pitched up into cocks, s<i 
 that wc could estimate it as though in sheaves, which we did, at full twenty 
 dozen. I thitdv it was more, as it made two snug ox-cart loads, and more 
 than two thirds the bulk and apparent weight of the other part. Then thero 
 was, besides, a little load of rakings. I will call the wliolo fifty-two dozen 
 stout, double-banded sheaves, which, if thraslied, would surely yield a bnshtl 
 to the dozen ; and this was a good crop for land badly worn, upon a piece 
 of ground of the following dimensions: the first side is loG feet; the one 
 opposite to it, 183 feet; the two other sides, one is 16S feet, and the oppo- 
 site 213 feet. The superficial contents, if I calculate rightly, are 32,290 feet. 
 The superficial contents of an acre are 43,560 feet. Three fourths of an acre, 
 then, contains 32,070 feet, so that my patch of oats lack 380 suiicific^il feet 
 of surface of being three quarters of an acre ; and farmers hereabouts Cim- 
 sider it a pretty good crop, and I want to know whether it is not worth 
 
Seo. U.] EUSTY oats. 703 
 
 tlieii- wliilc to think about mauuring oat-ground ? And also think about 
 plowing oat-ground with a good-sized subsoil plow ? And what do they 
 think about plowing in the seed ? And finally, what about sowing four 
 bushels of seed per acre, and harvesting sixteen-fold ? It is a matter which 
 will do to think about. 
 
 AVe have no doubt that it would be quite as profitable to apply manure to 
 oats as to corn, and that there is no need of exhausting land with oats. 
 
 To prove this, and also to prove that my neighbors were in error when 
 they told me that wheat could not be profitably grown in this neighl)or- 
 hood, and not at all upon oat stubble, and that grass and clover seed " would 
 not catch," I plowed under the oat stubble, running a subsoil plow in every 
 furrow, and gave the land another light dressing of manure, which was 
 afterward plowed in with a liglit plow, and sowed wheat at the rate of three 
 bushels per acre npon the rough furrows and harrow^ed in once, and liien 
 timothy seed, a peck per acre— sowed and harrowed again. After the wheat 
 was np it was dressed with plaster, two bushels per acre. 
 
 The winter being almost without snow, and freezing and thawing fre- 
 quently, was hard npon Avheat, and there were consequently several sago 
 remarks in the spring, such as, " There, I told yon it was no nse to sow wheat 
 npon oat stubble." No matter; the grass looked well, and that was the 
 main object, and so four quarts per acre of clover seed were put on, and 
 afterward salt, at the rate of about five bushels per acre, was sown, and 
 after a while the wheat began to recover from its hard winter, and if any- 
 body had a better yield or finer plump berries I am glad, and should like 
 to see it. At any rate, I am convinced that wheat will grow npon oat 
 stubble, and good timothy and clover afterward. 
 
 Still, we would not recommend sowing wheat or any other grain upon oat 
 stubble, because we prefer to sow grass and clover, and let that grow one 
 year at least, so as to have a good sod to serve as manure. 
 
 77i. Rusty OatSi — This is, compared with rusty wheat, a new disease, only 
 appeai'ing to any extent in this country within five years. Some oat crops, 
 badly rusted in Illinois, have been reported as producing death when the 
 straw was fed to horses. An article in the Southern Homestead, when the 
 disease first appeared in the Southwest, attributed it to insects. It says : 
 
 " From microscopic examinations, we are satisfied that the cause of all this 
 destruction of the oat crop is a living worm, too small to be plainly seen 
 with the naked eye. A single blade or leaf of the oat sometimes contains 
 hundreds of them. They lie incased in the tissues of the leaf or blade, where 
 they have been generated, beneath the epidermis or thin pellicle over the 
 exterior porlion of the blade, and as they progress in development, the skin 
 of the leaf is raised into curious pufty blisters. The growth of the worm 
 subsequently ruptures these, and it escapes to feed on the plant. When 
 first released from their covering, they are of a beautiful clear red color, al- 
 most transparent, but soon begin to change color and form, getting more 
 opaque and dark in appearance, imtil in the course of transformation they 
 
704 CEEEALIA. [Chap. VIII. 
 
 become a black bug, with legs and wings, when they attack the head or 
 grain of the oats. 
 
 " Under the microscope, the dnst which remains on the leaf closely re- 
 sembles that on the wings of butterflies. 
 
 " How this innumerable army of infinitesimal worms originated is yet a 
 mystery. It is a singular fact, however, that wherever the greatest quantity 
 of rain has fallen, there the oat crop has fared the worst." 
 
 As cause and effect are often mistaken or misplaced, it may be so in this 
 case, and that the rust was occasioned upon the oats by the excess of rain 
 and heat, which does produce it on wheat, and the worms followed this dis- 
 eased condition as they do disease and decay of many other vegetables. 
 
 775. Barley Cultivation. — The cultivation of barley in the State of New 
 York has largely increased since the destruction by the midge has been so 
 great r.s to deter many farmers from all attempts to grow wheat. 
 
 Tiicre are two principal kinds of barley as of wheat — winter and spring. 
 "Winter barley is sown from the middle to the last of September, at the rate 
 of two and a half bushels per acre, and will be ready for harvest the last 
 of June. 
 
 A correspondent in Kentucky recommends sowing winter barley after 
 oats, rather than after winter wheat, for the reason that the land, having 
 been plowed in the spring, can be got into better condition than that which 
 has not becTi ploM-ed for twelve months. 
 
 Our severe winters do not injure barley when it is sown on dry uplands, 
 but it does not succeed on low, moist land. It should be sown early — 
 tliougli many do not sow it till after they have got in their wheat, and it 
 requires the same culture, and when sown on good soil, properly prepared, 
 the yield is large. 
 
 There is one thing that farmers must remember about barley — they can 
 not grow it on poor land. Of the cultivation of spring barley, a New York 
 farmer, who has grown it some years, says : 
 
 " In the cultivation of barley I usually sow 2a bushels to the acre of the 
 two-rowed Ilordeum distichon, which yields 38 bushels of 36 pounds to the 
 bushel, or 1,368 pounds of barley and 2,800 pounds of straw. 
 
 "The best season for sowing it is about the 1st of May, after some crop 
 on which manure has been applied ; it will not succeed a summer fallow 
 well ; the best soil is a rich, finely pulverized loam. I usuallj' sow it broad- 
 cast, but it will do better in drills. On a contiguous piece of land I sowed 
 li bushels to the acre, and found great disadvantage in it ; the season was 
 dry, and few or no offsets were tiirown off. The yield was 1,000 pounds of 
 barley and 2,000 pounds of straw." 
 
 A Georgia paper recommends barley as a valuable crop for that section. 
 The writer says : 
 
 "This is one of the most valuable winter crops that can be grown at the 
 South. "We give some directions for its proper culture. In the first place, 
 the ground must be rich, and any time after the first to the middle of Oc- 
 
Sec. 44.] 
 
 BARLEY CULTIVATION. 
 
 T05 
 
 tober is the risrht time for seeding. ISTew land that has been heavily cow- 
 penned yields enormously. The ground should be well broken up, and 
 about one bushel and a half sowed to the acre, and then plowed or har- 
 rowed in. In its early growth pigs may run \ipon it, and after a while 
 calves, but never full-grown stock. For horses and cattle, the grain is 
 almost equal to corn, and there is no green food that sustains a working 
 animal like it." 
 
 In harvesting harlcy, it is important to cut it at the right stage, when 
 neitlier too green nor too ripe. If rather green, the grain shrinks, and is of 
 light weight ; if fully ripe, it shells easily, is liable to become discolored, 
 aud the straw is of less value. When the head begins to assume a reddish 
 cast and drops down upon the straw, tlie proper period of harvesting has 
 arrived, and as after this the grain ripens rapidly, it should at once be cared 
 for. It may be mown or cradled, or cut with a reaper; if the straw is long, 
 it should be bound ; if short, with jjroper forks it can be pitched at once 
 from the swath and stored without binding. Barley should be secured as 
 soon as thoroughly dry, which will be soon in favorable weather. 
 
 The varieties ofharley are numerous; Scotland has some tliirty, though 
 really there are but three decidedly distinct sorts; that is, the two-rowed, 
 four-rowed, and six-rowed. The two-rowed barley grows the largest grains, 
 that is, 80 to the drachm ; the four-rowed, 111 grains to the drachm, and th^ 
 six-rowed, 93 grains to the draclim. 
 
 The use ofharley is principally for making malt for beer, but tliere is a 
 good deal used for making pearl barley. It is not much used in this country 
 for bread, though it makes a very sweet, nutritious food, and very palatable 
 when eaten as hot cakes. 
 
 The profits of a hurley crojy, reported for premium in 1859 by Hiram 
 Mills, Lewis County, N. Y., were $31 98 upon two acres. The soil was 
 clay loam, with hard clay subsoil. The crop in 1858 was peas on sward. 
 The land was plowed in autumn, and in the spring 26 loads of cow-stable 
 manure spread and plowed on the 9th of May, and sowed next day with 
 two and a half bushels per acre of two-rowed barley, put in with a culti- 
 vator and then harrowed. It was cut with a scythe Aug. 11th, and spread 
 like hay to cure, and raked with a horse-rake, and hauled from wiurows to 
 the barn, and thrashed with a machine Dec. 12th. The yield was a fraction 
 over 122 bushels, of 48 lbs. per bushel, on two acres. The whole held of 
 13 acres yielded over 50a bushels an acre. It sold at 75 cents a bushel, and 
 the straw was valued at only $5 an acre. In some localities it would be 
 valued much higher, so that upon the basis of this crop, growing barley 
 must be accounted protitable. 
 
 A Niagara County, xi. Y., farmer offers the following opinion upon the 
 subject of growing barley. He says : " The question of the profit of barley- 
 growing to the farmer is one whicli ought to be discussed. We are getting 
 doubtful of the propriety of using our best soils for so uncertain a crop, 
 while corn, oats, and hay are much surer, and hence, on an average, more 
 
706 CEREALIA. [Chap. VIII. 
 
 remunerative. Besides, the use, or rather abuse, which is made of the great- 
 est part of this product, is one tliat conscientious, tliinking men can scarcely 
 reflect upon with pleasure. Barley requires, with us in Niagara County, 
 the best land Me have, prepared in the most thorough manner ; and it must 
 then have a very favorable season, free from drouth or excessive wet, to 
 insure a fair yield. Barley straw, well cured, and not over-ripe, is freely 
 eaten by cattle and sheep. It is worth more for fodder than wheat straw, 
 and our cattle, while the grass is yet green, M'ill fill themselves from the 
 straw-stack every night when they return to the yard. By elevating the 
 straw-carrier above the lower sieves of the separator, when thrashing, the 
 bearded chaff is thrown into the manure yard, thus escaping its presence in 
 the straw to the injury of sheep by getting in the wool while eating. This 
 straw is sometimes of small value, because overripe and weatherbeaten, or 
 because carelessly saved and stacked. In our opinion, it is worth better 
 treatment." 
 
 776. Buckwheat as a Farm Crop.-^A large portion of the farmers of the 
 New England States, and also some of the other Northern and Western 
 States, raise a little buckwheat for family use, but few depend upon it as a 
 farm crop, because most of them believe it to be an exhausting one, and 
 some think a few successive sowings would utterly ruin land. Now, Is 
 huchwlieat an exhaustlmj crop? We find this question answered according 
 to our notion of facts in the Country Gentleman : 
 
 " I will give an authentic case, coming under my own notice, at variance 
 with the usually received theory. A neighbor of mine has grown buck- 
 wheat on the same field (and a poor field naturally, at that,) for twenty-six 
 consecutive year.s, with a fair average return, no other manure having been 
 cari-ied on the field than the buckwheat haulm, which was regularly returned. 
 Said neighbor having died, the farm came into the possession of others, who 
 raised in the succeeding years good crops of corn, wheat, and clover." 
 
 Buckwheat straw, if cut before frost, makes very good fodder, everybody's 
 opinion to the contrary notwithstanding, and we have no doubt makes good 
 manure for any other crop. It certainly does when turned in green. 
 
 As to the profitableness of growing buckwheat we are well satisfied, pro- 
 vided it is not, as is too apt to be the case, turned off upon the very poorest 
 old field on the farm. With a fair chance it will average twenty -five or 
 thirty bushels an acre. 
 
 The premium crop of New York, 1859, was thirty-five and a half bushels, 
 grown upon sandy loam in good order, where a crop of rye badly winter- 
 killed had been plowed in July 1st, and the buckwheat sowed July 6th, 
 one bushel per acre. It was harvested the last week in September, and sold 
 at 62i cents a bushel. The whole field from which the acre was meajuied, 
 yielded two hundred and two bushels upon six acres. The profit upon the 
 crop was counted $11 2,\\ acre. 
 
 We look upon buckwheat as the most important crop for planting late in 
 the season of any of the substitutes for wheat. It may be sown as late as 
 
Sec. U.] millet AS A FARM CROP. 707 
 
 the first of July. Some farmers consider Iialf a bushel of seed upon good 
 land sufficient, as tlie more it branches the more productive will be the crop. 
 It is a profitable crop, as it is easily cut and thrashed iipon the field, or 
 it may be stacked and kept till winter. The grain, besides its use for human 
 food, is one of the most valuable for poultry-feeding, and to fit up a horse 
 quickly with a sleek coat there is no grain equal to buckwheat. For ordinary 
 stock-feed it is not as valuable as corn, barley, rye, wheat, or peas. Indian 
 corn should never be planted upon buckweat stubble. We are not aware 
 that it injures any other crop. 
 
 777. Millet as a Farm Crop. — Very few farmers sow millet as a farm crop, 
 and many never saw it grow. Of late years, one variety has been a good 
 deal extended at tlie West, under the name of Hungarian grass. That kind 
 grows with a branching head, heavily loaded with round seed, somewhat 
 larger than turnip seed. Another sort grows a spike-head, eight or ten inches 
 long, and is generally called Syrian millet, and the other is called German 
 millet. The botanical name of the millet mostly grown here is Panicum 
 So7'(//nim, and it is largely cultivated in some parts of the world as a bread 
 crop. It grows well in sand}' soil, and is really a productive crop, and one 
 of the great advantages of it is that it may be sown after corn, oats, pota- 
 toes, and spring wheat have been provided for. From the 1st to the 15th 
 of June is the right time to put it in, and it is fit to cut after grass and grain. 
 For poultry feed, millet is excellent, and well worth growing for that pur- 
 pose. It is estimated that a fair crop of millet will produce three or four 
 tuns jier acre of straw, and twenty bushels or more of seed. If the crop is 
 sown for the purpose of making seed, it is recommended by those who have 
 grown it most, to sow twelve quarts, and if the crop is intended to be cut 
 for hay, sow half a bushel of seed per acre. When allowed to stand till all 
 the seed is well ripened, thirty bushels an acre is a common yield. 
 
 For a soiling crop millet is very good, particularly the large sort, which 
 grows in rich soil with large succulent stalks, and makes as good feed and 
 as large a burden as sowed corn, and often succeeds when that fails. It 
 requires no more skill, and hardly as much labor to grow a crop of millet 
 as a crop of oats. 
 
 In districts where it is most grown in Europe, the opinion prevails tiiat 
 millet yields more food for man and beast than any other cultivated grain. 
 Cut for hay, the crop is large and of excellent quality, and, it is said, im- 
 parts a vigor and elasticity to working cattle that is acquired from no other 
 food. Stock, too, are very fond of millet hay. 
 
 Writers in Europe, treating upon the cultivation of millet generally, con- 
 cur in tlie following statements : 
 
 If allowed to ripen its seed, it is an excellent grain for animals, possessing 
 as much nutriment as Indian corn, but not its fattening property. In Europe 
 it is often ground, and' where people are accustomed to its use, they are fond 
 of millet bread. A rich, light soil is best, and it should be deep and finely 
 prepared as for wheat. If grown for hay, from thirty to forty quarts of seed 
 
708 CEREALIA. [CoAP. VIII. 
 
 should be sown to the acre. It should he cut while the seed is in tlie milkj 
 state, and as soon as it is well wilted it should be put up and cured in cocks, 
 as recommended for clover hay. If the weather is line, it Avill be sufficiently 
 made in three or four days, when the cocks should be turned and opened a 
 few hours before it is hauled in. When sown for tlie grain, from sixteen to 
 twenty quarts of seed are required to the acre, and if put in with a good 
 seed drill, the crop of seed would be much improved. 
 
 No attempt should ever be made to secure both seed and hay from tne 
 same iield. Plant one field for seed and one for hay. A good crop will yield 
 five tuns of hay per acre. 
 
 For seed, the upper parts of the heads must be ripe before they are cut. 
 
 Tliere is one advantage in growing millet that ought to commend it to all 
 farmers — it flourishes well in the driest seasons. 
 
 Farmers who once commence the cultivation of millet seldom, if ever, 
 abandon it. 
 
 778. Grain Farms and Stock Farms. — In closing this section upon the 
 cereals (except maize), we could write a long paragraph upon the subject of 
 rmiting stock and grain farms, but will only copy from the New York 
 State Agricultural Society's Transactions the following suggestive and in- 
 structive paragraphs from Hon. George Geddes' Survey of Onondaga 
 County : 
 
 " In that part of the county best adapted to the cultivation of grain, our 
 farmers generally intend to keep stock enough to manufacture their hay, 
 cornstalks, and straw into manure. The teams to do their work they must 
 have, and the cows to make their own butter, and perhaps a small surplus 
 to sell ; the rest is generally made up with siieep, as the most convenient 
 stock to handle, with the least labor. They calculate that eigiit merino 
 sheep can be kept as well as a cow on the farm, and with far less labor. 
 A good ewe should yield four and a half pounds of wool, worth 45 cts. per 
 lb., which for the eight gives $1G 20 ; and the eight should raise six lambs, 
 worth in the fall $2 each, which with the wool gives $28 20. We could 
 not profitably devote all our lands that are good for grain to raising sheep, 
 but we can connect them in proper numbers with grain-raising to advan- 
 tage — we think to more advantage than any other farm-stock. 
 
 '• To show the advantage of raising some stock in connection with grain, 
 we have only to take Camillus, which is a grain-raising town, and we find 
 that only ly'/o acres are devoted to pasture, yVo to meadow, for each head of 
 neat cattle, of horses, and of eight sheep. This gives for pasture and 
 meadow l/oV acres for each head. From this it is evident that the straw and 
 cornstalks of Camillus winter about half the stock, and the pasture from 
 grain-fields nearly half pastures them. If we carry this calculation fully 
 out, the comparison between the purely grazing and mixed agriculture 
 would be still more striking. The town of Camillus has a large number of 
 horses engaged in other business than farming, the canal running through 
 the town, and being near Syracuse, a considerable part of the hay is sold 
 
PLATE XVTII. 
 
 (Page 709.) 
 
 This picture, although not so showy and attractive to sight at 
 first view, is one of the most valuable in the series. It should be 
 most carefully studied by every farmer. He must learn to readily 
 tell his worst enemies from his best friends. Here both are placed 
 before him. He should examine them so carefully, that he can 
 afterward distinguish them as easily as he can tell his own horse 
 from that of his neighbor. The three classes of insects illustrated 
 upon the upper part of this plate are the most destructive of all the 
 pests of the farm ; yet the farmer who has not informed himself all 
 about insects, would be just as likely to destroy those represented 
 upon the lower part of the plate as he would the others. Yet 
 they are his best friends ; without them he could not exist. The 
 destructors of fruit and grain and trees would prevent man from 
 growing a sufficiency of food, if it were not for the "insects bene- 
 ficial to the agriculturist." 
 
 The little that we have found room for under the head of Ento- 
 mology (Sec. XII.) wiU only serve to whet the appetite to study the 
 habits and character of all insects in works devoted to the subject. 
 Without such works, much may be learned from this plate. Many, 
 perhaps for the first time, will be made to understand that each of 
 those pretty little spotted bugs which frequently swarm about the 
 garden, which we have been merely taught the common name of, 
 and because it is pretty, have called "the lady bird," is one of man's 
 co-laborers in the garden ; and so are several others which he will 
 see pictured in its company. We entreat you to study the picture 
 of every one of these insects most carefully. 
 
I v.-<KrTS (virniix'S To (•'uci-v 
 
 XMIL 
 
 plum: WEEVII, o» cub.cl-i.io 
 
 j^SitJSt. 
 
 ^^?^ ^8K (■o,llmsMoLh,lal..rpillar.-ui.lChrs-sa 
 
 
 l,-hi.,-,i.n.,n KlvN:,!' 
 
Sec. 45.] 
 
 HISTORY OF INDIAN CORN. 
 
 709 
 
 there. In the grazing town of Fabius, a small fraction over three acres of 
 pasture and meadow is required for each head of stock, or eight sheep." 
 
 Assuming this as the proper ratio, he makes a three-year-old steer cost, for 
 use of land $36, care $18, total $54, or about five cents per day up to that 
 age, and the expense is far from being over-estimated where stock-raising is 
 carried on upon expensive land unconnected with grain-growing. 
 
 SECTION XLV.-INDIAN CORN-ITS HISTORY. 
 
 P NDTAN CORN (maize) is the poor man's crop. It is 
 7 often grown by the new settler in the little opening he 
 makes in the woods, amid stumps and fallen trees, by tiio 
 aid of his hoe alone. Without Indian corn, this country 
 could never have been settled and brought into such rapid 
 cultivation. It is to America the most important crop that is 
 grown. It enters into the food of all classes of people, either 
 as bread or meat, so that it may be said that it is as much a 
 universal food crop with us as rice is in India. It is more 
 important than rice, for it produces a higher order of civil- 
 ization. 
 
 Indian corn takes its name from the American aborigines, 
 among whom it was found growing before they knew the 
 use or value of iron implements of husbandry. It has ever 
 been a favorite food with them, and since we call them Indians, it is very 
 proper to call this Indian corn. 
 
 At first, Europeans who came to this country, as well as those who come 
 now, were and are prejudiced against the use of this grain as food, not even 
 relishing it when cooked in the milky state, of which Americans, like the 
 Indians, have become so universally fond. The Irish, too, in time of famine, 
 when sujiijlics of this great American breadstuff were sent them, considered 
 it but little better than starvation to be obliged to sustain life uj^on food only 
 fit for fatting pigs. The same people had just as strong prejudices at first 
 against potatoes, now called Irish potatoes, because so many of that nation 
 live upon them almost as exclusively as some Americans do upon Indian 
 corn. The value of the corn crop to America is beyond calculation. The 
 two next greatest — wheat and hay — do not equal ir, while lieside corn, the 
 boasted cotton crop is a mere fraction. Its importance is universal ; no 
 product common to all the States lias ever been so extensively cultivated. 
 So important was it considered by the native inhabitants of America, that in 
 Peru the jialace gardens of the Incas were ornamented with maize, with all 
 the grains, spikes, stalks, and leaves, in gold and silver, representing the 
 growth in its exact and natural shape ; a proof no less of the wealth of the 
 
710 CEREALIA. [CnAP. VIII. 
 
 Incas than of tlieir veneration for this important grain. In further proof 
 of tlie American origin of this phmt, it may be stated that it is still found 
 growing in a wild state from the Eocky Mountains to the humid forests of 
 Paraguay, where, instead of having each grain naked — as is al\tays the case 
 after long cultivation — it is completely covered with glumes or husks. Co- 
 lumbus found the natives of Ilispaniola cultivating it in extensive fields, and 
 those of other places first visited by him wei'e also in possession of it. The 
 first Englishmen by whom it was cultivated were those who settled in Vir- 
 ginia in 1607. 
 
 In all tlie wars against the Indians, the hardest blows given them were in 
 the destruction of their cornfields. The burning of a wigwam town was 
 misery to women and children, but destruction of tlie cornfields impoverished 
 the entire tribe. The former could be quickly rebuilt, but the latter could 
 not be replaced till next year. The Indians had not many varieties of corn, 
 and its cultivation was a necessity with them, and the task was imposed on 
 the women, who planted, gathered, roasted, pounded, and cooked the corn. 
 The plowshare occasion.illy turns up, on the site of some forgotten wigwam, 
 the rude stones which crushed the ripened grain. The whites quickly recog- 
 nized the value of corn as food for man and beast, improved its culture, mul- 
 tiplied its varieties, and by the invention of machines for shelling it rapidly 
 and grinding it cheaply, raised it to the position of a staple so important, 
 that if the whole wheat crop of this country wei-f5 suddenly annihilated, the 
 corn crop alone would supply us plenteously with food. While Louisiana 
 and Florida produce but 1,500 bushels annually of wheat, they give 
 14,000,000 bushels of corn ; and slaves consume no more wheat than did the 
 al)origines. Corn is their sole food, and if the corn crop could be annihi- 
 lated, slavery would perish of starvation. It is cheap corn as well as high- 
 priced cotton that keeps slavery alive. 
 
 Corn hybridizes with great facility, so that varieties are constantly in- 
 creasing, yet a rich reward is ready for whoever may propagate a new va- 
 riety far surpassing any of the sorts now cultivated. It may be said of sorts 
 now in use, that one is grown in one district of country because it was first 
 introduced there, the growers being satisfied without looking farther. An- 
 other, because great crops have been secured from it in a diff'erent section, 
 where the soil had been found especially congenial. A thij-d, because the 
 grain was large and the cob small. A fourth, because the s'alk grew very 
 tall and yielded much fodder; while a fifth was preferred for peculiarities 
 directly opposite. It happens, fortunately, that all varieiies are good for 
 man and beast, and that where cultivation is well managed, good crops and 
 certain profits are the result. 
 
 Chemistry applied to detecting the peculiarities of Indian corn shows a 
 great difi'erence in varieties. " A grain cut in half, and immersed in a solu- 
 tion of hydrosnlphate of ammonia, will have the chit changed to a dark olive 
 color, thus proving the presence of salts of iron. The exact limits of starch 
 and dextrine contained in the grain are indicated by the tincture of iodine 
 
Sao. 45.] CHEMISTRY OF INDIAN CORN. 711 
 
 striking an intense blue with tlie starch, and a deep port-wine red witli dux- 
 trine ; so that this test, by producing a ricli violet, indicated the presence 
 of both starch and dextrine. It" the oil be extracted from the transparent 
 horny part of corn by alcohol or ether, the tincture of iodine will show the 
 presence of starch in that part of the grain associated with the gluten. By 
 these means one can readily cause any grain to define the extent and precise 
 limit of each of its ingredients, and enable the naked eye to form a pretty 
 correct estimate of their relative proportions in different seeds. The relative 
 proportions of the i^osphates in grain depend on the appropriating power 
 of each species or variety. Thus, an ear of corn being selected containing 
 two different kinds, the Tuscarora and the sweet corn, and these seeds being 
 split in two and initi}ersed in the same solution, soon gave evidence of inore 
 than double the amount of phosphates in the sweet corn than in the other 
 variety. The result was extraordinary, because the grains came from the 
 same ear and grew side by side, yet they had obtained unequal quantities 
 of phosphates from the same sap, drawn from the same soil." Thus, a crop 
 of sweet corn will appropriate twice as much of the phosphates as the other 
 variety, and will consequently sooner exhaust the soil of them. Hence 
 ground bones are the specific manure for sweet corn. This variety has re- 
 cently come into extensive use for table consumption, and is annually in- 
 creasing. Its numerous growers should freely make use of ground bones as 
 its most valuable fertilizer. Its origin is unknown, but it appears to Jiave 
 been used by the aborigines of New England previous to the settlement of the 
 country by the Pilgrims. In addition to a large proportion of the phos- 
 phates, it contains a great quantity of sugar and gum, with but little starch. 
 Its short and slender stalks take up a less proportion of the saline matters 
 of the soil. 
 
 Chemistry proves that corn possesses peculiar value as food for young 
 animals, because it contains more of the phosphates than the smaller graiv.s. 
 Farmers know, without knowing the cause, that the bones of young animals 
 are greatly strengthened ly being fed on corn, and they may learn from 
 chemistry not only how to raise corn, but how to use it. Chemistry indicates 
 the relative power possessed by each kind of grain of appropriating the 
 phosphates contained in the soil, and consequently its wants. As oats and 
 buckwheat contain the least proportion, they may be raised on soil not fully 
 sujiplied with phosphates. 
 
 Tuscarora corn is one of the varieties which does not contain oil. Rice 
 corn contains the most, pop corn ranks next, Canada corn third, and brown 
 corn next. There is a curious difference observable in the mode of distribu- 
 tion of the oily and glutinous parts of corn, the Southern variety always 
 having it on the sides of the elongated seed, while the starch jirojects quite 
 through the grain to its summit, and by its contraction in drying produces 
 the peculiar pit or depression in what is known as "gourd-seed corn." The 
 Baden corn, which contains a very fine white oil, is still more remarkable 
 for this arrangement. 
 
712 CERE ALIA. [Chap. VIII. 
 
 The uses of oil in corn are manifold. It is obviously to protect the grain 
 from rapid decomposition in the soil, during long-continued wet, and to retain 
 ii portion of food until needed by the young plant, as the oil is uniformly the 
 last -portion of the grain taken up. It serves to keep meal from souring 
 readily, and kiln-dried flint-corn meal will keep sweet for years, when put 
 up properly, while the Tuscarora meal will sour in a short time. The oil 
 imparts a decided taste to the meal, not pleasant to persons accustomed to 
 use varieties containing no oil. 
 
 There is from six to twelve per cent, of oil in corn, that of Southern 
 growth containing less than Northern. When hulled by means of potash 
 lye, the oil next to the epidermis of the grain is converted into soap, and 
 the epidermis is detached. The caustic alkali also liberates annnonia from 
 the mucilage around the germ. When corn is used for the manufacture of 
 whisky, the oil is saved dnring the fermentation, as it separates and rises to 
 the surface. It is held that 100 bushels of grain will yield 15 gallons of oil 
 valuable for illuminating purposes. 
 
 The colors of Indian corn depend on that of the epidermis, or hull, and 
 of the oil— the latter, when yellow, showing its color through a transparent 
 epidermis. In white varieties the oil is transparent and colorless, and the 
 epidermis being also free from color, the meal is wiiite. The Golden Sioux, 
 a twelve-rowed variety, is colored by the oil. Ked and blue owe their lively 
 hues to the colors of the epidermis, and not to the oil. On inspecting very 
 thin slices of corn under the microscope, the epidermis is found to be made 
 up of hexagonal cells much larger than those of the glutinous and oily parts 
 of the grain. The starch globules are distinctly seen in the starchy part ; a 
 drop of diluted tincture of iodine brings out their forms and character with 
 beautiful distinctness. The phosphates are probably in the state of a fine 
 powder, while the ammonia is in combination with the organic matters, 
 forming a kind of ammid in the mucilage around the germ. 
 
 Corn contains all the elements required for the perfect development and 
 support of the bodies of animals. The ingredients make it a highly nutri- 
 tious grain. The gluten and mucilage contain nitrogen, an element essen- 
 tial to the formation of fibrous tissue, muscle, nervous matter, and brain. 
 The oil is nearly-formed fat, easily convertible into animal oils by a slight 
 change of composition. Starch also is convertible into fat, and into the car- 
 bonaceous substances of the body, and during its slow combustion in the cir- 
 culation gives out a portion of the heat of animal bodies, while in its altered 
 state it goes to form a part of the living frame. From the phosphates are 
 derived the substance of bone, as well as the saline matters of brains, nerves, 
 and other solid and fiuid parts of the body. The salts of iron contained 
 in the food of animals go to the blood, and constitute an essential portion 
 of it, enabling it, by successive changes of its degree of o.xydation during 
 the circulation through lungs, arteries, and veins, to transport oxygen to 
 every part of the body. 
 
 " Chemistry has proved that ' flesh is grass,' that vegetable and animal 
 
Seo. 45.] INDIAN CORN. 713 
 
 iiber are identical, as are vegetable and animal albumen. Plants are tliere- 
 fore organs of reduction, animals mere organs of combustion. Vegetables 
 produce neutral nitrogenized matters, fat matters, sugar, starch, and gum; 
 decompose carbonic acid gas, absorb heat and electricity, and are an ajj- 
 paratus of reduction. Animals consume what the vegetables produce, at 
 the same time producing carbonic acid gas, giving out heat and elecfricitj, 
 being an apparatus of combustion." 
 
 Corn is imquestionably the prime national staple, and in every season of 
 deficient crops of other grains, the corn crop has ]>roved a granary upon 
 which the nation could live, and the yield is annually increasing. In ISiO 
 it was 377,000,000 bushels; in 1850 it was over 590,000,000; and in 1860, 
 900,000,000. In 1840 our whole export of corn and its manufactures 
 amounted to only $800,000. In 1847 the famine in Ireland swelled the 
 amount to $18,096,000, since which the export has never fallen below 
 $2,000,000, while in 1855 it rose to $8,198,693, and in 1859 to $6,187,4-16. 
 When a bushel of wheat is worth 95 cents, one of corn is worth 77, nutri- 
 ment alone considered ; yet when corn has stood at $1 per bushel, wheat 
 has stood at $2 50. Thus, iu buying wheat, we obtain, for any given 
 amount of money, a little less than half the nutriment we obtain when 
 buying corn 
 
 1840. 1850. 
 
 Product of the slave States bushels, 252,443,802 348,992,282 
 
 Product of the free States " 124,988,072 242,018,650 
 
 377,4:31,874 591,610,932 
 
 Thus the increased production in the free States was about 75 per cent., 
 while in the slave States it was only about 39 per cent. The greatest corn- 
 producing State in 1810 was Tennessee, whose crop was 44,986,188 bushels. 
 In 1850 it was but a little over 52,000,000. In the same jieriod Indiana and 
 Illinois had risen from 50,790,098 to 110,611,347 bushels. Iowa had in- 
 creased her yield nearly 500 per cent., Wisconsin as much, while New Jer- 
 sey, Ohio, Vermont, and Maine nearly doubled theirs. In Michigan the 
 increase was more than double. In only two of the slave States, Missouri 
 and Arkansas, was the production double. Virginia made poorer relative 
 progress than any other State. These figures show that the great corn em- 
 pire of this country is to be in the West. Nearly one sixth of the Ohio crop 
 has heretofore been converted into whisky. 
 
 In 1855, Ohio had 2,205,282 acres in corn, producing 87,587,434 bushels, 
 an average of 39.7 per acre. In 1859, tlie quantity in corn was 2,431,312 
 acres, producing 68,730,846 bushels, an average of only 28 3. For ten years 
 the average yield has been steadily declining; in two only, within that 
 period, rising above the yield of 1850. It then stood at 36.8 per acre, and 
 in 1859 at 28.3. 
 
 Indian corn is the great American staple — the grand necessity of all Amer- 
 ican agriculture. The grand success in its production is, first of all, in the 
 preparation of the seed, and the soil iu which it is to be planted. 
 
714 CERE ALIA. [Chap. VIII. 
 
 779. Corn Crops, North and Sonthi How to Grow them Better. — We think 
 tliat in all the Soutiiern States, excluding the alluvions, the average ])er acre 
 will not equal ten bushels of Indian corn, while a crop of forty bushels upon 
 some of the richest river bottoms is considered a tirst-rate one. It is not 
 surprising that the yield is so light. Look how it is planted. In all of the 
 slave States the little one-horse shovel plow is in common use. Tiiis plow 
 is made of a piece of thin iron like a ])ointed shovel, say nine inches across, 
 which is fastened to the standard under the beam, and the whole is so light 
 that I have often seen a negro girl of fourteen or fifteen years old, mount 
 her mule and take her plow on her shoulder or on before her, to ride to the 
 field. With this tool the ground is scratched over, and corn planted and 
 tended by the same implement. As the subsoil is hard, the roots only 
 spread through the loose earth on the surface, and the after-plowing serves 
 to tear them to pieces. In lower Virginia it is common to throw the land 
 all into beds about a foot high, five feet apart, and grow stalks one in a place, 
 from two to four feet apart. The crop is ten to twenty bushels. One of the 
 largest planters on the Roanoke cultivates about 3,000 acres in corn. His 
 land is very rich, and subject to overflows. lie does not manure, and bnins 
 his stalks and cobs to get rid of them. The yield averages ])erhaj)3 thirty 
 bushels. In the same vicinity the Messrs. Burgwin have brought the ave- 
 rage yield of their land from seven bushels to thirty, principally by deep 
 plowing. They plant rows five feet apart, and stalks one to two feet apart. 
 Uplands in that vicinity, plowed by one horse and the little shovel plows, 
 produce five to ten biishels to the acre. It is planted about the 20th of 
 April, 4 by 4i feet, one stalk in a hill without manure. On the bottom 
 lands of James River the average yield may be about twenty-five bushels. 
 On the Sandy Point estate, where the land is a true loam, and plowed with 
 a three-mule team, and planted about 25th of April, five and a half feet be- 
 tween rows and one and one fourth feet between stalks, the yield is thirty- 
 five bushels average. The seed is covered with a harrow, and the crop 
 fended with a double shovel plow. The annual crop is five hundred acres. 
 Gen. Peyton, above Richmond, took an old plantation and renovated it by 
 deep plowing. He runs what is called a coulter, which is a small subsoil 
 plow, to mark the rows, and then again on each side after the corn is up. 
 This lets the roots down sixteen inches to search for food and moisture. Ed- 
 mund Ruffin has i-enovated an old farm on the Pamunky, east of Richmond, 
 by the use of marl and deep plowing. lie plants 4 by 5 feet, two stalks in a 
 hill, and 5 by 2 feet, one stalk in a place. Mr. Ruftin is the champion 
 of calcareous manures, and has caused many thousand acres of worn-out 
 land to be restored. The Sandy Point estate has been limed three times, with 
 first, fifty bushels ; second, thirty-five bushels ; third, thirty -five bushels; and 
 cultivated on the five-field system — that is, corn, wheat, clovei", wheat, fal- 
 low. The annual wheat crop is 1,000 acres, which has been increased from 
 an average of three bushels to seventeen. There are 2,r00 acres of plow 
 land in one field. The corn crop is from 15,000 to 20,000 bushels a year, 
 
Sec. 45.] OORN CUOPri— IIUW TO GROW TOEM BETTER. 715 
 
 about two tliirds of •n-liich is sold. This place will be long remembered by 
 " the army of the Potomac," as the one where the Cliickahominy was crossed 
 on the pontoon bridge. 
 
 On Edisto Island, and upon the coast of South Carolina generally, the cul- 
 tivation is all done by hoes. A negro will tend six to eight acres in cotton, 
 corn, and ])otatoes. Upon the plantation of Mr. Townsend, wlio has made 
 cflbrts to induce people to use the plow, the task of his hands is five acres 
 of cotton, three acres of corn, and one of potatoes to each field-hand. In all 
 the Southern States there are thousands of acres planted every year, upon 
 ground scratched over by the little shovel plow, that does not yield ten 
 bushels per acre, and much of it not five bushels. The great fimlt evei-y- 
 where is shallow plowing, and that is the reason why corn crops do not 
 average better in all the corn-growing States. 
 
 A negro scratches two or three marks about two inches deep in the loose 
 earth, in the place where the rows are to be, leaving the " middles" to be 
 "broke out" after the corn is planted and has come np. This is a part of 
 the cultivation, or " tending the crop," on land never manured. 
 
 At the West, the average yield of all the acres planted is not thirty bush- 
 els, although crops of ten acres each have averaged over one hundred and 
 fifty bushels per acre, and crops of one hundred busliels are not unusual. 
 Upon rich prairie soil, forty to sixty bushels per acre is accounted first-rate, 
 and fully satisfactory to the producer. 
 
 Most of the cornfields of all the Eastern States might be made to double 
 their yield by the use of a plow that would reverse the surface ten inches, 
 bringing the lower five to the top and leaving them loose and friable, and 
 then following in the same furrows with a subsoil lifter that would loosen 
 the compact earth eight or ten inches deeper, to say nothing of the advan- 
 tage of turning under a strong grass or clover sod to decay and furnish food 
 for the grain at the very time when it was most needed. All this is inde- 
 pendent of manures, either from the farm-yard, or sea-side, or muck-beds, or 
 city streets, or from Pern, or any of the manufactories of artificial fertiliz- 
 ers, and is within the reach of all corn-planters who nmy be unable to pro- 
 cure the other means of fertility and increase of the crop, withoit some of 
 which it is now useless to attempt to grow Indian corn in New York or 
 New England. 
 
 In the old States, Indian corn can not be profitably grown npon land that 
 has not been nnderdrained or subsoil plowed, and that is nou plowed at least 
 eight inches deep for each croj), aad most thoroughly pulverized before the 
 seed is jjut into the ground. As a general rule, half the labor of after- 
 culture will be saved by proper preparation of the ground before planting. 
 One of the best implements ever used for marking out the rows is a subsoil 
 lifter. We have seen an ordinary plow coulter, eighteen inches long, fast- 
 ened to a beam with handles, used for marking the rows with decided ben- 
 efit, as it made a temporary drain for the young plants, which every farmer 
 knows can not bear any excess of water, even for a few hours, in a hot sun, 
 
716 CERE ALIA. [Chap. VIII. 
 
 without serious injury to all the after-growth of stalk and production of 
 grain. 
 
 Fpon the virgin soil of the prairies, or upon the bottom-lands of some of 
 the "Western rivers, men will not, of course, follow these directions, because 
 they can get a large acreable yield with less labor, and some of them have 
 been so long in the practice of raising corn in the slovenly, careless manner 
 they do, that it is as nseless to ask tliem to improve -as it is to ask. a New 
 England farmer who never grew 40 bushels of corn upon an acre to believe 
 that his neighbor has grown 80. Both East and West, and North and South, 
 the mass will still work on in the old way, notwithstanding all the facts 
 spread before them, yet we will hope that one or two may be induced to re- 
 solve upon improvement after reading this article. 
 
 Upon the rich prairie soil of Indiana and Illinois, corn has been grown on 
 contract for five cents a bnshel. The late Hon. Henry L. Ellsworth had 
 3,000 acres one year grown by persons who contracted with Mr. E. to plow, 
 plant, till, and grow the croj) ready for harvesting for $3 an aci'c, and the 
 yield gave sixty bushels per acre. 
 
 One of the premium corn crops of Connecticut was grown by Nathan 
 Hart, Jr., of West Cornwall. The soil was a rich, friable loam, which had 
 been in grass for the last forty years, and had received no manure except 
 the droppings of the cattle. It had probably been pretty well manured in 
 this wa}'. "Twenty-four ox-cart loads of manure from the barn cellar were 
 applied; the land was plowed seven inches deep on the 9th and 11th of 
 May. The seed was of the Button variety. It was soaked for thirty-six 
 hours in a warm solution of saltpeter, and rolled in plaster and planted May 
 23, four kernels in a hill, the hills from two to two and a half feet apart in 
 the row, and the rows three feet apart. It was hoed three times by hand 
 after the horse-hoe at intervals of eight days, commencing June 13. 
 
 " The crop was cut up by the roots during the week commencing Sept. 
 17, and husked the first week in November. The yield was 98 bushels, one 
 peck, six quarts per acre. 
 
 Estimated value of crop, including stalks and pumpkins $103 43 
 
 Cost of raising 37 50 
 
 Balance profit of the crop SOS 93 
 
 " Wm. H. Putnam, of Brooklyn, grew another prize crop. The soil was 
 a wet, black loam, with a heavy, compact subsoil, which had been three 
 years in grass, with no manure. Sixteen full loads of stable manure from 
 under cover were plowed in, and ten loads of compost, made from fer- 
 mented stable and hog manure, well mixed with rather poor summer-made 
 yard manure, were put in the hill. His land was plowed eight inches deep, 
 and corn dropped upon the manure, in furrows three feet aj^art, and the 
 corn two and a half feet apart in the furrow, and plaster ujion the corn ; six 
 quarts of seed to the acre of the Rhode Island premium variety, planted 
 May 27. Cultivated and hoed twice, and thinned to four stalks in the hill, 
 
Sec. 45.] WHEN TO PLANT CORN. T17 
 
 and when ripe, cut up by tlie roots and stacked. The yield was 95i bushels 
 
 to the acre. 
 
 Value of the whole crop , . . $96 40 
 
 Cost of cultivation 26 50 
 
 Balance of profit $69 90 
 
 "James A. Bill, of Lyme, took the third premium. His soil is a gravelly 
 loam, cultivated tlie two previous years in corn, and the third year previous 
 in grass. Forty loads of liarn-yard manure were plowed in deeply for each 
 crop of corn, and a dressing of 150 bushels of ashes the first year. No ma- 
 nure was applied to the land when in grass. The land was plowed June 1, 
 and planted June 5 with si.x quarts of Diitton corn three feet and a half apart 
 each way. The seed was soaked until nearly ready to sprout, and ten days 
 after planting it was up and hoed ; and again the last of June ; and the 
 thii-d time about the middle of July. The land left ]icrfectly flat, no hills 
 being made. The crop was cut Sept. 30, and yielded 89 Ijushels per acre. 
 
 Whole value of crop $95 50 
 
 Cost of cultivation 9 50 
 
 Balance of profit $86 00 
 
 The value of the manure is not estimated, which would take off at least $20 
 from the profit, leaving it about the same as tlie other premium crops. It 
 will be noticed that Mr. Bill plants very late, June 5. This is his practice 
 every year. He plants, also, six inches farther apart one way, and a foot 
 farther apart tlie otlier. AYith a smaller variety of corn, and closer planting, 
 we think this acre would have taken the first premium." 
 
 Now, these crops were grown in as unfavorable a season as we have had 
 in many A'ears, in a State not marked upon our country's map as one of the 
 corn-growing States, and not, so far as we can see, with a very extraordinary 
 amount of labor, and yet with a very handsome profit, leaving the soil in 
 better condition than it was before. 
 
 780. U'liea (0 Plant foril.— There is a rule, and one of no little import- 
 ance, homely as it may seem, for fixing the proper time for putting the seed 
 corn in the ground. It is a day in the calendar of the aborigines, which our 
 Pilgrim fathers found established among these original corn-planters. In 
 answer to the question, " Wliat time in the spring do you plant corn V the 
 answer was, "When the leaves upon the oak-trees are as large as the ears of 
 the squirrels that sun themselves on the bi-anches, then our squaws plant the 
 seed tiiat has been so carefully preserved in the smoke of our wigwams." 
 
 There is much truth in the old Indian rule, both in preserving the seed, 
 which was hung up in clusters of ears, by the braided husks, to the poles of 
 the wigwam, and in the time of planting it — the time pointed out by nature, 
 not the almanac, when the ground had become sufficiently warm to insure 
 rapid vegetation. 
 
 Experience has ]irovcd that the 20th of May, as a general rule, corre- 
 sponds very well with the time of putting forth oak leaves " as large as a 
 
T18 CEREALIA. [Chap. VIII. 
 
 Bquirrel's ear," and then it is the fittest time for planting. The next most 
 fitting time is when yon are ready, for upon getting land ready, and proper 
 cuUivalioii, depend all yonr success. 
 
 With straight rows, and a practiced hand to hold the cultivator, it leaves 
 but little work for the hoes. Corn should be cut about the middle of Sep- 
 tember by the roots, and shocked. There will be more corn and better fod- 
 der. This process will give us corn at 50 cents a bushel or less. 
 
 781. Seed foru— Selecting, Saving, and Preparing: it to Plant.— Any man 
 claiming the name of farmer who does not systematically select his seed 
 corn in the field before the crop is harvested, can never be written down in 
 our books as a good iarmer. And this is a work, too, that must not be 
 trusted to a graduate from any Corkonian institution. It is the business of 
 the farmer himself No ear, however large and sound, should be taken from 
 a stalk that does not carry two full-sized, sound ears. No ear that is not 
 well filled out with perfect kernels to the vei-y point, should be accepted for 
 seed, if a farmer — and a good farmer does — desire to improve his crop. 
 The eflTect produced by Baden, by this practice of selection, was a universal 
 regular production of four to seven ears upon all the stalks, until at length 
 " Baden corn" became known as an improved variety. It is an improve- 
 ment that any farmer can make. If you would grow great crops, the great- 
 est [lains must be taken with the seed. It should be carefully selected, and 
 that from crops grown north of j'our own location, if only half a degree. 
 
 Many farmers contend that no kernel should be planted wliich has not 
 been soaked to the point of sprouting ; not one should be planted deep. 
 Then if you do not neglect the after-cultivation, you ma}' have a good crop 
 of Indian corn, notwithstanding the discouraging character of jn-ospects in 
 the spring. 
 
 If the weather is such that you can not plant a groat quantity, remember 
 that you can have more bushels now from half the number of acres intended 
 to be planted than from the whole, if the manure and labor are concentrated. 
 But always bear in mind that tlie first and most important step toward a 
 good crop is in the careful selection of seed. Mr. Thomas Spencer, of Cape 
 Girardeau, Mo., increased the yield of corn in three years, upon the same 
 ground, fully one third by simply selecting the seed in the following man- 
 ner : Wlien iiis corn was just coming into the proper state for roasting ears, 
 he passed tiirough his field, marking the ripest ears, judging by the silk. 
 If there were two cars on the same stalk, he selected the upper one. When 
 gathering his corn in the fall, these ears were carefully put away for seed. 
 
 Farmers ! think of tiiis every year. If you have neglected this course, 
 or if the selection has been neglected while the corn stood where it grew, do 
 not neglect it while yon are husking. Save the best car of all stalks that 
 carry two or more, until you get an ample supply, and then put it away in 
 a, perfectly dry place. If you wish to change your seed, make it the busi- 
 ness of a day to go about the country and see who has the best, and make 
 your selection while it is on the stalk. The best time to gather seed corn is 
 
Sec. 45.] SEED CORN— SELECTING AND PREPARING IT TO PLANT. 719 
 
 when it lias just fully ripened, and the best way to keep it is to tie the ears 
 in bunches by the husks and hang tliem up to the rafters. If in the loft of 
 a smoky log-cabin, all the better. Sinoke is as good for preserving corn as 
 for corn-fed pork. Freezing weather in autumn injures more seed corn than 
 anything else. It should always be saved before frost. 
 
 Many of the improved varieties of -corn are accidental. This is said to 
 have been the case with the Improved King Philij), an excellent variety, 
 which produces ears of unusual length, as long as the best Dutton, the 
 kernels being very large and deep, eight rows on tlic cob, and it ripens per- 
 fectly in one hundred days, producing very nearly double as much as the 
 ordinary King Philip. 
 
 One of the curiosities c\ this improved variety is, that it does not appear 
 disposed toward further improvement nor change. We liave grown it in- 
 termixed with half a dozen sorts, all of which hybridized, while the Im- 
 proved King Philip remained as pure as the seed we planted. 
 
 One of the best recommendations in relation to seed is this : Let each 
 farmer plant, expressly for seed, from ten to a hundred hills in the richest 
 ground he has, placing the hills six feet apart and allowing ncjt more than 
 three stalks to stand in eaijji hill, so as to encourage each to develop three 
 or four ears if possible. Let some of these hills be planted in the midst 
 of potatoes, melons, cabbages, or other low plants, so as to secure them 
 abundant air and sunsiiine, and thus no ground will be wasted, and in all 
 probability seed will be obtained that will increase the next cro^j ten bushels 
 per acre. It is an experiment that is worth trying. 
 
 Farmers can i.ot be too careful about providing good seed. If you liave 
 it not of your own, buy it. Even if an exorbitant price is demanded, it will 
 be economy in the end, for it requires labor to re[ilant corn, and tiie second 
 planting rarely amounts to anything in the way of ears ; the first planting 
 shades, and gets so much tlic start of it. 
 
 In some seasons the corn is generally uncertain about germinating; then 
 it is best to get corn of the previous year for seed. If you can not get old 
 corn, select new corn that you think will grow, and take one kei'nel from 
 each of fifteen or twenty ears ; put it, with some moist, mellow dirt, in an 
 old crock or dish, and wet it occasionally with tepid water ; keep it in a 
 warm place, and you will soon have a test. In one experiment, where nine 
 out of thirteen grew, we planted six or seven, instead of four kernels. If 
 the germ of seed corn is feeble, and particularly if planted too deeply, the 
 blade will curl up under the ground, and a great deal of it will never see the 
 light; while some that does reach tiie top of the ground is so exhausted by 
 the eftbrt that it never recovers. Planting good seed, or so much poor seed 
 that a sufficient amount will grow, is of more importance than may be im- 
 agined. Some farmers lose hundreds of bushels of corn by carelessness in 
 this particular, and a general carelessness would maferially affect the entire 
 crop. One of the best farmers in New Jersey says : 
 
 "I would only use the best grains in the center of the ear. The land 
 
720 CEREALIA. [Chap. VIII. 
 
 should be deeply prepared, and marked each way three and a half feet by 
 tliree and a half feet, with seven or eight grains to a hill, and five stalks 
 left to stand. "We cover one inch deep, and cultivate with Knox's horse- 
 hoe, and never hill up. "We use the subsoil plow in preparing land and in 
 cultivating. We prefer to plant in May to a later day. The "White Flint 
 corn is the most productive sort we grow. I have never known crows to 
 eat corn. They certainly pull it up, for I have seen it lying upon the 
 ground uneaten where they pulled it out. Our greatest pests are the 
 blackbirds, which destroy a good deal of corn that Dushes its point out of 
 the husks." 
 
 A kind of corn called Dutton, much grown in the State of New York, is 
 a Yellow Flint variety, eight-rowed and long ears, and jjroductive of good 
 crops, and this, if planted June 1, would generally ripen in the latitude of 
 Albany. It requires one hundred days to come to maturity. There are 
 several valuable hybrids of this variety that will ripen in the same period. 
 If corn is ever heated in the crib, its germination is destroyed. Great care 
 should be used to plant corn when the earth is in exactly the right condi- 
 tion of temperature. 
 
 From an experiment reported in the papers 51 few years ago, to test the 
 question whether the seed taken from the middle of the ear is better than 
 that from the ends, we gather the following facts, which are at least sug- 
 gestive, if not conclusive, and should induce farmers to continue the exijeri- 
 ment for several years, until each one is entirely satisfied. The following is 
 the statement : Two acres were planted on a light soil, well adapted to 
 Indian corn ; manured with seven and a half cords of barn-yard manure to 
 the acre, spread l)roadcast and cultivated in, and ten bushels of leached 
 ashes and one hundred pounds of gypsnm to the acre put in the hill. The 
 corn was planted on the 3d day of June, in alternate rows, with seed taken 
 from the large ends, middle, and tops of the ears. It was hoed three times 
 in the course of the season. One acre was harvested and husked with care, 
 and the result noted on the 19th of Octobei-. 
 
 The rows planted with seed taken from the large cuds of the ears pro- 
 duced 738 pounds of sound corn, 77 pounds of soft corn on the ears and 
 1,360 pounds of stover. 
 
 That from seed taken from the middle produced 663 pounds of sound 
 corn in the car, 164 pounds of soft corn, and 1,290 pounds of stover. 
 
 That from seed taken from the small »eds produced 747 pounds of sound, 
 53 pounds of soft corn, and 1,320 pounds of stover. 
 
 Comjiaring the crops on this acre, and estimating the sound corn at 1 and 
 the soft corn at half a cent per pound, and the stover at 7 dollars the ton, 
 the value of the crop, the seed of which was taken from the large end, 
 was, 738 pounds sound corn, $7 38 ; 77 pounds soft do., 39 cents ; 1,360 
 pounds stover, $4 55. Total, $12 32. That from middles— 663 pounds 
 sound corn, $6 63 ; 164 pounds soft do., 82 cents ; 1,290 pounds stover, 
 $4 51. Ttital, $11 96. That from the small ends — 747 pounds sound corn, 
 
Seo. 45.] WHEN TO PLANT CORN. 721 
 
 $7 47 ; 53 pounds soft do., 26 cents ; 1,320 pounds stover, $4 62. Total, 
 
 $12 35. 
 
 From this experiment it appears that the very portion of the ear usually 
 selected for seed is the least valuable, and the portion containing the small 
 kernels actually produces the most sound corn, the least soft corn, and 
 greatest quantity of fodder, and slightly exceeds either of the three divisions 
 in cash value. Taking this one caSo as a basis, and it proves that it is hardly 
 M'ortli the while of any farmer to shell off portions of the grains of an ear, 
 rejecting one and saving the other for seed. An experiment made by Lan- 
 sing Wetmore, of Warren, Pennsylvania, upon four adjoining rows, gave 
 eleven and a half bushels upon those with unprepared seed, and seventeen 
 bushels upon the other. The preparation consisted in soaking the corn over- 
 night in just enough soft water to cover it, in which one ounce of copperas 
 to each quart of corn was dissolved. To a peck of corn, when you take it 
 out of the steep, stir in a pint of soft soap. Then add plaster enough to make 
 it dry, so that you can liandle it easily for dropping. The argument used by 
 those who favor the various modes of prejiaring seed, is that it gives the 
 young plant a vigorous start into healthy life before it could look abroad 
 for pabulum. " An old farmer" says, about saving seed corn : " My own 
 observation and experience, during forty years, convince me that the best 
 preparation and treatment of seed corn is to keep it on the cob till the 
 ground is prepared to receive it. No coating — no saturating— no soaking. 
 At the proper season, pulverize the ground well, and put the dry corn in 
 immediately from the cob." 
 
 Still there are other farmers, of equal experience, who strenuously con- 
 tend for the advantages of soaking seed corn, not only to hasten its vegeta- 
 tion, but to save it from tlie attacks of destructive vermin. A young farmer 
 writes that " an old gentleman not far from me says : ' Soak the seed over- 
 night in copperas water, and the wire-worm will not trouble it.' Who 
 knows whether this is so or not?" To this question another correspondent 
 makes this answer : " A good many years ago, when I was farming in Mas- 
 sachusetts, we had a field of corn that was at least two tliirds destroyed by 
 the wire-worm. A half dozen of tliese troublesome fellows were sometimes 
 found sticking in a single kernel. We planted the second time, after soak- 
 ing our seed over-night in a solution of copperas water, and I do not know 
 tliat a single kernel failed. In after-years, we tried niter with equal suc- 
 cess." Probably the best remedy against wire-worms is not to grow tliem. 
 Keep no old meadows. Break them up. Plow all your sod and stubble 
 land in autumn. Either bury your worm seed too deep to get out in time 
 in the spring, or else freeze it to death in the winter. There is probably no 
 remedy equal to deep plowing in autumn. 
 
 Another correspondent is equally sure that tarring seed corn is a sove- 
 reign remedy against all pests. lie says: "Dissolve a pint of tar in hot 
 water, sutficient to immerse a bushel of corn, and you will coat every kernel 
 so that plaster, bone-dust, or ashes will adhere and cover each grain ; 
 
722 CEREALIA. [Chap. VIII. 
 
 and this not only makes an unpalatable morsel for crows, squirrels, and 
 other pests, but it will fertilize the young shoot so as to give it a vigorous 
 start. Every variety of seed that vermin depredate upon may be tarred 
 with great advantage." 
 
 But another one says : "Tar is oftener injurious than otherwise. So are 
 all other applications to seed corn — whether to keep off devourers or to 
 promote growth. A better preventive is to scatter corn on the ground 
 around the margin of the field, and through it in different parts, if the iield 
 be large. As much corn as crows will eat, thus fed to them, will be found 
 cheaper than scarecrows of any kind." 
 
 782. Fertilizing Seed CorUi — A great deal has been written of late upon 
 the advantage of fertilizing seeds by soaking them in a solution of some 
 substance that has the property needed to give increased vitality to the 
 young shoot. Dr. Chamberlin, of Chicago, has made some experiments 
 that convince him that nearly half tlie time miglit be saved in germinating 
 the seed by the use of chlorid of lime. In one of his experiments he had 
 in his office four boxes ; in the first, the corn planted without soaking the 
 seed, had not germinated, when the second, with seed that was soaked in 
 warm water, had just commenced to germinate. In the third, seed that was 
 soaked in a solution of chlorid of lime, showed green blades just peeping 
 from the ground. In the fourth, seed soaked in a solution of chlorid of lime 
 and copperas, in equal parts, showed blades nearly three inches above the 
 ground. All the seeds taken from the same ear were planted at the same 
 time, in the same quality of soil, and the boxes all had an equal share of 
 heat and light, and equal advantages. 
 
 This experiment should attract the attention of farmers, and if from four 
 to six weeks may be saved by the use of chlorid of lime and copperas, it is 
 a matter of no ordinary moment, since a delay in the germination of two 
 weeks niay place the crop within reach of frost in autumn. The copperas 
 used in soaking tends to prevent birds, squirrels, and worms from eating the 
 seed. One pound of chlorid of lime and one pound of copperas, costing not 
 over twenty-five cents, should be dissolved in sufficient water to soak seed 
 enough for twenty acres ; so every farmer could afford to make the exj^eri- 
 ment, even if he should fail to derive any benefit from it. 
 
 783. Shall we Grow Two Ears upoa a Stalk ?— It is the general opinion 
 of farmers, that a field wiiich averages two ears upon a stalk would give 
 more bushels of corn per acre than a field of stall^s bearing one ear each. 
 But we have a statement from O. S. Murray, of Warren County, Ohio, that 
 gives proof to the contrary of this position. He says : " After having my 
 attention often turned to the subject, by what had been so repeatedly pub- 
 lished in the agricultural papers, I went about taking observations for my- 
 self, several years ago. The result was, that in more than ninety-nine in- 
 stances in a hundred, the largest ear on a stalk having but one had more 
 grain tlian tlie largest two ears, or all the ears on any stalk having more 
 than one. In a field of two acres, very well eared, I searched in vain 
 
Sbo. 45.] PREPARING GROUND FOR CORN. 723 
 
 throngliout to find a single instance where two or more ears on a stalk bad 
 as much grain as I could easily and often find on the largest and best ear 
 where there was but one. In another season afterward, I mentioned the 
 matter to a man who was helping me harvest a field of eiglit acres of supe- 
 rior growth. He was astonished at my suggestion, and quite imbelieviflg. 
 So we went about the search and comparison — he looking for two ears or 
 "more on a stalk, and I for one. In a single instance, and that instance only, 
 he found more on two ears on a stalk than I could find on one. We made 
 numerous comparisons, and in every other instance my single ear had de- 
 cided advantage over bis two or more in amount and quality of grain ; 
 generally the difi'erence would be considerable. Tiiese observations led me 
 to the conclusion, that in the cultivation of our larger varieties, the true 
 philosophy is to ascertain as neai'ly as possible the largest number of stalks 
 that can stand on a given area witli the largest single ears. Stop reducing 
 the number of stalks at the point where in the first single instance the 
 second ear will shoot on a stalk. Besides increasing the quantity and quality 
 of grain, you save one half the work of husking. It is more work to husk 
 a small ear than a large one. The swelling of the latter opens and loosens 
 the husks for more ready removal." 
 
 In relation to planting corn very wide apart, Mr. Murray thinks there would 
 be liability to failure of perfect filling on the cobs. Except in the most 
 favorable conditions of weather as to winds and showers, there could not be 
 a sufiicient number of successful communications from the anthers to the 
 stigmas at wide distances. 
 
 7S4. Preparing Ground for Corn.— This is the most important in all the 
 laborious part of the work of making a crop of corn. Our choice would be 
 a clover sod turned under in autumn, with a good growth of green clover, 
 running the subsoil plow in each furrow, or else, if the soil was already in a 
 deep mellow condition, we would plow it with the Michigan, or double- 
 share plow, and in the winter, while the ground was frozen, haul and spread 
 such a dressing of manure as we intended to give it, and then plow that in 
 with a light plow, so as not to turn up the sod. We would mark the rows 
 with a small subsoil plow, or else with a coulter, neither of which will make 
 a furrow for you to plant in below the level of the surface. Indeed, upon 
 wettish ground the following plan has been successfully used : Instead of 
 plowing a furrow and planting the seed below the surface, where it will rot 
 in wet weather, use an implement that will draw the loose surface-soil from 
 each side of the line of the row into a ridge, or rather a flat elevation, and 
 plant the seed upon that. -In the lower part of Virginia, nearly all the 
 land, •particularly on the river bottoms, and what are called the " flat 
 lands," is plowed in ridges. But we do not commend the plan, unless it 
 is upon flat lands that can not be drained. On the other hand, we condemn 
 the practice of planting in the bottom of furrows upon any land. If the 
 soil is well prepared, by surface and subsoil plowing and harrowing, if the 
 ground has broken up in lumps, there is no way that the seed can be jo 
 
724 CEREALIA. [Chap. VIII. 
 
 ■well put in as with a drill. If farmei's would spend more time in destroying 
 the weeds before they go to seed, it will pay better than almost any other 
 work. Three hundred years ago, Toralio wrote in Italy that the soil dug 
 over eight times was better than manuring. The old Indian mode of 
 piling up the loose earth around the stalks was a mere thing of circum- 
 stances by which they were surrounded, and like a great many other men 
 before them, our sires and their sons became imitators. They never stopped 
 to inquire or think why it was done. It was because the ground was not 
 previously well prepared. If your ground was plowed in autumn or early 
 spring, it has, of course, been beaten down by the rain, and is unfit for 
 planting until plowed again. If you can not afford to do that, do the next 
 best thing. Mark your rows with a subsoil lifter, or a long coulter, and 
 commence using the cultivator or plow as soon as the corn shows above 
 ground. If June proves dry and hot, the growth will, in default of deep 
 plowing, be likely to fail ; and, if the land has not been previously plowed 
 deep, the use of the subsoiler, run close to the rows upon each side, may be 
 the means, perhaps the only means, of saving the crop from ruin. 
 
 785. Autumn Plowing and U'ire-Worms. — Speaking of autumn plowing, a 
 farmer of Livingston County, X. Y., says: " If the ground on which corn is 
 intended to be planted the coming season is sward land, and infested with 
 wire-worms, I would not, by any means, advise you to plow in autumn, but 
 just before planting, giving only time to suitably prepare the soil — -even 
 two or three weeks' difference in the time of plowing made more than one 
 half difference with me in a crop of corn. It would be folly to think of 
 planting the same ground to corn the ensuiiig year without plowing deep, 
 and very late in autumn, for the wire-worms would most certainly destroy 
 the crop." By this it appears that his only reason for not plowing in 
 autumn is on account of wire worms. If he will dress this sod ground with 
 three to ten bushels of salt per acre, a few days before the corn is plant- 
 ed, we will insure him against the worms, and also insure the crop to be 
 enough larger, on account of the salt, to pay for its cost. Dr. G. J. Locke, 
 of Danby, Rutland County, Vt., gives the method by which he is suc- 
 cessful in raising corn, which he thinks might be beneficially adopted by 
 others : 
 
 " Plow sward land six to ten inches deep ; then drag smooth with a heavy 
 bush ; then spread twenty two-horse wagon-loads of barn-yard manure per 
 acre; then harrow till m'cU mixed with the soil; tlien mark off and put a 
 handful of dry hen manure in each hill, and cover it two inches deep ; then 
 drop the seed and cover it lightly with a hoe. Since I have taken this 
 course, about four years, I have not had a hill of corn eaten by worms, 
 while most of my neighbors have complained of having theirs destroyed. 
 Whether it is the general chemical action in fermenting, or whether there 
 is one or more elements in the hen dung tiiat keeps the worms from the 
 corn, I do not know. If the corn is planted on the hen guano, without its 
 being covered with earth, it destroys the vitality of the corn. In this way I 
 
Seo. 45.] DEPTH AND DISTANCE APART OF PLANTING CORN. 723 
 
 get from 40 to 85 bushels to the acre. Twenty liens kept through the win- 
 ter, in a good hen-honse, as they should be, letting them run out in the day- 
 time when convenient, with the chickens I usually raise, will furnish suffi- 
 cient manure for one acre of land, and will pay their keeping if properly 
 taken care of, leaving the eggs as a clear profit." 
 
 We have one suggestion to add to this, and that is, that the sward be 
 turned with a Michigan plow, which buries all the sod, and leaves several 
 inches of loose earth on the surface, in admirable condition for receiving 
 the dressing of manure. The recommendation of saving hen manure, and 
 the profit of it, we fully indorse. Remember never to put lime or ashes in 
 the hen-house, but you may use plaster, charcoal dust, fine muck, or loamy 
 earth, so as to keep the mass, as it accumulates, quite inodorous. 
 
 One who has tried it, says that an eflPectual way to prevent cut-worms 
 from destroying the first planting of corn is to sow broadcast half a bushel 
 of seed per acre, and harrow it in, and then mark off and plant as usual. 
 The sowed corn sprouts first, and the worms eat it, and let that in the hills 
 alone. At the first hoeing, if any hills are missing, fill them with plants 
 from that sown broadcast, and plow under the balance. It will not hurt the 
 soil any. An old corn-planter says : " To prevent the black grub from eat- 
 ing corn, take strong ashes and plaster in equal parts, and put a good hand- 
 ful on each hill as soon as planted." A Michigan farmer plows in clover 
 sod in autumn, and applies all his manure to it in the spring, working it in 
 thoroughly with the cultivator and harrow. He says : " Hoeing the corn 
 fits the ground well for wheat, and I sow it as soon as the ripening of the 
 corn will admit. After the wheat comes off, I plow in the stubble, and in 
 the spring sow oats, timothy, and clover. I get three crops of grain, one of 
 them wheat, in three years, and get the land back to clover in the time. 
 Last year my corn yielded 100 bushels of ears per acre, and the wheat this 
 year, on the same ground, averaged 14 bushels per acre,'though it was badly 
 shrunk These crops were raised on laud which was thought nearly barren 
 when it came into my possession." 
 
 786. Depth and Distance Apart of Planting Corn. — If you prefer corn in 
 checks rather than drills, we recommend putting at least five kernels to a 
 hill, two of which may be pulled out if all grow. Let it be the law of j'our 
 farm never to cover seed corn very deep ; if it is, it will be delayed in its 
 growth, and some will never reach the surface, and some that does will 
 look yellow and feeble. You may be pretty sure that corn planted three 
 and a half to four feet apart will grow as luxuriantly, and will be far 
 better than if planted more sparsely ; for, in the latter condition, the silk 
 does- not receive the pollen so freely. Tlie outside row, growing quite as 
 rank as the other, is, for the above reason, not usually as well filled. As a 
 general rule, the closer the ground is planted, the better the corn grows and 
 ears, if the soil is naturally or artificially strong enough to carry a heavy 
 crop. Upon sparse planting, an observing fiirmer says : " I have always 
 noticed that where single stalks have come up from seed accidentally drop- 
 
726 CEREALIA. , [Chap. VIH. 
 
 ped in a garden, Low rich soever tlie soil ftight be, they bore nothing but 
 miserable pig ears. I account for it thus : the stalk standing alone, the wind 
 blows the pollen from the spindle, not upon its own silk, but away 
 from it." 
 
 In the Southern States, sparse planting is the rule. A farmer gives as a 
 reason for shallow planting, that " corn planted at three quarters of an inch 
 deep came up in six days; and corn at two inches, nine days; and five 
 inches, seventeen days — the same seed and same preparation in the same 
 field. I lost half of a crop once from deep planting. I would put the ma- 
 nure four inches deep, covered with soil, and the corn covered only half an 
 inch diiep. All self-planted corn grows from shallow planting; and this is 
 the case with all tree seeds. Much depends upon the state of the weather 
 at planting, as well. as the condition of the soil. The distance between hills 
 should depend upon the kind of corn. For Southern and AVestern, five feet 
 is about near enough for a profitable crop. For Button, three and a half to 
 four feet. For Early Canada I planted once twenty-two by twenty-four 
 inches, four kernels in a hill, and I had one hundred and one measured 
 bushels on a measured acre." 
 
 787. f ultivation of f orili — One who advocates early planting says : " As 
 a general thing, it is much less work to tend the crop. I say, drills for corn 
 by all means. Each time you haul dirt to the stalk, it throws out a new set 
 of roots, as corn requires breathing tubes at the ends of its rootlets. Go 
 into a cornfield which has been left ' decently alone' after it is two feet 
 high, and try to find an inch square of ground without corn rootlets pro- 
 truding from it ! Does the plant know best what it requires ? If not, cut 
 and haggle away at its roots, as your grandfather did before you !" 
 
 From all that we can read or hear aljout corn, and after some experience, 
 our motto is level culture, and such preparation of the ground as to fit it so 
 as to require but little after-cultivation. There is no labor on the farm, per- 
 haps, that will pay ])etter than working corn at the proper time, and in a 
 drouth, all the time. Instead of hand hoeing, use some of the light horse 
 hoes, with which one man will do more good than ten with hand hoes, fol- 
 lowing a mold-board plow. As for manuring corn, that is a necessity in all 
 tlie Eastern States. Upon the rich lands of tiic West it will not pay. It is 
 idle in the older States to plant corn upon a majority of the farms without 
 purchasing some kind of fertilizer. Wo have never recommended a farmer 
 to neglect his barn-yard manure, but to add to that guano, bone-dust, im- 
 proved superphosphate, and everything of the kind that he can buy, be- 
 cause no farmer can make as much manure as he can use profitably. It is 
 nonsense for a farmer to be content with forty bushels of corn per acre when 
 he can get eighty bushels by $3 more expense. It is nonsense to say that 
 barn-yard manure is all that is necessary to be applied to any land, or that 
 it is not profitable for a farmer to purchase just such specific manures as 
 analysis or experience shows the land requires. As to working among corn, 
 commence as soon as the rows show, using a subsoil plow, two furrows be- 
 
Sko. 45.] POP-CORN IS PROFITABLE AS A CROP. 727 
 
 tween each pair of rows, running as close as you safely can to the corn, and 
 follow with a horse-hoe to brush over the unbroken surface and kill any re- 
 maining weeds, but leave the surface as nearly level as possible. In two 
 weeks repeat this operation, keeping farther from the corn with your plow. 
 Once or twice thereafter run through the field with a cultivator or horse- 
 hoe, and if .any weeds remain, uproot them with the hand or hoe, but do 
 not let any plow go down three inches below the surface after the plants are 
 a foot high. If the corn looks well, pull one or two of the feeblest stalks in 
 each hill at the second plowing. If you have not applied ashes or plaster 
 before planting, throw a handful of the two mixed upon each hill before 
 plowing the second time. The distance traveled in cultivating an acre of 
 corn is greater than most persons suppose. We have seen one statement 
 made from actual calculation, that gave sixteen hundred miles as the aggre- 
 gate travel in growing a hundred acres of corn. Is* it not worth the time 
 and calculation of some farmers who grow very small acreable products to 
 inquire how much they have traveled to produce each bushel, and what 
 they shall do to lessen that distance? If it requires sixteen miles of travel 
 with a horse to each acre of corn, farmers must get a better yield than some 
 of them do to make the business pay a fair compensation for so much 
 travel. 
 
 788. TransplaatiDg Corn. — Transplanting corn can be done with as much 
 ease and certainty of success as cabbage. For early roasting ears, corn could 
 be started in frames so as to give it three or four weeks the start of corn 
 planted the usual wa}'. Transplanting would be valuable also in the field 
 where hills are missing. The safest way to do it is to make up a mixture 
 of cow-dung, loam, and water, of the consistence of thick porridge, and dip 
 the roots in it as they are taken from the ground with a transplanting 
 trowel, and carried in this to tlieir place, where, being carefully set, and 
 shaded, if it is sunny, with a bush or some artificial shade stuck in the 
 ground, they will be almost certain to live and grow. Like all transplant- 
 ing, it is best done when the soil is wet. 
 
 789. Pop-Corn is Profitable as a Crop. — It is said of a Boston merchant 
 now engaged extensively, that he commenced business as a peddler of pop- 
 corn by the cent's worth. Is it any wonder that he grew rich — that is, rich 
 enough to enlarge his sphere of action — particularly if he raised his own 
 corn, or got it of those who did, at about first cost? Let us look at the 
 profit. A writer in the Heio England Far^nei- " calculates the value of an 
 acre of pop-corn, at the prices which city residents pay for the article when 
 fitted for their palates — that is, when parclied and on sale by the grocers 
 and candy men — at four cents a quart, and calls a quart the product of a mid- 
 dle-sized ear. The corn may be planted three feet by eighteen inches. Al- 
 low eight ears to the hill, which is not equal to the average, and it would 
 be about eight thousand hills, or sixty-four thousand ears to the acre. This 
 is 8-)560 per acre, paid by those who eat the corn. Take away half the 
 amount, if you please, for every contingency which may be thought of, and 
 
728 CEREALIA. [Chap. VIII. 
 
 we still have $1,280, which the consumers pay for the product of an acre of 
 ground ; and wlio among them pretends to call pop-corn dear eating ?" 
 But this, the farmer will say, is the price of the article manufactured. It is 
 not what I should get. True, but still the price is liberal. The crop of 1860 
 we sold at 87^ cents per bushel of ears, wholesale in New York, and we are 
 told it has been worth that price, or more, in previous years. W^c are sure 
 that one hundred bushels per acre cau be easily grown, and the stalks being 
 small, make excellent fodder. It is well worth growing to feed poultry ; 
 and as a crop, we are fully satisfied that pop-corn is profitable. "VYe have 
 treated largely of its value as food (see 418), and now add the chemical 
 cause of the effect produced by heat. The popping of corn is in reality 
 chemistry made eas}', by bringing it to the very fireside. It was formerly 
 attributed to the conversion of the water contained in the starch into steam, 
 but modern science has proved this phenomenon to arise from the rupture 
 of the cells in tlie glutinous part of the grain by a conversion of the glob- 
 ules of oil into gas. If an attempt be made to pop the Tuscarora corn, 
 which contains no oil, it will never succeed. Popping effects a change in 
 corn of considerable importance, for it is much more digestible by man 
 after this decomposition and extrication of the oil, though not so fattening to 
 animals 
 
 790. Various Experiments in Growing Corn.— -Table showing the results 
 of experiments on Indian corn, made in 1857, near Rochester, N. Y., by 
 Joseph Harris, editor of the Genesee Farmer • 
 
 A. B. C. D. E. F. O. H. 
 
 1 —No manure CO 7 67 — — — 
 
 2 — 100 lbs. pl.aster (gypsum, or su/p/»a(« q/" /imc) 70 8 78 10 1 11 
 
 3 —400 lbs. unleached wood ashes aud 100 lbs. plaster (mixed)... 68 10 78 8 3 11 
 
 4— 150 lbs. sulphate of ammonia 90 15 105 30 8 38 
 
 5 _300 lbs. superphosphate of lime 70 8 78 10 1 11 
 
 — 160 lbs. sulphate of ammonia and 300 lbs. superphosphate of 
 
 lime (mi.'cedi 85 5 90 25 — 23 
 
 7 — 400 lbs. unleached wood ashes (uncertain) 60 12 72 — 5 5 
 
 8—150 lbs. sulphate of ammonia and 400 lbs. unleached wood 
 
 ashes (sown separately) 87 10 97 27 3 30 
 
 9 — 300 lbs. superphosphate of lime, 150 lbs. sulphate of ammonia, 
 
 and 400 lbs unleached wood ashes 100 8 108 40 1 41 
 
 10— 400 lbs. unleached wood ashes 00 8 G8 — 1 1 
 
 II — lOOIbs. plaster, 400 lbs. unleached wood ashes, 300 lbs. super- 
 phosphate of lime, and 200 lbs. Peruvian guano 95 10 105 35 3 38 
 
 12 — 75 lbs. sulphate of ammonia 78 10 88 18 3 21 
 
 13— 200 lbs. Peruvian guano 88 13 101 28 6 34 
 
 14 — 400 lbs. unleached wood ashes, 100 lbs. plaster, and 500 lbs. 
 
 Peruvian guano Ill 14 125 51 7 58 
 
 A. No. of the plots. 
 
 B. Descriptions of manures and quantities applied per acre. 
 
 C. Bushels of ears of sound corn per acre. 
 
 D. Bushels of ears of soft corn per acre. 
 
 E. Total number of bushels of ears of com per acre. 
 
 F. Increase per acre of ears of sound corn. 
 
 G. Increase per acre of ears of soft corn. 
 H. Total increase per acre of ears of corn. 
 
 The superphosphate of lime was made on purpose for these experiments, 
 and was a pure mineral manure of superior quality, made from calcined 
 bones ; it cost about 2i cents per pound. The sulphate of ammonia was a 
 rrood commercial article, obtained from London at a cost of about 7 cents 
 
Sbo. 45.] VARIOUS EXPERIMENTS IK GROWING CORN. 729 
 
 per pound. The ashes were made from beech and hard maple {Acer Sacchar- 
 nhcm) wood, and were sifted through a fine sieve before being weighed. 
 The guano was the best Peruvian, costing about 3 cents per pound. It was 
 crushed and sifted before using. In sowing the ashes on Plot 7, an error 
 occurred in their application, and for the purpose of cheeking the result, it 
 was deemed advisable to repeat the experiment on Plot 10. 
 The following table gives the results of the otlier experiments : 
 
 A. B. C. D. E. F. G. n. 
 
 1 — No manure 75 12 87 — — 
 
 2 — 20 loads barn-yard manure 82i 10 92i 7J — 
 
 3-150 lbs. sulphate of ammonia 85" 30 115" 10 18 — 
 
 4— 300 lbs. superphosphate of lime 88 10 98 13 — — 
 
 5— 100 lbs. Peruvian guano 90 30 120 15 18 — 
 
 6 — 400 lbs. of " cancerine " or fish manure 85 20 105 10 8 18 
 
 A. No. of the plots. 
 
 B. Descriptions of manures and quantities applied per acre. 
 
 C. Bushels of ears of sound corn per acre. 
 
 D. Bushels of ears of soft corn per acre. 
 
 E. Total number of bushels of ears of corn per acre. 
 
 F. Increase ears of sound corn per acre over unnianured plot. 
 
 G. Increa.se ears of soft corn per acre over unmanured plot. 
 H. ToNtl increase of ears of corn per acre. 
 
 As before stated, the land was of a stronger nature than tliat on which 
 the first set of experiments was made, and it was evidently in better condi- 
 tion, as the plot having no manure produced 20 bushels of ears of corn per 
 acre more than the plot without manure in tlie other field. 
 
 Plot 4, with 300 pounds of superphosphate of lime per acre, gives a total 
 increase of 11 bushels of ears of corn per acre over the unmanured plot, 
 agreeing exactly with the increase obtained from the same quantity of the 
 same manure on Plot 5, in the first set of experiments. 
 
 Plot 3, dressed with 150 pounds of sulphate of ammonia per acre, gives 
 a total increase of 28 busliels of ears of corn per acre over the unmanured 
 plot, and an increase of 22^ bushels of ears per acre over Plot 2, which re- 
 ceived 20 loads of good, well-rotted barn-yard dung per acre. 
 
 Plot 5, with 400 pounds of Peruvian guano per acre, gives the best crop 
 of this series, viz., an increase of 33 bushels of ears of corn per acre over 
 the unmanured plot, and 2Ti over the plot manured with 20 loads of barn- 
 yard dung. The 400 pounds of " cancerine," an artificial manure made in 
 New Jersey from fish, gives a total increase of 18 bushels of ears per acre 
 over the unmanured plot, and 12^ bushels more than that manured with 
 barn-yard dung, though 5 bushels of ears of sound corn and 10 bushels of 
 "nubbins" per acre less than the same quantity of Peruvian guano. 
 
 The result of the following detailed experiments was published in the 
 Rural American. Ten equal quantities of "White Flint corn were treated as 
 follows : 
 
 No. 1, I soaked in tar water eight hours, until it was perfectly black, then 
 rolled in lime. 
 
 No. 2 was merely immersed in tar water, ana rolled in lime. 
 
 No. 3, soaked in clear water over-night, then immersed in tar water, and 
 rolled in lime. 
 
730 CEREALIA. [Chap. VIII. 
 
 No. 4, immersed in tar water, and rolled in ashes. 
 
 No. 5, soaked in clear water over-night, then dipped in tar (not tar 
 water), and rolled in ashes. 
 
 No. 6, soaked over-night in clear water, immersed in tar water, and then 
 rolled in ashes. 
 
 No. 7, soaked in tar water eight hours, until perfectly black, and then 
 rolled in ashes. 
 
 No. 8, immersed dry in tar, and then rolled in lime. 
 
 No. 9, soaked in clear water over-night, and dipped in tar, and then 
 rolled in lime. 
 
 No. 10, immersed dry in tar, and then rolled in ashes. 
 
 On the 23d of May I planted the several prepared parcels in similar soil, 
 at an equal depth as nearly as possible, and each parcel received like treat- 
 ment and culture throughout the season. Now mark the result : 
 
 JUNE 8. 
 
 No. 1. Only about one quarter of the grain 
 germinated — looks weakly. 
 
 No. 2. All the grains up — looking middling 
 well. 
 
 No. 3. Every gr,iin up, and looking nicely. 
 
 No. 4. All up ; look tolerably well— not so 
 well as No. 3. 
 
 No. 5. Tardy — just up — very weakly. 
 
 No. 6. Every grain up — looLs firat-rate. 
 
 No. 7. Only one half the grains germinated — 
 weakly. " 
 
 No. 8. Every grain up— looking well, and 
 growing finely. 
 
 No. 9. About one third the grains up — rath- 
 er weakly. 
 
 'No. 10. Only about one tenth of the grains 
 up — weakly. 
 
 JULY 26. 
 About one half the grain up. 
 
 Somewhat backwai4j but promises better 
 than No. 1. 
 
 Growing finely — promises well. 
 Backward, weakly, and spindling. 
 
 "Very backward. 
 
 Thrifty — promises well. 
 
 Middling — rather better than Nos. 4 and 5. 
 
 Looking exceedingly well — the best of the 
 ten parcels. 
 Tolerably well — a trifle better than No. 7. 
 
 Remained long in ground before it germin- 
 ated — very backward — about the same as Nos. 
 4 and 5. 
 
 Soon after the corn came up, No. 6 appeared to be the most thrifty and 
 promising ; No. 3 looked nearly as well, but No. S soon shot ahead of No. 
 6, and remained so througli the season. 
 
 Nos. 4 and 5 were the most backward of any. 
 
 On July 26th, Nos. 3, 6, and 8 I judged to be from two to three weeks in 
 advance of Nos. 4, 5, and 10 ; the former Nos. being silked and tasseled, 
 while none of the others were. No. 8 was the most forward — ears best set, 
 and largest. 
 
 No. 8 finally produced the best corn, and the most of it. So of all the 
 above preparations I give that mode of preparing the preference. 
 
 There is an evil I think, however, attending the application of tar in any 
 shape to corn previous to planting ; it retards the germ, while at the same 
 time I know of no benefit I have received from its use. 
 
 791. The Yield of Corn per AcrCt — This question causes mucli controversy, 
 as the modes of measuring have been so diverse. Weighing the ears grown 
 on an acre is certainly better than measuring oif one square rod, and shell- 
 ing the corn, and multiplying by one hundred and sixty. "A good deal de- 
 pends upon M'hat we call a bushel, as corn will shrink from December to 
 
Seo. 45 ] YIELD OF CORK PER ACRE. 731 
 
 May fifteen per cent. A good crop is sixty bushels per acre. Premiums 
 are often awarded to a very rough manner of measurement. Never count 
 your crops until sold ; upon whatever they measure then, estimate the 
 yield per acre." Some say that corn shrinks twenty-five per cent, in weight 
 between the time it is ripe enough to gather, and the next summer. If you 
 wish to estimate liow much an acre of corn will yield while standing, count 
 the hills, or estimate the number upon an acre, and shell the ears from a 
 given number, and measure the grain, and calculate from that base. If you 
 have four thousand hills per acre, and a pint of corn per hill, your acre will 
 yield sixty-two and a half bushels, as it measures at that time, and so in 
 proportion. To make one hundred and twenty-five bushels per acre, each 
 hill must give a quart, and there must be none of the number missing. You 
 may find now and then a square rod that will yield a quart per hill, but who 
 gets such a yield from every rod of an acre ? and if one could, let him be 
 sure that it does not cost too much. If we can grow sixty or seventy bush- 
 els per acre, we are doing well. 
 
 It is certified that James Armstrong, of Ivnoxville, Tenn., raised, in 1859, 
 upon forty acres of land, four thousand bushels of shelled corn, measured 
 in the half bushel, which weighed sixty pounds per bushel. The best acre 
 of the forty gave one hundred and sixty-six bushels. The same forty acres 
 produced, with the corn, fifty two-horse wagon-loads of pumpkins, forty 
 bushels of Southern peas, and ten bushels of beans, yet we do not believe 
 that the average yield of all corn crops in the Southern States is ten bush- 
 els. The yield of nine lots of ten acres each, entered for premium at the 
 State Fair of Kentucky a few years since, is given by the committee as fol- 
 lows : 
 
 Bbls. Bnsh. Qt. Bbls. Bnsh. Qt. 
 
 J. Matson, of Bourbon 37 4 1 per acre 
 
 Peter Pean, of Clarke 37 4 
 
 S. H. Chew, of Fayette 27 J 
 
 J. Hutchcraft, Bourbon 23" 
 
 A. Vanmeter, Fayette 21 Si 
 
 A. Hedges, Bourbon 21 2 1 per acre. 
 
 E. W. Hocaday , Clarke 20 
 
 Dr. Dudley, Fayette 20 
 
 H Varnon, Bourbon 19 3 " 
 
 A barrel of corn in Kentucky is five bushels of shelled com. 
 
 About the year 1840 (or 1841), Mr. Bryant, and Mr. Young, of Jessa- 
 mine County, Ky., each grew a crop of five acres, Mdiich averaged one 
 hundred and ninety bushels per acre, according to a well-certified report. 
 
 Over one hundred bushels of corn per acre, in Maine, are reported by 
 John II. Willard, of Wilton, Franklin County. He says : 
 
 " I have repeatedly, within a few years past, raised from eighty to one 
 hundred and ten bushels of dry shelled corn to the acre. All my farming 
 is on a small scale ; but the same cultivation would produce the same re- 
 sults on a large as on a small scale. The best crop I ever raised was in 1853, 
 which was the best corn season we have had in this vicinity for many years. 
 The produce that year was fifty-five bushels and eight quarts from half an 
 acre. I proceed to give an account of the various steps I pursued in raising 
 that crop, and shall persevere in following nearly the same course till I learn 
 a better. The soil is a gravelly loam, and the land stony. The stones near 
 
732 CEREALIA. [Chap. VIII. 
 
 the surface had been removed, and put into a wall. As to the component 
 parts of the soil, I am as ignorant as most farmers are respecting theirs, 
 having no means of ascertaining. I only know it contains a fair portion 
 of lime, having previously raised a good crop of wheat on the same land. 
 The wheat was sown on the sward newly broken up. Soon after the wheat 
 was cut, I plowed in the stubble, and plowed very shallow, say from two to 
 four inches deep, so as to just cover the stubble, and not disturb the sward. 
 In the spring, put on six cords of manure, twelve to the acre, one half 
 spread, and the other half in the hill. I spread the manure, and harrowed 
 previous to plowing ; then plowed and cross-plowed about ten inches deep, 
 being a little deeper than the land was previously broken ; plowed fine, that 
 is, in narrow furrows, not more than two thirds the width the plow would 
 turn. After harrowing, I furrowed the rows straigiit, three feet eight 
 inches apart, and put the hills two feet four inches apart ; covered the ma- 
 nure in the hills before dropping the corn, which I put in liberally, nearly 
 double what I wanted to grow ; covered the corn thoroughly from two to 
 three inches deep ; hoed the corn thoroughly twice, having run a cultivator 
 twice between the rows before each hoeing, and having thinned the corn to 
 five stalks in each hill previous to the second hoeing, by pulling up the 
 poorest stalks. I cut the corn up at the roots, when the stalks were wilted 
 above the cars, and green below, and cured in shook before husking. The 
 seed was thoroughly dried by the ears being hung near a fire. The manure 
 used was stable, part cow and part horse, with a good deal of straw litter, 
 kept under cover till spring, and one or two hogs kept on it. The largest 
 part was from horses well grained. The coarsest part, or last made, was 
 first hauled to the field and put in a heap to ferment for the hills, the other 
 spread. When the heap got into a higli state of fermentation, 1 pitched it 
 over to prevent its burning. I know it is said that manure must be thor- 
 oughly decomposed before it is food for plants ; hence many infer it must 
 bo in that state when put on the ground ; but I have had the best luck 
 when I put it into the hill in such a state of fermentation as to be uncom- 
 fortably hot to the feet through thick boots, and planted and covered imme- 
 diately before it cools. I had no potatoes, jiumpkins, or beans, and but few 
 weeds among my corn, for weeds are the most unprofitable crop I ever 
 raised." 
 
 We hope a good many small farmers who read this account will pursue 
 the same course, and raise an equally good crop. The way to do it is simple 
 and sensible. 
 
 Dr. John T. Tuttle, of Rye, twenty-five miles northeast of New York 
 city, near Long Island Sound, gives the following interesting statement of 
 what kind of a corn crop can be produced upon such a forbidding soil as 
 the most of the land in this region of country : 
 
 " According to request, I send you an account of my crop of corn grown 
 on two fields, one containing eight and a half, and the other six acres, mak- 
 ing fourteen and a half acres. I paid $150 per acre for the land. It being 
 
Sbo. 45.] YIELD OF CORN PER ACRE. T33 
 
 too -wet, naturally, for good corn land, I determined to drain it, and accord- 
 ingly laid six hundred and forty rods of three-inch sole drain tile, which 
 was sufficient to thoroughly drain the fourteen and a half acres. Tlie tile 
 was laid about three feet deep ; this is necessary, in order to get it out of 
 the way of the frost. If laid too near the surface, and permitted to freeze, 
 it will crack, fall in, and destroy it. This land being originally very poor 
 and neglected, I was obliged to bestow much labor on it, in order to re- 
 claim and make it productive. Completing this result, I valued my land 
 at $400 per acre. I then plowed it, turning the soil up eleven inches deep, 
 following with a subsoil plow, so that the entire piece was mellowed to the 
 depth of eighteen inches. I then carted on three hundred loads of good 
 composted manure, and harrowed it in. I marked out eight and a half 
 acres for planting, three feet each way, and planted it with Improved King 
 Philip corn, four grains in each hill ; the balance of the plot of six acres I 
 marked out three feet in drills, and planted it nine inches apart in the drill, 
 one grain in a place. The fourteen and a half acres yielded two tiiousand 
 two hundred and seventy-six and a half baskets of ears ; each basket yielded 
 eighteen quarts of shelled corn, making an average of eighty -eight bushels, 
 one peck, two quarts per acre for the entire plot. The six acres planted in 
 drills was much the best corn, and the yield much the largest ; this I esti- 
 mated at one hundred bushels of shelled corn per acre. I shonld recom- 
 mend this mode of planting in drills; the yield is much larger than the 
 hill system. I think the Improved King Philip the most productive corn in 
 cultivation, and as it ripens in less than one hundred days, is sure to escape 
 the early fall frosts ; it is a most valuable variety of corn. The following is 
 the average result of the fourteen and a half acres : 
 
 Dr. 
 Interest on 1 acre, value per acre, I54OO. .S28 00 
 
 Twenty loads of manure, per load $1 . . . . 20 00 
 
 Plowing and subsolling, per acre 6 00 
 
 Harrowing, per acre 1 00 
 
 Marking out for planting 75 
 
 One peck corn seed 25 
 
 Planting, per acre 1 28 
 
 Running cultivator through four times . . 4 00 
 
 Hoeing once 1 25 
 
 Cutting up com from the ground 1 50 
 
 Gathering 160 baskets, at 3 c. per basket 4 80 
 
 Total $68 83 
 
 The following is the corn crop of an Ohio farm : About five miles below 
 Chillicothe, Ohio, there is a tract of high river bottom-land, known as the 
 " Claypool Farm," now owned by the widow of James Davis. The corn crop 
 of 1858 was forty-seven thousand bushels, sold at seventy-five cents a bushel 
 to a distillery. We submit the problem to political economists, of how many 
 persons the products of this one farm would have fed one year, and how 
 many its products will make miserable after passing through that distillery. 
 
 792. Two Hundred Bushels of Corn per Acre. — It has been published — 
 and, so far as we can see, duly certified — that Dr. J. "W. Parker, of Colum- 
 
 Eighty-eight bushels, one peck, two qts., 
 
 at "5 cts. per bushel S66 23 
 
 Three tuns stalks, at $5 per tun 15 00 
 
 Four and one half cords pumpkins, at 
 
 $2 per cord 9 00 
 
 Seventy-five bushels turnips, at 20 cents 
 per bushel 15 00 
 
 Total.. $105 23 
 
 Profit $36 40 
 
734 CEREALIA. [Chap. VIII. 
 
 bia, S. C, grew, in 1857, upon his fai'm near that town, two hiindred bush- 
 els and twelve quarts upon one measured acre of ground, and one hundred 
 and sixteen bushels and six quarts upon another acre. 
 
 In the report to the State Agricultural Society, Dr. Parker states that the 
 seed selected for planting was from North Carolina, and designated " Bale 
 Mountain Corn." After soaking it during the night in a strong solution of 
 niter, it was planted from eiglit to twelve inches distance in the row, cov- 
 ered with hoes, and the ground rolled, leaving it perfectly level. The land 
 was the border of a small creek, underdrained, and prepared by plowing in 
 November, and manured in December with twenty-five two-horse loads of 
 cow-house manure, plowed in, and followed by a subsoil plow drawn by two 
 mules. About the first of March another coat of good stable and cow ma- 
 nure was spread, and plowed in. Early in April, three cart-loads of air- 
 slaked lime, and two sacks of salt were spread over each acre, and lightly 
 plowed under. On the 14th of May the ground was thoroughly plowed 
 with Glaze's large iron plow, harrowed level, and laid off thirty inches apart 
 with a shovel plow. Guano and plaster were sprinkled in the furrows, near 
 two hundred pounds of the former, and three hundred pounds of the latter 
 to each acre. 
 
 On the 14th of May the corn was plowed with a long, very narrow plow, 
 and dressed over with hoes. On the 5th and 17th of June the same work 
 was repeated, each time leaving the ground level. About the first of July 
 it was necessary to draw a ridge about the roots of the corn to prevent its 
 falling. During a protracted drouth, acre No. 1 was twice irrigated, and 
 acre No. 2 had the water turned on it once. 
 
 The yield of acre No. 1, as before stated, exceeded two hundred busliels. 
 No. 2 was partly replanted, which the committee say prevented the yield 
 being as large as the other. 
 
 True, this crop cost labor and manure, but does it not j^ay better than the 
 tens of thousands of acres that do not yidd ten bushels per acre, for such 
 are as common as blackberries all over the Southern States. The land iised 
 being " sand-hill branch land," required the high manuring, as it; is not 
 naturall}^ fertile enough to produce such crops. The secret, however, is in 
 the underdrainiiig, the frequent plowing, and subsoiling and irrigation. 
 
 793. liow to Bind Corn Shocks. — Iliram Harris, of Ohio, has made the 
 world a gift of a valuable invention. It is a Avay easily to bind shocks of 
 cornstalks, which have been cut and set up ready for binding, and which 
 have to be hugged together tight enough to put the band on. This new 
 plan saves tliat dirty, hard job. Any one can make the implement. It is 
 a wooden spindle, round and smooth, sharp at one end, and long enough 1o 
 thrust through the loose shock at the point where it is to be bound. On 
 the other end is a crank and turning-pin, like the crank of a grindstone. A 
 few inches from the crank is a cross-piece on the spindle, of a few inches in 
 length, to one end of which a stout cord is attached, long enough to go 
 round the shock and hitch a loop on tiie other end of the cross-piece. Now, 
 
Sko. 46.] HARVESTING CORN. 73.5 
 
 by turning the crauk, the cord is drawn tight, compressing the loose stalks 
 as firmly as may be desired, when the band is put on firrtfly and the crank 
 unwound and applied to another shock. It enables the operator to do 
 double the work, doubly better than he can without it ; and as there is no 
 strain upon the band in the attempt to draw it tight, as is usual in trying to 
 compress the shock, there is no breaking of bands in putting them on, and 
 they may be made of stalks, straw, bark, or twine. Any farmer can make 
 one of these little implements, which saves so much labor. Indeed, a smooth 
 young hickory, sharpened at one end, with a crank at the other, will be the 
 best material. The rope should be small and very strong. 
 79i. Requisites in Harvesting CorUi — 1. Have a good corn-cutter. 
 
 2. Lay the corn (2 or 4 hills in a place) so that the tops of the second 
 two rows will lie toward the tops of the first two, the tops of the fourtli 
 two toward the tops of the third two, and so on. By throwing the left 
 arm over, never under the stalks, bending them down slightly, one blow of 
 the cutter will generally bring down the whole : and a large field may be 
 leveled at short notice, far quicker than the top stalks can be cut. 
 
 3. Make yourself a good corn-horse. Take a small pole, about three 
 inches through at the large end, 10 feet or so in length, light and dry ; if a 
 little curving, so much the better. With an incli-and-a-half auger, bore two 
 holes near the large end, so as to insert two legs, standing outward and for- 
 ward, the curving side of the pole being upward. Next, bore a horizontal 
 hole about 2i feet from the largo end, into whicli a broken rake-handle or 
 smooth slick may be run. Here we have a complete corn-horse all ready 
 for use ; the horizontal stick forming with the other four corners, around 
 which we may set up the corn, 16 to 32 hills in a stook. Then tie firmly 
 with wilted suckers or small stalks, or, what is better, rye straw bands, and 
 bend down the tops and tie a small band over them, to shed rain, and then 
 draw out the horizontal stick ; take hold of the horse just behind the legs, 
 draw it along a few feet and run tbe stick in again, ready for another 
 stook. 
 
 . The husking may be greatly facilitated by first breaking off the ears. 
 This is done by pressing the thumb and fingers firmly against the butt of 
 the ears and bending over with the other hand. One may acquire the habit 
 of breaking them off so that many ears will have few, if any, husks left. 
 The stooks need not be untied. By a little ingenuity at contrivance, one 
 may fix a low bench three feet M'ide, or so, throw a stook upon it, sit down 
 with feet under the bench, begin at one side to break oti", and make clean 
 work as he goes; or he may kneel down to the stooks as they stand, or lie 
 ou the floor. If possible, let the corn be fairly glazed before cutting ; but if 
 a cold September morning, which threatens a hard frost at night, finds a 
 field standing unglazed, I should prefer cutting and stocking, with the 
 wilted side inward, to letting the frost take it. In such a case, it will harden 
 oflT better in the stook than in the field. 
 
 The corn-horse described above has been used by many, and declared by 
 
736 CEREALIA. [Chap. VIII. 
 
 all who have used it to really save one third the time usually employed in 
 cutting up and stooking corn. Never top corn, and why ? The sap which 
 is elaborated in the leaf and upper part of the stalk is fitted to perfect the 
 grain. The best farmers in the country settled that question years since. In 
 a large field of corn one topped several rows, left the same number to ripen 
 unmutilated, and ciit up by the ground an equal portion at two diiferent 
 periods of growth, viz., one when the kernel was fairly seared, and another 
 when the corn was thoroughly seared. The result proved, conclusively, that 
 the corn cut at the ground when fairly seared was the best and heaviest, 
 and the fodder was also best of all. 
 
 If you have not yet become fully convinced of the folly of cutting stalks, 
 try the following experiment : Cut the stalks on fifty hills of corn at the 
 usual time, cut up fifty hills at the ground when the corn is glazed, and let 
 it mature in the shock, and let the stalks remain on fifty hills until fully 
 ripe, and weigh the corn on each when dry. And try this : Plant the same 
 quantity of ground with corn of the same kind, with compost manure, at 
 the rate of twenty-five loads to the acre, and with guano, at the rate of 260 
 pounds to the acre, and weigh the corn in the autumn, keeping an account 
 of the cost of each kind of manure on the land, and which ground is easiest 
 kept clean of weeds. 
 
 When there is no danger of frost, adopt the rule to cut no stalk till the 
 corn is rij^e, and do not try to swindle nature by fishing for a crop of beans, 
 or turnips, or pixmpkins among tiie corn. One good crop each year is 
 enougli to exact of land in this latitude, and these extras often hinder the 
 harvest as much in tiie loss of corn as they are worth. 
 
 T95. Corn Harvesliug MacbiueSi — The following is the description of a pa- 
 lent corn-cutter : 
 
 A driver sits upon a small cart, drawn by one horse walking between 
 two rows of corn planted four feet apart, either in hills or drills. Attached 
 to the forward end of the body are two circular saws, arranged to work just 
 as near the ground as may be desired. 
 
 These saws are diiven by gearing attached to the cart-wheels, and one is 
 designed to cut a row one side and the other on the other side ; the horse 
 walking forward saws ofi" the stalks right and left, and, like all circulai 
 saws, the faster they run the easier they will do their work. The stalks as 
 they are cut ofi" are held by an arm so as to fall on a platform upon each 
 side, which tips them off out of the way of the machine. It will be easy to 
 arrange a machine to cut rows of any regular width apart, and the plan 
 looks, on jiaper, as though it would work well on land, and be a real labor- 
 saving machine. 
 
 Hon. Henry L. Ellsworth, when he was growing corn upon a large scale 
 in Illinois, contrived a very cheap corn-cutter. Two pieces of wood, like 
 the sides of a triangular harrow, were hinged at the point, and held apart 
 at the wide end by a piece of hickory, represented by half of a stout hoop. 
 The side pieces were armed with short scythe blades. The frame was sup- 
 
Seo. 45.] CORN HARVESTING ifACniNES. 737 
 
 ported upon blocks that raised it above the surface, and ran on the ground 
 like sled runners. This frame, drawn by one horse between two rows of 
 corn, had the blades pressed against the stalks l)y the spring, and cut them 
 off as fast as the horse could walk ; men following picked them up rap- 
 idly, setting them in shocks. The objection urged against this machine was, 
 that unless the stalks were gathered row by row, as they were cut, they 
 were apt to become tangled together, and the men said made, instead of 
 saved, labor. 
 
 At the New York State Fair of 1861 we saw a corn-cutting machine that 
 looked as though it would prove effectual. A few stout cutters are fixed 
 upon the bar of a mowing machine, and a box to hold the corn as it falls, 
 until enough accumulates for a bundle, when the driver by a slight move- 
 ment opens the box and drops the com. The horses walk by the side of the 
 row to be cut, just as they do by the side of the grass. The additional ex- 
 pense to a mowing machine was stated at twenty-five dollars. 
 
 A corn-shock cart is in use in "West New Jersey, which we thought a great 
 labor-saving machine, by which a boy and one horse would move more 
 shocks of corn in a day, where the distance was not over half a mile, than 
 two men and a team could do in the ordinary way. A horse-cart, with a 
 frame to tilt, having rather long shafts, and a windlass on the shafts be- 
 hind the horse, with a stout rope fast at one end of the windlass, cousti- 
 tutes the machine. The cart is backed up to a shock, and the frame tilted 
 up against it, and the rope thrown over, and the loose end hooked on tlie 
 windlass, which is turned by a crank or arms, and winds up both ends of 
 the rope, drawing the shock tight upon the frame, and that down to its 
 place, when the windlass is fastened by a catch, and the horse trots off to 
 the barn, or oixt upon the grass at the side of the cornfield, if the object is 
 merely to clear the corn-ground, and then the catch being loosened, the 
 frame and shock tilt back by their own weight, and the corn is set upriglit 
 upon the butts, just as it stood originally. A pair of old city dray-wheels 
 answer a good purpose to make a corn-shock carrier, and such a machine 
 will be found extremely useful to those who wish to sow rj'e or wheat upon 
 the corn-ground. 
 
 796. Husking in the Field.— A letter from Tioga County, Pa., recom- 
 mends pulling down four shocks of corn toward a center, and tiien 
 throwing the corn to that point from all, thus making one pile instead of 
 four; and also laying the stalks, as tlie ears are stripped off, in, bun- 
 dles of equal size for binding. In commencing to husk a shock, stand u]) 
 and drop the first stalks at your feet ; then kneel upon them until you got 
 enough to form a seat, when tired of kneeling. Tliis change of position is 
 said to be a great preventive of fatigue. It is recommended to pull down 
 the shocks in the morning, when the dew is on, and bind them at evening, 
 when a little moist. The best time to gatlier the ears of corn and store 
 them in the crib is when they are hot and dry in the sun. The ears never 
 should be thrown upon wet nor frozen ground, except the weather is cold 
 
738 CEREALIA. [Ch^p. VIIL 
 
 enough to keep it frozen. But, after all these directions for husking in the 
 field, it is a question whether it is not altogether the best economy, where 
 stalks do not grow larger than they generally do in the Northeastern States, 
 and where they are valuable for fodder, to haul tlie shocks of corn up to 
 the barn, so that all the fodder can be saved in good order, as fast as the 
 ears are husked. Filling a large shed, or the barn floor, with the sliocks 
 of corn, to be husked on rainy days or evenings, is a good old fashion that 
 need not be lost sight of in days of modern improvement, and the machine 
 described in 795 will be found a very useful thing to those who wisli to 
 pursue this good old fasliion. 
 
 A Pennsylvania farmer, John F. Overshire, of Athens, Bradford County, 
 gives his mode of cutting up and husking corn in the field, which appears 
 to be a very good one. He says : " I cut and set my corn in stooks of 
 thirty-five hills to each, set in squares. I do not leave a hill uncut to 
 support the stook, but bind a bundle to set in the center ; and I never 
 throw tiie corn down, but set it up as fast as cut, which takes less time, 
 and there is no liability to injury fi'om rain while lying upon the groiind. 
 In husking, never throw sound corn on the ground, but in baskets, sorting 
 it at the same time. Empty the baskets into a cart or wagon, and thence 
 to the crib. I place a husking bench between four stooks, and pull them to 
 it, and it saves many hours of back-aclie and cramps of limbs. A good 
 busker can put sixty bushels of ears in the wagon in a day. The bench is 
 two by five feet, made of inch boards nailed upon cross-pieces that hold 
 legs put in a two-inch auger hole, so as to stand two feet high. The legs 
 at one end being set back from where the busker stands against the end of 
 the boards, he can crowd his stalks in a pile down between his own and 
 the legs of the bench." 
 
 797. Sowing Corn Broadcast or Drilling for Fodder • — There are not many 
 farmers who would not find a small plot of sowed corn the most profitable 
 crop of the whole annually planted. Laud produces of sowed corn a greater 
 burthen of excellent fodder to use green, and, if cured, makes more of win- 
 ter food for stock than any other grain. 
 
 We have sown corn broadcast upon a mellow piece of ground, plowed in 
 after the first of July, and got a very heavy crop. It should not be plowed 
 in unless the land has been previously plowed, because plowing the land 
 as deeply as the crop requires would bury the seed too deep. The best way 
 to plant this fodder crop is with a wheat drill. The next is to sow broad- 
 cast and cover with a gang plov/, or share cultivator, that will turn the 
 seed nearly all into straight rows. Some persons sow it wide enough be- 
 tween rows to be cultivated. 
 
 Warren Hutchins, Bethel, Yt., says . 
 
 " I plow evenly, sowing the seed in every third furrow, and roll the 
 ground and harrow liglitly in the direction of the furrows. I run a culti- 
 vator once or twice between the rows. If the crop is to be plowed in for 
 manure, I commence about September 1, with a plank fastened on the 
 
Seo. 45.] DOURA CORN-SOILING CROPS. 739 
 
 beam to break clown the stalks, so that they will turn under well, making 
 my furrow across the rows. I find this a cheap way to enrich land that lies 
 far from the stables. 
 
 "This day, June 1, I have sowed an acre for fodder, with the assistance 
 of a boy half a day. Last year, a half acre left to ripen had 25 bushels of 
 ears, besides a great yield of fodder." 
 
 It is preferable to cut the corn for fodder before the ears get of any con- 
 siderable size, and as a general tiling the crop is most valuable when grown 
 60 thick that ears are not likely to form ; and when sown broadcast upon 
 rich soil, and plowed in lightly, the last of Juno, it will grow of sufficient 
 size and maturity for good winter fodder, before the usual time of frost, 
 which in this latitude is usually about the first of October. 
 
 798. Doura Corn for Fodder. — This is one of the varieties of sorghum, 
 much esteemed by some farmers for a fodder crop. Its great advantage 
 over corn is that it will sometimes grow when and where Indian corn will 
 not. One farmer says : 
 
 " Having found from experience that where stands of corn are broken it 
 does not pay either to supply breaks with seed or to transplant, I have, for 
 years past, done neither, but always plant Doura corn or sugar millet in 
 all missing hills in my cornfields, and I have found it to do and pay well. 
 When planted early, the Doura corn will make two or three heads to the 
 stalk, and the first head will shell as much as an ordinary ear of flint corn ; 
 when planted late, say in April or May, it will still make as mucli as the 
 corn, and it answers as an excellent substitute for corn to feed to poultry, 
 besides making very good bread." 
 
 The above word is spoken of a region where February and March are 
 the corn-planting months. In a wet season, the Doura corn here would 
 grow a good fodder crop 'after the first of August. It is only by experi- 
 ment that it can be determined which is the best for the purpose, the Doura 
 corn or sorghum saceharatum, known as Ciiinese sugar-cane. 
 
 799. Value of Sowed Corn for Soiling Milcli Cows. — For a soiling crop we 
 do not know of any plant cultivated that is of greater value than Indian corn. 
 In a large milk dairy, where sowed corn is much used at the time of our 
 usual summer drouths, when pastures fail, the following results were noted : 
 
 From the first of April to the first of July there is a gradual increase in 
 the quantity of milk produced ; during the month of March it is stationary ; 
 it increases in April, as warmer and pleasanter weather comes on ; and 
 thenceforward the quantity keeps exact pace with the growth of grass and 
 the advance of the season, until the maximum is attained in the first week 
 of July. This point once turned, the yield decreases, by slow degrees at 
 first, but with greater rapidity as the autumn months aj^proach, and it can 
 only be increased by feeding the green corn, and then the gain is sufiicient 
 to pay a large profit upon the soiling crop. For sowing broadcast it will 
 require two bushels of seed per acre, and some prefer to sow three busliels. 
 When used green, the objection urged agninst broadcast corn, that it is diffi- 
 
740 CEREALIA. [Chap. VIII. 
 
 cult to cure it, does not apply. "With xis the trouble about saving the stalks 
 for winter -was overcome with one heavy crop in this way.% "We com- 
 menced cutting and setting the stalks against the fence, and after clearing 
 a strip aliout 30 feet wide, hauled poles from the adjoining woodland, and 
 laid them on forked posts, and then cut another strip and set the stalks on 
 each side of the poles, and so on through the field. This plan will only 
 answer where woodland is very convenient. The stalks, however, may be 
 bound in small bundles, and set up in rows, and will cure perfectly. "When 
 partially cured set them in shocks, to prevent bleaching. But we look 
 upon this crop as more valuable for soiling than for preserving for winter 
 use. In all cases where pastures are liable to be short in autumn, have a 
 resource in reserve in a soiling crop of broadcast corn. 
 
 800. Corn in Drills or Hills. — A correspondent in East Hamburg, Erie 
 County, N. Y., gives the following as the successful practice of "Win. Ilam- 
 bleton, of that place, in raising corn : 
 
 " After a faithful plowing, he makes furrows with a light plow, one way 
 at 3i feet apart. These furrows are then nearly filled with such a compost as 
 usually accumulates every year about farm buildings, or by well-rotted 
 stable manure, and on this the corn is drilled, the kernels six inclies from 
 each other in the row. From beginning to end he is death on the weeds, 
 and the labor of raising corn in tills -way is hardly more than by the old 
 method, while the harvest is doubled by it, and sometimes averages 100 
 bushels to the acre ; and the greatly enlarged quantity of stalks pays every 
 expense of cultivation." 
 
 "We are much in favor of drilling corn, but not in favor of sustaining the 
 practice by such statements as this, that " the harvest is doubled by it." 
 If the land is rich enough to sustain corn in drills, six inches between stalks 
 and 42 inches between rows, it will give 24,891 stalks to an acre 10 by 16 
 rods square; and the same land would grow four stalks in each hill, planted 
 tliree feet apart each way, and that would give 19,360 stalks; and, as the 
 stalks will produce equally, the result will be that if the drilled acre pro- 
 duces 100 bushels, the acre in hills will produce 79 bushels ; or, say one 
 fourth more, instead of doubling the crop ; and that, we think, sufiBcient to 
 induce any one to adopt the drill system. Tiie estimate of Southern corn is 
 100 ears to a bushel. The ordinary Northern corn will require nearer two 
 hundred than one hundred ears, as they average through the field, to make a 
 bushel ; but suppose we say 150 ears to the bushel, and that the stalks 
 average one ear to each, the product in bushels per acre will be 165 bushels 
 for the drills and 129 bushels for the hills. Is this result produced in one 
 field in a thousand ? and, if it is not, is it not a question worthy of considera- 
 tion by the owners of the 999 fields, whether the rule should not be reversed 
 so far that in a good season not one field in a thousand should produce less 
 than 100 bushels per acre? 
 
 801. Measuriug Corn in Bulk. — A correspondent of the Prairie Farmer 
 gives a rule for ascertaining the number of bushels of shelled corn in a crib 
 
Seo. 45.] YIELD OF STARCH PER BUSHEL, AND ITS USES. 741 
 
 of ears, b}' multiplying the cubic feet in the pile by (t'orty-fivc hundredths) .45. 
 " Example : In a crib or bin of corn in the ear, measuring ten feet in lengtli, 
 eight feet high, and seven feet wide, there will be two hundred and fifty- 
 two bushels of shelled corn. Thus — 10 x 8 x 7 x .45=252. This rule agrees 
 with weighing corn— seventy pounds to the bushel in the ear. Assuming 
 this rule to be correct, it will be very important to keep it where it can be 
 readily referred to at times when it will be found very useful. But the rule 
 applies only to localities where three heaped half bushels of ears make a 
 bushel of shelled corn. In the Eastern States, where it takes two bushels 
 of ears to make one of shelled corn, in order to use said rule we must pro- 
 ceed as follows: To find the contents of a crib ten feet long, eight feet 
 wide, and seven feet high, 10 x 8 x 7 x .45=252. Then 252 x 3=756-^2=378, 
 the number of bushels of ears, or one hundred and eiglitjiv-niue bushels of 
 shelled corn of Eastern varieties. It would probably come nearer the truth 
 to multiply the cubic contents in feet by 3i, and cut off the right-hand 
 figure, to wit : the number of Imshels of shelled corn. Thus, 10 x 8 x 7=560 
 feet; 560 x 3^=182— cutting off tlie right-hand figure." 
 
 802. Corn — Shrinkage in Dryingi — Experiments have been tried where 
 the quantity of newly-gathered ears supposed suflicient to make a busliel 
 of shelled corn, weighed seventy-five pounds, which, after being thoroughly 
 dried, oidy weighed sixty pounds — nine of cobs and fifty-one of grain. 
 The proportion of cob by weight to grain will generally average about one 
 sixth ; and we think the difference in weight of ears between the time of 
 harvest and spring is never less than ten per cent., unless the corn stands 
 nntil very ripe, and is then gathered in a very dry time. The shrinkage is 
 more in the cob than in the grain, but there will be a considerable loss upon 
 the grain, stored in a good crib, from autumn till spring. 
 
 803. Yield of Starch per Bushel, and its Fses. — As the starch in corn is 
 the principal ingredient of value as food we should grow the varieties that 
 afford the most. The average yield is about thirty pounds per bushel, 
 and if not separated from the other ingredients, it will not prove too nu- 
 tritions, although we generally take our food in a highly concentrated 
 form, that is, too much starcli to the bulk. All grain is more wholesome 
 when used without separating its parts. Starch will not make as mucli fat 
 as corn meal, though it is much used for food, and saves flour. It is also 
 
 .used in calico printing, not only as starch, but, by a chemical process, to 
 make a sort of gum much required. It is very doubtful whether the largely 
 increased manufacture of corn starch has proved beneficial to mankind, if 
 it is true, as it has been stated, that nine tenths of it lias been used for 
 human food, since a corn-meal pudding is far more wholesome than a 
 farina pudding, notwithstanding one is vulgar and the other fashionable — 
 one tickles the eye as well as palate, while the other is the subject of an 
 apology whenever oftered to guests, even at a farm-house. 
 
 The increased demand for corn starch within a few years past has caused 
 the building of imnjense manufactories ; one in particular, at Oswego, N. Y., 
 
742 CERE ALIA. [Chap. VIII. 
 
 is very large ; and the process, which is very simple, though requiring large 
 space to conduct it in, separates all the starch contained in tlie corn, and 
 makes as pure an article as can be made from any other substance. Indian 
 corn yields a larger amount of farinaceous food to the acre than any other 
 grain, and it is the most certain crop ever planted, but there is a great loss 
 in going over a large space of ground — better make the same number of 
 bushels usually made, upon one third of tho space. 
 
 804-. Coru and Pumpkins Together.— A writer in the Genesee Farmer 
 objects, with a good deal of reason, to growing corn and pumpkins together, 
 on account of the shade the vines give the land. He says : " I believe 
 more than the value of the pumpkins is subtracted from the value of the 
 corn crop. In Illinois we raise them in great perfection on the prairie sod, 
 the first season after breaking. An acre of land cultivated entirely in 
 pumpkins will yield an immense quantity ; and I think this method pref- 
 erable to planting among corn. The crojj is a valuable one — I have made 
 excellent beef with no other feed but pumpkins and hay. The pumpkins 
 should be cut up, and fed in a clean trough. I bad two hogs, one of which 
 I intended to fatten, and the other to keep through the winter. As soon as 
 pumpkins were ripe enough to gather, I shut them apart, and fed one on 
 corn all he could eat, with an occasional pumpkin for sauce, with slops of 
 the house, and milk. The other I fed entirely on pumpkins. They were 
 both of an age, and size very nearly alike. In December I killed the one 
 fed on corn, which weighed about three hundred pounds; the other was as 
 heavy, but not quite so fat. I then concluded to fat the last one, and fed 
 him on corn and pumpkins all he would eat. In about a month he was 
 very fat, and weighed nearly a hundred mure than the first. This experi- 
 ment convinced me that jjumpkins were good feed for hogs, and that corn 
 and pumpkins fed together were much better than corn alone." Several 
 other farmers are convinced that there is no profit in growing corn and 
 pumpkins together. 
 
 805. t'orn Hybridizing. — We planted one season some of the Improved 
 King Philip corn, side by side with several other sorts, all of wliich liybrid- 
 ized, while the King Philip remained pure. The sort most affected was the 
 little rice corn. Now, M'hat is the philosophy of tiiis mixing and running out 
 of old sorts ? Nature never works at random, nor is there a foolish thing 
 to be found in all lier works. They are full of mystery, but not of wasted 
 forpes. In this, as in a thousand other instances of liybridization, there is 
 something to be learned. My own theory is, tluit tiiis rice corn is a very 
 low type in the family, perhaps only one remove from tiie original wild 
 state, where each kernel is enveloped in a separate husk; and therefore 
 nature, ever willing to aid man in improvements, makes a greater show 
 upon this tlian any of the others, toward a variety that will be more valu- 
 able for cultivation ; for that, though toothsome in its green state, is not to 
 be compared to some of the best varieties of sweet corn for the table, and 
 is not near as productive. The stalks are low and bushy, and may grow 
 
Sec. 45.] THE COST AND PROFIT OF A CORN CROP. 743 
 
 close together, the ears small, and set near the ground. The principal 
 ohject in growing it is for popping. The Improved King Philip has reached 
 a high point toward perfection, that is difficult of further improvement. 
 Hence it does not mix freely with any other sort. Xature* shows plainly in 
 this, that it has already expended its main force in bringing it up to its 
 present point. 
 
 SOG. Corn and Crows. — Until the mooted question is settled, whether 
 crows do more damage to farmers than they do good, we shall say : 
 Frighten the crows, bat do not kill them, except one to use to keep his fel- 
 lows off your corn. Pick off part of his feathers, and scatter them on some 
 spot in the field easily seen, and near by lay the carcass of the dead crow, 
 and 3'ou will see his late companion sailing over the field, and looking 
 down upon what has been done, but very careful not to light where he, too, 
 might fall a victim. If you can not kill a crow, jou may make a very 
 good show of a dead one with a black hen. Crows are too valuable as ver- 
 min-destroyers on a farm, to be wantonly destroyed because they pull up a 
 little corn. One farmer says : " In protecting fields from crows, he has 
 found the best remedy to tie young crows to strings stretched across the 
 field. Their calls drew a great many old crows, which came to see what 
 the matter was, and went off, and kept off that year and the next." 
 Another one says : " A very troublesome case of crow depredation was 
 cured by suspending young crows dead, which so alarmed the old ones 
 that they left in disgust. I find tarring corn seed a good preventive." If 
 crows are to bo kept off by any kmd of scarecrows, they must be put up 
 as soon as the corn is planted, before the thieves get a taste. That is 
 the " ounce of prevention" that is "worth a pound of cure." 
 
 807. The Cost and Proflt of a Corn Crop.— The growing of corn ; the 
 varieties grown; the manner of planting; liow cultivated; whether high 
 manuring, and much labor to jjroduce a great yield per acre; whether corn 
 shall be grown — particularly in the Eastern States — -will always depend 
 upon the cost of production ; which, in all but the great fertile corn region 
 of the West, is not less than thirty cents a bushel. There it can be grown 
 for less — there it has been often sold below twenty-five cents a bushel. 
 For many years in Kentucky, Tennessee, Ohio, Indiana, Illinois, a sort of 
 universal price of corn prevailed, at a dollar a barrel, which is a local 
 measure of five bushels. Yet during those years we have known large car- 
 goes delivered on the bank of the Ohio, or its tributaries, at half tliat 
 price ; of course, for that is the custom, always in the ear, and at the 
 rate of three heaped half bushels of ears for a bushel of grain. The gene- 
 ral price of corn upon the Illinois Central Eailroad during the summer 
 of 1861 was ten cents a bushel, delivered in the ear, at a measure that 
 would make a bushel of shelled corn. On the rivers it was not worth 
 as much, and we heard of sales upon interior farms at tRree cents a 
 bushel. At these prices corn does not pay ordinary farm-laborers' wages 
 to grow it. The price it has sold for also proves that the great value of 
 
744 CEREALIA. [Chap. VIII. 
 
 land is not its richness ; the great source of profit is not the great crops 
 produced, but the market for that produce; and land is valuable just in 
 jiroportion to its nearness to a place -where its produce can best be sold. It 
 ought to be a leading feature in the calculation of every land purchaser, 
 Where is the market ? Every producer should also keep this question con- 
 stantly before his eyes, and shape his productions accordingly. Before the 
 age of railroads the price of wheat in the interior of Indiana and Illinois 
 was twenty-five to thirty-five cents a bushel, " store pay." It was not a 
 cash article, because there was no market. Indian corn was still more a 
 cheap drug on hand, and maiiy a " broad horn" has been loaded upon the 
 Wabash and other rivers for the far-oft' New Orleans market, with corn at 
 six to ten cents a bushel. The strongest incentive to high farming is a high 
 market. Is it profitable to grow corn in New England ? 
 
 808. Early Ripening Sweet Corn. — Sweet corn, Avhich is the kind .'i.it 
 shows shriveled grains when fully ripe, and tastes sweet, is not an eaily 
 ripening corn. Our pop-corn is fit for boiling two weeks before the sweet 
 corn ; but neither pop-corn, nor any other kind of corn, is to be compared 
 to the sweet corn for table use, and is only tolerated by those who grow 
 sweet corn until that is large enough to boil. There is a black variety of 
 sweet corn that ripens earl}' ; biit this we would only grow for early use, 
 on account of its color, and that probably is one of the causes of its early 
 ripening, as all dark-colored things absorb the rays of the sun. Some of 
 this black corn has black cobs and husks ; others, the grains only are 
 black. We have grown an excellent sweet corn with white grains and 
 dark-colored husks, which is quite early ; that is, in ordinary seasons, fit to 
 eat in July. 
 
 809. The Value of Sweet Corn.— There is no variety of corn that affords 
 the farmer so much value, or gives so great a return for the labor of grow- 
 ing it, as sweet corn ; and it should be grown in sufficient quantity to give 
 every farmer's family an unlimited supply for the table at every meal, if 
 desired, and also for the children and servants to roast and eat between 
 meals, from July 20th to October 20th — three full months. 
 
 Th^re is no food that can be fui'nished so cheaply, and none that is more 
 nutritious and wholesome. It is always a welcome dish to chance guests, 
 and in case of deficiency of other food at such a time, a dish of ears of 
 green corn can be gathered, husked, cooked, and put upon the table in 30 
 minutes. And upon two or three ears a hungry man makes a satisfactory 
 meal, with very little other food. In firsrt cost, in c6st of preparation, in 
 value as food, is there anything equal to green corn ? In value as food, so 
 far as nutriment is concerned, sweet corn is 25 per cent, above any other 
 sort, and 50 per cent, above as regards its wholesomeness. Being softer it 
 is easier masticated, and goes into the stomach in better condition for diges- 
 tion ; and being almost entirely destitute of oil it is believed to be more 
 easily digested than the common field corn. 
 
 Sweet corn should be planted for family use in hot-beds for transplanting; 
 
Bko. 45.] BROOM CORN. 715 
 
 or, if you liave no hot-bed, in bits of inverted sod, in a box ia the kitchen, 
 EG as to have them ready to put out in a rich warm spot as early as possible, 
 and at tlie same time you should plant a few hills, and after that every 
 two weeks till the middle of July. Stowell's Evergreen Sweet Corn can be 
 planted so late that it will barely mature so as to be eatable when frost 
 comes, previous to which if it is cut up and shocked, or packed closely in a 
 room, it will remain fit for boiling till New Year's. Green corn may be 
 preserved very late in autumn, by tying a bundle of straw, or cornstalks, 
 around a hill of corn while it is growing, and before it is injured by frost. 
 
 Another value that sweet corn has is for drying for winter use. Scald 
 the ears when the grains have acquired their full size, and cut them off and 
 dry them in the sun, or in a very slow oven, leaving the door open to allow 
 the moisture to evaporate. When dry, store it away for winter use in a bag 
 of open texture, hung up in a dry store-room — on the rafters in the garret is 
 a good place. 
 
 It may be cooked by soaking and boiling alone, or with beans, as " suc- 
 cotash ;" and when boiled it may be eaten with meat or with milk, or with 
 sirup; or it- may be stewed in milk, adding butter and salt, and form an 
 excellent breakfast dish. 
 
 A variety of sweet corn, known as the Excelsior, is considered the best 
 where but one sort is grown. It grows two or three ears to the stalk, with 
 twelve or fourteen rows to the ear, and is very rich when cooked. 
 
 810. Broom Corn — How it is Grown, and Value of the Crop. — We are aware 
 that broom corn docs not come properly under the head of this section, be- 
 cause it belongs to the Sorghum family. But as it will be more likely to 
 attract attention under the head of Corn, we give it a place here. 
 
 In some sections of the country, particularly on the Mohawk River, broom 
 corn is a leading crop upon many of the farms. It requires the best kind of 
 soil — that is, soil that would produce forty or fifty bushels of Indian corn 
 per acre. It also requires the best kind of preparation by disintegration and 
 manuring, and then the seed is planted in drills or hills, like Indian corn, 
 at about the same time in the spring, and it should be tended in the same 
 yzaj, thinning out the plants, which will probably grow in excess, as the 
 seed is usually planted very thickly, and it must be carefully attended to at 
 the first and second hoeing. When the broom corn is matured sufficiently, 
 the heads are bent down before cutting. If the seed is to be saved in a 
 mature condition, the corn is allowed to stand until the heads are well filled, 
 but not dead ripe, when the heads are bent down by a man walking between 
 two rows and bending all the heads inward. It is then allowed to stand 
 until ripe, but not dry, when it is cut by a man walking between the same 
 rows with a keen knife — a large-sized shoe-knife is about the best kind that 
 can be used — cutting ofi:' the brush with six or eight inches of the stalk at- 
 tached. The brush is thrown in bunches by the cutters, and is or should be 
 immediately gathered up and carried to the barn, or somewhere under cover. 
 It must not be cured in the sun. It is frequently stripped of the seed as 
 
746 CEREALIA. [Chap. VIII. 
 
 fast as it is cut, and spread all through the barn, over the hay and grain 
 lofts, or under sheds, or tied in bunches and hung against tlie walls. 
 
 The seed that is to be saved must be handled carefully, as it is very liable t(j 
 heat. It may be cured in the sun, or spread upon the barn floor, or on a loft 
 witli a very open floor, and it must be frequently' stirred so as to give it air. 
 
 Sometimes the brush is cured with the seed adhering, but it is not as 
 well, as it is more diflicult to cure it perfectly, and it is bulky and heavy 
 to haadle, and really in the end requires a good deal more labor. It is 
 said, also, that the dry brush scrapes much harder than when first cut, 
 and certainly it is more liable to be injured. For some work tlie brush 
 must be cut and cured quite green before the seed is mature. Then it is 
 scraped off and fed out at once, and is of about the same value as hay. Tlie 
 ripe seed, cured for winter feeding, is considered by some nearly equal in 
 value to oats. "We have never been satisfied that it was worth half as mucli. 
 Perhaps it would be if ground. The stalks are not considered nearly as 
 valuable as Indian cornstalks. If neat cattle are turned into the field after 
 the brush is cut, they will pick off" the leaves, but never eat the stalks. So 
 tliey will if the stalks are cut and cured, and fed out in the winter. About 
 the best use that the stalks of broom corn can be put to is to litter yards in 
 winter to give cattle dry beds. Tliey may also be used to make temporary 
 shelter, or wind-breakers, for stock, or for covering root piles, or protecting 
 more valuable forage from the weather. They are not valuable for manure, 
 and would probably be the most so as mulcfi. It is the most common prac- 
 tice to let the stalks stand till spring, letting the stock pick and trample 
 what they like, and then cut and burn the remainder on the field. 
 
 Scraping off the seed is a laborious job. A machine has been extempo- 
 rized for this purpose, and is described as follows : 
 
 " Take an old fanning-mill (a new set of wheels in a strong frame, so that 
 you could use a balance-wheel, would be better), put on two plank wheels in 
 place of the fans, then take slats of the length you wish to make your cylin- 
 der, three inches wide and three fourths of an inch thick, hollow theni a 
 little at the ends, so as to fit the wheels ; drive eight or ten wrought nails 
 through each slat, and nail it to the wheels with the nail points out, in 
 such a way that they will not be in straight rows around the cylinder, but 
 bristling all over. One to turn tlie crank pretty smartly, one to hold on the 
 brush in handfuls, and a boy to hand it up, will scrape two or three wagon- 
 loads a day." 
 
 The value of the crop is the most important consideration to those who 
 may be tempted to embark in the business. We have seen various estimates 
 of the amount of produce per acre. We think that a tun of brush from five 
 acres is a pretty fair estimate, and this will sell at from $100 to $150, or it 
 will make up about one hundred and twenty dozen brooms , and any man 
 of tolerable skill as a farm laborer can soon learn how to make gi>od twine 
 or wire brooms. There are machines used by broom-makers which greatly 
 facilitate the work. They cost about $35 each. 
 
Seo. 45.] BROOM CORN. T47 
 
 The quantity of seed grown upon an acre we have seen rated as high as 
 sixty bushels. We do not believe that one crop in ten will give that. The 
 writer of an article now before us estimates the value of well-ripened seed 
 for horses, sheep, and poultry higher than oats. The stalks, when left to 
 ripen the seed, are of no value for cattle food. The seed is more valuable, 
 but the brush is not; that is most valuable when cut green, and when the 
 straw is tine, and retains a bright, lively color. 
 
 In January, 1S60, it was estimated that 2,000 tuns of broom corn had 
 been received in this city within a year past from Illinois ; from Ohio, 500 
 to GOO tuns, and the same quantity from the State of New York. The 
 quantity grown in the New England States is mostly manufactured before 
 it reaches the city. 
 
 The average price of broom-corn brush is six cents a pound for the green 
 sort, and four cents for the red brush. The average crop per acre at the 
 "West is 400 pounds ; in this State, 350 pounds ; in New England, 250 
 pounds. 
 
 It is not considered profitable to grow broom corn on a small scale ; but 
 as a ci'op it does appear to be so. There is a dwarf variety which has been 
 recommended as more profitable for cultivation than the large and more 
 common kind, because it furnishes finer and higher-priced brush ; but for 
 cultivation on a large scale there are serious objections against this variety 
 — the sheaf of the upper leaf adheres so closely to the stalk it is very diffi- 
 cult to separate it. For family use this would not be so objectionable. It 
 would only make a little work for small fingers, while larger ones were 
 making brooms in winter evenings. 
 
 Shaker brooms are so common, that people generally suppose that broom 
 corn is one of the staple crops of the Shaker Society. It may be in some 
 families of the community, but not in all. The largest and oldest Society 
 in the country, that of New Lebanon, Columbia County, N. Y., find it more 
 advantageous to use their tillable land for some other purpose, and buy the 
 brush, which they manufacture extensively, from the broom-corn farms of 
 the Mohawk Valley. The soil there is not only productive in this crop, but 
 the quality of the product ranks higher than it does upon the richer lands 
 of the West, where the yield is larger, but the brush is coarser and less 
 valuable. 
 
 In conclusion, we advise caution about embarking in the culture of broom 
 corn, without more knowledge than we can impart. 
 
CHAPTER IX. 
 
 THE GRASSES-CULTIVATION AND USE. 
 
 SECTION XLVI.-MOWING AND PASTURE LAND-SEEDING LAND TO 
 GRASS- VARIETIES OF CULTIVATED GRASS.-WHAT IS GRASS? 
 
 HAT is grass ? maybe more important to the bot- 
 anist than to the farmer ; but what farmer's son of 
 ordinary intelligence would not like to be able to 
 answer that question ? How can he, if he is never 
 taught? AVho has told him that clover is not grass, 
 and that Indian corn and sugar-cane do belong to 
 the grass family ? But it is not so much our present 
 object to answer the question, as it is to speak briefly 
 upon several practical things about the cultivation 
 of grass and clover, and making them into winter 
 feed for farm stock, and all matters that pertain to 
 this very important crop. We are sure that every 
 one who studies what we have compiled under the 
 head of the grasses, particularly young readers, must 
 be instructed in very important useful information. Natural grasses extend 
 over the whole globe. Very curious and various provisions are made for 
 the diffusion of the seeds ; many of them are furnished witli creeping roots. 
 They are not, like other plants, injured by the laceration of their herbage. 
 The making of artificial meadows is an art yet in its infancy. "We never 
 hear of them in England prior to a. d. 1681, nor in tbis country until about 
 A. D. 1720. So little is known of natural or uncultivated grasses, that very 
 few know the names of the grasses growing on their farms, nor can they 
 distinguish one from another. One sixth of all the plants on the globe 
 belong to the family of grasses — two hundred and thirty genera, including 
 three thousand species, are already known, and new sjjecies are constantly 
 pvesenting themselves. Six tenths of the cultivated area of New York is 
 devoted to the growth of grass, and the grass crop of the United States is 
 estimated at $300,000,000 annual value. Think of that, and you will see 
 the importance of every treatise upon tliis farm crop. 
 
 811. Varieties and Value of Grasses Cultivated! — J. Stanton Gould, of 
 Columbia County, N. Y., has devoted much attention to the study of 
 grasses. Of those most commonly cultivated, he gives the following brief 
 description. First, of the Fescues : 
 
:m; 
 
 
PLATE XIX. 
 
 (Page 748.) 
 
 This plate needs no explanation. It is a beautiful picture of some 
 of the most valuable of our cultivated plants, which, collectively, 
 make a farm crop so much more valuable than that which has been 
 flilsely called king, that when the two are fairly compared, "king 
 cotton" dwindles into insignificance. Compared with gi-ass, it is no 
 more than a word. Without cotton we can live. Without grass, 
 the world would be a desert, and man and beast would perish. It 
 is because it is of such vast importance, that we have devoted a 
 whole chapter to its consideration ; and for the purpose of attract- 
 ing attention to it, we have placed this picture as a frontispiece. 
 Each one of these grasses will be found pretty fully described in 
 the following pages, which should be studied with careful attention. 
 The pictures may be depended upon as true representations. 
 
Sko. 46.] VARIETIES AND VALUE OF CULTIVATED GRASSES. 749 
 
 '•'■Festuca ovina is essentially a grass of the thin soils resting upon rocky 
 uplands, as on the mountain limestone, and most mountain ranges. 
 
 "7^. durluscida. — In the valleys between such hills, and in tlie more shel- 
 tered pastures of the upland districts. 
 
 "i^. rubra. — In the more sandy loams of the lowland meadow, and by the 
 sea-shore. 
 
 "i^. loliacea. — Rich meadows on river banks, or under irrigation. 
 
 '■'•F. pratensis. — Best lowland meadows, not liable to floods. 
 
 "i^. clatior. — On sandy clays, or other stifi' and strong lands, especially 
 on the sea-shore. 
 
 " The fescues are invariably present in our best pastures, and especially 
 present in those of the most famous cheese districts. 
 
 " The F. pratensls is worth $3 33 when timothy is worth $5 per ton. 
 It follows next after meadow foxtail {cdopecurus) as an early grass, and af- 
 fords a bite earlier than orchard grass. 
 
 " The ^/"o/wM* family has a very bad name, being neither agreeable nor- 
 nutritious to cattle. Bromus erectus is said to be the only perennial species 
 in the genus. Early mowing is recommended as a means of extirpating 
 this family. 
 
 '■'■ Lolium perenne, or lye grass, is the favorite grass of England, and occu- 
 pies there the same place that timothy does with us, and is probably better 
 adapted to a wet climate like England than to a dry one like ours. Sixty 
 varieties are cultivated in England of this one species. 
 
 '■^Lolium Italicu7n, Italian rye grass, is worth $2 09 when timothy is 
 worth $5. One hundred pounds of it give twenty-four and a half pounds 
 of dry hay. It is best adajited to limestone and light soils, and is one of 
 the most desirable varieties for irrigated meadows. 
 
 " Triticum rep>ens, known as ' cpiack,' ' twitch,' or ' dog' grass, is very 
 easily recognized by its spikelet of etght or ten-awned flowers placed flat- 
 wise toward the sachis. It is a terrible pest in alternate husbandry, grow- 
 ing in all sorts of soils, and robbing the cultivated plants of the richest por- 
 tion of their food. In very dry seasons it may be killed by plowing it very 
 thoroughly in July, and sowing the ground with buckwheat. Its stalks 
 sometimes attain an altitude of three feet, but it ordinarily stands two feet 
 high. It forms a tolerably good hay, and is much relished by the stock as 
 a pasture grass. It operates as an emetic on dogs, and is very useful in 
 binding the sloping banks of railroads. 
 
 '•'• Anthoxanthum odoraturn, sweet-scented vernal grass, is not very valu- 
 able for hay or for pasture, as one hundred pounds of it gives only nineteen 
 pounds and three cpiarters of dry hay, and an acre three quarters of a ton. 
 It starts very early in the spring, and continues to throw out leaves during 
 the summer. 
 
 " Glyceria nervata grows in wet places. Its culms are extremely succu- 
 lent; it is the hardiest grass in existence, and always grows more vigorously 
 after a severe winter than after a mild one. 
 
750 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 Poa serotina, or fonl-meadow, is one of the earliest grasses cultivated 
 in this country, and is still among the best. It does not injure by standing, 
 as do other grasses, but may be cut at almost any time. It is easily made 
 into hay, and never seems hard or harsh, and produces sound seeds in great 
 abundance. 
 
 " Trisehim sithspicatujn is a mean, stingy grass, growing on stiff clayey 
 side-hills which have a northern aspect. It is only fit to be grown on soils 
 that will bear nothing else. 
 
 " Zigatitia aquatica grows in places wholly covered witli water. It is 
 very sweet and nutritious, and cows fed upon it have a copious flow of 
 milk. In favorable situations it produces five or six tuns to the acre, grow- 
 ing to the liight of nine feet. Its seeds resemble rice. 
 
 '•'■ Phleum j)ratensis. — According to the analysis of Professor Way, timo- 
 thy yields more dry liay from a given amount of grass, and more of albu- 
 minous, fatty, and heat-producing matters, from a given amount of dry 
 hay, than any of the grasses upon which he experimented. But it must be 
 remembered that Professor AVay did not analyze either Poa compressa or 
 Poa serotina. 
 
 A crop of pure timothy on the farm of George Geddes, near Syracuse, 
 N. Y., gave three tuns to the acre, and it is reported that John Fisher, Car 
 roll County, Md., cut from an acre five tuns and one thousand six hundred 
 and twenty-two pounds of dry liay. 
 
 The proper time for mowing timothy is just when the first dry spot 
 appears above the first joint. If mowed earlier, the plant is injured. If 
 left to a later period, the starch and sugar are converted into indigestible 
 woody fiber, and the nitrogenous compounds, on wliich its value cliiefly 
 depends, are transferred from the leaves and culms to the seed, which 
 mostly drop out before they reacli the manger. Timothy is not well adapted 
 to Iiot sands, gravels, chalks, nor liard, sterile clays ; but thrives on peaty, 
 damp soils, and especially on most calcareous loams, where it exhibits its 
 fullest perfection. 
 
 " The great drawbacks to its utility as a permanent meadow grass are, the 
 very little after-math it produces, its liability to run out after two or tlirce 
 years, and the injury it receives from insects with which it is infested. 
 
 " Alopecurus (Meadow Foxtails). — There are five varieties of tliis genus, 
 viz. : A. pratc7isis, A. ayrestis, A. gemculatus, and A. ristulahis. The .1. 
 pratensis may be distinguished from its allied species by the equality of 
 length in tlie glumes, and by a twisted arm twice the length of tlie blossom. 
 It rarely exceeds three feet in length, and does not usually yield over one 
 tun to the acre. It is very watet'y in its composition ; one hundred jjounds 
 of the green grass give only nineteen pounds and three quarters of dry liay, 
 while an equal quantity of timothy gives forty-two pounds and three quar- 
 ters. If one tun of green timothy be worth $5, the foxtail will be worth 
 $2 07, if Professor "Way's analysis can be relied on. It is found abundantly 
 in some of our best pastures, is one of the earliest to start in the spring, and 
 
Sec. 46.] VARIETIES AND VALUE OF GRASS CULTIVATED. 751 
 
 the first to mature its seeds ; its after-math is exceedingly abundant, start- 
 ing up iimncdiately after mowing, and if the weather be showery, will, in a 
 week or ten days, give a fair bite to the cattle. It is not well adapted to 
 alternate husbandry, as it requires three or four years to bring a meadow 
 to full perfection. It is very difficult to procure good seeds, as many heads 
 are entirely destroyed by the insects. It is bettor adapted to pasture than 
 to meadow, flourishes most luxuriantly on rich, moist, strong soil, the pro- 
 duction from a clayey loam being three fourths greater than from silicious 
 soil. 
 
 " Setarla glauca is good for nothing in meadows and pastures ; it should 
 be exterminated as soon as possible, which may be done by a thin coat 
 of horse manure applied in autumn. 
 
 " Dactylis glomerata, or orchard grass, sometimes grows five feet high, 
 and has produced five tuns, one thousand eight Inindred and fifty-nine 
 pounds to an acre. One hundred pounds of it produces thirty pounds of 
 dry hay ; it contains nearly as much of fat and flesh-forming matter as 
 timothy, but contains much less of heat-forming matters. If the latter 
 is worth $5 a ton, orchard grass will be worth $3 59. It flourishes well 
 in shady places, and receives its trivial name from its adaptation to orchards. 
 Its disposition to grow in tussocks may be prevented by harrowing and 
 rolling in the spring. It flourishes well in almost all soils and climates ; 
 best in sandy loam. It is known in England as cocksfoot. In this country 
 it is most common in New England, New York, Pennsylvania, and Ohio, 
 and less common in most of the other grass-growing States. We say grass- 
 growing States, for, strictly speaking, the cotton States are not so, not- 
 witlistanding the planters are always grumbling about being overrun with 
 grass. It is, however, an annual that troubles them most, and in all tliose 
 States very little grass seed is sown to produce a crop eitlier for hay or 
 pasture. For both purposes, orchard grass is good, but most especially 
 for pastui'e, producing good milk, beef, m'ltton, or wool ; and every kind 
 of stock eats it freely, and thrives well upon it ; and after being mowed or 
 fed ofi", it throws up a new growth rather more readily tlian any other grass. 
 It is not inclined to run out in any situation where it once gets good root, 
 though as easily subdued by plowing as timothy ; it is better than that to 
 mix with clover, ripening more nearly at the same time. For pasture, we 
 would mix orchard grass with several other sorts. 
 
 '■'■ Poa pratensis (the Kentucky blue grass) does not grow higher than 
 two and a half feet, and can not be relied upon to yield more than a tun 
 and a half to the acre. One hundred pounds of the gi'ass yields thirty-two 
 pounds of dry hay, and is worth $3 20 per tun when timothy is worth 
 $5. Butter made from this grass will keep sweet longer than that made 
 from any other species. Its after-math is very luxuriant, and it stands the 
 cold better than any other, but is liable to burn up in hot, dry weather. 
 Its favorite locality is a limestone soil. 
 
 "/"m coviprcssa (wire or blue grass) is believed to be the most nutri- 
 
752 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 tive of our grasses ; it grows heavy, about twenty inches high, standing 
 thickly on the ground. It causes an abundant flow of very rich milk, and 
 horses fed upon it alone do well. Sheei> fatten upon it, and all grazing ani- 
 mals eat it with avidity. 
 
 ' Agrestis vulgaris (red top) grows about two and a half feet long, and 
 yields about one and a half tuns to the acre. It is not a first-rate grass, but 
 seems to be better relished by working oxen than by aiiy other stock. It 
 grows in very moist land. 
 
 '■^ Agrestis alba (white top) seems better adapted to sandy soils than the 
 preceding, but resembles it very nearly in its botanical character." 
 
 No country can be a prosperous agricultural one that imports its hay. 
 Yet we find that South Carolina has done so ; not merely from Maine and 
 other ISTorthern States, but from Holland. From a remarkably able report 
 by Oscar M. Lieber, State Geologist of South Carolina, upon " the Agri- 
 cultural Capacity of the State, and the Obstructions to its Full Develop- 
 ment," puljlished in March, 1860, he very plainly shows how a country that 
 neglects grass culture will deteriorate. lie points out many instances where 
 the original condition of the soil was very desirable, which is now the re- 
 verse, because the owners import hay, and leave their own soil naked. lie 
 says : 
 
 " There are other considerations, such as thorough manuring, which should 
 be duly remembered ; but it is certainly owing, in the very first place, to 
 these causes, that those once fertile lands are now in many instances de- 
 populated and abandoned by their former owners ; that a district as promi- 
 nent in her vii-gin productiveness as Fairfield is gradually losing her origi- 
 nal legislative representation, and that a section of the State, capable of 
 supporting pei'haps ten times the population of our entire Commonwealth, 
 is now, to a very considerable extent, thrown out as irreclaimable. But how 
 is the system to be changed? Kothing easier. Clothe your barren hill- 
 sides will) grass — decrease the area of your cultivated crops — manure highly 
 with commercial and compost manures — and, to enable you to do the latter, 
 keep cattle, sheep, and hogs; feed them well, and make them pay you in 
 rich returns." 
 
 812. Grasses Rscommtnded by the New York State Agricultural Society.— 
 A committee, composed of Wm. Kelly, J. Delafield, B. P. Johnson, to whom 
 the suliject was referi'cd by the New York State Agricultural Society, reports 
 as follows : 
 
 "The following described grasses are, by common consent, admitted to be 
 the most valuable now cultivated in England. There are others of great 
 value, which might, perhaps be profitably cultivated in our climate, but 
 for the experiments now proposed, your committee recommend only the 
 varieties here named. 
 
 Meadow Foxtail — {Alopecurus pratensis). — ^This is a very early grass, 
 productive, and exceedingly nutritious. It is the principal grass in all rich 
 pastures, is a favorite with sheep and cattle, and is one of the most per- 
 
Skc. 46.] VARIETIES RECOMMENDED. 753 
 
 manent of the cultivated grasses. The objections to it are these — that 
 it is slow to establish itself and acquire its full growth, and in England 
 does not produce its seed perfectly. Not more than one third of the seed 
 sown usually germinates. In our climate there ought to be no difficulty 
 of this sort. 
 
 Meadow Fescue — {Festuca pratensis). — Fibrous root. This is one of the 
 most valuable grasses. It is nearly as early as the foxtail, and equally 
 nutritious, though not so productive. It is found in all the richest natural 
 pastures, is much liked by cattle and horses, and is among the most per- 
 manent .of grasses. It thrives best in the clay districts of England. It 
 ripens its eeed well, but, like the meadow foxtail, is slow in arriving at 
 maturity. 
 
 KouGH Stalked Meadow Grass — {Poa trivialis). — -This is a superior pas- 
 ture grass. It has fibrous roots, and in a moist, rich soil is productive and 
 very permanent ; but on dry and exposed land its product is inconsiderable, 
 and it soon dies out. It is not remarkable for its nutritive properties, though 
 cattle seem fond of it. 
 
 Feetile Meadow Geass — {Poa fertilis). — Is a native of Germany ; roots 
 slightly creeping ; is productive, one of the earliest grasses, and is remark- 
 able for the large crop of after-math, sending up a succession of flowering 
 culms till the frost arrests it. It grows well on any good land, but thrives 
 best in moist ground ; is among the most nutritious grasses, and ripens its 
 seed well. 
 
 Sweet-scented Vernal Grass — {AntJwxanthum odoratum). — Tliis is one 
 of the earliest as well as one of the latest herbage grasses, is extensively culti- 
 vated in Eastern Pennsylvania, and imparts the peculiar richness of flavor to 
 Philadelphia butter. 
 
 Perennial Ete Grass — {LoUum jJeremie). — The root is fibrous. It is the 
 most generally cultivated of the herbage grasses in England. It is adapted 
 to a wide range of temperature and soils, soon reaches maturity, ripens an 
 abundance of seed, is early and productive, but not particularly nutritious. 
 
 Rough Cocksfoot, oe Orchard Grass — {Dacfylis (jlomeraUi). — Said to 
 be a native of Virginia, is cultivated with us, but does not rival timotliy ; 
 yet in England it ranks very high. It is always sown there in mixture with 
 other grasses, and by experiment is the most productive of all, yielding a 
 greater weight of forage per acre, though less nutritious than other favorite 
 sorts. 
 
 Meadow Cat's Tail, or Timothy — {Phleum pratensis). — ^The cultivation 
 of it in England is recommended in mixture with other grasses, but not 
 alone, as with us is most common. 
 
 Farm, or Bent Grass — American names are Herds-grass, Foul Meadow, 
 and Red Top — [Agrostis vulgaris, and Agrostis stolonifera latifoUa). — In 
 England, several varieties are recognized, tire largest of which is Farm, or 
 large leaved creeping Bent ; this is more productive, though not so well 
 adapted to upland, as the common Bent Grass, or Herds-grass. 
 
754 CLOVER— ITS CULTIVATION AND USE. Chap. IX. 
 
 Smooth Stalked Meadow Gkass — American names: Spear Grass, June 
 Grass, and Blue Grass — {Poa j^ratensis). — This grass is indigenous, and is the 
 ordinary growth of our roadsides. It is very early, and continues its growth 
 throughout the season until very late in the autumn ; it resists drouth, 
 makes a close sod, and is a great favorite with sheep. As a hay grass, it is 
 not so valuable as many others ; it is very permanent. 
 
 It is asserted that upward of two hundred varieties of grass are grown in 
 Great Britain, mostly indigenous. In a single sod taken from a rich pasture 
 were found thirty varieties, and there are usually twenty-six or more in all 
 first-rate pasture land. 
 
 If we expect to rival natural pastures, we ought to imitate nature in scat- 
 tering a variety of seeds, instead of confining ourselves to one or two sorts. 
 
 813. George Gcddes on Growing Clovert — "The agriculture of Onondaga 
 County is based on the c\ovei\'^hint, Tfi/'olii(?)i jnritense. It is used for 
 pasture, for hay, and for nianiare. Strike this plant out of existence, and a 
 revolution would follow that would make it necessary for us to learn every- 
 thing anew in regard to cultivating our lands. "We have this most valuable 
 treasure and appreciate it; its infiuence and importance to us demand an 
 extended account. 
 
 " There are two varieties of red clover, known among the farmers as the 
 large and small. The large is but little cultivated, and is generally con- 
 sidered of less value for hay or pasture, and yields but a single crop of hay 
 in a season; but where wanted for manure only, it is sometimes preferred 
 for its heavy growth. 
 
 " Clover seed is usually sown on winter wheat, in March or April, in 
 quantities varying from two to ten quart? to the acre : eight quarts is gene- 
 rally sown by the best farmers. Sometimes this seed is sown on oats, barley, 
 and spring wheat ; but as it can be sown before the spring frosts are over on 
 winter wheat, it is more certain to be covered by the freezing and thawing 
 of the earth, and for this reason success is more certain than with any other 
 crop. 
 
 " Gypsum, at the rate of a bushel or more per acre, is usually sown after 
 the ground is settled and the crop has commenced growing. Sometimes 
 the sowing of the gyjjsum is deferred until the wheat is harvested, and then 
 sown on the stubble as soon as convenient. If the season is wet, and there- 
 fore a growing one, the small kind of clover will be in full bloom before the 
 frosts of autumn kill the plants. 
 
 " It is common to pasture this young clover moderately in autumn, and 
 opinions are somewhat divided as to whether this injures the future growth 
 of the crop. 
 
 " In the following spring, gypsum should be again sown on the clover, 
 at the rate of a bushel to the acre. By the 25th of Jime or the 1st of 
 July the small variety is ready for making into hay, and slio;ild yield a tun 
 and a half to the acre. Various opinions have been entertained as to the 
 i>r<>i)L-r stage for cutting this hay crop ; but the general practice is to cut 
 
Sbo. 46.] CLOVER— ITS CULTIVATION AND USE. 755 
 
 when in full bloom, or as soon as the earliest heads sliow signs of ripening. 
 The true process of curing is to handle as little as possible, and to cure 
 mostly in the cock. As soon as the hay is drawn away, gypsum, at the rate 
 of a bushel to the acre, should be sown. By about tlie first of October 
 the second crop will be ready to cut for seed. This crop sliould be allowed 
 to rijien so that the seeds are full and mostly hardened ; and should be care- 
 fully cured, or it will heat in the mow to the injury of the seed. In winter, 
 the seed is thrashed out at a cost of about one dollar a bushel. The straw 
 and chaff are eaten with avidity by cattle and sheep, and ai'e of considerable 
 value for forage — perhaps enough to pay for cutting, curing, and putting 
 the crop in the barn. The seed generally averages three bushels to tlie acre 
 — sometimes six busliels have been saved — and sometimes the crop of seed is 
 a failure. The usual market price is about six dollars a bushel. 
 
 " After the seed crop is removed from tlie ground, there is a considerable 
 part of the crop of hay left, particularly' if it was cut higli, as it should be. 
 This stubble is usually pastured to some extent. 
 
 "In the spring following, the ground is plowed, unless wanted for pasture. 
 If plowed, corn, oats, barley, or spring wheat is sown, and a good crojj is con- 
 fidently expected. If it is intended that the clover sliall remain on the 
 ground more than one year, other seeds are sown with the wheat so as to 
 make a more perfect covering of grass, and aid in filling the soil with roots. 
 Timothy (herds-grass), Phleum pratense, sown in September with the wheat, 
 will aid in every part of the cultivation of the clover. The crop of hay will 
 be benefited, and the surface of the ground will be more perfectly covered, 
 and thus weeds kept out, and in case the second year is to be for pasture, it 
 is important. 
 
 " According to Boussingault, one acre of the perfectly dry roots of clover 
 will weigh 1,275 lbs., and these roots are valuable manure for the next crop, 
 and the same may be said of the tops that are plowed under. The roots run 
 deep into the soil, and thus pulverize it, so that a single perfect plowing 
 brings it into a most satisfactory condition. Some of our best farmers plow 
 their fields once in a few years, and then shallower plowing of this clover sod 
 will show the long tap roots that have been pulled up from the subsoil by 
 the plow, projecting above the surface all over the field, looking quite like 
 dead weeds. These roots have transferred the fertilizing matters of the lower 
 soil to the surface. 
 
 " If our soils require improving we turn the clover crop under, and repeat 
 the operation iintil there is suflicient fertility to allow us to carry the clover 
 off. The oftenor we can fill the soil with roots, and then plow them under, 
 and thus allow them to rot, the sooner we cxuect to get our land in condihon 
 to crop with grain. 
 
 " A very considerable part of the cultivated land of this county has never 
 nad any other manmnng than this clover aiul gypsum, and its fertility is not 
 diminishing. Fields that are distant from barn-yard manure are rarely 
 treated to anything but gypsuai and clover. These fields are no: cropped 
 
756 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. li. 
 
 with grain as often as those that have tiie benefit of barn-yard manure, but 
 
 they are manured at much less expense. 
 
 The cost of a fourth of a bushel of clover seed, at S6, is. . . . .^ SI 50 
 
 do. sowing is about 08 
 
 do. three bushels of gypsum at the mills is 24 
 
 do. drawing same 12 
 
 do. sowing at three different times 38 
 
 Total cost of manuring one acre with clover $2 32 
 
 "A field treated as described, having the first year given a crop of hay 'and 
 another of seed ; the second year, an acre will nearly or quite pasture a cow 
 from the 20th of May until the middle of August. If then plowed six 
 or eight inches deep in the most perfect manner, it will be in the best pos- 
 sible condition for winter wheat ; or if not wanted for wheat, the land may 
 be used the second year for pasture the whole season, and put into corn or 
 anv other crop the next. Clover is a bieuuial, and two years is all that one 
 seeding should stand." 
 
 814. Clover Seed— now Much to Sow per Acre. — John Johnson, " the old 
 Scotch farmer" near Geneva, N. Y., says: "I never have sown over twelve 
 pounds of clover seed to the acre, unless done by mistake, and I have always 
 liad large crops if any one else had in the neighborhood. My man once ac- 
 cidentally sowed, by the use of a machine, twenty-four quarts per acre of 
 clover seed. The result was, the clover never got taller than the natural 
 white clover we some seasons have in such quantities, but which is generally 
 too short to cut ; while that sown at about 10 lbs. to the acre was as good as 
 1 could wish." 
 
 Eobcrt L. Pell, of Ulster County, N. Y., once stated that he generally 
 sowed a bushel of clover seed per acre. Upon this Mr. Johnson remarks : 
 " I read that Mr. Pell sows one bushel of red clover seed to the acre. ISTow 
 such nonsense as this should not go out among farmers, a great many of 
 whom are opposed to anything like book tanning ; and when they see a record 
 of such folly, it is less wonder that they should believe nothing that is writ- 
 ten on agriculture further than their own practice." 
 
 The statement was, like many others, tnade without proper consideration, 
 and liable to mislead others. The quantity named by Mr. Johnson is correct. 
 Can any one tell the true value of an acre of clover, and whether it is worth 
 more to plow in than it is to rot upon the ground, or cut and cure and pass 
 'hrough animals, before it is given back to tlie earth as manure? And who 
 can toll the value of a tun of manure ; that is, as a smelter of ore can tell tlie 
 value of a tnn of it which he puts into the furnace? Does not the farmer 
 piit the manure into the earth for a similar purpose? One draws out refined 
 metal, and if that is worth more than the ore and fuel and laboi', then he 
 makes a profit. 
 
 The other has for an object to change the mass of dirt into corn, wheat, 
 and fine flour, which, after all, is notiiing but refined dirt, and upon the 
 process depends the profit, and one should be just as well able as the other 
 to tell the value of the crude article. 
 
Siio. 46.] GROWING AND HARVESTING CLOVER SEED. 75T 
 
 Slo. Growing Clover Seedi — Clover will produce only one crop of seed in 
 a season, and it'M'e allow it to grow until it has blossomed, and then permit 
 it to stand until the seed begins to form, or until the seed has formed, and 
 some of the blossoms begin to turn brown, we can not reasonably expect to 
 have much of a crop of seed the next time the clover is cut, because the 
 seed-producing substances have been too much exhausted to mature another 
 crop the same season. There is usually too much anxiety to get a good crop 
 of hay, and afterward ji crop of seed. It is better to be contented with less 
 hay in the first crop, and have more seed in the second crop, than to lose a 
 dollar's worth of seed for a dime's worth of hay. 
 
 It is said that the application of plaster to the clover field in spring will 
 secure a better yield of seed from the second crop, while a direct application 
 after mowing the first growth is found to increase the rankness of the hay at 
 the expense of the filling of the heads with seed. 
 
 816. HarvestiMg Clover Seed. — We recommend cutting when two thirds of 
 the head are brown. The chance of good weather is l)etter, and there is less 
 loss from shelling while handling ; and the straw is of greater value as fodder 
 than if allowed to stand until the whole is dead ripe. Besides, the later 
 ripening heads are poorly filled with seed. Sometimes, however, both the 
 first and second growth may blossom largely and yet produce very little 
 seed — from some cause not well understood. 
 
 The best inijdement for harvesting is a reaper — the grain platform at- 
 tached, with a board at the back edge to retain a larger amount of clover — 
 when full, to be pitched or raked oflf in heaps. If clover stands well, it may 
 be cut high ; it saves time in curing and labor in handling, and leaves 
 the dryer portions of the stalk upon the field. As soon as fairly dry it 
 should be drawn to the barn, as it can not be secured in the cock against 
 rain. When spread out, however, as when left in the swath, or in small 
 gavels from the reaper, it is little injured by rain, though heavy storms may 
 wash off a portion of the seed. 
 
 In cutting with the scythe, we may turn two swaths together to facilitate 
 the work of ra.king. With good weather it will be cured sufiiciently to di'aw 
 in the second day after cutting ; if not, it may be raked, when slightly 
 damp, into small bunches, or pitched together with a barley-fork. Care in 
 handling is requisite to prevent loss from the dropping of the heads, and, 
 from the stiff bush-like character of the straw, it may be placed in the mow 
 in a greener state than hay or grain, without injury. The moisture should 
 be dried oft', but an occasional juicy stalk will do no harm. 
 
 The seed can be separated from the straw with a common thrashing ma- 
 chine cjdinder, having a long shaker or box full of holes attached, so that 
 the heavier part of the chaff, which contains the seed, may fall through. 
 This work is best performed in freezing cold weather, when no dampness is 
 present in the seed or air. To get the clean seed, a clover-huller is em- 
 ployed — a machine which rubs the seed from the chaff, wdiich is passed 
 through it again and again, until the separation is complete. Wherever the 
 
758 THE GEASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 crop is much grown, there are farmers who make it their liusiness to go 
 from barn to barn with these machines — thrashing, hulling, and cleaning 
 the seed at a specified price per bushel, usually about one dollar. 
 
 If grown only in small quantities for home use, clover seed may be 
 thrashed with flails or trodden out witli horses and sown in tlie chafi", which 
 is full as certain to catch, and perhaps more sure than that cleaned ever so 
 nicely. Still it is diflicult to regulate the quantity as closely, or distribute 
 as evenly, as with tlie clean seed. 
 
 817. futtiug Clover for Hay. — Clover for hay should be cut when the 
 heads arc about two thiids open, and it may be housed the same day, and 
 salted with a peck to the tun, and will keep perfectly sweet, though sweat- 
 ing and turning almost black. We prefer to cock clover to cure, cover- 
 ing it with hay caps in case of danger of rain. The value of a crop of clover 
 for hay is esteemed great by all farmers, and some have learned to value it 
 higher for improving the soil for future crops than they do for hay. One 
 advantage over any olher crop grown to improve the soil is that its roots 
 arc earth-workers, and when they decay, they not only manure the soil, but 
 leave it light and porous. It is a question well wortii the consideration of 
 farmers, where clover grows heavy, so as to effectually shade the land, how 
 much is lost by not plowing under while green. Some suppose that the 
 shade, together with the mold of the clover on top of the ground, would im- 
 prove the land as much as plowing under. Others think the benefit pretty 
 much lost, and others still would consider it a dead loss to devote a crop of 
 clover to manurial purposes. They will cut it for hay, haul it home, and 
 haul the manure back again. 
 
 White Clover is seldom cut for hay. Its greatest purpose is for pasture. 
 Its growth should be encouraged by all who keep bees — it is good bee-pas- 
 ture. Tlie growth of white clover on soils natural to its production may be 
 encouraged and promoted by a top-dressing of plaster and ashes. 
 
 818. Lucern, Alfalfa, Lupins, etc. — Several of the plants named in this 
 paragraph are used for forage, though not jiroperly called grasses. They are 
 worthy of farmers' attention. 
 
 Medicago sativa (lucern) succeeds best upon limestone loam. It is par- 
 ticularly liable to be injuriously affected by weeds, to avoid which it is 
 generally sown in drills, and hand hoed in England, where its cultivation 
 has been mostly in small patches for soiling, for which it is very valuable. 
 Mr. Gould says : 
 
 " The best soil for it is a sandy one, resting on a porous calcareous sub- 
 soil. Its roots penetrate fourteen feet in depth, and hence a hard subsoil is 
 fatal to successful growth. It arrives at its greatest perfection after three 
 years. In one recorded case, eleven acres sufficed to keep eleven liorses 
 two hundred and ninety-nine days. In another, a field of eight acres kept 
 eight horses three hundred and fifteen days. In both cases a large number 
 of sheep were fed on the ground after the last cutting for the horses. Chan- 
 cellor Livingston, in Columbia County, N. Y., cut twenty-five tuns from an 
 
Seo. 46.] LTJOERN, ALFALFA, LUPINE, ETC. 759 
 
 acre in five mowings. It is ready for cutting about the first of May, and 
 may be cut over every thirty days thereafter. It is remarkably adapted for 
 milch cows, where the milk is sold in the market, but butter made from it 
 is not so sweet as from other grasses. It is greatly relished by horses and 
 cattle ; one hundred pounds of it will make twenty-five pounds of dry hay, 
 and its nutritive powers bear such a relation to those of timothy, that it is 
 worth $3 13 per tun where that grass is worth $5. The only diffioulty witli 
 lucern is to get it started. It must be sown in drills, and carefully hoed 
 iintil it is large enough to cover the ground. If this precaution is taken, and 
 a drouth does not occur just as the young plants are starting, it will be pretty 
 sure to succeed, and will last for twenty-five or thirty years. If, however, it 
 is overrun with weeds in the beginning, or a severe drouth occurs, it grows 
 feebly, and soon dies out. The seed is covered with a very hard "and coui- 
 pact coat, which, if the weather be dry, will greatly retard vegetation^ It 
 is therefore generally the practice to steep it in warm Avater, to soften tlic 
 coat, for six or eight hours before sowing. From fourteen to eighteen pounds 
 of seeds are usually sown on an acre ; but, as many of the seeds are imper- 
 fect, and as fine and succulent plants are more desirable than coarse and 
 rank ones, it is better economy to sow twenty -five pounds." 
 
 Alfalfa, sometimes called Peruvian clover, is l)eginning to be appre- 
 ciated in California. It can be cut several times a year, and aflTord a very 
 heavy crop. In deep soil the roots jjcnetrate so fat* that drouth does i;o; 
 prevent its growth, like ordinary grass or English clover. It should be cul- 
 tivated here for soiling cattle. 
 
 Lotus corniculattis (bird's-foot trefoil) is a prostrate perennial, common 
 on open grassy pastures and drj"- places. It is a leguminous plant, erpially 
 nutritious as clover, and is instantly eaten down whenever cattle have accc. s 
 to it. It is one of the commonly cultivated artificial grasses of Engla.d. 
 and is always recommended as worthy a place in all mixtures for perma- 
 nent pastures, and especially for lawns, orchards, and shady places. 
 
 Mcdicago liipulina is another leguminous plant, a fibrous-rooted peren- 
 nial, very common in dry pastures, especially if of good loamy qualiiy, 
 where it forms, with other plants, a thick sward. The pods are short, black, 
 twisted, and arrayed in oblong heads. It is not equal in nutritions quali- 
 ties, perhaps, to red clover, but is valuable on dry, jioor soils, where, how 
 ever, it is apt to run out in a few years. 
 
 White lupine is highly recommended as a fertilizing crop on sandy land, 
 where no other crop would grow. Portugal has been highly benefited by 
 growing lupine for soiling and manuring. It is of very rapid growtli, 
 ]iroduces a large amount of vegetable matter, and draws from the subsoil a 
 large quantity of alkalies. It is rarely or never injured by drouth or in- 
 sects, and is admirably adapted for enriching unfruitful sandy soils , while 
 its strong stems and roots oj^en and ameliorate, as well as enrich, heavy 
 tenacious clays. M. Vilmorin, of Paris, says it is sown in that vicinity 
 about the middle of April, after all danger from frost is ]iast. lie says the 
 
760 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 green niamire yielded by this plant is excellent. The seeds, soaked in water, 
 form a good cattle food, and the young plant is readily eaten by sheep. 
 
 Spcrijula Arvensis (Spurry). — !No plant has been more lauded for enricli- 
 ing sandy soils than spurry. Von Vogt states that by its use the worst 
 shifting sands may be made to yield remunerative crops. 
 
 Vicia Sativa (Vetch or Tare). — In England this is an exceedingly valua- 
 ble plant, especially on heavy soils. It can be sown in autumn or spring — 
 the latter generally yielding the heaviest crop, though the former is the 
 earliest. Vetches are principally used as a green food for horses ; an acre 
 of good vetches, fed in the yard or stable, will keep more horses than six 
 acres of the best pasturage. They succeed best in a wet season, and on this 
 account are not likely to do well in this country, though we have seen them 
 in Canada, and sheep and horses both fatten upon vetches foster than upon 
 clover. They are good, too, for all horned cattle, particularly milch cows. 
 Pigs eat vetches as well as clover, and thrive witiiout grain. Mr. Lawes' 
 experiments on vetches, extending over many years, prove that, like peas 
 and beans and clover, vetches are an enriching rather than an impoverish- 
 ing crop. 
 
 Barn Grass. — The editor of the Maine Farmer thinks that very common 
 plant in New England, known as barn grass, would prove as profitable for 
 cultivation in that section as Hungarian grass of Iowa notoriety, which it 
 very much resembles. Both are annuals, and if grown upon a good corn 
 soil will produce a heavy crop of green or dry feed, but no grazing after 
 being mowed. Wc have never considered the barn grass a valuable forage 
 plant, and do not believe it will ever come into general use, because Indian 
 cornstalks are more nutritious, and will produce more per acre when sowed 
 in drills or broadcast. In a dry season, and on good soil, it will produce 
 more than most of the grasses that we cultivate. Horses and cattle like it 
 when the seed is in the milk. Horses and poultry like the seeds. There is 
 as much farinaceous matter in the seeds, in pi'oportion to the size and weight, 
 as in some of the cultivated grains. 
 
 819. Hungarian GrasSi — This is a new name for an old thing. It was in- 
 troduced into France in 1815, and has met with much favor. It germinates 
 readily, withstands drouth to a remarkable degree, remaining green even 
 when other vegetation is parched up, and if its development be arrested by 
 dry weather, the least rain restores it to vigor. It has numerous broad and 
 long leaves, so that it affords a great amount of nutrition for stock. 
 
 According to Mr. Flint, Hungarian grass flourishes in somewhat light 
 and dry soils, though it attains its greatest luxuriance in soils of medium 
 consistency, well manured. One of its characteristics will go far toward 
 recommending it to farmers. Mr. Cornell says that one piece of his was 
 blown down by storms three times in succession, and each time i-ecovered its 
 upright growth. He thinks it twice as heavy as timothy. On poor soil it 
 attained a hight of two and a half feet, but on a small patch, more highly 
 manured, it grew to even three and a half feet. This grass is a good forage 
 
Seo. 46.] HUNGARIAN GRASS. 761 
 
 crop on the rich lands of the West. It will exhaust soil, and if it is not rich 
 it will not produce a profitable crop. Tlie time of sowing is the same as 
 tliat of oats. We would use a peck of seed per acre, and cut for hay before 
 the seed is in the milk. It should be cured like tiiuothj', and stock will eat 
 it as well — many say better. The Hungarian grass is millet. Whether 
 precisely the old German millet or not, which has long been cultivated in 
 this country, is no matter. It is, at least for the prairie farmers, a good 
 crop plant. The sellers of "honey blade grass seed" are knaves of the 
 meanest sort, when representing the seed they sell as anj'thing but millet, 
 and millet is no new thing in this country. In some sitiiations it certainly 
 is a good thing, and we liope its cultivation will rapidly increase, but we 
 object to humbugging anybody into it under the impression that they have 
 found a new variety of grass, under the name of " Hungarian." 
 
 A farmer in Illinois says: "As a forage plant for milch cows and cattle it 
 is, I believe, an excellent article, when sown thick and not allowed to ripen 
 the seed, or to feed after the seed is thrashed out. For horses, it will not 
 do to feed with seed. Wliere it does not produce death it reduces the 
 animal's strength, though not always his condition as to fat or lean. From 
 feeding with this grass I have lost three horses. The seed is to horses a 
 stimulating diuretic, acting upon the kidneys energetically ; and when used 
 continually, the increased diuresis produces irritation and inflammation of 
 the kidneys, weakness of the loins, shortness of breath, inability to undergo 
 mucii exertion, and death ensues, unless tlie cause is removed and remedied. 
 I do not think it too rich a food, but the oil contained in the seeds is injurious. 
 It operates upon cattle also as a diuretic, and rather more so than I like in 
 mileh cows, unless fed upon shorts or bran at the same time. My opinion 
 is tliat the straw is a good feed when not too coarse, but with the seed, in- 
 jurious to horses and sometimes to cattle. In one experiment made with 
 Hungarian grass upon two acres, tlie seed, sown the first of July, ripened 
 before frost, and two tuns of hay per acre were cut. A third of a bushel of 
 seed sown broadcast suffices for an acre." 
 
 The j^orthioestern Farmer says : " It is well known to those Avho have 
 fed the Hungarian grass, that it is remarkably nutritious, and that horses and 
 other stock thrive more rapidly when fed on it than when fed on any other 
 kind of coarse forage. Hence it should be fed more sparingly. If any 
 injury has resulted from feeding it as stated, it can only be accounted fo-r in 
 the action of the seed upon the animal organism. The seed is as rich as 
 Indian corn, and should 'be fed with care, as horses are liable to eat too 
 much." 
 
 One farmer says of it: "I have been told that it is not safe to feed to my 
 horses, as it Avould obstruct tlie flow of urine. My opinion is the reverse. 
 I tliink it somewhat diuretic and aperient, especially for animals that are 
 worked hard. 
 
 " If I have a horse, colt, cow, or calf that appears unwell, I feed Hunga- 
 rian hay as a remedial agent, and have been gratified upon all such trials to 
 
763 THE GRASSES— THEIR CULTIVATION AND USE. [Cdap. IX. 
 
 see how soon the animal would begin to gain. I consider it the Lest hay 
 we can have, if fed properly. I would say, never confine your working 
 liorses to this hay alone, but alternate with prairie hay or some other kind. 
 If fed in mangers in tight stables, a dust arises from it that will make horses 
 cough." 
 
 From all we have learned by our own experience and that of others, we 
 can not commend its cultivation to farmers in the Eastern States ; and this 
 we find to be the opinion of many others. We liave, however, one cor- 
 respondent at Bristol, Addison County, Vt., who is jubilant over his siiccess 
 in growing Hungarian grass — two tuns of dry grass and nearly twenty-five 
 bushels of seed from four quarts sown. He says : " It is a very nutritious 
 and sweet grass, and a great favorite with horses and cattle. Sowed June 1, 
 it matured by August 1, standing dry weather well. Tlie average yield 
 is said to be six tuns of dry grass and thirty bushels of seed per acre. The 
 stalk is finer 'than timothy of the same length, witli fine, succulent leaves. 
 It forms a large stool from a single seed, and, although an annual, will pay 
 better than most of the perennial grasses, as the hay is good when mature 
 enough to ripen its seed, which is as valuable as oats." 
 
 Tlie followiug statement about Hungarian grass is from the Oenesee 
 Faritur, the editor of which, we believe, would not say a word for or 
 against it which lie did not believe to be strictly true. As lie is a man of 
 scientific acquirements, his statement that it is nearly or quite identical with 
 tiie common millet, may be accepted M-ithout hesitation. He says : 
 
 "This grass has attracted a large share of attention at the West, where it 
 has supplied, to a great extent, the place of timothy grass, wliich it is difli- 
 cult to grow on account of winter-killing. It is nearly or quite identical 
 with the common millet, Setaria Germanica, growing, perhaps, not quite as 
 large straw, and a trifle smaller seed, or about the same as millet, on rather 
 poor soil, sowed quite thick. That it is valuable as a forage plant, all know 
 who have ever grown the millet to any extent ; and to the farmers at the West 
 it has been a great boon, from its quick and luxuriant growth. It is an annual, 
 thriving best on warm, rich, sandy soil, and may safely be calculated to 
 yield from two to three tuns of cured hay, which horses and cattle prefer 
 to the best timothy. To be obtained in the best form of hay, it should be 
 cut as soon as the seeds on the tops of the stalks begin to turn, and before 
 the bulk of them are I'ipe. We commend it, either as Hungarian grass or 
 millet, to the attention of fai'mers, not for making their fortunes, but as an 
 excellent auxiliary as food for farm stock. This is the testimony of farmers 
 in Monroe County, N. Y., who have grown it, and liave no seed to sell, either 
 as millet, Hungarian grass, or honey blade grass." 
 
 820. How Much Grass Seed per Acre ? — ^The answer to this question would 
 vary in almost every neighborhood. To answer it understandingly, we must 
 know the number of seeds contained in a pound or in a bushel. 
 
 A table, in an English work, gives the following calculation of several 
 ^inds of seed : 
 
Seo. 46.] 
 
 SEEDING GEATN LAND WITH GRASS. 
 
 763 
 
 Seeds per lb. lbs. per bus. 
 
 Italian rye grass contains .. . 270,OUO 18 
 
 Red clover 250,000 60 
 
 White clover 687,000 61 
 
 Sweet vernal grass 925,000 
 
 Drumhead cabbage 112,000 
 
 Scotch drumhead 127,000 
 
 55 
 
 Seeds per lb. lbs. per bus 
 
 Swedish turnip 154,000 54 
 
 Buckwheat 26,000 54 
 
 Eye 22,000 56 
 
 Barley 15,000 60 
 
 Wheat 11.000 60 
 
 Oats 21,000 32 
 
 tliat 
 
 An important condition to the l.ealthy germination of all seeds 
 they sliould have become perfectly ripened before being collected. 
 
 Another condition is, that they should not be sown too early in the spring, 
 as no seed has ever been known to germinate belOw the freezing-point. 
 
 It is of the first im]3ortance in raising any kind of crops, tliat the seed 
 sown should be perfectly good, fresli, and thoroughly ripened. It is gene- 
 rally kept in shops for so great a length of time that it is often in a state 
 unfit for vegetating when purcliased by the farmer. 
 
 In rich, well-disiutegrarcd soils, every good seed grows, while in poor, 
 badly tilled soils, be the seed ever so good, half of tliem will fail, particularly 
 in diy seasons, and a third of those that come up will die afterward. 
 
 Rich soils are supposed to require a smaller number of seeds tlian poor 
 soils, as in the rich earth they have a much better chance of growing and 
 becoming luxuriant, thus individually occupying greater space. 
 
 In deciding upon the proper quantity of seed to be sown, the farmer must 
 consider whether the season is favorable or not, or he may meet with serious 
 loss. Our opinion favors a very liberal seeding of grass and clover. Timothy, 
 say twelve quarts sown with winter grain in the autumn, to which add 10 lbs. 
 of clover in the spring. It is a good plan to sow it on the last snow. Red- 
 top seed is sown in the chaft', three bushels per acre. Orchard grass in tlie 
 chaff, one and a half to two bushels. It is good economy to sow grass seed 
 and clover with every crop of small grain. Tlie growth of only a few 
 months, say from the haiwest of winter grain till time to plow for Indian 
 corn, makes a great deal of manure for the next crop. As a rule, never 
 leave the earth naked. 
 
 The globe is a mass of vegetable life. Plants are the universal covering — 
 the dress of the naked earth. Their functions are to reclaim naked, barren 
 spots, and improve all its snrfoce. They are the basis of animal life and ex- 
 istence ; their very beauty, their social and benevolent language, render even 
 this troubled scene a place of delight. He who communes and meditates 
 among trees and flowers shall find his Maker there to teach liis listening heart. 
 
 821. Seeding Grain Land with Grass.— If a field of wheat is well harrowed 
 in, and the ground is fresh, it may be sown with timothy without doing any- 
 thing further; the first shower will cover the seed sufficiently. If the sur- 
 face is not entirely smooth, it will pay to drag over it a large bush when the 
 grass seed is sown. Some land that is pretty wet is apt to send the timothy 
 ahead of the wheat in the spring, and injure the crop. Such land had best 
 not be sown till spring. It is a good plan to sow upon a light snow, if tliere 
 is one at the right time. "When it melts, tlie grass seed will be sufficiently 
 covered. If there is not a snow, or if the laud is dry, the grass seed may be 
 
764 TOE GRASSES— THEIR CULTIVATIOIf AND USE. [Oit.vp. IX. 
 
 sown ill March, and liglitly harrowed or bushed in without any harm to the 
 wheat. If wheat land is to be seeded to clover, we would mi.\ the seed with 
 plPvSter, and sow it in March or April, without harrowing. The quantity of 
 timothy or clover seed per acre varies from four to eight quarts, and plaster 
 from lialf a bushel to two bushels. In sowing grass or clover seed upon oat 
 ground, care should be taken to sow it directly after the oats, while the 
 ground is fresh ; and it will be an advantage to roll the land, or drag it 
 with a bush. There is no method of manuring land so clieaply as sowing 
 grass or clover seed, and turning in the sod with a Michigan plow for a 
 hoed crop. 
 
 The foundation of all good husbandry upon any farm not devoted to some 
 special crop, as cotton, sugar, rice, fruit, is an abundance of grass. And this 
 grass, either as grazing or winter keeping, must be fed on the farm to 
 domestic animals. It can not be sold off" without endangering the fertility of 
 the land. Every Northern farmer who would be successful, must devote his 
 energies to making his farm productive in grass. 
 
 822. Seeding Indian Corn Land with Grass. — It is not uncommon in some 
 places to seed corn-land with some sort of small grain, not so much for the 
 crop as to protect the grass or clover with which it is desirable to seed the 
 land. Sometimes corn-ground is put in small grain at considerable trouble, 
 for the purpose of seeding it to grass or clover, the grain crop not being 
 considered an object, as it is, compared with other crops, not a profitable 
 one. "We presume such farmers never think, because they never heard, that 
 they could just as well sow their grass seed among the Indian corn as among 
 the wheat or rye stalks, and that oue would serve as a shade for the young 
 plants just as well as the other. 
 
 Where it is intended to seed corn-land, care must be taken in the last 
 working of it to leave the surface as level and smooth as possible ; then sow 
 the seed and harrow with a light, fine-toothed one-horse harrow both ways, 
 or else rake between the hills where the harrow teeth do not touch, with an 
 iron-toothed hand-rake. 
 
 If the stalks are cut above the ears, in the way common in all the East- 
 ern States, we would pluck the ears wlien ripe, and Iea,ve the but-stalks 
 standing till spring, and then roll them down. If the corn is cut up by the 
 ground, the stubs may be rolled or beaten down in the spring ; and if there 
 are any sjJots where the grass seed did not take well, they may be re-sown 
 and harrowed, raked or bushed. 
 
 There is probably no way in which land can be cheaper or better seeded 
 than by sowing the seed among corn ; and a good mixture will be found to 
 be composed — of clover, five pounds ; red-top, one peck ; timothy, one and a 
 half pecks per acre; and if for pasture, we would add four or six quarts of 
 orchard grass, and we would not take any pains to level the surface. In the 
 spring we would sow at least a bushel of plaster per acre, and we are sure 
 that the change from corn to grass will be quicker, easier, and more certain 
 in this way than in any other. 
 
Beo. 46.] SOWING GRASS SEED IN AUTUMN. 765 
 
 An Illinois farmei* gives his experience in seeding corn-land as follows : 
 
 " The men Avere set to work about the middle of August, or a little be- 
 fore, with garden rakes to smooth the rough places and prepare the ground 
 for seed. We then sowed liberally with timothy. We cut the corn up at 
 the ground as usual. In the spring we rolled the ground while rather soft, 
 and have seldom liad fields left in smoother and better condition for the 
 mowing machine. The seed took remarkably well, and produced the next 
 year a fine croi) of excellent hay." 
 
 Farmers need not fear to sow grass seed and plow it in among corn. 
 Some farmers of our acquaintance have tried the experiment of plowing it in, 
 and are convinced it is the best way of planting. It is contended that where 
 it is deeply buried it will vegetate and find its way to the surface in time, 
 and having roots deep set it withstands the drouth l)etter than it does when 
 sown upon the surface or only slightly covered ; and, besides, it is not so 
 likely to heave out. 
 
 One man says : " I have practiced sowing g-rass seed and plowing it- in 
 for twelve years, and I have sown on five different farms in this way, and 
 on every variety of soil, from gravelly ledge to black muck, and n 'ver 
 failed to get a fair crop of grass when seeded in tliis waj' ." 
 
 823. Sowing Grass Seed iil Autumn. — P. Morrill, in the Maine Farmer, 
 offers the following reasons for sowing grass after harvesting tlie grain crop, 
 instead of with it in the spring : 
 
 " Grass seed should be sown in autumn, because it is tlie natural time, as 
 much so as winter rye or wheat. By turning under stubble for sowing 
 grass seed, you give it the clean possession of land. If sown witli grain in 
 the spring, the tender grass plants are cro\Vded by grain and weeds above, 
 and their roots below, and for three months they have a hard struggle for 
 life in the shade. All plants derive the chief part of their bulk and value 
 through their leaves, and in harvesting the grain by mowing the grass- 
 leaves are nearly all cut off, leaving the bare stalk suddenly exposed to the 
 scorching, withering rays of the sun. I plow the land just deep enough to 
 cover the stubble completely, harrow with a light harrow, tlien sow the 
 grass seed, and brush it in thoroughly." 
 
 Another farmer says : " The best way I have found to raise good timothy 
 is to get your ground in good order, the same as you would for wlieat, and 
 harrow very fine, and then the beginning of September sow one bushel of 
 timothy seed to four or five acres, and give a light harrowing after." 
 
 A writer from Buchanan County, Iowa, says that lie prepared ground in 
 September, harrowed and sowed six quarts of timothy seed per acre in 
 March, and from nine acres made twenty tuns of good hay in July. 
 
 Anotiier says : '^ I would always sow timotliy in autumn, and I have had 
 considerable experience in sowing and raising grass, especially timothy, and 
 have always found wliere I sowed a peck to the acre, the grass was sufli- 
 ciently thick, "and sometimes too thick, and have come to the conclusion 
 that one bushel sown to five acres is nearer the proper quantity." 
 
766 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 824. Seeding Prairie Sloughs to Red-Top.— An old farmer of Cedar 
 County, Iowa, wants ns to advise all prairie farmers to turn their sloughs 
 into red-top, as it is a much more valuable crop than the natural growth. 
 He says : 
 
 " As soon as the ground thaws enough in the spring sow your seed, say 
 one liushel to six acres, and harrow well to cut the sward, so that it will 
 take root and grow. Then mow it before harvest, so as to give it a chance 
 by the aid of autumn rains. If left too late, the wild grass will smother it 
 out. Do not be discouraged if it does not head out the next year, but mow 
 as before, and ever after you may look for an unfailing crop — say two or 
 three tuns per acre. AVhen there is plow-land on either side it can be got 
 in around the edges without the use of tlie harrow, as the wash will spread 
 over so that it will take root. I choose this method in preference to break- 
 ing. Some jjrefer ditching, but this is an error. Only where the water re- 
 mains during the whole year is ditching necessary. For pasture, one acre 
 of red-top is worth three of the slongli grass." 
 
 In many places, particularly in Northern Indiana, there is a native red- 
 top grass that is equal to anything of the name for hay for all kinds of 
 stock. ISTo doubt that could be extended by cultivation upon the plan above 
 recommended, which we know is a good one. 
 
 825. A Cheap and Speedy Way to set a Grass Plat.— A iady gives the 
 following plan : " At different times during last season, in improving the 
 grounds about the homestead, we had occasion to sod several pieces, but no 
 rich, thick-set grounds were convenient where we could procure the turf 
 entire ; we therefore adopted anotlier plan. We procured less perfect sods, 
 cut without care, and threw them into the cart promiscuously ; and after 
 plowing the ground well to receive them, we chopped them up into small 
 pieces, say from one to two inches across, more or less, and worked these 
 under the surface, barely covering the roots. After the first rain, these 
 small pieces of turf sent up numerous blades, and in a short time the 
 ground became entirely covered with grass. Tiiese experiments were tried 
 several times from July till September, and always with ]ierfect success, 
 though of course the latest planting did not become so thickly set before 
 cold weather set in." 
 
 In all ordinary cases we should prefer this method to entire sodding, even 
 if turf was at hand, on account of the saving of time and expense. Blue- 
 grass roots are very tenacious of life, and when scattered in the way above 
 named, so as to cover one quarter of the ground, will soon spread so as '.o 
 make a thick-set lawn. 
 
 820. The Way to Harvest Timothy Seed.— If the timothy is very tall, 
 and not too heav}', cut it with a grain-cradle, as high as practicable, and 
 after it is raked and bound, set it up in long shocks, to cure about three or 
 four days — then it is hauled to the barn. Then cut the stubble close to the 
 ground for hay. Sometimes when the bottom of the grass is not very thick, 
 cut it with a machine close to the ground, and leave it in small gavels for a 
 
Sec. 40.] NOTES ON MEADOWS AND PASTURES. 767 
 
 day or two, if the weather is favorable foi- hay-making ; then turn them 
 over, stir them up a little, aud bind, and when cured, haul to the barn, and 
 spread over a large surface, so as not to injure the vitality of the seed. 
 
 Another way is to mow the grass with a scythe as soon as the seed is ripe 
 enougli, and allow it to remain about one day in the swath ; and the next 
 day, turn the swaths upside down. Should there be some very thick, green 
 bunches, they should be stirred up, so that the whole would dry out in a 
 day or so if the weather is favorable. 'As soon as it is cured, we would 
 bind iu small bundles, aud shock it, and allow it to cure for several days, 
 when it may be stacked or put in the barn. Most farmers allow their seed 
 to remain too long in the field after it is cut. 
 
 In mowing timothy grass for seed, it is very desirable to have it all laid 
 evenly aud straight, as if it had been cradled, so that we can bind it. In 
 order to do this properly, a man must be not only a good mower, but he 
 must have the knack of fetching his scythe around at every clip in such a 
 manner that his swath will not be tumbled over and over, as it sometimes is 
 when we mow grass for hay. It is almost impossible to give the necessary 
 directions on paper how to do it; but, in the first j^lace, it is very important 
 to point in low. This must be done by dropping the entire scythe, from 
 heel to point, flat on the ground, and keeping the heel down on the ground 
 through the entire clip or sweep. 
 
 827. S»teS on Meadows and Pastures. — The follo^ving excellent 'article is 
 from tlie pen of Professor Buckman, of England : 
 
 " Plants are weeds in pastures, if tliey do not add to tlie crop either of 
 grass or hay. The following plants take up spaces, but yield no produce. 
 That is : Bjoad-leaved plantam {Plantago media) ; Dandelion {Leontodon 
 taraxacum) Daisy ; {Bdlis pereiims). The leaves of these grow too close 
 to the ground to be eaten off by cattle or be cut by the scythe. 
 
 "Cowslip {Primula veris) ; Primrose {Primula vulgaris) ; Green-winged 
 orchis {Orchis mono); Early purple orchis {Orchis masctdo). These take 
 up room in growing, are not eaten by cattle, and being dead before hay- 
 making, add little or nothing to the rick. 
 
 "Wo have just been examining a pasture full of the first three sf)ecies 
 of the above list. Of the plantain wo made out as many as twenty-five 
 iu the square yard, varying from two to six inches across ; we removed 
 them, and bare patches to the extent of a quarter of the surface was the re- 
 sult. Of tlie dandelion we have as many as six tufts in the square yard, 
 each more than half a foot across: we remove them, and in so doing have 
 sown some hundreds of flying seeds over the rest of this field, or sent them 
 to our neighbor. And now for the ' wee, modest, crimson-tipped flower,' 
 looking So bright with its silvery stars dotting the green field, surely this is 
 not a weed ? Alas ! yes, all is not gold that glitters, or silver that is bright, 
 and on the spot where the daisy is growing, a grass root is not, and we liave 
 just stepped out to look at a meadow half daisies. However, as regards 
 these three plants, there is no doubt that the first two are the most mis- 
 
768 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 chievous, and the question of how to keep plantains and dandelions out of 
 the pastures, and still more out of lawns, is one worth more attention than 
 has yet been given to it. With respect to the plantain, we know of no 
 better method than absolutely cutting them up with a common knife and 
 dropping a bit of salt in each hole, as without tliis they spi'out up again 
 from any part of the old crown that might be left in. 
 
 " Mr. Bail}'' Denton invented an implement for this kind of weed destruc- 
 tion, which would eject a caustic fluid as it cut up the plants, and he named 
 it the scorpion spud. A boy with a knife can easily clean pastures very 
 foul with plantain and dandelions, at one shilling an acre, a cost which 
 Avould be amply covered by the first hay crop, for it would, indeed, be a 
 comparatively small admixture of plantain that did not take up the space 
 that would grow a hundred weight of hay. 
 
 " As regards seeds for laying down 2:)ermanent pasture, care should al- 
 ways be exercised to prevent this |)lant from being sown, as a few seeds 
 will soon stock the ground ; and if the new pasture is left pretty much to 
 itself, for some two or three years the plantams will increase very rapidly. 
 It should be considered that a single root may in one year produec from 
 three to six thousand seeds. 
 
 " Care should be taken to prevent the seeding of dandelions in waysides 
 and waste places, as each flower-head may produce one hundred and sev- 
 enty seeds and twelve heads to a single root at one time, and they keep on 
 forming for several months ; it is indeed of consequence always to prevent, 
 if jiossible, all weeds from seeding. 
 
 " ' One year's seeding, seven j'ears' weeding. 
 
 "There are many other plants in meadows that die out before grass- 
 cutting ; but still, as they grow with the gi'ass, and take up space at the 
 most critical time, as far as yield is concerned, tliey are very detrimental, 
 and to its hindrance ; they are, besides, evidence of poverty and bad man- 
 agement, wliich only exists in bad grass-farming. Cultivate on proper prin- 
 ciples a meadow in wliich tliey occur, and the amount of success M'ill be 
 indicated by their more or less rapid decrease. 
 
 " Plants which, tliough innocuous, yet take ixp space, and so dilute the 
 quality of the hay and injure the productiveness of the pastui'age, are 
 named below. This oflers a somewhat large list, as all the plants found in 
 pastures, which have a tall growth, have neither spines nor other mechanical 
 hindrances, nor any poisonous qualities, must be ranged under tliis head. 
 These are injurious, simply because they take up space whicli niiglit l)e bet- 
 ter appropriated to the growth of grass or some nutritious herbage ; for, as 
 they have no qualities to cause them to lie eaten by cattle, so in the hay 
 they do not nourish but simply dilute the bulk. 
 
 '• Blunt-leaved dock {Rumcx obtusifolius) ; Crisp-leaved dock {Bumcx 
 crispua) ; Marsh dock {Rumex 2Mlustris). All tiiree are rather common 
 meadow plants, especially in damp places. 
 . '• Burdock {Arcthcm lajypa). Often found in the borders of fields. 
 
Sko. 46.] KOTES ON MEADOWS AND PASTURES. 769 
 
 " Butter burr (Petusites milgaris). Occupies tlie sides of water-courses. 
 
 " Cowparsnep {Ilera'cleum sj)hondi/lium) ; Wilcl-heal<ed parsley {Anthris- 
 cus vulgaris). These two umbelliferiE are very common, and most imsiglitly. 
 
 " Ladies'-smock {Cardamine prate7isis), found in wet meadows, and Com- 
 mon yellow rattle {RlnnantMis crista gaUi) in very poor meadows, and the 
 Ilawk-weeds and others (the several Composite^)., everywhere. 
 
 "These, though only offered by wa_v of examples, yet in themselves make 
 up a formidable list of plants injurious to the pasture. Their large roots 
 and tall stems take up much space to the injury of the grass ; and though 
 it is quite true that they go far in making up weight in the trusses of 
 hay, yet the hay will always be of an inferior description ; and in fields 
 where plants of this character prevail we shall often have a good pasturage 
 for cattle — that is, the animals will get on well on the grasses, of which 
 only they will partake ; and then one is too apt to be astonished that good 
 feeding meadows shouhl yield a poor hay ; but the truth is that hay, with a 
 fourth of its bulk and weight of these objectionable plants, is diluted to that 
 extent by rubbish with no feeding qualities, and well indeed is it if they do 
 not many of them contain positively injurious principles. 
 
 " IIow, then, are we to get rid of these pests ? The simplest answer, 
 with regard to the docks and umbelliferre, will be — Let them get tolerably 
 strong in their stalks, and then take the opportunity, when the ground is 
 soft, to pull them out of the land. They must not be mown, as in this way 
 small branches, or buds that will make branches, will seed before the sum- 
 mer is over, and then fifty new plants will apjiear for one old one that wo 
 have destroyed ; but by pulling, we take out the crown, and usually enough 
 root to destroy it. 
 
 " But now, as regards pulling docks when the flower has advanced, it is but 
 right to caution the farmer against the practice of putting them in a corner 
 of the field, out of the way, for the thick succulent roots will have sufficient 
 vitality, and especially if kept moist by companionship, to grow again." 
 
 S28. Remedy for Short PastiireSi — ^Those who have but a limited raiige of 
 pasture, and keep stock enough to crop it close, are always at the mercy of 
 the weather. If there chance to be favoring rains, and a good season for 
 the growth of grass and clover, all is Avell ; but if, as frequently occurs, 
 there comes a long period of drouth, the brown fields, already close cropped, 
 fail entirely, having little to protect the roots from the full power of the sun, 
 and the cattle suffer, and milk-pails show serious diminution, the dairy 
 profits shrink, and the effect of the drouth will be felt throughout the sea- 
 son, for much of the pasture being thus summer-killed, the full flow of milk 
 can hardly be regained. 
 
 This may be guarded against by putting in a small plot of corn, sorghum, 
 millet, or other suitable crop for cutting and feeding green. An acre of 
 corn sown broadcast will very soon yield sufficient to give great relief to 
 the short pasture. It is not necessary to stable the cows ; cut a good supply 
 for them, and feed night and morning before they leave the yartl ; they will 
 
770 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 eat it with a relish, and make ample returns in the milk-pan and tlie churn. 
 Even if the threatened droutli does not come, and abundance of grass should 
 grow, the soiling crop need not he lost. Cut at the proper season, and pro- 
 perly cured, it will not come amiss next winter. 
 
 829. Mixing Stock iil PasturCt — In Nos. 24 and 110 we have treated upon 
 overstocking the farm, and how many cows an acre of good pasture should 
 support, hut no one will get the full value of his pasture if he has but one 
 kind of stock. There is just as much economy in grazing bullocks and 
 sheep upon the same farm, as there is in having hogs follow the herd while 
 feeding corn. Every feeder knows that hogs will fatten well upon the drop- 
 pings, and every grazier who ever tried it, knows that sheep will fatten upon 
 herbage rejected by the bullocks, and the paBture for both classes of animals 
 will be improved, and if not overstocked, both will do better than one sort 
 alone. 
 
 830. Improving a Wild Pasture by Sheept— Mr. Fay, of Lynn, Mass., states 
 " that on a tract which was overrun with woodbine, briers, and other shrubs, 
 he turned 150 sheep. At that time a cow could not have lived on tlie 
 whole tract. The sheep were kept there several j^ears, and so killed out the 
 wild growth that the tract now affords good pasture for 15 cows." We sup- 
 pose the sheep were fed elsewhere, and were occasionally turned on this 
 waste land merely to enrich it by their droppings, and kill out the useless 
 herbage and shrubs. 
 
 We have known a great deal of this work of killing out bushes and briers 
 done by the aid of salt — fine salt thrown upon the leaves while wet, to induce 
 the sheep to browse them off. In this way a thick plat of hushes may be 
 so killed out in a single year, that the land will take grass seed. 
 
 831. Cattle Forage— How to Produce and how to Use itt — Tliis is one of 
 the most important questions for the stock farmer, both summer and winter. 
 Manuring pastures is not as unprofitable as some persons suppose. A dress- 
 ing of either lime, ashes, plaster, superphosphate, guano, hone-dust, niter, 
 jjotash, salt, upon pasture, will almost always increase the feed to a value 
 much above the cost of the application. If pastures fail in drouths, catlJc 
 must be fed. The question is, upon what ? We answer, any green food that 
 can be grown in season. At one time, rye — another, oats — then, corn, buck- 
 wheat, turnips, etc. Grinding grain increases its value. 
 
 One writer suggests grinding the entire straw and grain together. Will 
 that pay? We doubt it. Mucii has been said and done about grinding 
 cobs to increase the forage. We would give just as much for basswood 
 rails as for corn cobs, to grind for any kind of stock. For hogs, we believe 
 cobs are absolutely worthless. For horses, neat cattle, or sheep, clean cut 
 straw is better than ground cobs. As to grinding corn fine or coarse, it 
 does not make so much difference, if fed immediately to the hogs. For any 
 other purpose on earth, coarse meal is better than fine; and for human food, 
 fine meal that has been ground a month is absolutely deleterious — it is not 
 fit to eat. 
 
Sbc. 46.] AMOUNT OF FODDER KECESSARY. 771 
 
 One farmer says : " I found that cob meal lessened the richness of the 
 milk, tliougli one animal fed with corn and cob meal did thrive better than 
 upon corn alone. 
 
 " Corn cobs weigh seven pounds to the bushel, and some of my neighbors 
 say it will not pay the extra cost of grinding the cobs, as it costs a quart 
 more corn to grind a bushel of the cobs and corn together, than it does to 
 grind the corn alone, so that in fact we give a quart of corn for seven 
 pounds of cob meal. I have ground a good many cobs, and luive now 
 thrown away my cob-mill, and would not give it house-room. I can not 
 afford to grind cobs, nor to feed any grain ungrouud ; and I can not afford 
 to feed hogs with uncooked meal. I cook meal six or seven iiours, and I 
 practice feeding it to hogs hot. The corn cob has some value, but not 
 enough to pay for grinding. We can not grind cobs fine without great 
 expense." 
 
 832. Amoiiut of Fodder Necessary. — " The Springfield (Mass.) liepuUican 
 states that William Birney has wintered forty-two cattle, three horses, and 
 four sheep on the produce of sixty acres of land, which, supposing the whole 
 stock to equal forty cows, gives an acre and a half of land for the annual 
 sustenance of each animal. Wheat bran and oil-meal are purchased and 
 used for the stock, which is balanced by the disposal of corn and hay of 
 equal value. The amount of fodder consumed daily by Mr. B.'s stock is 
 stated as follows : 
 
 378 lbs. of chaffed com fodder and straw. . $1 89 
 
 77 lbs. lonr; hay 70 
 
 120 lbs. wheat bran 1 20 
 
 10 lbs. oil-meal 17 
 
 10 lbs. cob-meal 12 
 
 " This makes a cost of about seventeen cents a day for each animal. It is 
 stated that the stock is in fine condition, and that the quantity of milk 
 diminishes when steamed food is withheld. Mr. B. generally cooks twenty 
 bushels of roots per day for his stock, and on feeding, by way of experiment, 
 the same quantity raw for three weeks, there was a diminution equal to a 
 quart of milk a day to each cow." 
 
 Estimating the roots at fifty pounds per bushel, and adding that to the 
 other articles, will make 1,595 pounds of food daily ; divided between forty 
 cows, is within a fraction of forty pounds of food to each, which is 14,600 
 pounds for the year. This is seven tuns three cwt. per annum for each cow, 
 M'hich looks like pretty strong feeding ; but we have just read a statement 
 of a writer who declares that it will require from five to six tuns of the best 
 timothy hay, or its equivalent, to support an animal twelve months ; and as 
 no land in this country has produced this quantity, he argues that no man 
 can sustain a cow per acre. With him, two horses and sixteen cows, 
 mostly dry, consumed a tun of hay per week, besides brewers' grain and 
 turnips in abundance. 
 
 20 bushels roots S2 00 
 
 Fuel for steaming the above 40 
 
 Total $6 48 
 
772 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 SECTION XLVII.-HAYING AND HAYING MACHINES. 
 
 ^ N the single, eompreliensive word haying, we have the 
 y most important matter connected with American agri- 
 cnltnre. The hay crop is of more vahie than the cotton, 
 the corn, or the wlieat crop, or any other single article of 
 farm produce, and upon many fiirms of more value than 
 all others combined. Of what immense importance, then, is 
 haying. Of what vast consequence to individuals, and to 
 the whole country, that the best of all appliances that modern 
 ingenuity has provided should be brouglit into use to save 
 the hay crop — tlic crop upon which tiie lives of three fourths 
 of all the horses, cattle, and sheep in the United States de- 
 pend from November to April. One lialf of the year, in 
 the States that produce the working animals, as well as 
 beef, butter, cheese, hides, mutton, and wool — these animals 
 so necessary to our existence as a civilized people, must be mainly sup- 
 jKirted u])on ha}'. We could find a substitute for every other crop grown. 
 For hay there is none. 
 
 Farmer! have you thought liow much depends upon the four weeks of 
 haying time ? Are you provided with the tools necessary to secure this im- 
 mensely important crop in the short season that nature gives you ? For you 
 must " make hay while the sun shines ;" and tliat never again will shine 
 enough during the haying season, in this country, to enable you to make it 
 with poor old hand-scythes, fastened to crooked sticks cut in the woods, and 
 forked sticks for pitciiforks, with rakes to match — such as were in almost 
 universal use in New England fifty years ago. 
 
 You can not secure j'our crop with such tools. Fortunately, you have no 
 need to use such. None but a sloven will. None but a bad manager will 
 use hand tools, excellent as they now are, except to a very limited extent, 
 because Y'ankce ingenuity has been at work, and machines have been in- 
 vented, tried, improved, tried again, and now are extensively manufactured 
 in an almost perfect state, by which liorse-power is substituted for man- 
 power to mow the grass, to spread it, to rake it in windrows, and, in some 
 cases, to pull it togetlier in cocks, or to the stack ; to lift it from the ground 
 to tlie stack, or upon the hay-cart, and then to lift it again from tlie cart to 
 the mow — all by horse-uower. Have you got these machines, or any one of 
 them ? 
 
 833. Jlowing Machines> — As most important of all farming tools, have you 
 got a mowing machine? Of these, the family is numerous — all children of 
 the original American reaping or mowing machine, invented and put into 
 successfid operation by Obed Ilussey, of Baltimore, within the last twenty 
 years, and all, with slight variations, working upon the same principle. 
 
Seo. 47.] nATING AND HAYING MACHINES. 773 
 
 Upon Hiissey, McCormick improved, and carried off the palm of success, 
 until "McCormick's Eeajjer" lias become of world-wide renown. 
 
 Thougli both of these original machines would cut grass, they were not 
 successful enough as mowers to come into general use. The honor of a suc- 
 cessful mowing machine was reserved for Kctclium, of Buffalo. His first 
 machines gave great satisfaction though requiring a strong team, and were 
 too heavy and costly for small farmers. "Wood's Improvement" of the 
 Ketchum machine has been generally considered an important one. 
 
 Of mowers, up to the haying season of 1858, the great want was a one- 
 horse machine tliat would do the work as perfectly as the best two-horse 
 machines, with speed proportioned to the power. In short, a machine for 
 small farmers, such as compose nearly nine tenths of the population of all 
 the JSTortlieastern States. 
 
 Since that date, such machines have been extensively manufactured. One 
 made by Joel Nourse, of Boston, we have seen in successful operation. It 
 is a machine that no man who has five acres of grass to cut can afford to be 
 without. 
 
 It is constructed entirely of iron, with a movable cutter bar, adapted to 
 uneven surfixces, or it can be raised from the ground and held stationary 
 while driving from field to field ; it certainly looks as though it liad all the 
 elements of strength and durability, and yet it is not heavy. One of tlie 
 advantages of such a macliine we will state: A gentleman bought a small 
 place, which was mostly in what the owner called grass ; it was, however, 
 more than half weeds, upon a rough surface, and the first year afforded a 
 meager crop of poor hay, cut at one mowing with a scytlie. In t!ie spring, 
 he procured one of these little machines, and as soon as the weeds were 
 large enough, he harnessed his carriage horse to it, and mounted the seat 
 and shaved the lot. During the summer he repeated tlie operation, again 
 and again feeding the crop to the horse and cow. The consequence is, that 
 the weeds are killed, and the grass much improved. 
 
 The swath cut by one of these machines is about four and a half feet wide, 
 and the work done is at the rate of six or eight acres a day of heavy grass ; 
 and it will stop and start anywhere without-clogging. 
 
 It has another advantage : it costs somethmg like fifty dollars less than a 
 two-horse machine. 
 
 It works so easily that we have seen one man pull it through grass stout 
 enough to make a fair swath; and one horse can work it without fatigue, 
 and in very small inclosures— in almost any situation where mowing can be 
 done with the hand scythe. 
 
 Tlie advantage of such a machine in a hilly region is very apparent. 'No 
 farmer can afford to do without one mowing machine, and some can afford 
 to have two. Every one who has one of heavy draft, or Avith any serious 
 imperfection, can afford to buy a new one. The great hay crop hereafter 
 7iiiist be cut by horse-power. 
 
 There is another great advantage besides substitutinj: brute for man 
 
774 THE GRASSES— THEIR CULTIVATION' AND USE. [Chap. IX. 
 
 power. "With the scythe, tlie man must cut the grass while the dew is on, 
 and that requires extra labor to cure it and extra labor in saving it. With 
 the machine, the grass is more easily cut dry, and time is afforded to do it; 
 and the man, while riding and guiding his mower, has no fear of the bitrn- 
 ing sun. It is the horse that sweats, not the man. He rides at nearly as 
 much ease as he would in his wagon on the road to mill. 
 
 834. liorse Rakes aud other Haying Machines. — Of horse rakes there are 
 several patterns, all good, and sonie of thena operate with as much ease to 
 the man as the mower; for he sits in a chair, mounted upon a pair of 
 wheels, to which the rake is attached. To rake hay by hand, when it can 
 be so much more speedily done by horse-power, shows a great want of 
 economy and sound judgment. 
 
 Unloading hay at the barn by horse-power is such a simple operation, 
 that it seems wonderful how a sensible farmer can continue the excessively 
 hard labor of lifting it, a forkful at a time, in the stifling heat of the barn, 
 of a July afternoon. 
 
 To unload by horse-power, a tackle-block is attached to the ridge, the 
 fall being brought down to a snatch-block at the door, to which the horse 
 is hitched, and as he walks off on the ground, up goes the " horse-fork," 
 with almost a fourth of the wagon-load at once ; it is pulled to its place by 
 a guy rope, when, by unloosing a catch, it is upset all in a heap. 
 
 Stacking is done by the same operation ; using a set of shears — three poles 
 in a triangle — set up over th-e wagon, to sustain the tackle. 
 
 We have now indicated some of the most important labor-saving imple- 
 ments of the hay-field, to which should always, on a large farm, be added 
 a tool-wagon, made convenient to carry all the hand-tools, always including 
 a grindstone, and the spare clothing of the men, and a large refrigerator of 
 ice water as a substitute for that accursed old black jug that has been the 
 ruin of so many men in haying. 
 
 With this we close our homily upon haying, and repeat the question to 
 every farmer, Are you ready ? Have you got any, or all of these appli- 
 ances? If not, there is no time to lose; the haying season conies round 
 with the revolving seasons, always once a year. 
 
 833. Stacking Hay. — We ask the reader here to refer to what we have 
 said in 75G upon stacking grain, as it is equally applicable to stacking hay, 
 and in both cases we must advocate stacking in an economical jioint of 
 view. Stacks of hay or grain, well built, will keep, with an amount of 
 ■waste absolutely less than the interest of the money that barn shelter would 
 cost. Whatever the size of a stack, a hen's egg should be taken as the 
 model of form, the small end up, which should be made to shed rain as per- 
 fectly as the roof of your own house. The most perfect mode of doing this 
 is to take straw, or long, coarse grass, and commence at the lower part of 
 the taper, and thrust a little handful at a time into the stack until you en- 
 circle it, leaving the long ends hanging straight downward, and then put in 
 another course a little above, lapping over the first one, and so on, tying the 
 
Sbo. 47.] HAYING AND HATING MACHINES. 773 
 
 apex to a little stick thrust into tlie top, making, with two or three lionrd' 
 work, a thatch that will preserve the stack for years. 
 
 "We have seen the thatching of a stack made somewhat as tassel fringe is 
 made, by twisting the long hay into a small hay-rope on the ground, until 
 enough was made to cover the stack-top, the whole being rolled up iti bun- 
 dles as large as a man could carry up a ladder, when it is unwound and 
 pinned to the stack. This is more work, and only better when there is 
 danger of the thatching blowing out when put on in the manner first de- 
 scribed ; and that difficulty can be obviated by drawing hay-ropes or cords 
 of twine around each course of thatching. 
 
 After the stack of hay has settled, if it is found that the stacker did not 
 allow enough for the settling, and the bulge comes down too near the 
 ground, take a hay-knife and cut away enough to give the stack its proper 
 egg-shape. If a mistake has been made in a grain-stack, it can not so well 
 be remedied. Always remember that a well-formed stack will be, after it 
 has settled, smaller at the bottom than it is a few feet above. In a stack of 
 si.x tuns, there should be room enough for a man to lie down under the 
 bulge and be well sheltered from a shower. 
 
 In building ricks, or long stacks, the same rule as to form should govern 
 the builder as in building a round stack, so that looking at the end we should 
 see the same egg-shape ; and in building ricks or stacks of sheaves, the 
 secret of success is keej^ing the middle full, so that the butts of all the 
 sheaves are a third lower than the tops. Such a stack will always shed rain. 
 
 There is no doubt that hay or grain may be put up in a stack much 
 greener than in a barn, with perfect safety, and if we make a hollow stack, 
 as is sometimes done in England, by setting up four poles, three feet apart 
 at bottom and joined at top, we could stack our hay as soon as it was what 
 we now consider half-cured. This country, as a general thing, has a good 
 deal yet to learn of the art and economic value of stacking hay and grain. 
 
 836. A Machine to Stack Uay is in use in some places in Ohio, but very 
 little known in others. A mast is framed with braces into a foundation that 
 moves like a sled, and can be drawn about from place to place in the field, 
 or carried on wheels to distant fields. At the top of the mast is a yard, 
 braced by a rope at one end, with a tackle-block at the other, from which a 
 fork is suspended, upon whicli as much hay can be hoisted at once by a 
 horse as a man could fork up at a dozen times. Sometimes the stack is so 
 situated in relation to the cocks, that they arc brought up to tiie frame by a 
 drag-rope, and hoisted bodily to the top of the stack. 
 
 A very convenient implement for moving cocks xip to a stack may be 
 cheaply made as follows : Two white oak or ash poles, about twenty feet 
 long, framed together in the middle by three cross-pieces, three feet long, 
 are formed like shafts of a wagon at one end, sharpened at the other and 
 smooth, to run under a cock of hay. The shafts should be cut and framed 
 while green, and then bent and seasoned in the proper shape, so that when 
 attached to the horse the rear part will rest flat upon the ground. A boy 
 
770 THE GRASSES— THEIR CULTIVATION AND USE. [CnAP. IX. 
 
 can operate it as well as a man. He trots rapidly between the stack and 
 cocks, leading short distances or riding long ones. He backs np to a cock, 
 running the poles under it, and then throws a rope around, which is attached 
 by one end to the off-shaft, and draws it tight and liitches the other end by 
 a loop to a hook on the other shaft, and then trots back to the stack, casts 
 his rope loose without stopping, and hurries back for anotlier load. It is a 
 very rapid, easy way of stacking Iiay — a man and boy and two horses will 
 haul and send up the hay as fast as the best stacker can place it. 
 
 837. Storiug Hay— VcntilatiODi— Many tanners, those of New England in 
 particular, have a custom of storing hay in large masses in the barn, in a 
 place called " the buy," without a sign of any ventilation under the bulk, 
 winch usually rests upon a few loose poles or boards on the damp groxmd. 
 A " bay" should have ventilation, not only under it, but up through it, by 
 means of a chimney made of four poles fastened together by rounds like a 
 ladder. A loose stone foundation could bo laid for tlie hay bottom, with an 
 air-chamber from the outside leading to the chimney, directly over which 
 there should be a ventilator in the roof. This simple contrivance would not 
 only save many a tun of hay from mustiness, but it would enalxle the owner 
 to put in his hay in a much greener state. That next the chimney would 
 always come out very sweet. 
 
 It is also an excellent plan to ventilate stacks. It can be done by setting 
 up four rails, two feet apart at the bottom, fastened close together at the top 
 with a rope, strip of bark, or a withe. We once put up a very large rick of 
 M-heat, that is, a long stack, which was thought too green to keep well, but 
 it did, for we took a convenient rail fence and built a flue sixty feet long, 
 big enough for a man to crawl througli, in the center of the foundation, so 
 that a current of air passed up all through the wheat. At another time, in 
 building an immense rick of prairie hay, we made an air-tube of brush, 
 which greatly aided in tiie preservation of the hay. A good timber bottom, 
 elevating the whole stack so that air would circulate under it, would be still 
 better. 
 
 838. Hay Caps, their Value — How Made. — "We jook upon hay caps as we 
 do any other labor-saving implement in Jiay-making, and they are of such 
 great advantage that we never heard of any one who had once learned their 
 value, who was willing to forego their use. They are the means of saving 
 thousands of tuns of hay after it is well cured, every year, in Massachu- 
 setts, where they appear to be best known and most used. Simply cotton 
 cloth caps, pinned with little sticks over the haycocks that are in danger 
 from an approaching storm, are the kind most in use there. Grass may 
 be cocked as soon as wilted, and hay improved, if you are provided with 
 hay caps. One of four feet or four and a half square is considered ample 
 size ; and of compactly woven, good, though light sheeting, much better 
 than heavy, and a simple ring-loop of cord sewed in at each corner, but left 
 so as to slip, finishes the cap ready for use. It is fastened at the loops by 
 pins fourteen to sixteen inches long. Take care not to pack them or let them 
 
Sec. 47.] THE BEST TIME TO CUT GRASS. 777 
 
 lie in a heap wlien wet or damp. A season may pass, and they will be of 
 no use ; but another time they may pay the whole expense in protecting the 
 hay through a single storm. A sheet twelve or fifteen feet square should 
 always be kept on hand to cover a half-finished stack or load of hay caught 
 by a sudden shower. 
 
 839. The Best Time to Cut Grass should be authoritatively settled, and 
 not left to mere assertion ; one farmer contending tliat it is best to cut it in 
 the blossom, and another not until the seed is partially ripe. 
 
 Levi Bartlett, who is good autliority, says : " As far as practicable, we 
 cut our herds-grass when the seed is in the dough state, and before the bloom 
 is much shed. It is said by those who have carefully investigated the mat- 
 ter, that too early mowing of herds-grass results in great injury to the next 
 year's crop, much more so than to that of other grasses. It being a bulbous- 
 rooted plant, if cut too soon, the bulb has not stored up the necessary nutri- 
 ment in it to secure a vigorous after-growth. Clover should be cut when 
 about half the blossoms have turned brown, and cured mostly in the cock.'' 
 
 When should grass be cut ? Our answer to the question is this : Wliile it 
 is grass, and not after it has become hay. To make good food for cattle, the 
 grass must be cut and cured, not cured and cut. A new and rather thinly- 
 seeded piece of timothy will grow coarse stalks, which must be cut while 
 younger than the crop of an old field which was thickly seeded, and has 
 grown thick and fine. The field where the growth is thin we would cut as 
 soon as it blossomed. The field where the stalks grow thick and fine we 
 would allow to stand still until the seeds in the but-end of the heads were in 
 the milk, and after the grass was cut, a portion of them would mature so as 
 to grow. Other grasses and clover we would cut in full blossom, taking 
 care not to dry them to death in curing. We would never mow while the 
 grass was wet witli dew or rain ; and if cut with a machine, we would not 
 care how soon after it was cut it was raked into windrow? with the liorse- 
 rake. If cut with a scythe, turn the swaths over as soon as the top is well 
 wilted, and, after an hour or two of hot sun on the other side, let a man 
 with a three-pronged fork begin to pitch the swaths together into wind- 
 rows. If not previously bleached, grass will stand a hard rain in swath or 
 windrow without serious injury. It should always be put in good-sized, 
 well-made cocks before it is diy, and then let it sweat. It may even turn 
 black without injury, but it is preferable not to allow it to reach that stage, 
 for fear acetous fermentation should take place. No matter how green the 
 grass or hay of the cock looks, or how much it smokes from the sweating 
 process when you pitch it on the wagon, if the air is hot and windy, it will 
 dry out so as to keep perfectly in the mow or stack by the time you have 
 pitched and carted and pitched again, and then again in mowing it away. 
 Grass cut at noon may be cocked at four o'clock and hauled the next morn- 
 ing and make better hay than it would if cut in the morning and afterward 
 spread, and stirred, and raked, and pitched about, and finally cocked in the 
 afternoon, and the cocks opened and shaken up again the next afternoon, 
 
778 THE GRASSES— THEIR CULTIVATION AND USE. [Chap. IX. 
 
 because tliey felt a little warm inside, and finally, after getting as dry as 
 tinder and pufly as feathers, hauled away to the barn. In our opinion, there 
 is a foolish fashion of cutting grass with the dew on, and an unnecessary 
 labor in curing it, and an altogether causeless fear of putting hay in the 
 barn too green. It should be put away in such a condition that it will be 
 grccu in color when fed out in winter. We can hardly set too high a value 
 on flavor in hay. The relish with which food is eaten makes part of its 
 value; and it goes further with man or beast than that which does not relish. 
 
 8-iO. Wheu to flit Timothy for Seed.— When the heads have simply turned 
 brown, the seed is fully matured ; and if it is cut then, but little of it will be 
 lost by shelling, and the stalks and leaves will make, sometimes, tolerably 
 good fodder, especially if it is run through a straw-cutter. 
 
 The spot for seed should be selected early in June, or July, where the 
 timothy is the best and tallest, and where the heads are longest, and if there 
 are any noxious weeds, improve some leisure hours in pulling or cutting 
 them all out. When we come to cut it, if a single weed has escaped notice, 
 let it be taken out at that time. We have known several prairie farms 
 stocked with weeds, where none grew before, from sowing what was bought 
 for pure grass seed. 
 
 8A1. How much Grass can Land Produce? — It has been published that, 
 lipon the Earl of Derby's land, a field of one hundred acres was dressed with 
 liquid manure, by a steam-engine and pipes, and a hydrant and hose to each 
 ten acres, and this land was mowed seven times, and gave upon one acre 
 one hundred tuns' weight of grass, and estimated an average of seventy-five 
 tuns upon each acre. The meadows near Edinburgh, watered with sewer- 
 age water, grew fourteen feet of grass a year, which, cut at several times, 
 weighed some eighty tuns. In Ayrshire, similar treatment of forty acres of 
 land has enabled its owner to feed one hundred cows. If the grass upon 
 one acre should weigh one hundred tuns, perhaps it would not make over 
 twelve tuns of dry hay. Mr. Lincoln, of Worcester, Mass., has done some- 
 thing like tills. 
 
 842. IIow much Hay must we Provide ? — IIow much hay to provide, or how 
 much to feed to each animal, is a matter not sufiiciently understood. The 
 following is the English rule, said to be made from careful experiment with 
 good sound English hay. An ox requires two per cent, of his own weight 
 in hay per day if he does not work, and two and a half per cent, if he 
 works. If you have an ox that weighs 1,500 lbs., he will require 30 lbs. of 
 hay per day if he does not" work. Apply this rule to all neat stock, and 
 give to each animal twice as many jDounds as it weighs hundreds. In this 
 la'iitude, the period of winter feeding is never less than one hundred and 
 fifty days, and oftener one hundred and eighty, and it is not safe to calcu- 
 late upon less than two tuns a head of sound hay, or its equivalent, for a 
 stock of oxen, cows, heifers, and steers. The equivalent in turnips is 5 lbs. 
 to one of hay. So if an animal i-equires 20 lbs. of hay, and it is thought 
 best to give only half that quantity, and make up the required quantity in 
 
Sko. 47.] HAT RIGGING OF CARTS AND WAGONS. 779 
 
 turnips, 50 lbs. must be given. The equivalent of corn meal is estimated at 
 about 8^ lbs. of meal to 15 lbs. of liay ; but we have no doubt that a milch 
 cow or a working ox would do better upon 10 lbs. of hay and 5 lbs. of meal 
 than upon 20 lbs. of hay. Of milch cows, however, it should be remarked 
 that tliey must have more than two per cent, of hay, or its equivalent, to 
 give a profitable yield of milk. Carrots, beets, turnips, ruta bagas, may 
 bo calculated at nearly double tlie value of white turnips. In England, 
 mangel-wurzel is preferred to all other roots for feeding milch cows. 
 
 843. Pea Viue Hay. — In the Southern States, the vines of the " cow pea" 
 (j)/iascolus), are sometimes used for hay. The peas are usually planted 
 among corn after the last working, in hills four feet apart, midway be- 
 tween the rows. For liay, the vines should be gathered while the pods 
 are green, and well cured under shelter before stormy weather, or the 
 leaves will mold. A planter in Mississippi says : " I gather my pea 
 vines about October 1st, and cure them in windrows by turning several 
 times daily. 
 
 We know of no reason why this kind of pea could not be grown for hay 
 in most of the Northern States. There is a sort called the Oregon pea, that 
 originated in the State which gives it the name, which could be grown on 
 this side of the continent, as far nortli asitgrowsattlie "Far West." 
 
 84i. Hay Rigging of Carts and Wagons.— A properly constructed hay wagon 
 is one of the important haying implements that should not be, as it too 
 often is, neglected till the last moment, when a rack is patched up " so it 
 will do for now," and like nearly all patclied-np tools it does very poorly. 
 Every farmer should have a well-constructed hay-rack, made to iit the 
 wagon or cart, of light, strong materials, put together with screw-bolts, so 
 it could be readily taken apart for storing away when not in use. With the 
 hay-rack there should be a light, strong, folding ladder, attached so that it 
 could always go with the wagon, without occupying any more room tlian a 
 round pole tliree inches diameter and of only a few pounds' weight, easily 
 drawn out from the load, and in one minute you open out a ladder twelve or 
 fifteen feet long, being not only convenient, but a real labor-saving imple- 
 ment — saving time, strength, and danger, in climbing on or oif a load of 
 hay or stack. 
 
 As it would be a great annoyance to have a wagon-tire come otf while 
 hurrying home a load of hay to avoid a shower, you must guard against such 
 a misfortune by having the wheels manufactured in sucli a way that tires 
 will never get loose. See that they are made of thorouglily seasoned wood, 
 and then, before putting on the tire, saturate tlie felloes with linseed oi). 
 To do this in the best manner, a cast-iron trough will be required in which 
 to heat the oil and keep it boiling — not burning hot. Hang the wheel on a 
 stick through the hub, so as to turn freely, and suspend a portion of the rim 
 in the oil, where it must remain one hour or more for each portion. Then 
 set the tire, and it will never run away and leave the wheel, since no cliange 
 of the hygrometrical condition of the atmosphere will aflfect wood perfectly 
 
780 THE GRASSES— THEIR CULTIVATION AND USE. [CnAP. IX. 
 
 saturated with boiling oil, and, besides that, it will be much more durable. 
 An ordinary painting of felloes is of no more value than a coat of boot- 
 blacking would be. It is washed and worn off in the first mud puddle. 
 
 8i5. Carting Hay to Marked — The following is the statement of work 
 done by one Long Island farmer, iu carting hay to the New York market. 
 
 Ten years — 70 loads each, carried 24 miles, and the return journey added, gives 48 
 
 miles per load of travel — equal to, say 33,600 miles. 
 
 Then by simply straightening the road, which should have been done at 
 
 first, the distance was lessened six miles : 
 
 Ten years — 70 loads each, 18 miles, and the return, making 36 miles per load of 
 
 travel, equal to 25,200 miles 
 
 Eleven years— 60 loads each, same distance 23,760 miles 
 
 Making 82,560 miles 
 
 that this farmer has traveled on his hay wagon. His loads have averaged 
 about a tun and a quarter in weight, so that in his 2,060 journeys, he had 
 carried 2,575 tuns of hay, which sold for over $40,000. In that thirty-one 
 years, and for that amount of work, he used but four teams, and at sixty- 
 five years old he was still in hale health, as we should su])pose a man 
 would be who was so much exposed to pure air and engaged in moderate, 
 healthful employment. Although tliis man may have done well, it is a 
 matter Nvorthy of consideration whether he could not have done better if he 
 had fed all this hay upon his farm and sold the animal products, for then 
 ever}' tun would have reproduced itself from the manure, if well saved and 
 increased hj use of muck, and carefully applied to the land. 
 
 840. Number of Cubic Feet in a Tun of Hay.— It is important for every 
 farmer to know how many tuns he has stored, because the number of 
 cattle he may winter is always based upon the number of pounds of hay he 
 can feed them. It is also im^iortant in case of buying or selling hay, be- 
 cause if the quantity in a mow can be approximated by measurement, it 
 will save the labor of weighing and something in the value of hay, which 
 will be deteriorated by the handling necessary to weigh it with the appli- 
 ances ordinarily at hand in the country. 
 
 In estimating for our own use, we would always count gross tuns. In 
 buying or selling, it should be as we could agree ; the custom of the locality 
 would govern the calculation. 
 
 An old farmer thinks that to those living at a distance from hay-scales, 
 the following plan will be desirable. It is this : 
 
 " Multiply the length, breadth, and bight into each other, and if the hay 
 is somewhat settled, ten solid yards make a tun. Clover will take from tea 
 to twelve solid yards per tun." 
 
 This statement has been extensively circulated, and we print it here to 
 prove that it is erroneous, which we do by the following testimony. We 
 hope all who have circulated this error will inform their readers that, in a 
 well-settled mow of good hay, where ten to twenty tuns are stored together, 
 they may ascertain the number of tuns approximately, by careful measure- 
 
Seo. 47.] NUMBER OF CUBIC FEET IN A TUN OF HAT. 781 
 
 ment and calculation of one tun to from four hundred to seven hundred 
 cubic feet, according to quality and the degree of pressure. Nowhere but 
 in the bottom of a large mow of timothy hay will four hundred feet make 
 a tun. But to the testimony. One writer says : 
 
 " At or near the bottom of a large mow where twenty tuns are stored, four 
 hundred and fifty feet will make a tun ; while near the top of the same it 
 would take seven liundred to seven hundred and fifty feet. It rarely takes 
 one thousand feet, where hay has lain together a length of time, unl'ess it 
 be coarse and near the top, when it may sometimes require even that 
 number of feet." 
 
 E. Pratt, Jr., of Freeport, Me., says : 
 
 " In a mow forty feet long, sixteen feet wide, and fourteen feet deep, 
 well settled, the common estimate is from four hundred and twenty-five to 
 five hundred cubic feet for a tun. For some fifteen successive years I have 
 pressed hay in my own barn from a mow less than the above, and tlic aver- 
 age number of cubic feet required — including tare, which is about five per 
 cent. — has been about four liundred and twenty -five feet per tun." 
 
 C. "^V. Fairbrothers, of Saxton's River, Vt., says : 
 
 " I have had some experience in measuring and weighing hay, and find 
 that of what we call seaft'old hay, not pressed, of a coarse quality, it takes 
 some seven hundred feet to the tun. But of scaffold hay pressed by grain 
 being put on the top of timothy and red-top, free from clover, we have a rule 
 to allow eight feet cube, or five hundred aud twelve cubic feet to a tun, and 
 the same rule will apply to a mow of considerable size and same quality. It 
 takes somewhat more clover to make a tun." 
 
 A farmer of West Enosburg, Vt., says : 
 
 "When there is a large quantity together, four hundred cubic feet will 
 make a tun ; but where only a small quantity like a scaflTold is stored, it 
 will take for a tun not far from five hundred cubic feet. It dej^ends some- 
 thing on the quality, but I am speaking of good herds-grass hay. I saw a 
 scafibld measured and weighed a few days ago; it was twenty-six feet long, 
 eleven feet wide, and nearly five feet high, making one thousand four hun- 
 dred and thirty cubic feet ; it weighed five thousand eight hundred 
 pounds — so you must see that it varies but a fraction from five hundred feet 
 to the tun." 
 
 A Jefferson County (N. Y.) farmer gives a cube of seven feet of good 
 hay as a tun, by actual measurement and weight, in a large mow. Scaffold 
 hay, he says, " I buy or sell at five hundred and twelve -feet, or eight feet 
 cube for a tun." 
 
 William Pease, Oswego, says, March 16th : " I have just measured and 
 weighed a mow of hay, two thirds clover and one third timothy, cut wet 
 and dried, and pitched with a horse-fork, and stored six months in a mow 
 twelve by twenty-six feet, ten feet deep, which took five hundred and forty- 
 nine cubic feet for a tun." 
 
 II. Robie, Georgetown, N. Y., estimates five hundred feet as the fair aver- 
 
782 THE GRASSES— THEIR CULTIVATION AND USE. [Cni.r. IX. 
 
 age for a tun of hay in well-settled mows, and seven liundred feet on scaf- 
 folds. 
 
 C. W. Ingerson, New Bremen, Lewis County, N. Y., says: 
 " I have carefully measured and weighed several mows of hay ; in all 
 cases it was weighed in the barn, and varied but little from four hundred 
 cubic feet for a tun. A piece cut from the middle of a good-sized mow, 
 seven feet square by eight feet deep, or three hundred and ninety-two feet, 
 will weigh a tun. And there is not the difference generally supposed in the 
 top and bottom of a hay-mow which has lain from harvest until winter. I 
 speak of timothy or herds-grass, cut when the seed had nearly matured, 
 mowed in the forenoon, and secured in the afternoon of the same day." 
 J. W. E., "West Almond, Alleghany County, N. Y., says : 
 " I filled a mow that is fifteen by thirty feet with common timothy hay, 
 60 that it settled to twelve feet high. I weighed out twelve tuns, which is 
 four hundred and fifty feet to the tun." 
 
 J. T. Keeley gives the following weight and measure of his mows : 
 " Mow No. 1, twenty-one by twenty-one feet square, thirteen feet in 
 deptli, required four hundred and sixty solid feet to weigh two thousand 
 pounds. This hay was timothy, not very coarse ; cut while in blossom, and 
 well mowed away by two men. 
 
 " Mow No. 2, ten by twenty feet square, five and a half feet in depth, the 
 hay the same quality as No. 1, required six liundred and fifty solid feet to 
 weigh two thousand pounds. 
 
 " Mow No. 3, eleven by twenty-four feet square, fourteen feet in depth, 
 timothy hay, part of it rather too ripe when cut ; required five hundred 
 solid feet to weigh two thousand pounds. 
 
 " My experience is, it will require five hundred solid feet of timothy hay, 
 cut in season and mowed away as it should be, to weigh a tun taken from 
 the center of a mow twelve by twenty-four feet square and ten feet in 
 depth." 
 
 J. W. Cressinger, of Sullivan, Ashland County, Ohio, writes, March 20th : 
 " That the result of weighing that day was one hundred and forty pounds 
 to a cubic yard from a mow fourteen by sixteen feet, the hay lying about 
 twelve feet deep, and that taken out to-day was half way down. This was 
 timothy, with a trifle of white clover, cut the second week of June, when the 
 first blow was off. Previous weighing has clearly proved to me that timothy 
 hay, cut when the blow is off, and before it is ripe and properly cured, will 
 weigh from one hundred and thirty to one hundred and forty-six pounds to 
 the cubic yard, and clover from one hundred and twenty to one hundred 
 and forty pounds to the same. I find that fourteen and a half cubic yards 
 of mow or stack hay well packed, if taken below half way down, will 
 make one tun where there are more than four tuns put up togetlier ; fifteen 
 cubic yards, taking the whole together, will make one tun where there is 
 not too much clover among it ; and clover will take of an average sixteen 
 cubic yards." 
 
Sko. 47.] NUMBER OF CUBIC FEET IN A TUN OF HAY. TS3 
 
 A fanner of Cass County, Mich., says, March 4th : 
 
 "I havcjiist measured ten feet square, thirty inclies deep, of a well-set- 
 tled mow, which weighed one thousand pounds." 
 . G. G. Snelling, of Soutli Thomaston, Me., says: 
 
 " I have sold hay from tlie bay or ground mow, four hundred cubic feet 
 to the tun ; but in doing so, have discovered that I generally suflered loss. 
 Hay on scaffolds requires more cubic feet to the tUn than hay in bays. 
 Since reading your article, I sold from the bottom of a hay-mow, thirty feet 
 long, ten feet wide, and originally fourteen feet high, two tuns and tiirce 
 quarters of very fine hay, and found on accurate measurement that it occu- 
 pied eight hundred and thirty-one cubic feet, or a fraction over three hun- 
 dred and two cubic feet to the tun. From the top of another mow, the liay 
 a little coarser, I cut a square, eight by ten feet, and took off the hay to the 
 depth of three feet, and found it weighed one thousand one hundred and 
 seventy pounds, which is about four hundred and ten cubic feet to the tun. 
 Hay, according to bulk, weighs more some years than others. Last hay 
 season I discovered, on examination, that the stalk where it was cut by the 
 scythe was entireh' filled — a circumstance whicli rarely occurs." 
 
 J. Farnum, of Uxbridge, Mass., gives four hundred feet for a tun in a 
 mow twenty feet high, twenty feet long, and twenty feet wide, as the lowest 
 number of feet he ever heard estimated. 
 
 "In a scaffold of liay eleven and a half feet by eleven and a half feet 
 square and nine feet high, making one thousand one hundred and ninety 
 and one quarter solid feet, there was by actual weight five thousand and 
 seventy-six pounds of hay, or a little over two tuns and a half of hay. 
 The hay was what is liere called intervale upland, a kind resembling the 
 English red-top, though not so valuable. This estimate gives a fraction less 
 than four hundred and sixty-nine cubic feet to the tun. Under ordinary 
 circumstances, five hundred solid feet of well-packed, not very coarse hay 
 is considered with us to be a fair estimate for a tun." 
 
 Harvey Head, of Paris Hill, N. Y., says : " I have two barns tliirty by 
 forty feet, each of whicli has a bay across one end sixteen by thirty feet, 
 which at fourteen feet liigli to the plates gives six thousand seven hundred 
 and twenty feet as the contents when filled. For the last fifteen years I have 
 usually sold one of tliese mows, generally by weight. I find by looking over 
 the account that nine tuns and eight hundred is the least I ever weighed 
 from one of them, and that fourteen tuns and seven hundred is the largest 
 amount weighed from tlie same hay. In the case above, the mows were 
 filled above the plate with oats in the bundle. You will see by the wide 
 difference above, that I have long understood that without a good sound dis- 
 cretion to back it, there was no safety in buying or selling hay by measure. 
 For while it will be difficult to get a tun of coarse clover and -timothy hay 
 into seven hundred feet, it will require no very sliarp practice to get a tun 
 of pure timothy that will make about twenty to thirty hundred to tlie acre 
 into four hundred feet. The heaviest hay we make here is timothy. Take 
 
784 THE GRASSES— THEIR CULTUTIVATION AND USE. [Chap. IX. 
 
 a field of it not so tliiclc but the sun shines quite to the ground among it, 
 cut when a little past full in blossom ; if good weather, get in the same day ; 
 the mow will steam just enough to pack solid, and four hundred feet make 
 a tun. Dry the same hay crisp, so that the mow never warms, and it will 
 take four hundred and fifty feet or over for a tun. On the other extreme, 
 take a field of coarse-lodged clover sparsely sprinkled with coarse timothy all 
 out of blossom, and it requires seven to eight hundred feet in large mows 
 to make a tun." 
 
 Asahel Burnham, Jr., of Arkwright, Cattaraugus County, N. Y., gives 
 four hundred feet as the mile for a tun. 
 
 B. P. II., of Onondaga, says : " Tlie hay tliat grows on old, worn-out 
 meadows is much heavier, according to bulk, and far more nutritious than 
 that on meadows recently stocked down ; besides, the qualit-y and weight 
 of hay on the same meadow varies from year to year ; in a very wet season 
 you get a greater bulk; in a dry season greater weight; and clover hay 
 occupies a quarter more space tiian timothy, so all rules are uncertain." 
 
 C. II. Harroun, of Patterson's Mills, Iowa County, Midi., says his expe- 
 rience in selling hay is, that timothy mixed with one fourth clover, cut 
 when timothy begins to ripen, and cured in cocks, and packed in a mow 
 eighteen by thirty feet, and kept over summer, weighed a tun to four liun- 
 dred cubic feet. Clover took five hundred and twelve feet to a tun. 
 
 A. S. Myrick, of JeflTcrson "Valley, N. Y., says : " Dederick's presses 
 make a bale of three hundred and seventy-five to four hundred and twenty- 
 five jjounds in twenty cubic feet (four feet by twenty-four inches by thirty 
 inches)." 
 
 The weight of the testimony is that four hundred cubic feet of the bottom 
 of a large mow are required on the average for a tun ; five hundred feet in 
 the middle, or as the average of a mow ; and seven hundred feet for a scaf- 
 fold of a few tuns of what is often called English hay, and about a quarter 
 more for clover, The calculation of ten yards is a blunder. If you doubt 
 it, try it. Measure across a mow fifteen feet wide a strip of six feet, and 
 take off the hay three feet deep and weigh it, and see if it makes a tun. 
 The statement, just as soon as you begin to analyze it, will appear ridicu- 
 lous. The smallest quantit}" given for a tun'is a cube of seven fee^ — three 
 hundred and forty-three feet. As a general rule, it will do to calculate 
 every culie of eight feet in a large mow as a tun, and imloss the hay is 
 packed solid, it will take more rather than less than such a cube to make a 
 tun, particidarly if the tuns are estimated at gross weight, which we think 
 is the general custom. 
 
 With the above estimates, based in most cases upon actual weight and 
 measiirement, the farmer will have but little difficulty in determining how 
 much hay ho has stored in any particular place. 
 
CH AFTER X. 
 
 ROOT CROPS AND SUGAR CROPS. 
 
 SECTION XLVIIl.-POTATOES, TURNIPS, BEETS, CAUIIOTS, PARSNEPS, 
 ONIONS 
 
 HE value of root crops other than potatoes has never 
 been appreciated in this country as much as in Eurojje ; 
 ^.^ for instance, turnips in England and beets in France. 
 ^ The potato, Solanum tuherosum, is considered iii- 
 ^-5 dispensable in Middle and Northern States; and 
 the sweet potato, Convolvulus iatatas, in Southern States. 
 Within a very recent period, American farmers have 
 legun td regard cari'ots and ruta bagas among tlic im- 
 portant farm crops. Tiie common white turnip has long 
 jeen grown by most JNortiiern farmers in a small way, but 
 as a great iield crop, as it is in England. Many farm- 
 ers, who know very well how easily turnips are grown, have 
 no faith in tlieir value as feed for stock. Tiiey have faith in 
 pofatocs, and as they are considered the most valuable of all root ci"ops in 
 America, we will open this chapter with their history, and give opinions of 
 practical men as to the value of various kinds and modes of culture. 
 
 847. History of the PotalO. — Historically, we are told that it originated in 
 South America, jirobably within the torrid zone. 
 
 It was introduced into Europe by Sir Walter Raleigh about the year 
 1580, and into Ireland in 1610, and as a field crop in Scotland in 1728. 
 
 At first its culture was confined to the gardens of the nobility of England. 
 In 1613, the price of potatoes is stated, in the household expenses nf Queen 
 Anne, at Is. per lb. 
 
 English writers estimate that twice as much food is produced from an 
 acre of potatoes as from an acre of vrheat. 
 
 No theory of climate, soil, or culture can as yet explain the phenomena of 
 its growth, or the nature and cause of the disease which of late years has 
 reduced it from the most certain to the most uncertain of crops. 
 
 Though a native of the torrid zone, it grows most luxuriantly in the 
 Northern States and British provinces of this continent, while in Ireland its 
 culture attains the highest relative importance. In Sweden it is cultivated 
 as far north as the sixty-fourth degree. The origin of the various sorts now 
 in use is from planting the seed of the balls, or where the seed has ac- 
 cidentally sprung up and produced tubers. 
 
786 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 The potato known as the Mercer, or Nishenock, was first grown about 
 forty-seven years ago, in Mercer County, Penn., on Big Nishenock Creek, 
 by Jolm Gilkey, who called it the Nishenock Koyal potato, and it got the 
 name of Mercer from Mr. Bevan Pearson, who carried a few in his saddle- 
 bags to Darby, below Philadelphia, from which point they have spread over 
 the United States under the name of Mercers, while from the original point 
 they have spread under the other name, which has been corrupted into Nesh- 
 anocks, Meshanocks, Chenango, Bone's potato, and several other misnomers. 
 
 Rev. Chauncey E Goodrich, of Utica, 'N. Y., has originated more new 
 potatoes than any other man in this country, and some of remarkably good 
 quality. He says of the origin of the potato : " In a state of nature, it is 
 found on the sides of the Andes, and in the adjacent valleys. At the base 
 of the mountains, the tamarind, yam, and banana; the melon, corn, tomato, 
 and pepper come higher up ; and above these is the belt where the potato 
 thrives most vigorously, the climate being equable, and the root not ex- 
 posed to the frosts." 
 
 8i8. The Character of Several Promiuent Sorts of Potatoes. — The. char- 
 acter as well as origin of several sorts of potatoes in general use is given in 
 the following notes, by Nathan R. French, of New York, who has paid 
 great attention to the cultivation, salableness, and value of potatoes as a 
 farm crop. He says : "As a general rule, yellow potatoes are rank and 
 strong — white ones, good flavored. ' 
 
 "The Mercer has been for many j-ears the standard variety. When first 
 introduced, it was objected to on account of the blue streaks pervading the 
 otherwise white meat, but the excellent quality and reliable yield has kept 
 the Mercers in general use. This and other parti-colored varieties are very 
 much whiter when raised in this latitude than at the North, and if Northern 
 seed of these sorts be carried South, tho product will be much whiter and 
 handsomer than the original seed, taking precedence in market over the 
 same varieties of Northern growth. The Mercer seems to be now on the 
 decline in many sections, and likely to be succeeded by new varieties of 
 Northern growth. 
 
 "The Carter is one of the finest table potatoes ever grown. It is white 
 throughout, slightly oblong, with deep under-set eyes, and when boiled has 
 a dry, light, flour-like appearance, with great delicacy of flavor. It origi- 
 nated some twenty years ago with a Mr. Carter, near Pittsfield, Mass., and 
 was soon cultivated largely by the Shakers. From them the culture spread 
 northward, and is now mostly confined to "Washington County, N. Y. 
 
 " Tho Carter ripens late, and has failed of success in this latitude — is very 
 liable to rot, and is now running out where it has succeeded best. 
 
 " The White Pinkeyes, or Pink-eye Kidneys, are an old variety of excel- 
 lent quality, rambling growers, generally yielding fairly upon rich and well- 
 adapted ground. 
 
 "Junes, Yellow Pinkeyes, Northern Whites, and Rock Whites are all of 
 the same family, or nearly related. They are yellow-meated, watery, and 
 
Sec. 48.] SEVERAL PROMINENT SORTS OF POTATOES. 787 
 
 sometimes rank flavored. They mature early, parfieularly the Junes, on 
 wliich account they are a good deal cultivated, and generally escape the 
 rot, and yield fairly. 
 
 " California potatoes are oblong-shaped, yellow-meated, parti-colored skin, 
 great size, immense yielders, strong, watery, unfit for the table (of Chris- 
 tians), but are fit successors to the old and discarded Merino potatoes, once so 
 poimlar throughout New England, and still cultivated in some places for stock. 
 
 " Tiie Dikeman is a native of Oneida County, 'N. Y., where it was started 
 from the seed by a farmer whose name it bears. The tubers are round, 
 white, with pink eyes; it ripens earlier than the Mercer, and generally 
 escapes the rot ; is a good yielder, and is extensively cultivated as an early 
 potato for this market. It degenerates rapidly, however, in this vicinity, so 
 that a yearly renewal of seed from its native locality is necessary. 
 
 "AVestern Keds are one of the best of the yellow-raeated varieties, and 
 when raised on Long Island or in New Jersey, are very fair table ]3otatoes. 
 They are in large demand for shipping, and are exported to Bermuda for 
 seed, their product — the highly prized Bermuda potato — being returned to 
 us in the spring. It is remarkable that all other varieties tried in the Ber- 
 mudas have failed. 
 
 "The Black Mercer was introduced into New Jersey some years ago from 
 "Western New York. It is shaped much like the Mercer ; the flesh is 
 entirely white, the skin very dark and thick. It is very late, requiring the 
 whole season to mature ; yields largely, producing twice as much as the 
 Mercers. If peeled before cooking, the quality is good, particularly in the 
 spring, though not so dry and light as !he Mercer. The dark skin is preju- 
 dicial to the sale, and it has rotted badly some years, so that many are now 
 abandoning its cultivation. 
 
 "The Buckeyes have been grown in Monmouth County, N. J., with 
 remarkable success. They are handsome, round potatoes, white throughout, 
 except a little bright pink at the bottom of the eye; cook dry, mealy, and 
 fine flavored. They were introduced from Ohio to the vicinity of Rochester 
 by D. S. Whitlock, from whom J. S. Whitlock, of Monmouth County, N. J., 
 obtained seed and planted three acres of sward ground, which averaged 250 
 bushels per acre ; on coi-n stubble he had an average of 165 bushels per acre. 
 His brother, G. S. Whitlock planted three acres corn stubble which averaged 
 200 bushels per acre — in both ijistances giving a yield more than double 
 that of Mercers in the same fields. "While all other varieties in the same 
 neighborhood rotted badly, this was sound, and brought the highest price 
 in market. 
 
 "The Prince Albert is a seedling imported from EnglaTid, and introduced 
 into Massachusetts a few years ago ; in shape oblong, a little flattened, 
 entirely white, with very few eyes, which lie upon the surface, scarcely 
 indenting the thin, smooth skin, being one of the most beautiful potatoes 
 ever grown, ripening early as the Mercer, of handsome size, sometimes very 
 large, and very productive. 
 
788 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 " Tlie Peach Blows and Shepard Reds are seedlings from the "Western Keds 
 started by Mr. Shepard, of Saratoga County, N. Y. They ai-e round, with 
 M-hitish-yellow meat and deep eyes. The former have a parti-eolored skin ; 
 the latter a rough red skin with pink streaks in the outer portions of the flesh. 
 The Peach Blows are very fine table potatoes, cooking dr}^ and light. They 
 have been grown to some extent in Monmouth County, N. J., with promis- 
 ing success, though they did not attain the size of those raised at the North. 
 The quality, however, was decidedly improved by change of climate and soil, 
 being smoother, whiter, cooking dryer and lighter, and selling fifty cents 
 per barrel higher than those of Northern growth. The Shepard Reds have 
 a less attractive appearance. Both varieties ripen late, and like all late 
 potatoes are more liable to rot than the early sorts. 
 
 "Dover potatoes are small, round, red, with deep eyes, white flesh, and from 
 their superior quality sell to a limited extent at good prices. They are not 
 economical for the table, and we presume their yield is light. They grow 
 principally in Rhode Island." 
 
 James F. C. Hyde, of Newton Center, Mass., speaks highly of "Davis' 
 Seedling." "This is one of the very best potatoes grown, taking into consid- 
 eration size, productiveness, and hardiness. I do not mean to say it is of 
 the best quality for eating when compared -with the State of Maine or Car- 
 ter; but I do mean that it is a good eating potato, which, added to all its 
 other good qualities, makes it a \crj desirable variety. Its color is red out- 
 side and white inside, slightly tinged with pink just under the skin; large 
 size, and very free from rot. This variety originated in Sterling, Mass. It 
 is far superior to Peach Blows, Vermont Whites, and Pinkeyes. It yielded 
 better than any other out of the forty kinds I raised last year. 
 
 " State of Maine is a fine eating potato, unsurpassed by any in the 
 whole list, not excepting the Riley or Carter. It is not more than half as 
 productive as the Davis', but superior in quality for the table. It is white 
 outside and inside, and shaped somewhat like the White Chenango (Mer- 
 cer). This variety is quite early, being not more than a week later than the 
 Chenango, to which it is superior. Should not consider it so profitable a 
 variety for the market, except for early, as the above-named varietj'. 
 
 "Jackson While. A sort of recent introduction, and promises well. I 
 have grown it two years with fair success, but have never had it dry and 
 mealy as the State of Maine. This is a white potato, nearly round, medium 
 size, eyes deeply sunk, fair as to productiveness and hardiness, worthy of 
 trial. 
 
 "St. Helena. This is an old and well-known sort that was formerly culti- 
 vated in this region, but for some years has been neglected. It now comes 
 out under otlier names, such as Laplander and White Mountain Seedling. 
 It is a veiy productive sort, very handsome on account of its good size and 
 whiteness. Quite free from the rot. This potato is apt to be soggy, and 
 for that reason is not so highly esteemed." 
 
 A Mexican potato, said to have come from seed of potatoes found growing 
 
Sec. 4dg SEVERAL FKOMIireNT SORTS OF POTATOES. 789 
 
 ■wild in Mexico, has beea disseminated somewhat in Western New York, 
 •witliin the last dozen j'ears ; it is highly reeouiuiended as having a rich 
 white flesh of good quality, with very smootJi thin skin and shallow eyes. 
 The tojDS or vines are remarkably small, and from tliis fact may be planted 
 closer in hills than other varieties, or in drills three to three and a half feet 
 apart and six inches in the drill. May be cut as small as a single eye on a 
 piece, and set four eyes in a hill, one in each corner of a square of four inches. 
 Six bushels will be sufficient to seed an acre of ground. 
 
 "Wing's New Mercers. Mr. Benj. Wing, of Rochester, N". Y., says the 
 seed came from Vermont. ,They resemble the old standard Mercer in shape, 
 but have much less of the blue tint in the meat and skin, being nearly white 
 throughout. They have a smooth skin, and cook as white and as dry as the 
 old Mercers. Tiie vine is larger and more luxuriant; they grow as com- 
 pactly in the hills, and have yielded fully 25 per cent, more than the old 
 Mercers, on the same field, and with the same opportunities. They have 
 been called in some instances Sherman's Seedling, or Seedling Mercers. 
 
 "Tiie Keeper Blue is a Western variety of large size, round, with dark blue 
 skin and white meat, and of excellent quality. A few planted as an ex- 
 periment in Monmouth County attained only moderate size, with light 
 yield, ripening rather late; but the quality of this product surpassed the 
 original stock, being in every respect most excellent — equaling the famous 
 Carter in its best days. 
 
 "The Kew Hampsliirc White, raised in Monmouth County, is a very larn-e 
 oblong potato, white throughout. 
 
 "The Wood's Seedling is similar in shape and size, Avith pale red skin mot- 
 tled with white. Both yield very largely, but are not very good table 
 potatoes. 
 
 "The yellow-meated, poor-flavored potatoes, such as Western Reds, Junes, 
 Eoimd Pinkeyes, English Whites, and Rock AYhites, sell at prices 50 per 
 cent, below the choice white varieties." 
 
 The State of Maine is a new variety lately introduced, and another from 
 Maine, called the Poggy potato, both of which are highly recommended. 
 
 Alleghany potatoes is the name of a new sort, described as excellent and 
 free from disease, by D. Edwards, of Little Genesee, N. Y. 
 
 The Wood's potato and Jenny Lind potato are described by John C. 
 PoUey, DeWitt, Clinton County, Iowa, as identical, and he gives the followino- 
 as its history, which is valuable information, and proves that old thin"s are 
 sometimes sold at extra prices as something new. 
 
 "Isaac N. Wood, a farmer, living in Holland, Hampden County, Mass., in 
 the fall of 1845 or 1840, gathered a few potato-balls from the vines of the 
 Peach Blow potato, and the following spring planted some of the seeds. 
 They grew feebly the first year, the tops bearing very little resemblance to 
 those of potatoes. In the fall he harvested about two quarts, varying in size 
 from that of a grape to a crow's egg. There were three distinct varieties in 
 this first crop. The following spring he planted theni in a sandy soil, and 
 
t90 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 raised from one kind about ninety pounds, most of them of large size. The 
 two other varieties yielded very little, and were not preserved ; the former 
 were carefully stored for seed. Their appearance the second year from the 
 original seed was the same as it is to-day ; and it seemed as mature then as 
 it was after years of cultivation. It had the same rough ajjpearance then 
 that it lias now ; the eyes were numerous and deep-set. The next year he 
 cut these ninety pounds of seed in such a way as to leave but one eye on a 
 l^iece, and put three pieces in a hill. The hilJs were one and a half feet 
 apart one way, and three and a half the other. Seeding in this way, he had 
 enough to plant one fourth of an acre. The ground was dry and sandy, and 
 highly manured. I saw them several times during the season, and have 
 never seen a greater growth of tops tlian on that piece. It was impossible 
 to tell, by the tops, which way the rows went, even while they were stand- 
 ing up, and befoi'e they M-ere thrown down by the wind and their own 
 weight. lie harvested from that piece one hundred and thirty bushels of 
 potatoes; some of them were remarkably large, weighing from two to three 
 pounds. He used of this crop only enougli to test thoroughly their quality. 
 The next spring he sold them in small quantities to his neighbors for seed at 
 an extra price. My father procured some of the seed, and raised them 
 for many years, and always considered them a valuable variety, especially 
 for feeding stock. They were not so good for table use as many other kinds ; 
 but they grew better toward spring, and perhaps at that season of the year 
 they are on an equality with our best varieties. They will go further in 
 seeding than any other kind I now remember, and yield much better than 
 the average. I think them a valuable addition to tlie already numerous 
 potato family." 
 
 The Woodbury Red, California, and Early June potatoes, in Litchfield 
 County, Conn., Dr. Beckwith of that State says, "were not afl'ected by 
 disease. The Woodbury Red yields large crops, but the quality is coarse." 
 
 Mr. Sperry, of Bethany, Conn., considers Merinos, which are also called 
 Long Johns, the most profitable potato. He has adopted the plan of plant- 
 ing potatoes only on poor soil, to avoid the disease. Tiie drier the land the 
 I less the rot. Planted on straw between tlie ridges on corn-land they did 
 well; also laid on the ground and covered four inches deep with straw; 
 the yield was small, but the tubers sound. 
 
 Mr. Brown, of North Stoninglon, has tried Wiiite and Black Mercers, 
 Peach Blows, Covers, Californias ; of these the last rotted the least and 
 j yielded the best. Tiie Dover is a fine potato, but the yield is very small. 
 
 Mr. Sperry, of Cheshire, has abandoned the culture of the Mercers on ac- 
 I count of the rot, and regards the Sand Lakes the best; they are prolific, and 
 j an excellent table variety. A peculiarity of this sort is that the tubers form 
 j on roots at a distance from the hill and fill the wiiole ground, and do not 
 rot. His practice is to dig as soon as the tops die, and keep the tubers ex- 
 cluded perfectly from the light. He uses poor, worn-out laud, with lime 
 and plaster in tlie hill, and level culture. 
 
Seo. 48.] IMPORTANCE OF THE POTATO CROP. 791 
 
 Mr. Peck, of Chaplin, plants on old pasture grounds, using ashes in the 
 hill, with uniform success. Ho regards the Dovers as the best potato now 
 raised in Windham County. lie has raised 75 to 100 bushels of Dovers per 
 acre. 
 
 Gen. Pratt, of Rocky Hill, says: "The Scotch Gray was the common 
 sort some years since, but of late English Whites, Pinkeyes, and Wliite 
 Mercers are the preferred kinds. Potatoes do best on corn-ground, which 
 was well manured with the corn, the potatoes receiving in the bill a table- 
 spoonful of ashes and one of plaster, mixed. In one experiment the potatoes 
 rotted less upon ground purposely left full of weeds than where it was kept 
 clean. The longer potatoes are left in tlie ground the better. The Mercer 
 potatoes sell highest. Carter potatoes and Ladyfingers, and Dover or Irish 
 crop potatoes are good, and the last named keep good till spring." 
 
 Mr. Colburn, of Union, says: "The kind known as Peach Blow potatoes 
 was almost exclusively grown in the northern part of Tolland County, and 
 gives it as his experience that early planting and flat culture are best. He 
 plants as early in April as possible, and thinks that the crop of an early 
 planting is less likely to rot. He disapproves the use of animal manure in 
 the hill, and prefers to plant npon land manured the previous year, or upon 
 sward ground, with ashes for a fertilizer." 
 
 S¥J. Iin]iortaiice of the Potato Crop.— ISTotwithstanding disease, bad cro{)s, 
 and all other difficulties in the way of growing potatoes, the average yield 
 per acre is at least one hundred bushels, and the average price in New York 
 for years has been about equal to Indian corn, and sometimes as high as ' 
 wheat, and twice as high as oats. They have often been so high that it was 
 no object for a baker to use potatoes with wheat flour, and they have actually 
 been retailed from the same store, pound for pound, with good wheat flour, 
 at the same price. Under such circumstances, the importance of the potato 
 crop will warrant us to devote some pages for its consideration. English 
 and Irish farmers may well wonder at the statement of the price at which 
 potatoes are sometimes sold at retail in tliis city ; that is, at the rate of eight 
 or nine shillings sterling a bushel of fifty -four pounds, and at this price tliey 
 have been used as food in immense quantities for manj- years. ISTotwithstand- 
 ing the great advance of price, the consumption has enormously increased, 
 which may be attributed in part to the immense number of six hundred 
 thousand immigrants annually. If we estimate that each individual uses 
 but five bushels of potatoes, which is a moderate estimate, it will require 
 three millions of bushels to supi^ly this demand. The reason why this 
 class use potatoes so largely is because they can be so easily prepared, 
 and because the taste for other cheap food, such as corn meal, has to be 
 acquired. 
 
 In September, 1861, when potatoes were considered very low-priced, 
 owing to an abundant crop just coming on the market, the wholesale price 
 was q\ioted at $1 12 to $1 50 per barrel, and the avei'ago quantity in a barrel 
 is not over two and a quarter bushels, making them at the lowest 50 cents a 
 
792 ROOT CROPS AND SUGAR CROPS. Chap. X. 
 
 bushel. At the same time wheat was quoted from 91 cents to $1 27 a 
 bushel ; rye, 67 ; oats, 28 to 31, Indian cofu, 47 to 65, and good wheat flour 
 for family use at $4 50 to $G a barrel, say only three times the price of ' 
 potatoes, with all their weight of water and waste in cooking. Who will 
 doubt the importance of the potato crop in America at present prices ? 
 
 850. Some General Rules for Potato Culture. — The first grand rule is, plow 
 your ground— do not scratch it and call it plowed. We should prefer the 
 Michigan plow, run twelve inches deep, with a subsoil plow following in 
 each furrow, twelve inches deeper; and the potatoes planted and cultivated 
 on the level system, the work all being done by horse-hoes instead of hand- 
 hoes. 
 
 The best potato land is a dry, mellow loam. Do not select muddy soil or 
 ground that was manured high last year with unfermented stable or hog- 
 pen manure ; and do not use either of these manures on the crop. Remem- 
 ber that soil as well as climate has much to do Avith the nature of crops. 
 Gravel or loamy soils arc best, especially when they contain a large propor- 
 tion of vegetable matter. If potato-ground is well prepared, and then be- 
 comes packed afterward, it will not injure the product, but will increase it ; 
 treading the hills upon sandy ground will be beneficial. In planting, we 
 would nse medium-sized whole potatoes, dropped in furrows three inches 
 deep, and fill the furrow with loose dirt, well beaten down. 
 
 For manure, use none but the very best compost or guano, thoroughly 
 mixed with the soil. Use lime, plaster, and salt, one or all. Twenty bushels 
 of salt or fifty bushels of lime per acre would not frighten the potatoes out 
 of one year's growth ; and a handful of plaster upon each hill would tell 
 you a most interesting story. Freshly dag niuck, taken from salt or fresli 
 marshes, thrown into drills underlying seed potatoes, will be found to be an 
 eflicient manure, while the decomposition of this muck, consequent upon 
 the abstraction of some of its constituents by the roots of the growing 
 potato, prepare it for minute division in the soil by the next year's plow- 
 ing, and thus sandy soils may be made to yield large ci-ops of potatoes, at 
 the same time providing themselves with the conditions which will render 
 them retentive of manures for all time. Use salt and lime broadcast at the 
 first or second tending, mixing with the soil by the cultivator. The plaster 
 may be put on at any time after the vines are well grown. Sods or straw 
 laid in the furrow over the seed are good, because they maintain an equal 
 temperature beneath them. 
 
 The best aspect for a potato field is a northern one, as a southern heats - 
 too much, and an eastern heats too rapidly after a cold night. Seed pota- 
 toes we prefer to plant whole, because it is a law of nature that the tuber 
 or seed furnishes food for the young plant. We would plant early, because 
 early planting gives the plant a slow, hardy growth in the comparatively 
 wet weather early in the season, which fits it to better withstand the sudden 
 transition of midsummer. In Mississippi, potatoes are planted in Novem- 
 ber. We have planted in February north of New York city, and got a 
 
Sko. 48.] GROWING POTATOES UNDER STRAW OR TAN BARK. 793 
 
 good crop of early potatoes. Early maturing sorts are the surest of late 
 years. In the culture of potatoes it should be borne in mind that they are 
 tubers ; that the roots which are thrown forth never yield potatoes attached 
 to themselves, tiie new growth always occurring on the stems, and hence the 
 mode of culture should be such tiiat after the proper number of tubers have 
 appeared upon the new growing stem, no others should be induced, so that 
 all the pabulum collected by the roots may be reserved for the use of the 
 first fonnod tubers. If this rule be strictly adiiered to, all the potatoes 
 will be of full size, and we shall not have assorted crops, part large, part 
 small, part ripe, and part ixnripe. As soon as the plants are three inches 
 high, turn furrows toward them so that they will be partially covered, but 
 do not make ridges. Keep your culture upon the flat system. Take care to 
 keep the field clear of weeds, cost what it will, and you can grow potatoes 
 in these latter da^'s with more profit than you ever did in ancient times of 
 great crops and low prices. There is no better implement to use between 
 potato rows than a subsoil plow. Planting in drills wo prefer to hills ; level 
 cultivation in preference to ridges ; but the ground must be deeply prepared. 
 
 851. Culture of Potatoes by the Plow without Hoeiug. — A Connecticut 
 farmer is successful in the following mode of growing potatoes, doing all the 
 work of covering with the plow instead of hand hoe : After plowing deep, 
 he laid out the field with the plow for the seed, di'awing furrows three 
 inches deep, two feet and a half apart ; in these were dropped potatoes fif- 
 teen inches apart. They were covered by throwing a ridge over each row, 
 four inches above the general level — the potatoes therefore being buried 
 seven inches deep. Ten days after the piece was cross-harrowed level, or 
 nearly so, and then left till the* rows could ])e distinctly seen ; then the earth 
 was again thrown in ridges, covering the potatoes ; this was done by plow- 
 ing twice to each I'ow ; then, the same day that which was ridged was liar- 
 rowed flat, there being no more plowed than could be leveled before night. 
 When the plants had attained a bight of six or eight inches, the}^ were 
 tilled either with Shares' horse-hoe or with a light plow, according to the 
 soil (which in some parts was too grassy to use the horse-hoe to advantage) ; 
 by this operation the potatoes were pretty well earthed up. Afterward the 
 horse-hoe M-as used again as a weedcr, and nothing more done, save to go 
 through once and pull the few big weeds which were in the rows. The hand- 
 hoe was used in a few spots only, where sods on the surface made it neces- 
 sary. As the result of this mode of culture there were three acres of pota- 
 toes, and not a weed in sight. 
 
 852. Growing Potatoes under Straw or Tan Bark — R. B. Bamford, of 
 EnglaTid, has issued a pamphlet, giving his method of using tan bark, which 
 is briefly stated as tbllows : He does not cut his potatoes, but uses the 
 largest he can select. The rows are thirty inches apart, and the potatoes 
 are put nine inches from each other in the row. The land is plowed only 
 eight inches deep. He treads the manure firmly in the furrows, puts in the 
 tubers, and covers them in with taa refuse, nine inches deep. In 1857 he 
 
794 ROOT CROPS AND SUGAR CROPS. Chap. X. 
 
 raised six hundred and seventy-five bushels of potatoes to the acre, with 
 nothing but waste tan as a covering, and not a rotten one among them. 
 
 A similar tiling has been practiced with straw and with swingling-tow. 
 J. M. Smith, of Beaver County, Pa., recommends raising potatoes under 
 straw. Plow the ground and manure well. Cut the seed and drop in 
 squares two b}^ two and a half feet on the leveled surface, and cover with 
 straw six inches deep. Tlie crop was large and potatoes good, M'hen all 
 around, potatoes planted in the usual way made a poor crop. 
 
 Another farmer says : " Prepare the ground well and plant in drills and 
 cultivate once after tliey grow, and then, M'hile the surface is fresli, cover 
 eight inches deep with straw." 
 
 853. AshfS for Potatoes. — Rufus Brown, of Clielsea, Orange County, Vt., 
 says that in an experiment tried by him, the gain in the crop of potatoes by 
 the use of ashes at tlie rate of a teacupful to tlie hill was about a bushel 
 and a half of potatoes for each bushel of ashes used. The kind of potatoes 
 was the Englisli Pinkeye, and yield two hundred bushels per acre. Tiic 
 ground was planted May 7th, witli the ashes in holes and a little dirt over 
 them. It was plowed and hoed June 18th, the rows being four feet apart 
 and hills three feet. Tlie ashes cost twelve and a half cents a bushel, and 
 potatoes sold at thirty-five cents, returning full fifty cents a bushel for the 
 ashes employed. 
 
 854. Iloeillg^ Potatoes when Wet. — A correspondent of the Prairie Farmer 
 states that, having noticed how potatoes, when interrupted in their growth, 
 invariably pined away and died, if disturbed and bruised wlicn wet witli 
 dew or rain, he tried the following experiment : lie selected a patch in his 
 potato-field, had it plowed only once, and tlren loosened the soil with the 
 hoe when the stalks were above ground, and in the heat of the day when they 
 were dry. lie never touched them afterward until they were dug in Octo- 
 ber. These stalks kept green, and the yield of potatoes was very large. 
 The otiier jiortion of the patch was worked three times, when the stalks 
 were wet with dew. These blighted early, did not produce half a crop, and 
 that of an inferior quality. The ground, seed, and time of planting in both 
 cases were tlie same. 
 
 855. Practical Opinions about Seed Potatoes and Planting. — Isaac Beck- 
 ner, of Goshen, Ind., gives the following as his plan, by which he gets a 
 good crop of sound potatoes : " Plant sound seed three and a half by three 
 and a half feet ; work them with a small cultivator until they are ready to 
 lay by, and then run a furrow in the center of the middle as deep as you can 
 with a shovel plow, twice in the same place each way, forming a fine hilL 
 Tiiese furrows will drain the hills if too wet, and if it is dry, the hill is in a 
 good shape to retain the moisture. In this way of tending they will need 
 no hoeing, as they will be hilled sufficiently." 
 
 Another farmer prefers drilling the seed. He says the average yield is 
 twenty-five per cent, greater. 
 
 Another one not only plants in squares, but is particular to have each 
 
Sec. 48.] CUT SEED VS. WHOLE POTATOES. 795 
 
 piece of seed in its proper place relative to position. After preparing the 
 ground and marking each way with a plow, he marks a place for eacli piece 
 of seed with a block having four pins inserted at equal distances. Small 
 children may follow and drop one piece in each hole, which may then be 
 covered with the hoe or rake. By this method your potatoes are neitiier too 
 compact nor carelessly dropped out of place. The after-culture is more 
 pleasantly and nicely performed, on account of every plant standing just 
 where it should bo. 
 
 Another recommends planting the seed very aeep, and proves his theory 
 sound by seed accidentally buried very deep, always producing well, and 
 tlic potatoes never rotting. lie says : " Potatoes planted near tlie surface 
 are affected by the changes of the weather ; the blistering suu and drench- 
 ing rain contribute in no small degree to their decay, while tliose deeper 
 planted are protected from the extremes of heat and cold, of wet and 
 drouth." 
 
 General Beatson, of the British army, who commanded at St. Helena, at 
 the suggestion of the Eoyal Agricultural Society tried a great number of 
 well-directed experiments in relation to the culture of the potato. He 
 found that the proper depth to which the seed should be covered was six 
 inches ; that at a greater or less depth of covering the crop was less and 
 of inferior quality. He also found that the largest and most perfect pota- 
 toes, when used for seed, would give a larger yield from the same number 
 of pounds than any other size. He tried them of every size, at every deptli, 
 whole, cut in various sized pieces, the different portions of the potato planted 
 separately, the removal of the eyes from the potato, and their separate plant- 
 ing, and the result of all these experiments ^vas that the largest-sized pota- 
 toes covered to the full depth of six inches, with flat cultivation and con- 
 tinued disturbance of the surface of the soil would yield the largest crop. 
 Each of these experiments, even in its subdivisions, occupied a space of not 
 less than one acre. 
 
 856. Cut Seed vs. Whole Potatoes. — There are conflicting opinions as to 
 which is best, planting potatoes whole or cut, or whether large or small 
 ones are equally good for seed. "\Ve give some of these opinions as we find 
 them : our own corresponds to that of General Beatson. The following is a 
 statement of Professor Nash : " Nothing can shake my opinion in favor of 
 j>lanting large tubers. The want of proper food in the soil is often, if not 
 always, the cause of the potato rot, as well as poor crops. A mixture 
 of four bushels of wood ashes, one bushel of shell lime, one half bushel 
 of plaster, one quarter bushel of salt, produced an excellent crop, while, 
 right alongside, a crop without this mixture was not worth digging." 
 
 A letter from Cayuga County, N. Y., contains the following statement: 
 " For twelve years past we have been in the habit of selecting potatoes for 
 seed the size of a black walnut, putting one in each hill, and during this 
 time have not had as many as one in fifty affected with disease, except one 
 season, when digging in wet weather, we washed them before they were 
 
796 ROOT CROPS AND SUGAR CROPS. Chap. X. 
 
 carried to the cellar, Avlieii tliej rotted at the bottom of the heap. We have 
 usually planted the kind called Dooi'yard or Wigdons, and on the same 
 ground, year after year, manuring once in three years. Other varieties have 
 also done well for us with the same treatment, though the rot has been so 
 prevalent in tli? ncigliborhood. As to cutting out eyes of potatoes to plant, 
 it is only a tliCDry tiiat may sticceed, but it is not according to the laws of 
 science. I therefore contend for planting wliole potatoes. Cut potatoes are 
 more liable than whole ones to become diseased. "With regard to planting 
 small ])otatoes, I have proved by experiment that small tubers of the size 
 of English walnuts will produce as good a crop as larger ones." 
 
 On the contrary, John G. Bergen (a Long Island farmer) says : " I have 
 always advocated cutting potatoes, and my experience has always sustained 
 the theor3^ True, the circumstances of all experiments may vary the re- 
 sult. My experiments have produced me the best croj^s of marketable pota- 
 toes. If a potato is cut in the sun or dry atmosphere, a skin immediately 
 forms over the cut part. I have not tried cutting out the eyes, but I do not 
 see why they may not produce as well as from whole tubers. As to the size 
 of tubers, I tried a bushel of the largest, and found that they were earlier 
 and produced a better crop. The best farmers make three sizes, rejecting 
 the smallest, and plant sizes together, and find that they ripen more evenly, 
 and the largest end always ripens earlier, whether cut or not. This is an 
 object with gardeners who grow potatoes for market, and find it an object to 
 get the crop very early — a few days making a great difi'erence in price." 
 
 Here is the statement of a Michigan farmer, which exactly coincides 
 with our own experience : " On the 30th of April, 1851, I planted, on one 
 square rod of ground, in seventy-two hills, seventy -two small potatoes, from 
 the size of a hickory nut to that of a hen's egg. The seed measured about 
 two quarts, and weighed three and a half pounds. To plant an acre in this 
 manner would require ten bushels of seed. On the same day, on a square 
 rod adjoining, I planted seventy-two large potatoes, in seventy-two liills, 
 jilacing one in each hill, without cutting. The seed measured more than a 
 peck, and weighed fifteen pounds. On the 20th of August I dug both 
 patches. The product of the small potatoes was five pecks, weighing eighty- 
 four pounds, wiiich would give a yield of two hundred bushels to an acre. 
 The product of the large potatoes was one hundred and fifty-eight pounds, 
 measuring nine pecks, which would give three hundred and sixty bushels to 
 the acre. The vines averaged four to each hill, while those of the small 
 potatoes were only three. The vines from the lai"ge potatoes grew much 
 faster and larger than the other, but in the size of the potatoes there was no 
 great difi'erence. 
 
 Prof Mapes says : " I tried the experiment of cutting out the eyes for 
 planting, with a gouge. These were planted, after being rolled in plaster 
 or partially dried, and the potatoes were used as food. I found that the eyes 
 of one bushel of potatoes occupying the same amount of ground, and all 
 other circumstances being equal, planted alongside of a bushel of whole 
 
Seo. 48.] EXPERIMENTS WITH LARGE AND SMALL SEED POTATOES. 797 
 
 potatoes, would j-ield the same number of potatoes, but not of the same 
 weight or size ; their keeping properties were not so good, and thej were 
 more early attacked with disease." 
 
 The following are brief opinions of Connecticut farmers : Mr. Sperry, of 
 Cheshire, prefers seed split lengthwise. 
 
 Gen. Pratt thinks cut seed better than whole — he cuts in two or three 
 pieces, and thinks small seed will eventually deteriorate the croj). 
 
 Mr. Sperry, by planting small seeds, obtains the largest tubers. lie thinks 
 too much seed is generally used. 
 
 Mr. Colburn sees no difi'erence from whole or ciit seed. 
 
 Mr. Browu prefers tubers the size of an egg, and four stalks in a hill. 
 He sometimes plants chits instead of whole seed. 
 
 Mr. White, of Manchester, cuts an egg-sized potato in four pieces, and 
 uses but two in a liill, planting 3| x 3 feet, or 3x3, upon pasture land, with- 
 out manui'e, using plaster after hoeing. 
 
 An advocate of cut seed says: " Wo do not need many sprouts in a hill, 
 and we do not get many, liowever many eyes w"e plant. If we plant whole 
 tubers, one vigorous stalk grows, and we get the same result from a single 
 eye. I would never plant cr.t potatoes without fii-st rolling the seed in 
 lime, or something to dry up the juice." 
 
 Our own opinion we give in conclusion as follows : for seed, we should 
 use medium-sized tubers — less than is usual in the hill. If the stalks are 
 abundant, invariably they are not vigorous, and produce small potatoes and 
 a poor yield. 
 
 The seed-ti.vl of potatoes, we liavc no doubt," is etpally valuable as any 
 other part for planting, if cut so as not to have too many eyes and sprouts 
 huddled togeiher ; yet we have known some over-nice planters cut ofl" and 
 throw away ihe seed-end as worthless7just as some do the but-ends of cars 
 of corn, without being able to assign the reason wherefore. We are in favor 
 of planting potatoes in drills, as well as almost every other farm crop. To 
 sum np : Plant jiotatoes on dry land, deep plowed and subsoiled, manured 
 with compost in the drill, or covered and mixed with all the surface-soil 
 with a cultivator harrow. Plant medium-sized tubers in medinm quantities 
 if whole ; or cut so as to divide the eyes equally, and take pains to drop them 
 carefully and with regularity. 
 
 857. Accurate Experiments with Large and Small Seed Potatoes.— K. K. 
 Kenny, of Lorain Co^^nty, Ohio, says : " About the first of May I made a 
 small piece of ground very mellow, and planted it with care in the follow- 
 ing Older : 
 
 " 1. Two rows, of six liills each, with pieces from medium-sized tubers, 
 each piece having one eye, and four pieces in a hill. 2. Two rows, with 
 whole medium-sized tubers, one in each hill. 3. Two rows, with eyes hav- 
 ing very little of the tuber attached, four in each hill. 4. Two rows, with 
 small tubers, four in each hill. 5. Two rows, with eyes from the seed-end 
 of each tuber. G. Two rows, with eyes from the stem-end of the large 
 
798 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 tubers. 7. Two rows, with sinall, unripe tubers, taken up while quite green, 
 on purpose for trial. 
 "At digging-time, the following was the result: 
 
 Weipht of Average No. Av. weight Yield ] Wciglit of Average No. Av. weight Yield 
 
 No. seed. of tubers in 12 hills, per acre. No. seed. of tubers in 13 hUls. per I 
 
 bush. 
 
 1 1 9 9 28J 150 
 
 2... 3 1 .... lOi .... 30 .... 100 
 3.... 5 .... 8| .... 24 .... 128 
 4... 14 .... 15 .... 31 .... 165 
 
 bush. 
 
 5.... 1 2 .... lOi .... 34 .... 192 
 6.... 1 12 .... 12i .... 42i .... 218 
 7.... .... ^ .... 27J .... 146 
 
 "I do not suppose that the same result would always be obtained, but this 
 being from actual experiment is of some little value. Those who advocate 
 the planting of eyes, as in No. 3, usually dry them. Mine, however, were 
 not dried, but planted when newly cut. No. 7 would probably compare 
 better in a dry season ; the vines were altogether more vigorous, and appa- 
 rently more healthy. I also drew some young vines, as is usually done with 
 the sweet potatoes, and transplanted them. From these I obtained beautiful 
 tubers of nearly equal size. This suggests the idea of forcing the potato in 
 a hot-bed, and transplanting when all danger of frost is over, thus securing 
 an early crop. The variety used was the Nishanock." 
 
 858. Planting without Plowing. — The following item of information, we 
 think, must be looked upon as a valuable discovery by a tolerably large clas? 
 of American farmers, who are habitually behindhand with tlielr spring work. 
 
 We can not say that we are entirely satisfied that planting without 
 plowing is worthy of commendation or adoption b}- those who can and 
 should do better. Our informant says : " The best, or next to the best, croj) 
 of potatoes he ever saw was raised by a neighbor whom he saw planting 
 on old corn-ground, by merely pulling over the stubs of corn and dropping a 
 potato in the hole, and then crowding the corn-hill back and stepping upon 
 it. The land was not plowed to begin with, but after the planting treated 
 as usual. No manure was used, and the potatoes (pinkeyes) were the largest 
 and best he had ever seen." 
 
 Upon mellow land, wliere the corn had been manured in tlie hills, and in 
 cultivation hilled ujj, it is possible that the result might be as ab<jve sta'cd, 
 if the ground between the rows was afterward deeply and thoroughly plowed 
 both ways. 
 
 859. Planting Potatoes from Sets. — A farmer who has long practiced gi-owing 
 potatoes from sets, gives the following directions: "Put the seed in drills 
 just wide enough apart to hoe between, and when the sjDronts are up four 
 or five inches, draw them and transplant where they are to grow, three 
 sprouts in a hill. My second crop, May 26, is now nearly ready for trans- 
 planting. This method has many advantages over the old one, especially as 
 the young plants are as hardy as cabbages, and can be planted with as 
 much speed as tubers. One bushel of seed goes as far as ten in the old way. 
 
 " You can have your ground fresh plowed at the time of transplanting, and 
 thus get a good start of the weeds, and no small potatoes ; they are of uniform 
 size." 
 
Seo. 48.] MICHIGAN THEORY OF WINTERING POTATOES. 799 
 
 8G0. Plautiiig Potatoes in Autumn. — Egbert Lanpher, of West Lowell, Lewis 
 County, N. Y., sajs ho has successfully tried the experiment of wintering 
 potatoes in the hill where they are to grow. lie thinks it also a great pre- 
 ventive of the rot. He says : " I cleared a piece of new mucky land, and 
 planted two bushels, and hilled them, so that they did not freeze during the 
 time that the ground remained bare of snow. The next spring I planted 
 on the same kind of land, by the side of those planted in autumn. Those 
 planted in autumn remained green two weeks longer than those planted in 
 the spring. I saved the crop, and used them for seed next spring. I put 
 them up in pits or small holes, from three to seven bushels in each, not 
 piling them over one foot thick, so that they would not heat each other; and 
 now I have from last year's crop as fine potatoes as any man ever need 
 wish to eat. My belief is that potatoes should bo planted in the full of the 
 moon, as early as they can be planted in the spring, and remain undug as 
 long as possible, and those intended for seed should bo mixed witli dirt, 
 through the winter; they never should be put in large piles."' 
 
 All this we agree with exce])t the moon part of tlie story. It is a curious 
 fact that in the year 1860, in a country boasting of its enlightenment, men 
 of fair intelligence and good sense in other matters should still cling to that 
 antiquated and thoroughly exploded old notion that planting potatoes " in the 
 old of the moon" could, by any possible chance, have any effect upon the crop. 
 
 Another person says : "With a view to obtain new potatoes earlier than 
 by the usual process of spring planting, I prepared a small patch in my 
 garden, as follows : 
 
 ''Dug trenches nine inches deep, two feet and four inches apart — strewed 
 on the bottom long stable manure — set Early Junes, whole, eight inches 
 apart; then another layer of long lifter, fresh from the stable, and filled up 
 with four inches of soil. All this, November IStli. 
 
 " As soon as the surface froze hard, I spread a light layer of straw. The 
 sprouts appeared above ground on the -ith of May. Dug between rows, 
 and jilanted Early York cabbages. On the 2Cth of July dug potatoes, 
 leaving cabbage almost headed. The yield was good, but as an early crop 
 the alteuipt was a failure. Potatoes of the same kind planted on the 3d of 
 April came up and matured ten days earlier." 
 
 86L The Roberts, or Michigan, Tiicory of Wintering Potatoes.— A few 
 years ago, a new theory about potato seed was promulgated by a Mr. 
 Roberts, of Michigan, which attracted much attention, and as it is a very 
 reasonable one we put it upon permanent record. It is simply to let the 
 seed remain as the tubers grow in the ground, by which they seem to ac- 
 quire vigor and hardihood to resist any killing effects from bugs or any 
 other blighting cause. 
 
 His plan is certainly worth a trial, as the quality of the potato is un- 
 doubtedly improved by the process. The following is Mr. Roberts' plan in 
 detail : 
 
 " Select one fourth acre of arable land, on which water will Bot stand, on 
 
800 BOOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 an eastern slope (new land is the best for this nse), prepare it early in the 
 spring, furrow four or five inches deep and two feet apart. Select seed 
 roots that are about the size of a hen's egg, that have touched the ground 
 during the previous winter. Do not cut them ; drop one every six or eiglit 
 inches apart in the furrows ; cover them by filling the furrows, and then 
 put a top dressing of two inches of straw or forest leaves on each row. 
 When the tops are two inches high, pass between the rows with a shovel- 
 plow ; follow with a hoe, destroying the weeds and leveling the ground ; 
 do not Itill. Do nothing more until the ground begins to freeze; then 
 cover with half-rotten straw, chaff, or forest leaves, three or four inches deep. 
 Your potatoes will now have a chance to ripen and rest during the winter. 
 
 "The spring following, dig your potatoes, and plant a field crop for culin- 
 ary use in drills four or five inches deep and three feet apart ; drop a potato 
 every eight or ten inches, cover by filling the furrows ; cultivate or hoe 
 twice, and plant another seed patch as above directed. In this way you 
 will get the greatest yield and best quality. Continue a similar practice 
 from year to year, and judging from my own experience, I believe you will 
 find 3'our potatoes yearly increasing in yield and quality. 
 
 '' The third year you may increase your field crop by ] lowing in fine 
 manure. You have now had nature's course pointed out to you ; her laws 
 are truths ; and I Jiumbly believe I have given them a just exposition. All 
 who follow my directions will, the second year, see many seed-balls on the 
 vines. Seed of every variety should be fully matured, i. e., not harvested 
 until fully ripe. That which approaches the nearest to perfection should be 
 selected for seed, and all roots for seed purposes should remain in the 
 ground where they grow until they bear seed ; this course will make the 
 seed mature earlier, and make it the most perfect of its kind." 
 
 8G2. Storing Potatoes iu Winter. — There is no better way than covering 
 potatoes in piles to preserve them through winter, care being taken not to 
 cover them too warm, nor so shallow as to endanger freezing and thawing. 
 They M'ill bear freezing once slightly without injury, if thawed in the earth. 
 Put about twenty bushels in a pile, on a smooth spot where no water can 
 reach the bottom of the pile, and cover six or eight inches deep with straw 
 and a little earth, making it a foot thick and compact, before the ground is 
 frozen, and outside of that put a coat of litter, and hold it on with a few 
 shovelfuls of earth, or some brush, or poles, or boards. If much warm 
 weather occurs after the heap is covered, it must be ventilated. This may 
 be done with a wisp of straw extending through the earth covering. 
 
 When potatoes are stored in a cellar, we recommend them to be put in as 
 large bodies as possible, in the darkest part of the cellar. Potatoes never 
 should be exposed to the light ; and they never should be heated in the 
 sun. They should be stored cool, as fast as unearthed, in cellar or piles, 
 where they are to be kept through the winter, and at once covered from the 
 drying winds and light. It is not important that potatoes should be stored 
 dry. Taken from the field in a rainy day, iu a muddy condition, tiiey have 
 
Sko. 48.] COST AND MODE OF GROWING TWO CROPS OF POTATOES. 801 
 
 kept well. One man dried his potatoes in the sun, and stored them warm. 
 In a few days the pile was steaming and the center in a state of decay. His 
 remedy was to spread them out upon the cellar bottom to cool, and sprinkle 
 gypsum, two bushels to a hundred bushels of potatoes, which gave them the 
 condition they would have had if stored on a damp day. Potatoes would keep 
 better if buried with earth, filling all the interstices between the tubers, 
 keeping them cool and dark. That is the great secret in storing potatoes. 
 
 863. To Keep Potatoes from Sproiitingo — "To keep old potatoes from 
 growing, use boiling water, in a tuT), with as many potatoes as the water 
 will entirely cover ; then pour off the water, and lay up the potatoes on 
 boards, in a dry place, only one layer deep." 
 
 In Scotland, " diluted ammoniacal water, in the proportion of an ounce 
 of the liquor of ammonia to a pint of river or rain water, has of late years 
 been successfully employed for checking the vegetative power of potatoes 
 and prolonging their suitableness for food. Potatoes immersed four or five 
 days in this liquid retain all their edible properties unimpaired for a twelve- 
 month, improved in flavor and mealiness. The effect of the liquid is to con- 
 solidate their substance and extract their moisture. After immersion the 
 potatoes should be spread so as to dry." 
 
 SC4. Cost and Mode of Growing Two frops of Potatoes.— The following 
 statements show the cost of growing crops of potatoes on Long Island. 
 John McKunn, of Gravesend, says : " My ground was plowed deep, mellow, 
 and furrowed two and a half feet ajsart. I then sprinkled three hundred 
 pounds sifted Peruvian guano in the bottom of the furrow, and on top of the 
 guano four loads of stable manure, and then, after cutting thirteen bushels 
 of potatoes to two eyes, dropped them fourteen inches apart on the manure, 
 and covered three inches deep. As soon as they were well up, I plowed 
 and hoed them, and twice afterward, and then fastened a wooden mold-board 
 six inches wide upon the top of the iron one, extending ten inches back of 
 the plow, so that the dirt was tlirown quite up to the vines, covering all 
 weeds. This comprises the whole labor of cultivation : 
 
 Cost of plowing, per acre $2 00 
 
 Cost of planting, per acre 3 GO 
 
 Cultivating the same 3 00 
 
 Cost of 13 bushels seed, at 50c. per bushel. 6 50 
 Cost of 300 lbs. of guano, at 2fc. per lb. . 8 25 
 
 — 245 bushels potatoes sold for 50 cents per bushel, $122 50. 
 
 " The variety was Red Cups, a fine potato, cooking white and dry. Potato- 
 ground I sow with wheat, and seed it down with grass, using a small ad- 
 dition of manure, with a fair prospect of a good crop." 
 
 John G. Bergen, also of Long Island, under date of August, 1860, gives 
 the following statement of result of planting seven acres of potatoes — ex- 
 penses — mode of cultivation — crop— marketing and proceeds, gross and net. 
 Location, Eighth Ward, Brooklyn. Soil, sandy, sandy loam, loam, clay 
 li'am, clay and gravel with all shades of admixture. Land all manured be- 
 fore plowing with a broadcast application of either New York city street 
 
 Four loads stable manure, at $1 per load. 4 00 
 Digging 245 bush . potjttoes, at 6c. per bush . 14 70 
 
 Total $41 45 
 
802 
 
 ROOT CROPS AND SUGAR CROPS. 
 
 [Chap. X. 
 
 manure or seaweed. Variety planted, Dikeman, except tliree quarters of 
 an acre Mercers. The plowing and planting all done between the 9tli and 
 26tli of March ; the planting between the 15th and 26th of March, inclu- 
 sive. Depth of plowing, eight inches, except one quarter of an acre sub- 
 soiled to the depth of sixteen inches. The crop dug and sold between the 
 2d of July and the 1st of August, 1860. Vines exceedingly green and 
 potatoes about half grown when digging commenced, and, with the excep- 
 tion of about a half acre of the last dug, the vines continued green. Crop 
 1,590 bushels prime potatoes, 85 bushels culls, and 26 bushels small, hog 
 potatoes ; total 1,701 bushels. The crop would probably have been increased 
 25 or 33 per cent, if all the potatoes had fully matured before harvesting. 
 The yield was 243 bushels to the acre. Amount sold, $1,190, or $170 per 
 acre. The ground since all planted with second crops. 
 
 The potatoes before planting were all cut from two to six pieces, depending 
 upon size, and were planted in drills — the drills were three feet apart, and from 
 three to four inches deep — the sets were placed about fifteen inches ai:)art. 
 
 Well-rotted horse and hog manure was placed in the drills and the seed 
 placed on the manure. The potatoes and manure were covered with a stnall 
 one-horse plow running it on both sides of the drill, throwing up the ground 
 in the form of a ridge over the drill. When the sprouts were within 
 two inches of the surface, the ground was dragged nearly level with a light 
 wooden-tooth harrow. As soon as up, the potatoes received a light dressing 
 with the hoe without hilling, having previously been plowed from the hill 
 with a small iron mold-boai-d plow, rim twice through the row. When about 
 six or eight inches high the plowing wa,s repeated, reversing by throwing to 
 the hill. This was followed by another light hoeing, without attempting to 
 raise up the ground to the vines, the plowing, however, having the effect to 
 hill up to some degree. A few days later, before the vines closed up the 
 rows entirely, a small cultivator was drawn once through every row. This 
 process left the land almost entirely free of weeds, at the time of digging, 
 which was all done with the potato-fork. All of the ground was cropped 
 the previous year — most of it being sod or grass land. The potatoes when 
 dug were at once pi'cked up in baskets and sent to Washington Market. 
 
 Some abatement may be made in the number of bushels, as the cultivation 
 is based on three bushels to the barrel, which is above the true measure. 
 
 EXPENSE PEB ACHE. 
 
 17 loads manure to the acre — broadcast — 
 
 at $1 per load $17 00 
 
 Cost of cartage and spreading manure ... 6 00 
 12 loads horse and hog manure to the 
 
 drill, at $2 25 27 00 
 
 Team and men to apply the manure 4 GO 
 
 12 bushels seed and preparing it for plant- 
 ing 10 00 
 
 Plowing, harroiving, and marking out 
 
 ground 4 00 
 
 Two hoeings — 4 days for one man , at 75c. 3 00 
 Dropping potatoes and covering with horse 
 and plow 2 50 
 
 Plowing between drills ; harrowing ridges 
 
 down with wooden-tooth harrow $3 50 
 
 Digging, at 44 cents per bushel 10 93 
 
 Carting to Washingtoa Market a.nd fer- 
 riage and loading 10 00 
 
 Commission for selling $170, 10 per cent. 17 00 
 
 Total expense $114 9* 
 
 Amount sold per acre $170 00 
 
 Direct expenses 114 93 
 
 Apparent profit $55 07 
 
Sbo. 48.] EXPERIMENT IN PLANTIXCr POTATOES VAIUOUS DEPTHS. 803 
 
 The potatoes were dug by contract per bushel ; they might have been 
 gathered much cheaper by ordinary farm-laborers employed by the month 
 and boarded by the proprietor. 
 
 'No allowance is made for interest of value of land, and of tlie other 
 capital employed in producing the crop, and the wear and tear of imple- 
 ments, baskets, etc. 
 
 The land, after a potato crop is taken off, is left in better condition than 
 before — the second crops receiving no additional manure, except sometimes 
 a light application of guano. 
 
 865. Experiment in Planting Potatoes Tarious Depths. — Yaridij, Mercer ; 
 planted May 12, 1859. Dug September ^th. Vines dead since the middle 
 of August. Planted one moderate-sized potato to each hill, and manured 
 alike in hills. Yield reported hj John G. Bergen, of BrooMyn, asfolloius: 
 
 Iba. lbs. lbs. lbs. Average. 
 
 2 hills, 2 inches deep— each hill weighed separately 2 I ■• 1-375 
 
 3 hills, 3 inches deep— each hill weighed separatjely HI 11 1-416 
 
 2 hills, 4 inches deep — each hill weighed separately l| 2 . . 1.875 
 
 3 hills, 5 inches deep — each hill weighed separately ij 1 1 1.166 
 
 4 hills, 6 inches deep— each hill weighed separately 2 14 1^ H 1025 
 
 4 hills, 7 inches deep — each hill weighed separately IJ 1^ \\ 1 1.4375 
 
 3 hills, 8 inches deep— each hill weighed separately l| 1 J 1. 
 
 3 hills, 9 inches deep — each hill weighed separately li li J 1.166 
 
 3 hills, lOinelicj deep — each hill weighed separately 1^ 1 i 1-25 
 
 3 hills, 1 1 i!iches deep — each hill weighed separately 1 Ij \h 1.25 
 
 3 hills, 12 inches deep— each hill weighed separately \ \ \% 1.0S3 
 
 4 hi'.'s, eye-end cut, one piece, 5 inches deep, 5J lbs 1.375 
 
 4 hills, middle cvit, one piece, 5 inches deep, 5 lbs 1-25 
 
 4 hills, stem cut, one piece, 5 inches deep, 4i lbs 1.062 
 
 2 hills, one potato each, with plaster, 5 inches deep, 3| lbs 1 .875 
 
 2 hills, one potato, plaster and ashes, 3} inches deep, Z\ lbs ].'i25 
 
 2 hills, one potato, ashes, 5 inches deep, 3} lbs 1.625 
 
 "It will be observed that the best results followed the 4-inch plantings: 
 and next in order, 6-inch, 7-inch, 8-inch, and 2-inch ; while 5-inch, which 
 is between these numbers (and which I think is the right deptli for our soil), 
 produced less than any, until we reach the S-inch plantings. The results are 
 not uniform ; for instance, one liill, 12 inches deep, produced IJ lbs., which 
 is larger than the average of any except the i-inch planting; and so with 
 other individual cases. The experiment is not conclusive, not being made 
 on a sufficiently large scale, though carefully made. The yield was light in 
 every case, but this was from other causes, and does not affect the general 
 result. In all experiments of this kind, the size and quality or condition 
 of the seed should be as near alike as possible. I deduce froui these experi- 
 ments, and froui observation, the following, as bearing on this question : 
 
 " First, Time. — The depth of planting potatoes should be varied accord- 
 ing to the time of planting, and possibly according to the character of soils. 
 Early planting, except to protect from freezing, requires the least depth. 
 
 " Second, Variety. — Tliose that mature early require the least depth. The 
 habits of varieties differ, and the treatment should vary accordingly. 
 
 " Third, Season. — Much depends upon the season, whether wot or dry, 
 or medium. This can not be known beforehand, and hence a medium depth 
 
804 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 should generally be adopted. This, for early varieties planted early, and 
 •n-hicli generally mature on Long Island soils before the crop is severely 
 affected by drouths, should not be over three or four inches, and for later 
 varieties from five to six inches." 
 
 866. The Potato Disease that Causes Rot.— We will not inflict the reader 
 with a homily upon this over-written subject. Neither cause nor cure of 
 the disease has yet been discovered. The signs of the disease usually are : 
 A wilted leaf on the young rosettes of the plant, which are the tenderest 
 parts ; steel-blue points on some of the older and outer leaves, and yellow 
 iron-rust stains on the inner leaves ; mildew, which quickly follows these 
 signs, and which, if not arrested, kills the whole plant. These signs are pro- 
 duced by cold and wet weather and hot, muggy atmosphere. In cool weather, 
 the flowers fall without setting fruit ; in hot and damp weather seed-balls 
 set freely, but, with the whole plant, fall a prey to mildew. The oidy 
 remedy is to cultivate as well as we know how, choosing new and hardy 
 sorts of potatoes, plant early, and trust to chance for the rest. The mowing 
 of tops has been tried over and over again, sometimes with success and 
 sometimes the reverse ; and so have other remedies, each of which has in 
 turn been proclaimed a specific. A prize essay in the Royal Society's Jour- 
 nal for 1858 gives us to understand that deep planting is the true and only 
 remedy ; and yet we have planted deep — and so have thousands of others — 
 and lost the crop. 
 
 It is said that very wet, cold seasons, such as 1857, or hot, damp ones, 
 like 1850, 1851, and 1855, cause rot ; so do sudden alternations of tempera- 
 ture — for instance, from dry, hot weather to wet, cold, and windy ; and 
 these changes destroy tlie cucumber, squash, melon, tomato, and egg-plant 
 as well as the potato. The years 1847, 1818, 1854, 1858, and especially 
 1852, were favorable ones. 
 
 If we plant in drained lands, or upon ridges where the water will not 
 stand, the crop will rot less than in wet ground. The tlieory is that warm 
 rains and a scalding sun produce the rot more than any other one cause. 
 This theory is equally untenable with the thousand-and-one others. There 
 is no cure for the disease — there are preventives. The one most easy of 
 trial is early planting, dry soil, no stable manure, but other fertilizers, such 
 as well-rotted swamp muck, or compost, lime, salt, plaster, phosphate, guano, 
 potash, or wood ashes. It does not answer to allow vines to be so late that 
 early frosts find them still green. Unfermented manure produces late 
 growth of vines, and this as well as wet ground and late planting, leaves tlie 
 vines green and liable to the influence that kills tlie tops and rots the roots. 
 As preventives, iise seed of hardy varieties, planted early on dry ground, 
 hilling-up to shed rain, and sow plaster, lime, andsulpliur on the tops. Lime 
 on carbonaceous soil has the effect to make the vines less succulent and 
 more hard}', and that may account for its prevention of rot on such soil. 
 After all the discussion, we know nothing about the potato disease ; but if 
 we plant early we are more likely, or at least so far have been, to get good 
 
Sec. 48.] THE POTATO DISEASE THAT CAUSES ROT. 805 
 
 crops. Yet tliis may fail. Another point of a practical nature is this: 
 that if we prepare our ground well, and feed it such ingredients as the 
 crop needs, wo are more sure to get a good crop than by the opposite 
 course. 
 
 The theory that the disease of potatoes is caused by insects has been advo- 
 cated as a fixed fact. One wi'iter says: "A little black bug, not much 
 larger than the head of a pin, leaves an almost undiscoverable substance on 
 the potato leaves, which turns black and kills the vines, and the rot of 
 the tubers, follows." lie thinks some bug deposits a poisonous substance 
 upon other vegetables, injuring them very much for food. 
 
 Another one says: "The potato rot is unquestionably caused by an in- 
 sect, resembling both the musketo and the common house-fly, which depos- 
 its its larviB in the stock near the ground, and which does not make its ap- 
 pearance before August and September. It j)asse3 over some entire fields 
 in the same neighborhood, some hills in the same lot, and some stalks in the 
 same hill. The weather has no eflect except to quicken the activity of the 
 insect or to hasten decomposition after it has commenced." 
 
 " Unquestionably caused !" Is it? Let us see. Dr. Asa Fitch is good 
 entomological authority. Now hear how he upsets this unquestionable 
 cause. He says : 
 
 " The cause of the rot is supposed to be an insect, and numerous experi- 
 ments are given to confirm this view ; the insect itself is described at length. 
 Its name, with the spelling corrected, is the Phiitocoris Uneolaris of Beau- 
 vois, and is supposed to be identical with the insect described by Say as the 
 Capsus ohlineatus. Now if the theory that the potato rot is caused by this 
 insect is correct, there are these difficulties, which must occur to any one 
 acquainted with entomology : 
 
 "1. The insect referred to has always been known in this country, and 
 was probably quite as numerous fifty years ago as it ever has been since. 
 From the earliest times the farmers have found it infesting their potato 
 fields, and have consequently given it the common name cf ' the potato 
 bug.' Wiiy did it never cause the rot until so recently ? 
 
 " 2. The insect referred to has never infested Great Britain — the only ex- 
 amples of it seen there, so far as we can ascertain, having been carried 
 thitiier as curiosities in collections gathered in this country. Why did the 
 potato rot appear there ? Could the devastations of the insect in the crops 
 of America have caused the rot that carried off all the potatoes in Ireland 
 one or two years before?" 
 
 The disease that causes the potato rot is not a new one. A friend sends us 
 the following " extract from a German paper," which says that " potatoes 
 were first introduced into Europe in 1583 ; fifty-nine years afterward the rot 
 commenced ; eighty years after its introduction no good seed was to be had. 
 In 1(396 new seed was imported from Peru ; forty-tive years after this the 
 rot again commenced, and in 1779 no good seed was to be had. In 1797 
 new seed was again imported, and it did not get into general use until 1802 
 
806 BOOT CROPS AND SUGAR CROPS. [CnAp. X. 
 
 or 1803."* If this is a fact, it should be fully proved, and that would prove 
 the necessity of frequently renewing the seed from tlie original locality. 
 
 867. Substitutes for Potatoes. — Must we give up the cultivation of the 
 potato? And if so, what will be the substitute? This is a question worthy 
 of consideration ; for although we do not believe that we shall give up their 
 cultivation, we may discover something else worth trying — something which 
 may prove valuable as a farm crop. Alrefl.dy we have had the Ciiinese yam 
 introduced and grown to some extent, and talked about being grown to a 
 very large extent. Several varieties of lotus have also been proposed as 
 food plants. 
 
 808. The American Lotus as a Substitute for the Potato.— The Apio or Ovate 
 Aracacha having been named as worthy of attention as a food plant, a cor- 
 respondent of tlie Homestead names " the Nelumhlum lutenum, or great 
 nut-bearing lily, which, in his estimation, surpasses all other aquatic plants 
 of the United States in beauty and utility. It grows abundantly in the shal- 
 low and stagnant waters of our Southern and Western States, and has been 
 found flourishing as far north as the bays and inlets of Lake Erie. It is 
 properly the lotus of [North America, yielding a collection of tubers, much 
 like the sweet potato, at its roots under the water, and also a liberal supply 
 of nuts at the top of its stem. Tiie nuts are all ripe at the same time, are 
 about the size and color of medium white-oak acorns, so that tliey might 
 easily be mistaken for them. The nuts are used as food like the chestnut, 
 and are a valuable substitute for coffee. The writer has gathered twenty- 
 one perfect nuts from a single stem. By the extensive culture of this noble 
 jjlant .many of our pestilential pools and marshes, instead of exhaling poi- 
 sonous malaria, will at once become fountains of life-giving fertility." 
 
 SCO. The Dioscorea Batatas or Chiuese Yam as a Substitute for Potatoes. — 
 The degree of success in the cultivation of tliis root as a substitute for pota- 
 toes has been very widely different, some condemning it as a worse humbug 
 than " Rohan potatoes," while others liave lauded it so high tliat it has cre- 
 ated doubts of their veracity and its value. In No. 564 we have treated it 
 so fully that we need add but little under this head. 
 
 A letter ft-om M. D. Darnall, P.aiiibridge, Ind., January, 1858, says : " In 
 the spring of 1856, I obtained five small tubers or seed bulbs. These were 
 carefully cultivated, and in autumn I liad five hundred tubers and eight large 
 roots. I planted next spring eight liundred hills, and raised sufficient tubers 
 and large roots for planting one hundred thousand hills. I have two bushels 
 of tubers, which are not much larger than full grown marrowfat peas ; and 
 over one thousand largo roots tliat may be divided into from fifty to one 
 hundred pieces each, capable of germinating. The tubers are raised by cut- 
 ting the vines and planting the leaves in Julj'^ and August. My roots vary 
 in length from fifteen to thirty inches, and from one half to two inches in 
 diameter. I have had them cooked in several ways, and find them to possess 
 all the qualities that have ever been claimed for tliem." 
 
 870. Sweet Potatoes — Where they can be Grown. — We can well remem- 
 
Sko. 48.] GROWING SWEET POTATOES. 807 
 
 ber wlieii this plant, the Convolvulus hatatas, was considered as much a 
 Southern production as cotton is now, and when the commercial designation 
 was " Carolina potatoes." It would then have been considered foolish to 
 attempt to grow sweet potatoes north of latitude 40° ; now it is quite com- 
 mon, though not generally as a field crop. They are raised very extensively 
 along the eastern shore of the DelaM-are, on the light sandy soil that extends 
 thirty miles southward from Camden. The principal markets are Pliiladel- 
 phia, jSTew York, Boston, Wilmington, Delaware, and Baltimore. The varie- 
 ties cultivated are Nansemonds, Early Yorks, and Bermudas. The first- 
 named grows large, long, and rougher than the second, yields abundanrly, 
 but does not suit the Philadelphia and Wilmington markets as well as the 
 Early Yorks, which are marketable earlier, and grow more smoothly and 
 compactly, and are the most generally cultivated. The third, a new variety, 
 received from Bermuda, of a light red color, coarse and rough, is inferior to 
 the first two for the table, but attains a marketable size earlier than they do, 
 and produces a much larger yield. The isothermal position of this valuable 
 plant lias been gradually advancing, until it is now difiicult to say where its 
 northern line is or will be. 
 
 O. S. Murray, of Warren Countj^ Ohio, who is an extensive propagator 
 of sweet potato plants, says : "Sweet potatoes can be grown successful!}- in 
 much higher latitudes than has heretofore been generally supposed. They 
 have already been prodneed, well matured, in Western, Central, and Eas;ern 
 Kew York ; in Connecticut, in New Hampshire, in Addison County, Ver- 
 mont, nearly as far north as the center of that State. In Iowa they are raised 
 to considerable extent, and something has been done with them in Wiscon- 
 sin. I have been a successful cultivator of sweet potatoes a dozen years in 
 Southern Ohio." 
 
 Messrs. Eastman & Snell, of Maineville, Warren County, Ohio, say that 
 a crop will grow and yield well in any ordinary dry soil, provided it is well 
 pulverized with plow and harrow ; and whether the ground is old or new, a 
 light coat of well-rotted manure is preferable. K the soil be very strong, 
 the vines will be large, but the yield of tubers indifferent. 
 
 Warren County is situated npon the high lands of Ohio, back of Cincin- 
 nati, between latitude thirty-nine and forty degrees, where the soil is no 
 more favorable for growing this excellent food than it is in a great many 
 other places in the same range of latitude in which sweet potatoes can be 
 grown with profit to the cultivator, and as they can with pretty fair success 
 up to forty-one degrees, the latitude of New York, and with varying suc- 
 cess one or two degrees above that. 
 
 The best variety for the North is called the Nansemond, from the name 
 of the county in Virginia -whence it was taken to New Jersey. Joseph 
 Evans brought it into Warren County, Ohio, many years ago, -where it has 
 been successfully cultivated ever since. One peculiarity of this variety is, 
 it is mature and good for use at every stage of its growth. Another pecu- 
 liarity is its adaptation to a great variety of soils — even loamy clays, quite 
 
SOS BOOT CROPS AND SUGAR CROPS. [Cuap. X. 
 
 heavy with clay, if lying elevated. Almost any soil that will produce corn 
 well will produce this— except low, alluvial grounds, where there is too 
 much vegetable mold, that causes excessive running to vines. 
 
 871. Making Seed Bed aud Growing Plants. — Mr. Murray says : " "We 
 have ne\er used glass for these plants, preferring to give them as much air 
 as possible, making them the moi'e hardy. Put the seed in the bed about 
 the middle of April ; transplant after they have been above ground two or 
 three weeks, or any time before they commence running. Place the potatoes 
 in the bed so that they will scarcely touch each other — a bushel on from 
 twenty -five to thirty square feet, from the 1st to the 25th of April. Plants 
 can be packed so as to keep perfectly good for fifteen to twenty days while 
 transi)orted from the seed beds to other parts of the country. 
 
 " The best method of sprouting sweet potatoes is in the ordinary manner 
 of a jnanure hot-bed. This bed is made by building up the sides with plank 
 and filling in to the depth of fourteen inches with fresh hard stable manure. 
 The manure should be packed as hard as possible, then cover over to the 
 depth of two inches M'ith light soil, then, after laying on the potatoes, cover 
 them to the depth of four inches, with light sandy soil or loam. By cover- 
 ing the pc^tatoes deep, the stems are longer and much more hardy and 
 ihrifty. 
 
 " Cover the bed with coarse hay, two or three feet deep, to prevent the 
 heat from escaping, and the raiu from wetting it. Take off the hay in the 
 heat of the day, from nine to three o'clock, if it is warm weather. When the 
 bed begins to heat it must be examined by running the hand into it — a 
 moderate warmth is all that is necessary — more than that will be injurious, 
 and must be counteracted by leaving otf the cover at night, or by applying 
 cold water. When the plants appear, and afterward, they must be watered 
 daily, unless the bed should be too cold to allow it. Warm water from a 
 pond or ditch is best. 
 
 "As often as one growth of plants is pulled, another takes its place. 
 Care must be taken, when pulling the plants, to hold the potato firmly in 
 the bed by pressing on it with the left hand." 
 
 872. Setting tlic Plants. — Put the plants in the ground from the middle of 
 May to the middle of June. In some seasons you may commence earlier 
 than this ; in some you may continue later. Generally, the best time is 
 from the 10th or 15th of May to about the same time in June. 
 
 In. setting the plants, care should be taken to have them set well in the 
 ridge, fully as deep as they originally stood in the hot-bed, and the soil 
 should be well compressed about the roots. Sprouts should be set from 
 twelve to fifteen inches apart in the ridge, and whea in hills two or three to 
 the hill. 
 
 In setting out plants, a boy drops one on each hill, taking two rows at 
 once ; a man follows, and taking the plant in his left hand, runs three fingers 
 of his right hand through the top of the hill into the manure; as he with- 
 draws them he quickly thrusts in the root of the plant to the bottom of the 
 
Seo. -i^J GROWING SWEET POTATOES. 809 
 
 hole, and then, with the thumb and finger of each hand, firmly presses the 
 earth around the plant. Plants are best set out when the ground is not too 
 wet and cold — much better before a rain than after. Some use a common 
 mason's trowel in setting, thrusting in the trowel somewhat obliquely, and 
 as the trowel rises, the plant in the other hand takes its place. 
 
 Light sandy soil, free from undecomposed vegetable matter, is generally 
 seleuted for the crop. Plow as for oats, harrow thoroughly, mark it out 
 thirty-three inches each way for the hills. 
 
 Use animal, rather than vegetable manure — that is, manure from the 
 stable, rather than the straw stack. 
 
 The manure for sweet potatoes must be well rotted by composing it, or 
 otherwise. Marl mixed with it is an advantage. From eight to thirteen 
 two-horse loads, according to quality and abundance, arc used per acre, a 
 one-horse cart-load will make from two hundred and fifty to four hun- 
 dred hills, which should be made, or the manure covered as soon as it 
 is jnit in. From four to six good hoefuls of earth are sufBcieut to make a 
 hill. 
 
 8T3. Plowing and Tilla.gc for Sweet Potatoes.— Plow when the land is in 
 good condition, no matter if a week or two before time for planting. At 
 planting time pulverize well, if necessary with harrowing and rolling (or, 
 what is better, drag-crushing), and throw the surface into high ridges by 
 turning together two furrows with a two-horse plow, making the ridges 
 about three and a half feet apart from center to center. It is not necessary 
 for the. ridges to be wide, but they must be of good hight, as the potatoes 
 will only grow in length as they are accommodated with loose earth ; so if 
 the ridges are flat, the potatoes will grow short in clumps. Those wishing 
 to raise but a small quantity will probably find it more convenient to make 
 their ground into hills with the hoe, about five feet apart. 
 
 Commence tilling with an adjustable cultivator, that can be adapted to 
 the breadth between the ridges, and throw back the earth with a wide 
 shovel-plow, re-forming the ridges, finishing with the hoe. In using the 
 hoe, particularly^ after the vines commence running, be careful not to strike 
 into the ground deeply near the stem, lest you cut off the best of the project- 
 ing tubers. 
 
 Mr. Murray says : " All land is the better for subsoiling. "We subsoiled 
 twenty-five acres for this crop last year, and are sure it paid. New grounds 
 produce this crop well, where there is not too much vegetable deposit — not 
 turf. Turf should be subsoiled first with another crop — corn or wheat is 
 favorable. The cultivation necessary is to keep the ground clear of weeds, 
 and should the soil become hard, to loosen- the tops of the hills or ridges 
 with hoe or rake." 
 
 In New Jersey, the crop is tended with small cultivators and hand-hoes. 
 One hand is allowed to attend 40,000 plants, or about eight acres. 
 
 Perhaps no other plant cultivated for producing food possesses such 
 tenacity of life — such a fund of vitality to resist and overcome unfavorable 
 
810 EOOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 circumstances in transplanting as the sweet pototo. The plants can be sent 
 in good growing condition a long distance. 
 
 874. Harvesting and Storing. — In harvesting, some nse the plow — first cut- 
 ting the vines near the stem. After the plowing, four-fingered hooks are 
 used for haulijig out. When the ground is light, it is about as well without 
 plowing to throw out with flat-fingered spading-forks, or even common 
 manure-forks. On a small scale, get them out anjhow, as you do beats or 
 carrots. 
 
 In Delaware and Virginia the crop is generally dug with large hoes 
 made expressly for that use. "When stored for spring, they are carefully 
 placed in baskets, in the field, and then emptied into boxes or barrels, and 
 soinetimes covered with dry sand, or leaves, or cut straw, but often without 
 anything to keep the air from them but the lid of the box, which, if tiglit, is 
 mostly sufiicient ; but they must be kept in a dry, warm room. If the crop 
 brings $50 per acre it is sufficient to pay expenses. All over that is profit ; 
 and two hundred and fifty busliels per acre is a large yield. 
 
 At the North they are kept through the winter in cellars, prej^ared ex- 
 pressly for the pnrpose and kept warm. On a small scale, witii experience 
 and plenty of manure, tlie crop should be, in a good season, from 150 to 200 
 bushels an acre, as far North as it M-ill grow. 
 
 Sweet potatoes should always be dug before the lieavy frosts in autumn, 
 as a frost which would be severe enough to kill the vines would injure the 
 potatoes very much for table use. 
 
 In South Carolina we have seen them kept in a very rude way ; .simply 
 by laying down cornstalks on the ground, and then covering with stalks, 
 and perhaps a little earth. Frequently large jJiles arc made, and over 
 them rails set up in form of a roof and covered with straw. Sometimes 
 pits are dug and a tight roof made, and the potatoes stored in pine straw. 
 Tiie greatest difficulty in growing sweet potatoes at the North is in keeping 
 them over winter. They will only keeji in an atmosphere that is of even 
 and mild temperature, and entirely dry. 
 
 875. Tlie Jerusalem Artichoke. — Tiie culture of tlio Jerusalem artichoke 
 {HeUaiiihus tiiherosus) was introduced into England in 1C17, but it is seldom 
 cultivated, except in gardens. It will grow in any soil that is not too wet 
 and cold, yielding a large amount of nutritive matter with little labor. It 
 can not be grown in any series of rotation ; for if the ground is once stocked 
 with roots, it is almost impossible to clear them out, and they will come up 
 like weeds, even if the land is seeded down to meadow or pasture. In Ohio, 
 many good farmers bear evidence to its value for feeding stock. The usual 
 method of cultivation is to plant the tubers in rows, three and a half or four 
 feet apart, and eighteen inches to two feet in the row, and cultivate between 
 the rows, as you do corn. The tops soon cover tlie ground and kill out the 
 weeds, and no further culture is given. In the fall, after the tops have died, 
 the roots are either dug up or the hogs are turned into the field. Commonly 
 a portion are taken up, and tlie hogs are allowed to follow and d'lr up the 
 
Sbo. 48.] THE JERUSALEM ARTICHOKE. 811 
 
 remainder. Enougli are always left to seed the field for the next season. In 
 this way the same jjiece of land will bear a succession of crops of this plant 
 without further seeding. Tlie hogs dig or plow the soil very deeply in au- 
 tumn, which destroys any grubs that may be injurious, and fits the land for 
 the next crop. ' 
 
 Cattle, as well as hogs, relish the roots. In France they are usually fed to 
 sheep, with excellent results. In the Journal cT Agriculture Pratique for 
 April, 185S, M. Doniol gives the results of his cultivation of this plant on 
 inferior soil for fifteen years. He fed off the stems and leaves with sheep in 
 October and November, and then dug the tubers, feeding the sheep with 
 them, either on the ground or in the pens. He bought the sheep in Octo- 
 ber, and calculated the value of the crop from the increase in money value 
 of the stock. Half a hectare (one and a quarter acres) was sufficient to 
 keep eighty sheep from that time until the following April, and the increase 
 in value of the sheep was eight francs per head, or 6i0 francs ($111 04), the 
 value of the acre and a quarter of artichokes on poor land. From this 
 must be deducted, however, the cost of culture of the crop and care of the 
 sheep, but both are necessary under all circumstances. It seems that the 
 sheep obtained no other kind of food ; and it is good evidence of the nutri- 
 tive qualities of this root that they Averc able to increase in value upon ir. 
 Had M. Doniol given the weight of the sheep when newly bought, and the 
 time of sale in April, his article would have been of more value. 
 
 This plant has about the same amount of water in its organic composition 
 as the potato (76.3) ; but instead of the large amount of starch which is in 
 the latter, there is almost an equal quantity of sugar (14r.80) in this, and the 
 nitrogen compounds are nearly the same in quantity (2.38) ; but these 
 amounts vary in tubers raised on different soils and the amount of cultiva- 
 tion they have received. Enough, however, is known to show that these 
 roots arc worthy of attention, not for feeding exclusively to stock, but along 
 with dry feed during the winter. Thus used, they will prove highly advan- 
 tageous. They should be grown on land which they can occupy for a suc- 
 cession of years, that from some cause is not well adapted to the culture of 
 the more regular crops. If occasionally dressed with a good coating of ma- 
 nure, they will soon repay the expense. Ten, and even fourteen, tuns (tops 
 and roots, we suppose) per acre have been obtained in France, but in this 
 country a much larger yield has often been secur-ed, so that a greater num- 
 lier of sheep could be fed on an acre in Ohio than in France, and the profit 
 would consequently be much greater. This root should take a position 
 among the crops i-aised in this country for green feed in winter and early 
 spring, when stock need it most to keep them in goo.d health. 
 
 In Mississippi we found this root upon many tables of good planters' 
 houses, dressed in the same way that mashed turnips are, and it is by no 
 means a despisable dish. After a little use it is generally well relished. 
 
 876. Turnips— Imporlance of the Crop— Cultivation and Use [see No. 521]. — 
 It sounds strangely to an English farmer to hear Americans underrate the 
 
812 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 importance of the turnip crop — a crop that be looks upou as the main stay 
 of agriculture as much as Indian corn is here. Turnips are not so important 
 here as there, but would be considered much more so than they are now if 
 more grown. Some of the Orange County milk dairymen have raised tur- 
 nips to a limited extent ; but many think they can not raise them at such 
 cost as will warrant feedhig them in preference to grain or other dry feed. 
 And some are of ophiion that turnips cause a large flow of milk, but it is 
 thin and watery, and will generally have a peculiar taste that renders it less 
 salable. This may be in some measure true, but if milch cows can not be fed 
 upon them, other stock can, and cheaper than upon almost any other food of 
 equal value. 
 
 In the year 1860 we grew a fine crop of red-strap turnips, sown broad-^ 
 cast, after other crops, and wintered two cows almost exclusively upon them, 
 feeding hay but lightly, and but little meal. Tlie bulky food was cut corn- 
 stalks. These cows gave a good mess of milk, and after the first two Aveeks 
 the turnips did not injure the flavor materially. In the spring one of these 
 cows was dried ofl" and fed meal two or three weeks, and sold to the butcher, 
 and was really good beef. This proved that turnips have some fattening 
 qualities. 
 
 The "best use, however, for turnips is to feed sheep. In England they are 
 fed on the field by hurdling sheep, on small portions at a time, and as long 
 ago as when Stephens wrote his "Book of the Farm," were considered 
 worth $25 an acre for this purpose. The sheep eat oS the tops and ei'own 
 of the root, and then a man goes over with a turnip picker and pulls out 
 the bottoms so they can eat the whole witliout waste, and at the same time 
 enrich the soil. Turnips are most commonly sown in drills in England, and 
 in this country broadcast. There, the bulk of the crop is fed as indicated 
 above, and the feeding continues all winter ; but in all the Northern States 
 the winters are too cold for tlii§ ; and where they are sufiiciently mild, 
 the summers are so hot that turnips are not a good crop. They are so 
 in all the States nortb of Virginia, notwithstanding the trouble of storing 
 tliem for winter. 
 
 The best manure for turnips is bone-dust, or superphospliate of lime, or 
 guano. With manure on well-prepared laud, from three hundred to one 
 thousand bushels per acre is a common crop. The best soil is on newly- 
 cleared forest or reversed sod, not too clayey ; but they will grow well on 
 pretty stifle clay if finely pulverized. 
 
 Turnips of great size are sometimes grown, weighing eight or ten pounds, 
 and measuring two and a half or three feet around ; but those of smaller 
 size are esteemed the best — say one to four pounds. 
 
 In sowing turnips, great care should be used not to get the seed too thick. 
 This is the greatest fault of ninety-nine out of every hundred persons em- 
 ployed to sow turnip seed. The common rule is a pound to the acre. That 
 rule comes from England, where the seed is drilled, and if all of it grows, 
 about nine tenths of the plants are thinned out. 
 
Sko. 48.] CULTIVATION OF TURXIPS. 813 
 
 The time for sowing in all the ]S"orthern States is pretty well indicated by 
 the old distich : 
 
 " Ou the twenty-fifth of July 
 Sow your turnips, wet or dry." 
 
 Turnips sown broadcast too thick to grow may be thinned with the har- 
 row, after they are up enough to show, without injury to those that remain 
 untouched by the harrow teeth. Indeed, it is a pretty good way to put 
 them in rows as though planted with a drill. It also kills a great many 
 weeds, and loosens the crust that forms over some land, so that the plants 
 left take a rapid start and grow much better than they otherwise would. It 
 is not a bad plan to treat corn in the same way ; and we certainly have seen 
 M'inter wheat highly benefited by a thorough harrowing in the spring. 
 
 The greatest trouble that farmers experience in turnip-growing in this 
 country is from a small insect called the turnip-fly. We believe the best 
 remedy is to prepare the ground in the best possible manner, and use some- 
 thing that will give the plants an early, rapid start. Poudrette is good for 
 this purpose. So is guano, Ijy which we mean pure Xo. 1 Peruvian guano. 
 We have found a liberal use of salt highly beneficial ; say five bushels per 
 acre. We think it one of the best remedies for preventing the ravages of 
 the turnip-fly ; and we have never -seen a sign of the disease known as 
 " fingers and toes," where we have used salt liberally ; and we are satisfied 
 that the bulbs grow not only heavier and healthier, but that they are more 
 uuti'itious. 
 
 The disease known as " fingers and toes" probably affects ruta bagas more 
 than round turnips, though it sometimes spoils the latter. This disease is 
 said to have originated in Scotland forty years ago. The bulbs beconie de- 
 formed and grow into excrescences, rendering tlie crop worthless. Some- 
 times they run to fibrous roots, and sometimes they are filled with insects. 
 Sometimes the excrescences reseuible warts all over the bulb, dryino- the 
 center to a brown, spongy mass. The solid matter of a healthy white turnip 
 is seventeen per cent. One of these forms of disease of the turnips resem- 
 bles the potato rot, and has done great damage. 
 
 877. Storing Turnips for Winter Feeding.— AVli ere a farmer has no barn 
 cellar, it is no trifling job to store a laVge crop of turnips, and that is one 
 of the causes that prevents their cultivation to the same extent as in Eng- 
 land. They can not bo left out to be eaten where they grow in the grazing 
 and stock-feeding States, nor kept for winter feed, unless safely stored in cel- 
 lars or pits. The easiest way to save them is to lay them on dry ground, 
 slightly inclining south if possible, in piles like hay windrows, about three 
 feet through, and cover with straw, sedge, or cornstalks six inches thick, and 
 earth eight inches, with straw ventilators every ten feet. Another good plan 
 is to put them in round piles, each of thirty bushels ; but it makes more 
 labor, yet has the advantage that a pile can be opened and taken in before 
 freezing in a cold day, and without exposing the remainder, as in the long 
 piles. 
 
814 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 All turnips s^Ol•ed for winter use should be trimmed of tops and tails. A 
 knife that will weigh half a pound, and is eight inches long in the blade, is 
 the tool to trim with. Held all the time in the riglit hand, the operator 
 seizes a turnip with the left by the top, and cuts off the tap-root with one 
 blow, and at the same time tosses the turnip and catches it with the top 
 toward the knife, with which he cuts off the top by another blow, and at tlic 
 same time tosses the turnip into the cart, basket, or pile. One smart work- 
 man at topping will do more than three poking ones who always pick up a 
 turnip wrong end foremost. If you do not care to cut the tops very close, 
 or if you can stand so as to let the turnip fall in the right place, you need 
 not let go the first hold, but cut both tail and top, throwing the latter in a 
 pile instead of throwing the bulb. 
 
 Never pull turnips nor handle them in wet weather. 
 
 878..Ruta Baga TurnipSi — All that we have said about tlie value of tur- 
 nips, and preparation of ground, manure, cultivation, pulling, and storing, 
 will apply to ruta bagas, except these should always be grown in drills, 
 and hand-weeded and thinned. They must also be sown earlier — never later 
 — than July 1, and generally not later than June 15. 
 
 It is a good way to prepare the land for ruta bagas, after it has been 
 plowed and cross-plowed, and mellowed, and i-olled, to take a small plow 
 and throw up ridges, say two feet six inches apart, rake the tops smooth, 
 and plant the seed with a drill harrow. As soon as the weeds get to be half 
 an inch high, run a one-horse subsoil plow midway between the rows, to 
 loosen up the soil thoroughly, and then with Knox's root-cleaner or horsc- 
 hoe, extirpate the weeds. The only hand-hoeing necessary will be in the 
 row to thin out plants. When the crop is ready to be dug, run a large sub- 
 soil plow close alongside the row, and the roots will be so loose that they 
 can be pulled up with the greatest ease and thrown in(o heaps, whence they 
 are carted directly to the j)it made for them on the dryest part of. the field, 
 and there topped and buried. 
 
 These turnips will grow upon a greater variety of snils than the round 
 turnip, but the one best suited for a good crop is a lich, alluvial, sandy 
 loam. 
 
 It is advisable to set the gauge of the drill so as to scatter the seed very 
 thick in the row, and thin them out to stand ten or twelve inches apart, 
 using the plants where too thick by transplanting them to fill up vacancies. 
 In a small way, these turnips may be sown in a seed-bed and all transplanted 
 like cabbages. 
 
 The vitality of ruta baga seed endures for several years, but it is not safe 
 to use old seed of white turnips. 
 
 Tiie soil and kind of fertilizer used have a great deal of influence upon the 
 quality of turnips. Some are worth double the value of others, either for 
 the table or cattle-feed. As a general rule, all applications of bone manure 
 will be paid for in quality if not quantity. About 15 bushels of bones, or 
 600 lbs. of superphosphate, or 200 lbs of guano per acre, is a fair dressing. 
 
Seo. 48.] 
 
 CARROTS AS A FIELD CROP. 
 
 815 
 
 In England, turnip-growers manure high — 15 or 20 full horse cart-loads of 
 strong stable dung, well rotted, to an imperial acre for rata bagas, and 
 about two thirds the quantity for white turnips. 
 
 We have had turnip seed lie three weeks after sowing in a drouth, without 
 vegetating. At such a time, if thei'o had been moisture in the earth enough 
 to cause the seeds to sjjrout, it would have been fatal to them, and we 
 should have prepared the ground anew and sowed more seed. In all English 
 publications the term " Swedes," or " Swedish turnip," is made use of, and it 
 is sometimes confounded with the ruta baga, because it is spoken of as a long 
 root ; but it docs not appear to be identical with the variety grown in this 
 country under the name of ruta baga. 
 
 The Swedes, White Globe, Yellow Globe, White Stone, Eed or Purple 
 Top, are all good varieties of field turnips, and can be grown with less labor 
 than ruta bagas. A bushel of turnips weighs about 42 to 45 lbs., and it 
 is stated that English sheep-feeders allow IS to 23 lbs. a day to a young 
 sheep, and 24 to 37 lbs. a day to a full-grown sheep ; and that a fatting o.\ 
 will eat a tun a week. 
 
 879. Carrots as a Field Crop. — Wo have already spoken of carrots in the 
 garden (527), where they should always be grown, for they really are a most 
 valuable article of food. Perhaps the reason why they are not more esteem- 
 ed as esculents is because the kind grown in the garden is that which should 
 only be grown in the field as food for domestic animals. Perhaps the best 
 for table use is the " short-horn" carrot, but we esteem the long orange 
 carrot the best for field culture, unless the crop is intended for some city 
 market, and then we would grow the short-horn variety. Tliere is no doubt 
 of the fact that this carrot can be profitably grown as a field crop for market- 
 ing, near cities and large towns. Whether it will pay to raise carrots for 
 feeding stock, is a question often asked. "It don't pay," is an assertion 
 often made. That it does we assert, without fear of contradiction, in all 
 places where corn costs fifty cents a bushel to produce it, as it does npon 
 many farms in the Eastern States. In Illinois, where corn is so very easily 
 produced, and bears so low a price, it may be true that carrot growing is not 
 profitable. Still, cheap as grain may be, as feed for stock, it will sometimes 
 pay to feed carrots on account of the improvement in health to the animals 
 consuming them. 
 
 We consider carrots a very sure crop on suitable soil, properly pre- 
 pared ; and for stock, when taken in connection with other feed, they are 
 invaluable. They are not only healthy, but will fatten cattle, sheep, and 
 horses. 
 
 One farmer who nas grown carrots for stock feeding for twelve years, says : 
 "I have fatted and sold four head of cattle this winter on carrots, with one 
 quart of meal sprinkled on them at a feed, together with cornstalks. One 
 was a Durham cow, which was milked all the while until sold for beef, and 
 was fat. This was an experiment, and proved satisfactory — that cows can 
 be fatted on carrots and meal, and milked at the same time ; at no time was 
 
816 
 
 ROOT CROPS AND SUGAR CROPS. 
 
 [Chap. X. 
 
 the meal over two quarts per day. I also have six other cows, all of which 
 give milk of the richest kind, and a good flow of it, that are fed on carrots 
 once a day, and once on poor cornstalks and clover hay." 
 
 From 700 to 800 bushels per acre is an ordinary crop, with good land and 
 good culture, and 1,200 bushels may be raised by high cultivation. Allow- 
 ing 250 pounds of carrots, which is conceded by practical farmers to be equal 
 to 100 pounds of hay, and at 50 pounds to the bushel, we Lave at the highest 
 above rate of yield the equivalent of 12 tuns of hay per acre, which will take 
 seven acres of good meadow to equal. 
 
 880. Suitable Soil, and its Preparation for Carrots.— The most suitable soil 
 for carrots is a light, rich, sandy loam. Manure, if used, should be well 
 rotted ; otherwise the roots grow forked. What we call cheese manure is 
 best — that is, manure that cuts in the heap like a soft clieese. Take a rich 
 piece of sward, where the soil is deep, the longer seeded the better. Cover 
 with manure ; plow witli a double plow ; roll and drag fine the last of March 
 or the first of April. Let it lie till the first week in May ; then gang-plow 
 and drag fine again, to kill weeds, and sow immediately two pounds of seed 
 per acre. If you have not a suitable piece of sward, the next best is land 
 that was cultivated the previous year in potatoes. Whatever the 'land used 
 may be, give it at least two plowings, cross and lengthwise, and t'aree har- 
 rowings. It must be made loose — no lumps or stones. If you have got a 
 roller, apply it after each harrowing. Some lands may require plowing 
 half a dozen times, and will pay for all the labor. New ground will give 
 you the best quality of carrots — old ground the largest roots. 
 
 The prevailing system of carrot culture, to make drills by throwing two 
 light furrows together, leveling them and sowing on top, is very erroneous. 
 By this the roots and fibers run to the sides and are killed by the hot sun. 
 In England, Ireland, and Scotland this plan is preferable, in consequence 
 of their climate being moist and the soil being very heavy. This borrowed 
 system should be discarded by all who wish to get good crops of carrots, 
 turnips, and mangel-wurzel. 
 
 881. Sowing Carrot Seedt — One who grows carrots as a market crop, en- 
 tirely by hand labor, gives the following directions : " I have a marker or 
 large rake made of three-inch scantling — a handle in the center, with a brace 
 on each side to guide and strengthen it. In this six wooden teeth one inch 
 in diameter, six inches long, are set at twelve inches apart. One man 
 works this, opening five drills at each through, as one tooth must be kept in 
 the last-made drill to keep your rows straight. "When marked, one man 
 will sow an acre a day, at least, of those drills. I then sow radish seed in the 
 same drills for market. They do not interfere in any way with the carrols. 
 I have this season sold radishes enough from the carrots, at one dollar per 
 hundred bunches, to pay for the whole working." 
 
 Another experienced carrot-grower says : " I always sow by hand, as I 
 find it cheaper and better than by any machine I have yet seen, and any 
 one can do it. If I sow at thirty inches apart, I take a piece of wood four 
 
Seo. 48.] 
 
 CARROTS AS A FIELD CROP. 
 
 817 
 
 inches wide and two inches thick, drive a staple in the end so as to hold the 
 point of the plowshare, and then mark with small plow and one horse. As 
 they are marked I sow the seed, which sliould be rubbed in sand before 
 sowing. I sliould advise tlie soaking of seed, but to inexperienced hands 
 one hundred chances to one but they would let it rot. By sowing your seed 
 dry, you run no risk. When sown, take some twiggy branches and tie them 
 together, just large enough for one man to pull easil}', and run this length- 
 wise and crosswise of your carrot rows. This is sufHcient for covering the 
 seed." 
 
 Another thinks it is of great advantage to germinate the seed before sow- 
 ing, by mixing it with fine sand. The mixture is laid in a heap, and occa- 
 sionally watered for two or three weeks, and then sown in drills. By this 
 jilan the seed may be sown later and the plants come up quickly, and are 
 enabled, in a measure, to get the start of the \veeds. 
 
 882. .Cultivation of the Carrot Crop.— The first tiling to be considered is 
 whether you intend to work them with manual or horse labor. Close to a 
 city, or where help can be had when wanted, manual labor, when judiciously 
 managed, or when you have only a small farm and wish to make every aci'e 
 produce doul)le, will not be found unprofitable, although it is a crop that 
 requires a good deal of attention, and the amount of hand labor required, 
 where that is wholly depended upon, we believe deters many people from 
 engaging in the business of growing carrots. We wish to impress upon all 
 such that hand laboi', except to a limited extent, is not indispensable. Nearly 
 all can be done by horse-power, or better by a trained mule. In the first 
 place, plow deep ; subsoil deeper, if to be planted by liand ; marking with 
 a subsoil plow instead of a toothed marker will be found profitable. 
 
 Sowing radishes with carrots enables you to see the rows sooner ; then if 
 to be horse-hoed, commence at once, so that the weeds shall not get the 
 start. It is easier to kill ten little weeds than one big one. If the crop is 
 to he. hand-hoed, then as soon as the plants are up sufficiently to trace the 
 rows, grind up your hoes sharp, and commence by hoeing between the rows 
 as close as possible to the plants, and be sure to cut across the rows and 
 leave the plants the width of your hoe apart, and if you are a good farmer 
 Ihere will not be many weeds left, because you will not try to raise carrots 
 on a piece of land full of seeds of weeds and foul stuff. After about two 
 weeks hoe in like manner, and what weeds are left pull with your fingers, 
 and leave the carrots about seven or eight inches apart. You will not find 
 it half as troublesome a crop to grow as most farmers imagine. One carrot- 
 grower says the great and principal objection to carrot-growing is the thin- 
 ning of them. Hand-thinning is not indispensable. Of course the carrots are 
 not so large ; for feeding, small ones are as good ; for selling by measure, 
 larger ones are better, as they fill up and leave very leaky crevices. At 
 present they are frequently bought by weight, as all roots and fruit should 
 be bought. 
 
 883. Harvesting, Storing, and Value of Carrot Crops.— A great deal of 
 
818 PwOOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 tlie work of liarvesting may be done by a hof-se and plow, eithei- by tm-ning 
 a furrow away from each side, or by running a subsoil lifter along the rows 
 to loosen the ground and make the digging and pulling easier. Then a man 
 with a fork works out a row very fast. Where it is not an object to crowd 
 the crop upon a small space, we recommend the drills thirty inches apart, 
 and this gives good room to plow them out. In commencing, take out one 
 row in the middle of the plat with the spade, and then plow down one row 
 and up the other, and have hands to follow and pull and throw in a row in 
 the center. 
 
 In storing carrots outdoors, put tiiem on the surface, in a dry place, in 
 long piles. Lay them four feet wide at bottom and four feet high, tapering 
 to the top to one foot wide, keeping the crown or top at the outside, cover- 
 ing all with one foot thick of straw, and on this eighteen inches of earth. 
 The covering of course depends on the climate where raised. Leave a 
 chimney every twelve feet apart to allow the heat to evaporate. . This is 
 done by placing a sheaf of straw on top and filling the earth to it. In 
 storing, a few bushels of the best should be selected for seed, and put out in 
 March or April in drills three feet apart, and one foot from plant to plant, 
 the crowns one inch above the surface. As to the yield per acre, this alto- 
 gether depends on your land, manure, working, and the season. 
 
 One farmer says : " I know that carrots can be raised for five cents per 
 bushel, and think they can be raised for less. Let's figure a little : 
 
 Use of one acre $7 00 I Gauging rows $1 00 
 
 Manure 10 00 Seed and sowing 3 00 
 
 Plow, roll, and drag 2 00 | Hoeing and harvesting 20 00 
 
 Whole expense $43 00 
 
 And this is liberal for one acre. Estimating the crop at one thousand bush- 
 els, this would give us a cost of 4y\ cents per bushel on tlie average, and 
 the value of the crop, at 12^ cents per bushel, which is low, will be $125, 
 a profit of $82." 
 
 884. Carrots and Rye on the same Ground. — We have never seen this 
 practiced, but liaving seen it suggested, think well of it, and call attention 
 to the plan. The ground is -well prepared in autumn, as though for carrots, 
 and is then sowed with rye. In the spring the carrot seed is sown with a 
 drill, or a marker is used, and the seed put in by hand. Of course nothing 
 is done till the rye is harvested, when a cultivator or horse-hoe is run 
 throuo-h, or the stubble turned by two light furrows, turned from the row, 
 and the plants thinned by hand-hoe. As soon as they get a good start, the 
 furrows are turned back ; afterwards the horse-hoe may be needed to run 
 through once or twice. It is necessar}' to put in the seed earlier than for the 
 ordinary field crop, which is usually after corn planting. If we were about 
 to adopt this plan of growing rye and carrots, we would drill the rye, leav- 
 ing out a drill every two and a half feet for the carrot rows ; and the rye 
 we would mow for feed instead of saving it for the grain. If corn were 
 planted in May, and rye sown in October, and carrots in April, three full 
 
Sbo. 48.] PARSNEPS AND ONIONS AS FIELD CROPS. 819 
 
 crops could be harvested in two years and the ground prepared for another. 
 Of course this kind of pushing would require high manuring and good cul- 
 tivation. 
 
 Let it alwaj's be remembered that all root crops require deep plowing, 
 heavy manuring, a thorough pulverization of the soil, and good after-culture 
 to keep down the weeds, and they then leave the land in fine order for 
 spring grain, to be seeded down with grass or clover. 
 
 Koot crops prepare the ground for all other crops. Barley succeeds bet- 
 ter after roots than after any other cultivated crop ; and it is noticed that 
 grass always takes well after turnips. 
 
 8S5. Parsneps as a Field Crop. — All that we have said of carrots, except 
 storing for winter, will ajjply to parsneps. Instead of digging and storing, 
 let tliem stand where they grow till spring, and then dig and feed them 
 from day to day, and they will make butter, beef, or mutton faster, in pro- 
 portion to cost, than any other feed. If the roots are small in autumn, and 
 a snow falls before the ground freezes, they will continue to grow, and will 
 sometimes double in size. They must be dug before commencing a spring 
 growth. There is no more productive root crop than parsneps, and we do 
 not think there is any of more value during the month in which they can 
 be raised daily from the ground in spring, and fed to any kind of stock. 
 They are very valuable if cooked, for pigs. 
 
 88(5. Onions as a Field Crop. — We have already spoken of onions in the 
 garden (532), but they are grown to such a large extent as a field crop, that 
 we may give some of the best information upon the subject that we can 
 select ; and first, of the soil and preparation. 
 
 The following statement is made by a large onion-grower, J. "W. Proctor, 
 of South Danvers, Massachusetts. He says: "Any soil, of substance equal 
 to 40 or 50 bushels of Indian corn to the acre, will grow onions — the better 
 the soil the better the crop. Plow to the full depth of the soil, and liberally 
 manure. Plant with corn and carrots, until completely pulverized. Plow 
 early in the spring, and thorouglily intermingle the manure with the soil. 
 Let all obstructions to the free distribution of the seed be removed, and the 
 ground thoroughly prepared for the reception of the seed, which is distrib- 
 uted by machines in rows fourteen inches apart, as true as a line can be 
 drawn. This is essential, because of the f;icility afforded for the use of the 
 onion-weeder. After the land has been once thoroughly plow^ed and culti- 
 vated, shallow plowing is usually practiced — say not deeper than can be 
 conveniently done with one horse — from four to six inches. The next ma- 
 terial point is to get the land ready early. No good cultivator permits weeds 
 to grow among his onions, and consequently is siiecially careful that the 
 seeds of weeds shall not be scattered upon the land, eiiher in the manure or 
 otherwise. A bunch of purslane may destroy a peck of onions. 
 
 " You must keep your onion field entirely free of weeds, and then you 
 may expect 500 bushels an acre, raised at less cost and greater profit than 
 potatoes. 
 
820 BOOT CROPS AND SUGAK CROPS. [Chap. X. 
 
 "Tlie best soil is a sandy loam of a somewhat dark color. Onions will not 
 do well upon clay, particularly if it is a white clay. The surface must be 
 absolutely free from lumps, stones, and sods. A good crop, however, may 
 be grown upon an inverted sod, even the tough one of the Western prairie. 
 All varieties of onions are grown more or less, but chiefly the Silver-skin, 
 which give the most profitable results in this section. 
 
 "Never plant old seed, and the nearer the surface you can place your seed, 
 if barely covered, the more perfectly it will vegetate, and tlie better the 
 bulbs will be, as they naturally grow on the surface^ not under it. 
 
 " Good cultivators grow their own seed ; and they select, for this purpose, 
 onions of the form they wish to grow, and set them where no bad seed can 
 intermingle, as much depends upon procuring and preserving the seed pure. 
 As well may you hope to grow figs from thistles as good onions from poor 
 seed." 
 
 887. The Fertilizers best fitted to Promote the Growth of the Onion.— Good 
 stable manure, old and well fined, is always a healthy dressing. Let it be 
 applied generously — six, eight, or ten cords to tlie acre. " Muscle-bed" is a 
 good application for onions. Guano docs very well ; but there is nothing 
 quite equal to barn manure, thoroughly rotted and fined, spread upon the 
 surface, so as to give a quick start to the crop. Success depends very much 
 upon an early start, as early onions are much better protected from every 
 class of blights, and especially from that chief of devourers, the maggots. 
 Ashes, leached or not leached, are a good application, and are very much 
 used by onion-growers. 
 
 The first difficulty in the way of raising onions is the worms. The next 
 trouble is the weeds, and on this account swamp muck is admirable manure; 
 it will contain no seed. 
 
 888. Remedy for Onion Worms. — Benjamin Clifford, of Norwich, Yt., lias 
 discovered that tar is an effectual preventive against the fly that produces 
 the onion maggot. An equal quantity of hot water and tar was stirred 
 together, and after standing a few hours, the fluid part was sprinkled upon 
 the onions on one of the beds. This application was made in June, when 
 the young plants were first attacked by the fly, and the process repeated 
 about two weeks afterward. The result was a fine crop upon that bed, 
 while upon the other not a single onion was raised. 
 
 Dr. O. "W. Drew, of Waterbury, Vt., writes us that the onion crops of 
 that town Imd failed to such an extent for years that the people liad to get 
 a supply from Boston for their own use, instead of growing them for sale, 
 as they did before the worms became troublesome. lie says : " AVhen the 
 plants get three or four inches high they begin to turn yellow tmii die, and 
 the bulbs become rotten and full of maggots. Many experiments have been 
 tried with lime, salt, ashes, and plaster, without benefit. Last spring (1861) 
 I sowed a bed Mith red onion seed, and when the plants were about four 
 inches high, I found that they were affected as usual, and I poured a full 
 stream of boiling water from a large tea-kettle spout directly upon each row. 
 
Sko. 48.] QUANTITY OF ROOTS AN ACRE WILL PRODUCE. 821 
 
 and repeated the application, and the plants, instead of being killed, were 
 refreshed, and looked as bright as though they iiad had a May shower, and 
 no more died, though the worms did, and I grew as fine a crop of onions as 
 I ever had in the most Buccessful years. The remedy is apt to deter timid 
 people from applying it, but I assure them there is no danger, and it is 
 effectual." 
 
 If this should prove to be a remedy in other cases, it will be almost in- 
 valuable to those who cultivate onions as a crop ; many who have depended 
 upon them as no inconsiderable item of annual income, have been obliged 
 to abandon their cultivation. 
 
 It appears that the fly which produces the maggot which has so seriously 
 damaged the onion-growers, belongs to the same tribe of insects that deposit 
 eggs in manure, and it is therefore recommended to use no putrescent fer- 
 tilizers for onions; nothing of animal production, unless it may be guano or 
 bone-dust. 
 
 889. Profit of Onion Culture. — The production of a good crop of onions 
 is estimated at five hundred bushels per acre, and the cost in Massachusetts 
 is stated about as follows : Cost of preparing one acre of land and planting 
 the seed, $10 ; six pounds of seed, $3 ; manure, $30 ; cultivation and har- 
 vesting, $40. Total, $83. The harvesting is done by raking the onions 
 into rows with an iron tooth-rake about the first or perhaps middle of Octo- 
 ber. The planting should be done a week or ten days before corn. At one 
 dollar a bushel, it will be seen that a good yield gives a handsome profit to 
 the cultivator, and where the insect is not troublesome, the crop is about as 
 sure as a crop of Indian corn, and it may be cultivated upon the same spot 
 for an indefinite period. 
 
 890. faliforuia Wild OnionSi — It has been stated in California papers that 
 onions growing wild have been discovered in that State, an inch and a half 
 in diameter, covered with a tiiick husk like the soap-root. They are palata- 
 ble and even preferable to garden onions, and it is thought may prove a 
 valuable addition to the cultivated varieties. TVe give the statement as a 
 hint to onion-growers to try this variety in a cultivated condition. 
 
 891. Tlie Quantity of Roots an Acre will Produce.— Some persons wish to 
 know how much feed can be obtained from an acre of any kind of I'oots. 
 This they can determine by weighing a few of an average size and then cal- 
 culating the number per acre. In this calculation the following table will 
 be useful. It shows the number, weight, and measure of the g*)wth of an 
 acre planted at various distances apart : 
 
 Dist. between Dist. of plants No per "Weight of Bushels 
 
 tlie rows. In row. acre. each root. per acre. 
 
 2 feet 1 foot 21,780 12 lbs 4,356 
 
 do do do 10 3,630 
 
 do do do 5 1,815 
 
 do do ■. do; 2 726 
 
 do 2 feet 10,890 12 2,078 
 
 do do do 10 1,815 
 
 do do do 5 707 
 
 do do do 2 363 
 
822 
 
 BOOT CROPS AND SUGAR CROPS. 
 
 Chap. X. 
 
 Dial, between Bist. of plants Neper Weight of 
 the rows. in row. acre. each rooL 
 3 feet 1 foot 14,520 12 
 
 .do do. . 
 
 . do do. . 
 
 .do do. . 
 
 .2 feet 7,260. 
 
 .do do. . 
 
 do do. 
 
 do 3 feet 4,840 12 
 
 do do do 10 
 
 do do do 5 
 
 Bushels 
 per acre. 
 . . 2,940 
 ..2,420* 
 ..1,210 
 , . 484 
 ..1,452 
 ..1,210 
 . . 605 
 .. 968 
 
 403 
 
 This calculation of measure is based upon sixty pounds per bushel. The 
 table shows that it is not necessary to have roots very close together in order 
 to raise large crops. For instance ; if the rows are three feet apart, and the 
 plants two feet apart in the row, with no vacancies, and the roots average 
 ten or twelve pounds, the crop will be large. It also shows the importance 
 of having the ground all occupied, as the yield will be seriously diminished 
 when this is not the case. 
 
 SECTION XL1X.-S0RGHUM SACCHARATUM-CHINESE SUGAR-CANE- 
 AND SORGO SUGAR-MAKING. 
 
 ?ITHIN a few years, the seeds of the plant generally 
 known as Chinese sugar-cane, and that of Imphee, 
 or African sugar-cane, have been disseminated over 
 the United States, and cultivated with various de- 
 grees of success. To sum up reports, in short, we 
 should say that in all good Indian corn soil, where 
 that crop can be grown to average forty bushels an 
 acre, a crop of sorgo can be grown with profit, if 
 the grower is provided with conveniences for con- 
 verting the juice into sirup, the quality of which 
 is excellent. 
 
 W. Mathar, of Cuyahoga County, Ohio, says : 
 " I will give the figures, and state, from experi- 
 ment, that sugar-cane is profitable to raise for family 
 use : 58i rods of ground, planted May 27, 18.58, harvested October 27, pro- 
 ducing 425 gallons, yielding 91 J gallons of molasses, worth 63 cents per 
 gallon." 
 
 The Davenport (Iowa) Times states that one farmer has made sirup at a 
 cost of sixteen cents a gallon. In many places in States where apples 
 abound, the old-fashioned cider-mills have been used to grind cane with 
 success. 
 
Sbo. 49.] CHINESE SUGAE- CANE— PLANTING AND CULTURE. 
 
 823 
 
 Such facts as seem important to be known to farmers about this plant, we 
 shall give in this section, followed by others about maple-sugar. 
 
 892. Soil aud Situation for Sorgo.— E. F. Newberry, of Montgomery 
 County, 111., in the Prairie Farmer of April 18, 1861, gives a number of 
 facts ill regard to this matter, applicable to its culture in Illinois, from which 
 we ex'ract the following : " The imj^ortant point of selection of soil has been 
 almost wholly overlooked. It has generally been supposed that the larger 
 the stalk the greater the yield of saccharine matter, and of course the rich- 
 est, deepest mold has been selected for its growth. This is a great mistake. 
 I will illustrate by a little experiment of my own. Part of my cane grew 
 on a southern slope of very moderate richness, and part on a bottom the 
 very reverse in fertility. The stalks in the latter j^osition were of much 
 larger growth than those in the former, yet the first produced more siru]) per 
 acre and of a superior quality. Besides, I found no difficulty in procuring its 
 granulation, while the latter would not crystallize. The soil of the slope was 
 a reddish brown, slightly intermixed with sand. The cane brought to my 
 mill by my neighbors from the borders of the prairie and from timber land 
 invariably excelled in quality that grown in the deej3, rich soil of the center 
 of the prairie. 
 
 893. " Preparation for Planting. — The ground should be put in perfect 
 tilth to receive the seed, as the plant when young is quite feeble. As 
 regards manure, the present richness of the soil should be the guide taken 
 in connection with the facts stated above concerning the overgrowth of 
 stalk. 
 
 894. " Time of Planting. — Experience has proved that the seed can safely 
 be sown a week or ten days earlier than corn; and as the manufacturing 
 season is short, every day we can add to it is precious. A piece planted the 
 25th of March made the best cane in the prairie. A mild frost inflicts no 
 injury. Cane planted the IGth of April was ready to grind the 21st of 
 August, in Montgomery County, near the center of the State. Seed should 
 be sprouted before sowing, and a week can be thus gained. As there is a 
 period, embracing from four to six days, in which tlie cane is in a greater 
 degree of perfection for manufacturing, I would strongly urge sowing in 
 such succession as will insure its being worked up during that period. The 
 cultivator will of course take into consideration his facilities for working up, 
 in regulating their succession. I regard this as one of the most important 
 points in the whole business. The simp made at such period will, if prop- 
 erly managed, be of a beautiful transparent color, entirely free from any 
 foreign taste or smell. Besides, this is the only time that crystals can be 
 produced with any certainty. I have no doubt that the occasionally suc- 
 cessful attempts at granulation which have occurred from year to year 
 have resulted from accidental manufacture within this period. When the 
 first frost comes, all the cane which remains should be cut and care- 
 fully protected from the weather by being placed under a shed or cov- 
 ered over with straw so that neither the sun nor wind can act upon it. 
 
824 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 By covering so as to prevent freezing, good second-rate sirup, but not 
 sugar, can be made until the first of December, and thus lengthen the 
 manufacturing season a whole month. It will not do to carelessly throw 
 the stalks in a pile in the open air, expecting them to keep good for a 
 month. 
 
 895. " Manner of Plantingt— Enough seed should be sown in drills three 
 feet apart to insure one plant every twelve inches. Thinner than this I re- 
 gard not only as a waste of land, but as rendering the stalks liable to too 
 great a growth, which is an injury. Shallow sowing (from 1 to H inches) 
 insures speedy germination most certainly. Cultivate carefully with the hoe 
 and cultivator. 
 
 896. " Stripping and Toppingi — Tlie cane should be stripped at least one 
 week before using. This course certainly does enrich the cane, and also ren- 
 ders it easy to save the blades for fodder, which should be bound and shocked 
 between the rows. The stripping can be performed either with the two 
 hands encased in buckskin gloves or by means of a wooden knife about five 
 feet long. Our experience led us to prefer the hands, as we could strip a 
 stalk, and sometimes two or three, at a single stroke and retain the leaves 
 ready to bind, saving thereby considerable labor. The cane should not be 
 topped until ready for cutting. If this is performed sooner, the formation 
 of sugar is immediately checked by the efibrts of the cane to replace the 
 lost heads or panicles. Some which I topped at the time of stripping, ten 
 days before cutting, yielded juice which contained only twelve per cent, of 
 sirup, while that from cane untojiped until the day of using, yielded eighteen 
 and twenty per cent. Neither would granulate. It cau best be topped by 
 hauling to the mill and laying the heads evenly and cutting them oflf with 
 a hatchet. 
 
 897. " Time of Cutting. — Do not cut until the very day of using, if it can 
 possibly be avoided. From the day it is cut it commences to deteriorate. 
 This is a fixed fact. A change in the chemical constituents immediately be- 
 gins which soon destroys the granulating power, and if the weather happens 
 to be warm, brings on acetous fermentation. 
 
 898. " Most Favorable Period for Manufacture. — This commences when the 
 seed is fully in the dough and continues until it is nearly ripe. Cane fully 
 ripe a month before frost, was allowed to stand uncut and commenced grow- 
 ing acid, so as to require neutralizing agents, and both color and taste were 
 injured. Acidity can be thoroughly neutralized by using sufiicient alkali. 
 In some very acid juice a tablespoonful of strong soda was required for a 
 gallon of sirup. For a few days there was a decided smell of the alkali, but 
 it presently passed away and the sirup proved to be quite a good article, and 
 a portion of it has grained in the l>arrel. 
 
 899. " Manufacturing Sirup.— The first consideration is a good iron mill, 
 with which one horse can grind cane enough in twelve hours to make forty 
 or fifty gallons of sirup. Hedge's mill is the most reliable, and it should 
 be placed so that the juice will run to the boilers; and of all that I have 
 
Seo. 49.] CHINESE SUGAR-CANE— YIELD AND PROFIT. 825 
 
 seen, I prefer Cook's, though I do not believe it makes as beautiful sirup as 
 the common pan and kettle. If pans are used, make them of galvanized 
 sheet iron, from seven to ten feet long. Turn up the sides and ends of the 
 sheets about two inches and finish by nailing them to solid plank ten inches 
 high, so as to form an oblong water-tight box with iron bottom. As many 
 as you wish maybe set in furnaces, the horizontal flues of which shoul'! 
 meet in one perpendicular chimney. The juice should be clarified in these 
 and afterward boiled down until nearly done, when it should be removed 
 and tlie operation slowly finished in a cast-iron kettle. The reason I prefer 
 to finish in a kettle is this : When the sirup is completely done, it can be 
 ladled out without the risk of scorching, which is so imminent in using the 
 thin, flat pan. 
 
 900. " ('larifying Agents. — Of these there are several. Lime-water made 
 from fresh lime is about as good as any. Our finest sirup was cleared with 
 some refuse saleratus which had been thrown away by a merchant here as 
 worthless. It did not injure the color in the least. Carbonate of soda an- 
 swers very well, but colors the sirup somewhat. Sugar of lead is a splendid 
 clarifier, but it is poisonous. 
 
 901. " Profits of Sorgo Grinding.- — These vary from $50 per acre to $100, 
 just as the business is managed. One large mill in an adjoining county 
 broke up its owners ; twenty-five acres of cane remained uncut in their field, 
 and the quality of sirup was so poor that they could not sell it until it was 
 refined. Others on a small scale realized quite a per cent, on the outlay and 
 labor. The result of my own was about thus : When the mill, whicii was a 
 very poor one, ran steadily, the profits were $8 a day of ten hours. My 
 Cook's evaporator cost $17 50, and Douglass' mill $GS, freight included. 
 Tiie season ought to commence, at the latest, on the first of September, and 
 continue for two months, or even longer, if the cane is properly taken care of, 
 and success in a domestic way is undoubted ; but we (io not know enougli 
 about the business as yet to render it safe to invest any great amount. Witii 
 more experience, we can supply our own State with sirup, and sugar too, I 
 have no doubt." 
 
 902. Sorgo as Food for Stock. — Upon this point Mr. Newberry says : 
 "My horses, cows, and liogs have all had access to the pile of bagasse, and 
 they eat it greedily. My milch cow will not touch hay or Hungarian grass, 
 and she is in as good order as it is possible for a milch cow to be. My 
 horses require very little fodder, and even the pigs chew away with com- 
 mendable zeal." 
 
 Another Illinois farmer wrote to us in December, 1860, as follows: " Our 
 horses, mules, and cattle have had no other fodder since cane came in, and 
 the more mature the better they seem to like it. I tried cutting and curing 
 the immature cane last year, and found it a failure. The mature cane is the 
 form in which my experience would lead me to use it for fodder. The 
 proper way is to cut and shock like corn. We have been feeding it all 
 winter so far ; the only preparation is to cut the long stalks in two so as 
 
826 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 to get them in the manger ; the animals take care of it after that. The 
 effect on milch cows, judging by our own, is very satisfactory. We liave 
 a very comfortable supply of milli from one cow, and her main feed is 
 sugar cane." 
 
 903. The Yield per Acre. — He also writes : " Our yield per acre did not 
 come np to the general estimate ; about one hundred gallons per acre was 
 our product. We are satisfied our mill took out from 60 to Y5 per cent, of 
 tlie sap. We had a portable eiglit-horse- power engine and boiler, and a 
 cast-iron mill, having two rollers fifteen inches in diameter and length, with 
 set screws. Our evaporating apparatus was made of American sheet-iron, 
 imitation of Russia, and consisted of thi-ee pans of capacity to hold over 
 three hundred gallons of sap. We broke down in two respects : first, our 
 machinery was inadequate to work up our crop ; and second, we failed to 
 make a perfectly satisfactory- article, nearly all having a scorched taste. 
 
 90i. " Keepiug the Cane and the Juice. — We have demonstrated that 
 cane cut up and shocked like corn, before frost, will keep perfect for a 
 month after. Some of the most perfect sirup we have made was from 
 cane a month old. But if the unripe cane stands until killed by frost, the 
 thing is done for; two days of warm weather will then sour it ; but the sap 
 does not run into decomposition immediately. We ground out for one of 
 our neighbors, four miles off, enough to make eighty gallons of sirup ; the 
 sap was taken home, and in the course of the next two days was worked up. 
 This was not all ground at one time, but four or five different times. The 
 sirup thus made was the most perfect of the season." 
 
 905. Fruits of Experience in Growing Sorgo.— The above writer says : 
 " In conclusion, our experience (and we have bought it pretty dear) has sat- 
 isfied us that the manufacture of the sorgo can only be made profitable 
 in two ways — either in large establishments, with perfect machinery and 
 skill, or on a small scale by farmers, for their own use. The latter is the 
 most favorable view, as to its prospective value at the North. We have no 
 doubt human health and happiness will be largely increased by the improve- 
 ment in diet which will result from bringing this valuable article of food 
 within the reach of all. I am entirely satisfied of the fact that it can be 
 grown in this latitude (41° 25') successfully. The difiiculty is making the 
 manufacture of the cane into sirup profitable after it is grown." 
 
 906. Chemical Character and Analysis of Sorgo.— A writer in The Farmer 
 and Planter, Columbia, S. C, says : " Careful experiments made by distin- 
 guislied chemists during the last year have settled the point that the sorgo 
 belongs to the family of grasses which secrete ' glucose' or fruit sugar— not 
 crystalllzable, or cane sugar. The value of cane sugar, compared to glucose 
 or grass sugar, is three to one. We may give up, then, the hope of making 
 sugar profitably. Carefully conducted experiments during the last year, how- 
 ever, have satisfied the writer that a very good sirup can be manufactured 
 at the rate of fifty cents per gallon, and for even less, by the small farmer 
 who is not entirely engrossed with the cotton crop. This will prove an in- 
 
Seo. 49.] CHINESE SUGAR-CANE— ANALYSIS. 827 
 
 estimable blessing, bringing it within the means of almost every fiirmer 
 owning a horse and an acre of ground, to provide the family with a luxury." 
 
 This corresponds with our continually expressed opinion, that it was not 
 worth while for those who grow the cane to think of making sugar, but con- 
 fine the manufacture entirely to sirup. 
 
 Dr. Augustus Voelcker, of the Royal Agricultural College at Cirencester, 
 England, has published some analyses of Chinese sugar-cane grown on the 
 college farm. The analysis was made September 26, 1859, with the wlii>lc 
 plant, with the following result : 
 
 In natural Dried at 
 state. 212° 
 
 ■Water 81.80. ... — 
 
 . ( Albumen 37 ... . 2.03 
 
 I Other soluble protein compounds 1.16. . . . 6.36 
 
 Sugar 5.85. . . . 32.15 
 
 Wax and fatty matter " 2.55 14.01 
 
 Mucilage, pectin, and digestible fiber 2.59. . . . 14.26 
 
 Soluble mineral matters 74 ... . 4.06 
 
 f Insoluble protein compounds , 66 .... 3.62 
 
 Indigestible woody fiber (cellular) 4.05. ... 22 25 
 
 Insoluble mineral matters 23 ... . 1 .26 
 
 100.00. ...100.00 
 
 •Containing nitrogen 245. . . 1.34 
 
 •fContaining nitrogen 106. . . .58 
 
 Total quantity of nitrogen 351 ... 1.92 
 
 "The sorgo contained nearly 6 per cent, of sugar, which is about the 
 same proportion as in carrots. Tiie canes proved sweeter near the ground, 
 some of the stumps yielding 7.G5 per cent, of sugar. Stems cut about twelve 
 inches from the ground yielded 3.60 per cent, of suga?— not quite half the 
 quantity found in the lower part The proportion of sugar and crude fiber 
 was: in stems cut two inches above ground, per-centage of sugar, 7.65 ; per- 
 centage of crude fiber, 6.50. In stems cut twelve inches above ground, per- 
 centage of sugar, 3.60 ; per-centage of crude fiber, 1.3.01 ; while the principal 
 or main stem was quite sweet, the stolons or side shoots were still bitter. It 
 thus appears that all do not ripen together ; the central or oldest stem is 
 perfect before the lateral shoots." 
 
 Dr. Voelcker found the unripe canes in August contained no sugar what- 
 ever. He says : " The taste of the plants on the 23d of August was anything 
 but sweet. I did not expect, therefore, to find much, but I was unprepared 
 to meet with a total absence of sugar." 
 
 907. Effect of Frost on the fanes. — As most of the directions about harvest- 
 ing the canes say that they must be cut before frost, we give the following 
 counter statement from Preston Eyre, Darlington, Penn. He says: "A 
 neighbor allowed his cane to stand about one month after it was frozen 
 entirely dead; he then cut it off in the morning, when the juice was frozen 
 solid, and laid it in the sun, and in the afternoon expressed the juice with 
 iron rollers ; the result was 165 gallons of juico, 5 of which made 1 gallon 
 of excellent sirup, even superior to my own, which was cut before freezing. 
 
 " I cultivated a small patch in my garden ; I cut it off before the frost 
 
828 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 affected it; I expressed the juice with iron rollers the same day, and had 30 
 gallons; boiled it down next day and had 5h gallons of sirup; it had some- 
 what of a green taste, which I think is destroyed in the process of freezing ; 
 for let the season be ever so favorable, there will be some stalks not matured, 
 but by freezing they are assimilated and lose that green taste so perceptible 
 ill the immature cane. 
 
 " I have tasted several samples of sirup, and the best was manufactured 
 from cane which stood several days after being frozen hard, and made with- 
 out using lime or any other acid-destroying agent. My conclusions are, that 
 the cane does not lose any of its saccharine qualities by freezing, but they 
 are rather improved." 
 
 Col. A. T. Morris, of Indianapolis, gives a detailed account of his success 
 in making sirup. He says : " I made two efforts, both unsuccessful, to pro- 
 duce sugar. I suppose that my want of success was mainly owing to the 
 fact that the cane had all been frozen. The effect of the frost was to diminish 
 the quantity of juice ; also to neutralize, to some extent, its acid properties, 
 and slightly increase its density, as indicated l^y Beaume's saccharoiiieter. 
 
 " The juice of my unripe cane, before frost, marked seven degrees, Beaume ; 
 that of the ripe cane, nine degrees. After the frost, the juice marked ten 
 degrees." 
 
 908. Yield per Acre in Indianai — " Myself and friends have made about 
 1,500 gallons of sirup. My cane yielded 225 gallons of very thick sirup to 
 the acre — requiring about six gallons of juice to one gallon of sirup. That 
 grown by others yielded at the rate of 320 gallons per acre. I think 300 
 gallons may be relied on here as a fair average crop." 
 
 Col. Morris says : " I tested juice from several fields in this vicinity, and 
 invariably found that the small, thoroughly ripe cane produced the strongest 
 juice— the large, vigorous growth was very generally inferior from one to 
 two degrees. I also found that the bottom of the stalk was not as sweet as 
 the middle, nor the middle as sweet as the top. The juice from each third 
 of the stalk indicated one degree more for the top third than the middle, and 
 this one more than the bottom." 
 
 909. How the Sirup was Made, aud its Cost.— "I filtered the juice, as it 
 came from the mill, through finely powdered charcoal, placed in a barrel 
 with a false bottom, covered with blankets, in the manner used in rectifying 
 whisky. The juice thus filtered was boiled in the usual way, and produced 
 a sirup, I think, equal to any I ever saw. This process I found to require 
 too much labor and time. The charcoal soon became impervious, and had 
 to be renewed, rendering its use too troublesome and expensive when a 
 large amount of sirup was to be made. 
 
 " After filling the large pan from the mill, I mixed in it a sufficient 
 quantity of lime-water to nearly neutralize the acid in the juice, using litmus 
 paper as a test. I also mixed, at the same time, about three pounds of ivory- 
 black and one half dozen of eggs to every 100 gallons of juice, stirring all 
 together thoroughly. The juice was then heated to near the boiling point. 
 
Sec. 49.] CHINESE SUGAR-CANE— FEEDING IT TO STOCK. 829 
 
 and the fire then removed from the furnace and the juice not disturbed until 
 sufficiently cool to be in a quiescent state. The scum was then removed, 
 and the remainder drawn ofi' tliroiigh a flannel bag into the other pans for 
 boiling. Before boiling, a small quantity of dissolved borax was added, 
 after which it was boiled moderately and skimmed, until the quantity was 
 evaporated to about one third of its bulk ; then tlie boiling was as rapid as 
 possible, until the sirup was produced. By this process, I have made an 
 article which is very generally considered nearly, if not quite, equal to the 
 best of the golden sirup in our market. 
 
 " I attempted to boil the juice in ordinary iron kettles, arranged in a fur- 
 nace, in the way usually adopted here to manufacture maple-sugar, but 
 found it impossible to avoid burning the sirup against their sides. I then 
 procured four pans, with cast-iron bottoms and wooden sides. Three of 
 them were two and a half feet wide and three and a half feet long, with sides 
 fourteen inches deep ; and one five feet long, and same width and depth as 
 the otiiers. I placed three of these pans in one furnace, made of brick, and 
 placed the largest one in a separate furnace at right angles to tlie first. The 
 smoke-stacks of the two were placed together. The bottom of the large pan 
 was put on a level with the top of tlie smajll ones, so as to draw out its con- 
 tents, by a stop-cock, into the adjoining small one. With this arrangement, 
 I could concentrate about 400 gallons of juice each day, consuming about 
 three fourths of a cord of wood. 
 
 " It cost about twelve cents per gallon to make my sirup, estimating the 
 fodder and seed to pay for the labor of cultivation, and not allowing any- 
 thing for interest on the cost of the mill and boiling fixtures." 
 
 910. Best Mode of Growing the Cauc and Feeding it to Stock.— Upon this 
 question Col. Moi'ris says : " My experience and observation induce the be- 
 lief, that the best mode of growing the cane is to thoroughly break up and 
 harrow the ground, then cross off at right angles, with something that will 
 merely mark the surface, giving hills three and a half or four feet apart. 
 Allow about six seeds to grow in each hill, and pull ofi" all suckers that come 
 from the root too late to ripen as soon as the main stalk, and strip from time 
 to time all heads that make their appearance at the joints of the stalks. 
 This method of planting will allow the use of the cultivator earlier, with less 
 lialtility to cover up the young cane, diminish the amount of hoeing, and, I 
 think, would require hut little if any more labor than a corn crop. By pull- 
 ing ofi" the suckers that start too late to ripen, and the seed-heads that ap- 
 pear at the joints, I think the vigor and perhaps the quality of the growing 
 stalks would be increased. 
 
 " About the 1st of June I planted two acres in drills about four feet 
 apart, running north and south, planting one seed every eight or ten inches. 
 The soil was not rich, but light and sandy. I hoed and plowed twice. Its 
 growth, after being plowed, was very rapid, and most of it was ripe about 
 the middle of October. From two to five full-sized canes grew from each 
 seed ; perhaps the average would be three. The average hight was about 
 
8ciU ROOT CROPS AND SUGAR CROPS. L^Ihap. X. 
 
 ten feet, and the average diameter about one and a half inches at the ground. 
 I made no attempt to ascertain the amount of fodder and seed yielded 
 per acre, but have fed both — also the ripe and unripe stal'ks — to horses, 
 cows, and hogs. They eat every part of the cane greedily, and, so far as I 
 observed, seemed to thrive on the food equally with any other. 
 
 "While making sirup, I fed the scum to my hog^, but on one occasion 
 suffered it to remain in a barrel about twenty-four hours before feeding, 
 when I found vinous fermentation had commenced, and it produced its 
 legitimate effects — -making some twenty hogs seriously drunk." 
 
 911. A Cheap Boiler. — " It is constructed as follows : The sides are of plank 
 one and a half inches thick, one foot wide, and four feet long. The bottom and 
 sides are of a continuous piece of sheet iron, six feet long by two feet wide, 
 the ends of the iron turned up to form the ends ot the boiler, nailed on the 
 wood. It is four feet long and two wide, holding eight cubic feet, and pre- 
 senting an evaporating surface of eight square feet. I rest tlie edges of the 
 boiler on brick-work, the fire passing lengthwise under the bottom. Its cost 
 was not over two dollars." 
 
 912. A New Plan of Extracting Cane Juice.— H. G. Bulldey, of Kala- 
 mazoo, Michigan, has made a successful experiment upon a new plan of 
 extracting Chinese cane juice, and recommends it to others, as it saves the 
 cost of a crushing-mill, and enables parties provided with ordinary farm im- 
 plements to make a full supply of sirup for family use at a very little ex- 
 pense. Tiie plan is to cut the canes in a straw-cutting machine, and then 
 steam them until quite soft and press out the juice in a common cider press, 
 and then proceed with the evaporation as with maple sap. Boiling the cut 
 canes will answer where no conveniences for steaming exist, though steam 
 is preferable, and any ingenious man can make a steamer out of a cask, an 
 old gun-barrel, a common kettle with a wooden lid cemented tight with 
 clay and cow-dung mixed into a paste. But, after all, if the steaming pro- 
 cess should prove more economical than grinding the green stalks, it will be 
 found preferable to erect works designed for the purpose csjjecially. Mr. 
 Bulkley says that he pressed his steamed stalks while hot, in a small cider 
 press, making them dry enough to burn ; and made twenty-five gallons of 
 good sirup by the work of two men and a boy in two and a half days. 
 
 913. Description of Cane Mills.— The best cane mills are ponderous iron 
 rollers, some five feet long and thirty inches in diameter, lying parallel, two 
 at bottom and one at top, touching both the others, the canes being mashed 
 by the first contact and squeezed dry, or as nearly so as possible by the sec- 
 ond contact. The canes are fed to the mill upon a long apron or cane carrier, 
 the whole driven by a powerful steam-engine. 
 
 Tlie next best mill is one of similar form driven by horses. Then there 
 are upright mills of two rollers, both of wood and iron, in the Sontli, of va- 
 rious degrees of excellence, some of which do not save half the juice. 
 
 Good small iron mills, for horse-power, for grinding the canes of sorgo, 
 have been built in Philadelphia and Cincinnati. Without a good mill it is 
 
Sbo. 49.] CHINESE SUGAR-CANE— BOILING THE JUICE. 831 
 
 as useless to attempt sugar-making, as it would be to attempt cider-making 
 without a mill to grind the apples. Cider may be made by mashing apples 
 between two stones, and squeezing out the juice in any rude way; and so 
 m'ay sirup be obtained in the same rude way from sorgo, but the process 
 will not be a profitable one. 
 
 An iron mill for tamily use on a small scale is described as follows : A 
 pair of iron rollers, 7 inches diameter and 12 inches long, set in a frame one 
 eighth of an inch apart, with spout to catch and collect the juice, and a 
 crank turned by hand. 
 
 914. Boiliug the Juice. — Boiling must be done in the same careful manner 
 that good maple-sugar makers pursue. As soon as the juice begins to boil, 
 the albumen of eggs, blood, or milk will coagulate and rise, bringing with 
 it most of the vegetable mucilage, gummy matter, and dirt, which must be 
 carefully skimmed off, but not before it really does boil, which it will do at 
 215 degrees Fahrenheit. It will be best to take the kettle from the fire, or 
 put it out, as soon as the scum has arisen, and let the juice cool a few min- 
 utes befor-e skimming it. You may then boil again, until nearly half evap- 
 orated. The true rule is for the saccliarometer to mark 15 degrees Beaunie. 
 It marked in Mr. Lovering's experiments 8 degrees to 12 degrees in the clear 
 juice before boiling. 
 
 After this second boiling, the juice should be cooled to 160 degrees Fahr- 
 enheit, and more eggs, blood, or milk added, and again brought to the boiling 
 point, and again stopped boiling and allowed to become quiet and then 
 skimmed. 
 
 Decolorization is the next process. This is done by decanting the liquid 
 through granulated burnt bones (animal charcoal), from three to five feet 
 deep. It may be filled into any long, narrow vessel, set on end, through 
 wliich the liquid is to be leached. This filter must be prepared as a careful 
 housewife prepares her leach, so that no ashes will be washed down into the 
 lye. A board with holes in it, and a piece of wire gauze, may be fitted in 
 the barrel above the bottom, and the bone-black thoroughly wet with hoi 
 water, and that drawn ofi" before putting in the juice. A thin blanket may 
 be used instead of wire gauze. 
 
 Boiling down the filtered liquid is the next point, and this requires care 
 and skill, combined Avith experience. Nothing else will answer ; for, 
 
 "If we do not boil enough, the sugar contained in the solution will not 
 crystallize when cold ; or, 
 
 "If we boil too much, the molasses will become so thick when it cools, as 
 to impair the crystallizing of the sugar, and can not be separated from it. 
 
 " But how shall we know when to stojJ the boiling ? 
 
 " By the heat of the holling liqitid, as marked by the thermometer. 
 
 " Pure water boils at 212 degrees Fahrenheit's thermometer. You can not 
 make it hotter without changing it to steam. 
 
 " The sorgo juice, being a solution of about fourteen per cent, of sugar and 
 molasses, etc., iu water, becomes three degrees hotter before boiling, and 
 
832 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 boils at 215 degrees Fahrenheit. As the water evaporates, a greater heat is 
 required to keep the couceiitrated juice boiling; in other words, the juice 
 crrows hotter and hotter. "When it reaches the heat marked on the tlierinom- 
 eter 238 degrees Fahrenheit, there is just enough water left to enable the 
 sugar to separate from the molasses when cold." 
 
 A thermometer is therefore an essential implement in sugar-making. 
 
 The water being evaporated, the sugar will crystallize as the sirup cools, 
 if all the processes have been conducted perfectly, and if not, yon will have 
 instead of sugar an excellent molasses. Sometimes that, if kept exposed to 
 the air, will half or more crystallize, weeks after it is put away. 
 
 915. Will the Sorgo Juice Make Sugar ?— That question is settled that it 
 will, notwithstanding all that has been said about its containing no true cane 
 sugar. Mr. Joseph S. Levering, the great sugar refiner of Philadelphia, has 
 furnished the evidence that it will make sugar; not only raw sugar, but per- 
 fectly white, granulated, sound refined sugar. A good many other persons 
 have also made sorgo sugar. 
 
 Among others, a gentleman living in Evansville, Ind., wrote me that from 
 sixteen gallons of juice he made between ten and eleven pounds of gran- 
 ulated sugar by following the process given in the " United States Dispen- 
 satory," page C33. We have now before us a handsome sample of sugar, 
 made by Mr. Miller, of Laporte, Ind., in a boiler contrived by him, made of 
 cast iron, circular form horizontally, with a division in the center, and set 
 on a pintal, so that it can be turned off the fire as easily as a kettle is swung 
 from the fire in the old kitchen fire-place, when hung upon a crane. Still 
 we doubt whether in the ordinary mode of household manufacture, good dry 
 sugar can be easily or profitably made from sorgo juice. To make sugar, 
 cither from the sorgo or the tropical cane, successfully ami cheaply, re- 
 cpiires costly apparatus. The principal diftictdty is getting rid of molasses. 
 
 One man details his experience as follows : I brought the juice to the boil- 
 ing point sloAvly, skimming as the impurities arose to the surface. After re- 
 moving the first thick scum, I boiled as fixst as possible, until the sirup began 
 to thicken ; then slackened the fire and evaporated slowly, until the sirup 
 would barelj' run when cold. It was then put in vessels and set aside. In 
 two or three days the mass was filled with crystals. This was all very easy, 
 80 far, but I found the draining tedious. Iliis I did by putting the mass in 
 a conical bag, made of thin cotton cloth." 
 
 As every family, with the hand-mill above described, can grind cane 
 enough at odd time to make a barrel of choice sirup, let that suffice, and 
 leave sugar-making to large establishments ; for it requires more apparatus 
 than it does for maple sugar. 
 
 The experiments of Mr. Levering were very minute, and conducted with 
 great accuracy, and proved to his satisfaction that a fair croj) of sorgo will 
 give 625 lbs. of sugar to the acre, of as good a quality as a fair average of 
 cane sugar. He published his experiments in detail in a pamphlet, and that 
 was republished iu the New York Trlhtne, and in several other papers. It 
 
Seo. 49.1 
 
 CHINESE CANE SUGAR-MAKING. 
 
 833 
 
 is too long to print in whole in this book, and we only give his conclusions 
 in form of a synopsis : 
 
 ^'' First — That it is obvious that there is a culminating point in tho devel- 
 opment of tlie sugar in the cane, which is the best time for sugar- making. 
 This point or season I consider to be when most if not all the seeds are ripe, 
 and after several frosts, say when the temperature falls to 25° or 30° F. 
 
 " ^Second — That frost, or even hard freezing, does not injure tlie juice nor 
 the sugar, but that warm Indian summer weather, after the frost and hard 
 freezing, docs injure them very materially, and reduces botli quantity and 
 quality. 
 
 "Third — Tliat if the cane is cut' and housed, or shocked in the field when 
 in its most favorable condition, it will probably keep unchanged for a long 
 time. 
 
 '■^Fourth — That when the juice is obtained, the process should proceed con- 
 tinuously and without delay. 
 
 '■'■Fifth — That the clarification should be as perfect as possible by tlie time 
 the density reaches 15° Beaume, the sirup having the appearance of good 
 brandy. 
 
 " Sixth— T\\a.t although eggs were usea m these small experiments, on 
 account of their convenience, bullock's blood, if to be had, is equally good, 
 and the milk of lime alone will answer the purpose; in the latter case, how- 
 ever, more constant and prolonged skimming will be required to produce a 
 perfect clarification, which is highly important. 
 
 '•Seventh- — Tliat the concentration or boiling down, after clarification, 
 should be as rapid as possible without scorching — shallow evaporators being 
 the best. 
 
 " "With these conditions secured, it is about as easy to make good sugar 
 from the Chinese cane as to make a pot of good mush, and much easier than 
 to make a kettle of good apple-butter." 
 
 We dissent from his last proposition, and conclude by recommending 
 farmers to confine their operations to making sirup. That they certainly 
 can make, of superior quality. 
 
 91G. Sorghum that has IVo Saccharum.— We have no doubt of the fact that 
 two kinds of seed have been disseminated through the country so identical 
 in character as to deceive the most careful observer, and producing catics 
 so identical in appearance as to be undistinguishable, yet one affords a sweet 
 juice, convertible into sugar or sirup, while the other has but little more sac- 
 charine property than broom-corn, which is also a sorghum. 
 
 This false cane is the Sorghum vultjare, called in some sections Turkey 
 corn, Guinea corn, chocolate corn. This is a trifle earlier, and grows high, 
 erect canes, which are erect because they are light. The sweet sorghum 
 canes are heavy because they are loaded with sweet, and frequently for that 
 reason, and lor their high and slender growth, are prostrated by the winds. 
 One plant of the false sorghum is sufficient to adulterate a whole acre of the 
 true in this way. The sorghums blossom first on the uppermost part of the 
 
834 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 panicle, and then by degrees follow the panicle to its base, wliere it ceases. 
 It being a long time in blossom, the pollen of the false, by the winds and 
 insects, has the first and best opportunity to impregnate the true as soon it 
 begins to blossom. It can readily be seen how easilj' a whole field of seed 
 may be adulterated by a few seeds of the false intermingled, without the cul- 
 tivator having any knowledge of the fact, until a subsequent crop ; and when 
 it is considered that the seed is identical in appearance with the true, the 
 mischievous consequences can readily be appreciated. 
 
 " However this adulteration may be, sufficient facts are elicited to warn 
 the Northern cane-planter to beware of a cheat that can only be detected 
 after liis toil has matured a crop of either sweet or tasteless canes. This 
 tasteless cane was a common plant in Connecticut forty or fifty years ago, 
 and during the war of 1812 it was cultivated for its fancied value as a sub- 
 stitute for coffee ; and it is now asserted that at that time there were sweet 
 canes as well as those not sweet, and many persons believe that the true 
 Chinese cane was grown at that day, without any knowledge on the part of 
 the cultivators of its being a sugar-producing plant." 
 
 It certainly requires the utmost care on the part of cultivators to keep 
 the seed pure. Every one must utterly debar the cultivation of Sorghum 
 vuhjare on his own pi'emises, and as far as possible on his neighbor's; and 
 if by chance his cane has become adulterated, discard the seed, and procure 
 that which is pure, at whatever cost. 
 
 917. Cost of Growing Sorgo and Corn Kqual. — A farmerof Chester County, 
 Penn., has carefully ascertained the cost of growing sorgo to be the same as 
 growing corn. The profit is greater. He says : " My calculations of the 
 profits of sorgo are as follows : 
 
 One acre will produce 1,500 gallons of juice, which at 4 gallons for 1 will pro- 
 duce 375 gallons sirup, which at 30 cents per gallon is $112 50 
 
 And 30 bushels seed, worth 40 cents per hushel 12 00— $124 50 
 
 Deduct crop of corn, 50 bushels per acre, worth CO cents per hushel delivered 
 
 Loaves a difference in favor of sorgo $94 50 
 
 "The cost of raising the corn and sorgo until both are ready to cut from 
 the ground — the one to husk and the other to express the juice — is ex- 
 actly equal. The hutking, cribbing, shelling, and getting to market the corn 
 will probably cost quite as mucli money and labor as it will cost to express 
 the juice of the cane and convert it into sirup. 
 
 918. Stock Iiyured by Eating Sorgo Bagasse.— The statement given by 
 some sorgo growers and manufacturers, that the bagasse is good feed for 
 stock must be received with some caution. An item published in 18(30, in 
 the Independence (Iowa) Guai'dian, gives an account of the destruction of 
 seven head of cattle, belonging to I. G. Freeman, from eating the refuse of 
 Chinese sugar-cane, after it had been compressed in the mill. The coating 
 of the stalks is of a very vitreous character, and in the stomach it produced 
 violent inflammation. A post-mortem examination in that case revealed 
 this as the cause of death. 
 
Seo. 50.] 
 
 MAPLE SUGAR-MAKING. 
 
 835 
 
 ■ 919. Sorgo Sirup Vinegar. — In regions where cider vinegar can not be 
 made easily, a very good substitute may be obtained iVom the juice of sorgo. 
 The quality will be improved by boiling it about one half away, though we 
 believe a pretty fair vinegar has been made from the juice without boiling. 
 It may be exposed to the air in open vessels, and should be frequently stir- 
 red to allow the atmosphere to come in contact with it, because it is by the 
 oxygenation that vinegar is formed of any fruit juice, which converts the 
 sugar into acetic acid. Vinegar-makers leach cider through barrels filled 
 with shavings of some sweet wood, such as beech or maple, for the purpose 
 of exposing every drop to the action of the air, to hasten the oxygenation, 
 and the same plan may be advantageously adopted in the manufacture of 
 vincffar from soriro. 
 
 SECTION L-MAPLE SUGAR-MAKING. 
 
 HE Acer sacchari?iu?n has long yielded sugar to the 
 pioneers of American settlers in the forest. Charlerois, 
 in his history of Canada, written in 1721, speaks of 
 the manufacture of sugar from maple-trees, and 
 gives the process, and says it was first produced by 
 the French immigrants, who taught the art to the Indians, 
 who were previously ignorant of it, though the reverse 
 of this has long been believed ; that is, that the settlers 
 found the Indians already in possession of the secret, and 
 learned the art of them. Although there are none of the 
 difficulties in the way of converting maple sap into sugar, 
 that we find in sorgo, we believe it is better economy to 
 convert the sap into sirup or molasses, where maple orchards 
 ai'e convenient to large towns, which will always aflford a market for a real 
 nice article of maple sirup at a high price. Wo have already given full 
 directions as to Chinese cane, which will make excellent sirup, and will only 
 make poor sugar, and that with much difficulty. Maple sirup is more easily 
 converted into a very palatable but not very sweet sugar. It is never, at 
 best, worth over two thirds of the price of pure cane sugar for family use, 
 while the sirup is quite the reverse. We had rather have a gallon of maple 
 sirup than a gallon and a half of golden sirup, or two gallons of Orleans 
 molasses. Although maple siruj) is made with very little trouble, it i-equires 
 much experience and great care to make good maple sugar. 
 
 Since the sugar-maple is one of the handsomest of all of our beautiful 
 American forest trees, and is as easily grown as an apple-tree, it is some- 
 what surprising that it is not more cultivated, and its delicious products more 
 
836 ROOT CROPS AKD SUGAR CROPS. [Chap. X. 
 
 used by farmers' families. To aid in this, either from cultivated or natural 
 trees, we shall give in detail the process of maple sugar manufacture. 
 
 To those to the manner born, or bred iu the camp (of sugar-nialcers), we do 
 not supi^ose Ave can offer acceptable advice about the how to do it, or " how 
 not to do it ;" but to a few others, who have not yet learned the best way to 
 conduct the maple-siigar business, we think we can say a word that will be 
 useful. In the first place, get ready. For that, there is a very good time ; 
 it is noio • you never will find a better one. 
 
 920. Preparation for Sugar-Making. — No matter what is the season of the 
 year, if it is mid-summer, or mid-winter, and you intend to tap your maple- 
 trees next spring, you can get your spouts, pails, sap holders, kettles, sugar 
 molds, sirup casks, etc., ready. At any rate you can read this article upon 
 maple sugar-making and learn how. 
 
 921. Tapping the Trees. — Never tap your trees with an ax, even upon 
 land that you are going to clear, because you may not live to clear it, and 
 your successor may desire to save some of the trees that your wrong act has 
 spoiled. Besides, boxing may teach your son the wrong way to do it. 
 
 The right way is to bore the trees on the sunny side, two feet or more 
 above the earth, with an auger not over one inch diameter, and at first not 
 over half or three fourths of an inch into the wood, with a slant upward. 
 This hole may be deepened or increased in diameter after the surface be- 
 comes so dry that the flow of sap is cheeked. The right time is when the 
 winter is so far over that we begin to have freezing nights and thawing days. 
 Then be ready for sugar-making. 
 
 922. How to Make Spouts, and How to Use Tliem. — To conduct the sap into 
 the buckets, use iron spouts which will cost you only the price of thin inch- 
 and-a-quarter wide hoop iron, cut in lengtlis of two to four inches by your 
 own hands with a small, cold-cutting chisel, using the end of a hard-wood 
 block for an anvil. Now grind one end sharp before you make them into 
 troughs, which you can do almost as fast as you can count, as follows : Bore 
 an inch hole through a hard log and saw it asunder so as to leave half of the 
 hole in one end ; drive two nails upon one side, an eighth of an inch from 
 the edge for a gauge ; lay the flat piece of iron over this hollow, and a round 
 bolt on it, and hit that with a stout hammer or an old ax. You can im- 
 prove upon this by extemporizing a hand-press, both for cutting and shaping 
 your spouts. You need not go to a blacksmith's, and you can not make 
 wooden spouts half as fast, and they will not last half as long. 
 
 Drive your spouts into the bark onl}', and when tlie season is over, pull 
 them out and store away, unless you intend to die before the next year. 
 
 Instead of boring a first or second time, you may use a gouge, cutting out 
 a clean chip. This will not injure the tree. Boxing or boring with a slant 
 down, holds water and produces decay. 
 
 This is our opinion about spouts. Now here is somcbod}' else's opinion, 
 which may be equally good. He says: ''There arc two objections, in my 
 mind, to the iron spout. The first is, it leaves the hole entirely exposed lo 
 
Skc. 50.] MAPLE SUGAR-MAKING. 837 
 
 the air, and the surface soon becomes dry, and the flow of sap is checked. 
 The hole should be closed as nearly as possible, without obstructing the flow 
 of sap. For this reason I prefer the wooden spout ; and the expense is no 
 more. There are in most towns in New England, shops and machinery 
 where spouts can be made from spruce or pine at a cost of not more 
 than one dollar per hundred. Where there is no such facility, they can be 
 made in long winter evenings from elder or sumac, which grows on nearly 
 every farm, with no other tools than a saw, a jack-knife, and a piece of wire 
 with a handle on one end to remove the pith. 
 
 " My second objection to the iron spout is, Avhen driven into the bark it is 
 liable to fracture it and cause an unnecessary wound to the tree." 
 
 Wooden spouts can also be made of any free-splitting wood, cut ten inches 
 long and one and a quarter inches thick, which is split by a gouge or crooked 
 iron, to give the right shape. Always commence splitting each block in 
 the middle, and work it so till each piece for a spout is thin enough. One 
 end is to be sharpened, and the hole made with a gouge, and the spout driven 
 in as recommended for the iron spouts. Some bore holes slanting downward 
 and drive a plug-spout in the hole. Still there is nothing, in our opinion, so 
 good and cheap as iron spouts, made of scrap sheet iron or hoop iron, swaged 
 to a trough shape, and ground sharp at one end, so as to drive into the bark 
 —never through it — below the cut from which the sap is to flow. This cut 
 may be made with an auger, gouge, or even an ax, if care is used to make 
 only such a smooth, shallow cut as will soon heal over. Choj^ping great, 
 rough holes into trees to get the sap is an act as foolish as killing the goose 
 that laid the golden egg. 
 
 923. Sap-Buckets. — Tiie best sap-buckets, and ia the end the cheapest, are 
 made of tin, to hold four gallons, and just enough tapering to pack together, 
 with a loop in the rim-wire to hitch upon a wrought nail, driven into the 
 tree. Such buckets should not cost over 25 cents each — perhaps not over 
 20 cents. They should be stored dry, in a dry place, in piles bottom up, 
 and be good for your grandchildren. 
 
 Painted pails make cheap, good sap-buckets. You can hang them by the 
 bail upon a nail set slanting, or else by a piece of small wire twisted in one 
 ear. 
 
 Home-made pails can be made without much cost during the winter, if 
 you have any genius for coopering, and will use the surplus heat of the 
 stove or brick oven to season your stuflT. Leave one stave long enouo-h to 
 bore a hole to hang upon the nail. Do not depend upon things that you 
 can pick up to catch sap, and if you catch a fellow upon your premises 
 making sap-troughs, take a birch sprout and start the sap out of him. 
 
 One old sugar-maker recommends making tin sap-buckets of a square 
 form, of two sheets for the square sides and half a sheet for the bottom, with 
 just taper enough to fit together when in store. The tin should be rolled 
 around a wire at the top, with a loop to hang by, or else with a hole under 
 the wire large enough to hang over a wrought nail head or stub horsenail. 
 
838 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 "VVe say wrouglit, because they must be pulled out of the trees Tvhen the 
 season closes. 
 
 If sap-buckets are not home-made, then tin is undoubtedly the most eco- 
 nomical, and they may be kept clean more easily than any other kind, and 
 never impart any sourness to tlie sap, and would soon pay for themselves 
 in the increased value of the fine sugar and molasses afforded by their use. 
 When sap-buckets are hung upon the tree, as they always should be, the 
 spouts will rarely need to be over three inches long, and being close to tlie 
 top of the bucket, the sap will not be blown away and lost, as it frequently 
 is in falling a foot or two. 
 
 924. Storing (he Sap. — It is very bad economy to neglect providing a suf- 
 ficient reservior for sap. In some wooded regions, where suitable timber 
 can be had, a trough that will hold four or five barrels can be dug out with- 
 out any exjjense, for the man who is tending the first boiling can do the 
 work. Where a trough can not be made conveniently', a vat can be made 
 of plank, set in a frame to key Tip tight with wedges. Sometimes a molasses 
 hogshead can be obtained conveniently. A liquor cask will answer if it is 
 brought home some weeks before wanted, and fillad with water. If you can 
 arrange your storage vessel to stand above the level of the boiler, it will 
 save much trouble, as you can thus run the sap through a trough into the 
 boiler. 
 
 925. Boilers and Boiling Sap. — Sap-kettles are antiquated. If you possess 
 any of these, use tliem for the storage of sap, or concentrated sirup, and get 
 a set of sheet-iron pans. These you can also make yourself. See how 
 cheaply. Buy good stove-pipe iron in large sheets ; punch two rows of 
 holes, not in exact straight lines, around the edge, one row close to it and the 
 other an inch and a half from it. Nail this ujjon a frame made of one-and- 
 a-quarter-inch stufi", six inches Avide, with one row of nails, which should be 
 large-headed tacks or small wrou*ht clout nails, in the edge of the frame, 
 and the other in the sides, upon which the edges of the iron are turned up 
 all round. You may, if you fear having an untight joint, use a little white 
 lead, but it is not generally necessary. An old sugar-maker thinks copper 
 bottoms would be more economical in the long run. 
 
 A boiler has been i^atented that is made in such a way that by a motion 
 given to it, the sap is made to flow into a series of troughs over the heated 
 flues, in a small stream which evaporates rapidly. A man who has made 
 sugar in Ohio since 1851, says: " I prefer heavy cast-iron kettles to sheet- 
 iron pans, but would like them if of oblong shape with straight sides and 
 ten inches deep, set over an arch. I use four eighteen-gallon kettles, and 
 have often boiled down and sugared off 100 pounds a day ; of course work- 
 ing all night. 
 
 " AVe gather our sap in tight barrels. Two make load enough for a yoke 
 of oxen to haul on a sled. We have a convenient place, so that one man 
 can roll up and empty into the reservoir. Two hands can gather twenty 
 barrels in half a day. We boil in all the kettles, having spouts to conduct 
 
Sso. 50.] THE PROCESS OF MAKIKG SUGAR AND MOLASSES. 839 
 
 sap into each as fast as it boils away. It is too mucli work and exposure to 
 heat to dip from one kettle into another, and nothing is gained by it. Wlien 
 we first start our four kettles, we can boil away two barrels an hour. After 
 the sap gets sweet, it will not boil away so fast. We boil in about enough 
 for ten pounds to each kettle, and then boil down to sirup, strain off", wash 
 and scour the kettles, and fill up again. By boiling too long we lose time 
 and spoil the sirup. Great care must be used to keep the sirup clean. If 
 necessary, use milk or eggs to clarify with. I do not recommend claying 
 sugar, and all for sale I make in cakes — it brings more." 
 
 920. The Furnace and Setting Pans. — Build two straight walls as long as 
 all the pans you will use, and a little less wide apart than the width of your 
 pan, raising at the end of each pan so that the second will discharge the 
 juice througli a cock or spout closed by a valve or cheap gate. Wliere the 
 ends-of the two pans meet, there must be a flat stone, or brick-work, or iron 
 plate. There is no occasion to build the pans fast in the furnace — they arc 
 more convenient movable. If you have pans enough to use up all the heat 
 in its passage xinder them to the chimney, you will be surprised to see how 
 rapidly the M'ater evaporates. You must fill in the bottom of the flue so as 
 to keep the fire up to the bottom of the last pan. 
 
 927. The Process of Making Sugar and Molasses. — When the sap is boiled 
 to the right point, Avhich experiences teaches, draw it from the last pan and 
 strain it through flannel, or cloth of somewhat close texture, into a clean 
 kettle or tub, and let it cool. The tub is the best, with a cock half an inch 
 above the bottom, so as to draw off the clear liquor, leaving the sediment 
 that passed through the strainer to be re-filtered. In the decantecb liquor, 
 put a quart of milk, or, still better, a pint of milk and two or three eggs to 
 ten gallons, and heat slowly and skim carefully. The eggs should be well 
 beaten with the milk, and thoroughly stirred into the sirup before it is 
 heated. The kettle should not be over 4ialf full, and should be on a crane 
 so as to swing ofiF suddenly, or if set in an arch, with a furnace door and 
 damper, by which the fire could be controlled in an instant, as upon this 
 depends success ; and great care is necessary to prevent scorching after the 
 sirup begins to grow waxy, from which time until it is sufficiently boiled, 
 the fire must be very gentle and under control. 
 
 Waxy sirup will make drained sugar, leaving a considerable residue of 
 molasses to be re-boiled or kept for use. Brittle, waxy sirup is required to 
 make cake sugar. For dry grained sugar the sirup must be concentrated 
 before stirring, until when dropped upon snow and suddenly cooled, it is 
 nearly as brittle as rosin. To make white sugar, the sirup when strained 
 must be passed through animal charcoal several feet thick. 
 
 Filtering through pulverized burned bones — animal charcoal — -removes 
 the coloring matter and other impurities. Charcoal is a purifier and acts 
 both chemically and mechanically, but when made of Avood it absorbs and 
 wastes the sirup. Sand is only a mechanical strainer. Neither will injure 
 the quality of the sirup, but only animal charcoal can be recommended. 
 
840 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 Sugar is also made white by filtering white sugar through it, in draining 
 molds. That is simply mechanical — washing the molasses from the grains. 
 It is also whitened by covering the molds witli a coat of plastic clay. 
 Whitening is not at all important, if the sirup is well strained and claritied 
 with albumen, and the sugar not scorched. It will then be rich, clean, and 
 possessed of that delicious maple flavor that constitutes its greatest value, 
 whether white or brown. 
 
 Waste nothing. Wash all the sweet out of everything, and reconcentrate. 
 Study economy in everything. Upon this alone depends the success of 
 sugar-making. Do not suffer a hand employed in your sugar camp to ever 
 carry such deadly weapons as guns and rum bottles, nor articles so destruc- 
 tive to success as cards, dice, dominoes, and novels. You must watch and 
 work, and then you need not doubt success. Sugar-making is pleasant, 
 healthy, hard work. A camp is no place for lounging. •. 
 
 While boiling, large quantities of sap should not be poured in at a time, 
 as that will stop the boiling and make irregular work ; but a reservoir 
 should be placed above the boiler, into which a faucet should be inserted, 
 and the sap allowed to run in a constant stream, which a little practice will 
 enable the operator to regulate to correspond exactly with the evaporation. 
 A stop-cock should also be placed in the boiler to draw off the sirup. 
 
 A correspondent writes from Windsor, Vt., as follows : " Two sheet-iron 
 pans, four feet long and two feet wide, set in a brick arch, one forward of 
 the other, will be sufficient for a sugar orchard of 300 trees, and will boil 
 the sap to sirup in about twelve hours. Put the sirup, after straining 
 through flannel, into a cask, and let it stand two days. Then draw it off 
 and boil it down in one of the pans. I have seen sugar made in this way as 
 white as loaf sugar. In my opinion, milk or eggs should never be put in 
 sirup, as I can not see why any advantage should result from it ; and I know 
 it has been practiced with injury to the sugar, and waste, as considerable 
 sweet is thrown out with the milk and egg." 
 
 We can not see how the milk and eggs can injure the sugar, since the 
 office of any albuminous substance added to the sirup is simjjiy to gather up 
 and hold all such impurities in such a manner that they can be easily re- 
 moved. In short, dirt that is so fine that it can not be strained out will 
 attach itself to the white of an egg. So that it can be lifted out with a skim- 
 mer as easily as a potato. There is no need of waste of any sweet, because 
 it can all be washed out in sap or partly concentrated sirup. 
 
 928. Making Sugar on a Small ScalCt — J. Ilerrick, of Lyndeborough, N. H., 
 wrote to us in 1857 as follows: "My orchard consists of seventy-five trees 
 of second growth, scattered along walls or in a pasture of fifteen acres. I 
 tap with a three-fourth-inch auger four feet from the ground, and hang the 
 bucket by a ring, on a hook driven into the tree so dose to the spout that 
 the wind will not waste the sap. I tap at this hight that cattle can not dis- 
 turb the bucket. Some might object on the ground that the lower a tree is 
 tapped the more sap will run. This is not the fact, for the sap will flow as 
 
Seo. 50.] THE PROCESS OF MAKING SUGAR AND MOLASSES. 841 
 
 freely by cutting oflF a topmost branch as it will from a root of the same size 
 laid bare in the ground. And again, any one may learn this fact from the 
 red squirrel, who, by the way, is a famous sugar-maker, and knows when to 
 tap a tree and where to do it. He performs his tapping in the highest per- 
 pendicular limbs or twigs, and leaves the sun and wind to do the evaporat- 
 ing, and in due season and pleasant weather you will see him come round 
 and with great gusto gatiier his sirup into his stomacli. 
 
 "I make only molasses, and clarify in tlie following manner: I take the 
 sirup when of proper consistence, and while hot strain through a thick cloth 
 into the kettle for clarifying; and when cool, for every four gallons put in 
 one egg and a half pint of new milk, well beaten together and mixed with 
 the sirup. Let no further agitation bo had by stirring. Raise the heat grad- 
 ually to boiling point, and all the impurities will rise at once to the surface, 
 and must be quickly removed with a skimmer as long as any comes up ; this 
 will leave a sirup perfectly clear, to be evaporated either to molasses or 
 sugar. If the egg and milk are put into the sirup when hot, the albumen 
 of each is charred so that it will form no adhesion with the impurities, and 
 of course will not rise together to the surface. I think that the rapid evap- 
 oration of the sap, in sheet-iron pans, will make a more clear and light-colored 
 sirup than when done in deep, thick kettles; at any rate, it can be done at 
 half the expense of time and w'ood. Mine has been a small enterprise com- 
 pared with many in this town who have orchards that number three or four 
 hundred trees. Six years ago I constructed a building for boiling, the whole, 
 including a brick furnace and sheet-iron pan for evaporating, at a cost of 
 $20 ; 75 buckets cost $10, which makes the whole capital $30. My son has 
 done all the labor of gathering and boiling this season, at a cost, including 
 ox help, of $8. I liave used fi cords of hemlock wood at $1 75 per cord, 
 $2 62 ; and have made 29 gallons of molasses of a consistence that it shall 
 not ferment in the hottest of weather. This is selling here at tiiis time for 
 $1 3-i per gallon. The result of my orchard is as follows : Interest on cap- 
 ital, $1 80 ; labor, $8 ; wood, $2 62 ; total, $12 42. 29 gallons molasses at 
 $1 34 ; total, $38 86. Deducting labor, wood, and interest leaves $26 44, 
 as the result of about eight days' labor." 
 
 Maple sugar-making is truly a domestic institution. A woman in Van 
 Buren County, Mich., made 61 lbs. of sugar and 2 gallons of molasses from 
 13 trees, the sap of which she boiled on the cooking stove. From 290 trees, 
 in the above county, one family made 1,800 lbs. of sugar and 40 gallons of 
 molasses. From 90 trees, another family made 400 lbs., besides a supply of 
 molasses for family use. One Vermont boy, 16 years old, in a camp of 163 
 trees, not favorably located, but with good appliances, made 600 lbs. of 
 sugar. One of his neighbors made 20 lbs. of sugar one season from one tree. 
 From 62 trees tapped late in the season, two small boys, with a kettle on a 
 crotch and pole to concentrate the sap to sirup, made 321 lbs. of sugar. One 
 man made $75 worth of sugar from trees that he planted for shade along 
 the walls. Another man tapped a few trees left in the clearing near the 
 
842 ROOT CROPS AND SUGAR CROPS. [Chap. X. 
 
 house, and las wife made sugar and sirup enough for the family all the year. 
 A letter from Ilughesvillo, Pa., says : " Myself and brother, two beys, have 
 made 400 lbs. of sugar, besides molasses, this season, carrying our wood 
 and sap mostly without team, or any sugar-house, or any conveniences, and 
 losing a good deal of sap, besides suifering the want of dry wood." 
 
 929. Is Maple Sugar-Making Profitable ?— Manlius Engle, of AVest Almond, 
 Alleghany County, New York, says ho has been a sugar-maker all his life, 
 and that tlie business is not only pleasant and health-invigorating, but profit- 
 able, lie says: "The average from 200 trees during the past six seasons 
 has been 1,300 pounds, and the net profits have averaged $125 per season. 
 During the season that has just closed, 3,200 pounds of hard caked sugar 
 have been manufactured from 300 trees, and sold in Angelica at 12i cents 
 per pound. This gives §400 as the gross proceeds of the season, from which 
 deduct the following : 
 
 Two months' labor by self, at $22 per month $14 00 
 
 One month's labor of yoke of oxen 18 00 
 
 Paid for cutting 2-t cords of wood 12 00 
 
 Half the interest on 20 acres of land, at $10 per acre 7 00 
 
 Interest and wear on sugar apparatus 9 90 
 
 For clarifiers, correctives, and incidental expenses 4 00 
 
 Total expense $94 90 
 
 Net profit 305 10 
 
 "The sugar orchard from which the above results were obtained is located 
 on the summit of a ridge about 1,400 feet above Lake Ontario, and consists 
 of 300 trees, mostly of large size, scattered over about twenty acres of ground, 
 the soil of which is a deep yellow loam resting on a gray slate bottom. I 
 boiled five kettles, and every twelve hours boil one kettle down to thin mo- 
 lasses, which is stored in barrels. I use milk and white of eggs, and a tea- 
 spoonful of saleratus in each kettle. From my experience, others may see 
 what one man can do in the maple-sugar business. The reason why so many 
 fail to make it remunerative is want of diligence and economy. Thei'c is no 
 use for rifles, cards, dice, dominoes, novels, or rum bottles in a sugar camp. 
 A tree should never be cut or bored more than two inches deep. Taking 
 the avei'age of years, 30 maple-trees will supply a family of six persons, 
 and there are but few farmers that have not or might not have that number 
 of trees without cost for land." 
 
 A sugar-maker of Monkton, Vt., gives the following results to show the 
 
 profit of sugar-making in that section : 
 
 Dt. To o\ cords of 4 feet seasoned maple wood, at $2 per cord S6 50 
 
 Labor — 4 days preparing, tapping, cleaning uji, and 16 days collecting, 
 
 boiling, etc 20 00 
 
 Interest on capital in boiling-house, tubs, and pans, at 10 per cent 6 00 
 
 Interest on 5 acres of land, at $50 per acre ($250), at 10 per cent 15 00 
 
 Total $47 50 
 
 Or. By 800 lbs. of sugar (allowing 7 lbs. of sugar to each of the 3 gallons of mo- 
 lasses made), at 12 J cents per pound SlOO 00 
 
 Profit $52 50 
 
 At 6 cents per pound the receipts would be only $48 00 
 
Sko. ou.j I'KEPAKING SUGAR FOK MARKET. 843 
 
 The above crop was made from 195 trees, the largest of 500 second-growth 
 trees, such as were not used in 1856, tapped with a five-eiglith-inch auger, 
 and the sap boiled in four sheet-iron pans, 2i by 28 inches, -1 inches deep ; 
 one of which was, by way of experiment, covered, with very beneficial 
 results. " 
 
 930. How Much will Maple-Trees Produce ?— The yield of the spring of 
 1858 in Vermont was estimated by one writer at a trifle less than three 
 pounds per tree, which, he says, is the average of years, and that the yield 
 of 1857 was extraordinary, and perhaps without precedent, being over five 
 pounds per tree. A sugar orchard of 100 trees, belonging to AVm. Searls, 
 Eaton County, Mich., yielded one spring 950 lbs. of sugar, at the rate of 9j 
 lbs. to a tree. In Vermont, thirteen sugar orchards (1,G00 trees) in Kandolpli 
 made G,100 lbs. of sugar. Wm. Davis, of Pittsfield, made 1,000 lbs. from 
 153 trees. L. Carpenter, Entland, made 1,000 lbs. from 160 trees. One 
 sugar orchard that has been eighty years in use, tapped with a three-quarter 
 auger, one spout to a tree, yields each 6 lbs. Another orchard, tajjped with 
 two or three spouts, yields but 3} lbs. per tree, in consequence of injury from 
 long time over-working. In Hancock, J. G. Robinson made 2,362 lbs. from 
 225 trees. A sugar place in AYashington, Mass., containing 100 trees, owned 
 by L. Johnson, produced one season 975 lbs. of clean, nice sugar, nearly one 
 half of which sold for 16 and IS cents per pound. The sugar was made by 
 Mr. Arannah Mattoon, of Washington, aged 69 years. From a moderate-sized 
 tree, standing in open ground in front of the residence of the Rev. David 
 King, of Vernon, Trumbull County, Ohio, his wife made 34 lbs. of very fine 
 sugar one season. It is thought if all the sap had been carefully saved it 
 would have given 40 lbs. 
 
 931. Ratio of Sugar to Sap. — A letter before us gives the ratio of sugar to 
 maple sap as follows : Sap concentrated 30 times makes what we call good 
 sirup, and this sirnp concentrated three eighths makes grained sugar, hard 
 enough when taken out of a jar to require a stiti' knife, which, as I calculate, 
 is that sap concentrated 50 times in sugar. 
 
 1 quart watei' weighs 2 lbs. 2 oz. I 1 quart sirup weighs 2 lbs. 8 oz. 
 
 1 quart sap weighs 2 lbs. 1 oz. | 1 quart sugar weighs 2 lbs. 9 oz. 
 
 932. Preparing Sugar for Market. — Large quantities for the New York 
 market are made in cakes. The size and shape of the cakes will often make 
 a difference of one or two cents a pound. We advise all who intend to make 
 sugar for sale, to provide a set of tin molds, so as to make well-])roportioned, 
 square-sided cakes, in paralellogram form, of exact, marked weights, from 
 ten pounds — never larger — down to four ounces, or perhaps twelve and 
 twenty-four cakes to the pound, for retailers to sell at one and two cents 
 each. Sugar made as directed and cast in such cakes, and those packed 
 nicely in boxes and sent to commission houses here, can always be sold at 
 high prices, and when the maker becomes known, his sugar will be espe- 
 cially in demand. 
 
 One sugar-maker thinks it is not profitable to make cake sugar. lie says: 
 
844 ROOT CROPS AND SUGAR CROPS. [cn.vp. X. 
 
 " It is better not to make it into cakes at all, except for those that are near 
 market or ha^o an agent there, and then only in tlie first of the season, -wlien 
 it brings a high price. It is true that sugar made into cakes brings a higher 
 price to the retailer, when sold by the cent's worth, as it often is, at the rate 
 of twenty-five or thirty cents ])er pound, but the producer gets no more, nor 
 as mucli, counting the extra work, to say nothing of the shrinkage there is 
 in concentrating the sirup into sugar, as he would for drained sugar. By 
 drained sugar, I do not mean this black, hard stuflf which we sometimes see 
 in market, but sugar as liglit as the best white Havana, and nearly as white 
 as refined sugar, and wliich can be made without any filtering process by 
 boiling in copper boilers and clarifying with milk and eggs. 
 
 " I have scarely ever made a hundred pounds of sugar in any one season 
 in any other way, and the result was I got from twelve to seventeen cents a 
 pound, while my neighbors got but ten cents. But this is not all the loss in 
 making it into cakes; every one knows that has had experience, that there 
 is a loss in shi-inkago of from three to five per cent, in the process of evap- 
 orating the water in the usual way, and the lower the sirup is concentrated, 
 in the same lu-oportion is the loss or shrinkage, so the diflerenco is from one 
 and a half to two per cent, in favor of strained sugar, while it is almost im- 
 possible to concentrate the sirup to dry-grained sugar without scorching or 
 destroying its flavor. From actual experience I find the result as follows: 
 
 " Suppose 100 lbs. of sugar in the cake to be worth $10, the same made 
 into drained will give you 87 lbs. dry white sugar worth 12 cts., $10 44; 
 li gallons molasses worth 75 cts. per gallon, or 6i cts. per lb., $1 12i ; 
 making a total of $11 56| — showing $1 56i per hundred in favor of drained 
 sugar." 
 
 933. Plaut Maple-Trees. — It appears to us that we have said enough to 
 induce reasonable men to plant maple-trees. If exposed, you can tap them 
 above the reach of animals, and hang your buckets as we have directed, 
 and the flow will be just as great as though tapped down at the roots. No 
 tree can be planted with more certainty of profit than the sugar maple. Its 
 form and foliage are beautiful ; its shade delightful ; its sap delicious and 
 healthful in all stages, from the water that flows from the tree to its honey- 
 like sirup on the hot buckwheat cakes ; and its sweet products, if made as 
 we have directed, will always be salably profitable. Maple sirup would 
 outsell the very best golden sirup at any time in this city, if it were here for 
 sale ; and maple sugar is sold, tuns of it, every year in the confectioner's 
 shops and in the street, to be eaten like candy, at 30 to 50 cents a pound. 
 There will always be a market for any surplus that the country can produce, 
 but that is not the grand object with ns in urging its increased production. 
 It is because it will greatly increase home happiness — the farmer's home. 
 It is for that that we ask you to plant at least one maple-tree. 
 
CHAPTER Xr. 
 
 FORESTS AND FENCES. 
 
 SECTION Ll.-TllEES ANIT^REE PLANTING-WOOD OR COAL FOR FUEL. 
 
 •) 
 
 -^^ MERICA ■will soon be denuded of forests, unless 
 \vc plant trees. "Woodland in j:hc oldest States is 
 scarce and dear, and but for coal, fuel would be 
 almost bej'ond tlie reach of the city poor. We 
 should plant trees for timber, if not for fuel, and to 
 improve the health of those regions naturally desti- 
 tute of trees, for they are capable of changing arid 
 M-astes to fruitfulness. Stripping the land of wood 
 has produced great changes within the short period 
 since the Pilgrims landed. England is already plant- 
 ing trees. IIo'w long before America must follow her 
 example? Let us consider. 
 
 93i. What Trees for a Plantation.— To break th ■ 
 prevailing wind, there is no better tree than our con.- 
 mon white oak, and none that looks more cheerful in winter. Its bleached 
 leaves still adhering to the branches have a warm look and give an idea of 
 shelter. Maples of all sorts are positively beautiful in green foliage, or after 
 the leaves are variegated by autumn frosts. Black and white walnuts are 
 both handsome and hardy, and produce fruit very agreeable to tlie children. 
 Elms are good trees, and give us a pleasing impression of strength as their 
 long limbs wave through the air. Chestnuts make a fine addition to a plan- 
 tation, but their blossoms and burs are objectionable near the house. Hick- 
 ory-trees should never be neglected in filling up a plantation ; they can be 
 transplanted by going the year before and cutting the tap-root. If you 
 would attract birds to your lawn, you must plant cherry-trees here and there. 
 In planting, let the rule be to put all small growing trees nearest the house, 
 rising gradually to the highest in the back ground. 
 
 935. Adaptation of Trees to Particular Locations.— In all tree planting, 
 adaptation should be kejit prominently in view. The kind of tree best 
 adapted to one situation would be the worst in another. The coniferous 
 tribe — pines, firs, larch, spruce, hemlock, cedars— as a general thing, are best 
 adapted to exposed situations and to barren sands. A sandy soil usually 
 contains the food best adapted to trees like the pine. There is no part of the 
 United States that does not produce several varieties and species of valuable 
 and hardy conifera. But the tree which is most hardy and best adajjted to 
 
846 FORESTS AND FENCES. [Chap. XI. 
 
 a particular locality is not necessarily indigenous to it. This is evidenced 
 in the case of the ailanthus, a tree that grows vigorously in the crevices 
 of rocks, or in drifting sands, or in the city pavements. Its growth npon 
 New York island is unequaled by any other tree. Its roots are some- 
 times thirty feet in length, and it has a trunk and branches of correspond- 
 ing size after it has been planted only a few years. It was brought here 
 from the South Sea Islands, where it seems to be completely at liome in 
 dry banks of coral sand. This tree, not only because it grows so rapidly, but 
 because it makes excellent fuel, and because it originated upon a sandy sea- 
 coast, will probably prove one of the most valuable in the world for coast 
 planting. If not so much so as the pine, it will doubtless serve well as a 
 first growth, acting as a nurse to pines, larch, or cedar. Another rapidly 
 growing foreign tree in all the Southern States is known as the China-tree, 
 the wood of which makes excellent cabinet work. An objection to it as a 
 street shade-tree is the abundant crop of berries, which no animal will eat. 
 The objection to the ailanthus is the odor of its blossoms, which may be ob- 
 viated by propagating with grafts from trees which bear pistillate flowers, as 
 the odor only comes from the pollen of staminates. 
 
 Another hardy foreign tree is the paper mulberry, from China and Japan, 
 where its inner bark is used for the manufacture of paper, and also for cloth- 
 ing. In the heat and dust of Ne^v York there is no tree that keeps •so per- 
 fectly clean, fresh, and free from dirt, impurities, and insects as this. 
 
 In planting hills, mountains, or sloping sea-coasts, there is one rule that 
 admits of few exceptions. Plant around the bottom first, and as planting at 
 intervals of a few years is continued, and the summit is gradually approach- 
 ed, the lower and older trees act as a screen, and produce moisture and an 
 amelioration of the atmosphere that are certain to serve as a protection to 
 those on the highest and most exposed ground. Sometimes one sort only 
 will be adapted to a given locality, but as a rule, there are several advan- 
 tages in planting two or three species at once. It is not always possible to 
 know which of several is best. Sometimes one species will grow fast, and 
 will form a nurse for a slower-growing, longer-lived, and more valuable tree, 
 which will remain after the first has disappeared. 
 
 For house surroundings, which add greatly to the beauty, comfort, and 
 health of a place, and for roadside planting, we will give the names of a 
 few hardy trees. 
 
 936. Descriptive List of Hardy Trees.— Nokw ay Maple.— This is one of 
 the finest of all deciduous shade-trees. A round-headed, densely-leaved, 
 vigorous and healthy tree, with deep green foliage, one of the first to come 
 in leaf in the spring, and among the last to drop in autumn, succeeded after 
 a frost by hues of the most beautiful colors. It is far superior to the popular 
 silver maple, which afibrds by no means so dense a shade, and which is 
 liable to breakage of limbs in every high wind. To make a good shade-tree 
 of the silver maple, in the country, it should have a rich soil, inclined to 
 moisture, and be liberally headed back. 
 
Seo. 51.] DESCRIPTIVE LIST OF TREES. 847 
 
 SuGAK Maple {Acci- saccharinum). — One of the cliief beauties of this tree 
 is in the very graceful appearance it presents with its straight, slim trunk, 
 when surmounted by its dense and regularly formed head of green. Rather 
 slow in growth, late in putting out, in autumn foliage deep orange and 
 red. 
 
 Swamp Maple. — A native, and a very pretty tree on a lawn M'ith its 
 scarlet flowers and fruit, but liable to persistent attacks of the borer. 
 
 The Ashes are not general favorites. They are late in putting fortli, 
 among the first to drop their leaves, and liable to the borer. 
 
 Black Walnut (Juglans nigra) is worthy of a place in the former's yard, 
 both for shade and fruit. 
 
 Paulonia Impekialis, of Japan. A few years since a rare tree, and one 
 which lias been greatly over-estimated. It is a rapid grower, closely allied 
 in habit and appearance to the catalpa, but becomes a much larger tree. 
 Has a large leaf, with a light blue flower of a peculiarly disagreeable odor, 
 but which perfumers use. Like the catalpa, it is late in putting out, and 
 among the first to drop its leaves ; accumulates much litter during the sea- 
 son, has an ugly seed pod which hangs on the whole year, and withal j^rc- 
 sents during half the year a bare-armed, desolate appearance. 
 
 Sassafras {Laurus sassafras). — One of the prettiest of our small native 
 or foreign trees. The suckers which it is liable to throw up, and which have 
 caused most persons to object to it as a lawn tree, are easily kept down. 
 
 Honey Locust {Gleditschia triacanthus).—K tree of most i-apid growth, 
 but with thin foliage, and therefore a poor shade-tree, and very liable to 
 attacks of the borer — throws up a great .many suckers, and is apt to lose its 
 limbs in a high wind. 
 
 Tulip Poplar {Liriodendron tulipifcra). — Slow of growth and difficult to 
 transplant, but one of the noblest of our many noble-looking American trees. 
 Li planting trees, a common error we make is to plant them too near the 
 house, or walk, or road, or fence, forgetting to allow for the growth of the 
 tree in after-years. 
 
 Evergreens. — The Norway spruce {Ahies excelsa) is one of the most 
 healthy, rapid growing, and liandsome trees, and never much out of place 
 wherever planted. 
 
 The Scotch Pine or Fie {Pinus sylvestris). — A rapidly growing, rather 
 coarse-looking tree, but of a very fine dark hue after passing its youthful 
 days. It is liable to lose some of its limbs after a heavy sleet or snow. 
 Being of coarse habit, it looks best at a distance from the house or road. 
 
 Silver Fie. — A fine ornamental tree with its horizontal limbs and bright 
 silvery foliage. 
 
 Balsam Fie. — Very handsome in its youth, but with age, in exposed places, 
 loses its beauty. 
 
 Hemlock Spruce. — Perhaps the most beautiful and graceful of all ever- 
 greens, but not as great a favorite as the Norway spruce. 
 
 The Chestnut {Casta7iea) is one of the most valuable trees that we know 
 
848 FORESTS AND FENCES. [Chap. XI- 
 
 of, and it is easily jgrown from seeds. If they are packed in sand as soon as 
 mature, they may be transported a long distance, and should be planted in 
 pots or seed beds. 
 
 The Yellow Locust {Rohinia pseudacacid) is a very valuable timber tree, 
 which can be grown from the seeds, no matter how old they are, if scalded 
 in boiling lye. 
 
 Linden, oe Basswood {Tllia Americana), is a beautiful but neglected tree. 
 The large leaves on its branches make it an agreeable shade in summer, 
 and in the spring its profusion of blossoms, so grateful to the bees, make 
 it a desirable tree to plant around dwellings and pleasure-grounds. 
 
 937. What Das Been Done in Planting Forest Trees.— Amos Otis, of Tar- 
 mouth, Mass., is an extensive and successful planter of pine-trees, and he 
 gives the following valuable information upon the subject. He says : " I 
 commenced planting the pitch pine in 1832, as an experiment, and have 
 since planted 200 acres. Tlie growth is very slow at first, but after the 
 third year the average annual increase in liight is about one foot. I Iiave 
 some lots that have averaged a foot and a half upon land that had been 
 worn out by repeated crops without manure. A sandy, or a sandy loam 
 soil — one that is too poor to sward over thickly with grass— is best. Lands 
 that produce no vegetation are unfit. The young trees at first require some 
 protection, and will not succeed in a loose, barren sand. March is the best 
 month for planting. 1 have a machine with which a man and a horse can 
 plant six acres a day. It plows a small furrow, drops and covers the seed, 
 at once passing along. 
 
 "Those wishing to plant pine seed can take a plow and make parallel fur- 
 rows about six feet apart, and with a machine, used for planting beets or 
 onions, run along in the bottom of the furrows, dropping three or four 
 seeds in a ])lace and about a foot apart, covering them not more than half 
 an inch. If all the seeds vegetate, there will be ten times as many trees as 
 can grow on the land ; but thej' will die out in the course of a dozen years. 
 When I was short of seed, I put the rows eight or ten feet apart, and drop- 
 ped the seed about three feet apart in the rows. I have paid from $1 to $2 
 per acre for the land, and the seed and planting have cost me about the same 
 sum per acre. Adding interest, I liave about doubled tlie money invested. 
 It is a small business, I confess ; but the world is made up of small affairs. 
 
 " "When I commenced planting, my neighbors laughed at me, but now tliey 
 are all planting their old fields. At Middleborongli the farmers are plant- 
 ing their worn-out soils with tlic white pine, which is of very rapid growth. 
 Wlien planting with my machine, I rub ofi^ the wings and clean the seed. 
 If you plant yours by hand, you should not rub oflT the wings." 
 
 The pine extensively planted on the sea shores of France and Italy is 
 the Pinus maritima. There are two other species : tlie Pinus larico, or 
 Corsican pine ; and the Pinus Calahriensis, or Calabrian pine, which is 
 also a lofty and beautiful tree, with wide-spreading branches and long foli- 
 age, and both these species are vigorous, very hardy, and of quick growth. 
 
Sec. 51.] WHY AND WHEN TO PLANT TREES. 849 
 
 The French Government lias planted immense forests of the American cy- 
 press (Taxodium dist'iehwn), obtaining the seeds from this country. 
 
 In Germany, American pines and otlior American forest trees were plant- 
 ed, many years since, and immense quantities of their seeds are fiirnislied 
 thence, to supply all Europe. Holland has spent many thousands of dollars 
 in importations of seeds from this country. 
 
 938. Why and When to Plant TrceSi — Now is the time, no mptter when 
 you read this article, now is the time to begin to plant the seed, buy the 
 trees, cut the grafts, put in the buds, prune the branches, prepare the ground, 
 dig the holes, or do something connected with the business of planting, trans- 
 planting, or growing trees. 
 
 If no more, plant one tree — only one ; it is all we ask ; it is a small job, a 
 mere trifle of labor for an idle moment; a moment that may be spent in 
 worse than idle occupation ; a moment that if spent in planting a tree, might 
 be the means of raising a monument to your name, or a monument to mark 
 a point of history in the country, like that of the Charter Oak, so renowned, 
 so honored in the history of Connecticut. True, that was planted by One 
 who needs no monument, yet has them by the million ; One whom we should 
 imitate ; One whom we may honor by the work of our hands, for witli them 
 we can build a home for the birds and a shade from burning suns for beasts, 
 besides gratifying the eye of man with new beauties — the beauty of trees wiili 
 green leaves and flowers and fruit. Therefore we want every hand in wliich 
 the warm blood of manly life flows to plant a tree — one tree. Not wliilo 
 the ice and snow hold dominion all over our Northern region, but while 
 there is time to think, to promise, to determine, to begin to warm in'.o life 
 yourself, or else you never will come to the point of bringing into life one 
 tree. "While you sit around your warm winter fires, which you would not 
 have without the products of trees, while you look out upon the almost tree- 
 less landscape; while, if you live in towns, you see a hundred brick houses 
 where you see one tree ; while, if you live in the country, you see mile after 
 mile of lanes, and remember that last summer there was not a single shade 
 in ijll that distance ; and while, too, you read of the scarcity and high ])i-ico 
 of fruit, think how many more trees you might grow if they AVere once 
 jdanted. We conjure you to resolve now, to-day, this moment, that when 
 the ice melts and the ground softens, and the spring birds begin to sing, that 
 you will plant a tree — one more tree ; either for fruit, or shade, or oriuiment ; 
 and let it grow free shade, free flowers, free fruit, in a free soil, and let it 
 be the Tree of Freedom. Do not restrict the planting to the head of the 
 family, but let every man, woman, and child plant a tree — a tree to mark 
 the date of the passing year. Think of it ; do not let the year pass M'ithout 
 adding one more to our cultivated trees— one more monument to remind 
 j-ou of fleeting time; one more guide-mark by the roadside of life, that may 
 in future years give you new aspirations of love for a free country, and for 
 a people who planted trees. 
 
 Plant them by the roadside — plant them in yards, streets, lanes, lots — ■ 
 
85(7 
 
 FORESTS AND FENCES. [CnAP. XI. 
 
 wherever jou can find room for a tree to give shade or bear fruit. There 
 is no better time than November to plant hardy fruit-trees, and every liun- 
 dred dollars that may be spent in planting such trees along tlic higinvay of 
 a farm that has a public traveled road running through it" will add a thou- 
 sand dollars to the selling price of that farm twenty years hence. Take up 
 large trees with plenty of roots, and plant them as though you intended 
 them to grow, and they will grow. The public seem to need to be constantly 
 reminded that trees will not grow where they are wanted unless they are 
 first planted. All love fruit — all love shade — everybody admires flowers 
 and green foliage, and even bare branches in winter are beautiful, yet how 
 few lay tlie foundation of after-years of enjoyment by planiing trees, shrubs, 
 vines, for fruit, flowers, or sliade! For shade-trees, the maple, elm, oak, wal- 
 nut, butternut, hickory, locust, sycamore, willow, pine, cedar, fir, American 
 tulip-tree, silver-leafed poplar, for the Northern States ; adding the holly, 
 magnolia, live oak, and orange at the South. Remember, too, that cherry 
 and apple trees make magnificent shade-trees, and that so far as possible in 
 setting roadside and pasture shade-trees, either those which bear fruit or 
 nuts should always be 2>referred. And lastly, remember that nothing adds 
 more to the value of a place than trees, and notliing gives beauty to a coun- 
 try equal to shaded roads. 
 
 939. IJow to Plant Trees.— This is the way. Whether for fruit or shade, 
 prepare your ground well before you attempt to put a tree in its place. 
 Always dig your holes deep and wide, and no matter if the work is done a 
 year before you want to use tliem. A little freshening with the spade and 
 some loose soil in the bottom will be found by experience just what your 
 tree wants to make it grow. Make it a rule never to injure a single root 
 that you can save in taking a tree out of the ground for the purpose of trans- 
 planting, and never buy a tree tliat has been taken up without some regard 
 to the importance of having plenty of roots and a moderate amount of top 
 branches. 
 
 Some trees and shrubs, such as the willow, sycamore, or currant, will grow 
 from a mere stick cut from a top branch and stuck in the ground, while a 
 hickory, or oak, or long-leaf pine can only be transplanted by first cutting 
 the long tap-root while it is growing, and then letting it stand long enough 
 to form new short roots, which must all be moved witli tlic tree, with as 
 much soil as possible adhering ; or by what is termed a ball of earth secured 
 to the roots by freezing or mechanical means. 
 
 If your ground is stony, lay a floor of stone around your tree ; if not, cover 
 nj) the suiface with straw, old liay, or leaves, or small bushes. This is called 
 mxdching, and is one of the most useful things you can do to jjromote the 
 growth of your trees. 
 
 In planting an orchard, the whole tract should be deeply plowed and 
 manured as a preliminary step. Land is seldom too rich for young trees. 
 Ten per cent, of the nursery trees die from bad packing and being long out 
 of the ground, and a vast number arc killed by that stuj)id practice of trim- 
 
Seo. 51. j TRANSPLANTING EVERGREENS IN THE SUMMER. 851 
 
 miiig off all tiie roots mid brandies. If your soil is thin, make it deep by plow- 
 ing and digging deep holes and carting rich earth to fill them. If your soil 
 is stiff clay, change its character before you try to grow trees in it. If your 
 soil is wet, you may grow swamp elms and maples, or water willows, or 
 sycamore-trees, but it is labor lost to try to grow fruit-trees, for they will 
 not live in water. Nothing tends more to the growth of young trees than 
 underdraining; and if the tiles are placed five feet deep, as they always 
 should be, there is but little danger of their being closed soon by the roots. 
 Trees in their growth shoxdd be fed with pabulum for the formation of wood 
 and fruit. Tiiere is nothing better than potash; even coal ashes are bene- 
 ficial. Any kind of decaying wood will give food to growing trees. The 
 pnmed branches of a tree should never be carried off the land. Pile them 
 and let them rot, or spread them around the tree. "Water your young trees 
 every niglit in a drouth. If possible, wet the tops as well as the roots. The 
 earth should always be wet when the trees are planted. Mulciiing serves to 
 keep them moist. Trees that are transplanted with such tops as all trees 
 should always have, nnist be supported by stakes to insure speedy growth. 
 
 940. Whsrc to Phant Trees. — There are so few situations where a tree 
 may not be planted, that it appears almost unnecessary to discuss the subject 
 as to where it should be planted ; but there is one position npon every 
 farm which, more than any other, will pay for tree planting. This is by the 
 roadside. If it is a public road, so much the better ; it will pay npon any 
 of the fai-ni roads. "We have never seen a tree lined highway through a 
 farm without being impressed with the idea that its value was eidianced 
 much more than the cost of the labor of planting. "We have a vivid recol- 
 lection of one of this kind, in the farm owned by John Jay, in "Westchester 
 Co., N. y., the roads through which are lined by noble elms, planted by his 
 grandfather, whose name is famous in American history. Let us add our 
 mite of honor in recording the fact that a great and good man planted trees 
 by the roadside. Let all boys, who would emulate so good a man as John 
 Jay in all his life, follow his example and plant trees by the roadside. Do 
 not listen to the selfish proposition that some land owners urge against 
 planting trees along the road, that it shades and injures the crops. It is 
 only so to a limited extent, where hoed crops are cultivated. If the shade 
 is objectionable on one side of the road, it would not be so on the other. 
 Besides the highway and farm roads, where trees nuiy be planted, there are 
 always nooks and corners about a farm that would support a few trees, all 
 of which would add to its value, for they would add to its beauty ; and it is 
 that which makes a farm salable. 
 
 So we entreat you to teach your children to plant trees. Among other 
 things, teach them their common and scientific names. 
 
 9il. Transplanting Evei^reens in the SHmmer.— One writer says: "In 
 the very hot weather of July, 18.56, I s-t to work ten men to remove old 
 evergreens, viz., yews, junipers, arbuhis, laurestines, and Portuo-al and 
 common laurels from four to ten feet high. I made a hole first, not deep. 
 
852 FORESTS AND FEIsXES. [Chap. XI. 
 
 but sufficiently wide to allow all the roots to be laid out straight. lu the 
 removal I cared but little for the ball of eartli, but aimed to get all the small 
 roots possible. In its new home, cover the roots with fine soil, and tread a 
 little to make the plant stand upriglit. Then fill up the hole with water, 
 and fill in the soil around the hole carefully as the water sinks away. Next 
 day tread the soil somewhat firmly, after wiiich make a ridge all round the 
 edge of the hole, in order, as it were, to form a dish ; fill this with water 
 three times during three successive days, then level the ridge down, cover- 
 ing the mud over M-itli soil. After this no more M'ater is required at tlio 
 roots ; if the M"eather be diy, syringe the shrubs overhead three or four 
 evenings. Young laurels arc treated the same as the large shrubs, except 
 that they get no syringing. In my opinion the months of July and August 
 are the very best for removing valuable large evergreens. Treated carefully 
 as above they arc sure to grow, and they get hold of the soil immediately, 
 for the earth is like a hot-bed, into which the young roots soon enter." 
 
 Another one says: "The best time to transplant evergreens is when (ho 
 tree begins to jnish its cones, or a little after. From the middle of April to 
 June, in this latitude, is a good period. A calm, warm, cloudy day should 
 be chosen for transplanting. Tiie roots of an evergreen should never bo al- 
 lowed to get dry, or become chilled when taken np. It is the exposure of the 
 roots to such ??ifluences that kills so many of these trees. Care also should 
 be taken to save all the roots. They are more injured by cutting the roots 
 than other trees." 
 
 942. Buried Seed of Antediluvian Trees.— The following statement of facts 
 made by the late Judge Burnett, of Ohio, in his " Notes on the Nortiiwest 
 Territory," says : "In the year 1802, a well was dug at Cincinnati, within 
 the central Indian circle, in which, at the depth of 93 feet, two stumps were 
 found, one about a foot and tlie other about eighteen inches in diameter, 
 standing in the position in which they grew. Their roots were yet sound, 
 and extended from them horizontally and regularly in every direction. The 
 surface of the earth over the place where they were found was 112 feet 
 above the present low-water mark of the Ohio Eiver. They must have 
 grown on the spot where they were found. There is another fact connected 
 with this subject worthy of notice. Before the well was dug, not a mul- 
 berry-tree had been growing on the premises, though tiiey were found in 
 the neighboring forest ; yet the next season tiiey sprang up wherever the ex- 
 cavated earth had been spread, in such numbers as made it necessary to 
 destroy them, and they continued thus to slioot up for a year or two, though 
 not one made its ajipearance on the remote parts of the lot, to which the 
 excavated earth had not been cai-ried. This fact produced the belief that 
 one of them must have been the stump of a mulberry." 
 
 943. The Age of Trees. — Tiie age of trees is a marvelous, and inten'stii.^- 
 study. While there are some species that pass q'uicklj' away, others live to 
 generations th.at knew not tlieir planting. Tlie elm has been known to livo 
 350 years ; the chestnut, COO ; the cedar, 800 ; the oak from 1,000 to 1,500 j 
 
Seo. 51.] VALUE OF TREES IN CITIES. 853 
 
 the yew, 3,200, and the California giants are estimated from 3,000 to 5,000 
 3'ears. The Charter Oak at Hartford, Ct., by estimate, was 945 years old, 
 measuring nine feet across four feet from the ground. If we take this as a 
 fair sample of the growth of oaks, a tree should be about fifteen feet in cir- 
 cumference to be five hundred years old. 
 
 "The Rhodes' Oak," in Stonington, Ct., measures al)out 21 feet in cir- 
 cumference, and lias an age according to the Charter Oak standard, of 735 
 years. All over the country there are other " remarkable old trees." 
 
 In the city of New York there is one known as the Stuyvesant pear-tree. 
 Tt was so venerable when the farm, where it was planted, was laid out into 
 lots and streets, that the corporation inclosed it with an iron fence, and it is 
 now, October, 1862, still alive, and three years ago it bore fruit, at which 
 time the tree was sujjposed to be fully 210 years old. It stands at the corner 
 of Third Avenue and Tliirtecntli Street. 
 
 944. Value of Trees ia Cities. — An eminent London physician expresses 
 it as his opinion, that if all the trees and shrubs were removed from the two 
 or three thousand acres of parks, and from the gardens and jjrivate grounds 
 of the great metropolis, in one year the bills of mortality would show an in- 
 crease of deatiis'to the extent of more than fifty per cent. If we consider that 
 there are ordinarily in London over 1,000 deatiis a week, or nearly 60,000 a 
 year, that the deaths by clioiera in 1849, during the worst period of the visita- 
 tion, were at no time over 5,000 a week, we see the bearing and influence 
 of trees — according to the opinion quoted — on the health and longevity of 
 the inhabitants of a crowded city. "We might as reasonably expect that 
 land animals could live without air, or fish without water, as that there 
 could be a ])urc and healthy atmosphere where there are few or no trees or 
 rapidly growing plants, or where, in an extended region, animal life vastly 
 preponderates over vegetable life. " The winters of Salem (Mass.), instead of 
 liaving been rendered more mild", as conjectured, from the eradication of the 
 forests, have become colder by 6° Fahr., during the last thirty-three years." 
 
 945. Growing Trees from Seeds— Oaks, Evergreens, Locust, Hickory. — 
 There are now growing in England several very fine plantations of oaks, 
 from acorns planted either by the present owners or their fathers. 
 
 There is a noted instance in South Carolina, of successful tree planting, by 
 Micajah Buchanan, early in this century. One who visited the place in 
 1860 thus speaks of it: "There was a lot of six acres of this new forest upon 
 wliich oaks, pines, hickories, and dogwoods were growing. The jiines meas- 
 ured two feet in diameter ; fine specimens being free from limbs, and of 
 beautiful and thrifty appearance. Several of the oaks measured twenty-two 
 and twenty-three inches in diameter, and from sixty to seventy feet in liight, 
 smooth and thrifty in growth. Only seed of oaks was planted ; the other 
 kinds were self-seeded from the adjoining forest. The success of this ex- 
 periment in growing trees shows how easily the}' may be reinstated when- 
 ever it is desirable. But we must not leave natnre to do what it is our duty 
 to do for ourselves. We should gather the seeds, and prepare the soil for 
 
854 FORESTS AND FENCES. [Chap. XI. 
 
 their reception. The soil for a tree nursery should be as good and well 
 worked as a well-cultivat^ kitchen garden. Tiie proper way to plant small 
 seeds of forest trees is to pulverize the soil well, and roll it, and then sow the 
 seeds and cover lightly with leaf mold. Great care is required to grow 
 forest trees with success. Care must be taken in selecting soils. No wet 
 soil, nor a ferruginous one, should be chosen. The young trees, too, must 
 be carefully guarded against the depredations of cattle, as all farm stock are 
 fond of young shoots of most forest trees. Sheltered situations should also 
 be selected for the nurseries. Belts of sheltering trees should always be 
 planted in all open places, like the "Western prairies. The trees for these 
 belts may be grown from seed, in advance, or purchased, or in some cases 
 brought from their native localities in the forest. 
 
 Hickory seeds and those of similar trees should be sown in autumn, in 
 drills twelve or fourteen inches apart, and thick in the row, to be thinned out 
 as the trees grow. Squirrels are great pests to the nurseryman, and much 
 care is necessary to guard against their depredations. Manure, and partic- 
 ularly that made of leaves, is valuable for tree nurseries. So are ashes. 
 Weeds must be exterminated, or they will destroy the young trees. 
 
 The larch is recommended as a good nurse for other trees, as it grows 
 rapidly in almost any soil. Do not plant on a retentive soil in wet weather. 
 It is almost as necessary to keep a new plantation clean for two or three 
 years as it is to keep the nursery clean. 
 
 Locust seed is difficult to vegetate, owing to the very ^ard shell which 
 encases the meat. If it is gathered in autumn and mixed with sand, and 
 kept moist, exposed to the weather till spring, it will grow ; or if it is soaked 
 several days in hot water just before planting, it will grow. Instead of using 
 hot water, you may nse boiling hot lye, and plant the seed at once, and it 
 will vegetate and grow immediately. 
 
 Evergreen seeds may be treated as follows : Keep the seeds of arbor vitse 
 dry and cool till spring, and then plant in fine leaf mold in a shady place. 
 Norway spruce seed, and pine, hemlock, and juniper, should be kept in boxes 
 of sand as it comes from the bank, in a cellar, and next spring plant in shady 
 or half shady spots. If planted in sunn}' situations, the young plants are 
 apt to perish. If there is no other shade, erect an awning. The juniper 
 family do not vegetate the first year. The common red cedar seed may be 
 made to grow by scalding. 
 
 The midberry, which is also rapidly multiplied from seed, was first grown 
 in England in the reign of James I. 
 
 The white larch, now very abundant, was accidentally taken to Scotland 
 in 1737. Mr. Menzies, of Culdare, having ]irocured four of these plants from 
 Siberia, gave two to the Duke of Athol, which are still in full vigor at Dun- 
 keld, and may be called the parents of all the larch-trees in the kingdom. 
 
 The plum-tree was brought from Asia in 15S0. The cochspur havothorn 
 in 1692. The maple-leaved hawthorn was introduced into England from 
 America in the year 1783. A beautiful variety of the alder was first culti- 
 
Skc. 51.] AN ORNAMENTAL MEDICINAL -TREE. 855 
 
 vated in the year 17S0, being brought from Switzerland, Siberia, and other 
 cold countries, and the cedar in 16G4. Now look at all of these trees in 
 England — how extensively they have spread ! " Why," said one to an old 
 man who was planting acorns, " why do you plant things that never can 
 benefit you ?" " Because I wish to leave the M'orld better than I found it. 
 If others had not planted trees, I should not have enjoyed their delightful 
 and agreeable shade. I plant trees, that others may have the same pleasures, 
 and sit beneath their outstretching and shady branches. The man who only 
 lives for himself and his lifetime without adding his mite to human enjoy- 
 ment, is worse than the veriest miser ; the one leaves his riches, the other 
 nothing but his bones — and those dry and withered." 
 
 Is that not a sufficient incentive to every good man to plant trees — at least 
 one acorn ? 
 
 946. How Seeds are Diffusedi — Many seeds arc supplied with a feathery 
 arrangement, which enables them to rise in the atmosphere and diffuse them- 
 selves over creation. This is the case with some of the forest trees, the seeds 
 of v.-hich waft \ipon the wind many miles. Others are water-proof, and float 
 away upon the water. But what if all seeds should grow? Our farms, with 
 all our care, would become a wilderness. 
 
 947. A Rare Ornamental and Valuable Medicinal Tree. — ^Eare only because 
 it is rarely used for ornamental purposes ; yet it is uncommonly beautiful, 
 of rapid growth, and hardy, and easy to transplant from its native woods, 
 where it abounds in all the States south of latitude 41°. This tree is famil- 
 iarly known as the Sweet Gum — an accidental name given to distinguish it 
 from the Sour or Black Gum {tupclo'), which is also known in the New Eng- 
 land States by the name of Pepperidge. The scientific name of the Sweet 
 Gum is Liquid Ambar. Both names are appropriate enough. The tree 
 exudes a white wax, odoriferous and soft, which hardens and grows dark, 
 somewhat like amber, by exposure to the air. The tree is one of the very 
 cleanest, so far as regards insects, and its effects upon the earth or air where 
 it flourishes most abundantly, with the exception of covering the ground 
 with its curious fruit, which is about the size of medium " button-balls," the 
 fruit of the sycamore {Plcmus occidentalis). Tliese balls are full of honey- 
 like cells that contain the seeds, which may be planted like those of the pine 
 family. 
 
 Michaux, the author of that great work the " North American Sylva," 
 spoke of this tree as far north as Portsmouth, N. H., but we have rarely seen 
 it north of the city of New York, where some native trees arc in Jones' 
 Wood ; it is quite abundant in New Jersey, and especially so in all the 
 cotton-growing States. It abounds also in Kentucky, Ohio, Indiana, and 
 Southern Illinois. It is held in very low repute as a timber tree for the 
 farmer's use, though it would make good boards for many purposes. 
 
 It is for shade and ornament^ alone that we call attention to it, and in that 
 respect it is deserving of special notice. It is also of great value as a medi- 
 cinal tree. It is esteemed where best known as an infallible specific for all 
 
85G FORESTS AND FENCES. [Chap. XI. 
 
 complaints of the nature of diarrhea, for the treatment of which a tea is 
 made of the bark. From what we personally know of its value in such 
 cases, we can not speak too highly of it. 
 
 Hovey, in speaking of this tree, and recommending it, in his magazine, 
 says: "The sweet gum forms a large tree, having somewhat the appearance 
 of a maple, from thirty to fifty feet high, according to the soil and latitude 
 in which it gi'ows; the trunk is straight, nearly uniform in thickness, to the 
 hight of twenty feet or more, where its branches begin to diverge. The 
 bark of the trees while young is nearly smooth ; but as they acquire size and 
 age it becomes tiiick and deeply furrowed, the secondary branches being 
 covered with a dry, flaky bark, the plates of which are attached at the edge 
 and not on the face, as in otiier trees. The leaves are smooth and of a yel- 
 lowish green, varying in size from three inches to six inches in diameter, 
 and they are palmate, that is, they are divided into four deeply cut lobes, 
 resembling in shape a star. The male and female flowers appear on the 
 same tree, the former being rather inconspicuous, while the latter are oval 
 catkins one and a half inches long. These appear in March or April, and 
 are succeeded by a globular fruit, bristling with points, and containing one 
 or two small, blackish, perfect seeds. The leaves cliange to a deep red, or 
 almost an orange scarlet, immediately after the first frosts, and keep their 
 brilliant color for some time. As the tree is so extensively distributed, so it 
 is found in all varieties of soil, from the dry and gravelly bights of the ]!^orth 
 to the deep river bottoms of the South and West. On the nnpropitioiis 
 soils it usually does not grow more than twenty or thirty feet high, but in 
 favorable localities it attains its amplest dimensions. Michaux measured a 
 tree which he found growing in a swamp in Augusta, Ga., that was fifteen 
 feet in circumference, with a summit in proportion to the size of the trunk." 
 
 The shape of the leaves is much like that of the maple, and the tree is 
 equally hardy and valuable for a shade-tree. When planted in open ground 
 it branches low and forms a spreading top. In England, where it has been 
 introduced as a rare foreign tree, it is much admired. If better known, we 
 think it M'ould be popular here. It might, at least in part, take the place 
 of the omnipresent ailanthus. 
 
 94S. The Elder — its Virtue. — It is free of insects, and ornamental. It was 
 stated in England, more than sixty years since, that no insect or worm ever 
 harbors upon the common elder {Samlucus), and that it is a protection to all 
 other plants when grown among them. It is stated also that elder leaves 
 scattered upon insect-infested plants will tend to drive away the pests. 
 
 As a well-trained elder, grown like a tree, is really an ornamental shnib, 
 Avhy not try to grow plums in juxtaposition with the elders? If the plums 
 failed, you would have the elderberries, which make better wine than most 
 of the sniall fruits nsed for tliat purpose. 
 
 949. The Sumac. — We perfectly agree with Wilson Flagg, in an article in 
 IIovcy''s Magazine, that sumacs are, among our New England scenery, some 
 of its finest ornaments. The foliage is beautiful in summer, and tiien come 
 
Sec. 51.] THE HAZEL. 857 
 
 its bright crimson cones and green leaves; tlien its rich crimson tints in 
 autumn, and lastly, the spikes of red berries, that remain after all the high- 
 colored leaves have blown away. There are several varieties of sumac in 
 this country. Mr. Flagg says of that called " Staghorn" {lihus typhina): 
 " This shrub rises to the dignity of a tree in favorable situations." Yes, to a 
 dignity, in Mississippi, of a tree that is used for common split fence-rails, at 
 least two ten-feet cuts to a tree. Of another variety, the lihus radicans, Mr. 
 Flagg says : " Its habits are very similar to those of the Virginia creeper 
 {A?n.pclqpsis), though it seems to have more tenacity, and to fasten itself 
 more permanently to the objects it embraces. It seems to be almost parasitic 
 in its habits ; though I believe a branch will not survive the severing of the 
 connection between it and the root. The numerous radicles with which it 
 penetrates the surface of trees and fences, seem adapted onl}' to support, not 
 to nourish, the plant. I regard this as one of the most beautiful woody vines 
 among our indigenous plants. Some may be inclined to give their prefer- 
 ence to the creeper ; but the foliage of the creeper is not so elegant, nor 
 does it invest the object on which it clambers with so close and compact a 
 mass of foliage. It would hardly be advisable, however, to encourage its 
 growth, on account of the liability of many persons to be injuriously affected 
 by contact with it, though it possesses these noxious properties in a less 
 degree than the poisonous dogwood. The leaves are in threes, and by this 
 arrangement are readily distinguished from those of the creeper, which are 
 in lives. So small is the danger t'rom this plant, that I should never advise 
 one to destroy it in a favorable spot, when the difierent objects were fes- 
 tooned with its beautiful green foliage." 
 
 This is the plant commonly known as poison ivy, that is so frequently to 
 be found enshrouding an ugly old wall, and giving it the appearance of a 
 live hedge. Its poisonous qualities are not very objectionable. As an orna- 
 mental plant, it is valuable. See where it hides old walls, stumps, and dead 
 trees, making ihem look alive again. See how it may be used to train over 
 hedges or blank walls of buildings, or cover the boles of tall trees. It is a 
 plant to be used, not despised nor eradicated. 
 
 950. The Hazeli — Of all other common bushes — so common as to attract 
 little notice — the hazel {Cori/lus Americana) is the most neglected shrub, 
 while one of the most worthy of cultivation. Such a modest little bush, too, 
 willing to accept as its share of earth's surface the corners of zigzag fences, 
 or sides of stone walls, or little nooks about the rocks where the plow can 
 not reach. Sometimes the woodland edges are still further bordered out 
 with hazel, sometimes growing boldly out into grass or up to the corn-rows, 
 and sometimes tapering down from the tallest bushes to mere little timid 
 twigs. This is the bordering of many of the prairie groves ; and often we 
 find far out in the sea of grass a solitary oak, surrounded with a flourishing 
 plantation of hazels, invariably standing as a living declaration to the home- 
 seeking emigrant, that here he will find a rich, loamy soil, for in such the 
 American hazel flourishes, and in suitable soil it is found in all the Northern 
 
858 FOREST AND FENCES. [Chap. XI. 
 
 and Middle States. Instead of despising and trying to eradicate this pretty 
 litile shrub, we ■would extend its growth by cultivation. As a border of 
 lawn walks, or for a separation of plats, wliere a high screen is not required, 
 it is the best that we kno'vV ; for it is a clean-growing one, and can be kept, 
 by cutting out the old wood, continually sending up its new, straight shoots ; 
 and then it is one of the first in spring to put forth its beauties ; and what 
 more pleasing sight than its fruit-loaded branches, except it is the squirrels 
 and children that are eqnally attracted to gather its sweet nuts. We really 
 wish that every unsightly fence or stone wall along the country roads were, 
 as some of them in New England are, hidden with hazel bushes. It need 
 not be said that such thickets would harbor the birds ; it is just one of the 
 purposes we wish to jiromote. 
 
 951. To Prevent Forked Trees Splitting. — J.T. Moxley, Sheboygan County, 
 "\7is., recommends to twist or wind together a few of the smaller limbs above 
 the fork, which will grow in that position as the tree increases in size, and 
 form a natural brace. He states that he has treated many trees successfully 
 in this manner. We have prevented forked trees inclined to split, and 
 even secured those that had alreadj' commenced to part, by boring through 
 with au inch auger and driving in a strong wooden pin. A small iron bolt, 
 with a head on one end and a nut on the other end, is even better. The new 
 growth will soon cover the pin or bolt. 
 
 952. Timber Made Durable. — We have often seen it stated, that timber to 
 be used for ax-helves, flails, mallets, ox-bows, axles, etc., in German}', i? 
 soaked several days in a strong solution of stable manure, and then smoke- 
 dried, which greatly toughens and adds to its durability. As the process is 
 BO simple, we advise every one to try it for himself. 
 
 953. Use and Value of Basswood Bark. — The linden {Tilia Americana), 
 which is more known under the name of basswood-tree, is a valuable as 
 well as beautiful tree — beautiful as an ornamental tree, and valuable for 
 timber, and its bark, out of which bass matting is made. This article is 
 imported and used extensively in place of our native stock, we "Suppose, 
 because people do not generally know how easy it is to prepare the bark for 
 use. It is simply to take the whole bark as it peels from the trees when the 
 sap flows freely, stiy about June in this latitude, and sink it under water 
 until the liber (inner bark) will peel and separate easily from the coarse 
 bark. This soft, tough substance is then dried and stored away for future 
 use, and the purposes to which it can be applied are almost numberless. 
 
 95i. Value of the Ailanthus in Sandy Wastes. — This tree is good both for 
 fuel and timber, and one of the most rapidly grown in the Northern States, 
 and it has been demonstrated that the most sandy wastes can be re-clothed 
 with trees by planting the ailanthus. Upon a bare, sandy plain, where 
 neither trees nor grass now grow, we are confident that ailanthus-trces 
 may be planted, with only a wheel-barrow load of rich loam to a tree, and 
 that in ten years the growth would not only be such that it would hide the 
 desolate barrenness of the land, but would make it of a salable value. 
 
Seo. 51.] 
 
 THE ECONOMY OF FUEL— WOOD vs. COAL. 
 
 859 
 
 955. The Economy of Fuel— Wood vs. foal.— The following table shows the 
 relative value of difl'erent kinds of M'ood for fuel : 
 
 Shellbark Hickory 100 
 
 Pig-iiut Hickory 95 
 
 White Oak 84 
 
 White Ash 77 
 
 Dogwood 75 
 
 Scrub Oak 73 
 
 White Hazel 72 
 
 Apple Tree 70 
 
 Red Oak 69 
 
 White Beech 65 
 
 Black Walaut 65 
 
 Black Birch 62 
 
 Yellow Oak GO 
 
 Hard Maple 59 
 
 White Elm 58 
 
 Ked Cedar 56 
 
 Wild Cherry 55 
 
 Yellow Pine 64 
 
 Chestnut 52 
 
 Yellow Poplar 52 
 
 Butternut 61 
 
 White Birch 43 
 
 White Pine 40 
 
 Although all trees of the nature of hickory, tlie fibers of which are densely 
 packed, giving great solidity and weight, compared with pine or other 
 light woods, are the most valuable for fuel, there is a great difference in the 
 value of wood of the same variety, owing to its manner of growth and nature 
 of soil where it grew. Trees which grow in forests or in rich wot grounds 
 are less consolidated than such as stand in open fields, or grow slowly upon 
 dry, barren soils. Tliere are two stages in the burning of wood — in the fii-st, 
 heat -comes chiefly from flame ; in the second, from red hot-coals. Soft 
 woods are much more active in the flrst stage than hard, and hard woods 
 more active in the second stage than soft. Tlie soft woods burn with a volu- 
 minous flame and leave but little coal, ■while the hard woods produce less 
 flame and yield a larger mass of coal. 
 
 The purpose, however, for which it is needed, must bo considered. A 
 thorough white pine, compared to hickory, is only as 40 to 100 for heat. If 
 a quick fire be needed for immediate warmth, or kindling for coal or other 
 wood, the pine is most suitable. For kindling coal fires, we have always 
 found a mixture of hard and soft wood good economy. 
 
 Speaking of coal, is it economy for a farmer to burn it? It is a question 
 worthy of consideration. It is one that we have already considered, and it 
 has made us wonder at the error of some old farmers in the vicinity of tide- 
 water and railroads, where coal can be had at a low rate, compared w-ith the 
 selling value of wood. They stick to the old-time fashion of days wlien 
 wood was the only fuel, and maintain wood lots upon land worth $200 or 
 $300 an acre, to furnish their annual supplies of back logs and fore sticks, 
 with as much pertinacity as though their lives depended upon nothing but a 
 sufliciency of firewood. Do such men ever think of relative value? Prob- 
 ably not. Let us show them what we think. 
 
 A tun of anthracite coal (2,240 pounds) measures 28 bushels. Its average 
 cost at tide-water may be taken at $5 a tun, and hickory wood at $8 a cord. 
 The coal is fully equal to two cords of wood of the best quality, and we do 
 not know how many cords of such wood as we often find for sale, or such as 
 farmers use, which they could sell at $4 or $5 a cord. No man in the vicinity 
 of New York can afford to keep woodland or burn wood as a common fuel. 
 Prof. Mapes contends that a man can not afford to keep arable land in the 
 
860 FORESTS AND FENCES. [Chap. XI. 
 
 vicinity of this city, or any other high-priced locality, in apple-trees, much 
 less in forest trees, except just so far as may be agreeable for shade and or- 
 nament — certainly not for the purpose of growing fuel. No man can afford 
 to hire men to cut and haul wood, and prepare it for the stove or fire-place, 
 if it had no other value, where coal is not more than $6 or $8 a tun. 
 
 The most of the farmers in the forest-denuded portions of the country 
 have to haul their fuel, on an average, one mile ; and if it is valueless where 
 it is growing, it will be worth at home, when cut and piled under cover, at 
 least $2 a cord ; and iu many cases counting the value at which it could be 
 sold in the forest, and actual cost of labor, it will be worth $3 to $5 a cord, 
 fitted for the stove. Now if good anthracite, or bituminous coal can be 
 delivered, as it often is to the farmers twenty or thirty miles around New 
 York, at $6 a tun, a farmer can not aiford to burn his own wood, because coal 
 will cost the least money. "Wherever woodland is valuable, cattle should 
 be fenced out, and paths located so as to drive through without destroying 
 young trees, and proper care exercised in cutting fuel or timber trees. 
 
 As to giving up the old worm-fence, there is no hope of that as long as 
 there are ton trees to an acre ; but certainly we can economize by having 
 fewer divisions, fewer fences, and straighter worms. And we can economize 
 in other ways — we can cut our timber at the season when it will be found 
 most durable, and we can select timber the least valuable for fencing, and 
 leave the best for more important uses. It is not only necessary for farmers 
 to study economy in fuel, as to what shall be used, but if it is to be wood, 
 then practice economy in growing and preserving a suitable supply. 
 
 9oG. How Should Fue! be Seasoned? — ^The almost universal way of piling 
 wood is not the best way to season it. Some kinds, if laid upon the ground 
 at the bottom of a pile, will never season — they will rot. That is the case 
 with Cottonwood upon the Mississippi bottoms. Everywhere the bottom 
 sticks of a pile are less valuable than the top ones. For this there is a 
 remedy. Take nature for a guide and set our fuel on end, when we desire 
 it to season. 
 
 The following plan is an excellent one to season fuel or to store it, as rail- 
 ways sometimes do, to keep several years : Commence with medium-sized 
 sticks set two and two along in a row, leaning together, spread w'ide enough 
 apart at the lower ends for a good-sized dog to run between them. Con- 
 tinue to lean up sticks outside until the rick is five or six feet wide, with the 
 top ends always down. Now lay on the top a few sticks lengthwise to form 
 a ridge, and then commence to shingle your pile with split wood, with which 
 you can easily form a roof almost water-tight enough to prevent any rain 
 from wetting the pile below. Tiiere is no position in which fuel will season 
 quicker or keep better, remaining sound and dry, and actually increasing in 
 value, instead of constantly deteriorating as it does in cord- wood piles. 
 
 Do not continue the old way with no better argument for it than this : 
 " It is the way my father did, and he says his father always did so ; and I 
 guess if it was not right they would have found it out." 
 
Sec. 52.] 
 
 STATISTICS OF FENCING. 
 
 861 
 
 This declaration is the end of all argument. It is a bold son that dares to 
 do US liis father and his father's father never did. Yet, in this matter of 
 seasoning fuel, he should have courage and shake off the shackles of prece- 
 dent, and get out of the old hard path of our very respectable (in their time) 
 old-fashioned grandfathers. 
 
 957. Wc Should Plant Trees to Grow Fuel. — "Wherever laud is sparsely 
 ■wooded, farmers should plant ti'ees for fuel as certainly as corn for bread. 
 The most r^pid growing trees should be selected, such as ailanthus, locust, 
 sycamore, and chestnut. Peach, we have already mentioned (635), and 
 doubtless other fruit trees may be profitably grown for fuel. The ailanthus 
 and sycamore are both good fuel trees, if the wood is properly seasoned. 
 
 SECTION LII.-FENCES.-THE COST OF FENCING ; LAWS KEGULATING ; 
 KIND OF FENCE MOST ECONOMICAL; KYANIZING FENCE POSTS; 
 FARM GATES ; HEDGES ; WIRE FENCES ; STONE AVALLS. 
 
 C 
 
 - ALCITLATIKG the cost of fencing is the only way 
 that we can arrive at improvements in its economy. 
 Those who have never considered the subject can not 
 believe the facts ; such, for instance, as that published 
 by K"icholas Biddle, made from careful estimates, that 
 the "fence tax" of Pennsylvania is ten millions of dol- 
 lars a year ; or that of P. L. Pell, that the farm fences 
 of the United States cost $1,350,000, and that the an- 
 nual charge ujjon farms to maintain fences is equal to 
 $250,000,000 per annum. These are startling statements, 
 but who can show that they are not facts ? Tliey are at 
 least worthy of consideration from all farmers. lion. 
 Joseph Blunt, who was a very observing man, and dur- 
 ing all the latter years of his life devoted a great deal of attention to the 
 question of improvements in farming, estimated that there were in the year 
 1S59, in the State of ISTew York, 15,000,000 of acres under fence, and that 
 this area was divided into 750,000 fields, requiring 120 rods to each field, 
 making 90,000,000 of rods of fencing in the State. 
 
 He calculated the average cost of the fencing at the very low rate of 
 seventy-five cents a rod, and that the average duration Avas not over ten 
 years. His estimate makes the first cost .$67,500,000. Interest and annual 
 repairs may be reasonably calculated on the cost at ten per cent., whicli 
 makes $6,700,000. Dividing the cost of renewal through ten years, makes 
 a like sum, and gives an annual cost for fencing the State of New Yoi-k, 
 $13,400,000. 
 
862 FORESTS AND FENCES. [Chap. XL 
 
 Hou. T. C. Peters, of Darien, Genesee Co., wlio as one of the State assess- 
 ors lias had gr«at opportunities to obtain facts in relation to farm fences, 
 made tlie tbllowing calculations, which were presented to the State Agri- 
 cultural Society, October, 1S62. He had devoted much labor to the calcu- 
 lation, because he thinks it necessary to enlighten farmers upon the subject 
 of legislation in relation to fences, as the time is rapidly approaching when 
 sonietliing must be substituted for rails, or else a diiferent system adopted 
 with stock. 
 
 In calculating the length of road fences, he assumed that the average is 
 one mile of road to each mile square of land in the State, and Burr's Atlas 
 makes the area over 28,000,000 acres. 
 
 The State census gives : Improved acres, 13,657,490 | unimproved acres, 
 13,100,692 ; total, 26,158,782. 
 
 The town assessors make the area about 1,000,000 more. Mr, Peters 
 divides the State into four districts, to show the waste lands in each. Thus : 
 
 1st District — IS'orth of the Mohawk Valley, and west of the line from its 
 mouth to the north line through Lake Champlain. 
 
 2d District — East of that line, and east of the Hudson, including Long 
 Island and Staten Island. 
 
 3d District— South of the Mohawk and east of the Chenango, including 
 all the Catskill Mountain range. 
 
 •itii District — All the remainder of the State. 
 
 He allots to each division the following number of acres of waste land : 
 1st district, 6,000,000; 2d district, 1,250,000; 3d district, 1,250,000, and 
 4tii district, 1,500,000, making a total of 10,000,000 acres, still leaving 
 2,000,000 acres unaccounted for in and around cities and villages, which will 
 give a remainder of 18,000,000 of acres of inclosed lauds to bear all the 
 burden of taxation for fences and roads, and will give, upon the calculation 
 assumed, a mile of road to 640 acres of land, say 28,000 miles of highway 
 and 56,000 miles of roadside fences. Assuming an average width of road 
 of four rods, there are 224,000 acres occupied by the public roads of this 
 State. 
 
 The average cost of fence is $1 a rod, and cost of annual repairs equal to 
 the interest upon another dollar. Supposing the average value of improved 
 land in the State to be $40 an acre, it makes the interest $2 SO an acre, or 
 $22 40 the square mile. 
 
 Cost of road fence per mile $640 00 
 
 Capital required for interest and repairs annually 640 00 
 
 Interest per square mile as upon improved land, for that occupied by roads 22 40 
 
 Total $1,302 40 
 
 The total 28,000 miles of road-fence cost $17,920,000 00 
 
 Annual interest 1,254,400 00 
 
 Interest on capital of sum necessary for repairs 1,254,400 00 
 
 Annual cost of fencing the highways $2,508,800 00 
 
 Interest on value of land used and wasted for roads 616,000 00 
 
 Total annual cost of roads, besides labor of repairs $3,124,800 00 
 
Sbo. 51.] STATISTICS OF FENCING. 863 
 
 The estimated average size of farms in this State is 100 acres, and the 
 average size of the divisions of the farms ten acres. This requires 800 rods 
 of fencing to each farm, which at $1 a rod makes $8 an acre as dead capital 
 per acre, if we could devise some plan of carrying on farming without 
 fences. Upon this basis, the total cost of fences in the State is $li-i,000,000, 
 and the annual charge upon each farm, estimating them to average 100 
 acres, is $56, and it requires the interest of an equal sum to keep the fences 
 in repair, making an annual fence tax of $1 12 an acre upon all the culti- 
 vated lands in the State, wliile all the State, county, and local taxes of the 
 rural portion of the State are only 33 cents an acre. 
 
 This presents an array of figures well worthy the attention of all farmers 
 who would understand the enormous amount of the fence tax. 
 ' John J. Thomas, of Cayuga County, thinks Mr. Peters' calculation too 
 low ; he lias carefully estimated the highways, by the large and by local 
 maps, at 60,000 miles, and 120,000 miles of highway fence in the State. 
 
 Is this enormous expenditure necessary? If it is, the burden must be 
 borne. "Will farmers inquire whether nine tenths of it could not be dispensed 
 with most advantageously to the owners of the land, dispensing with many 
 other items of cost which are incidental to the present system ? 
 
 In no other country in the world is the fence tax so onerous as in this. 
 Our fence system has been gradually engrafted upon the people by acci- 
 dental circumstances, growing out of the necessity of early settlers, who 
 fenced around the first cleared field, and let the stock run in the woods. 
 Laws made at first to protect such settlers have been continued, and men 
 educated to bear the heavy burden they have entailed, until they appear to 
 love tlio law, or rather the custom that forces them to pay such a penalty. 
 
 The universal custom, and not the law — for really there is no such statute 
 — has led men to believe that every owner of land is bound to fence all the 
 world out, and that it is no trespass upon the rights jjf property to enter 
 ujjon any uninclosed lot and despoil it of half its value. 
 
 To the cost of fencing should be added a very large sum in damages to 
 railroad trains, which run over cattle wandering at large on the highways. 
 Sometimes the value of human lives must be added to the account. To 
 this add stock lost by accidents and straying, and the loss of costs of litiga- 
 tion about fences ; also, expense of pounds, besides the ill-will and quarrels 
 about stock on the highways, and trespassing upon neighbors' fields. 
 
 Indeed, the expense of the fence system is almost beyond calculation, and 
 its evils illimitable. One of these is the actual keeping out of cultivation of 
 millions of acres of good land. Let us look at a case. 
 
 If the law, or custom, wliich is stronger than law, were for every man to 
 keep Iiis own stock within liis own boundaries, instead of fortifying himself 
 to keep everybody's stock out of liis fields, a poor man could go upon the 
 "Western prairies without a dollar of capital and take up public land and 
 hire it plowed, on credit, to be paid for out of the crop or by his labor, and 
 thus could in a few years become the owner of a good farm. He is kept out 
 
804 FORESTS AND FENCES. [Chap. XL 
 
 of this enviable position, because custom requires him first to fence his fields, 
 and then plant them. To do this is impossible without capital. The lowest 
 cost would be one dollar a rod, making the expense of inclosing an eighty- 
 acre lot four hundred and eighty dollars. In many places it will cost twice 
 tliat. Then custom requires division fences, say four twenty-acre lots, mak- 
 ing a total of seven hundred and twenty dollars for fencing a lot of land that 
 cost but eighty dollars for the soil. 
 
 The pasturage of all the stock which tlie owner of such a lot should keep 
 is not worth the interest of the cost of fencing and annual repairs ; and this 
 is true of a million of acres in this countrj-. Take that of the autlior, for 
 example. It consists of eight acres of the rough but costly land of West- 
 cliestcr County, ten miles north of the Central Park of New York. It is 
 bounded on two sides by highways, requiring 1,375 feet of fencing, and on 
 the other two sides it joins two cattle-pasturing neiglibors, requiring 530 feet 
 more fencing for the half that the law of tlie State of Xew Yorkcompelsan 
 owner of the land to build, whether lie lias any use for it or not. To build 
 such a stone wall, which is the common fence of the country, as any man of 
 taste would be willing to have near his dwelling, is worth twenty-five cents 
 a foot, making the first cost four hundred and seventy five dollars for an 
 outside fence, for which the owner has no use whatever. And this creates 
 an eternal tax for interest and repairs, which at ten per cent, is forty-seven 
 dollars and fifty cents a year, or nearly six dollars an acre — an annual tax 
 of two per cent, of the salable value of the land, inflicted upon me by law 
 and custom for the benefit of some poor neighbor who pastures his cow and 
 geese and pigs in the highway, upon land he does not own. In effect he 
 says: "The law, or rather custom, protects me, and you have no business to 
 prevent my enjoying a j)rivilege that I have always enjoyed^ It is your 
 business to keep your fences up and gates shut." And if I do not, he will 
 rob me as literally, as the Iiigliwayman who says, "Your money or your 
 life!" and of the two, the highwayman is the most honest. 
 
 The division fence that I am compelled to build is equally onerous. It is 
 utterly useless to me. I never shall allow cattle to run at large on my side. 
 If my neighbors do, the}' should build the fence to hold their own cattle; it 
 is not right to tax me with the cost offence built solely for their use. 
 
 958. Laws Refatiiig to Fencing llighwajs. — Statute laws do not require 
 land-owners to fence higliways. It is the law of custom — a custom that has 
 been so long in use that many persons suppose it is law. The whole system 
 is founded upon error. The law does protect property ; it can not take it 
 away from any owner, except for public necessity. It never takes it from 
 one owner to give it to another, as it would if it authorized one man to pas- 
 tsro his cattle upon another man's land. ,The owner of land along a high- 
 way owns all liut the right of the public to use it as a thoroughfare. No 
 law can constitutionally give another man the right to mow or pasture the 
 grass, nor compel the owner to fence out the cattle of others. His business 
 is to fence his own cattle in. He has no right to let them run out upon the 
 
Sbo. 52.] LAWS RELATING TO FENCES. 865 
 
 highway, because tliey might obstruct travelers, who have a right to the 
 whole roadway, to travel over it unmolested. If one jjig is allowable, a 
 thousand are, and who so blind as not to see that a thousand swine in a nar- 
 row lane would effectually blockade it against all travelers. And if one 
 man can legally turn out one old cow to forage for her living upon the road- 
 side, he may turn out a whole herd of bulls, which would break over any 
 fence that a land-owner would build, and ravage his whole farm. 
 
 It is not law, by any enactments of any legislature, that any man may 
 pasture his cattle in the highway, and it lias frequently been decided by 
 courts in different States, that the owner of land could recover damage of 
 the owner of cattle, fence or no fence. It is custom, and a wi'ong practice 
 long submitted to, that needs improvement. The idea that cattle can bo 
 lawfully turned out upon the highway is injurious to the great agricultural 
 interest of America, and shows a dishonest principle in whoever puts it in 
 practice. 
 
 Is there any difference in a moral point of view between sending chil- 
 dren or cattle out iipon the highway to forage upon neighbors or travelers. 
 A man has no more right to educate his cattle in dishonest practices than he 
 has his children, and public opinion should condemn one as well as the other. 
 If an owner of a dog taught him to steal, the man would be held respon- 
 sible as a thief, and the dog killed. The same rule should be applied to all 
 animals. A thieving liog should be no more allowed to live than a thieving 
 dog, nor his owner escape responsibility. 
 
 We can conceive but one greater nuisance in a neighborhood than a hog 
 that is always on the watch for an open gate or hole Avhere he can thrust in 
 his nose and root a way into mischief, and that one greater nuisance is his 
 owner. Every citizen should bo made to feel that the law protects the 
 owner of land as well as of houses, and that it is just as much a trespass to 
 enter one as the other. 
 
 Domestic animals should all be made more domestic. It is the best way 
 to save expense in fencing. It is a duty that we all owe one to another, to 
 make this suliject of fencing better understood. What it costs and what the 
 law is, not what has beon customary in regard to liighway fences, should be 
 matters of constant thought and frequent discussion in all farmers' club 
 meetings. 
 
 959. Laws relatias; to Division Fences. — In the State of New York, by 
 enactment of April IS, 1S3S, there is a most absurd and wicked law in rela- 
 tion to division fences. It is absurd, because it fixes the form, style, and 
 strength of the fence to suit a peculiar condition of things in one place that 
 is entirely inapplicable to another. It is wicked, because it compels one 
 owner to build fence wholly for his neighbors' benefit, and declares that he 
 shall not be entitled to any damages for trespass from his neighbors' cattle 
 unless he maintains his part of the division fence in a strictly legal condition, 
 whether his neighbor does or not. 
 
 In several States, the " lawful fence" is such a one as not one farmer in a 
 
866 FORESTS AND FENCES. [Chap. XI. 
 
 hundred ever builds. If it lacks an iota of what " the law requires," it is no 
 trespass to break over it and steal ; that is, suffer the animals that should be 
 domestic, but are not, to take that which does not belong to them. Such 
 laws are wicked, because they are intrinsically unjust, and promote neigh- 
 borhood quarrels, and in more than one recorded instance have been the 
 moving cause of murders. 
 
 The law should be simply this : " Every man shall fence in his own stock ; 
 no man shall be obliged to fence his neighbors' stock out." This is founded 
 in reason ; it is common sense ; it is justice. A common-sense law upon 
 the subject of estrays, or cattle turned out upon the highway, and trespass- 
 ing animals, would be to this effect : It shall be lawful for any one to kill 
 a dog, goat, goose, or hog that comes upon his premisjs, or endangers them 
 by running at large in the highway. Any land-owner in the State of New 
 York may seize and confine any neat stock, horses, sheep, or swine found 
 on his land or near it in the highway, and hold it till the owner pays the 
 penalty and cost of keeping, and the owner has no action of recovery until 
 all charges are paid. The law should allow the taker-up to use the animal 
 while he keeps it, without charge ; or convert it wholly to his use by paying 
 its value, less the damage cliargeable against the animal for its trespass, 
 and those of the same owner in its company. All animals running without 
 keepers in the highway should be liable to seizure as trespassers. 
 
 Such a law would be good for all honest men, and would promote goo 
 morals in society. Can any honest man say that he believes it would be 
 unjust or impolitic ? 
 
 The laws of the nations in times that we call barbarous, were better 
 entitled to the appellation of " civil law," than are some of our own about 
 fences. 
 
 960. Uufeuced Commons. — There is a tract within twenty miles of New 
 York called Hempstead Plains, containing 12,000 acres of good arable land, 
 which might have been in cultivation for two hundred years, if our fence 
 laws had been adapted to a civilized state of society. Having been at first 
 set apart as a " town common," when land was of but little value, it has 
 been kept as such ever since, in the wasteful condition of a public pasture, 
 which affords not one hundredth of the value to the people it would in culti- 
 vated crops. All over the country, around every village, there are similar, 
 though not as extensive, unfenced commons, all of which could be cultivated 
 if law and custom required owners of cattle to keep them within their own 
 inclosures. 
 
 All over Europe are to be found highly cultivated districts, entirely free 
 from fences. Every foot of common land, up to the very roadside, can be 
 cultivated, and the most humble cottage upon the common can be beautified 
 with its plat of flowers. Is America so much less civilized that we should 
 give the possession of every unfenced common to hogs rather than to the 
 use of the poor laborer and his family ? 
 
 This is a fact connected with American farming that needs consideration. 
 
Sbo. 52.] KYANIZING FENCE POSTS. 867 
 
 9G1. How Fences may be Dispensed With.— First by the system of soiling, 
 which would dispense with interior fences ; saving land as well as fence ; 
 saving manure as well as time, in always having working animals and cows 
 at liand ; making animals more docile, so as to benefit the morals of farmers' 
 boys, which are apt to partake of the character of the animals, and wild 
 animals make wild men ; and trespassing animals make bad neighbors and 
 breed mischief. It is one of the reasons why fences should be dispensed 
 witli and a better sj-stem of farming adopted. Order and gentleness among 
 animals and men grow out of tlieir greater domestication under the soiling 
 system. 
 
 Six leading, distinct advantages in favor of soiling are enumerated by 
 writers upon the subject, to wit : Saving land ; saving fencing ; saving food ; 
 keeping stock in greater comfort, good health and better general condition ; 
 producing more milk ; saving the manure by which greater cultivated crops 
 are produced. To these Mr. Quincy adds three more, which he considers 
 equally important. The animals are more docile and easier disciplined ; 
 they commit no trespass, as animals at large frequently do. The business 
 of the farm can be conducted in greater order and comfort, and altogether 
 more economically. 
 
 962. Waste of Land Around Fences. — A zigzag rail fence takes up a strip 
 of land four or five feet wide, and if stake-and-ridered, the strip is about ten 
 feet wide, which takes from every hundred acres, on the average, as fields 
 are inclosed, full five acres — land whicli is rendered worse than useless ; for 
 it is a harbor for pestiferous weeds, animals, and insects, and often grows up 
 into a most unsightly blur upon the face of the farm. "What farmer would 
 willingly endure a government five per cent, tax upon the value of his land? 
 Yet this is just what he voluntarily inflicts upon himself in thus losing the 
 use of land, besides the cost of the fence. This waste of land by fencing 
 is enough of itself to condemn the whole system, if there were no other ex- 
 pense. Where land is valuable, as it is in many of the old States, crooked 
 rail fences should be discarded entirely. No farmer can afford to keep such 
 a fence upon land worth a hundred dollars an acre. If he must use rails, he 
 should build tlie fence straight, which he can do cheaply by setting upright 
 stakes, bound together by wire, to hold the ends of the rails in place. Such 
 a fence looks more pleasing to us, though the other is called picturesque. 
 It may be, but it is not utilitarian. 
 
 A board fence, although more expensive in the first outlay, would be the 
 most economical on account of its saving of land ; and on that acconnt, 
 wherever a fence can not be dispensed with, this saving should be consid- 
 ered. If a board fence is built for a permanent one, the boards should be 
 battened over every post and nailed with what are known as fence nails, and 
 the posts, unless of the most durable kind, should be kyanized, and always 
 set in a position reversed from that of tlieir growth. 
 
 963. Kyaniziug Fence Posts. — The term l-yimhing is taken from a Mr. 
 Kyan, who introduced the subject in England within the present century. 
 
868 FORESTS AND FENCES. [Chap. XI. 
 
 It consists in filling the pores of the ■wood with mineral substance, such as 
 sulphate of coppei', zinc, or iron, which act as preservatives, just as salt does 
 in meat. J. W. Fairchild, of Hudson, N. Y., kyanized posts for liis garden 
 in 1850, made of the refuse strips of a carpenter's shop, by using one pound 
 of blue vitriol (sulphate of copper) to twenty pounds of water (you must not 
 mistake pounds for quarts or gallons of water, as sometimes printed). In 
 1859 these posts were found as sound as ever. "Without the kyanizing pro- 
 cess every one -would have been rotten and worthless. Even the pointed 
 end of a small hand-stake, which had stood continually in the ground eight 
 years, was found perfectly sound. 
 
 Spruce posts, which will not last two years unprepared, remain perfectly 
 sound. Clothes-lines, or any other cordage, soaked two daj-s in the solution 
 used for the fence posts, are rendered more than twice as durable, and no 
 doubt shingles would be greatly increased in durability. Posts, six inches 
 square, need to soak ten days. Tiie kyanizing liquor must be prepared in 
 a square-sided vat made of ])lank, in a strong frame, with keys to tighten the 
 joints. A barrel would serve while kept moist. An iron vessel would cor- 
 rode. For small work a large earthen jar would do, or a vat might be made 
 of water-lime cement. A vat that would only receive the ends of fence 
 posts would answer, and it would soon pay cost upon any fiirm, where every 
 post of every description, and many other things, might be kyanized with 
 great profit. The solution must be renewed for every change of timber, by 
 adding as much of vitriol to the water as will keep it at the standard strength. 
 It makes no difference whether the timber is dry or wet, seasoned or green. 
 Standing trees have been kyanized. 
 
 964. f reosoJe for KyauizinTi — I" England, creosote has been found prefer- 
 able to either sulphate of iron, of copper, or the chlorid of zinc or of mer- 
 cury, either of M'hieh is much more expensive than creosote. Timber which 
 had absorbed about eight pounds of liquid creosote to the cubic foot was 
 apparently as sound at the end of five yeai's as when first treated. Its reli- 
 
 ' ability has been tested on quite a large scale on the Great IS^orthern and the 
 Lancashire and Yorkshire railroads (England), on which roads creosoted tim- 
 bers that have been down for ten years apjjear to bo as good as when first 
 laid. Creosote is a liqiud which may be made from the refuse of the trees 
 that make railroad timbers. It can be kept in wooden tanks in which the 
 timl)crs may be steeped s:;veral days All timbsrs for bridges, the sills of 
 buildings, and the sleepers of railroad tracks should be treated with this 
 substance, or some other equally as good. The refu-ic creosotic compounds 
 of coal oil — those which are obtained from distilled coal as well as from the 
 natural oil wells — may be as powerfully antiseptic in their nature as creo- 
 sote distilled from wood. Experiments should be made to determine this, 
 because such products are now thrown away as waste, whereas they may be 
 usefully applied to render exposed timber ten times more enduring than it 
 now is, and thus save millions of dollars to our country annually. 
 
 965. Salt and Fence Posts. — A correspondent says : " After setting white 
 
Sbo. 52.] PORTABLE PICKET FENCE. 869 
 
 oak posts, I bored into eacli about three inches above the ground with a 
 two-inch auger, at an angle of about 45°, and filled the hole with salt and 
 plugged it up. Tlie ]:>lug3 are all in, and the posts look as sound as when 
 set. I put in about one half a pint of salt to a post." 
 
 966. Feucc Posts Top Eb«1 Down. — A farmer says: "I split two bar posts, 
 side by side, out of a chestnut log eight feet long, eight inches wide, and 
 three thick, and set one but down, the other top down. At the end of ten 
 years the one set but down had rotted off, and I re-set it in the same hole. 
 At the end of si.K years it was rotted off again, and T jnit in a new one. The 
 other lasted two years longer, when it got split, and I took it out and found 
 it was about two thirds rotted off. Sixteen years ago I set six pairs of bar 
 posts, all split out of the but-cut of the same white oak log. One pair I set 
 buts down, another pair, one but down, the other top down, and others top 
 down. Four years ago those set but down were rotted off and had to be 
 replaced by new ones. This summer I had occasion to re-set those that were 
 set top down. I found them all sound enough to re-set. My experiments 
 have convinced me that the best way is to set them tops down." 
 
 The theorj' of this increased duration is, that moisture can not ascend as 
 readily when the order of growth is inverted. 
 
 967. Charring Feiicp Posts. — A writer in the JVcio England Farmer, who 
 tried numerous experiments in setting fence posts by reversing, salting, and 
 charring, is satisfied that charring did no^ood. Tliose charred lasted no 
 longer than those from the same tree not charred. Salting dry jjosts is bene- 
 ficial. Salting green ones did no good. The best thing was reversing the 
 ends. 
 
 96S. Portable Picket Fence. — The principal use of this kind of fence is for 
 hurdling; being set up zigzag, it supports itself, and is easily separated at 
 each panel. The cost is about thirty feet of lumber for ten feet, and half 
 the value of that for labor. A man and two boys can make fifty panels a 
 day. Where lumber is not worth over ten dollars a thousand feet, this kind 
 of fence could be made and sold with profit for one dollar a panel. Made 
 of oak or similar wood, it will last in good order ten or fifteen years. Tlie 
 rails are cut exactly ten feet long, of stuff three inches wide and one and a 
 half inch thick. These are bored by machinery very rapidly, twenty-nine 
 holes in each rail. The pickets are sawed square and then turned one and 
 a quarter inch diameter, at the rate of ten a minute. They are four feet 
 long, pointed. The rails are kej'ed in a frame and pickets inserted and nailed 
 in the top rail. The others are just tacked to hold them in place. If the 
 fence is to be permanent, the rails are fastened to posts. If it is to be mov- 
 able, the panels are held together by inserting a picket through the ends of 
 the rails of two panels, which holds them together. 
 
 Locust posts for this fence are sawed three by three inches at the top, 
 tapering to six inches one way. This is sufficiently strong, as the wind has 
 but little iiold of the pickets. It is sometimes called ladder fence, when 
 made with only two rails. The best form is to Tise three rails ; and sometimes, 
 
870 FORESTS AND FENCES. [Chap. XI. 
 
 for variety, every other picket only readies the middle rail. It is easily 
 moved hy panels from permanent posts. It is a good kind of fence for the 
 "Western prairies, where it has been considerably used. The machinery, in- 
 cluding saws to make pickets and bore rails costs about one hundred dollars. 
 Rails can be bored at any angle, so that pickets stand upright, while the 
 rails correspond to the form of the hillside. 
 
 969. Permaueut Fence on Soft Groundi — "We were troubled by tlie up- 
 heaval and loosening of fence posts on the soft prairie soil of Indiana, and 
 adopted the following eflective plan : We laid down a sill two feet long 
 under each post, at right angles with the line of fence just even with the 
 surface, setting the posts in the center, nailed fast and suppoi'ted by a small 
 brace each side, nailed to the sill and post. Tliis made a cheaper fence than 
 with posts planted in the ground, because the timber used was much lighter, 
 and except the sills, did not require to be of durable timber. 
 
 970. Hurdle Fence of Boards. — A plan for a cheap hurdle fence has been 
 adopted, as follows: Panels of iive narrow boards of some light timber are 
 nailed with clinch nails through battens, one on each side of the ends and a 
 pair in the middle. To make these, a mold should be made by cutting 
 gains in three timbers, two inches broader on the face than the battens, so 
 that when one is laid on the timber, the gain can be seen and the fence 
 boaids laid directly over. Then lay on the top batten and nail through ; 
 the point of the nails will rea^^through into the gains and not into solid 
 wood. These panels being lignt are easily handled, and may be set up by 
 braces on each side, or fastened to stakes driven into the ground. But a 
 better way is to fasten the ends of the panels together with wire, or with 
 hooks and staples, which arc better and not nmch more expensive. One 
 of the advantages of this kind offence is, it can be made by any farm hands 
 in winter, or at such times as out-door work could not be carried on ad- 
 vantageously. A similar fence to the above has been made of light round 
 poles, of light straight rails, and of rived slats, in panels six or eight feet 
 long. 
 
 971. Farm Gates and Bars. — "We have given several good plans for gates 
 in No. 304, and refer to the subject now maiidy for the purpose of urging 
 farmers to substitute gates for bars wherever they are liable to be passed 
 through once a month. The ditference of time in opening will pay the in- 
 terest on the cost of a gate over that of a set of bars. Where a gateway is 
 but seldom used, a board panel, made as described in 970, is a good substi- 
 tute for bars, fastening it to the fence by hooks and staples. 
 
 972. Wire Fence and Iron Fences. — Fencing with wire has not proved a 
 success. If made cheap it is not effectual, if made effectual it is not eco- 
 nomical. A good wire fence, built by Col. Capron, in Maryland, was con- 
 structed as follows: The fence was forty rods long, made of No. 9 wire, 
 attached to a permanent post at one end, and at the other end passed through 
 boles in a post to keep them in position, fastened to a stout bar a few inches 
 beyond the post. This bar was attached to a chain which passed around a 
 
Seo. 52.] WIRE FENCES AND IRON FENCES. 871 
 
 roller with a weighted lever, to keep the wires always strained. When the 
 wires expanded, the lover fell, winding the chain, and the reverse when they 
 were contracted by cold. There were but few permanent posts along the 
 line; the wires were supported at short intervals of space by strips, which 
 also supported bottom boards. 
 
 The following detailed account of cost of wire fence is made by H. F. 
 French, of Exeter, N. H. : "On the 14th of August, 1852, I put up seventy 
 rods of wire fence through the woods, using the trees for posts, occasionally 
 driving a stake where more than eight feet intervened. I used three No. 9 
 wires annealed ; the highest four feet from the grouTid, the spaces ten inches. 
 I attached the wires to the trees, partly with small staples made of the same 
 wire, and partly by sawing notches and driving nails over the wires. Four 
 of us put up the seventy rods in one day. The cows have looked through 
 each summer at my cornfields, but none broke through, and no repairs 
 have been made. Tlie cost was: 189 pounds of annealed iron wire at 6i 
 ceuts per pound, $12 27 ; labor of putting up, $4 ; nails, 25 cents ; total, 
 $16 52 — being about 23i cents per rod. To build a good fence against cat- 
 tle, I should use No. 9 wire ?io4» annealed, because it is said to be stronger. 
 Galvanized wire does not rust, but is expensive. Tlie tension of the wires 
 makes the whole strength of the fence, and to get them straight, if the 
 ground is level, stretch the wires the whole distance. A tree at each end 
 is the best post. It is almost impossible to set a stone or a wooden post that 
 will not yield to the constant strain. If you set posts, set them very deep, 
 and brace them with strong timbers resting against short posts set for the 
 purpose. To strain the wires, take a stick of sound, hard wood, four inches 
 diameter and sixteen inches long, bore two holes at right angles with a two- 
 inch auger, one near each end, and a small hole through the middle to pass 
 the wire through. Make two hjjntlspikes, say two feet long, to fit the auger- 
 holes. Secure the wire at one end, and iinroll it by trundling the coil along 
 on the ground, so as not to get kinks in it, which j-ou are sure to do in any 
 other way. Bore a hole through the tree or post, and pass the wire through, 
 leaving three or four feet spare length, and through the small hole in your 
 windlass, and wind it round once or twice so that it will not slip; then put 
 in the handspikes, and you can thus apply more power than four horses, 
 and can hold the strain steadily. Then drive a hard-wood plug into the hole 
 through the tree or post on the outside. This will hold till you take off your 
 windlass and wind the wire a few times around the end of the pin. At eight 
 feet distance along the wires drive small stakes and saw notches to receive 
 and confine the wires by nails." 
 
 An Illinois farmer says his fence of No. 7 for upper wire. No. 8 for second, 
 and No. 9 for two lower wires, built in stretches of forty rods, cost seventy 
 cents a rod, and proved effectual. 
 
 973. Flat Bar Iron Fence. — There is a kind of flat bar iron fence with 
 iron posts, made in New York by Hutchinson & Wickersham, at about 
 $1 50 a rod, that answers a pretty good purpose, and is in one respect 
 
872 FORESTS AND FENCES. [Chap. XL 
 
 superior to wire, because it is more movable ; it can be used as a hurdle 
 fence. Another kind of flat bar fence is made of Jioop-iron nailed to wooden 
 posts. 
 
 974. Ornamental Iron Fencci — The Arm mentioned above have the greatest 
 assortment to be found in the United States, of ornamental iron fence, made 
 of what is called wove wire ; that is, stout wire bent into forms to fit to- 
 gether, so that when properly connected and fastened in panels, and put 
 together in the desired lengths, a light, strong, cheap fence is formed, suita- 
 ble for 3'ards, gardens, and balconies, and is extensively used for all sorts of 
 ornamental fencing, being trimmed with cast ornaments. 
 
 Other ornamental fences are made of cast iron, in great varieties of pat- 
 terns ; so tliat iron in some shajie is very fast taking the place of wood foi- 
 all ornamental fences, and in many instances where utility and durability 
 are consulted, without reference to ornament. 
 
 975. Hedges, and Ucd^e PlautSi — The two leading plants for fence hedges 
 in this country are thorns, such as are native to the locality, and Osage 
 orange. Tlie latter is more used in Illinois than anywhere else, and the 
 former is employed for fencing in Delawaxe to a greater proportionate ex- 
 tent than in any other State. In Mississippi, and some other States south of 
 lat. 32=', there is considerable fencing done with the Cherokee rose — a very 
 rapid grower ; and when untrimined it soon takes up a strip twenty feet wide, 
 and grows as many feet higli. Of course it is a fence, and that is more than 
 can be said of thorn hedges in general. We have also seen hedges of yucca, 
 or Spanish bayonet, that were fences. The handsomest of all is the Osage 
 orange. Holly at the South also makes a handsome hedge ; it is an evei"- 
 green, and bears bright crimson berries. In Virginia there are some red cedar 
 hedges. John Taylor, of Caroline County, author of " Arator," the oldest 
 agricultural book in this country, fenced his plantation witli cedar hedges. 
 When young they were very handsome, but with age they outgrew their 
 beauty and value as a fence. Honey locust makes a hedge that certainly is 
 not handsome, though it answers tolerably well for a farm fence. As a 
 general rule, any plant that naturally grows to a tree, makes a poor hedge 
 plant. This is the case with Norway spruce {Abies excelsa), and with hem- 
 lock and white pine, which have all been tried for ornamental hedges. We 
 believe for this purpose there is no evergreen at the North -equal to arbor 
 vitffi {Thuja occidentalis). It is very hardy, and limbs thickly from the 
 ground, twenty feet high if desired ; is of slow growth and does not naturally 
 grow to a large tree, and it flourishes in almost an}^ kind of soil, if not very 
 dry. Its verdure winter and summer is handsome — much richer than cedar, 
 which wears a sort of brownish appearance, as though the foliage were dirty. 
 
 97G. Forest Tree HedgeSi— Oaks are used for hedges upon Long Island, 
 not planted and cultivated for the purpose, but permitted to grow along the 
 fence row, and lopped down by half cutting the body and bending in the 
 limbs and suflering the sprouts to grow into a thicket. It is a poor excuse 
 for a fence, very unsightly, and not very economical, as the fence row oc- 
 
I 
 
 Seo. 52.] ORNAMENTAL HEDGES. 873 
 
 ciipies a wide strip of land. In France, the wild ])ear, wild apple, malialeb 
 clieiTj, elm, beech, hornbeam, Osage orange, buckthorn, hawthorn, Montpe- 
 lier maple, scarlet oak (the hornbeam or iron wood), and tamai-ax gallica 
 are all used for hedging. 
 
 Tlie buckthorn is our most hardy and desirable hedge plant. It leaves out 
 earlj^, and no cold kills it, but it is not a certain barrier against unruly cattle. 
 
 977. Osage Orange Hedges. — The Osage orange is a native of the South- 
 western States. It grows in great abundance in a wild state in Arkansas, 
 where it takes more the form of a tree than a shrub, growing to the hight of 
 thirty or forty teet, with a wide-spreading head, for which reason it is evi- 
 dently unfitted for a' hedge, except by constant severe trimming. It has 
 been found hardy enough to stand most of the winters as far north as 
 Deti'oit, the frost only affecting the young shoots. Plants are easily grown 
 from seeds, and a quart will produce a thousand plants. The j^rincipal ob- 
 jections to the Osage orange are that it grows too vigorously, and is a most 
 greedy absorber of all the nutriment in the soil within reach of its long roots. 
 
 Charles Downing, of Is ewburg, says of his Osage orange hedge : " Nothing 
 goes through it ; and it is equally trne that nothing will grow near it. I 
 shall have to dig it up, or dig a ditch alongside of it to cut off the roots so 
 they can not destroy my valuable fruit-trees. You see how miserable the 
 row next to the hedge looks." 
 
 978. Oruamectal HedgcSi — The barberry, althea, shepherdia, mahonia, wil- 
 low, Japan pear {Pijrus Japonica), and privet are all used. For a summer 
 screen only, privet, lilac, and several other hardy bushes ; for a low screen, 
 currants answer, and so do several kinds of roses. 
 
 In setting hedge plants, the very first step is to deeply trench the ground, 
 and unless the soil is naturally rich, Avork in some well-rotted manure — that 
 composed of leaves is excellent. We would not cut away the tops either 
 before or immediately after setting the plants in the hedge row, because we 
 think they will take root more firmly with the tops on than off, and if cut 
 away the next spring, will grow so much more vigorously that they will 
 make a hedge quicker than by the other course. Six or eight inches a year 
 is all that you can safely increase a hedge. The clipping in May must be 
 what persons unacquainted with the business would call very severe, leaving 
 but a mere framework of stubs of branches. 
 
 979. Stone Wall Fences. — ^The author does not advocate their general 
 adoption, though often hearing the remark, that "stonewalls are the only 
 permanent fences." When very expensively built, they are permanent good 
 fences against all stock but sheep, but, as a general thing, are not per- 
 manent beyond the age of the generation in which they were built. The 
 great Northern power that forms icebergs, and uplifts and carries off rocks 
 of a thousand tuns' weight, lifts up and throws down stone walls, however 
 firmly built ; and then there is nothing meaner in tlie fence line than a mean, 
 old, tottering stone wall. It is mean looking and a mean thing to depend upon 
 as a fence. Sheep walk over it ; hogs crawl over it ; cattle push it over ; high 
 
874 FORESTS AND HEDGES. [Chap. XI. 
 
 winds sometimes make gaps in it, and frost often does ; and when very old, 
 it requires constant watching and frequent patching. The first cost of a 
 good stone wall, fit to be called a fence, will be from three to ten dollars a 
 rod, probably averaging twenty-five cents a foot in length. 
 
 One of the strongest arguments used in favor of building walls, particu- 
 larly by farmers who divide up their land into four-acre lots, is " to get rid 
 of the stone." As a general thing, they had better bury them where they 
 would servo as under-drains. Stone walls waste land. Each one occupies 
 a strip five feet wide, and it is not unusual upon pretty well cultiviited New 
 England farms, to find the earth, by repeated plowings, heaped up along 
 each side, three or four feet wide, and occupied by bushes or briers, so that 
 counting the wall two feet, and two feet each side, there is a width of six 
 feet of land lost at each fence. If we calculate one half the contents of this 
 strip around a ten-acre lot, for the portion chargeable to that side of the 
 fence, we find the account stands thus : The equilateral sides of a ten-acre 
 lot are 220 yards — 660 feet long, making 2,6i0 feet around, which multiplied 
 by half the width of the wasted wall strip, gives 7,920 superficial feet to be 
 deducted from 435,600 feet, the contents of the ten acres. This is exactly 
 one and eight tenths per cent., and is in reality equivalent to a tax of nearly 
 two per cent, on the value of the land, besides the interest and annual 
 repairs chargeable to the fence. If, then, a stone wall is a permanent fence, 
 so is this self-inflicted land tax equally permanent. Will farmers think a 
 little upon this fact ? 
 
 980. How to Build Stone Wall.— For those who are not skilled enough to 
 ovei-see and direct laborers, or know whether jobbers are cheating them, the 
 following few simple rules will be useful. 
 
 Have the surface soil removed so that the foundation stones will rest on 
 firm earth. Contiguous foundation stones should be as nearly as possible 
 equal in size, and large enough to extend the full width of the wall, and 
 every foundation stone firmly bedded in the ground. If boulders, or stones 
 of uneven form are used, always plant the roughest side downward, or at 
 least so as to have a flat side up to lay the next course upon. If your wall 
 is built of a double line of stones, whatever their shape, it should frequently 
 be bound across with flat stones or Avooden ties made of split pieces of cedar, 
 chestnut, white oak, ash, or any durable tough wood, from half an inch to 
 one inch thick, two to four inches wide. 
 
 "Break joints" should be rung in the ears of a young wall-builder inces- 
 santly, imtil he would do it instinctively every time he laid a stone into the 
 wall. You can tell at a glance, as yon ride along the road, whether the wall 
 was built by a workman, by the way the stones break joints. You may some- 
 times see them so place'd that a joint extends from top to bottom. That wall 
 was built by a cheat or bungler, probably both. 
 
 Beware of a jobber who is continually chinking small stones into the 
 joints of the face of his wall and filling up the interior with stones thrown 
 in as carelessly as you would fill up a hole in the ground. If you find your 
 
Sbo. 52.] HOW TO BUILD STONE WALLS. 875 
 
 jobber working this way, discharge him peremptorily. lie is both cheat 
 and bungler. 
 
 If your wall is built double, cap it with a course of even-sized stones, so 
 as to give it a uniform ajjpearance. If the stones are gonorally flat, cap 
 your wall with flat stones of even thickness and of a width greater than 
 t!ie wall. This not only helps the appearance, but sheds ofl" water, which 
 is often the means of destroying badly built walls, by running down inside 
 and freezing so as to bulge out the two lines of stones with which the sides had 
 been faced np and not bound togethei'. 
 
 Good walls are sometimes built of very bad stones by using cross-biiiders 
 of wood in the lower coui'ses, and then near the top laying two boards, each 
 about one fourth the width of the thickness of the wall along the line, and 
 upon those building up the remaining bight. These boards will last many 
 years and serve to hold cobble stone together quite firmly. 
 
 It is a better plan, however, we believe, not to build the wall as high by 
 a foot, and take the strips of boards designed for binders in the wall and 
 nail them to small posts built in so as to give sufficient bight for the fence. 
 
 A very common fence in some sections is built of cobble stone about two 
 feet high, topped with two bars inserted in posts, or with strips of boards 
 nailed on. 
 
 981. Ha-ha Walls. — "Walls built with one face and backed against a bank 
 are called ha-ha walls, and are very common in hilly regions, where stone 
 abounds. These walls are often to be seen in "Westchester County, N. Y., 
 where they are backed by earth scraped up or carted to form the bank. 
 This always appears to us bad economy ; for a good ha-ha wall, even where 
 the ground favors its construction, costs more than a plain wall, because it is 
 necessary to build it very fii-mly to prevent the frost throwing it off from the 
 bank. To guard against this, it should be built of large stones, made to 
 lean heavily against the earth. A cobble-stone ha-ha wall would not stand 
 many winters at the North-^the frost M'ould bulge it out, so that it would 
 fall or be pressed over by the dirt. 
 
 Ditching each side of a wall appears to us of no great benefit, and adds 
 very much to the waste of land already noticed (979). Throwing up a ridge 
 to build the wall upon has no other advantage that we can sec than saving 
 stone where they happen to be scarce. This system is considerably practiced 
 by Hon. A. B. Conger, of Rockland County, N. Y. 
 
 982. Wall-Builders' Tools. — A' farmer who has not been bred upon a stony 
 farm knows bxit little of the importance of having good tools to handle stone. 
 "Without good tools, wall building is not only expensive but very laborious. 
 A set of wall-builders' tools would for three hands comprise three crow-bars, 
 of three sizes, one of which should be of steel, three feet long and about 
 three fourths of an inch diameter. This is for moving stones on the wall. 
 Tiiere should be a cant-hook, similar to those used in saw-mills, but with a 
 lighter handle. Each man should have a stone hammer, but these should 
 vary in size, so as to interchange as occasion requires, and there must be one 
 
876 FORESTS AND TENCES. [Chap. XL 
 
 lieavy sledge. If any stones require splitting, a drill and wedges will be 
 necessary'. An iron square, a plumb, a line and stakes, a pick and spade will 
 complete the assortment of tools for building the wall after the stones arc 
 hauled. For digging stones, use one of the lately invented stone-lifters, with 
 which stones of iive tuns' weight can be raised by one horse, and while held 
 up suspended between a pair of large wheels, hauled to the line of wall. This 
 is a great labor-saving machine. In the absence of such a machine, have 
 one large and two smaller crow-bars, and a good lever and a well-made 
 set of grappling hooks, which will often save hours of labor at a single stone, 
 because you can pick two holes on the sides of a smooth stone to catch the 
 points of the hooks in, by which the oxen will pull it out, when it would be 
 a long, tiresome job to get a chain arounrl. 
 
 A good stone boat is indispensable for hauling stones to a wall, and if tlie 
 distance is long, it is a good plan to suspend the boat between wagon wheels 
 just so it will clear the ground. If you have no wagon, use a cart, and sus- 
 pend the forward end of the boat to the axle. This will be a great assistance 
 to the team. 
 
 For loading stones on a wagon, it will be fottnd a great saving of labor to 
 have a frame with no sides, except a three-inch piece of scantling. Tiie floor 
 should be one and a half inch oak or other strong wood plank. At the hind 
 end have a windlass roller fixed in posts about two and a half feet above the 
 bed, witli a chain and pair of grappling hooks, by whicli a man can raise a 
 stone of five hundred pounds by turning the levers of the windlass. When 
 it is chock up, a piece of plank is slipped under, from which it can be rolled 
 forward with a bar, or by another windlass at the forward end. With a 
 wagon rigged in this wa}% one man can load stones with ease that four men 
 could only get up by hard work and danger. A movable triangle and wind- 
 lass will be found a great labor-saving machine in handling stone. Set over 
 a heavy l)lock, it can be lifted in two minutes iiigh enough to slip the stone 
 boat under easier and quicker by one man tliiin three could load it with 
 crow-bars and hard lifting. The same implement can be used to put stones 
 on the wall. 
 
CHAPTER XII. 
 
 FEETILIZATION. 
 
 SECTION LIII.-THE ART, USE, AND ECONOMY OF MAKING, SAVING, 
 AND .APPLYING MANURES, AND FERTILIZING FARM CROPS. 
 
 
 OW to make poor land fertile has always been, 
 .V peihaps always will be, a mystery. If it is affirm- 
 J 7 ed that barn-yard manure will do it, we reply, 
 __ that is no mystery; but it is, a inystei-y how to 
 ' obtain it or its equivalent where it is not to bo liad. 
 "No uian will ever make or keep his distant fields fertile 
 by carting the contents of his barn-yard. In some 
 cases the farmer seeks relief by resorting to a great 
 agricultural liumbug — the analysis of soils. Then 
 he applies the pinch of powder wliich the quack rec- 
 ommends to restore the " missing ingredient," and 
 sows his seed, and reaps disappointment. How to 
 make barren land productive, or liow to keep fertile 
 land so, is what farmers most desire to know. "We can not teach the art, 
 but the following paragraphs we hope will add something to the farmer's 
 stock of information upon tliis important subject. 
 
 9S3. Fineness of Soil Promotes Fertility. — Remember tha" t!ie great secret 
 of all naturally fertile soils is extreme fineness of the particles. Pulveriza- 
 tion, as a rule, is better than manure. Disintegration is, hov.'ever, aided by 
 manuring as well as plowing and harrowing. Fertility will increase by 
 deeply stirring the soil with turning and subsoil plows, and by aeration from 
 under-drains, and by growing plants with deeply penetrating roots. That is 
 why— 
 
 98i. Clover Promotes Fertility. — Its roots penetrate and aerity llie subsoil, 
 while its tops shade, and when decayed fertilize the surface. The fertility 
 of our soils must be improved by growing the manure on the land. That is, 
 growing clover and other green crops to plow in, so that by very small addi- 
 tions of purchased fertilizers, to I'cplace the things sold and taken off" the 
 farm, it will not only maintain its original fertility, but increase it, because 
 it will be constantly drawing from the atmosphere. Tlie difficulty about 
 maintaining fertility is, that it is generally exhausted before the owner of 
 the soil begins to think about saving. Tiie question, therefore, is rather how 
 to restore than how to increase fertility. Land will improve more while 
 
878 FERTILIZATION. [Chap. XII. 
 
 growing a crop than it will in a naked fallow. Lot that be forever remem- 
 bered as the great secret of " How to increase fertility." Give each food or 
 forage crop the proper pabulum to enable it to draw upon earth and atmos- 
 phere, and it will perfect itself, while it stores up in the soil pabulum for a 
 succeeding crop, which should follow in rotation, without exhausting fer- 
 tility. Von Thaer says feeding off a crop of clover with sheep will add 
 twenty per cent, to the fertility of the soil. 
 
 985. Color and Moisture of Manures Effect Fertility.— Though not richer 
 in humus, a black soil will be more j)roductive than a light one, because the 
 color elevates the temperature. This has been proved in cold climates, 
 where melons were ripened by covering the soil an inch deej) with charcoal 
 dust. In Belgium, grape-growers improve light soils by spreading fragments 
 of black slate over the surface. In addition to its fertilizing qualities, peat 
 improves light soils by its color. Earth must be in a hygroscopic condition 
 to be productive. Manure and black earth, and all salts added to tlie soil, 
 improve this condition. Sandy land is barren because it has no hygroscopic 
 quality. Add manure, peat, black earth, which give that quality, and the 
 land produces far more than can be fairly credited to the substance added. 
 All clayey soils are improved by under-draining, which both prevents excess 
 of moisture and at the same time aerates the soil and helps to keep it moist 
 in a dry time. 
 
 980. Theory of Fertilizing Seeds by Incrustation. — ^This is not a new theory, 
 though newly revived in France, where works are erected to execute the 
 process. The fertilizer is agglutinated to the seeds in .quantity sufficient to 
 furnish food to the young shoot until it gains strength to draw it from the 
 soil. It is simply carrying out the theory of giving the plants an " early 
 start." Boussingault planted the incrusted seed in calcined quartz sand, 
 and added phosj)hate of lime, nitrate of potash, and vegetable ashes, and 
 the plants grew luxuriantly, as though in garden mold. Sugar and soot 
 mixed in water are recommended for coating wheat seed. Sugar, lialf a 
 pound '.o ihe bushel ; soot to make the mixture black as ink ; M\atcr to make 
 the stuff as thick as cream : to stand thirty or forty hours ; then stir in the 
 wheat. The editor of The Valley Farmer thinks this incrustation tlieory 
 a dangerous doctrine, which if followed will reduce any soil to poverty. 
 " As well," he says, " might we encase an eggshell with food for the 
 chick as a grain of corn with food for the plant." We do not think so, 
 and advise tiie incrustation to be tried by all farmers in a small way, and 
 if it adds vigor to the young shoot, it may much more than j)ay the cost 
 of application. 
 
 To coat seeds with plaster and lime : For each bushel of wheat use half a 
 pint of tar dissolved in hot water reduced to blood heat, into which pour the 
 wheat gradually, stirring constantly for a few minutes; drain the wheat in 
 a basket over a barrel, then put it into a tight box, and add as much lime 
 or plaster as will adhere by stirring until the grain is dry. 
 
 987. Nitrates, Muriates, Sulphates. — What are they ? And which of them 
 
Sko. 53.] NITRATES, MURIATES, SULPHATES. 879 
 
 is good for manurial purposes ? We can not give this information in better 
 form than in the following relation of Barnum's e.xperience : 
 
 Barnum — the Barnum — is or was a Connecticut farmer. lie has a passion 
 that way. It is a hobby with him. lie always has a hobby. Sometimes 
 it is a " Fire Annihilator," and sometimes the Crystal Palace, or a Connecti- 
 cut clockmaker, annihilates him. 
 
 One year he had the hen fever. That was his hobby. lie rode it till ho 
 spent about $2,000, and then found that ho had neither eggs nor chickens for 
 family use. His neighbors' hens that " stole their nests," under the barn 
 or by the side of the fence, hatched more chickens than his did, and when 
 they were grown, they were healthy and good to eat, while his were droop- 
 ing and sickly in their costly house. 
 
 Another of his hobbies was to renovate old fields by purchasing and 
 hauling stable manure. That hobby broke down. It has broken down a 
 thousand times before, but the more it broke, the more old-fogyism stuck to 
 it. It was the ancient custom of the land to plow shallow and top dress with 
 stable manure, sea-weed, and fish. Digging muck was an innovation. It 
 was a good thing, but it did not bear long transportation. Something bet- 
 ter was wanted. Somebody said, Use salt. That did not look reasonable. 
 What virtue was there in salt to make plants grow ? Somebody else said, 
 Use saltpeter. But that was evident nonsense. Saltpeter was only to pre- 
 serve meat — it was not manure. Another wise man told hira Glauber salts 
 were good, but a wiser one told him that Epsom salts were better. 
 
 " Bless yonr soul, man," says Barnum, " do you suppose I want to physic 
 my land ? No, sir ; I want to feed it, and make it feed me." 
 
 So he took to the study of agriculture. He took several learned agricul- 
 tural papers, and read tliem, and — well, he concluded that he was not the 
 only humbug in the world. 
 
 So he went otf lecturing upon humbug as a science, under the full impres- 
 sion that ho had been about as badly humbugged, in the agricultural line, 
 hens and hundred-dollar ducks included, as he ever humbugged anybody 
 with woolly horses and Feejee mermaids. 
 
 Still he was not satisfied. He thought Connecticut soil had something in 
 it, and if it could be stimulated to give it up, it would produce something 
 besides daisies and muUens. 
 
 As he did not need to study his lecture — that came naturally — he bought 
 Johnson's Chemistry, Norton's Chemistry, and Liebig's Chemistry, and de- 
 voted his leisure hours of traveling to search ont what was the best and 
 most concentrated manure to apply to his old fields. He had already done 
 one very essential thing: he had plowed the soil" deeper than it was ever 
 plowed before ; and now he wanted to manure l^etter and cheaper, and 
 make it more productive. So he studied agricultural chemistry. Therein 
 he learned these facts : 
 
 That an application of 100 lbs. of nitrate of potash to an acre of land had 
 doubled the crop of grass. 
 
880 FERTILIZATION. [Chap. XII. 
 
 Again, he read that the same quantity of sulphate of soda had produced 
 tlie same or a bettor effect. 
 
 It was also stated that suljphate of magnesia was still better, and that 
 remarkable effects had been produced by a free use of muriate of soda. 
 Nitrate of soda had also done wonders. 
 
 The author suggested that the farmer might procure a portion of each of 
 these sulphates and nitrates and mix them together and produce a cheaper 
 and more concentrated manure than superphosphate of limo or guano. 
 
 Full of this idea, Farmer Barnum returned to New York, and went forth- 
 with to a dealer in drugs, medicines, and chemicals, and inquired the prices 
 of — Nitrate of potash? — cents a pound. Nitrate of soda? — 4 cents. Sul- 
 phate of soda? — 2 cents. Sulphate of magnesia? — 2i cents. Muriate of 
 soda? — li cents. 
 
 "Very well ; put me up a hogshead of each." 
 
 In due time the farmer was ready to begin to use his new manures, or, 
 rather, he was first curious— even showmen have curiosity — to see what 
 these nitrates and sulphates all looked like. So he ordered the casks that 
 had arrived to be opened for inspection. That was soon dine, and the man, 
 with consternation written upon his face, came back with handfuls of the 
 contents, and reported : 
 
 " Mr. Earnum, you're sold — ^humbuggcd. Look here ! that was marked 
 "Nitrate of potash" — what do you call that?"' 
 
 " That ! that is saltpeter — nothing else." 
 
 " And this? This M-as marked ' Sulphate of soda.'" 
 
 "Why, that! — that" — and he tasted — "that — oh, pshaw!— that is Glau- 
 ber salts." 
 
 " And this — sulphate of magnesia ?" 
 
 " Eah !— tiiat is Epsom suits." 
 
 " And shall I send them back ?" 
 
 " Yes — no — hold on ! Perhaps the druggist in the village has sent for 
 them, and they have made a mistake, and sent my nitrates and sulphates to 
 him, and his physic to me." 
 
 So he posted down to inquire; but no — nobody had sent for any Glauber salts; 
 and he came back to write a letter and blow up tlie dealer who had befooled 
 him. In the mean time the man had got the cask marked " Muriate of soda" 
 opened, and reported that it contained — ha, ha, ha — simply commoii salt. 
 
 " What on earth," wrote Mr. B., to the chemist, " did you send me Glau- 
 ber salts, Epsom salts, saltpeter, and common salt for? Do j-ou think I 
 want to pickle and preserve my land, and if I got in too much salt and salt- 
 peter, phj'sic it out ? Only one of the casks contains what I ordered, and 
 that is the nitrate of soda." 
 
 The return mail brought the answer: "Nitrate of soda, of course, is riglit, 
 because it is not known by any other name. 
 
 " Glauber salts is, |3foperly speaking, sul])hate of soda, and sulphate of 
 magnesia is nothing more nor less than E^risom salts. 
 
Sec. 53.] . PRIMITIVE SOURCES OF FERTILIZING SUBSTANCES. 881 
 
 " Salt, as ■we use the term, is salt, hut it is a very unmeaning term among so 
 many salts. Muriate of soda is the riglit name of our common, or table salt. 
 
 " And nitrate of potash is nothing but saltpeter ; don't be afraid of it — it 
 won't explode." 
 
 "But it did explode," said _Mr. Barnum; "it exploded my ignorance. I 
 had studied agricultural chemistry, but I did not know salt nor saltjieter. 1 
 do now, and I mean to know that they are good for land." 
 
 988. Sulphate of Lime— Plaster of Paris— Gypsum. — Tliese names are syn- 
 onymous, as used ill common conversation, tliough not strictly so. "Plas- 
 ter" is tlie most common term used by farmers, as applied to sulphate of lime 
 reduced to powder liy grinding, wlien used as a dressing for land. 
 
 Plaster of Paris is made of the gypseous rock of the vicinity of Paris, 
 France, by grinding and lieating, -which prepare it for use ip the arts, as we 
 see it in casts of various figures. Gypsum, or plaster, which is ground sul- 
 phate of lime, is made of gypseous rock which is found in various localities 
 in this country, and is composed of sulphuric acid and lime. It should al- 
 wa3-s be applied on a green crop, and it does tlie most good on a succulent 
 one, such as clover or peas, and the spring season is the best time to ajiply 
 it, when the crop, whatever it is, is in a fresli-groM-ing condition, from natural 
 fertility or manure, since plaster is not a manure, but an assistant, acting as 
 an absorbent of floating ammonia, whicli it yields up again to the growing 
 plants. Plaster sown upon a plowed field in the autunm would be of very 
 little if any benefit to whatever crop might be put upon tlie field in the spring. 
 It is generally found more beneficial to clover than to any of the true grasses, 
 which is accounted for by the fact that the ingredients of which it is com- 
 posed are found most abundant in the ash of clover. 
 
 One of the best purposes to whicli plaster can bo applied about a farm is 
 in the stable and places of deposit of manure, to jirevent the escape of am- 
 monia, and thus keep the air sweet and licalthy. 
 
 In some sections farmers complain of not seeing any benefits from plaster, 
 while in others it is their main stay. AVe know two large gi'azicrs in Dutchess 
 County, W. II. & David L. Belding, who have bought up worn-out farms and 
 renovated tiiem by the use of plaster, so as to produce the richest pasturage. 
 
 989 Primitive t^ources of Fertilizing Substances. — There is an abundance of 
 mineral substance, of the same chemical character as the fertilizing portion 
 of manures, locked up in rocks. The Academy of Science, Paris, having 
 investigated the question, say that the primary substances found in rocks, 
 particularly the phosphates, whicli are almost chemically identical with 
 bones, are really of but little or no value to growing plants in the first step 
 of their progress; but that all mineral substances, the longer they have pro- 
 gressed through animal and plant life, the better they are as fertilizers. 
 Bones are better than mineral phosphate, and bones of an animal tliat con- 
 sumes phosphatic food are better than those of one that did not. It has been 
 found impossible by any mechanical or chemical means known to reduce 
 mineral phospliatcs to such a degree of fineness as we obtain from bones. 
 
882 FERTILIZATION. [Chap. XII. 
 
 Tliis is one reason why mineral phosphates are not readily assimilated by 
 growing plants. 
 
 990. Value of Phosphatic Guano. — ^There may be some guano known as 
 pliosphatic that has some manurial value, but English farmers who have 
 tried some of the substances sold under this name, have no faith in its value 
 as a fertilizer. The editor of the Agricultural Review says : " From our own 
 knowledge we can affirm that tlie guano from some of the West India Islands 
 is not worth the price of the freight to this country." B. M. Rhoads, a 
 chemist of Baltimore, thinks a pound of phosphoric acid in bone superphos- 
 phate Avorth three times as much as a pound in " brown Mexican guano." 
 
 991. Gas Lime — Its Value to Farmers. — Dana's JI/'KcAjJ/cwiMaZ says: "Gas 
 lime contains sulphureted hydrogen, sulphuric acid, and ammonia. It can 
 not be used agriculturally till it has been exposed to the air for a year, by 
 which it is converted into sulphate of lime and ammonia, and carbonate of 
 lime. In this state, mixed with three times its bulk of soil, it forms a useful 
 top-dressing ; or it may be added, before mixing with soil, to the compost 
 hcirp or to meadow muck, say two bushels to the cord." 
 
 So we say it is valuable, but the farmer must know how to use it. The 
 farmers of Lancashire, England, are well satisfied that gas lime is val- 
 uable when applied in small quantities upon pasture lands and meadows, 
 wliich show the good effects of the application for years. One of our cor- 
 respondents does not believe that gas lime fresh from the works is injurious. 
 He applied it with beneficial eflFects at the rate of a pailful per rod. 
 
 992. Lime Ashes. — " Are the ashes of a lime-kiln valuable — that is, more 
 valuable than lime ?" Thus writes a con-espondent. "We answer, No ; be- 
 cause from his locality we know the kiln is burnt with anthracite coal, the 
 ashes of which are not worth hauling five miles to obtain the small portion 
 of lime mixed with them. Coal ashes are not entirely valueless, but they 
 bear no compai-ison to the value of lime. Where wood is used for fuel, the 
 lime-kiln ashes are very valuable for all soils and all crops. 
 
 993. Uow to Apply Lime. — After the burnt limestone has been some time 
 exposed to the air, it becomes air-slaked, and in the condition of a dry pow- 
 der, and of twice the bulk it was before slaking, and may be sown broad- 
 cast by hand, or by a machine. If we were about-to apply lime to wheat 
 ground, M'e should harrow it in when we did the seed. On a potato field, we 
 would sow it broadcast over tops and all, after hoeing. If applying it to corn, 
 we would scatter it all over the surface of the earth, either before or after the 
 last hoeing. As to the quantity per acre, the majority of opinions of those who 
 have used lime most, favors thirty bushels of slaked lime per acre, continuing 
 it every year, or every second or third year, until 120 bushels are applied. 
 Lime is always beneficial to land full of vegetable matter. The quantity is 
 to be varied according to the condition of the soil. One with much vegeta- 
 ble matter in it will bear much more than a soil almost destitute. Shell lime 
 is tlie best. Barren fruit-trees have been made fruitful by dressing the land 
 with lime, for it combines with the acids of the earth, neutralizes them, and 
 
Sec. 53.] HOW TO DISSOLVE BONES. 883 
 
 renders the earth sweet. In all muck land there is a resinous matter that 
 prevents the decomposition of the vegetable fiber. This condition is always 
 improved by adding lime. 
 
 994. Value of Old Mortar or Plastering. — ^There is no valuable substance 
 about a farm oftener wasted, by throwing into the road, or into some mud- 
 hole, or out-of-the-way corner, than the old mortar of chimneys and lath- 
 and-plastered walls. It is because the fact is not known that this old mortar— 
 the older the better — is a most valuable fertilizer. It is good upon any soil 
 and upon every crop, used as a surface-dressing. It is particularly valuable 
 in garden soil, which, notwithstanding its richness in nitrogenous manure, 
 sometimes lacks j ust what it would receive from a dressing of this old mortar. 
 
 995. Burnt Earth— Its Value as a Fertilizer. — In England, whole fields 
 are pared off and windrowed up with brush, straw, stubble, peat, or dried 
 sods, enough to start the fire and heat the clay to an almost brick-burning 
 heat, and then the whole of the burnt mass is spread over the surface, adding 
 greatly to the fertility. Remember this fact, that burnt clay will always 
 prove beneficial to I'aw clay, and still more so to sandy land, or to soil 
 charged witii nitrogenous matter, such as what we term good garden soil. 
 
 996. Iron as a Fertilizer. — Sulphate of iron (copperas) naturally exists in 
 many soils, and, unless neutralized with lime, injures some crops. Yet iron 
 in certain forms is undoubtedly beneficial, particularly to fruit-trees. M. 
 Dubreuil, a celebrated European horticulturist, says that it has been proven 
 " that melons and various species of fruit-trees, the green parts of wliich had 
 been watered on several occasions with a weak solution of sulphate of iron, 
 yielded much larger fruits than those not so treated." He adds : " One of 
 my pupils repeated the same exjDeriments in 185-t and 1855 on pear-trees. 
 He gave the first watering as soon as the fruits were fairly set, in the end of 
 June. He repeated the moistening every fortnight, in the evening, in order 
 to prevent evaporation, and that absorption might be completely eifected 
 during the night. The solution was at the rate of 26 grains to a quart for 
 the first three, and 35 grains per quart for the last two waterings." The 
 result appears to have been a large increase in the size of the pears. Many 
 soils contain iron, and such, if the iron is not in excess, are generally good 
 fruit soils. Iron dust, from the forge, has frequently been used by florists 
 to -highten color of flowers. 
 
 997. Save the Bones — Their Value. — Never neglect to pick up a bone ; it 
 is worth saving. You would stoop for a copper cent ; the bone may be 
 worth a dime. True, it is of no value whole, except for grapevines, but it 
 is easily made fine, and then its value is almost incalculable. Lying waste, 
 bones are a nuisance in mowland or pasture. Pick them up and dissolve 
 them into excellent manure. 
 
 998. How to Dissolve Bones. — Mix one gallon of sulphuric acid with five 
 gallons of water and put in the bones, after having broken them as fine as 
 you can witii a hammer. The bones and liquid will form a pasty mass in a 
 few days, if the acid is strong enough ; if not, more must be added. The 
 
884 FERTILIZATION. [Chap. XII. 
 
 water may be evaporated from the mass, leaving the acid combined with the 
 phosphate of lime of the bones. This is xinadiilterated snperpliosphate, and 
 is a very valuable manure. Bones maybe also dissolved in nnleached ashes, 
 or horse dung, if broken up and mixed, or covered up. Charcoal-powder or 
 plaster should be spread over the heap to prevent escape of ammonia. Sul- 
 phuric acid (oil of vitriol) is very corrosive, and must be handled witli great 
 care. "We recommend a large iron kettle to be painted with a thick coat of 
 earthy paint, or even clay dissolved in skim-milk, as the best vessel to dis- 
 solve bones in. A Scotch farmer adds 340 lbs. of acid to 25 bushels of fine 
 bones, wet with 18 imperial gallons of boiling water, and lets it stand two 
 days, and then mixes with two cart-loads of light mold, and turns the mixture 
 over. At this stage the bones are oidy partially dissolved, but they heat and 
 decompose in the heap after being turned over three or four times ; and in 
 the course of seven or eight weeks the compost becomes dry and breaks 
 down with a shovel. 
 
 An American farmer says : " For every tun of bone I provide 500 lbs. of 
 best sulphuric acid and 300 llis. of guano, and get them distributed among 
 the bone as equally as possible. By the fermentation and heating of the 
 bone, better work is done with 25 lbs. of acid than we used to have with 
 40 lbs. One pound of acid requires nine pounds of water. Bones may be 
 dissolved without acid, if crushed and mixed with fine earth or manure, and 
 kept moist." 
 
 999. What Manure will best sustain Fertility?— Undoubtedly, barn-yard 
 manure must hold the first place with all farnij s — and rightly — because it 
 contains all the needed ingredients, though it may not have all in as great a 
 proportion as would be profitable to apply. Thus, to barn-yard nianm-e 
 muck, salt, and plaster may be added ; and lime, applied to the same land 
 that has been highly manured ; and flesh, blood, hair, and bone will sustain 
 fertility, and their constituents are all needed, because soil imparts nitrogen 
 to its crops, and must have it returned. 
 
 The following table will show the per-centage of nitrogen in various sub- 
 stances, by which the value of manure made fi'om them may be calculated. 
 The greater the amount of nitrogen the better for manure. 
 
 Water. Dry Matter. , Nitrogen Nitrogen 
 
 ' in natural state. in dry mattor 
 
 Barley straw 11.0 89.0 0.23 0.26 
 
 Oat straw 21.0 79.0 0.28 0.36 
 
 Kye straw 14 86 80 0.36 
 
 Wheat straw 18.0 82.0 0.33 0.40 
 
 Buckwheat straw 11.6 88.4 0.48 0.64 
 
 Meadow hay 11.0 89.0 1.15 1.23 
 
 Red clover bay 12.7 87.3 1.83 2.10 
 
 Pea straw 8.5 91.5 1.79 1.95 
 
 Carrots 87.6 12.4 0.30 2.40 
 
 Potatoes 74.0 26.0 0.39 1.49 
 
 Mangel-wurzel...... . 87.0 13 0.29 2.27 
 
 Rutabaga 88.fi 11.4 0.21 1.87 
 
 Barley 16.0 84.0 l.CO 1.90 
 
 Malt 7.0 93 l.CO 1.72 
 
 Wheat 16.0 84 190 2.14 
 
 Oats 16.0 84.0 2.00 2.38 
 
Skc. 53.] now TO PRESERVE MANURE. 885 
 
 
 
 
 Water. 
 
 Dry Matter. 
 
 Nitrogen 
 in natural state. 
 
 Nitrogen 
 In dry matxer. 
 
 Indian corn 
 
 
 
 18,0 .. 
 
 82.0 . . . 
 
 164 .... 
 
 ... 2.00 
 
 Malt dust. . 
 
 
 
 7.0 .. 
 G.O .. 
 
 93.0 . . . 
 
 94.0 . . . 
 
 4.00 .... 
 
 4.51 .... 
 
 ... 4.08 
 
 Malt grains 
 
 
 
 ... 4.90 
 
 Linseed .... 
 
 
 
 12.0 .. 
 
 88.0 . . . 
 
 3.75 .... 
 
 . . . 4.76 
 
 Beans, peas. 
 
 or 
 
 tares. . 
 
 16.0 .. 
 
 84.0 ... 
 
 4.00 .... 
 
 ... 4.76 
 
 American oil cake.. . . 
 
 11.6 .. 
 
 88.4 . . . 
 
 5.04 .... 
 
 ... 5.71 
 
 Decorticated cotton-seed 
 
 cake $27 86 
 
 Rape cake 21 01 
 
 Linseed cake 19 72 
 
 Malt dust 18 21 
 
 LentUs 16 51 
 
 Linseed. 15 65 
 
 Tares 15 75 
 
 Beans 15 75 
 
 If the following substances are used as cattle food, the comparative value 
 
 of each tun, in manure, is represented as follows : 
 
 Peas $13 38 1 Oat straw $2 90 
 
 Locust beans 4 81 Wheat straw 2 68 
 
 Oats 7 40 Barley straw 2 25 
 
 Wheat 7 08 Potatoes 1 50 
 
 Indian com 6 65 I Mangolds 1 07 
 
 Malt 6 65 j Swedish turnips 91 
 
 Barley 6 32 j Common turnips 86 
 
 Clover hay . . . .' 9 04 Carrots 86 
 
 Meadow hay 6 4-3 | 
 
 1000. How to Preserve Manure< — Hoi* droppings are very liable to injury 
 by heating. When any manure is burned in the heap, it is little better than 
 ashes. This can be prevented by the application of water to the manure 
 heap, frequent turnings, and making compact piles. Mixing with sod, scrap- 
 ings of the roads and walks, and swamp muck will retard decomposition. 
 The best way to preserve maimre is to apply it to crops, to grass, corn, and 
 roots, and the orchai'd, followed by a sliallow plowing. Cattle droppings 
 should be mixed with those of horses, to preserve and improve both. If 
 you have no cellar nor shed to save manure in, pile it up, mixing muck, 
 sods, weeds, waste straw, salt, and lime to help decomposition, and plaster 
 or charcoal on the surface to absorb and retain the escaping gases, and use a 
 pump to send back all the drainings and other rich liquid, including urine 
 and soapsuds, and old brine, blood, and all sorts of dirty water. Use this 
 well-rotted compost, and you will escape weeds and grow gi'ass and grain. 
 Use all heavy manui-e ujjou home-lots, and treat outlying ones with some 
 concentrated fertilizers and clover. If a manure pile is kept continually 
 moist, its value will be preserved if the drainage is not wasted. When com- 
 posted with muck and other similar materials, and kept wet, the fluid pass- 
 ing through tlie mass will pervade all parts, and withont turning or forking 
 in any way, the intrinsic value of each portion will be communicated to the 
 whole, and improved by this mode of treatment. There is no item of econ- 
 omy about a farm that will pay better than that of saving every old rag, old 
 shoe, old bone, soapsuds, house sweepings, chamber slops, kitchen garbage, 
 and garden weedings for the compost heap ; which in a yeai-, from these 
 little bits of waste, will grow into a valuable pile. Unlike purchased fertil- 
 izers, the cost of the compost heap is never felt in the pocket. It may be 
 made in any convenient place, and will never taint the air if ])aitl v composed of 
 swamp muck, or fine charcoal, or occasionally sprinkled with jdaster. Every- 
 thing that will decompose may be used. Every dead animal should be 
 buried in its center, with muck or charcoal, or with fine clay, if neither of 
 the first can be had conveniently. A cart-load of muck (decomposed with 
 
886 FERTILIZATION. [CaiP. XII. 
 
 lime and salt) or of fine charcoal, sucli as locomotive cinders, or debris of a 
 coal-yard, or fine charcoal and burned earth of a coal-pit, will prevent any 
 smell arising from the carcass of a horse, and where manure is worth two 
 dollars a load, the value of the compost heap will be increased ten dollars 
 by every carcass buried in it. 
 
 1001. How to Apply Manure— When and Where— Wc do not believe it is 
 even a good practice to apply manure exclusively to hoed crops, or upon 
 plowed land. We believe it would be found almost inconceivably better to 
 apply it exclusively to grass lands, both mowing and pasture, and make 
 them productive and capable of sustaining more animals, which would in- 
 crease the production of manure, and then, by plowing under the enriched 
 sod, any kind of grain or root crop would be pi'oduced at less expense per 
 bushel than by the direct application of manure, except it was of some of 
 the concentrated sorts, such as guano, phosphate, poiulrctte, or well-rotted 
 compost, used to hasten the first gr<|wtl). Whether this is a correct practice 
 or not is the question that needs discussion and ])ositive determination. It 
 was discussed by some of the good farmers of the State of New York, at 
 one of the meetings of the State Agricultural Society, with an almost 
 universal opinion in favor of spreading upon the surface, and mostly upon 
 sod. 
 
 We give a few of these opinions. In favor of top-dressing sod with ma- 
 nure, and plowing it under, Mr. Merely, of Onondaga County ; T. C. Peters, 
 of Darieii, Genesee County ; Lewis F. Allen, of Black Rock ; Mr. Gold- 
 smith, of Orange County ; Mr. Marks, of Onondaga County ; Mr. Leland, 
 of Saratoga County ; Mr. Williams, of Seneca County ; T. W. Field, of 
 Long Island ; George Geddes, of Onondaga ; Mr. Lyons, of Lewis County ; 
 Mr. Huested, of Ulster County ; A. L. Fish, of Herkimer County ; Mr. 
 Bartlett, of Dutchess County ; A. B. Conger, of Eockland County ; and the 
 author, of Westchester County. Mr. Lyons, of Lewis, has top-dressed 
 meadows for fifteen years, without breaking up, with good results. Mr. 
 Curtis, of Tompkins, said clover was the most economical manure for him. 
 He seeds with rye, and uses plaster. Mr. Day, of Genesee County, is equally 
 favorable to clover, but can not make it grow without niunure. Judge 
 Blodget, of Lewis County, finds ashes and plaster beneficial as top-dressing 
 of grass lands, but thinks the most important thing is first to give the soil a 
 good preparation by plowing. Mr. Sylvester, of Wayne County, always 
 jilows in manure. A. B. Conger thinks the mauner of applying manure 
 tlepends entirely on what sort of a ciop is to be grown. If it is a deep-rooted 
 crop, the manure must be deep buried to produce the best result. Upon 
 grass crops it is probable that top-dressing is tlic most beneficial. 
 
 1002. Sundry Experiments in Surface Manuring.- Prof. Legnitz, of Elden, 
 divided a lot into four equal parts. To No. 1 no manure was given. No. 2 
 received aboiit two tuns of farm-yard dung, wliich was spread immediately 
 and covered in by means of the plow. No. 3 was treated in the same man- 
 ner, with this difference, that the hoe was used instead of the plow. The 
 
Seo. 53.] LIQUID MANURE. 887 
 
 same quantity of dung was carried to No. 4, and allowed to I'einain spread 
 three weeks on the soil before being covered in by the hoe. On the 10th of 
 October, the four lots subjected to experiment were sown with about ninety- 
 five pints of rye each. The following are the total results of the crops of 
 each lot, grain and straw included : No. 1 produced 5S3 pounds ; No. 2 pro- 
 duced 770 pounds; No. 3 produced 818 pounds; No. 4 produced 930 
 pounds. 
 
 1003. Renovating Old Pastures by Top-dressing.— One of the best things 
 that can be applied to a rocky pasture infested with bushes, briers, or weeds, 
 is salt. Salt theni every week while wet with rain or dew, and let the stock 
 look to that source alone for a supply. Pests of the pasture, including 
 grubs, can be driven out with salt, while the grass will be improved. We 
 doubt whether a pasture can be found that would not be so improved by a 
 dressing of lime of fi-om five to fifty bushels per acre, as to prove one of the 
 most profitable investments that the owner could make. Plaster, at the rate 
 of one half to two bushels an acre, may be applied to all old, rocky pastures. 
 If any one doubts whether ashes would afl:ord the most profit ai>plied to a 
 field of corn or a pasture lot, let him try the experiment fairly. A great 
 many pastures have been grazed ever since the land was denuded of timber, 
 and there is no lack of humus in the soil, but it is inert. Simple exposure 
 to the air, and consequent decomposition of the roots of the sod, would make 
 the soil again productive, and this would be the cheapest as well as best 
 api>lication ; but where that can not be applied, lime, plaster, ashes, salt, 
 superphosphate, niter, guano, or some other fertilizer, will enable the owners 
 to carry more stock, and we should like to find the farmer who would say 
 that that was not profitable, whether he converted the grass into beef, 
 mutton, milk, or manure for his hoed crops. 
 
 1004. Liquid Manure. — I am satisfied that the correct method of treating 
 all manure is to put it in solution in tanks at the barn, and send it to the 
 field by steam power, just as has been repeatedly described as practiced by 
 Mr. Mechi and others in England. Upon any farm, level or hilly, where the 
 amount of team work to haul manure is large enough to justify the first 
 outlay, there is no doubt in my mind that steam ])ower is the cheapest of 
 any that can be used, and the time will come when carting manure will be 
 looked upon as a very slovenly way of farming. It will be found far more 
 economical to dissolve it where it is made, and send it to the field through 
 pipes, by a stationary engine. The people that come after us will look back 
 upon this age of the world as we do upon the dark ages of the past, and 
 wonder how it is possible that we could have been so stupid as to cart 
 marturo with oxen and horses, when it would be so much better and cheaper 
 done by dissolving it, and using steam. The best crops to which to apply 
 liquid manure are grass, clover, and small grain, but it may be applied with 
 advantage to all hoed crops. The same ordei" may be advantageously pur- 
 sued in applying any sort of farm manure. That is, to grass first, and make 
 the sod manure the grain crops. Small farmers, who can not send their 
 
FERTILIZATION. [Chap. XII. 
 
 liquid niaiuire a-field by steam, may have a large cask or tank on wheels, 
 witli a sprinkler attached. A manure tank may be made just as we have 
 directed for making cisterns. (333.) 
 
 1005. Use of Tau Bark as Manure. — Tan bark, when used as a manure, 
 certainly produces very little effect, but when used as a mulch and suffered 
 to decay, leaves all tbc potash that its ashes would give, the value of which, 
 as particularly applicable to young trees, no one will dispute. For straw- 
 berries, we have never seen any tiling equal to tan bark. We would put it 
 npon the beds in autumn, after forking up, and not remove it iu the spring, 
 except from the crown of the roots. In our opinion, not a bushel of tan bark 
 should be allowed to go to waste, where there are farms within a mile or two 
 of the tannery. Be sure that it will pay to cart it that distance to put around 
 all fruit-trees, old or young, large or small, and upon all strawberry beds, 
 because with it you can get good crops of this delicious fruit, upon almost 
 any soil. 
 
 1006. Manure is Gained by Soiling Cattle. — lion. Josiah Quincy, Jr., of 
 Massachusetts, saj's : " Farmers do not generally seem to understand the 
 importance of soiling cattle, on account of the great increase of manure ; 
 nor do they seem to understand how much manure can be increased by the 
 use of absorbents, or how great is the value of the manure of a single 
 animal." Upon tliis point the testimony of Dr. Dana is important, who 
 states that one cow will make twenty-one cords of manure, equal in value to 
 the average of good stable manure, if all her solid and liquid excrements are 
 saved and composted with muck. In soiling cows, Mr. Quincy says, " wo 
 calculate that a square rod will support a cow a day. Grass, oats, Indian 
 corn, and barley are the plants we use for soiling. Early in April we sow 
 oats at the rate of four bushels per acre. Our sowings are April 5th, April 
 20th, and May 1st. We sow corn May 1st, June 1st and 15tli, three bushels 
 per acre. We sow barley ten days apart till August 1st. Another advan- 
 tage of i^oiling is the saving of land. An acre will support three cows 
 during the soiling season. It is almost impossible to calculate the value 
 of manures, and how much corn can be saved by soiling cattle." 
 
 In a discussion upon this subject, Mr. Stewart, of Erie County, N. Y., 
 said : " I find soiling not only beneficial to the animals, but to the land. One 
 acre will do more in soiling than in pasturing, and the manure will more 
 than pay all the expense ; and I find that cut straw, steamed, with a pint of 
 meal to a bushel, and fed three bushels a day to a cow, is better than timo- 
 thy hay. I think soiling would double the value of farms, and that farmers 
 would realize three times as much profit as in the old way. I grow carrots 
 and turnips lor spring feed. I consider sowed corn the best plant for soiling 
 of any that I have tried. Butter made from corn will keep as well as that 
 made from the best pasture, and have as rich a color." Prof. Sprengel, the 
 celebrated German chemist, asserts that each cow produces annually 18,000 
 pounds urine, which contains of solid matter 900 ]iounds. This solid matter 
 is fully equal to the best guano, weight for weight, so that the liquid manure 
 
Sec. 53.] SPECIAL MANURKS. 
 
 of every cow kept on a farm for one year is worth, when applied to the 
 crops, more than $20 annually, and so in proportion to all the rest of the 
 domestic animals. It may be said that in no other department of rural econ- 
 omy does the American farmer lose so much by neglect, as in the manage- 
 ment of solid and liquid manures. 
 
 1007. Special Manures— Their Use Considered.— Dr. Anderson (Scotland) 
 gives as a reason why special manures should bo used, that the diminished 
 production of a field is rarely in consequence of general exhaustion of all 
 fertility, but because one or more necessary ingredients have been carried 
 off in the crops, or else were naturally deficient, and as plants can not grow 
 without all their constituents are present in the soil, the absence of one may 
 render tlie land comparatively barren. "A soil in this condition does not 
 absolutely require farm-yaixl manure, but may be again made to produce 
 abundant crops by the application of the one deficient substance, which is 
 then called a special manure. When so treated, a soil will retain this re- 
 newed fertility for a certain time, but at length becomes again infertile, even 
 under a continued application of this manure, which is then said, in ordinary 
 language, to have lost its eifect (become ' guano sick'), although the real 
 reason is that the supply of a second constituent Jias been exhausted, and it 
 also must be supplied in the form of a new manure." 
 
 Dr. Anderson thinks special manures should always be used in combina- 
 tion with those of the farm-yard. " A given quantity of the latter can, of 
 course, produce only a certain amount of crop ; but if mixed with a special 
 manure, it is most rapidly converted into vegetable matter, and this is 
 advantageous to the farmer. It may be urged that this is a matter of little 
 moment, and tiiat sooner or later the farmer receives back what he has put 
 into the ground. But tliis is not the case; dui'ing six months of the year, 
 manure lying in the ground is undergoing decomposition, although there a»e 
 no plants to make use of it, and the constituents then set free are in part, at 
 least, washed away and lost. Even if none of it were lost, it would not be 
 altogether a matter of indifierence ; for, to take an extreme case by way of 
 illustration, if we suppose a part of the manure to remain undecomposed 
 for fourteen years after its application, it will, if only five per cent, interest 
 on its price be reckoned, have cost the farmer twice as much as that which 
 was consumed during the year of its application. Though I consider 
 the use of special manures alone a most injudicious and shortsighted 
 policy, which can rarely be employed with advantage, there is no question 
 that their proper combination with farm-yard manure is really one of the 
 most important improvements ever introduced into the practice of Agricul- 
 ture." 
 
 This is knocking in the hea-d the very thing that seems to be most depre- 
 cated in this country — that is, using up the manure the first year of its appli- 
 cation. The farmer forgets his interest account. It is, in fact, his interest 
 to use up the manure in every crop it is applied to. His farm is simply a 
 manufactory, where he takes in such crude materials as constitute manure, 
 
890 FERTILIZATION. [Chap. XII. 
 
 at a cheap rate, and converts them into salable crops, that he sells at a dear 
 rate, or a profit upon the manufacture. 
 
 1008. Guano — its History. — Peruvian guano, which is the best, and the 
 kind now generally used in this country, comes from the Chincha Islands, 
 three in number, on the coast of Peru, between latitude 1.3° and 14'^, in 
 the bay of Pisco, about twelve miles from tlie coast, -where rain never falls, 
 and the air is always so dry that the juices of flesh evaporate so rapidly 
 that meat can be preserved fresh, or dried without salt. 
 
 The waters surrounding these islands are almost alive with fish, upon 
 which birds have fed and deposited their excrement upon the rocks for 
 countless ages, which time has formed into a substance resembling yellow 
 snuff, and almost as pungent as that article, and possessing the powers of ' 
 fertilization to such an eminent degree, that two or three hundred pounds 
 spread upon the pooi-est soil causes it to produce an abundant crop, even 
 greater than a good dressing of farm-yard manure. 
 
 The North Chincha Island, from whence the principal supj^ly of guano 
 has been drawn, is about one and one half mile long and half tliat in breadth, 
 upon which the guano was piled iip over the rocks, giving it a smooth, round 
 appearance, and a depth in the center of two or three hundred feet. Exca- 
 vations have been made at one end, not by any means in the deepest part, a 
 hundred and thirty feet deep, without finding bottom, to prove that the 
 quality of the guano at that depth was equal to that near the surface. , It is 
 so compacted together that it has to be dug up with jsicks ; and notwith- 
 standing the vast number of cargoes taken away, the proi^ortion the quantity 
 removed bears to the quantity remaining may be guessed at, it can not be 
 understood, when we state that actual surveys made by the Peruvian gov- 
 ernment gave the sum of the deposit upon the three Chincha Islands at 
 TWENTY MILLIONS OF TUNS. This quantity appears so enormous that many 
 have doubted its correctness. A French engineer, said to have been em- 
 ployed at a subsequent period by his government to ascertain the truth of 
 this statement, has reported his estimate of the quantity at twelve million 
 tuns. This amount still appearing too large for belief. Admiral Moresby 
 caused a reconnoissance to be made, which the person who made it saj's was 
 done in a very imperfect manner, very hurriedly, and M'ithout proper instru- 
 ments, and in a measure secretly, and which gives the quantity at eight 
 million six hundred thousand tuns. 
 
 Now if we take the mean of the three estimates it will give upward of 
 thirteen million five hundred thousand tuns, and the mean of the French 
 and English estimates is ten million three hundred thousand tuns, besides the 
 deposits upon the Lobos and other islands, which have been reported at eight 
 and a half millions of tuns. This would give eighteen million eight hun- 
 dred thousand tuns as the mean of the French and English estimates, which 
 would give to the world the same rate of supply as at present during the 
 next century. 
 
 ^^American Guano" is the name given to the product of Baker's Island, 
 
Sko. 53.] USE AND VALUE OF MUCK OR PEAT. 891 
 
 and other islands in the Paciiic, much farther west than the Chinchas, and 
 in a region subject to rains, which lessen the value of the deposit. It is 
 nearly destitute of ammonia, but rich in pliosi)hates. 
 
 1009. Value and Economy of Using Guano.— Although guano should not 
 be exclusively depended upon, because it acts as a stimulant, and is mostly 
 exhausted by one crop, yet upon all worn-out, sandy, or loamy soil the cul- 
 tivator can afford to use No. 1 guano, at $70 a tun, at the rate of 200 lbs. 
 per acre, well worked info the soil with small grain, if with that grain he 
 will sow clover seed, so that the growth of tliat will take up all that the 
 grain does not of the fertilizing powers of the guano, and in its turn serve 
 for a rich dressing of manure to the land, renovating it so as to jiroduce 
 other grain or root crops without further application of expensive fertilizers. 
 The price of Peruvian guano has j'ison since it was first introduced and ex- 
 tensively used in this country from about $i5 to about $70 a tun. and at 
 that some of our farmers fear its use is not economical. This depends 
 whether he can grow a remunerative crop without purchasing some fertil- 
 izer. If he can not, then it is probable that guano is as economical as any- 
 thing in market, since many experiments prove that a dressing of 200 lbs. 
 of Peruvian guano, upon grass and grain, has doubled the yield per acre. 
 Its most profitable use is upon very poor land, to give it a start, so it will 
 jiroduce clover, wiiich it will do upon an almost hopelessly barren soil. If 
 its use is long continued, without other manures, the application becomes 
 unprofitable. Where it has been most extensively and longest used in En- 
 gland, the farmers say that the land has become " guano-sick." 
 
 1010. Uow to Apply Guano. — If we were applying guano to land for corn, 
 potatoes, or any other crop, we should prefer to do it by sowing broadcast 
 and lightly plowipg in. If applied as a top-dressing — which is rarely ad- 
 visable — always apjily it, if possible, before rain, or when snow is on the 
 groimd ; and if on arable land, harrow, hoe, or scutfle immediately after. 
 
 There is no benefit in mixing guano with anything, unless it be water, to 
 be used for garden purposes. In that case it sliould be made a very weak 
 solution, or it will kill all it comes in contact with, whether seeds or plants. 
 
 1011. Fse and Value of Muck or Peat. — We lay it down as an incontro- 
 vertible fact, in all the Eastern States, that every farmer who has a muck- 
 bed can double the value of all his other manure by the use of muck, over 
 and above the expense of digging and hauling any reasonable distance. It 
 shoidd not be applied fresh, but composted with stable, pig-pen, hen-roosts, 
 and privy manures. It is a great deodorizer. Sometimes a mass of matter 
 is found in the bottom of a pond or swamp, composed almost entirely of 
 vegetable substance. Such will bear hauling a considerable distance. Where 
 the deposit is very fibrous or peaty, it will be advisable to burn it and use 
 the ashes. Occasionally a muck-bed is so largely composed of silt, the most 
 of which is sand, that the deposit will not bear long transportation. It 
 will, however, always prove beneficial where it is applied. Some deposits 
 are so entirely composed of vegetable matter, that when dry they burn, and 
 
892 FERTILIZATION. [Chap. XII. 
 
 leave no more ashes than the same bulk of chips would. Such deposits 
 are called peat, and are often used for fuel, and would be valuable to burn 
 for ashes, which could then be hauled long distances with proiit. All peatj 
 substances have an antiseptic quality when wet, and a great deodorizing 
 power when dried and pulverized. Hence its value as an absorbent of ain- 
 moniacal gases arising from stables, sinks, and decaying vegetable and ani- 
 mal matters. 
 
 One of the benefits of peat in soils is disintegration, and another, darkening 
 the color. It is believed tliat the acid of peats exerts a powerful decompos- 
 ing power, and ultimately solvent eifects upon minerals in the soil. It cer- 
 tainly influences the temperature. Potatoes have been found ripe two 
 weeks earlier in a peaty soil than in one of a light color. 
 
 By analj^sis, dried peat has repeatedly shown a greater per cent, of ammo- 
 nia than the best stable-yard manure, and when mixed with that in equal 
 quantities, the mixture has proved more valuable than the manure in a pure 
 state. These facts are sufficient to induce all farmers, as soon as they learn 
 them, to add to the bulk and value of stable, and all other manures, when- 
 ever they can have access to a muck deposit. Every one who will look at 
 the following table of analysis of two samples of peat, such as are found in 
 all jjarts of the country in swampy places, will see at a glance that such sub- 
 stances must possess manurial value. 
 
 1012. Analysis of Peati — This analysis was made by Professor Johnson, of 
 Yale College, who says : " It doubtless gives a i'air idea of tlie inorganic 
 ingredients of the majority of the peats," in llie S;atc of Connecticut : 
 
 Analysiaof Peat Ashea. I. 
 
 Potash 09 
 
 Soda 58 
 
 Lime 40 52 
 
 Magnesia 6.00 
 
 Oxyd of iron and alumina. ... 5.17 
 
 Phosphoric acid 50 
 
 Sulphuric acid 5.52 
 
 Another analysis of peat, suitable for fuel, is given below, made by George 
 F. Barker, of Charlestown, Mass., and is compared with Professor Voelcker's 
 analysis of well-fermented farm-yard manure, composed of dung of horses, 
 cows, and sheep : 
 
 Peat Manure. 
 Water expelled at 212 degrees. 18.050 75.420 
 
 S Soluble in dilute solution 
 
 S of carbonate of soda — ' 
 
 II. 
 
 .80 
 
 35.59 
 
 Analysis of Peat Ashes. 
 
 Chlorine 
 
 Soluble silica 
 
 I. 
 
 .15 
 ... 8.23 
 . . . 19.00 
 
 II. 
 
 .43 
 
 1.40 
 
 22.48 
 
 4.92 
 9 08 
 
 Sand and charcoal 
 
 ... 12.11 
 
 15.04 
 
 .77 
 J0.41 
 
 99.13 
 
 100.74 
 
 1 Soluble in solution of car- 
 
 tf honate of soda 48.840 
 
 o L 
 
 Potash 041 
 
 Soda 035 .080 
 
 Lime 2.431 1.990 
 
 Magnesia 364 .138 
 
 Peat. Manure. 
 
 Oxyd of iron and alumina 310 .073 
 
 Phosphoric acid 030 .450 
 
 Sulphuric acid 331 .121 
 
 Chlorine 009 .018 
 
 Soluble silica 494 1.678 
 
 Carbonic acid 1.175 1.401 
 
 Sand and charcoal 700 1.010 
 
 100.000 100.000 
 
 Potential ammonia 2 920 .735 
 
 Matters soluble in water 1.800 5.180 
 
 This analysis shows that peat contains five times as much organic matter, 
 and four times as much potential ammonia as farm-yard manure ; and it con- 
 tains more lime, magnesia, and sulphuric acid, but less phosphoric acid and 
 
Sko. 53.] THINGS TO BE USED FOR MANURE. 693 
 
 potash ; and taken altogether, it will he seen -why they are so well fitted fur 
 mixing together. Where not so mixed, bone dust and ashes, or phosphate 
 and potash in some other form, should be used with the peat. It may 
 happen that another deposit of peat would contain all the ingredients, and 
 be actually more valuable than stable manure, as soon as it is decomposed. 
 For heavy soils, peat or swamp muck should always be composted with 
 strong fermenting substances, such as horse and hen droppings and animal 
 matters. Some peats are so charged with iron that they are positively 
 injurious to land until they have been long exposed to the air or mixed 
 with some other substances. 
 
 The best thing to decompose muck and fit it for convenient nse in stables, 
 is lime that has been slaked with water saturated with common salt. Ten 
 bushels of this lime powder may be mixed with 100 bushels of muck. 
 Where fish are used for manure, they should always be made up in a muck 
 compost, until the whole mass becomes homogeneous. 
 
 1013. Blixin;? Muck with Ni^^Iit Soil. — Poudrette and tafeu are names of 
 manures sold in most of tlie cities, in barrels, at higli I'atcs, and much 
 appreciated by farmers and market gardeners, to give vegetables an early 
 start. Every farmer can make his own tafeu as well as buy it, for it is 
 nothing but night soil and peat or muck in a fine dry powder, mixed with 
 the excrementitious matters to absorb the moisture and deodorize the siib- 
 stance, which is then tlioroughly dried and packed for transportation. In 
 the manufacture of tafeu, in a domestic way, one of the best divisors and 
 deodorizers is charcoal dust. Fine clay or loam will answer every purpose, 
 only requiring a greater bulk. Cinders of locomotives that burn wood are 
 excellent. 
 
 1014r. Sea-Weed for Maaure.— Upon all sea coasts, the fertility of the 
 cultivated fields may be much increased by the use of what is called sea- 
 weed, which consists of marine plants cast ashore or gathered from the 
 rocks under water. The latter is called r(5fck-weed, and makes a i-icher ma- 
 nure than the variety cast up by the waves. Eock-weed is exceedingly 
 gelatinous, and consequently valuable for manure. A good method of pre- 
 serving all the properties of rock-weed is to spread the green plants upon 
 the surface, and turn them deeply under by the plow. All sea-weed is used 
 to the greatest advantage immediately after being taken from the sea-shore, 
 in the freshest state possible, while perfectly saturated witli salt water ; if 
 that is permitted to drain from it, decomposition at once takes place, and the 
 value is diminished. In the wet, green state it will add fertility to land 
 already rich, and improve the poorest soil. 
 
 1015. Tauiiers' aud Glue-Makers' Scraps for Manure.— One who has used 
 them says: "When I first used tanners' scraps, I found they injured the 
 crops. Now I consider a tun of them, properly decomposed by the aid of oil 
 of vitriol, and composted with swamp muck, wortli as much as three fourths 
 of a tun of Peruvian guano. Tiie horns and piths are also very valuable, as 
 they contain much phosphate of lime. Bone earth is so valuable, tliat if 
 
894 FERTILIZATION. [Chap. XII. 
 
 applied to a lot covered ■with five-finger vines, it will renovate and make 
 the field productive. Any way to decompose these tan-yard substances will 
 make them very valuable, more so than any farm-3'ard manure." 
 
 We liave used the waste of a glue manufactorj^ M'ith good results, applied 
 directly to grass land, and also to oats. It consists of hair and scraps of 
 flesh, mi.\ed witii lime. 
 
 1010. Forest Leaves for Manure. — At the beginning of winter, every day 
 not otherwise necessarily engaged can be profitably occupied in gathering 
 leaves. Tliere is no danger of getting too large a quantity ; they will be of 
 service in many difl'erent ways, and prove of great value wlien decayed and 
 united with the compost heap. There is no substance that can be used for 
 mulching, or winter covering of plants, equal to the forest leaves, because 
 they not only give protection, but in their decay, fertility to the soil. Leaves 
 contain potash and tannin, which make them valuable for covering straw- 
 berry beds ; and for stable-bedding there is nothing better, and tlieir value in 
 manure will more than pay the cost of gathering. Every acre of woodland 
 would afford a pretty fair dressing for an acre of corn land, if the leaves 
 were gathered and composted. If used as litter in yards and stables they 
 are worth saving, but not worth half as much as they would be in compost. 
 The same thing may be said of straw and cornstalks. Suffered to decay in 
 the open air, more than one half their value is lost. Buried in comjjost, 
 all would be saved and become fine manure. 
 
 1017. Turf Ashes for Mauure. — Neighbor A. had a piece of swamp ad- 
 joining the land of neighbor B., which iu draining afforded him a vast 
 quantity of material to fertilize his upland. Seeing what A. had done, B. 
 went so far with his part that he cut off the tussocks and piled them up as a 
 line fence on the edge of A.'s open ditch that he had dug to carry ofl' the 
 water of the tile-drains. By-and-b}^ A. complained to B. that his fence was 
 a nuisance, for it grew weed-seeds that blew over upon his tilled land. B. 
 also acknowledged it was a nuisstnce, not in the growth of weeds, but that it 
 was " of no account nohow as a fence." 
 
 " Why not haul it away, then, and put it upon 3'our corn or grass lots 011 
 the hill V said neighbor A. 
 
 " Well, to tell you the truth, I haven't no faith in it." 
 
 " Why, you buy ashes. Don't you think that such a mass of vegetable 
 matter contains potash ?" 
 
 " Well, I don't know. May-be it does ; but I guess it don't contai 1 
 enough to pay for hauling. But as you like such stuff, I will tell you wliat i 
 is : If you will haul it away, von may have it iu welcome — the whole strinir." 
 
 "When shall I get it off?'' 
 
 " Oh, any time 3'ou like, between now and planting-time next spring." 
 
 « Enough said. I'll do it." 
 
 " Very well. No half-way work ; you must make a clean sweep of it ; 
 take everything off down to the surface." 
 
 « I'll do it." 
 
Sec. 53.] POTASH AS A SUBSTITUTE FOR ASHES. 895 
 
 So they parted. B. bragged a little that lie had hitched A. to the biggest 
 load he ever undertook. " He has no idea how many loads he will have to 
 pull up that hill. He won't do it, but I shall have the laugh at him when 
 he gets about half of it off and backs down on the balance." 
 
 Several times before autumn B. dropped a hint that ho thought A. had 
 better begin his big job. A. said it " wa'n't quite dry euougli yet." It got 
 very dry, however, in September — dry as tinder, B. said. A. took a look 
 at it, and he thouglit it " was dry enough." So, one hot, sunny day, he 
 walked down with a few matches in his pocket — handy things tliose matches, 
 for with them he lighted the old tussock fence into a roasting hot fire, that 
 reduced the whole string in two days to a pile of biting strong ashes, which 
 did not require a very great outlay of team-labor or hand-work to get up on 
 the hill, where they made a mark that has not been effaced yet, and prob- 
 ably will not be until after the owner has said to himself several times : 
 " \Yliy the deuce didn't I think about burning the useless old fence and 
 haul the ashes on my own land ? You -won't catch me in such a trap as 
 that again." 
 
 We wonder if there are not some other people in the world who may profit 
 by this man's folly, and learn that dry tussocks will make ashes, and that 
 ashes are ^ooj manure. 
 
 lOlS. Wood Ashes for Manure,— No fiirmer in the old States can afford to 
 sell ashes, for any price that the soap-boiler will pay. Where oats lodge, as 
 they are apt to do upon manured land, an application of ashes would save 
 the crop. Leached ashes are much used upon Long Island, but we doubt 
 the economy of the application, as they cost about ten cents a bushel at 
 Albany. When leached ashes have been exposed to the air a long time, they 
 are more valuable than when first leached. Potash, the chief constituent of 
 wood ashes, is a necessar}' clement for most plants, not only as direct food, 
 but as an agent for rendering silex and otiier constituents of the soil capable 
 of being absorbed and appropriated in plant life. 
 
 1019. Potash as a Substitute for Ashes,— Although we believe unleached 
 ashes a chea|) manure at twenty-five cents a bushel, we have no doubt that 
 the same effect may be as cheaply produced by purchasing a crude kind of 
 potash, such as comes from the Syracuse salt works, and has usually cost 
 fifty dollars or sixty dollars a tun. If potash is used, it must be in powder, 
 mixed with dry muck, coal dust, or fine loam, as a divisor. Concentrated 
 maiuires generally contain very little or no potash. In guano it rarely ex- 
 ceeds three per cent. Superphosphate of lime can contain none of conse- 
 quence. Potasli can not be economically added to manufactured manures, 
 because nearly pure potash, or even the raw material from wliich it is 
 made, can be more economically used separately. If any manufacturer 
 of manure says it contains much potash, you may ask how he can afford to 
 use it. 
 
 1020. Coal Ashes as a JMauure. — "Are coal ashes of any benefit as a manure ?" 
 The Genesee Farmer says : " That coal ashes are of some benefit, there 
 
896 FERTILIZATION. [Chap. XII. 
 
 can be no doubt. Numerous analyses of them have been made. We have 
 now before us analyses of ashes from different kinds of coal. They vary 
 considerably in composition, but on an average contain about 45 per cent, of 
 silica, 40 of alumina and oxyd of iron, 12 of sulphate of lime or plaster, 2 of 
 magnesia, and 1 of phosphoric acid. Commercially, coal ashes have no 
 value as a manure, but to every farmer are worth something, and ought not 
 to be thrown away. It is said they are good as a top-dressing for lucern 
 and red clover. They are frequently mixed with night soil for the purpose 
 of absorbing unpleasant odors. They are often employed in the garden, 
 more for the purpose of forming walks and preventing the ravages of mice, 
 than as a manure. Covering early-sown peas with coal ashes is said to for- 
 ward their growth, as they tend to absorb the rays of heat." 
 
 1021. Value of Soot as Manure. — Soot is -worth nearly as much as guano. 
 Try it upon the grass plot, the flower bed, the melon patch, the grapevines, 
 or any other plants. Mixed with water, and sprinkled upon vines, it will 
 aid in keeping off bugs ; spread dry upon the surface, it absorbs heat and 
 hastens growth. Upon flowers it adds beauty to their colors as well as 
 strength to the plants. Farmers, sweep your chimneys and save the soot, 
 and you will save a very valuable manure. 
 
 1022. Magnesia as a Fertilizer. — Magnesia is found abundant in the mud 
 of the Nile, which is very fertile ; and in some of the richest marls that have 
 been analyzed, it was found in quantity sufficient to destroy instead of im- 
 prove soils, if it had been as deleterious as some sujipose. The salts of mag- 
 nesia may be employed, as the salts of lime, for fixing ammonia, but in that 
 case the profit of its application will depend upon its cost. In one reported 
 experiment, the phosphates of magnesia and ammonia, -when applied at the 
 rate of one hundred and tliirly to two hundred and sixty pounds per acre, 
 had a powerful effect upon the production of Indian corn ; at the rate of 
 three hundred pounds per acre, it increased the crop of grain six times, and 
 of straw three times. 
 
 1023. Theory of Atmospheric Fertilization. — Whether the nitrogen which 
 exists in the air, forming seventy-nine hundredths of its mass, supplies the 
 nitrogen essential to vegetation, or whether this element is obtained, during 
 growth, from salts in the earth, or from volatile nitrogenous compounds in 
 the air, has never yet been satisfactorily determined, and until it is, our 
 advice is : Look well to your manure heap ; enlarge it as much as possible, by 
 adding to it all the coarse straw, stalks, and offal about your buildings. You 
 may also enlarge the pile, and add to the value of your store, by gathering 
 weeds, or sods, or road-washings and muck. Sprinkle the heap occasionally 
 with plaster, but never add lime. Slops of the house and soap-suds will add 
 to fertility and hasten decomposition, and prove far more reliable than any 
 dependence upon the atmosphere. 
 
 1024. Phosphorus as a Fertilizer. — Phosphorus is found in all animals, 
 combined with a particular organic substance in the brain, the spinal mar- 
 row, the spermatic fluid, and in the milt of flshes, and certain mollusca, and 
 
Sko. 53.] GREEN SAIfD— FISU-GUANO. 897 
 
 also in all vegetables. It exists in combination with oxygen in all rocks, in 
 all soils, and in tlie flesli and bones of all animals, and their secretions. 
 Some of the fossil excrements of extinct animals are of great value as fer- 
 tilizers. The apatite rock of Estraraadura, in Spain, contains eighty-one 
 per cent, of phosphate of lime, and is so abundant that it is used as a building 
 material. In the United States, mineral phosphates are found in many 
 localities, particularly in Morris County, New Jersey, and at Crown Point, in 
 the State of New York. The mineral was crushed and sold in our markets 
 as a fertilizer, but it has gone out of use, because it was found tliat the phos- 
 phorus of bones was, in a progressed form, of an almost inconceivably 
 greater value than that in its native condition in the rocks. 
 
 1025. How to Defect Adulterations of Superphosphates. — The superphos- 
 phate of lime, from its comparatively liigli value, leads to adulteration. 
 Water is added to increase the weight ; earths, chalks, lime, old plaster, and 
 oyster-shells are sometimes mixed in a manner to deceive the eye. Some 
 of these substances may be detected with the aid of a magnifier, by acids, or 
 by simple washing with water and examining the residue after decanting. 
 If old plaster is suspected, the hair will be seen ; if oyster-shells or chalk, the 
 effervescence and particles of shells will furnish indications which will lead 
 to closer scrutiny. The sulphate of barytes, or siilphate of lime, increases 
 the weight of the mixture, and the former, particularly when thrown into a 
 tumbler of water, will fall to the bottom more rapidly than the superphos- 
 phate. 
 
 1026. Greca-Sand-Marl Manure. — This valualile manure abounds in New 
 Jersey, and is one of the best things ever applied to a light sandy soil. Its 
 appearance is not unlike common musket gunpowder, except instead of the 
 grains being black, thej' are of a greenish color. The application of niter to 
 grass, and potash to woody plants, has shown that both, in their place, are 
 of almost inconceivable value to farmers, but not more so than green-sand- 
 marl, which contains an appreciable rpiantitj' of potash. 
 
 1027. Norwegian Fish-Guano Manure.— In the year 1855 a company in 
 Norway Avas organized with a capital of $100,000, to render available the 
 great mass of refuse hitherto thrown away in the ])rcparation of codfish at 
 the Loffoden Islands, about 300 miles north of Ciiristiania, where enough of 
 this refuse is thrown away to make 2,500 tons of fish-guano annually. In 
 comparison with good Peruvian guano, this new guano proved to be as fol- 
 lows: Upon cereals, one pound of fish-guano was found, in twenty-five 
 experiments, to produce an average increase of 9.1 jjounds, while Peruvian 
 guano produced, in an average of twenty-three experiments, an increase of 
 6.3 pounds. Upon root crops, one pound of fish-guano was found, in an 
 average of seventeen experiments, to produce an increase of 15.6 pounds, 
 while one pound of Peruvian guano, in an average of the same number of 
 experiments, was found to give 17.3 pounds of increase. The whole of the 
 experiments showed that the fish-guano was very nearly equal to the best 
 Peruvian guano, weight for weight. 
 
898 FERTILIZATION. [Chap. XH. 
 
 1028. American Fish-Guano. — Two companies, eimilar to the above, are 
 in operation in this country, one in the State of Rhode Island, and the other 
 on the south side of Long Island. They make fisli-oil of the scup or porgies, 
 and the menhaden, caught so plentifully along the coast. The very consider- 
 able residue after the extraction of the oil, composed of the skin, bones, and 
 muscle of the fish, is dried and ground into a powder, M'hich bears a close 
 resemblance to the imported guano, and is sold at about forty dollars per 
 tun. Tills manufacture might be widely extended if these companies would 
 take the trouble to iutroduce their article to the notice of farmers generally. 
 
 1029. Uow Much 3Ianurc Should we Use? — We answer: Just as much as 
 can be converted into paying crops. Take five acres in corn : 
 
 No. 1 with $10 worth, of manure, 40 bushels, worth 75c $30 00 
 
 No. 2 " 20 " " 55 " " " 41 25 
 
 No. 3 " 30 " " 69 " " '■ 5175 
 
 No. 4 " 40 " " 83 " " " C2 25 
 
 No. 5 " 50 " " 97 " " " 72 75 
 
 Let US now suppose that the rent of soil, taxes, cost of cultivation, will 
 
 cost $15 per acre, so that M'ith No. 1 the cost of manure and other expenses 
 
 would be $25, leaving a profit of $5, besides the value of the stalks, which 
 
 will range throughout in a fair ratio with the yield of corU' — ^then the profit 
 
 would stand thus : No. 1, $5 ; No. 2, $6 25 ; No. 3, $0 75 ; No. i, $7 25 ; 
 
 No. 5, $7 75. The second year, without any additional manure, 
 
 No. 1 would yield 30 bushels, worth $22 50 profit $7 60 
 
 No. 2 " "45 " " 33 75 " 18 75 
 
 No. 3 " " 59 " " 44 25 " 29 25 
 
 No. 4 " " 73 " " 54 75 " 39 75 
 
 No. 5 " "87 " " 65 25 " 50 25 
 
 The true science of manuring is to convert the manure at a profit into 
 salable products. If the land will produce, say a profit of $20 an acre 
 upon the labor employed, without manure, and with the same labor it will 
 produce a profit of $-10 an acre over the cost of manuring, then it is cer- 
 tainly mucli more profitable to buy and apply the manure, whether guano 
 or any other suitable substance, than it is to work without manure. 
 
 1030. Manuring with Green Crops and Lime.— Green crops i)lowed under are 
 powerful auxiliaries in rendering a light soil fertile. But if this is done too 
 often successively, it eventually renders the soil too carbonaceous — i. e., too 
 full of vegetable matter. This must be corrected by the application of lime. 
 Some farmers complain that they do not get a suflicient increase of grain to 
 pay for the use of guano. They would get the full value of the guano if 
 they would always sow clover seed on the grain, so as to have a croji of 
 clover to turn under as manure. Land that is kept rich by green crop ma- 
 nuring never gets as full of weeds as it does from stable manure. The 
 manure made from one tun of clover hay is worth as much as that made 
 from a tun and a half of timothy or meadow hay. There is no doubt on this 
 point; and it is one reason why we nrge the importance of an increased 
 growth of clover as a means of enriching the soil. If the manure obtained 
 from the consumption of a tun of meadow hay is worth $6 43, that made 
 
Sko. o3.j now TO INCREASE MANURE- VALUE. 899 
 
 from a tim of clover liay is worth $9 64, or half as nuich again — and this is 
 trne everywhere. 
 
 1031. Value of Manure Depeads upon Fineness. — All costly fertilizers 
 should be examined in regard to their fineness. If properly prepared, they 
 are nearly in the state of impalpable powder. To prove this, pass a small 
 sample through a fine sieve. This extreme fineness is the principal secret of 
 the immediate benefit derived from guano.- It has been stated that two 
 bushels of bone-dust were worth more for immediate use than one hundred 
 bushels of whole bones. Leather shavings, woolen rags, hair, oil-cake, and 
 similar substances, are valuable manures, because they contain a large per- 
 centage of potential ammonia, perhaps equally as large as the best samples 
 of guano, yet their action is much slower. In all manures which contain 
 potash, it is in such a mechanical condition that it is much more readily 
 absorbed by plants than the native potash of rocks ; and this is true of neady 
 every other mineral substance. 
 
 1032. Value of Sh?Uer for Manure. — In England, Lord Kinnard made a 
 variety of experiments proving the value of protecting manure from the 
 weather. Twenty acres of rich, dry loam were selected, one half of which 
 was manured with manure which had been housed, and the other half with 
 that which had been exposed, at the rate of twenty loads to each acre. The 
 whole was plowed and planted to potatoes, each part receiving the same 
 treatment. Here is the result : U^■^o^sED Manure.- — One acre produced 7 
 tuns, 6 cwt., and 8 lbs. ; another acre, 7 tuns, 18 cwt., and 99 lbs. Housed 
 Manure. — One acre produced 11 tuns, 17 cwt., and 56 lbs. ; another acre, 11 
 tuns, 12 cwt., and 20 lbs. Difference in favor of housed manure about 60 per 
 cent. The field was then sown with wheat, and dressed in the spring with 
 300 lbs. of guano per acre, and yielded upon two acres, treated with unhoused 
 manure, 84 bushels of grain and 6,864 lbs. of straw. The other part, two 
 acres, gave 109 bushels of grain and 9,482 lbs. of straw. On the first part 
 the wheat weighed 61 1 lbs. per bushel, and on the other, 66 lbs. 
 
 1033. Immeuse Value of Manures Used in England. — The value of manure 
 annually used in England is estimated, from statistics carefully collected, at 
 the enormous sum of $300,000,000. In making this calculation, all the 
 home-made manures are put down at their commercial value, and all the im- 
 ported bones, guanos, and other fertilizers, at the prices paid for them by 
 the farmers. Is such high manuring profitable? That is the test question. 
 It is the one that has governed English farmers — no other would be sufHcient 
 to cause them to use such an immense sum annually in manures. It is simply 
 a commercial operation, based upon this question : " How much manure is 
 my manufactory (the farm) capable of working up this year?" 
 
 1034. Value of Particular Manures on Wheat. — The following table shows 
 the result of experiments made bj^ Dr. Voelcker, at Cirencester, England, 
 with fertilizers for wheat. The manures were all in fine powder, mixed 
 with ten times their weight of soil, sown broadcast upon the growing crop 
 March 22, and washed in evenly by a gentle rain. 
 
900 FERTILIZATION. [Chap. XII. 
 
 No. of Manures used, and Quantity Yield of Wheat Yield of Straw Increase of Wheat Inc. of Straw 
 
 Plots. per acre. per acre in bus. per acre in lbs. over unman'd plot, overunma. do 
 
 1 No manure 27 1,984 bus lbs. 
 
 2 280 lbs. Peruvian guano 40 1-10 2,576 13 1-10 ... 592 
 
 3 195 lbs. nitrate of soda 38 2,696 11 712 
 
 4 180 lbs. nitrate of soda and 168 I .„ „ ,„ „ t.^o lo o ,r> ^rc, 
 
 Ibscommonsalt ^40 6-10 .... 2.736 .... 13 6-10 .... 752 
 
 5 448 lbs. Proctor's wheat manure. 39i 2,668 12i . 684 
 
 6 672 lbs. " " " .44 1-5 .... 3,032 .... 17 1-5 .... 1,048 
 
 7 4 tuns chalk-marl 27 1,872 None 112dec. 
 
 The manures cost $7 80 per acre, except tlic large dose of Proctor's wheat 
 manure on plot 6, which cost $11 70. 
 
 The ^yheat was worth $1 20 per bushel. Leaving tlie value of the straw 
 out of the question, the profit from the use of the top-dressing was : With 
 guano, $8 70 per acre ; with nitrate of soda, $8 per acre ; with nitrate of 
 soda and salt, $9 33 per acre ; with 448 lbs. wlieat manure, $7 95 per acre ; 
 M'itli 672 lbs. wheat manure, $13 87 per acre. 
 
 Taking the first four lots, whore the same amount of money was expended 
 on each lot for manure, the nitrate of soda and salt give the best result, 
 guano next, the wheat manure next, and the nitrate of soda alone, the 
 le!lst. Tlie extra heavy dose of wheat manure gave the largest profits, 
 although tlie increase is not quite in proportion to the amount of ma- 
 nure ; that is to say, the extra 224 pounds on plot G gave an increase of 
 about five bushels, while the 448 pounds on plot 5 gave an increase of 12i 
 bushels. The cost of producing an extra bushel of wheat was : With gu- 
 ano, 60 cents ; with nitrate of soda, 71 cents; with nitrate of soda and salt, 
 57 cents ; with 448 pounds wheat manure, 62 cents ; with 672 pounds wheat 
 manure, 45 cents. 
 
 In these calcTilations we have allowed nothing for any effect which the 
 manures may produce on the next year's crop. As a general rule, the effect 
 of such manure the following year is very sliglit, especially if the land is 
 sown with any of the cereals. On clover, the mineral manure left in the 
 soil sometimes proves beneficial. This is in accordance with theory, and 
 agrees witli the experience of fiiriners who use guano on the poor soils in 
 Maryland and Virginia. 
 
 1035. Value of Particular Manures on Oats.— Joseph Harris, editor of the 
 Genesee Farmer, Eochester, N. Y., sowed oats May 20, on clover sod, and 
 May 26, just as they were coming up, top-dressed the land with the follow- 
 ing manures per acre : No. 1, no manure ; No. 2, 600 lbs. of plaster; No. 3, 
 300 lbs. superphosphate of lime ; No. 4, 300 lbs. sulphate of ammonia ; 
 No. 5, 300 lbs. superphosphate of lime and 300 lbs. of sulpliate of ammonia. 
 The result was as follows : 
 
 Grain per acre. Bus. per acre. Weight per bus. Total straw & grain. 
 
 .... 2.750 
 .... 3,700 
 .... 3,525 
 .... 8,850 
 .... 3,725 
 
 
 Straw per acre. 
 
 Grain 
 
 per acre. 
 
 Bus 
 
 per acre. 
 
 Weight p 
 
 No. 1. 
 
 ..1,958 lbs. . 
 
 
 792 . 
 
 
 36 .. 
 
 .... 22 
 
 No. 2. 
 
 ..2,475 " . 
 
 
 1.225 . 
 
 
 47 .. 
 
 .... 26 
 
 No. 3. 
 
 ..2,475 " . 
 
 
 1,0-50 . 
 
 
 50 . 
 
 .... 21 
 
 No. 4. 
 
 ..2,750 " . 
 
 
 1,100 . 
 
 
 50 .. 
 
 22 
 
 No. 5. 
 
 ..2,575 " 
 
 
 1,150 . 
 
 
 51 .. 
 
 .... 22J 
 
 The most striking result is the effect of plaster (gypsum or sulphate of 
 
Sko. 53.] THE USE OF SALT AS A FERTILIZER. 901 
 
 lime) on the quality of the grain. The oats on all the plots, owing to the 
 late seeding, were very light, but where the plaster was used, they were 4 Ujs. 
 per bushel heavier than on the unnianured land. In addition to this, there 
 ■was an increase of 11 busliels of oats and 950 lbs. of straw per acre from tlie 
 use of plaster. Mr. Harris has since obtained a similar result by tiie use of 
 plaster on Chinese cane. 
 
 1036. The Use of Salt as a Fertilizer.— Salt has long been nsed in En- 
 land, with most beneticial results, applied in all quantities, from three to 
 twenty bushels per acre. An article before us, from an English farmer, says 
 he applies it as a top-dressing to all his grain crops by sowing it broadcast in 
 April or May, at the rate of four bushels per acre, taking care to do it after 
 sunset. He has founcl tliis application an excellent remedy for the grub and 
 wire worm. He gets a much heavier crop of wheat from the salted than the 
 unsalted soil, and finds that he not only obtained a bolder, brighter, and 
 heavier sample, but the crop is entirely free from rust, blight, and smut in 
 that portion of iiis farm where salt has been used, at the rate of from seven 
 to ten bushels per acre, sown broadcast as long before the planting as cir- 
 cumstances will permit, in order that the salt may in tiie different workings 
 of the land get thorouglily incorporated with the soil, and he finds that 
 grubs and wire- worms avoid land treated in this way. 
 
 A correspondent of tlie Maine Farmer gives the following experiments 
 in the use of salt. He says he put on six bushels to the acre, and harrowed 
 it in before sowing his grain and grass seed. " That is the very secret wliy 
 I get so much hay. I have used salt many years on corn, putting it on the 
 hill before hoeing, as we do ashes. Upon one piece, I put ashes on one third, 
 on one third, plaster, and on the other third, salt, and the salted portion was 
 decidedly the best. I broke up two thirds of an acre of poor land, and not 
 having any common stable manure to put on it, I sowed, after harrowing 
 over once, eight bushels of salt, and harrowed it in and planted potatoes and 
 peas. They came up as strong and grew as rank as they would have done 
 had there been a heavy coat of dressing plowed in." There is one peculiar 
 feature in the efiects of salt \#ien put into the ground — it serves to make 
 the ground very light and mellow. 
 
 The following are opinions of Prof. S. W. Jolmson, of Yale College, upon 
 the use of salt. The constituents of salt are chlorine and sodium, which are 
 ingredients of all cultivated plants. The use of salt has often doubled the 
 amount of a crop. The growtli of sugar plants and tobacco is much in- 
 creased by it, though it is said to injure the quality of tobacco. Asparagus 
 will bear a large dressing of salt. Root crops are also benefited by it. It 
 makes the straw of grain stronger, and is beneficial to all crops in drouth. 
 One of the l)enefits of salt is to make inert potash and ammonia existing in 
 the soil available to growing plants. 
 
 In our own practice, we liave nsed salt with decided success upon a loamy 
 soil, in a gneiss rock formation, not many miles inland. It was highly 
 beneficial in restoring vigor to old grass sod, and was apparentlj' very bene- 
 
902 FERTILIZATION. [Chap. XII. 
 
 ficial to all I'arm and garden crops, except the cucurhita family. To tliat, 
 salt is injurious. 
 
 1037. Chandlers' Greaves aud Value of Hair for Manure.— Analysis proves 
 that chandlers' greaves are valnahle manure, as it shows that they contain 
 thirteen per cent, of ammonia, or — what is the same thing practically — 
 nitrogen enough to j'ield that amount of ammonia to the soil. The best way 
 to employ them -would probably be to break fine, soak in cold water, and 
 spread them in a compost heap. Their value may be calculated upon the 
 cost by estimating the ammonia they would yield at 14 cents a pound ; that 
 is, 13 per cent. 260 lbs., 14 cents, a lb., $30 40, besides other ingredients. 
 In addition to this value, they may be fed to pigs and poultry, without 
 lesseaiing their worth for manure, while they are frequently worth all they 
 cost for feeding purposes. It is proper to observe that the flesh of poultry, 
 and also the eggs, while fed npon greaves, have a i"ank, unpleasant flavor. 
 Their great value is for manure, and for this purpose English farmers have 
 bought up great quantities in New York. In the autumn of 1SG2, their 
 orders kept the market quite bare, though, owing to the receipt of 50,000 
 hogs a week, and 5,000 bullocks and 10,000 sheep, the quantity manufac- 
 tured was larger than ever before. The average price was §25 a tun, at 
 which they are cheap manure. Of the value of hair for manure, we can 
 say that we have used a good many loads of the refuse of a glue manufac- 
 tory, composed mostly of hair, and found it a most valuable manure. A 
 farmer inquires : " What is the best manure for celery ?" "We answer, hair ; 
 it surpasses all other fertilizers. The waste of farriers, cloth-dressers, glue- 
 makers, tanners, aud all other trades, where hair or wool forms the bulk of 
 the waste, is worth ten times as much as stable manure. The sweepings 
 of New York barber shops have been found very valuable, and in our opin- 
 ion there is no substance saved upon the farm for manure, that would pay 
 so great a profit upon the labor, as in preserving all the hair combed from 
 live animals, or scraped from dead ones, feathers included. It is worth an 
 average of six to ten cents a pound for manure. 
 
 1038. Can Worn-out Lauds be Restored ?— ^e answer. Yes, certainly ; but 
 not by the common prescription of " rest:" tliat is, to be thrown out of cul- 
 tivation, as they always are at the South, and as they frequently are at the 
 North. By no rest, such as land gets when allowed to grow up in old field 
 pines and sedge grass; or in sumac bushes, muUens, and briers, will it ever be 
 restored. It may be by continued cultivation, deep plowing, proper manur- 
 ing, and growing clover. That is the way to rest and restore worn-out 
 lands. Some fields are called worn-out, and are really unpi'oductive, though 
 lacking a single ingredient of fertilitj'. If worn out so that wheat fails, add 
 bone-dust ; if exhausted of potash, you can not grow plants that contain a 
 large amount of that salt, until you restore potash to the soil by an applica- 
 tion of some fertilizer in which it exists. Think, if there is no lime you can 
 not grow the cereals until you give lime to the soil. If your land is deficient 
 in chlorid of sodium, as almost all the old fields of New England are, think 
 
Seo. 53.] THE USE OF WATER AS A FERTILIZER. 903 
 
 how easy to restore it by a dressing of common salt. Think, that whatever 
 the condition of the surface, the productiveness of the hind depends greatly 
 on the nature of the sifbsoil. If that is cold, wet, and poor, all efforts to 
 improve the soil will be labor in vain, unless recourse is tirst had to under- 
 draining. And finally, let it be your constant thought, that nearly all 
 lauds naturally fertile soon lose their fertility by growing successive grain 
 crops on them, unless the organic elements abstracted liy the crops arc again 
 restored to the soil in the shape of manures. 
 
 1039. Water as Mauure— the Worth of Water.— Without water all manure 
 is worthless. With it in abundance, croj^s can be grown almost without 
 manure. There is fertility in the water of the clearest stream. Who can 
 calculate the worth of water ? Who knows, or even thinks, what a well of 
 water is worth? Who can tell the value of a spring? Can any one count 
 in dollars the worth of a tiny brook that trickles down through a farm? 
 The little brook where the horses, oxen, cows, and sheep go for their daily 
 drink — for water that they can not live without ; wiiere the swine go in 
 summer to cool their fat sides ; where the old goose leads her young brood 
 to teach them that water is a necessity of their life ; where the old ducks 
 and the young ones sail up and down, enjoying a listless life of nothing 
 else to do ; where even the old dog, as he runs over the fields, stops to 
 quench his thirst and cool his panting tongue. Down at the brook ! Ah, 
 yes ! down at the brook ! What a charm in that word ! and it speaks of the 
 worth of water — a substance that no one can live without; a thing that 
 if it does not naturally exist convenient to the house, the farm, the farm- 
 yard, the field, should be made so artificially. Who can tell the worth of 
 water for irrigation ? It can hardly be computed. If no water came from 
 the clouds or the atmosp>here, in rain or dew, what would our crops be 
 worth? Look! how everything is parched up even in a little drouth of a 
 few weeks. And oh, how man and beast suffer if for a single day deprived 
 of Avater! Think of it, farmers, and dig wells, build cisterns, make reser- 
 voirs, that all may have an abundance of water. Above all other things, 
 furnish your household with plenty of soft water, and you will have some- 
 thing every wash-day to show the worth of such an abundant thing in nature 
 as water. You will have, what you should always save, tlie soap-suds for 
 manure. I wish you could see, as I do from the desk where I now write, 
 the enormous growth of a grapevine made the present summer (1862) by 
 the use of soap-suds. 
 
CHAPTER XIII. 
 
 IHRIGATION-DRAINING-PLOWING. 
 
 PLOWS AND OTHEK FARMING TOOLS. 
 
 SECTION LIV.-IRRIGATION AND TILE DRAINING. 
 
 (E hold tlie following to be well-demonstrated agricul- 
 tural truths : 
 
 First : That where land is worth $50 or more per 
 acre, it is cheaper to drain wet land than to pur- 
 chase a greater area. 
 
 Second: That such land must be drained before it 
 can be cultivated with true economy. 
 
 Third : That one half, if not three fourths, of the 
 arable land of the Eastern and Middle States would 
 be improved enough to pay for drainage. 
 
 Irrigation is also a new art in American agricul- 
 ture, but it is one that America can no longer afford 
 to ignore — it should go hand in hand with drain- 
 age ; and American farmers should read what it has 
 already done for other countries, and think what it may do for this. With- 
 out irrigation, portions of Mexico would be almost uninhabitable ; and in 
 California it is of immense value, though the means employed are very rude. 
 No country ou earth, perhaps, was ever so favorably situated for irrigation 
 as the northern portion of the United States. Notwithstanding the gen- 
 erally hilly surface, there are thousands of springs and rills that only need 
 to be led by natural descents into artificial channels ; and where streams do 
 not exist, a windmill can be made to pump up water from a lower level to 
 a reservoir on the hill, to be let down when required for the use of growing 
 crops. Yet the matter is scarcely ever thought of, and no laws or system 
 have ever been adopted to promote the improvement. 
 
 1040. Irrigation— its Practice and Value in Italy.— In Lombardy, irriga- 
 tion has been in vogue for seven hundred years, and as may be observed in 
 the spread of particular manufactures where once planted, so of irrigation, 
 it has continued to spread over all the land capable of being brought under 
 the system. "Whole fields have been graded, as we cut down and fill up the 
 uneven surface of a city plot, to bring the land under the level of the 
 canals and ditches. The title of all running streams in the Lombardo- Vene- 
 tian kingdom has been reserved in the government, so as to prevent any 
 individual monopoly of this necessity in all agricultural pursuits of that 
 
Sec. 54.] TUE PRACTICE IN ITALY. 905 
 
 couutiy. Tlie riglit to use the •water of streams for purposes of irrigation is 
 let out to individuals under certain restrictions, anl the interest of the 
 several parties likely to be affected is adjusted by a highly educated class 
 of hydraulic engineers, uo one of whom is allowed to assume the duties or 
 practice the profession unless he is a regular graduate of the University of 
 Turin. There is a government corps of engineers, and those who practice 
 the profession on private account. It requires the highest degree of skill to 
 construct tlie interminable system of canals in Lonibardy, and to gauge all 
 their capacity so as not to waste a gallon of water, and yet give each tract of 
 land the exact supply stipulated for. Canals are often formed by landed pro- 
 prietors without any immediate prospect of benefit ; they look to tlie ultimate 
 advantages, and if they can by that means save their land from deteriora- 
 tion without getting back the first cost, they consider the outlay a profitable 
 one. By the use of water, the capacity of the land to carry an increased 
 number of cattle is almost inconceivable. It is estimated that the triangle 
 included between Milan, Lodi, and Pavia, the sides of which are about 
 twenty miles, contains 100,000 horned cattle, and as many swine, and one 
 fourth of that number of horses. By the careful saving of animal ma- 
 nures, and all the tafeu made by a large population, the soil is kept in high 
 condition. 
 
 The profits of irrigation may be seen by the following statement : Signor 
 Berna made careful measurements upon land of an average quality, and 
 found the yield of grass per acre as follows : First cutting in February, 84 
 cwt. ; second cutting in March and April, 126 cwt. ; third cutting in April 
 and May, 131i cwt. ; fourth cutting in May to July, 73^ cwt. ; fifth cutting 
 from July to September 15, 63 cwt. Total, 477| cwt., or nearly 24 tuns. 
 
 In the vicinity of Milan, where it is probable they enjoy the advantage 
 of sewerage water, the marcite meadows yield fully twice this quantity. 
 The grass is cut for soiling in November, January, March, and April ; and 
 in June, July, and August for hay ; while the pasturage in autumn is rich 
 and abundant. The gross average produce of an acre of winter meadow is 
 estimated at $75, when the grass is consumed by dairy stock. Summer 
 meadows are watered with three waterings a month from March to Septem- 
 ber, to the amount of about forty-two inches over the surface. Tliese mead- 
 ows average something over three and a half tons of hay per acre. After 
 the land has been three years in meadow it is planted three years in rice, 
 and averages fifty-one bushels of paddy, or eighteen bushels of cleaned rice 
 per acre. The soil is reduced to mud, and the rice sown from March to 
 May, and kept under water until the plant blooms in July. After that it is 
 irrigated occasionally, and harvested in the latter part of September. The 
 rice crop is followed by Indian corn two years, and that by wheat one year, 
 and then it goes down to grass again. 
 
 Indian corn requires the smallest amount of water of any crop. That 
 corresponds with the experience of this country, yet it often happens that 
 a single watering would double the profit. It is usually watered in Lom- 
 
906 IRRIGATION^DKAINING— PLOWING. [Chap. XIII. 
 
 bardy once a month for six months, and yields about fifty bushels to an acre. 
 The water sufficient for Indian corn costs about 75 cents or 80 cents an acre, 
 and owing to the dry, calcareous soils of Italy, which are ill calculated to 
 produce grass or Indian corn, and with the wretched plows that are com- 
 mon, and the bad system of tillage, the population of the irrigated districts 
 would starve if they were cut off from the usual supply of water. 
 
 lOil. Irrigation in Tiedmont.— In Piedmont two thirds of the land before 
 it was irrigated was nearly barren. Now it yields fine grain crops. The 
 marcite fields, or w'inter meadows, are highly manured, and then supplied 
 with an enormous quantity of water, the purer the better; that from springs 
 being preferred. These fields are continually flooded from the 8th of Sep- 
 tember-to the 25th of March with one cubic foot per second, or 390 tuns of 
 water daily, for three acres of marcite. The average cost of water for a 
 winter meadow is $5 per acre. The extent of irrigated land in the valley 
 of the Po, Piedmont, and Lombardy is not less than 1,000,000 acres. The 
 great volume of the water is applied to the fields in grass and i-icc; corn, 
 flax, and wheat do not require as much. The water comes principally from 
 the melting snow of the Alps, so that it can not be said to contain any 
 special fertilizing quality. The great source of fertility comes from the in- 
 creased number of domestic animals that can be kept upon the land, and 
 also that the water fits their manure for the immediate use of the plants, so 
 that nothing is lost. What has been done by irrigation in Italy may be 
 more fully learned by studying a work published in England ujjon the sub- 
 ject, by K. Baird Smith, captain Bengal Engineers ; and what has been 
 done there may be done here; that is, millions of sterile or very un- 
 profitably cultivated acres may be made to produce most luxuriant crops 
 by simply furnishing the growing plants with a supply of pure water, to say 
 nothing of the advantage of water from some of our rich muddy streams, or 
 from the sewerage of cities, or wasted liquids of stables and farm yards. 
 
 Piedmont appears to have the oldest system of irrigation, reacliing back 
 to the fourteenth century. Both government and individual enterprise have 
 been brought to bear upon the creation of the system. One canal, that of 
 Caluso, on the Orca River, begun in 1556, and completed in four years, 
 owned by the state, is a work of great magnitude, 20 miles in length, 
 with expensive tunnels, numerous bridges, aqueducts, and expensive works 
 of masonry, which cost $8,500 per mile, occupies 54 acres of land, and 
 carries 366 cubic feet of water per second, watering 15,000 acres of land. 
 The canal of Dora, 8 miles long, yields 70 cubic inches of water per second, 
 and waters 500 acres of meadow, at a charge to those who use the water of 
 about fifty cents an acre. The canal of Fiano, 10 miles long, gives 48 
 cubic feet of water per second, and waters 950 acres. Another, 5 miles 
 long, with 12 feet per second, waters 200 acres. The canal of Sori is 44| 
 miles long, and carries 700 cubic feet per second, and waters 30,000 acres, 
 which is at the rate of 42| acres per cubic foot per second, the rice lands 
 requiring double as much water as other lands. Tlie charge for water is on 
 
Seo. 54.] TUE PKACTICE IN FRANCE, BELGIUM, ETC. 907 
 
 the average about §1 80 per acre for a cubic foot of water per second. The 
 canal of Cigliano is 20 miles long, with a branch 10 miles long and 15 to 26 
 feet broad, 4 feet deep, and carries 650 cubic feet of water per second, and 
 Maters 32,500 acres, equal to 50 acres per cubic foot. The price is §1 80 
 per acre for dry land, and double that and over for rice land. This canal is 
 crossed by 50 bridges, and has 13 aqueducts. The Canal del Rotto, begun 
 in the year 1400, is 8 miles long, and discharges 600 cubic feet per second, 
 and waters 25,000 acres, giving 55 acres for a cubic foot per second. These 
 are only a few of the many canals of irrigation in Piedmont and Lombardy, 
 where the system is more perfect than in any other Eumpean country, and 
 where the results have long been proved satisfactorily p;-ofi;able. 
 
 1042. Irrigation iu Germany. — In Germany, some of the best talent of the 
 country has been devoted to this subject, and irrigation has been adopted 
 with the most beneficial results. Thaer lays down the position, that irrigu- 
 tion is one of the most useful and important of all the operations of the 
 fanner, because moisture is essential to all vegetable growth, and from all 
 the information that lie could gather from practice, observation, and study, 
 he felt bound to urge the practice of irrigation upon his countrymen. Ex- 
 periments made in Germany since the time of Thaer have fully proved the 
 value of water, independent of all fertilizing substances it might contain. 
 It has been well proved in Germany, where experiments have been most 
 carefully conducted, that irrigation doubles the average crop of hay, taking 
 a series of years, and that the nutritious value of the hay from an irggaled 
 meadow is quite equal to the hay from the same land before irrigation was 
 adopted ; and wiicre the water has been drawn from fountains rich in vege- 
 table and mineral fertilizers, the irrigated land has required no manure. 
 
 1043. Irrigation in France, Belgium, and other Countries. — Much atten- 
 tion has been given to the subject of irrigation in France, and several years 
 after it had been practiced to a large extent, a writer calculated that there 
 were still more than ten millions of acres of land in the empire, the product 
 of which could be tripled annually by irrigation. If that is true of France, 
 how much more is it true of America ? 
 
 In Belgium, lands that had long lain arid and worthless, have been made 
 to produce two or thi'ee tuns of hay per acre, by means of irrigation, and 
 the value of estates vastly enhanced. 
 
 In France, land has been increased in value two and a half times, iu 
 large tracts subjected to irrigation. In some places expensive canals have 
 been built, for the purpose of letting the water at fixed rents to farmers, just 
 as it is in California to gold miners. Expensive artesian wells have also 
 been bored in France, to obtain irrigating water, and this is also true to some 
 extent in California. In France, Belgium, and Italy, the exact quantity 
 reqiaired for each particular kind of soil, at each season of the year, has been 
 carefully ascertained, so that it can be told to a degree of exactness how 
 many acres a canal of given dimensions will irrigate. But iione of the 
 European calculations could be relied upon for America, so much depends 
 
908 lERIGATION— DRAINING-PLOWING. [Chap. XIII. 
 
 upon the rate of evaporation. Irrigation was common in the Roman empire ; 
 and we know how much it was depended upon in Syria and Egypt ; and 
 China has accounts of it at a period anterior to Jewish history ; and at the 
 present time, tliroughout Persia, Syria, Egypt, and other countries, it is the 
 farmer's main dependence; and so it was in Peru, tong before America was 
 discovered by the Europeans, for the Spanisli conquerors found a most elabo- 
 rate system of irrigation, under suitable regulations of law and competent 
 engineers; just such a system as we must have here before irrigation can be 
 practiced with general success. 
 
 lOii. Irrigation iu America. — Although irrigation is not generally adopted 
 in this country, there have been experiments enough tried to prove that all 
 drained land, which water would not make cold and sour, would be bene- 
 fited by irrigation. California farmers, and a few on the Atlantic coast, have 
 learned its value. Mr. C. L. Metcalf, of Franklin, Massachusetts, by his 
 own experience, has become an earnest advocate of irrigation. With him 
 the effect has been highly advantageous to both clover and grass — red-top 
 and timothy. His practice is to lot on the water two days and shut it off 
 two, through April and May, and if the ground is dry, also in June. 
 
 Hon. A. B. Dickenson, of Hornby, New York, is not only in favor of 
 irrigation, but of using the water as a means of conveying manurial sub- 
 stances to the field, and he has derived great advantage from simply making 
 the water muddy, by plowing through a pond, the water of which was then 
 sprea4 over grass fields. He believes that the purest water that runs con- 
 tains some fertility, and it certainly assists the vegetation upon irrigated 
 land, to assimilate matters in the soil which they could not without the aid of 
 its dissolving power. He has also proved that water long exposed to the 
 air and warmed in the sun had a better effect upon vegetation than water 
 from wells ; partly owing to temperature, and partly to vegetable and min- 
 eral matters held in solution, all of which, except iron, appear to be bene- 
 ficial. Economy in irrigation must be studied. One farmer, who wished to 
 carry water across a valley for iri-igating purposes, built a stone fence, of 
 the right height, level on the top, and formed it into a trough, with rubble 
 and cement, thus making one wall answer two jjurposes. From necessity 
 in California, irrigation has already been inaugurated, though without a 
 proper economical system, laws, and scientific rules ; but it is probable 
 that necessity will in time produce all these, and then the system having 
 become once rooted in American soil, will spread all over the land, and that 
 some of those who may read what we have said to encoiirage its adoption, 
 will live long enough to see the system successfully practiced, to the lasting 
 advantage of the great brotherhood of American farmers. 
 
 One of the American objections to irrigation is based upon the inter- 
 ference of the conduits with the mowing machine. It is contended that 
 numerous trenches in the face of a field, ten or twelve inches deep and only 
 half that ^*•idth, and these necessarily crooked, to conform to the level, 
 would seriously inconvenience the mowers. There is some force in this 
 
Sec. 54.] WHAT IRRIGATION DOES FOR LAND. 909 
 
 objection, but it is not insuperable. Where a surface is thus intersected by 
 irrigating conduits, plant white stakes in tliem to indicate every turn, and 
 then follow their course with the machine ; and even though it is a little more 
 trouble to cut the grass, the increased production will furnish compensation. 
 
 1045. What Lauds are Most Benefited by Irrigation.— Even sandy soils, ap- 
 parently destitute of humus, have been made to produce hay crops by 
 irrigation. But in such land, unless the supply of water is abundant, it will 
 be necessary to construct the irrigating trenches with a view to save water. 
 This may be done by puddling the trench with clay, or conveying water in 
 pipes. It is quite important to get as even a distribution of water over the 
 surface as possible, and see that it nowhere stands in pools, as that will 
 surely spoil the grass, and produce damage instead of benefit. Let it be 
 remembered that irrigation will not make poor land rich, and unless fertil- 
 izing substances are conveyed to the land in the water, it will do that land 
 the most good that is furnished with the most manure. Irrigation should 
 never be attempted upon land that is nearly level, as it will be likely to 
 afford no commensurate advantage, unless it is so situated that a flow can be 
 given to it of water rich in humus, at a time when the grass will not be in- 
 jured by water standing upon its roots. Of course there are many farms 
 that can not be irrigated for want of water; and there are others that have 
 water but no land that can be used, because the lowest portion is too level 
 and the higher parts too hilly. So we do not recommend irrigation as a 
 general panacea to all farmers; but we do urge it upon the attention of 
 many, as the best and most economical way of restoring their land to fer- 
 tility. As to the quantity of water necessary for successful irrigation, that 
 depends upon such a variety of circumstances that no definite rule can be 
 given. In one case in Germany, where the upper stratum was fine sand, 
 and gravelly clay in part, for the lower one, with a gentle slope to the surface, 
 so that the water was used over and over upon sixty acres, it was found by 
 twenty years' experience that the quantity of water was 200,000 cubic feet 
 for twenty -four hours' irrigation. It was found, also, that the best time to 
 commence watering was about the first of April, keeping on two to four 
 days and then oft' the same length of time, till the grass is ready to cut. 
 Repeat the ojieration for aftermath, and then keep the water off, because late 
 watering proved prejudicial. Irrigation has changed arid wastes, inhabited 
 by a sparse, poverty-stricken population, into well-cultivated districts, snj^ 
 porting a dense and wealthy population, and the same result would be pro- 
 duced in many places in this country, by the same enlightened system that 
 prevails in Italy, where all kinds of cultivation are benefited far above the 
 cost of the water, and grass lands are made to afford crops that could not 
 otherwise be obtained, and this enables proprietors to keep many more cattle, 
 increases the food crops, and enables the country to support a population 
 that could not possibly exist upon the land if deprived of irrigation. 
 
 1046. Quantity of Water Required for Irrigation. — It is estimated that an 
 irrigated meadow will absorb, by soaking in or evaporation, nineteen-twenti- 
 
910 IRRIGATION— DRAINING— PLOWING. [Luap. XIII. 
 
 etlis of tlie water let on, before it would find its way off by natural drain- 
 age, unless the slope was very steei^, or surface very hard gravel or clay. A 
 main conductor of water, twelve feet wide on the surfjice, four feet wide at 
 bottom, and four feet deep, may be made on a descent of two feet to the 
 mile. Smaller ditches may be constructed on a fall of one inch in twelve 
 feet. The irrigating conduits sliould be nine to twelve inches deep, aud 
 very narrow, with a fall of a foui-th of an inch to twelve to twenty feet. Ir- 
 rigation can be conducted upon steep declivities, but the preparation is more 
 expensive, as care must be taken to conduct the water so that tlio conduits 
 will not overflow and let the water course down the hill uncontrolled. Tlie 
 cost of preparing the surface of a meadow for irrigation, after the water is 
 brought to the border on the highest part, would probably be in this coun- 
 try of higli-priced labor from six to twelve dollars an acre. 
 
 Where water is elevated by any power for irrigating purposes, we reconi- 
 mend the construction of a reservoir sufficient to give several days' supply, 
 to obviate the danger of a failure in the elevating power at a time when the 
 crop, having been watered for some time, would be greatly injured by hav- 
 ing the supply cut off. Great care must be used in regulating the quantity 
 of water, which can only be determined by experiment, so as not to flood 
 the land and sour the herbage, or give fitful waterings — a flood to-day and 
 drouth to-morrow. We have untold acres of land so situated that it can be 
 irrigated by the natural descent of the water, but in many instances the 
 owner of one field could not avail himself of the advantage without the con- 
 sent of the owner of an adjoining field, unless we had some general system 
 by which the right could be obtained, as is the right to flow land for mill- 
 ing purposes, or to take it for public roads. There arc a great many farms 
 in hilly countries, without running streams in summer for irrigation, which 
 have the means of storing up water in reservoirs, cheaply formed, to be lot 
 down over the fields and save ci'ops from destruction in times of drouth. 
 Windmills could also be used for irrigation. We see one in almost daily 
 operation at a manufactory, which did not cost over one hundred dollars, 
 which would be sufficient to store up water enough iu a cistern upon a 
 neighboring hill to irrigate a hundred acres. See 369. Any field that has a 
 moderate descent can be irrigated by open ditches and made to pay a 
 greater interest uj^on the cost than any other farm improvement ever made. 
 ^ 104:7. Tile-Drainiug — its Importance and Advantages.— Though we have 
 said so much in favor of irrigation, we may say more in favor of under- 
 draining, because it can bejiracticed where irrigation can not; and when the 
 two systems can be connected, they will mutually benefit each other. In- 
 stead, however, of giving detailed rules about draining, we will simply refer 
 the reader to an American work upon the subject, published by Hon. Henry 
 F. French, of Exeter, N. H. Tucker's Annual Register, for 1859, also con- 
 tains much information about draining. No one should expect to succeed 
 in a work that requires so much scientific skill, without previous instruction 
 from an experienced person, or from books and diagrams and sound judg- 
 
Sao. 54.] IMPORTANCE OF TILE-DRAINING. 911 
 
 ment applied to tlie work. The point upon which inexperienced persons are 
 most ai>t to fail is in the course of drains, which should always lie laid up 
 and down the descent, and never less than three feet deep, if the outlet fall 
 will admit. Still better for the land and drains if laid five feet deep. At 
 this depth, wooden drains will last, nobody can tell how long, for except 
 near the outlet they are almost indestructible. One of the greatest bene- 
 fits of underdraining is, it deepens the soil. This has been proved upon the 
 hardest kind of red sand-stone land ; the aeration of the subsoil from the 
 open tile-drains, after the water leached off, had the same effect upon the 
 hard pan that air has upon lime. Heavy lands are always so saturated with 
 water that tlie productive soil must be naturally thin, and this is why deep 
 plowing and the use of a subsoil lifter will double the depth of the produc- 
 tiveness of such land, and why imderdraining will quadruple it. Deep plow- 
 ing and underdraining are the farmer's cheapest manure, and the profit of 
 the work is in the time gained in putting in spring crops, which is worth 
 more annually than the interest upon all cost of underdraining. No matter 
 what is the character of the soil, it will be benefited by underdraining ; but 
 mostly those soils in which water stagnates, or which have no outlets for 
 rains, except by evaporation. But all soils can not be profitably under- 
 drained, because the land must have an intrinsic value much above the ordi- 
 nary price of Western farms, or even some of the interior land of New 
 England, before it will pay to drain it. A great many swamps may be 
 profitably drained, because utterly worthless as they now are. 
 
 lOiS. What Land Should be Drained. — Eain-water falls on hills, sinks to 
 an impervious stratum, along which it runs until it either fin^s a porous sec- 
 tion through which it can fall to a lower level, or not finding such, continues 
 on the hard bottom to the side of the hill, where it oozes out in the form of 
 a spring. If this spring-water is suffered to run down hill, it washes the hill- 
 side more or less, and coming to the lowland, sinks as f;ir as it may into the 
 soil, makes it sodden, and produces bad effects. To drain eflectually, then, 
 we must cut ofi" the supply above, and fewer drains will be necessary below. 
 It is the hill lands then, as a general thing, that first need draining. Enough 
 water falls in one hard rain to cover the land three inches deep, and this sat- 
 urates a clayey soil, and remains often until another rain falls. All such 
 land should be drained. John Johnston, of Geneva, N. Y., the original tile- 
 drainer in this country, does not think there are a hundred acres in any 
 neighborhood that do not need draining, and would not pay well for it. 
 Perhaps this may be thought an extreme assertion, but it is nearer the fact 
 than most of us have been aware. His first purchase was one hundred and 
 twelve acres of land, well situated, but said to be the poorest in the county. 
 The soil was a heavy, gravelly clay, with a tenacious clay subsoil, a perfectly 
 tight reservoir for water, cold, hard-baked, and cropped down to about the 
 last gasp. In 1835 tiles were not made in this country, so Mr. Johnston im- 
 ported some as samples, and a quantity of the " horse-shoe" pattern were 
 made in 1838, at "Waterloo, N. Y. There was no machine for producing 
 
912 IRRIGATION— DRAINAGE— PLOWING. [CniP. XIII. 
 
 them, so they were made by hand and molded over a stick, at great cost.' 
 Yet he found draining profitable, and now he thinks, at the present cost of 
 tiles, the increase of crops will pay the cost of draining in two years. In 
 18i7 he drained a quagmire, so that it produced eighty bushels of corn per 
 acre in 1848, and in that case the cost of draining was paid by the increase 
 of one crop. The late John Delafield drained a piece of land that would 
 only yield ten bushels of corn, at a cost of thirty-six dollars an acre, and the 
 yield was increased to over eighty-three bushels per acre on the whole field, 
 and ninety-four bushels upon the best part. The average cost of under- 
 draining in France has been ascertained to be twenty-seven dollars an acre, 
 and the increased value of annual products nine dollars an acre. Under- 
 draining is advantageous in saving the elements of fertility in land from wash- 
 ing away. A Frencli writer says that six thousand cubic yards of the water 
 of tlie Vaucluse or the Vosges contain all the elements of an ox, and that 
 the Garonne carries out to sea every day more guano than is imported into 
 France in a year. 
 
 lOiO. How Laud Should be Drained. — Upon land that is nearly level, the 
 first step is to have it carefully leveled. Ascertain first where the ouilet of 
 all tlie water must be, and whetlier you can have one or more main drains, 
 with branches leading in at nearly right angles, or whether you must make 
 all tlie drains from the farther side, each to empty its own water into a 
 natural brook or artificial ditch. If the drain is very long, you must use 
 large tile at the lower end. If the descent of a drain is small, say only one 
 inch in a hundred feet, it will require tile of twice the diameter of a drain 
 of rapid descc*»t, say one inch in twelve. In many cases Mr. Johnston has 
 used two rows of four-inch, in others six-inch, and in one, a pipe nine inches 
 bore. At first he had many to take up and replace with large pipe to secure 
 a complete discharge. Main drains he makes six to eight inches deeper than 
 those emptying into them, whioli are graded so tiiat the descent may take 
 place gradually, and always with a slight sidewise direction down stream. 
 Although he uses large mains, he recommends farmers never to use laterals 
 over two inches in diameter, and often one inch will be quite sutficient. No 
 one can give directions for size of tiles. They must be adopted to circum- 
 stances. Let the rule be small laterals and large mains. If your land is 
 wet, you will require large pipe, and if flat, the lines must be near together ; 
 saj 30 feet apart. Both ends of the drain should be open to the air, and, 
 as tile are destructible by frost, make the outlet of stone, brick, or wood, and 
 make an air-vent at the upper end by a pile of loose stone, a box, or a hole 
 through a log, with such a mark at the surface as will enable the plowman 
 to avoid disturbance. This will not only make the water run more freely, 
 but the air will draw through and aerate the soil. Sometimes tile become 
 obstructed, and must be taken up at the point of difficulty, which is easily 
 determined by the water coming to the surface. But stoppages are not 
 frequent — not half as frequent as it is to find good, durable streams of 
 water running from the drains, which in some cases have proved valuable 
 
Sec. 54.] DITCHING AND DITCHERS' TOOLS. 913 
 
 sources of stock water for the farm, where it was previously very desti- 
 tute. 
 
 1050. Laying off the Ground, Ditching, aad Laying the Tile.— A spii it level, 
 mounted upon a tripod, is most conveuient, but a rafter level will answer, 
 and can be home-made, with a plumb-bob from the apex to indicate degrees of 
 descent upon the cross-bar. To get your scale, make the legs of your triangle 
 exactly twelve feet apart. Set it up on a level (ice is best of all places), 
 and put an inch block under one leg, and mark 1 where the line hangs, and 
 so on, 2, 3, 4, 5, 6, as you raise the leg inch by inch, and then when you set 
 the instrument upon land, the plumb will show the number of inches descent 
 in each twelve feet almost as fast as you can walk. In digging a ditch for a 
 tile drain, no more dirt is to be removed than is barely necessary to do the 
 work aud afford room for the tile at the bottom. To do this, a few tools not 
 usually found on a farm must be had. That is, a long, narrow, blade-spade 
 to cut the bottom of the ditch ; a light pick with a long handle to dig where 
 the earth is too hard for the spade ; a long-handled scoop to take out the 
 loose earth. This is like a nari'ow hoe with the edges turned up. A spoon 
 shovel, with a long handle, is sometimes convenient, particularly in taking 
 out pebbles. If we were ditching a meadow, we M'ould first plow two fur- 
 rows, turning the sod carefully each way. To do this well, the second sod 
 must be cut deeper than tlie first, or else the plow must have an attachment 
 on the land side, like a knife-blade, projecting down to hold it up to the 
 edge of the turf to be turned. The earth may be loosened two feet by this 
 sod furrow, followed by a subsoil plow. It is then quickly shoveled out, 
 and wiiere it is to be dug deep, it may be found useful to cut the lower part 
 so much narrower that a shoulder mmII be formed at this point, upon which 
 the ditcher can stand. Tiles are easily laid at the bottom of a deep ditch by 
 a tile-hook, which is simply a slim piece of iron fixed at right angles to tlie 
 bottoju of a slender handle. As one man lays them down, another throws 
 a little loose earth in, which is rammed down to keep them straight and 
 firmly in place. Then cover with straw, weeds, bulrushes, small brush, in- 
 verted turf, or coarse gravel, to prevent the fine earth running into and 
 choking the joints. It is not necessary to fill the ditch with anything but 
 the dirt tliat came out, to enable rain water to find its way in. It will find 
 its way through hard earth from a point twenty feet distant. 
 
 1051. Descent and Depth Necessary in Drains. — It is common to hear the 
 remark, that such a piece of land can not be drained, because it is too level. 
 As we do not believe in level land, we ask you to try the level before you 
 decide. Again, it is surprising to see how little fall is necessary to make 
 water run. Two inches fall in 100 feet of well-made drain has been found 
 entirely sufficien^ We know that water in rivers runs with a fall of two 
 inches in a mile. With a descent of six inches per mile, a stream runs a 
 mile per hour. As to the deptli of drains, that, too, depends upon circum- 
 stances. "We believe four feet is right. "Wliere tiles are dear and labor 
 cheap, the less tiles wc can use the better. Drains three feet deep, at forty 
 
914 IRRIGATIOII— DRAINING— PLOWING. [Chap. XHI. 
 
 feet apait, are not so effective as at five feet deep and fifty feet apart. Tiles 
 iu this couutry must be laid below frost and subsoil plows, and that should 
 be at least three feet deep. Nobody contends now in England for less than 
 three feet depth of drains, and those who advocate three feet are called shal- 
 low drainers. As a general rule, it costs as nuicli lo dig the fourth foot as it 
 does tlio other three feet. A four-foot drain is opened in England only one 
 foot wide at tlie top, and just wide enough to lay the tile at the bottom. 
 
 1052. What Drainiug does for Laudt — It not only dries tlie soil, but it 
 enaldes it to endure drouth, Ijecause the lower strata being aerified and 
 warmed, induces roots to penetrate it, and thus decomposition of organic 
 matter in the soil is hastened, and nutriment formed for the growing plants. 
 The meclianical texture being improved, the soil is thus deepened, and ex- 
 cess of water quicker removed after a rain. The land is more productive 
 because the season is lengthened. Grass holds in better, and grain is not 
 thrown out by freezing and tliawlng. The land is sweeter, warmer, mel- 
 lower, richer, and iu every way better for all purposes, and healthier. In- 
 deed, one of the great benefits of draining a country is the improvement of 
 health. It is of great advantage upon uplands, and still greater wlien swamps 
 are drained. It is particularly needed in all the cotton-growing States. 
 
 1053. The Cost and Durability of Tiles and Tile-Draining.— It has been 
 estimated that the average price of two-inch pipe tile is about $1 07 a rod 
 at the manufactory. Such as was made and used in this country eighteen 
 years ago, by John Johnston, of Geneva, ISTew York, he reports as sound as 
 the day they were put down. Tiles sliould be about as well burnt as good 
 wall brick. They are then strong enough, and can be cut, and are not likely 
 to break in the earth. Tliey should be hard enough not to dissolve, and tlie 
 claj' should be compressed suificiently to make the tile strong enough, without 
 such hard burning as will melt the clay. The following were the advertised 
 prices in 1861-2 : 
 
 UOKSE-SHOE TILE. 
 At Hartford, Ct At Albany, N. T. At Harlford, Cl. At Albany, N. T. 
 
 7J incli caliber. . S S75 00 per 1000 I 44 inch caliber . . $18 per 1000. . $18 00 per 1000 
 
 61 inch caliber. . 55 00 per 1000 3,1 inch caliber. . 15 per 1000. . 15 00 per 1000 
 
 5i inch caliber. . 40 per 1000. . 'dS 00 per 1000 | 2j inch caliber. . 12 per 1000. . 10 75 per 1000 
 
 SOLE TILE (egg-shaped CALIBER.) 
 
 inch caliber. .$150 per 1000. .$80 00 per lOCO l 2 inch caliber $12 per 1000 $10 75 per 1000 
 
 4 inch caliber. . 40perl(iOO.. 35 00 per 1000 Hound tile 1^ inch caliber 9 00 per 1000 
 
 3 inch caUber. . 18 per 1000. . 10 25 per 1000 \ Hound tile 2J inch caliber 12 00 per 1000 
 
 To estimate the number of tile required for an acre, divide 43,560 Ijy the 
 number of feet your drains are to be apart. As that is the number of super- 
 ficial feet in an acre, if your drains are to be 36 feet apart, then 43,560 
 divided by 36 gives 1,210 as the quotient. Always calculate one tilo for 
 every foot in length, to allow for bi-eakage, and then you can easily ascertain 
 the cost of any given line of draining. Upon one farm in New York, that 
 of K. G. Swan, near Geneva, there are over si.xty miles of tile-drain, a con- 
 siderable portion of which cost only 285 cents a rod, complete. Tlie cost of 
 digging and filling ditches upon Judge French's farm. Exe or, X. 11. , where 
 
Sko. 54.] THE COST OF TILES AND DRAINING. 915 
 
 the eartli was so lianl it had to be picked up, was for one job of a mile of 
 ditches, four feet deep, a day's woi-k to three rods. Upon another job, 
 ■with ditches four feet deep, and twenty inches wide at top, and four inches 
 wide at bottom, giving a mean of twelve inches, two men opened 14 rods 
 of such ditch in a day, and in six days, opened, laid the tiles, and tilled 57l 
 rods ; at a cost of 21 cents a rod for labor, at $1 u day. The total cost was : 
 817 two-inch tile at $13 a thousand, $11 01; 100 three-inch tile, $2 50; 
 tan bark on joints, 70 cents, horse work, 50 cents, $1 20 ; labor, 12 days, 
 $12. Total, $26 71. This is 46 J cents a rod, besides engineering and super- 
 intendence. The soil was sandy. In hard clay soil, it cost 50 cents a rod 
 for the labor, which was done by the same hands as the others. Drains 
 three feet deep cost only half as much labor. This is true on the average, 
 and where the land is stony, the last foot will cost more than equal the cost 
 of the first three feet. Where labor is hired by the day at one dollar, it may 
 be calculated that the cost of digging and filling in ditches four feet deep, 
 including placing the tiles, will average 331 cents per rod. If tiles cost one 
 cent a foot, then the total cost will be 50 cents a rod; and per acre, accord- 
 ing to the distance apart of drains. The following table gives the number 
 of rods in an acre at the several numbers of feet apart, of the drains, to wit: 
 At 15 feet, 176 rods ; at IS feet, 146| rods ; at 21 feet, 125f rods ; at 24 feet, 
 110 rods; at 27 feet, 97f rods; at 30 feet, 88 rods; at 33 feet, 80 rods ; at 
 36 feet, 73 J- rods ; at 39 feet, 67tV rods ; at 42 feet, 62f rods. Thus, the cost 
 of draining an acre with tiles at one cent a foot, and labor two cents a foot, 
 with drains at 30 feet apart, will be $44; at 42 feet apart, $31 42; at 60 
 feet, apart, $22. 
 
 1054. Wooden Drain Tubes. — S. P. G., of Eacine, "Wisconsin, says wooden 
 tubes, with perforations through the sides, loosely jointed, will answer all 
 purposes of tile, will last as long in places where they are constantly wet, 
 and can be laid for half the expense. This may be true if the pipes are 
 placed very deep in the earth, never less than four feet, and it would be bet- 
 ter if five feet. These pipes are made of three-inch scantling, bored very 
 rapidly l>y machinery, with an inch-and-a-half auger ; and we recommend 
 that they should be slit in two after being bored, and the halves mismatched, 
 in every two j^ipes, so as to be sure that they do not fit together tight enough 
 when laid to prevent the water finding its way inside. 
 
 1055. Brusb Drains, and Substitutes for Tile. — We have seen common 
 sapling pine poles last long enough to pay the cost four times over ; the 
 drain being formed of three poles — two an inch or two apart at bottom, and 
 one on top. This only answers in land not liable to gulley out in the bottom 
 of the drain. We have seen valuable service done with bush drains. Long, 
 slim bushes are jammed down in a narrow ditch, with buts lapping on the 
 tops, and always pointing up hill. Wo have heard of such a drain made of 
 corns'alks that lasted six years, and wa=i s^ill good, and had paid its cost 
 every year it was in use. Very durable drains have been made of cedar, 
 both round and split ; and chestnut rails have also been profitably us^d. 
 
916 IRRIGATION— DRAINING— PLOWING. [Chap. XIII. 
 
 "Wood will always be found most durable in the wettest drains. "We have 
 heard of a drahi laid through quicksand, by placing a board at bottom and 
 on it two pieces of scantling and a flat slab, all of wliich were continually 
 wet, which will apparently last forever. "Wooden drains, however, we can 
 not recomuiend for any place where stone or tile can be obtained. 
 
 1056. CobblC-Stoue Drains. — The loose cobble-stone of many farms can be 
 formed into a very good drain by careful labor, placing one each side and a 
 larger one resting on the two, leaving a passage underneath, and filling in 
 promiscuously to within plow-rcacl-.iiig distance from the top. "^Vith good 
 wall-ljuilding stones an excellent drain can be made. But the objection to 
 all stone drains is the extra labor over that with tiles, so tliat they can only 
 be recommended in places where it is an object to get rid of the stones. 
 Judge French estimates the extra cost of labor to lay stone drains, even 
 where the stones are on the farm, at more than the cost of tiles. 
 
 1057. Cetneut Draiu-TilCS. — Good drain-tiles have been made of cement 
 and sand, at first porous, and afterward not so, dependence being made upon 
 having the water enter the joints. As to the water going through the pores 
 of the tile, ten times as mucli goes through the joints as through the pores, 
 so that making them porous is not so very important. The joints will take in 
 all the water in the ground. In some places these cement tiles can be made 
 on the farm cheaper than terra-cotta tiles can be obtained. 
 
 1058. A Prairie Drailliug-Plow. — A machine is in use in Illinois that an- 
 swers a good purpose in draining the ordinary soil. A strong beam, on four 
 rollers, carries a small cutting wheel, which divides the sod ; this is followed 
 by a sharp coulter, set at an angle backward, to the bottom end of which a 
 piece of iron, shaped something like a pear, is welded, supported by a flat 
 bar, bolted, like the coulter, fast to the beam. To this " mole" is attached a 
 second, of similar shape, a little larger, by a link joint. Being set into the 
 ground, it opens a hole, wliich it molds permanently by side pressure, three 
 feet below the surface, and through this drain the water runs ofiF as easily 
 and continuously as tlirough tile-drains. Farmers consider it invaluable on 
 our largo prairies, in the broad, flat sloughs ; as they say, that it not only 
 thoroughly drains tlie land, but that it concentrates the imderdraining of the 
 marshes and sloughs to any particular point that it may be wanted, creating 
 a permanent, never-failing spring of water for stock, on many farms where 
 this convenience M'as totally lacking, in dry seasons, until the introduction 
 of the ditcher. 
 
 Many sloughs have been drained by running the mole-plow through them, 
 and down the outlet or lowest spot, until the natural fall will allow the water 
 to come to the surface, and there a durable sjjring is often formed. 
 
 1059. Proper Shape of Drain-Tile.— The Royal Scottish Society of Arts 
 publish experiments in transporting lead ore from the mines to the stamping 
 mills, by water, running through a trough. At first they tried a square 
 M'ooden trough, twelve hundred feet long, with a slope of from thirteen to 
 twenty degrees ; but the water had not force enough to move the lumps of 
 
Seo. 55.] 
 
 PLOWS AND PLOWING. 
 
 91] 
 
 ore over the flat bottom of tlie trough. They then changed the position of 
 the trongli, having it rest on one corner, and tiie ore passed rapidly tlirongh 
 ■without choking. A right-angle form kept itself clear with the least water. 
 According to this theory, the proper shape of drain-tile is not round, but 
 should be shaped with a sharp corner in the lower side of the pipe. 
 
 1060. Laws Needed to Regulate Drainiiigt — Every State should regulate 
 the drainage of land by statute, so that those who hold the mouths of natu- 
 ral outlets for water can not deprive others of their use who own land far- 
 ther up stream. Such a law was passed by Maine, in April, 1859, providing 
 that any one in possession of lands that can not be drained, approached, or 
 used without crossing land held by another, may have drains established by 
 conimissi oners who locate the route and assess the damages ; and then tlic 
 ditch is placed upon the same footing as to right of way and repairs as pub- 
 lic roads. 
 
 SECTION LV.-PLOWS AND PLOWING. 
 
 (hat is the object of plowing? It is either to turn 
 a sod or flat furrow, or stir and mellow the surfiice, 
 or break up the subsoil without bringing it up. 
 Then there is no such thing as a universal plow. 
 The one invented by Governor Holbrook, of Ver- 
 mont, comes the nearest to it, but that in reality 
 combines four plows in one, by shifting mold-boards 
 and land-sides. The best plow to turn flat furrows 
 in sod ground woiild be the worst one to stir up a 
 stubble field. The plow must be fitted to the 
 object required ; but upon almost all soils you may 
 lay it down as a rule in plowing, that you can not 
 plow too deep nor too much. If you have disinte- 
 grated the soil imtil it has become so filled with air 
 that the particles are actually held apart so that it is in a condition that you 
 call pufty, it will be useful, and for some crops necessary, to compact the 
 surface together with a roller, or some other mechanical means. A turnip 
 field, after having been pulverized with great labor, is often tramped by 
 sheep. An onion bed is first made fnellow, and tlien compacted quite firmly. 
 A wheat field can not be made too mellow — can not be plowed too many 
 times — can not be harrowed and pulverized too much ; but after all tliat, it 
 is benefited by a heavy roller. Plowing exposes the lower stratum of soil 
 to the ameliorating action of air, by which it acquires fertility. We can not 
 say how, thougli all experience proves the statement true. Plowing is there- 
 fore necessary, and the more perfectly it loosens and pulverizes the soil, the 
 
918 IRRIGATION— DRAINING— PLOWING. [Chap. XIII. 
 
 more equally will it be penetrated, and the more numerous will be the roots 
 sent out, until the whole soil is filled with their hair-like fibers. As a rule 
 based upon the truth of science, it may be said that while it is possible to 
 divide the particles of earth — that is, to separate them one from another in 
 the same way that tlie grains of sand are separated — the manipulation of it 
 will improve its condition. Farmers must continue to look to the "object 
 of plowing," and reacli down a little deeper and deeper, and bring up and 
 separate more of tlie particles of the earth, so tliat the growing plants can 
 appropiiate them to their use, and the earth will never becom j barren ; pul- 
 verization and water will make it produce forever, if the elements which 
 crops extract are fairly returned in the shape of excrements of such crops 
 when consumed. 
 
 1001. Tli8 History of Cast-iron Plows. — Tlie first cast-iron mold-board was 
 invented by James Small, of Berwickshire, Scotland, about 17-iO. He con- 
 tinued to manufacture them for fifty years, still using the wrouglit-iron share ; 
 cast iron for ihat ])urpose having been first applied by Robert Kansom, of 
 Ipswich, England, in 1785. Eighteen years afterward, he made a valuable 
 improvement, still in use among all good plow- makers, that of chilling the 
 iron in the molds, by using bars of cold iron, upon which the cutting edges 
 of the share are cast, making them harder than steel. A Suffolk farmer 
 added the land-side, making three distinct pieces of casting to each, to which 
 MTOught or cast-iron beams and handles were afterward added in various 
 parts of England and Scotland. 
 
 The first cast-iron plow in America was made by Charles Newbold, of 
 Burlington, N. J. His first patent bears date June 17, 1797, and is for a 
 plow combining mold-board, share, and land-side all in one casting. Objec- 
 tions being made to the cast-iron share, probably because it was not chill- 
 hardened, he substituted wrought-iron shares. Great as these improvements 
 Avere upon the old wooden plows, such was the prejudice against them — some 
 even afiirming that cast iron poisoned the ground and prevented the growth 
 of crops — that after spending, as the inventor alleged, $30,000 in a vain 
 eflbrt to get his plows into general tise, he gave up the business in despair, 
 leaving American farmers wedded to their idols, the old wooden plows. 
 
 In the year 1800, Peter J. Cnrtenas, a merchant of New York city, ad- 
 vertised plows for sale, made of cast iron. In 18i)7, David Peacock, of 
 New Jerse}^, taking his idea from Newbold, for which, however, he paid 
 him a tliousand dollars, patented a plow, the mold-board and land-side cast 
 separate, to M'hich he attached a wrought-iron steel-edged share. Thomas 
 Jefferson wrote a treatise, in 1798, upon the form of the mold-board, insisting 
 that it should be constructed upon scientific jirinciples. These principles 
 were probably first applied by Eobert Smith, of Buckingham, Pa., about 
 18(ii-6, as he obtained a patent for a cast-iron mold-board, and wrote upon 
 the subject about that time. In 1814, years after cast-iron plows had been 
 in successful use in England, and ]iartially so in this country, Jethro "Wood 
 obtained a patent for a cast-iron plow, in three parts, similar to one said to 
 
Seo. 55.] THE HISTORY OF CAST-IRON PLOWS. 919 
 
 have been in use previous to that time in Virginia. This was a very differ- 
 ent article from those now in use. We do not believe that Wood ever was 
 entitled to any credit as an inventor, though he was for his persevering 
 efforts to get his plows into general use. 
 
 In 1817, Edwin A. Stevens, of Iloboken, N. J., took up Newbold's plow, 
 with a view to improve its form, so as to make the draft easier. He took 
 his patent in 1821, included in which was tlie process of cold-chilling the 
 cutting edges and parts of the share most likely to wear out. His plan was 
 so perfect that it was highly approved of, but other engagements prevented 
 him from extending what he had so successfully begun. 
 
 In 1810, Josiah Catcher, of New York city, commenced a series of im- 
 provements, which are to be found upon nearly all cast-iron plows, and which 
 have been of immense benefit to the farmers of this country, notwithstand- 
 ing which, we believe, he died poor, and his name is almost forgotten by 
 those whom he has benefited so much ; while those who have invented 
 death-dealing implements, or stained them with tlie blood of victims immo- 
 lated upon the shrine of military glory, are lauded more than the godfathers 
 of the Industry of All ISTations. 
 
 The first patent plow of which we have any record, was granted in 1720, 
 to Joseph Foljambe, of Rotherham, England, and for many years afterward 
 all similar plows bore the name of that place. It was a great improvement 
 upon those previously in use ; the mold-board and land-side were wood, 
 sheathed with iron plates, the share and coulter wrought iron with steel 
 edges, just such as were in universal use in New England early in the pres- 
 ent century, and similar to those now in use in the Southwestern States. 
 This plow was intended to be worked by one man and two horses — much 
 larger than our common horses — and turn over an acre to an acre and a 
 quarter a day. The following is the measurement of that plow : Length of 
 beam, 6 feet ; from end of handles to point of share, almost in a straight 
 line, 7 feet i inches ; from point to heel of land-side, 2 feet 10^ inches ; hight 
 from ground to top of beam, 1 footS inches ; weight, 140 lbs. Some twenty 
 years after this plow was brought out, the center draft-rod or chain was 
 added, just like that now used, and supposed by some to be a very recent 
 invention. 
 
 Joel Nourse, of Boston, in connection with his partners, has pi'obably done 
 more t^iward making the cast-iron plow a perfect implement than any other 
 individual, though many others are entitled to high praise for doing, to the 
 extent of their ability, so much to lessen the labor of tilling the land. 
 
 The most ancient plow, as represented on old coins and monuments, was 
 a crooked stick, afterward improved by sharpening with iron. The imple- 
 ment now in use in Hindostan is little better than the original, and even in 
 this country some now in use are but slightly in advance of the Hindoo arti- 
 cle, which consists of a slight beam, a narrow share, and a corresponding 
 stick with a handle to guide it. Tlie Chinese plow is sirailai-, and the effect 
 is what it would be if a man should hold a sharp-pointed shovel, back up. 
 
920 IREIGATION—DEAINING— PLOWING. [Ciiap. XIII. 
 
 with the handle at an angle of forty-five degrees, and it should then be drawn 
 forward with the point in the ground. The plows of continental Europe 
 has'e undergone but little change for centuries. The ancient Roman plow is 
 still in general use in France. It has a beam, a share, and a handle. The 
 share is a triangular-shaped j^iece of wood with an iron point, lance-head 
 shaped, and sometimes a coulter, and rarely a mold-board. IIow much better 
 was the old " Carey Plow," which in youth we followed many a day, with 
 its clumsy wrought-iron share, wooden land-side and standard, and wooden 
 mold-board, plated over with a piece of tin, sheet iron, or old saw-plate, 
 requiiing the strengtli of a man to hold it by the two pins in its upright han- 
 dles, and at least double the strength of team now needed to do tlie same 
 work. Tiien there was the old bar-share plow — a flat bar forming the land- 
 side, witli a thick clump of iron like the half of a lance-head for the point, in 
 the top of which the coulter was clumsily locked, and of course a wooden 
 mold-board without any pretensions to making a fit with the iron part. 
 
 There is no longer any occasion nor excuse for a farmer's using a poor 
 plow, nor one not fitted to his particular soil and various kinds of work ; since 
 plows of a great variety of patterns are made ; right hand and left ; and witli 
 sliifting mold-board ; so that furrows on a hill-side can all be turned one way ; 
 also with two shares on one beam ; the first turning the sod and second lifting 
 a course of loose earth from the bottom of the first furrow and placing it on 
 top of the furrow-slice of the forward share. 
 
 1062. Subsoil Ptows — llieir Shape and Use. — Of all the useful improve- 
 ments in plows we consider the subsoil plow the most important. The use 
 of this plow is to follow the turning plow, entering the bottom of the fur- 
 row and performing one of the most useful operations upon .the farm, stirring 
 and loosening up the subsoil. One of the best-shaped subsoil plows for soils 
 free of stone was invented by Prof. Mapes, of New York. The shape of the 
 sliare is somewhat like a flattened quarter of an orange-peel. Suppose this 
 placed with the convex side up, connected with the beam by a thin, broad 
 standard, with a flat plate at the top to bolt to the beam. The share, stand- 
 ard, and top plate are cast all in one piece, and when one point of the 
 share becomes dull by use, the plate can be unscrewed from the beam 
 and reversed, thus bringing a new point of the share forward. A Wiscon- 
 sin farmer — Mr. P. North, of Pochester, Pacine County — has invented a 
 subsoil attachment to the plow, which is described as readily fipplied 
 to anj' plow, adjustable to any required depth from an inch to six or more 
 inc'.ies, and which thoroughly pulverizes the subsoil without raising it from 
 its natural position. In other words, by the help of this invention, land 
 may, by one man and one team, be at the same time surface-plowed to the 
 full depth of the former plowing, and subsoiled to the depth of two or more 
 inches, the pulverized subsoil retaining its original place. AYe saw some- 
 thing of this kind, made by a smith in Norfolk, Va., ten years ago, that was 
 very eflfective. It was a lance-head on a rod about a foot long, bolted to the 
 heel of the plow, and curved over so that the point stood forward, and cut ' 
 
Seo. 55.] PLOWS AND PLOWING. 921 
 
 four or five iuclies below the plow-furrow. This attachment is easily made 
 and applied by any smith, and is a very useful addition to any plow to be 
 used in mellow land. For stony soils, a subsoiler is made of steel, somewhat 
 in the siiape of a sharp-toed shoe, bolted to a standard in two parts, one act- 
 ing as a brace when attached to the beam. This is stronger than the cast 
 subsoiler, and better calculated to dig in among stones ; and it is similar to 
 an implenaent called a ditching-plow, except that tiie standard of the ditch- 
 ing-plow is sometimes four feet high, and may be regulated to suit various 
 dejjths, as the ditch deepens. 
 
 1063. Steel Plows.— Within a fow years the manufacture of steel plows 
 has been very largely extended, the invention, not only of the plows, but 
 machinery for their manufacture, having been brought to great perfection. 
 One of the most extensive establishments for making steel plows is that 
 of Remington, Markhain & Co., at Ilion, N. Y. We have had this year, 
 18(71, several acres of strong land turned by one of these ])lows, which is so 
 light that the English plowman was afraid to hitch the oxen to it, he was so 
 sure it was not strong enough. He soon changed his opinion, and declared 
 it not only very strong, but the best plow he ever saw. We have also a 
 steel subsoil plow for one horse, which is a verj' useful implement for mark- 
 ing rows to plant, and working between, to stir and loosen the earth, par- 
 ticularly in drouth. One of the great advantages which steel plows have 
 over all otliers, is in weight ; for it has been fully proved that the heavier 
 the plow the greater the force necessary to move it along the surface. This 
 is a very important consideration. If a wagon is very heavy, after the 
 inertia of its dead weigiit is once overcome it rolls forward easily, but the 
 plow is a dead weight all the time. 
 
 1064. Deep Plowing — ils Benefits. — " An increase of one inch in the aver- 
 age depth of plowing throughout the United States would produce a larger 
 amount of profit, as compared with present results, than all the gold received 
 from California." We believe this assertion ; but we do not believe that all 
 soils, without being previously subsoiled, are fit for this immediate increase 
 in depth. Shallow j^lowing is the greatest error of American farmers. 
 Millions of acres, though composed of mellow loam, a foot deep, were never 
 stirred half that depth. Many a man owns a better farm beneath his fur- 
 row slices than the one he cultivates. " Deep plowing saves manuring." 
 It is true that the soil derives no benefit from the plow, or other tool, only 
 so far as it opens its particles so that the air can penetrate through the mass, 
 and carry heat, moisture, and fertility to the roots of plants, which can pen- 
 etrate a loose soil, but can not a compact one. A granite rock made pulver- 
 ulent, and then stirred frequently in the air, and moistened, will become a 
 productive soil. It has received the benefit of exposure to air, and that has 
 fertilized it. All the ]>low, or any other tool can do, is to put the soil into 
 the most favorable condition to receive this benefit. The best condition that 
 any soil can be placed in, is that which will enable it to absorb the greatest 
 possible amount of beat and moisture, with the least possible amount of 
 
922 IRRIGATIO^f—DRAIJflNG— PLOWING. [Chap. XIII. 
 
 surplus water, and loose free air, and that condition is not obtained by 
 skimming over tlie surface. But remember that deep plowing is not ad- 
 niittable as a first operation upon all land. The soil must be deepened 
 gradually. Tiiis is the case with the prairies. Our experience in regard to 
 the time that prairie should be first plowed, and the deptli, is when tlie 
 grass is most succulent, and then turn just as thin a sod as possible. An 
 experienced prairie farmer says : " From the time that the grass makes a vigor- 
 ous growth, and while it continues to grow, prairie can be the most cheaply 
 broken up with a good sixteen-inch prairie breaker, but should not be cut 
 more than three inches deep. At other seasons, or when the grass is in a 
 state of rest, use a double Michigan plow; set tlie top plow so that it will 
 cut an inch deep, and the bottom plow two or two and a half inches deeper. 
 
 10G5. Steam Plows and their Use. — We have faith that steam plows will 
 yet be invented which can be economically used upon the Western praii'ies, 
 though as yet that desideratum has not been reached in any of tlie locomo- 
 tive machines tried for that purpose ; and it is yet to be proved whether 
 Fowler's traction engine, an English invention, will eflfect the object. It 
 appears from reports of committees in England, and from some experiments 
 made near Philadelphia in the autumn of 1861, as though it would answer 
 the desired purpose. The steam plow that has attracted most notice in 
 America is the one invented by Mr. Fawkes, of Pennsylvania, and tried 
 without much success on the prairies of Illinois. It was driven by a twenf}'- 
 horse-power steam-engine provided with an upright locomotive boiler, having 
 151 flues set upon a long frame-work, which rested on a large roller-shaped 
 driving-wheel behind and two guide-wheels in front. A tank and box for 
 wood or coal rested over the driving-wheel. The guide-wheels are in ad- 
 vance of the boiler, and are 18 inches wide and 36 inches high.. The con- 
 sumption of wood was one cord per day, and water one and a half barrels 
 per hour ; the weiglit about seven tons : cost, $2,500. The plows are on 
 frame-work behind,, capable of being lowered and raised by an assistant. 
 The machine drew six plows, cutting twelve-inch furrows, between four and 
 five inches deep. It plowed at the rate of one acre in forty minutes ; on 
 firm, hard ground it could go faster. On very wet gi'ound the driving- 
 wheel slipped. Mr. Fawkes has remodeled his machine, and several others 
 have also been brought out, but up to the end of 1862, we do not hear of 
 any steam plow in practical operation upon any of the great prairie farms. 
 
 Fowler's steam plowing is done by stationing an engine upon one side of the 
 field, with an arrangement of wheels and pulleys, from which a rope is carried 
 to the other side of the field, and through other wheels and pulleys and back 
 to the starting-point. A frame on wheels carries two gangs of plows, one gang 
 Ibrward and one behind. This frame being hitched to the endless rope near 
 the engine is drawn by its movement to the other side, when the hind gang 
 of plows is elevated by a lever, and the other dropped, and the machine moved 
 its width on the land to be plowed, and attached to the part of the rope that 
 IS moving toward the engine ; and thus it traverses back and forth, the en- 
 
Seo. 55.] IMPROVED FARMING TOOLS. 923 
 
 gine being moved along tlie headlands as the plowing proceeds. Of course 
 this kind of plowing will not answer in small iiiclosures. 
 
 1066. Substitutes for the Pio'.v— Digging Mafhincs.— Mnch money has been 
 spent ujion digging machines, without any practical results. Mapes' rotary 
 digger; Evans' rotary digger; Comstock's rotary digger, have all given 
 promise of good results, and newspaper reporters have often told the public 
 that the days of the plows were numbered ; and henceforth the soil must be 
 dug instead of being plowed ; but the public are either slow to believe, or 
 else there is some radical defect in the digging machines. Mr. O. Coe, of 
 Port Washington, Wisconsin, invented a sort of digging harrow that is a 
 good substitute for the drag-harrows, and altogether superior to the revolv- 
 ing harrows, and appears to be a tolerably good substitute for a small plow 
 in preparing light land for small grain. It has its teeth upon revolving 
 wheels that dig up the surface as it is drawn forward, leaving it light as well 
 as pulverulent, the effect being entirely different from that of the harrow. 
 The teeth of Mr. Coe's machine, he says, dig the soil six inches deep, and 
 the machine does not pull any harder than an iron-tooth harrow, cutting the 
 same M-idth, and not nearlj- as deep. To dig the surface nine or ten inches 
 deep, hd tiiinks, will not require half as much power as to plow it the same 
 depth. It works admirably upon Indian corn stubble, tearing the roots out 
 of the ground, aud fitting it at once for wheat-sowing. Of course it will 
 not work among roots, or fast stones, and, we suppose, not well upon sod 
 ground. 
 
 Prof. J. B. Turner, of Jacksonville 111., has invented a machine which is 
 rather a combination of other tools w-ith the plow than a substitute for it It 
 is a frame about six feet wide, fixed upon two broad wheels, which serve as 
 rollers for the soil. This frame is arranged to carry two plows, when re- 
 cpiired for plowing, and at the same time drop corn or other seed. Tiie 
 plowshares can be removed and implements for cultivating corn put in their 
 place, by which the ground is cleaned and the dirt turned to or from the 
 hills. There are knives that precede the cultivators and shave off all the 
 weeds. There is a guard attached to the frame that covers the seed corn 
 so that it is iiever covered too much by the teeth. This machine costs $100, 
 and requires two to four horses to work it. 
 
 1067. A ilonic-made CJod Crusher is thus described by an Illinois farmer: 
 Take two pieces of light timber, eight inches square, ten feet long, and fosten 
 them together, three feet apart. Upon the under side of these timbers, 
 pieces four inches square, eighteen inches long are fastened, eight inches 
 apart, and so arranged that the rear ones are not in line with the forward 
 ones. Tliese teeth are beveled and set so as to pitch downward slightly, and 
 the frame is drawn diagonally over a plowed field, by which lumps are dis- 
 turbed and pulverized. 
 
 106S. A Simple Method of Broadcast Sowing is thus described : Tiie grain, or 
 peas, or plaster to be sown is taken to the field in a light wagon, and a bag- 
 ful emptied into a low box in the hind end, near which the sower kneels, 
 
924 IRRIGATION— DRAINING— PLOWING. [CnAr. XIII. 
 
 and sows with both hands as fast as the driver goes ahead, tlie quantity 
 beini^ reguUxted by tlie speed. By tliis mode sixty bushels of peas were 
 sown in one day, with less fatigue than six could have been sown on foot. 
 The wagon tracks are sure guides for the sower, and- enables him to sow 
 evener as well as faster. 
 
 10G9. An ImprOTed Gardeu Hoe, invented by H. A. Lathrop, of Sharon, 
 Mass., is made of three triangular pieces of sheet-steel, the middle one being 
 riveted at the upper corner to the other two, and each attached to the three 
 prongs of a forked socket on the handle, and is a very efiective-looking im- 
 plement for all purposes where digging instead of scraping is to be done. 
 We look iipon it as a decidedly good implement. Another effective hand- 
 tool is made like a subsoil plowshare, the upper part of the standard having 
 a socket for a hoe handle. 
 
 1070. An Improvfment in Corn Baskets. — This impi-ovement is particu- 
 larly valuable where "basket stuff" is not found. The body of the 
 basket is made entirely of upright splints or staves, without braiding in 
 cross strands. These sj^lints are nearly an eighth of an inch in thickness, 
 and are held firmly in place between two pieces of thin board that form the 
 bottom,- and the two hoops that form the top binder or rim, by -wrought 
 nails that pass through each splint and clinch on the inside. The two jjieces 
 that form (he bottom are placed with the grain of each piece running at 
 right angles across the othei", so that when the nails are driven and clinched, 
 it prevents their warping or splitting, thus forming a very strong bottom on 
 which the basket may be dragged about without danger of breaking or 
 wearing out. The rim at the top being fastened with wrought nails that 
 clinch, is very strong and does not become loose and let the handles slip out. 
 A flexible wire hoop passes around the center of the basket, which is 
 fastened to each splint separately, confining them firmly in their places at 
 that point. They are made of a form to let into each other, like our peach 
 baskets, and gauged to accurate measures, and being manufactured (of 
 course, Yankee fashion) by niachinery, are sold at about the same price of 
 baskets made in the ordinary way, and arc said to be more durable. 
 
 1071. Hem]) Harvesler. — Among the recent inventions is a machine for 
 harvesting hemp, patented in May, 1858, by C. B. Brown, of Alton, 111. 
 We hope this latest attempt to substitute machine-work for the heavy hand 
 labor required to cut the hemp of a large growth will be successful. It is 
 something much needed. 
 
 1072. A Willow-PeeHng Blachine.— A willow peeler, patented by J. M. 
 "Wood, is cxtreniel}' simple, and is composed of a graduated screw wliich lies 
 across a ilisk, so that the small ends of the willow being inserted in the 
 small end of the screw, are rolled over and carried through to the but of the 
 willow, which then has arrived at some of the large threads according to 
 the length of the stick, and in its passage is entirely stripped of its bark. The 
 whole machine can be carried on a man's back. 
 
 1073. A Tire-Bending Machine, invented by Mr. Mosher, of Chenango 
 
Sso. 55.] IM'>ROVED FARMiX i TOOLS. 925 
 
 County, is a very simple, cheap, and effective machine, which every country 
 blacksmith should have. It consists of a plank wheel, sized for large and 
 small tire, with an inner roller attached to a lever that operates upon the 
 straight bar, and gradually bends it into sha])e. The whole machine could 
 be made for $5, and although not strictly classed under the head of agricul- 
 tural machines, is one in which all farmers are interested, as they are in 
 whatever cheapens the labor of the suiithery. 
 
 107i. The Ox-Shovel, or Road-Scraper. — ^The ox-shovel is a very valuable 
 farm implement. One called Arnett's patent scraper, or ox-shovel, consists 
 in an arrangement for opening the hind part and letting out the load without 
 upsetting it. This saves a deal of very hard labor. There is another scraper 
 that for some purposes is an improvement upon the above, as it is suspended 
 under a pair of light wheels, with a horse in the shafts, and is loaded in the 
 usual way, and then the handles are borne upon and the shovel liold in a 
 level position by stay chains, until the horse is driven to where the dirt is 
 needed, when the catcli of the chain is easily unloosed, and the shovel 
 emptied behind by bearing upon the handles, or by jumping on and 
 pressing it down by weight. It was the invention, so it is said, of a man 
 with one arm, who could then out-work a man with two hands, who used 
 the old style ox-shovel. 
 
 1075. The Uorse-Hoe Road-Scraper.— This tool is so little known, and is yet 
 GO importaut, that we give it prominence in a separate paragi-aph. We 
 have seen it much used in the vicinity of Chicago, and oidy in one or two 
 other places. We feel satisfied tliat it would bo adopted by all who see it 
 work, wherever loose earth is to I)e scraped from the sides of a road into the 
 center, in the operation of turnpiking. This macliine is simply a horse-hoe, as 
 the other is a horse-shovel. It is made for one or two horses, or oxen, with 
 thills, or a tongue, the hind end of which is attached to standards just high 
 enough to keep the tongue on a level when at work. To the lower end of 
 the standards is attached the hoe, which is made of wood with an iron or 
 steel edge, or the whole hoe is made of iron. If those who have seen a wire- 
 toothed horse-rake will fancy a continuous iron plate in place of the teeth, 
 they will have an idea of this horse-hoe scraper. 
 
 107G. Machiaery Saves niamial Labor. — The following, tliough not a farm 
 implement, is one that all farmers are interested in, because whatever 
 clieapens labor connected with agriculture is to tlie farmer's advantage. 
 The great lumber mills are often necessarily located in places so inaccessible 
 to teams, that getting lumber from tliem is very laborioixs and expensive. 
 At Williamsburgh, Peun., the mill is 1,200 feet from the canal, on the 
 opposite side of the river, which is lower than the canal. Formerly the 
 boards were run down to a boat and loaded by hand, and then ferried over 
 and carried up the liaiik. INow, the whole work is done by tlie mill-power, 
 which sends over 10,000 feet of lumber per hour, upon a lumber-shute sus- 
 pended upon wire cables. The contrivance is so ingenious, and cost so little 
 ($2,000), considering its value to the mill-owners, that we advise all who 
 
926 IRRIGATION— DRAINING— PLOWING. [Chap. XIII. 
 
 may have mills in such iticouvenient situations, to adopt this vahiable im- 
 provement. The bottom of the shute is furnished with a series of rollers, 
 upon M'hieh a pile of boards is played at the mill, and then a single board 
 being sent through a pair of pressure rollers, pushes the pile its length 
 ahead, when that board being loaded is also pushed forward and drives the 
 load before it, in a continuous stream of lumber. 
 
 1077. The Grindstone. — There is no machine used upon a farm that is 
 more important than the grindstone, and no farmer who knows the value of 
 sharp tools, and the loss of time by using dull ones, will try to conduct farm- 
 ing without one grindstone, and he will often find it good economy to have 
 two or three. There is no surer mark of a shiftless farmer than that of a 
 miserably mounted, rickety, old grindstone. No farmer can afford to do 
 without a grindstone mounted upon friction rollers, so that it can be operated 
 by a treadle, with the foot of the person who holds on the tool, as well as with 
 a crank. It will save its cost every year. But above all other things con- 
 nected with the grindstone, be sure never to be seen going to a neighbor's 
 house to grind your scythe or ax. You can not afford to borrow a grind- 
 stone. 
 
 1078. A Variety of Agricultural Tools Noticed. — "We can not give even the 
 names of all other agricultural implements ; much less a description of 
 them, and only intend under this head to cali the attention of farmers to 
 some of the most indispensable of those of recent invention. Of course, the 
 plow leads all other farm implements, and a good farmer will have one 
 suited to iiU kinds of work, and will not attempt to do all his work with 
 a single size, nor with plows all of the same shape. The same rule should 
 hold with harrows and cultivators. If oxen and horses are both worked on 
 the farm, it should have a heavy ox-harrow, and one made strong and light, 
 fi;r a pair of horses to walk quickly over the field, for in the rapidity of the 
 movement lies the perfection and economy of the use of a harrow on smooth 
 land. A one-horse harrow will be found a very useful tool, even on a farm 
 where large teams are kept ; and no farmer can afford to do without one, at 
 least, good steel-toothed cultivator, such as those made at Ilion, IST. Y. ; 
 or the Knox horse-hoe ; or some similar labor-saving imjilement. The best 
 universal harrow, in our 02:)inion, is the one invented and given to the world 
 by Hon. Geo. Geddes, of Onondaga County, N. Y. It is a double triangle, 
 one following the other, hinged in the center, so that if drawn along a dead 
 furrow the center would rest on the bottom, while the wings would ]-ake 
 ihe sides to the top. Chandler's harrow is a single triangle, folding 
 in the center. The Scotch harrow is two square frames hinged together 
 and drawn at an angle. There is a similar one made for one horse. " The 
 expanding harrow" is a square frame, so arranged that its width is increased 
 or decreased by shifting the link of a draft chain. This is a convenient, in- 
 expensive form. The twenty teeth are set in four bars, and each one at the 
 end passes with a round neck through a bar, serving as a hinge or pivot, so 
 that taking hold of two corners the bars draw together, making an elongated 
 
Seo. 55.] IMPROVED FARMING TOOLS. 927 
 
 diamond-shaped harrow, that would run between two rows of corn. Then 
 draw upon the other corners and it comes back into a srpiare form, and can 
 be held there, or at any angle, by the chain that is hooked, on from corner to 
 corner. 
 
 Of cultivators there are sizes and forms suited to all purposes, generally 
 with three to five teeth, and these of various forms, in wooden or iron frames, 
 made to expand so as to work wide or narrow rows, and as each tooth is a 
 little plow, a horse makes five small furrows as fast as one with a plow. Some 
 of these implements are especially designed for hoeing corn, and answer most 
 admirably for that purpose. One is designed for hoeing cotton, and also 
 answers well for carrots and similar crops. The operation may be likened 
 to that of a pointed shovel slipping along just under the roots of the weeds, 
 with teeth on the upper end of the shovel, which combs out the weeds, 
 leaving ihem on the dirt instead of under it. The implement called a 
 " cotton sweep" is made to shave the surface with sharp knives, and rake 
 out the weeds thus cut off, with small harrow teeth set in an expanding 
 frame, to suit all widths of rows. This is an excellent implement for all 
 hoed crops on smooth land. There are several forms of hand cultivators 
 and machine hoes which some gardeners think well of, but all are not eco- 
 nomically practical. 
 
 Small seed sowers and planting machines are numerous, and are truly 
 very useful and economical for planting all small seeds, as ruta baga, carrot, 
 etc., and, in a small way, for corn. In lai-ge fields, corn should always be 
 planted by a horse machine. And so should all small grain and grass, as 
 there are simple, inexpensive machines arranged to plant wheat in straight 
 rows, eight or nine inches apart, and each grain at an exact distance from. 
 its fellow, and all at a uniform depth ; and there are other machines for 
 broadcast sowing; and machines for harvesting grain and hay, which we 
 have spoken higiily of in the chapters devoted to grain and grass. A very 
 valuable machine for lifting rocks is noticed in No. 982. It is compact, won- 
 derfully strong, has nothing liable to get out of repair or break but a 
 chain, and costs $275. The substitution of machines for hand-labor within 
 the last fifty years has been wonderful, and now almost every species of farm- 
 work may be done by machinery, whether it be plowing, sowing, reaping, 
 gathei'ing, thrashing, winnowing, or grinding. Even the old well-sweep lias 
 given place to the water-ram. It is manifest from the great demand that 
 has sprung up of late years for these new and useful inventions, that the 
 light of intelligence is beginning to diffuse itself throughout the country, 
 and that while improved methods of culture are being introduced, private 
 and public interests are becoming more closely united. 
 
CHAPTER XIV. 
 
 STAPLE SOUTHERN CROPS. 
 
 COTTON, CANE, KICE, TOBACCO, HEMP. 
 
 SECTION LVI.-THE HISTORY, GROWTH, AND MANUFACTURE 
 OF COTTON. 
 
 ^OTTON" is king," is the stereotyped phrase of those 
 > IS^K^^'yi ^^'° have so long devoted all their energies to its pro- 
 S ui^'1^S\T duction, traffic, or manufacture, that they know no other 
 god. With those M'ho know the value of the true 
 grasses, it is not king of all the farm crops, though it has 
 long held a mighty influence over the destinies of Amer- 
 ica; and the events that liave occurred during the com- 
 pilation of this volume, in the years 18G1 and 1862, are 
 so intimately connected with cotton, that the author be- 
 lieves a somewhat extended history of it, and the intro- 
 duction of its culture into this country, will be interesting 
 to many readers. Of course, many who read do not and 
 can not grow cotton, because their home is in too rigor- 
 ous a climate; but will that make its history any less interesting? To some 
 who have never grown it, yet owing to tlieir location in temperate portions 
 of the Middle States, may desire to do so, this section will possess interest, 
 for it contains much useful information. Although we have never admitted 
 the regal claim of cotton, we have always admit! ed the beauty of cotton- 
 fields ; not only because they are beautiful, but because with the production 
 of this " vegetable wool" there is connected a vast utility and improvement 
 of the human race. Though in its production barbarity and cotton have 
 grown upon the same soil, and misery has been interwoven with warp and 
 woof in its manufacture, its use has greatlj^ increased civilization in the 
 great human family, Ijecause it has done more than anything else to clothe 
 the naked, and that is the first great step in improvement of savage life. It 
 not only furnishes the clieapest substantial covering for tlie half clothed, but 
 it furnishes the material for more than half of tlie ornamental dress of man- 
 kind, and therefore may be called, not king, but one of a good King's best 
 gifts to his subjects ; because clothing next to food is their greatest want. 
 It is unfortunate that a substance for which there is no substitute can only 
 be grown in southern latitudes, for it is true that silk, flax, wool, hair, 
 hemp, and skins are all insufficient. Their production is too limited, and if 
 
 #? 
 
PLATE XX. 
 
 (Page 928.) 
 
 This is a very interesting picture. Interesting, because cotton 
 has so enwrapped itself around politics, and entwined its fibers into 
 the history of the age, that every one is interested in its history. 
 This we have given, though briefly, very succinctly in this chapter, 
 and this plate gives a most perfect representation of its growth and 
 appearance at harvest time. At the upjier left-hand corner will be 
 seen a branch, leaf, and flower unopened. Beneath it is the flower 
 expanded in its fullest beauty, as it is in the morning. Under that 
 it is seen as it appears in the evening. It will open again, but with 
 a changed color. It is creamy white the first day — it is red the 
 second ; the third it is rotting upon the ground. To the right the 
 bolls are seen, nearly ripe, quite ripe, and over-ripe, in which con- 
 dition the cotton will blow away, or fall to the ground by the weight 
 of its seeds and wet, leaving the dry, brown husk of the boll, as 
 represented upon the upper right-hand corner. We have spoken 
 of the beauty of the cotton-field when in bloom, ^ 1081, and when 
 the bolls are open, as represented in the center of this picture. We 
 have also fuUy described the culture and cost of production of this 
 great staple crop. 
 
 The scene represented in the lower compartment of this plate is 
 such a one as we have very often seen magnifted in its grandest 
 proportions. The black dots around the woman in the foreground 
 must not be mistaken for a part of her dress, as it appears more like 
 silk than it does like a coarse sack, as it is, into which the locks of 
 cotton are thrust as fast as gathered. This is emptied into the great 
 baskets, which are carried out of the field upon the negroes' heads. 
 We have seen a hundred baskets carried thus in one gang of pickers, 
 return at dark from the task begun at dawn. Beautiful as this pic- 
 ture is, it gives but a faint view of the reality. 
 
Seo. 56.] 
 
 THE HISTORY OF COTTON. 
 
 929 
 
 all together were used as much as cotton their cost would be beyond the 
 reach of many, while cotton can be produced witiiout limit as to quantity, 
 and at so small a cost tliat all classes can aflbrd tlic nso of the cheap fabrics. 
 
 1079. The History of Cotton. — ^The genus Gossypi^tm is divided into Gossy- 
 jnum Hcrhaceum, G. IIirsutu7n, G. Barhadenst'y and G. Arlorevm. There 
 are many hybrids of each. The plant is indigenous to the tropical regions 
 of Asia, Africa, and America, and is easily grown in all semi-tropical regions, 
 and occasionally still farther north. The southern limit of Europe (36^ 33') 
 is too far north for its natural growth, though it has become acclimated in 
 much higher latitudes ; in some of our Western States up to lat. 40^. The 
 first cotton manufactured in Europe, it is said, was obtained from the Arabs. 
 Being indigenous to India, cotton was early manufactured there, but we 
 judge it was not known in Solomon's time, for neither he nor Homer men- 
 tions it, nor is it ever spoken of in the Bible, though linen is often mentioiied. 
 How long cotton cloth has been used in India is unknown, as it was abun- 
 dant when tlie country was first visited by Europeans, though rudely manu- 
 factured, and not much improved now ; it is spun and woven much in the 
 same way it was three thousand years ago. The first mention made of cot- 
 ton in history is by Herodotus, who lived four hundred and forty years 
 before Christ. He says : " There is a plant in India which produces wool, 
 finer and better than that of sheep, of which the Indians make their clothes." 
 He describes a cuirass sent from Egypt to the king of Sparta, embellished 
 with gold and with " fleeces from trees." A century later, Alexander's 
 Grecian army invaded India, and fii'st saw cotton. Nearchus, the admiral, 
 who led the expedition down the Indus, gives an account of the clothing of 
 the people, " finer and whiter than flax, which was made from a substance 
 growing in pods on a tree, called by the natives Tula ;" and his ofiicers 
 have left a description of tlie cotton dress and turban which formed the cos- 
 tume of the natives at that remote period. Theophrastus, the disciple of 
 Aristotle, notices the growth of cotton both in India and Arabia, and ob- 
 serves that the cotton plants of India have a leaf like the black mulberry, 
 and are set on the plains in rows, resembling vines in the distance. On the 
 Persian Gulf he noticed that they bore no fruit, but a capsule about the size 
 of a quince, which, when ripe, expanded so as to set free the wool, which 
 was woven into cloth of various kinds, both very cheap and of great value. 
 
 Strabo, in the first century, spoke of flowered or printed cotton cloths, and 
 beautiful colors of Indian dye ; and that cotton was then grown at the head 
 of the Persian Gulf. Pliny, later in the same century, says : "There grows 
 a shrub called Gossypium or Xylon, in Upper Egypt, producing a stuft" from 
 wliich the white garments worn by the priests are made." Tiiis was cotton, 
 which had been but lately introduced from India, through Aral)ia and 
 Persia, and no doubt had to work its way slowly against the interest and 
 prejudice of those who had long grown flax and made fine linen. But they 
 had to give way to the mighty power of cheap production. That cotton 
 was not in the pyramid age of Egypt, has been proved by microscopic 
 
930 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 examination of the fibers of mummy cloths. But Arian, in the second cen- 
 tury, speaks of trade between Arabs and Greeks with India, in cotton cloths; 
 tliough undoubtedly to a very limited extent, owing to the difficulty of sup- 
 planting liuen with a less valuable fabric before machinery was brought to 
 its aid, by cheapening the production. The list of merchandise in the 
 Roman tariff of those days does not mention cotton cloths, though it does 
 silk, which was also brought from India, though mostly from China. It 
 does indeed seem surprising that cotton manufacturing should have been 
 known for thirteen hundred years, upon one side of the Mediterranean, 
 before it crossed over to Greece and Italy. It seems equally strange that 
 Home did not import the exquisitely fine cotton fabrics of India, while she 
 sought silks from a still more remote region in China. Cotton has often 
 been found, by European travelers, growing wild in Africa ; and it was 
 found by Columbus in Hispaniola, and among the presents sent by Cortes 
 to Charles V. wei"e cotton mantles, vests, and carpets, of various figures, and 
 in the conquest of Mexico the Indian allies wore armor of quilted cotton, 
 impervious to arrows. 
 
 Cotton garments have always been held in high favor by faithful Moham- 
 medans because their Prophet consecrated the fabric, in their eyes, by wear- 
 ing pure white cotton garments as a sort of lioly dress, upon public occa- 
 sions. On the other hand, there was a strong prejudice and opposition to 
 the introduction of cotton into China, owing to the fact, jDrobably, that the 
 holy men of that country all wore silk and wool. Marco Polo, a traveler 
 of the thirteenth century, found the manufacture of cotton cloth extensively 
 carried on in Persia and the provinces bordering the Indus. He only saw 
 it growing in one town in China, while in India it was the universal cloth. 
 It is singular that it should have flourished in the latter country one or two 
 thousand years before it was adopted by its nearest neighbor, China ; and it 
 might have remained uncultivated there still longer, only that after the 
 Tartar conquest it was introduced by force. The worshipers of cotton in 
 this country may wonder how people could be so prejudiced. History tells 
 us that cotton was grown in Brazil in 1519. The Aztecs, however, were prob- 
 ably the largest ciiltivators and most successful manufacturers of any of 
 the races inhabiting this continent at the time of its discovery by Europeans, 
 and it is also probable that the "cotton-tree," now found in Central and 
 South America, is indigenous to that region. 
 
 lOSO. History of Cottou Culture in the United States.— It is supposed that 
 cotton was introduced into the territory of the United States from Barba- 
 does, about 1664^, as avc have no proof that the Indians knew anything of its 
 value. About 1778-9 a gentleman named Burden, living iqion Jolm's 
 Island, a few miles south of Charleston, S. C, clothed his negroes witli 
 cotton cloth made upon the jjlantation. At that time the oniy manner of 
 separating the lint from the seed was by the fingers ; for then there were no 
 cotton-gins, not even the rude affair still in use to clean Sea Island cotton 
 {Oossypium heriacewn), which was the only kind cultivated — probably 
 
Sko. 56.] HISTORY OF COTTON. 931 
 
 because the lint does not adlicre to the seed as it does to tlie green seed, or 
 upland variety. About 1S49 or '50 we spent some days upon the Burden 
 plantation, and learned much of the early history of cotton from a son of 
 the Mr. Burden first spoken of, who said that when it was firsr grown, 
 the constant evening work for all the family — men, women, children, and 
 servants — was picking cotton ; and that simple and ineiKeient as the roller- 
 gin is compared with the saw-gin of the present day, it was hailed with 
 joyous acclamations when it was found that it would do the work previ- 
 ously accomplished by the very toilsome labor of the hands. Mr. Burden 
 thought the first cotton ever shipped from this country was a hag sent from 
 Charleston about the year 1740. Upward of fifty years elapsed between 
 that and the next shipment. During the Revolutionary war, cotton was 
 generally grown for family use in eighth and quarter-acre patches. In 
 1793, cotton was planted for a crop by a Mr. King, and in 1795 a million 
 of pounds were exported from Charleston. In 1804, Mr. Burden raised the 
 first crop of fine, long staple cotton in the State. This was produced from 
 carefully selected seed, from stalks growing among that planted for family 
 use, which seemed to possess the quality of a long, fine, silky fiber in an 
 eminent degree. He continued his experiments of improving the seed more 
 than twenty years. In 1826 he put up sixty bags of a superfine quality, 
 which sold for $1 10 a pound. In 1828 he sold the same quality at ^1 25 ; 
 ordinary Sea Island sold the same years from 24 to 40 cents. His first crops 
 were grown on a small island called Burden's Island. The first crop on 
 John's Island was grown by Mr. Legare, in '96. A good average yield of 
 Sea Island cotton is 200 pounds to the acre. Where one planter makes that, 
 one hundred do not, probably, make half that. Mr. Burden made an aver- 
 age of 300 pounds to the acfre, and 400 have been produced. He recollects 
 the current price of cotton, about 1794, was 25 cents a pound, and that there 
 was only one buyer in the city of Charleston. 
 
 About the year 1785, the seed of upland, or short staple cotton {Gossypium 
 hirsutum), was introduced into Georgia from the West India Islands. The 
 diflference between the two varieties may be easily' known, if readers will 
 recollect that the seed of upland cotton is of a greenish color and hairy — 
 that is, the lint adheres to the seed, while the lint of the long staple sepa- 
 rates freelj', leaving a smooth, black cotton seed, much resembling that of 
 the common sunflower. The cultivation of upland cotton for export now 
 extends from the Ohio Biver to our utmost Southern limits, though not a 
 certain crop north of latitude 36". The neighborhood of Nashville, Tenn., 
 and lialeigb, N. C, may be considered the northern limit of its successful 
 cultivation, or rather as far north as it can be grown to compete with the 
 more favorable localities south of that line, though we have no doubt that 
 improvements in the mode of culture and iise of proper fertilizers will 
 enable farmers to grow it with considerable success much farther north. It 
 is certain that the cultivation of land without manure, and with vei-y shallow 
 plowing, with such an exhausting crop as cotton, as generally practiced upon 
 
932 STAPLE SOUTEERN CROPS. [Chap. XIV. 
 
 Southern cotton plantations, evinces about as much of the spirit of the 
 darker ages, as did the Chinese when they stubbornly refused to grow cot- 
 ton because their fathers had always been successful in growing sheep and 
 feeding silkworms ; or as the policy of the " Confederate Government" of 
 the rebel States, in ordering all cotton burned, rather than allow it to reach 
 any civilized country, to be manufactured for the general benefit of humanity. 
 
 1081. Beauty of the Cotton-FieldSi — As a flowering plant, cotton might 
 be cultivated for its beauty alone. The leaves are a deep, glossy green, 
 grow profusely upon branches forming a handsome cone, Avhich is covered 
 with a continued succession of white, straw color, or pink flowers, according 
 to their age ; and then with its curious-shaped fruit, first small and green ; 
 then forming squares, and changing brown ; then cracking open, and show- 
 ing glimpses of its snowy white interior; then fully expanding into a hand- 
 ful of fleec}' white wool ; then gradually falling and hanging in pendants or 
 di'opping a snowy fleece upon the earth ; and so, from the opening of the 
 first blooms, the scene is ever-changing, ever-beautiful, beyond the power 
 of artist's pencil to portray. And the beauty of the scene is not, as with 
 grain, marred by the harvesters ; for in a cotton-field we see the pickers, like 
 black ducks upon the white-capped waves of some wind-tossed sea. Even 
 in mid-winter, wlieu all else is black and drear, an unpicked cotton-field 
 looks like a plantation of white roses or snow-ball flowers. Tiie black shade 
 of the picture is not the color of those who labor in the cotton field, but it 
 is " man's inhumanity to man." 
 
 1082. The Ilistory of Cotton MamifactureSi— By the Mohammedan power 
 the use of cotton was introduced into Spain, and with that power it declined. 
 From the fourteenth to the sixteenth century, cotton was manufactured to 
 some extent in Germany, Italy, and the Netherlands, and it was carried, 
 earlier than it otherwise would have been, to England, by the religious per- 
 secutions of manufacturers on the Continent. That was the starting-point of 
 the " cotton-power of England," which has promoted, fostered, and upheld 
 the " slave-power" of America. 
 
 The earliest record of cotton manufacturing in England is in the "Treasure 
 of Traflic," published in 16il. The author, Lewis Roberts, says: "The 
 people of Manchester buy yarn of the Irish to weave, and they also buy 
 cotton-wool in London, which comes from Cyprus and Smyrna, which they 
 work into fustians, dimities, and other such stnfls for sale ; it is sometimes 
 sent into foreign parts." Sometimes sent into foreign parts for sale! And 
 that was only 200 years ago. The cotton manufactures of the present day 
 are also sometimes sent abroad from England, and perhajis cotton-wool from 
 Cyprus and Smyrna is sold in London ; but we doubt whether in quantity 
 suflicient to supply one single cotton factory. Two hundred years ago that 
 same town of Manchester spun the said cotton-wool by hand upon a single 
 spindle wheel, not much superior to its prototype, in India, where it has 
 been used, without improvement, for three thousand years. At first, in 
 Manchester, the cotton yarn was generally used for filling upon linen warp, 
 
Seo. 56.] THE niSTOUY OF COTTON. 933 
 
 and was woven upon a hand-loom also like that used in India for the same 
 purpose. As this kind of fabric became better known, the demand increased, 
 and then a new custom or system of manufacture was introduced. About 
 the year 1760, the practice of Manchester merchants was to send agents into 
 the country roundabout, with linen yarn and cotton-wool, who engaged the 
 work of carding, spinning, and weaving to lie done in families. Sometimes 
 a weaver by trade took the job and sub-let the spinning. Sixty years later, 
 it was a common practice for ITew England merchants to send cotton yarn 
 around among their customers to be woven. The author has carried many 
 a wagon-load of yarn to farmers' families, and afterward gathered tlie webs 
 into the store, to be measured, folded, and packed by hand for the wholesale 
 market. Of course these were coarse goods — -and so were those first made 
 at Manchester — but the demand for them was great, and induced invention 
 for tlieir improvement. In 17C8 the spinning-jenny was invented by James 
 Ilargreaves, an ingenious English carpenter, and rude as it was, it was found 
 that upon this machine one person could spin as much as eight upon the 
 common wheel. But still it only produced the same quality of yarn, which 
 was not suitable for warp. The necessity of more warp than tlie flax-spin- 
 ners of Ireland could furnish, and tlie desire to produce fabrics entirely of 
 cotton, again stirred the inventive genius of the age, and Arkwriglit's 
 machine was given to work a world-wide revolution, not only in the manu- 
 facture of cotton, but in the habiliments of mankind, and in almost all the 
 economies of life. Then came Crompton's mule-jennj^, Cartwright's power- 
 loom, and "Watts' steam-engine, and cotton and its fabrics were sought after 
 by all the nations of the earth. The demand in England for the raw mate- 
 rial exceeded all human calculations. In 1780, and for four years previous, 
 6,766,613 lbs. per annum were imported. In 1790 the imports had increased 
 to 31,447,605 lbs. In 1800 they had increased to upward of 56,000,000 lbs., 
 and in 1850 to upward of 758,000,000. Of the immense trade in cotton 
 between this country and England, from 1850 to 1860, we need not speak — 
 it is of the current history of the age, and has been the cause of much of 
 its sorrow. In 1790, Alexander Hamilton called the attention of the Amer- 
 ican people to the importance of the cotton crop, not as an article of exj^ort, 
 but on account of the vast extent which the home manufacture of cotton 
 fabrics had assumed in the households of the p>eople. He alludes to the 
 then remarkable fact that muslins, bed-ticks, cheeks, stripes, hose, fustians, 
 coverlids, and various mixtures of cotton and wool, or flax, are made to a 
 greater extent than required for family use by the manufacturers, and even 
 hints at exportation. Both he and Mr. Madison spoke of the ]irobability of 
 extending the cultivation of cotton from the garden to the field, and of 
 sending the products abroad for sale. With all their sagacity and far-seeing 
 power, they had no conception the product would reach 4,600^000 bales 
 within seventy years. A bale of 400 lbs. per acre (1,200 lbs. in the seed) is 
 a good crop. Tlie largest yield known M-as 6,300 lbs. of seed cotton, grown 
 by Dr. Cloud, of Alabama, upon one acre. 
 
934 STAPLE SOUTHEEN CKOPS. [Chap. XVI. 
 
 Of the manufacture of cotton iu other countries, we have ah'eady said that 
 it was most ancient in India. Cortes, when iio invaded Mexico, found tlie 
 manufacture of cotton cloth in a considerable state of perfection. Humboldt 
 mentions tlie use of cotton in the manufacture of paper. Some of the cloths 
 made by the Mexicans were curiously figured by interweaving colors of 
 scarlet and blue, made from their native productions of indigo and cochineal. 
 Columbus carried home specimens of cotton to prove that he had found the 
 Indies. Time proved them to be the West instead of the East Indies; and 
 time will probably prove that tliere are other fibrous plants whicli can be 
 grown where cotton can not, which will serve as a substitute for it in cloth- 
 ing mankind. 
 
 1083. The Ilistory of the Cottou-Giit.— The world is indebted to the in- 
 ventive genius of New England for the vast quantity of cotton it has used 
 within the present century. Witliout Whitney's gin it could never have 
 been pref)ared for market and manufacturing. It is due to his memoiy In 
 connection with a great industrial interest, that we should give a brief Ilis- 
 tory of the inventor and invention, for without it a portion of mankind 
 would be but scantily clad. Tlie Inventor of the saw-gin, Ell Whitney, was 
 born in Westborougli, Massachusetts, Dec. 8, 1765. In the winter of 1791-2 
 he was a private tutor or guest in the family of Mrs, Greene (widow of 
 General Greene, of Eevolutionary memory, afterward Mrs. Miller), who first 
 called his attention to the ditficulty of separating the lint from the cotton 
 seed, and afterward aided him by suggesting the use of a brush to clean the 
 saw-teeth of the first model that he built. Crude as that model was, and 
 unlike the liighly-finished machines of the present day, the principle remains 
 unchanged. That principle is for a revolving cylinder, armed with teeth, 
 like a circular saw (hence the name of saw-gin), to seize the lint and pull it 
 through narrow slits between bars of iron, leaving the seed behind, and that 
 lint is cleared from the teeth by revolving brushes, and generally blown 
 away into a lint-room. An invention by Emory Brothers, of Albany, N. Y., 
 is a'great improvement upon the blowing process, for It compacts the lint 
 into bats ready for baling, and saves labor, room, and improves the cotton. 
 
 It was in June, 1792, that Whitney presented liis petition for a patent to 
 Thomas JeflPerson, and exhibited to liim the model of Ins machine, which 
 has In the seventy years since tlien M'orked such wonders in the agriculture 
 of the Southern States. That model was destroyed when the United States 
 Patent Ofiice was burned, but a copy of it was exhibited in the New York 
 Crystal Palace, where we examined and compai'od it with gins now in iise. 
 Whitney's first gins were worked by hand, and one with a cylinder of 2^ 
 feet long was capable of cleaning fifty pounds of cotton a day. This was 
 fifty times as fast as it could be cleaned by hand. With the best gins of tlie 
 present time, driven by the power of four or six mules, running a cylinder 
 twelve inches diameter and five feet long,' 250 revolutions a minute, 150 lbs. 
 of cotton can be cleaned in an hour, and a regular day's work is about three 
 bales. 
 
Sec. 56] THE HISTORY OF THE COTTON-Gm. 935 
 
 The introduction of the cotton-gin raised the market value of tlie cotton 
 lands of the South from 50 to 1000 per cent., and generally people grew 
 wild with excitement, and unprincipled men thouglit to rob tlie poor in- 
 ventor of his just rights, and excite popular prejudice against this " Yankee 
 invention," or, rather, against his legal right to claim a fair compensation from 
 those who were enjoying such great benefits from his ingenuity. As usual, 
 they talked about the " oppression to the South" of sucli a patent monopoh', 
 and souglit to " compromise" the matter by asking Congress to pay Whitney 
 for his patent and throw it open to the benefit of all the cotton-growing 
 States. For once Congress i-efused what it never has been known, I be- 
 lieve, since to refuse, that is, to grant all that Cotton had the modesty to ask. 
 For ten or twelve years poor "Whitney contended against the cotton interest, 
 which seemed determined to use his invention without paying for his patent. 
 The greatest wrong was done him in Georgia. The courts would not give 
 him a verdict upon the clearest testimony. Dne judge decided against him 
 upon the ground that cotton could not be profitably grown without the gin, 
 and that a patent right upon it was too great a monopoly for any one man 
 to possess. Soutli Carolina first agreed to pay $50,000 for the patent, and 
 after Whitney had received $20,000 of the amount, tlie Legislature repealed 
 the law and sued him for the money. The law, however, was restored after 
 several j-ears. Xorth Carolina and Tennessee also bought the right at so 
 much per saw for all made in the State. Georgia fought to the last, but 
 Whitney finally obtained several verdicts in his favor; yet not till the 
 patent had nearly expired. Since the time of Whitnej', improvements in 
 tlie cotton-gin have been a constant source of revenue to the Patent Oflice, 
 and its manufacture furnished employment to thousands of mechanics until 
 the slave power rebelled against the United States Government and stopped 
 the cotton cultivation, and the manufacture of cotton-gins ceased as a natu- 
 ral consequence. 
 
 lOSi. Sea Island Cotton. — This variety of cotton received its name because 
 it was first grown upon the islands near Charleston, S. C. We have already 
 stated how it difiers from the upland variety. It is more valuable, because 
 the fiber is long and silky, and suitable for spinning the finest thread. Its 
 value is also enhanced by the way it is ginned. This process we will de- 
 scribe as we have seen it performed upon many plantations. 
 
 1085. How Sea Island Cotton is Ginned. — ^The gin is an exceedingly simple 
 machine. It is merely two wooden rollers, about eight or ten inches in 
 length, and less than one inch in diameter, made of some soft wood, usually 
 common long-leaf pine. One of these rollers is inserted in the socket of an 
 iron balance-wheel of about fifteen pounds' weight, which is mounted upon 
 a bench and operated by a treadle. These rollers are held together by a 
 light spring, and put in motion by the operator's foot, while ho holds the 
 cotton with his fingers to the roller. These seize the lint and carry it 
 through while the seeds fall back into a box below. Great care has to be 
 taken that a seed is never allowed to pass through the rollers, as the raasli- 
 
93G STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 ing of seeds stains and injures the cotton. The rollers have to be renewed 
 every day, and sometimes ottener, if the wood is not exactly suitable, which 
 can only be ascertained by trial. If too hard, the wood polishes and will 
 not take hold of the lint ; and if too soft, it becomes rough directly, and 
 winds the lint around so as to stojj operations. Experience has shown that 
 the rollers made of green pine, and not very smoothly made, are the best ; 
 but even these should be renewed daily. Experience has proved, too, that 
 tlie gin must be driven by the ginner's own power, so that he can feel when 
 a seed is caught between the rollers. A Sea Island cotton-gin may be com- 
 pared, in its size and operations by the foot, to a sewing-machine. The 
 bench is about 3^ feet high, li feet wide, and 3 feet long, the balance- 
 wlieel having an opening at the left hand, so that the center is just above 
 the table. It has a bearing on one side, and a short crank and a socket on 
 the other, into which the lower roller is driven, and forms a bearing for that 
 side. As the seeds are hard, they communicate, if caught in the roller, a 
 little jar to the foot. The usual task of a stout man is to gin 25 lbs a day. 
 When the weather is very favorable, that is, in a clear, di-y atmosphere, 
 40 lbs. arc sometimes ginned by an experienced workman. As the cotton 
 falls from the gin it is gathered up and taken to a well-lighted table, where 
 every mote, speck, and stain is carefully removed. If a mashed seed is 
 found, the ginner is required to leave his machine and come to the 
 " moter's" table and pick it out. This is done to teach him to be careful, 
 and if the oflense is often repeated, he will be likely to receive something 
 more than words as a reminder of his carelessness. The ginning is always 
 done by the most experienced men, and the " moting" by the most careful 
 women on the plantation. The work of the " moters" is all overlooked by 
 an inspector, who is held responsible for the perfect cleanliness of the cotton. 
 After the cotton is ginned, it is injured by exposure to the atmosphere. The 
 ginning can be done to advantage only in perfectly dry weatiier, and the 
 packing in damp weather ; it is therefore taken from the " moter's" table 
 and closely packed in a dark room until ready for bagging. This process is 
 very tedious. The empty sack is suspended through a hole in the floor; a 
 portion of the cotton is then thrown in, and the packer gets in with a 
 wooden rammer and continues to drive down successive layers until the bag 
 is filled. The Sea Island bale is made fi'om four yards of cloth, and holds 
 300 lbs. ; and a packer's task is to finish one bale a day. If pressed by 
 machinery in square bales, like the upland cotton, the quality is said to be 
 injured, and it will not sell for as nmcli money in market as it does in the 
 regular round bales. 
 
 10S6. How Sea Island Cotton is Grown. — Upon a majority of the plantations 
 visited by the author in 1850, nearly the entire work was done by hoes ; the 
 use of plows was almost unknown. The average yield of cotton is less than 
 150 lbs. per acre, and it requires four pounds of seed cotton to make one 
 pound of lint. The plants are set in drills five feet apart, the stalks from 
 eight to twenty-four inches apart, and one good field-hand can plant and 
 
Seo. 56.] HOW UPLAND COTTON IS GROWN. 937 
 
 tend about three and a half acres. The manner of planting is to scrape all 
 the manure and trash into the hollows between the old rows, then dig with 
 hoes and haul one lialf of the old beds from each side upon the row of trasli 
 to form a bed for the next crop. The seed is put in the last of March or first 
 part of April. When ready to gather, it is picked with great care, and at the 
 same time assorted in the field ; then assorted again on the drying scaifold ; 
 afterward stowed away in the packing-house, and tiien taken to the trasher, 
 which is something like a fanning-mill ; then it is picked over by hand and 
 spread in tlie sun ; lastly taken to tlie ginner. 
 
 1087. How Uplaud €oUoa is Growu. — This is tlie Gossypium hirsidum, 
 the lint adhering to green seed, and it is killed by frost as easily as tomatoes. 
 In its growth it somewhat resembles buckwheat, though as far soutli as 
 Mississippi it becomes a woody shrub, tall and firm enough for walking- 
 canes. In Tennessee, Kentuck}^ Indiana, and Illinois, where cotton is 
 sparsely grown,, the shrub seldom exceeds three feet in height, and is not so 
 woody as to make the work of plowing under the dry stalks very difficult; 
 though it is quite so farther south, M'here they are either cut off and burned, 
 or beaten down M'itli clubs and plowed under as well as practicable, with 
 the small plows in common use. As the cotton plant has a tap-root, the soil 
 should be deep ; and instead of deepening it by plowing, the common practice 
 is to throw up the land in beds. It would be better to underdrain, subsoil, 
 and make all the soil mellow, and tlien plant nearly on a level ; raising the 
 beds only just enough to protect the young plants from injury by heavy rains. 
 Owing to the extreme delicacy of cotton plants during the first stages of 
 germination and growth, it is imperatively necessary to pulverize the beds 
 thoroughly, by ])lowing and harrowing or hand hoeing. In the extreme 
 northern limits of the cotton-growing region it will be fonnd profitable to 
 plow in autumn, and let the frost aid in the process of pulverization. The 
 beds are made about as far apart as corn rows — farther at the South ; say, five 
 to nine feet. A slight furrow is opened in the top, and the seed drilled 
 pretty thickly by hand, so as to allow for a great many to fail ; and if too 
 many grow, as they generally do, they are " thinned to a stand ;" which 
 upon the rich canebrake lauds of Alabama would be two feet between 
 stalks in rows four and a half feet apart. Upon such land we have seen 
 twenty bushels of seed to the acre used, to provide against the destruction of 
 the plants by the crawfish. If most of the seed should grow, a peck per 
 acre woidd be sufficient. In the vicinity of Montgomery, Ala., wliich we 
 take as the average isothermal line in the cotton region, the seed lequires 
 nine days' exposure iu tiie soil to vegetate and get above the surface ; and 
 the most approved planting season is the first of April, and the average 
 yield is about 150 lbs. of ginned cotton per acre. 
 
 In extending cotton cultivation northward, seed should bo obtained as 
 near the locality as possible, and soaked before planting. Afterward, select 
 in your own field from early, five-lobed balls, and thus, like sweet potatoes, 
 it may be gradually acclimated. At the South, very little care is exercised 
 
938 STAPLE SOUTHERN OEOPS. [Chap. XIV. 
 
 in selecting seed. In planting, it is covered by hoes, or by harrows, or a 
 wooden drag, drawn by a horse, and not over an inch and a half deep. The 
 greatest tronble is during the first growth, when, if the ground is not kept 
 clean, the crop will get a back-set that will put it in danger of autumn 
 frosts. The best implements are such as successful can-ot-growers use, 
 which scrape the surface close to the plants. " Thinning to a stand" is the 
 ■work of the hoe, striking across the beds, and cutting out the surplus 2:)lants. 
 The thinning should not be done all at once — not at the first or even second 
 hoeing ; for allowance must be made for cut-worms and other depredators. 
 The last work done is with a turning-plow, to throw up tlio earth to the 
 beds, so as to leave deep water furrows between. The first dressing or cul- 
 tivating commences soon after the plant puts out the second or third leaf, and 
 the hoeing or cultivating should be repeated as often as the weeds, or tht3 
 condition of the soil render it necessarj'', imtil the plant is in bloom and 
 begins to show balls. Manure for cotton is just as valuable as for any other 
 crop, and guano, superphosphate of lime, carbonate of lime, sulphate of 
 lime, have all been proved good ; and salt is undoubtedly beneficial — for Sea 
 Island cotton indis])ensable. It is best to add the salt to a compost, where 
 muck forms the principal ingredient. 
 
 There are three pickings of the crop : first, when the earliest balls open ; 
 second, the principal picking ; last, the gleaning after frost kills the stalks. 
 The sooner the cotton is gathered after it opens the better, as the sun dries 
 up the oil that pervades the fiber. It requires practice to be an expert cot- 
 ton-picker, and great care to be a good one ; because the value is much 
 injured by allowing any trash to get mixed with the lint. In picking, the 
 lock is seized so as to bring it all away at once, and is thrust into a bag, tho 
 mouth of which must bo kept nearly closed, to prevent leaves from getting 
 in, and when full is emptied into large baskets which are generally carried 
 on negroes' heads to the drying scaflPold, where the cotton is sunned one day 
 before it is stored. The picking season is a laborious one. The slaves are 
 all tasked, and have to work every minute of daylight, and often long after 
 dark in getting, the cotton home, and no one is exempit who is capable of 
 doing the work. 
 
 1088. The €ost of Growing Upland folloni— To show the cost of production 
 we give the following detailed account, taken by the author in 18-19, from 
 the books of one of the best conducted plantations in the State of South 
 Carolina, that of Col. "Williams, of Society Hill, whose plantation is on the 
 Great Pedee River. He then worked 140 field hands, and planted 15 acres 
 of corn and cotton per hand. The cotton averaged, the previous year, upon 
 1,130 acres, 1,000 pounds in the seed per acre ; and the corn, on 980 acres, 
 25 bushels per acre. The cotton crop averaged six bales per hand. 
 
 Cotton is planted in beds 4^ feet apart, and left to stand 12 to 18 inches 
 apart in the rows. Corn is planted 4i by 5 feet, two stalks in a hill. 
 
 The following was the cost of making 331,136 pounds of cotton, packed in 
 796 bales, averaging 416 pounds each : 
 
Seo. 56.] 
 
 THE COST OF GEOWING UPLAND COTTOX. 
 
 939 
 
 3,980 yards of Dundee bagging (5 yards 
 
 to a bale) at 16c $036 80 
 
 3,18-1 lbs. of rope at 6c. (-1 lbs. to a bale) 191 Oi 
 
 Taxes on 254 jilantation negroes at 76 c. 193 04 
 Taxes on 4,200 acres of land, valued at 
 
 $15 an acre 70 00 
 
 Wages of three overseers 900 00 
 
 Doctor's bill and medicine, on contract, 
 
 at SI 25 a heixd 317 50 
 
 Iron for blacksmith's shop 100 00 
 
 Cloth from his own factory 810 00 
 
 200 pairs of shoes from his o^vn factory, 
 
 at 87i c 175 00 
 
 100 oil-cloth capotes 125 00 
 
 20 woolen bl^kets, given one at each 
 
 birth 25 00 
 
 Calico dress and handkerchief, one to 
 
 give to each woman 82 00 
 
 Christmas presents, given in lieu of allow- 
 
 mg slaves to grow a crop 175 00 
 
 Annual average outlay for iron and wood 
 
 work of carts and wagons 100 00 
 
 50 sacks of salt 80 00 
 
 1 tun of plaster 7 00 
 
 100 barrels of lime 187 00 
 
 Annual averan;o expense of repairs of 
 
 gins and belts 80 00 
 
 400 gallons of molasses «... . $100 00 
 
 3 kegs of tobacco 60 00 
 
 2 barrels of flour 10 0;) 
 
 Freight and commission, f c. per lb on 
 
 cotton 2,069 00 
 
 Making $6,791 48 
 
 To this add interest at 7 per cent, 
 on valuation : 
 
 $63,000 for land $4,410 00 
 
 88,900 for slaves 0,228 00 
 
 3,720 for mules, etc 200 00 
 
 2,000 for cattle 140 00 
 
 1,000 for hogs 70 00 
 
 Total S17,894 48 
 
 Sales of produce of the plantation : 
 
 331,136 lbs. cotton at 7 c S23,179 52 
 
 13,500 lbs. bacon at 5 c. 
 
 Beef and butter 
 
 100 bushels of corn 
 
 1 ,000 bushels of corn meal . 
 80 cords of tan bark at i 
 
 Blacksmith work 
 
 Mutton and wool 
 
 G75 00 
 500 00 
 50 00 
 500 00 
 480 00 
 100 00 
 125 00 
 
 Total $25,509 52 
 
 This gives a profit of 37,615 04. 
 
 Col. Williams owns 10,000 acres of land, but only estimates in the above 
 calculation ■what belongs to the cotton plantation. The following are the 
 estimated values : 
 
 4,200 acres of land at $15 $63,000 00 J A bed comforter biennially SO 03 
 
 254 slaves at $350 88,900 00 1 blanket 1 25 
 
 GO mules and mares, and 1 jack 1 wool hat 50 
 
 and 1 stallion, at $60 3.720 00 | 
 
 200 cattle 2,000 00 Total $7 78 
 
 500 hogs 1,000 00 I ANNUAL bill or cost roK feeding slaves (where 
 
 23 carts and six wagons 520 00 i full fed, as upon the plantation of Col. Wil- 
 
 Plows — 60 bull-tongue, 60 shaving, j liams, and other first-class planters.) 
 
 25 turning, 15 drill-plows, and 15 j 3.\ lbs. of bacon a week is 182 lbs., at 5 c. 
 
 harrows. 262 00 'per lb $9 10 
 
 All other tools 1,000 00 I 1 peck of meal per week is 13 bushels, at 
 
 I 50c 6 50 
 
 Total $161,402 00 I Molasses, about 1 6-10 gallons 40 
 
 ANNUAL BILL OF CLOTHING PEK HE.M). Tobacco and Salt ' 28 
 
 12 yards cotton cloth at 6J cents, for 3 Potatoes, and all other vegetables, es- 
 
 shirts and 1 pair of pants $0 75 timated 9 72 
 
 6 yards mnter cloth at 40 c 2 40 
 
 1 pair shoes and repairing 1 00 
 
 1 oil-cloth capote 1 25 
 
 Upon most plantations the last three items ■would not be estimated, as the 
 slave would have to provide his own tobacco, salt, molasses, potatoes, and 
 other vegetables, out of his own crop, which he is allowed to cultivate Sun- 
 days and moonshiny nights, or from the sale of eggs, chickens, brooms, 
 mats, coon-skins, and other merchandise. In all the estimates of number of 
 pounds of cotton per acre, where the calculation is made upon the crop in 
 the seed, it is generally estimated that 1,000 lbs. of seed cotton will give 
 290 or 300 lbs. of ginned cotton, and about 30 bushels of seed. A neighbor 
 of Col. "Williams cultivated 21 acres of cotton and nine acres of corn per 
 hand, and made 2,500 lbs. of clean cotton per hand. The average yield per 
 acre in that district 'was calculated at 800 lbs. of seed cotton. The average 
 
910 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 time of planting is about the middle of April, as severe frosty nights occur 
 as late as that, and once we saw snow fall Api'il 15, all day. 
 
 1089. Ginning Cotton. — The cotton as it is gathered from the field is 
 dried in the sun and packed away in the gin-house, which is generally a 
 very rough building, corresponding with barns upon new farms, and the gin 
 is usually driven by horses or mules, working around an upright shaft, 
 which drives a horizontal one, and often by exceedingly rough gearing, re- 
 volving a drum for the band of the gin, which must run at a very high 
 speed. The lint, which is estimated at 30 per cent, of the weight in the 
 seed, is blown into a lint-room, and the seed thrown out of a window, just 
 as some farmers throw out stable manure, where it frequently lies till half 
 its value as a fertilizer is wasted. It is sometimes used as cattle food, but 
 is not valualde unless ground. By those who value cotton seed for the oil, 
 or the oil-cake for feeding, the waste around the gin-houses would be depre- 
 cated. Many small farmers do not own gins, but get cotton ginned by those 
 who work, as millers do, for toll. The bale (-100 lbs.), as usually put up 
 on the plantation, requires five yards of sacking and four pounds of rope, 
 and occupies nearly twice as much space as a compressed bale, which is 
 about four and a half feet long, and one and a half to two feet square. This 
 compression is done in powerful steam presses at the cities where cotton is 
 shipped oceanward, to save roona in stowage. It is then often hooped with 
 iron. 
 
 1090. Cotton Seed as ItlanurCi — There is no doubt that cotton seed is a 
 good manure for that or any other crop, but there is a doubt about its being 
 an economical one, because the seed can be applied to other pjurposes with 
 greater profit. If it is used for manure, it never should be, as it often is 
 upon Southern plantations, applied in its natural conditioTi, for then one half 
 its value is lost. If cotton seed is used as a fermenter of compost, all its own 
 fertilizing value will be saved, and the value of the compost greatly im- 
 proved. Thirty bushels of seed mixed with 5o0 bushels of muck, or road 
 scrapings, or woods-mold, with an equal quantity of stable manure, will make 
 an exceedingly rich compost. Those who have experimented with fertilizers 
 for cotton, think that the greater the numljer of ingredients in a compost 
 the better, and that such manure is the best fertilizer that can be used for the 
 crop. A good many cotton growers are just beginning to realize that they 
 can not grow cotton continually upon the same soil without manure. Upon 
 Buch hard-worked land it is very difiicult to get "a stand;" that is, to get 
 the young plants to live long enough to begin to grow. Upon the principle 
 that the ashes of anj^ plant is good manure for the same class of plants, there 
 is no doubt that cotton seed will fertilize the next crop. 
 
 1091. Will Cotton Culture and Production Increase ?— In the aggregate it 
 may, but it is likely to be more difi'used, both in this country and in British 
 possessions, and that the produce of slave labor will decrease, as old planta- 
 tions are constantly wearing out by the exhaustive system of culture pur- 
 sued in all the cotton States. It is doubtful whether the American crop of 
 
Sec. 56.] EXTENSION OF COTTON CULTURE NORTHWARD. 941 
 
 1859-CO will ever be exceeded. If we could be sure the consumption 
 ■would increase as rapidly in the next fifty years as in the past, it would be 
 worth while for all Northern farmers within the limit of its possible culture, 
 to get into tlie business of cotton growing. We do not think the demand 
 for American cotton will increase, because there is an immense area in otiier 
 countries just as capable of its production as this. There is a belt around 
 the earth's surface of at least sixty degrees in width, adapted in great part to 
 the culture of cotton. Great Britain now commands capital, while China 
 and India overflow with labor. Let Great Britain divert a few millions of 
 this capital and but half a million of coolies to any fertile area of 5,000 
 square miles within this belt, and she can in a few years double her supply 
 of cotton, and command the residue of her im2:)ortation at reasonable prices. 
 Among these spots none is more promising than Central America, where 
 the cotton plant is perennial, and a single acre, as we are assured by Mr. 
 Squier, yields semi-annually a bale of superior cotton. American ])lanters 
 are at work in India, and Africa is constantly increasing the production. 
 The high price of 1862 has given a wonderful stimulus to production in 
 every country but America. It has also given a stimulus to the production 
 of fiber from other plants, as a substitute for cotton. 
 
 1092. Exteusiou of Cotton Culture Piortliwardi— Independent of all political 
 considerations, we think that the cultivation of cotton should be extended as 
 fur nortiiward as the plant can be acclimated, to obviate failure in the 
 supply from one locality, from any cause whatever. Many wiio can grow 
 it, never thought of doing so till after the Confederated cotton States made 
 war upon the Northern States. The cotton planters had so long and loudly 
 declared that cotton could only be produced by slave labor, that many in 
 the free States believed the statement true. But the truth is, that by slave 
 labor the planters have been able to furnish cotton cheaper than any other 
 country ; it is not because it can not be grown in other places. But here, 
 with cheap land and cheap labor, the supply has been kept up at low prices. 
 Unfortunately, the planters are wearing out the cotton lands M'ith as great 
 rapidity as tlie tobacco planters wore out their soil. Many plantations 
 that once produced cotton are now barren ; and if the world was really de- 
 pendent uj^on the cotton States, the supply would certainly fail. It should, 
 therefore, be extended northward. 
 
 The growth of cotton in Illinois and adjoining States is not a question of 
 experiment, but one of economy. The " cotton interest" have fixed upon 
 lat. 36^, but incorrectly, as the northern limit of growth. In Europe and 
 Asia it is grown as far north as lat. 41° upon low lands, in warm situations. 
 Undoubtedly the cotton plant requires deep and thorough cultivation and a 
 long season of fine growing weather, exempt from frost, and such situations 
 can be found in the United States as far north as lat. 40^, and perhaps higher. 
 A rich, warm alluvial soil is best, and tliere is nothing in the cultivation 
 essentially diSerent from corn. The average yield per acre in some of the 
 best cotton counties in Georgia was given the author by many planters at 
 
942 STAPLE SOUTHERN CROPS. [CnAP. XIV. 
 
 400 lbs. in the seed, and we have no doubt but that can be exceeded in 
 soutliern Illinois. 
 
 It is contended by those who profess to know, that cotton does not ex- 
 haust the soil more than flax. We do not know how it would be under the 
 management of Northern farmers, but we do know that as cotton is now 
 grown it is the most exhausting crop in America, and has mined more 
 laud than all other crops together. Millions of acres of laud, once produc- 
 tive in cotton, are now lying barren wastes, all over the Southern States. 
 One of the principal reasons for this is, because there is no general system 
 of rotation. The forest is cleared off, and land planted in cotton and kept 
 in cotton t?ll it will no longer produce a paying crop. The only shift is 
 from cotton to corn, upon a portion of the land. It is no wonder that it 
 wears out. In a few instances the following system of rotation has been 
 successfully adopted. The rows of cotton are planted only one half as close 
 as they would be upon strong land, the wide space between the rows is 
 plowed several times during the summer, and next year the cotton is planted 
 in that space, and the old row " left to rest." By this simple mode the 
 yield per acre has been increased, and the field continued to produce with- 
 out diminution. If cotton is ever cultivated as a crop in regions not occu- 
 pied by slaves, some system of rotation will be adopted, to prevent the 
 general deterioration of soil that takes place everj^vhere that cotton has 
 been cultivated iu this country. It is certain that cotton is an exhausting 
 crop, as all white crops always arc, particularly one that ripens such a large 
 product of oily seed ; and it is certain that many farmers have given up the 
 cultivation of cotton in regions where it will grow, because it exhausts the 
 soil, and because it requires so much labor at the very time when corn must 
 be attended to ; and that, we believe, will be the great objection to cotton 
 growing in the free States. 
 
 1093. fotton from Flax Fiberi — A good many attempts have been made to 
 reduce the fiber of flax to such a condition that it would be a pretty good 
 substitute for cotton ; but none of the pi-ocesses have been cari-ied to such a 
 practical result as to produce any efiect upon the market, though some falirics 
 have been manufactured, and much good anticipated. One of the plans tliat 
 promises the greatest results is breaking the texture of flax-straw by the ex- 
 pansive force of steam, by which the woody substance that makes the shives 
 of the flax-dresser is loosened from the fiber, and that is left in a condition 
 very much resembling cotton. This is efl"ected by filling a large gun with 
 flax and saturating it with steam, gradually raising the pressure to 160 lbs. 
 per inch, when the gun is discharged, and the contents blown across a large 
 room, in a great, fleecy cloud of cottony lint. The same process j^roduces 
 lint from many substances that if not.a substitute for cotton in all its uses 
 will be for many things for which cotton is now used. For instance, the 
 common reed-cane of the Southern States will blow into a lint that is exceed- 
 ingly well adapted to the manufacture of paper. 
 
lysBi'TS 1>r.Tr«iors Ti.TiiF. Vu'vrt 
 
 TYT 
 
\ 
 
PLATE XXI. 
 
 (Page 942.) 
 
 This, like Plates XVI. and XVII., is one for careful study. The 
 insects that often nearly destroy whole crops im the cotton-growing 
 States, both cotton and corn, are here placed before the reader in 
 such a Tper feet facsimile of life, that any one may learn to distinguish 
 them ; and from seeing them as here pictured, he will natui'ally be- 
 gin to study their character and devise ways to counteract their 
 work of destruction. Some boy or girl may be incited, by looking 
 at this picture, to enter upon the study of Entomology. In one 
 case, at least, a man has grown from just such a small beginning as 
 the study of this plate to be an eminent writer upon the science, 
 and has done much to instruct others in the history of insects inju- 
 rious and beneficial to agriculture. We hope this may have a like 
 effect vipou some of the readers of this book. 
 
Sko. 57.] 
 
 SDGAPv-OANE CULTIVATION. 
 
 9i3 
 
 SECTION LVII.-SUGAR-CANE CULTIVATION. 
 
 /E shall give in this section some interesting facts, 
 gathered from personal observation about tlie year 
 ISiO-SO, showing the magnitude of the sugar-making 
 business in Louisiana, and the profits of well-con- 
 ducted plantations. Tiie cultivation of the true 
 sugar-cane, Arundo sacchariftra, is confined to a 
 very small portion of the Gulf States (though it will 
 perfect itself as far north as latitude 32i°), and we 
 shall therefore only mention a few facts connected 
 with its growth and manufacture. "We liave already 
 spoken of the Northern sugar-cane, Sorghmn sac- 
 charatum, which bids fair to render the farmers of 
 the Middle States quite independent of tlie Southern 
 sugar producers. 
 1094. Sugar Production ia Loujslana.— The census 
 of 1840 gives the total production of sugar in the United States (nearly all 
 in Louisiana) at 119,995,104 pounds; and in 1849, by census of 1850, at 
 247,577,000 pounds. That year we visited many sugar plantations along 
 botli sides of the Mississippi, and on Bayou La Fourche, and from our 
 memorandums taken from statements of planters and overseers, or from the 
 books, we will give a few statistics that will show the product per acre, or 
 rather arpc7it, as all measurement of land in that section is given in French 
 measure — /. e., 118 arpens equivalent to 100 acres. 
 
 1095. Statistics of Louisiana Sugar Plantations.— "We will take some large 
 plantations, including that of the Right Keverend Bishop of Louisiana, 
 Major-General in the Confederate Army, and give their acreable productions, 
 and number of hands employed to produce the crop, and in most cases a 
 considerable portion of the corn required. And first, Bisliop Polk's place 
 of 2,500 arpens, which lies 23i arpens wide on Bayou La Fourche, above 
 Thibodeauville, and extends back four and a half miles. The crop of 1848 
 was 600 arpens of cane, 200 ditto of corn, and 200 arpens more cane land 
 prepared. The yield of sugar was 720 hhds. from 470 arpens of cane, manu- 
 factured one year, and 510 hhds. from 358 arpens. It may be well to notice 
 here, that all the cane grown is never rolled (the term for grinding for sugar), 
 as about 25 per cent, has to be saved for seed, as one planting only lasts 
 about three years. The yield of molasses is about 60 gallons to each liogs- 
 head of sugar. From seven acres of "first ratoon" cane 21 hogsheads of 
 sugar were made in January, 1849. That is considered a fii"st-rate crop. A 
 lot of cane, weighed and crushed, and juice measured, gave 163 gallons of 
 juice, 8i lbs. per gallon, 1,386 lbs. to 2,300 lbs. of cane. The crop of corn 
 tlie same year was 10,500 bushels, which was 5000 bushels less than was re- 
 
944: STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 quired for the stock, biped and quadruped, on the plantation. The average 
 yield of corn was 26 bushels per acre. The M-orking force of the place was 
 11.5 field hands and mechanics, and 70 mules and horses. The total number 
 of slaves was 370. The small proportion of field hands was owing to the 
 fact that the slaves were an original stock, imported, in 1697, for Thomas 
 Pollock, an ancestor of Mrs. Polk, and have been in the family ever since, 
 and now include a large number of sujjerannuated men and women, some 
 of them over a hundred years old. There were also 70 children under ten 
 years of age. There is a historical anecdote connected with the slaves on 
 this plantation. The original stock was brought into Bristol, E. I., and, 
 probably owing to the same cause that decimates slave cargoes of the pres- 
 ent day, the captain found that he had not enough to fill his contract Avith 
 Mr. Pollock, and so he enticed some Indians on board, and immediately set 
 sail for Edenton, N. C, and delivered his cargo at the full count. Traces of 
 this admixture of blood arc still plainly visible in this old Pollock stock. 
 
 All the clothing of the slaves is manufactured from wool and cotton on 
 the plantation ; and all the hoes, spades, plows, carts, wagons, harness, shoes, 
 etc., as well as hogsheads and ban-els for the crop, and all the carpenter and 
 blacksmith work, is done by slaves, the rations of which arc, to each adult, 
 twelve quarts of corn-meal and three and a half pounds of pork a week, 
 and the total annual cash expenses $8,000 — generally estimated at $100 per 
 field hand — and the total value of the plantation, with all its stock and fix- 
 tures, was estimated at $400,000, and cost, seven years before, without any 
 slaves, for 1,800 arpens, of which 450 were cultivated, with 15 mules and 6 
 oxen, and the tools, $100,000. The cane is ground in a three-roller mill, 
 driven by steam ; the rollers 2 feet 3 inches in diameter, and 5 feet 6 inches 
 long; the juice is boiled in sets of iron kettles, and requires two and a half 
 cords of wood to a hogshead of sugar. 
 
 A few miles above Bishop Polk's plantation, on the other side of the 
 bayou, whicii is a narrow stream that looks like an artificial canal, and is 
 kept in place by embankments, is the plantation of Thomas Pugh, one of the 
 best sugar planters of Louisiana. lie went there fi'oni North Carolina in 
 1825, with a small force, and began a new place, or nearly so, which, in 
 twenty-four years, grew to the following dimensions, aiid capable of pro- 
 ducing the following crops : There were 3,000 arpens of land, about one third 
 of it cleared, 550 arpens in cane, 250 in corn, and 200 in pasture, roads, lots, 
 etc. The uncleared part was mostly cypress swamp, which aflbrded fuel and 
 timber for the plantation, and lumber for sale. Most of the swamp land, 
 like millions of acres in Louisiana, can not be cultivated unless drained by 
 machinery. This place had 200 slaves, and worked SO field hands, and made 
 700 hogsheads of sugar, and 60 gallons of molasses to the hogshead, from 
 440 arpens of cane rolled. All the corn required was also made on the 
 place, which would yield, if well tended, thirty ^our barrels full of ears of 
 corn per acre. The team force required on this plantation is sixty mules, 
 with appurtenances very complete, and one of the best kind of sugar-houses. 
 
Sko. 57.] SUGAE-CANE CULTIVATION'. 9i5 
 
 and a short distance to haul the cane to the mill, and still shorter to haul the 
 proceeds to the steamboat. The land is 17^ arpens front on the bayou, and 
 80 arpens deep — 28 arpens being a mile. The sngar-liouse is 40 by 3i0 feet, 
 with steam-engine and three-roller mill, each 2i feet diameter and 5i feet 
 long, which crush and squeeze the juice out of the cane so as to reduce it to 
 about one third its weight. 
 
 The estimated value of this plantation was given by the owner as follows : 
 1,G00 arpens of land (1,000 cleared), capable of being cultivated without ma- 
 chine draining, at $50 an. arpent, $80,000 ; 1,'100 arpens of swamp land, at 
 $1 25, $1,750; the mansion house, at cost, $30,000— $111,750 ; 201 slaves, 
 at an average of $400, $80,400 ; 60 mules and horses, at $100 ; 6 yoke of 
 work oxen, at $40 — $6,240 ; 1 wagon, $75 ; and 16 carts, at $50 ; plows and 
 other plantation tools, $2,000— $2,875 ; 10,000 bushels of corn in crib, at 40 
 cents, $4,000; lumber, small stock, and movables, $1,000;— total, $206,265. 
 
 ANNUAL EXPENSES OF TUB PLANTATION. 
 
 Overseer's wages, SI, 200 ; s;iw-mill and sugar-mill engineer, S700 SI, 900 
 
 Average annual outlay for mules 1 ,000 
 
 Cloth for negroes' clothes : cotton, 8850 ; woolen, $444 ; blankets, $200 ; shoes, $475 ... 1,919 
 
 22.5 barrels of pork, at $10 ; 50 barrels of flour, at S4 50 2,475 
 
 Average annual expense of plows, carts, spades, hoes, chains, harness, nails, and iron 900 
 
 Average annual expense of repairs of engines, sugar-mill, and kettles 200 
 
 Hoop-poles, S200 ; oil, $175 375 
 
 Physician's annual bill and medicines 350 
 
 Incidental average annual expense of sundries not enumerated above 200 
 
 Total $9,419 
 
 The proceeds of the crop the year under consideration might be estimated 
 as follows: 700,000 lbs. of sugar, at 5 cent*, $35,000; 42,000 gallons of mo- 
 lasses, at 18 cents, $7,560— total receipts, $42,560. Net balance, $33,141. 
 
 Yet this is one of the most liberally managed plantations in the State ; 
 the slaves being full fed, with three quarters of a pound of pork a day, and 
 twelve quarts a week of corn-meal, besides all the vegetables they can grow 
 for themselves, or that can be produced by a man and wife and mule em- 
 ployed for that purpose. Besides this, they have fifty barrels of molasses 
 and nearly fifty barrels of flour a year. Their annual clothing is 4 cotton 
 shirts, 2 cotton pants, 1 cotton and 1 woolen jacket, 1 woolen pants, 1 woolen 
 hat, 1 woolen blanket, 3 pair of shoes, 1 straw hat ; and to the old, or inva- 
 lids, 2 woolen shirts ; and 1 calico dress and handkerchiefs to women, besides 
 extras to house servants. 
 
 Other plantations produced, about 1850, as follows: On the Mississippi, 25 
 to 40 miles above New Orleans : Wm. Polk, 90 slaves ; 55 field hands ; 320 
 arpens of cane, 285 rolled, made 525 hogsheads of sugar and 36,000 gallons 
 of molasses. 
 
 Thos. Way, 75 slaves ; 35 field hands ; 350 arpens of cane, 230 rolled, 
 made 350 hogsheads of sugar and 700 barrels of molasses. 
 
 Col. Manning, on one of his places, rolled 75 acres, and made 140 hogsheads.' 
 
 On Bayou La Fourche : Gen. Martin ; 37 field hands ; rolled 256 arpens, 
 and made 335 hogsheads. 
 
946 STAPLE 'SODTEERN CROPS. [Chap. XIV. 
 
 J. W. Tucker, 115 slaves ; 80 field liands ; rolled 500 arpens, and made 540 
 hogsheads of sugar aud 28,800 gallons of molasses. 
 
 Geo. D. Davis rolled 150 arpens, and made 160 hogsheads of sugar, which 
 was nine iiogsheads to the hand, but expects to average twelve. 
 
 Jas. Tucker, 130 slaves ; 70 field hands; rolled 300 arpens, and made 230 
 hogsheads. 
 
 A. McCollum, 42 slaves; 24 field hands; rolled 120 arpens, and made 153 
 hhds. one year, and next year 131 arpens, and made 174 hhds. His opin- 
 ion is, from careful observation, that the sugar crop of Louisiana averages 
 per annum about four hogsheads per hand. A sugar-house to make eight 
 hogsheads a day, cost $5,000; has a steam-engine of 11 inch cylinder, 3| ft. 
 stroke, driving three iron rollers 4 ft. long, 2 ft. 2 in. in diameter. Four 
 kettles of 44 to 66 inches across, are not sufficient to boil all the juice that 
 the engine and mill can make. Plantation expenses, $4,800 last year; but 
 sold besides the sugar crop, $3,300 M'orth of lumber and 300 cords of wood, 
 at $2 a cord. 
 
 J. ]^. Tanner, on Terrebonne, 60 field hands ; rolled 300 arpens, and made 
 260 lihds. one year, and 46ii the next. 
 
 Doct. Beatty, 02 slaves; 50 field hands; 500 arpens in cane; rolled 270, 
 and made 200 hhds. Some land yielded 800 lbs. and some 1,300 lbs of 
 sugar per arpent. 
 
 Mr. Potts, 60 slaves ; 30 field hands ; rolled 150 arpens, and made 143^ 
 hhds. ; and next year 150 arpens, made 150 hhds. and molasses, 25 gallons 
 to the hogshead. 
 
 Other plantations on the Mississippi, above Bayou La Fourche, show the 
 fair average production of the sugar lands of the State. 
 
 Henry McCali, 200 slaves ; 100 field hands ; 637 arpens of cane ; 510 
 rolled, made 1,015 hhds. of sugar and usual fpiantity of molasses, Avhich does 
 uot vary much from an average of 60 gallons per hogshead of sugar. 
 
 J. R. Thompson (91 miles above New Orleans), ISO slaves ; 100 field 
 hands ; made one year 640, and next year 660 hhds. from 450 arpens. 
 
 Doct. Stone, 86 slaves ; 50 field hands ; rolled 220 arpens, and made 342 
 hhds., and next year from the same number of arpens made 387 hhds. and 
 SO gallons of molasses to the hogshead. His average in former years from 
 about the same area of land has been 450 hhds. The average yield of corn 
 is IS to 20 bushels an acre. 
 
 Daniel Ilickey, 52 slaves ; 28 field hands; 180 arpens rolled ; made 300 
 hhds., and last year the same quantity from 160 arpens, besides making more 
 corn than was needed. 
 
 Robert Richard, with 23 hands, and 18 extra iu the rolling season, 
 made 228 hhds. from 200 arpens one year, 310 another, and 210 another 
 year. 
 
 The next two places are below Baton Rouge, on that side of the river ; 
 the first being one of the oldest American plantations in the State, owned by 
 Col. Hickey, 80 slaves; 35 field hands; 240 arpens, made 264 hhds. ; next 
 
Seo. 57.] MAKING PLANTATION REFINED SUGAR. 947 
 
 year 250 arpens made only l-tO hhds. Has made sugar 35 years, and cotton 
 25 years before, on the same land. 
 
 F. D. Conrad, 200 slaves ; 80 field liauds ; 375 arpens, made 537 hlids. 
 The year before made 410 and lost 100 lihds. by breaking tlic mill. On the 
 new land of this place corn averages 30 bushels per acre, and old land about 
 half as much. On this, and other plantations, where the proportion of 
 molasses is not given, it may be estimated at 60 to 80 gallons to the hogs- 
 head of sugar. Judge Chinn, above Baton Rouge, made 595 hhds. of 
 sugar, and had 12,000 measured gallons and 39,000 gallons calculated by 
 weight, at 12 lbs. per gallon. This gives over 94 gallons of molasses to each 
 hogshead of sugar. Another place east of Baton Rouge, and away from the 
 river, 100 acres of cane gave 130 hhds. of sugar and 11,000 gallons of mo- 
 lasses, which is nearly 85 gallons to the hogshead. 
 
 1096. Average Yield of Sugar per Acre.— The average yield of sugar upon 
 the above-named jiiantationsupon 0,835 arpens of cane rolled, is one and 
 four tenths hogsheads per arpent. Reducing the arpens to acres, it makes 
 5,793 acres, and the average yield lyVo hhds. per acre. If we estimate an 
 average yield of 70 gallons of molasses to the hogshead, it gives 115i gal- 
 lons to the acre, to lie added to the sugar as the salable crop of an acre. 
 
 1097. Average Yield of Sugar per Hand. — The average yield of sugar to 
 each field hand employed upon the above plantations, appears to be about six 
 and three fourths hogsheads, and at the estimate of 70 gallons per hogshead, 
 ■i72i gallons of molasses per hand. Counting the sugar at five ceuis a 
 pound, 6,750 lbs. at 5 cents is $337 50, and molasses at IS cents a gallon, 
 472i gallons, $85 05, making a total cash value of the products per hand, 
 $422 55 per annum. 
 
 1098. Making Plantation Reflned Sugar. — Upon a considerable number of 
 the sugar plantations of Louisiana refined sugar is made directly from the 
 cane. This we found the case upon the plantation of J. P. Benjamin, who 
 averaged the year we were there, 300 lbs. of first quality refined sugar from 
 400 arpens of cane, which was considered only about one half tlie capacity 
 of the place, which had 140 slaves, 80 of whom were field hands, and eight 
 white men, mostly Germans, were emjjloyed in the refinery. The juice of 
 the cane is boiled in vacuum, tiiat is, in closed boilers, heated by steam, and 
 a charge makes from three to four thousand pounds of sugar. The molasses 
 that drains oif is re-boiled, and partly granulated, and drained again, and the 
 molasses boiled a second time, making a poor quality of sugar, but still leav- 
 ing a portion of molasses that will not granulate, estinuited to average ten 
 gallons to eveiy thousand pounds of refined sugar. Tliere are a good many 
 ])lantations that boil the juice in vacuum, making a grade of sugar much 
 like what is known generally as '' cofiec crushed," not carrying the refinery 
 process any further. Others, like Mr. Benjamin, go through all the pro- 
 cesses known to the best sugar refiners. On the west bank of the river, 
 above New Orleans, we visited the plantation of a Monsieur Lapice, who 
 worked 120 field hands, and had 750 ari)ens in cane, all of which he manu- 
 
948 
 
 STAPLE SOUTHERN CEOPS. 
 
 [Chap. XIV. 
 
 factnred into refined 6iigar, making from a million to a million and a half 
 pounds annually. His sngar-hoitse and refining apparatus'are very extensive 
 and costly. He estimated the value of the plantation, which covered some 
 1,700 arpens of cleared land and 2,000 arpens uncleared, and 220 slaves and 
 other stock, at half a million of dollars. The annual consumption of corn 
 upon this place is 18,000 bushels. 
 
 SECTION LVIII.-RICE-ITS CULTIVATION, PRODrCTION, AND PREP- 
 ARATION FOR MAI!K!:T. 
 
 JE do not sj^eak of rice because we suppose its mode 
 of culture will be practically beneficial to Northern 
 farmers, nor because those who grow it will greatly 
 benefit by our statemcnrs, but because it is one of 
 the great Southern staple crops, and therefore all 
 facts connected with its production should be his- 
 torically interesting to all agricultural readers, 
 though they never expect to grow this grain as a 
 farm crop. The facts which we give in this section 
 are such as could not be obtained at the time of this 
 writing — January 1, 1863; for they were gathered 
 by personal intercourse with some of the great rice 
 planters of North and South Carolina, Georgia, and 
 Florida, at a time when a Northern man was not 
 looked upon as a bitter enemy ; and they are now 
 interesting to Northern farmers, just as their mode of cultivation is to 
 Southern planters. 
 
 1099. Rice — Where and How Grown. — Rice is grown in nearly all tropical 
 climates, and is supposed by some to be a tropical, sub-aqueous plant. This 
 is an error in both particulars. It not only grows a fair crop upon dry land, 
 but is also a valuable one to cultivate in temperate climates, quite as far 
 north as cotton ; though where it is grown as a crop, as it is along the coasts 
 of the Cai'olinas, Georgia, Florida, and other States, land is usually selected 
 that can be flooded with fresh water, partly because such land will grow 
 rice, and would not grow any other valuable croj), and partly because, by 
 the overflow of the land -in flood-time in the rivers, it is kept continually 
 manured. Ther- preparation of some of these lowland rice fields is very 
 laborious. The swamp is divided into small compartments, say twenty acres 
 in a square, surrounded by a main ditch, and subdivided by smaller ones. 
 Some of the main ditches arc boatable canals, two or three miles in length, 
 in a straight line from the river to the high land. Each plantation is snr- 
 jomided with a strong embankment, high enough to keep out floods, and 
 
Seo. 58.] STATISTICS OF RICE PLANTATIONS. 949 
 
 each conipartinent is embanked so tliat it can be flooded without interfering 
 with the adjoining one. The most favorably situated plantations are upon 
 rivers so near the sea that the tide raises the water high enough for flooding 
 the fields, and yet so for up the stream that the water Avill not be salt. 
 Sometimes the lowland planters suffer very severely in consequence of 
 streams being so low that the salt water sets back al)0ve their rice fields just 
 when they want the water the most. Rice was introduced into Virginia l)y 
 Sir William Berkley, in 1647, and into South Carolina in 1694; and in 1698 
 sixty tuns were shipped to England, doubtless in the rough state, in which 
 condition it is called " paddy." Upland, or mountain rice, was introduced 
 into South Carolina in 1772, and is still profitably cultivated, as we know it 
 has given sixty bushels per acre. 
 
 The cultivation of rice in Louisiana commenced in 1718, but it has never 
 been carried to such an extent as with some of the great rice planters of 
 South Carolina and Georgia. Along the Mississippi the rice fields are 
 watered from the floods of the river, which rise higher than the level of the 
 land. This is extremely convenient, but not always reliable. When the 
 flood continues to increase from the first of February to the first of June, and 
 then gradually subsides, the rice planters can use the water to advantage ; 
 but objections are made to tapping the levee, on account of risk of a crevasse, 
 and because adjoining planters who grow cane are sometimes injured, as the 
 M'ater of the river fills up the swamps in the rear, and hinders the drainage 
 of dry lands. 
 
 1100. Statistics of Rice PIaiitations> — These we propose to give as we have 
 cotton and sugar, and commence with that of ex-Governor Wm. Aikin, a 
 celebrity in South Carolina history, and a large rice planter upon the island of 
 Johasset, adjoining Edisto, some 25 miles south of Charleston. Our visit to this 
 island was in 1850; it had then been owned by the Governor about twenty 
 years, and had 700 slaves engaged in rice cultivation. T^ie island contains 
 3,300 acres, 1,500 of them in rice ; 500 in corn, oats, and potatoes ; and per- 
 haps 200 or 300 in yards, lots, i-oads, and pasture ground, and the remainder 
 in swamp, or tide-water marsh. Gov. Aikin valued the island as follows: 
 Eice land, $100 an acre ; upland, $25 an acre ; swamp, nothing. The upland 
 is very sandy, and when planted in corn, two stalks in a hill, four by five teet, 
 it yields about fifteen bushels an acre, if well manured. In sweet potatoes, it 
 yields 200 Imshels, and the swamp land, when dry enough, sometimes yields 
 400 bushels. Within a few years past, part of the work upon this place has 
 been done by plows; and steam-driven thrashing and winnowing machines 
 have been substituted for hand labor. The fuel used for the engine is rice 
 straw. The hulling is done by a tide mill. The rice ground is laid oft' in 
 compartments of twenty to forty acres, and is mostly cultivated by that 
 great, awkward, heavy, square tool, with a handle six feet long and one and 
 a half to two inches diameter, known as the "nigger hoe," wliich is the tool 
 in almost universal use in all slav^ States. In preparing rice lands, the 
 stubble is burnt off, or hoed imder, during the winter, and tlie land hoed up 
 
950 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 in beds in Marcli, and the seed sown about the twentieth of that month, at 
 the rate of three bushels per acre. The ditches, which serve to irrigate 
 and also to drain the water from the rice, are all laid off upon this place 
 exactly thirty-five feet apart, and all the plots being of a given size facili- 
 tates the evenness of sowing the seed by the negroes. Many of the canals 
 are boatable, and are used to bring the crop to the thrasher and take tlie 
 grain to the hulling-mill. From thence it is put directly on board the Gov- 
 ernor's vessels and sent to market. The average crop is 1,500 to 1,800 casks 
 of 600 lbs. each. The aves'age sales for some years had amounted to $25,000, 
 and the annual expenses to $10,000 — $2,000 of it to the overseer. The pro- 
 visions of the negroes are generally made on the place, and consist of corn, 
 rice, and sweet potatoes, with an occasional taste of nieat-souj). During the 
 l^otato season, the weekly rations are half a bushel of sweet potatoes ; at 
 other times, six quarts of meal or broken rice. All the negroes work by 
 task, and in the time thus gained, reclaim portions of the swamp, upon which 
 they produce little crops on their own account, the master giving fift}'' cents 
 a bushel for their paddy — the name of rough rice before being hulled. In 
 cultivation of the great rice crop, each hand is allotted five acres; and one 
 field that we took note of, eighty acres yielded 5,100 bushels, averaging 
 46 lbs. per bushel, and this made 229 casks of whole or " merchantable" 
 rice ; and two casks of broken rice, called " middlings;" and two and a half 
 casks of " small (broken) rice." The team force xipon this plantation is 
 usually forty horses and mules, and twenty oxen, but neither brute nor hu- 
 man force is always worked to the best advantage, notwithstanding the 
 owner is one of the most intelligent, progressive planters in the State. This 
 we judged from seeing two hundred able-bodied men and women in one 
 gang, repairing a breach in an embankment, by carrying dirt half a mile, in 
 baskets, wooden trays, and boxes, on their heads, each load containing about 
 a peck of dirt. , 
 
 About forty miles by water, up Cooper River, we visited the rice planta- 
 tion of Col. Carson (since dead), who owned 3,300 acres of land, one third 
 of it in cultivation ; the other portion, part swamp and part '■ piny woods," 
 not worth cultivating. lie owned 220 slaves, 120 of whom rated as hands, 
 and included carpenters, coopers, blacksmiths, millers, etc. His crop was 
 650 acres of rice ; 90 acres of sweet potatoes ; 26 acres of oats ; 180 acres 
 of corn ; the whole entirely cultivated by hoes, and with the exception of 
 boating part of the crop, everything was moved by hands and heads. The 
 thrashing was done on the ground by sticks, not flails, and the winnowing in 
 the free air of heaven, until recently when a steam mill was erected for the 
 purpose. The negroes, however, still pursue the ancient way with their 
 own crops; and we saw more than a hundi'cd thus employed one Sunday 
 around the thrashing-floor. They also hull their rice by the plan once uni- 
 versal, that is, in great wooden mortars, where the rice is beaten by hand 
 with a pestle, until the hull separates ?rom the white grain. The general 
 crop of the plantation is hulled in a large tide-water mill. Corn is planted 
 
Sko. 58.] RICE PLANTATIONS. 951 
 
 from March 20 to April 20, and is ripe in August, and harvested in October, 
 and yields 15 bushels an acre. Oats average 20 bushels an acre. Sweet po- 
 tatoes are planted, say 20 acres of roots, from March 15 to April 15, and TO 
 acres of slips, some of them as late as July. The average yield is 100 bushels 
 an acre. From October 1st to February 1st, the slaves are fed exclusively 
 upon potatoes ; afterward a peck of corn, or a peck of broken rice a Aveek is 
 given. Col. Carson said he never gave meat rations — did not believe in it, 
 and thought his people would not eat bacon if given to them. They were re- 
 quired to pound their corn for meal, because "it keeps them ont of mischief." 
 The rice crop is planted about March 20, six acres to the hand, and the largest 
 crop ever made was 45,000 bushels, averaging 45 lbs. per bushel. Rice 
 weighing 48 lbs. per bushel is considered very heavy. The average per acre 
 among Cooper Eiver rice planters, take one year with anotlier. Col. Carson 
 estimated at 50 bushels. Twenty bushels of good rice will make a cask of 
 hulled rice, wt. GOO lbs., and 2| per cent, of broken rice, besides a quantity 
 of meal which is good pig feed. His best crop was 90 bushels per acre, and 
 his average yield per hand six casks and three quarters, or, saj', 4,000 lbs. 
 of marketable rice, worth about tliree cents a pound. All the food is made 
 on the plantation, and the cash expenses only about $5,000 a year, includ- 
 ing $1,000 for overseer, and $300 for engineer. In preparing rice land for 
 a crop, three hands will turn an acre a day. The ditches on this place are 
 75 to 100 ft. apart, and most of the ground M-as made at an immense labor 
 out of timbered swamp. It is flooded by the tide, but some of the planta- 
 tions on Cooper Eiver have fresh-water reservoirs. 
 
 Thos. D. Mears, of Wilmington, N. C, had a rice plantation on the Cape 
 Fear River, where the tide averages about Ave feet, giving a good overflow 
 to some 3,000 acres of rice land in the vicinity of Wilmington, which pro- 
 duces some 150,000 bushels of rice a year, of superior quality. Mr. Mears' 
 average was 55 bushels per aci"e, upon 250 acres, worked by forty hands, 
 who do all the work with hoes. The average crop on the river is 50 bushels, 
 and average price eighty cents a bushel for paddy. Hands average five or 
 six acres each, besides making a provision crop. Mr. Mears' father made 
 one year an average of 113 bushels an acre upon a flat of eleven acres. 
 
 1101. Floodiu^ Rice Laindt — As soon as any one of the inclosed plots of a 
 plantation is seeded, the water is let on so as to just cover the surface, and 
 kept on till the grain is sprouted, and then it is drawn off till the plants 
 shoot the fourth leaf, and then the hoes are put to work weeding, if the 
 weather is dry, and the water is kept off till the second weeding, or else it is 
 flooded and kept on fifteen or twenty days, which kills a great portion of the 
 weeds. Then the water is drawn off and the crop cleaned, when it is 
 flooded again, and the height of water regulated day after day, so that the 
 plants just keep their heads out of water. A crevasse, or low flow of fresh 
 water, or high salt tides, are equally fatal to the crop. Watchmen are kept 
 day and night on the embankments, to guard against accidents. It is a crop 
 that an enemy might easily destroy. A single gun-boat could ruin a mill- 
 
952 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 ion of dollars' worth of rice in the run of one uight on a river lined with 
 rice plantations. The rice crop ripens the latter part of August, when the 
 water is drawn off, and the grain cut with sickles, bound into sheaves, and 
 " toted" to the canals, or out upon dry laud and stacked. Some years, the 
 state of the weather is such that little or no hoeing can be done to the crop. 
 Water is then the sole dependence. Upon " Kice Hope" plantation, above 
 Col. Carson's, a crop of 90 bushels an acre was made one year upon 15 acres, 
 never touched with hoes after planting. That plantation has fresh-water 
 reservoirs, but the water is not as enriching as flooding from the river. 
 These ponds cover 100 acres, to water 260 acres of rice land. But this is 
 considered no loss, as none but rice land, and just enough upland for corn 
 and potatoes is valued, no matter what the area of the plantation. 
 
 1102. Uow Rice is Hulled. — There is no grain, not even oats and buck- 
 wheat, that has such an uneatable appearance as rice. The delicious white 
 grain that comes to us is inclosed in a hard, rigid husk, composed in great 
 part of silex, so sharp that it would wear out the teeth of an ox in a short 
 time. To remove this husk without spoiling the grain is a diflictilty that 
 ingenuity has overcome. Tiie first process was rubbing between two stones, 
 and then pounding in a wooden mortar ; a process that commerce could not 
 wait upon. The principle is still the same, but improved by machinery. 
 The paddy is first run through a fimning-mill ; then through a three-way 
 separator, the screens of which take the largest rice to one place and 
 smallest light rice to another, and the sand to a third ; then through a burr- 
 stone-mill, set so the grain is rubbed and most of tlie hulls separated ; then 
 it is elevated and passed again through a fanning-mill that winnows out the 
 loose hulls. Then it is carried to a screen that separates the hulled grains 
 from the others, which have to pass again through the mill. The hulled 
 grain now has a rough, dirty appearance, and if eaten in that state would 
 have a slightly gritty taste. It is not in a merchantable condition. To 
 make it so it is carried to a set of n:ortars, ten or twelve in a row, each hold- 
 ing five bushels, where it is operated upon two hours by a large wooden 
 pestle that is lifted up by cogs on a wheel and allowed to drop its weight 
 into the mass, giving a rubbing motipn that separates tiie pellicle, and 
 mashes all the soft, defective grains, and those that were not hulled by the 
 stones, making them into "rice meal." Then it is again elevated to a screen 
 that separates all the whole grains fi'om the broken ones and meal. The 
 broken rice and meal are carried to a fanning-mill that separates them — the 
 broken grains being good food, and worth half price. Tiie whole grains are 
 carried to another machine where all the dust is brushed oft', and the grains 
 polished by rubbers. It goes once more to the fan and screen, and all that 
 comes down in the right place is ready for packing, and all that goes over is 
 sent back to the mortars. 
 
 1103. The Product of Clean Rice from Paddy.— The jroportion of salable 
 rice in a given quantity of paddy may be seen from the following statement 
 of a crop sent from " Eice Hope"' to Charleston, to be hulled on account of 
 
PLATE XXII. 
 
 (Page 953.) 
 
 A GREAT many readers of this book have never, probably, had an 
 opportunity to see the plant here so perfectly represented in a grow- 
 ing state. To all it is worthy of attention as a matter of curiosity 
 and information. To those about to embark in the business of to- 
 bacco culture, it is valuable, because it illustrates so beautifully 
 what we have said in the section treating upon this subject. Here 
 he will see the plant in all of its dififerent stages of growth, from the 
 small bunch of leaves when taken from the seed-bed to the perfect 
 plant beginning to bud and ready to top, after which it will begin 
 to throw out suckers, as seen upon the opposite corner. The full- 
 grown plant in the center shows how it looks when permitted to 
 bear seed. The section of one of the poles, or lath-strips, from the 
 curing-house shows how the bands are fastened, as we have describ- 
 ed, one upon each side, connected by twine. 
 
 The tobacco curing-house should have been called a shed, as the 
 curing-house, or barn, is made with close sides ; but this for an illus- 
 tration of the mode of curing, gives a better view, and in a dry 
 climate is preferable to the building with closed sides and windows, 
 as the tobacco requires a great deal of dry air to cure without in- 
 jury. 
 
;* 
 
SHOWIKI} ITS niJ'FERr.:ST STAOES .«]) TBE paoCES 
 
 IXII 
 
 The Plant \riLhout Su.ckErs and ripe r 
 
 ThP Plant Stl-ungfnr rirrmg . 
 
 TOBACCO CtriUSG- HOTTSE. 
 
Sso. 59.] 
 
 TOBACCO OULTIVATIOK 
 
 953 
 
 the planter : " 2,159 bushels, average 45 lbs. — -97,155 lbs. made 54,222 lbs. 
 of whole rice, which sold at three cents a pound, which, with casks 50 cents 
 each, made $1,671 16. One cask of middling 628 lbs. at 1§ cents, SlO 70; 
 also one cask 620 lbs., not sold, say, $10 60 ; four casks of small rice, say, 
 $30 00 ; 202 bushels of rice meal, say, $101 00. Making a total of 
 $1,823 46. And deducting $305 34 for milling, leaves $1,518 12, net pro- 
 ceeds of 2,159 bushels. 
 
 It is readily seen from what we have said, that it requires a large capital 
 to establish a rice jjlantation, and a good deal of hard work to keep it in 
 order ; but so long as the work can be done by slave labor, and produces 
 such a paying crop, the business will be continued. 
 
 , 1104. Statisiics of the Exportation of Rice. — By these we learn the rate of 
 increase of rice cultivation in this country. We find that the exports from 
 Charleston, S. C, 1724, are given at 18,000 barrels. We take it that the 
 term barrels means tierces, for the tierces of the present day, which contain 
 600 lbs. each, are called barrels. In 1740 the exports from Charleston, 
 ?0,110 " barrels." In 1760, 100,000 " barrels." From Savannah, in 1760, 
 3,285 " barrels." The total amount of rice exported from this country in 
 1770 was 150,529 " barrels." In 1800, the exports are given at 122,056 
 "tierces;" in 1820, 88,221 tierces; in 1840, 101,617 tierces; in 1852, 
 67,707 tierces. The highest export any year up to the present time, 212,983 
 tierces. Tiie smallest export since the commencement of the present cen- 
 tury will probably be in 1861-2. 
 
 SECTION LIX.-TOBACCO-ITS HISTORY, CULTIVATION, AND PROFITS 
 OF PRODUCTION. 
 
 OBACCO may be said to be the parent of American 
 
 slavery ; but great as is that evil, it is not the greatest 
 
 connected with its j^roduction. That is connected 
 
 with the slavery to its use. We have ranked it 
 
 among the staple crops of the South, because there 
 
 its cultivation originated, and there is where slaves were im- 
 l^orted to increase its production, which they did to the ruin 
 of the soil ; for it is certainly true that it is a farm produc- 
 tion that has destroyed the value of more land than all 
 others put together. We say nothing of health and intel- 
 lect destroyed by its use, as our present province is to give 
 facts about tobacco cultivation ; but first some facts of its his- 
 tory may be interesting. 
 1105. Tobacco History. — The chemical composition of the plant is very 
 remarkable, and worthy of serious study by present and prospective growers. 
 
yo± STAPLE SOUTHERN" CROPS. ' [Chap. XIV. 
 
 Nicotin, tliG deadly principle to which all the ill effects of tobacco are due, 
 is, as every one knows, a deadly poison. Besides this, the plant contains a 
 number of acids, resins, and volatile oils. The name of IN'ieotln, which is 
 applied to this plant, conies from John Nicot, embassador from France to 
 Portugal, in 1500, who introduced the abominable weed into Europe. So 
 says Torrey. Its original name in St. Domingo appears to have been chobala, 
 or cJioba, and also givia. The name tobacco is supposed to be derived from 
 the name of a place in Yucatan, called Tabaco. Others say it comes from 
 ToBASco, in the Gulf of Florida. Others say it was from Tobago, one of the 
 Caribbees. It is not important what place gave it the name, since it has no 
 historical nor botanical meaning. It is historical that it is an American pro- 
 duction, used by savages, from the earliest period of our knowledge of them, 
 as a means of producing intoxication. Columbns found the inhabitants of 
 Cuba using tobacco in 1492. It is spoken of four years later as used in St. 
 Domingo. It was found in use in Virginia in 1585, the natives smoking it 
 in clay pipes, just as white men do in 1862. It was carried to England by 
 Sir Walter Kaleigh, and people became so fascinated by its nse that a great 
 demand was created, whicli induced the early settlers to cultivate it to an 
 alarming extent, and its use increased in spite of all the " Counterblasts" of 
 James I. against the " damning, wicked practice ;" and so, we suppose, it 
 will, in spite of all the blasts that we can fulminate. 
 
 The price was a great inducement to the settlers upon James Kiver to in- 
 crease the cultivation. In 1617 it is given at 37 to 75 cents a pound. Still 
 that was not sufficient to produce all that the managere of the colony de- 
 sired ; for we find, in 1621, that each colonist was required to cultivate a 
 thousand plants, averaging eight leaves to the pound, which would make 
 100 lbs. of the cured leaf. In 1622 the quantity made is given at 60,000 lbs. 
 In 1639 the production had got ahead of the demand, so that the price was 
 likely to fall so low as to stop tobacco-growing. To obviate this, the strong 
 arm of law was made to intervene and stop the excess of production, so 
 that the entire crop should not exceed 120,000 pounds. All excess of that 
 was ordered burned, in equal proportions among the planters, and creditors 
 were ordered to accept 40 pounds for every 100 pounds due. Eather "com- 
 pulsory legislation" that would be considered in our day. But neither that 
 nor all the edicts of those in power have had any effect to stop the consump- 
 tion of tobacco, and therefore it will continue to be produced. The quantity 
 consumed in England in 1829 was 15,000,000 pounds. In 1840 it was 
 40,000,000 pounds. 
 
 1106. Exports and Consumption of Tobacco.— The value of tobacco ex- 
 ported from the United States in 1848 is given at $7,551,122. The value of 
 exportations has been largely increased with the last ten years, mostly to 
 European states, where the use of tobacco is made a source of revenue ; and 
 as it is an article not at all necessary for the comfort of any human being, it 
 is a very proper subject for taxation. The following is a statement of the 
 consumption and tax per capita in different countries : " The average con- 
 
Sec. 59.] EXPORTS AND CONSUMPTION OF TOBACCO. 955 
 
 sfimption in Austria was 6.75 lbs. ; tax, 26 cents per head. France, 5.50 lbs. ; 
 tax, 43 cents per Iiead. Russia, 2.50 lbs. ; tax, 2i cents per head. Portugal, 
 3.50 lbs. ; tax, 4:6 cents per head. Spain, -4.75 lbs. ; tax, 48 cents per head. 
 Papal States, 2 lbs.; tax, 50 cents per head. England, -'.10 lbs.; fax, 78 
 cents per heiid. Belgium, 9 lbs. ; tax, 3j cents per head. Sardinia, 2.75 lbs. ; 
 tax, 27 cents per head. Holland, 8.25 lbs. ; tax, 1 cent per head." It has 
 been estimated that the average annual consumption of tobacco in the United 
 States is 7^^ lbs. per head for each male inhabitant over eigliteen years of 
 age. At an average cost of onl}' forty cents a pound, it makes an expense 
 of over tUree dollars a head. It would not be unfair to make these con- 
 sumers pay a war tax of ten per cent, on the cost. When it is considered 
 that tobacco is a narcotic poison, and that its use is universally baneful to 
 health, it is surprising that its consumption should increase in an age that is 
 declared to be lising in the scale of intelligence and refinement. There is 
 no disputing this fact, that the use of tobacco not only belongs to an uncivil- 
 ized race, but that its use has a debasing eiiect upon civilization. The enor- 
 mous cost of its consumption is perfectly startling to the political economist. 
 The Dean of Carlisle gave the consumption of England, in 1856, at thirty- 
 three millions of pounds, costing £8,000,000, besides what was smuggled, 
 which ho supposed a very large quantity. Statistics show there, as every- 
 where else, a steady increase far outstripping the proportional increase of 
 population. In 1821, the average consumption per head per annum was 
 11.70 oz. In 1851 it had risen to 16.36, and in 1853 to 19 oz., or at the rate 
 of one fourth increase in ten years. There are 12 city brokers in London 
 whose business is exclusively the sale of tobacco, 90 manufacturers, with 
 7,380 workmen engaged in the different branches of the business. In the 
 whole United Kingdom there are no less than 252,068 tobacco shops. The 
 Dean estimated the increased consumption in other portions of Europe 
 greater than in England, notwithstanding the great cost. In France this is 
 enormous — equal to one thousand per cent, upon the American price, and is 
 an imperial monopoly, which, it is said, yields $20,000,000 annually. Being 
 a government monopoly, the quantity consumed is-easily ascertained. Thus, 
 the Genie Industriel, a French paper, says: "In 1830 the value of tobacco 
 consumed was $13,000,000; in 1840 the value was $19,000,000; in 1850 it 
 was $24,000,000 ; in 1857 it was $35,000,000. Taking the average at only 
 $24,000,000 a year, it gives a total for the 27 years of $675,000,000. We 
 give the account as we find it, but it seems almost incredible that such a sum 
 of money could be by any one nation puffed away in smoke, or consumed in 
 the still viler practice of tobacco-chewing. Hamburg, a Gern:ian city of 
 150,000 inhabitants, consumes 40,000 cigars a day, and employs 10,000 per- 
 sons in the manufacture of 150,000,000 of cigars a year, requiring a capital 
 of $20,000,000. The consumption of other European states is estimated 
 npon the same grand scale. In Denmark, 70 ounces annually for each per- 
 son ; in Belgium, 3i lbs. each ; while in America the consumption is esti- 
 mated by some writers as greater than in any portion of Europe, and the 
 
956 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 entire annual consumption of the world at 4,480,000,000 pounds, or as mufh 
 in weight as all the grain consumed by 10,000,000 of Englishmen, and equal 
 in value to all bread material consumed in Great Britain. Five millions and 
 a half of acres are occupied in its growth, the product of which, at but the 
 moderate sum of twopence per pound, would amount to the vast sum of 
 £37,000,000 sterling, or nearly $185,000,000." 
 
 1107. Exliaustiug Nature of a Tobacco Crop.— The stirength of tobacco is 
 determined by the quantity of nicotin ; the flavor, by the oils and resins. 
 The ash is of all the most important to the farmer, for this is made up from 
 his availal)le plant food — in other words, from his farm capital. The oils, 
 resins, and acids come from the air, and hence cost ns nothing. Take a 
 given quantity of tobacco and burn it to ashes, and we find that the propor- 
 tion is enormous. The roots give 2 to 14 per cent, of ash, the stems dried, 
 16, and the leaves 17 to 24 per cent. As the leaves are the great bulk of 
 the crop, the robbery of the soil is correspondingl}' great. One thousand 
 pounds of tobacco take an average of 200 pounds of ash ; and 2,000 pounds, 
 which ma}' be regarded as a large crop, 400 pounds of ash. Now, a crop of 
 wheat of 30 bushels to the acre takes but 36 pounds of ash from our farm. 
 In other words, it would reqnire eleven crops of wheat to do as much injury 
 as a single crop of tobacco. The composition of the ash is variable, in some 
 districts one of the leading ingredients being replaced by some other. In 
 an average of samples tested by Prof. Brewer, potash salts formed a third 
 part of their weight, and 75 to 80 per cent, of the soluble portion. Soda 
 exists in but a small quantity. Sometimes the potash is replaced by lime. 
 Thus in France, along the river Garonne, the tobacco has this peculiarity, 
 and is noted for its mildness. In American tobacco, the potash salts pre- 
 dominate, and most in the stronger kinds, which grow on new soil. A study 
 of the census will show ns that in any tobacco district, the production start- 
 ing at nothing, mounts rapidly to a maximum, turns the corner, and never 
 regains its higher figures. The reason is, that land can only bear maximum 
 crops of tobacco for a short time, and when once the decline comes on, no 
 power on earth can restore its fruitfulness. By high manuring, we can, with 
 other crops, actually improve the fertility of our farms, or, at any rate, guard 
 against impoverishment, but with tobacco, we can not. New crops have 
 coarse quality of structure and rankness of flavor ; while, per contra, the 
 tobacco of the finer brands is gotten from lands long cultivated. A thin 
 leaf, with small, pliant veins, is most esteemed, and of this character is the 
 tobacco of Holland and Connecticut. The season of growth is ordinarily 
 crowded into 30 days, and the larger portion of the soluble salts must be at 
 this headlong speed supplied to the spongioles. The crop is so tender that 
 of all those we cultivate, it is the most subject to destruction by hail. In 
 Germany there are " Hail Insurance" companies on the mutual plan. It is 
 a notorious fact that hailstorms extend over very limited areas at a time, 
 and hence the farmers of a whole country uniting in small annual payments 
 toward a mutual fund, it will be seen that even the most disastrous hail- 
 
Seo. 59.] DIRECTIONS FOR TOBACCO-GROWING. 957 
 
 ravages could easily be recompensed, without fear of extinguishing the 
 grand capital. In considering the advantages and disadvantages of tobacco 
 culture, Prof. P.rewer thus stated the case. The sole advantage is that an 
 individual may grow rich from raising it. On the other hand, a nation 
 never will ; for the one man's gain is obtained at the cost of his son and 
 son's son ; in getting his fortune he has taken from his children the means 
 of future gain, like the owner of the goose that laid the golden eggs. The 
 crop terribly exhausts the soil ; it is very precarious because of weather and 
 insect enemies ; the laborers that cultivate it suffer in health ; and the land, 
 which must always be of the best quality, could be employed in raising 
 breadstuffs to more general profit. 
 
 IIOS. Tobacco-Growiug in Connecticut. — A letter from the small town of 
 Cromwell, Middlesex Co., Conn., says that 50 acres of tobacco were cul- 
 tivated in that town last season, the value of which is $15,000, and more 
 than three fourths of the crop was grown within a half-mile radius, upon the 
 loamy soil overlying the sandstone formation. The writer says : 
 
 "To this adaptation of soil in this and a few other localities in the State is 
 attributable much of the world-wide repute of i's uneqnaled growth of 
 tobacSo for cigar wrappers, which brings such high prices, as compared with 
 the coarser sorts. But few persons will produce the best tobacco, and but 
 few soils will succeed. Farmers of the old school can hardly conceive of 
 the prodigal outlay of time, money, and labor deemed advisable by our 
 most successful growers. Two, and often three plowings of the land, with 
 applications of as much fresh stable manure as can well be turned in — not un- 
 frequently ten to fourteen cords per acre — together with three to six hundred 
 pounds of guano, and two to four bushels of salt. Its cultivation requires care- 
 ful and constant attention, and judicious and liberal management, to secure a 
 remunerative price. I wish to deter no one from entering the business, but 
 I would have them so enter as to prove successful. The better the article 
 raised the larger the profit. The rule among our growers for manure is, to 
 aj)ply all ' you can get,' which is nearer the truth than many imagine. One 
 of our best crops was raised (as an experiment) with guano, applied at the 
 rate of 1,400 lbs. per acre, but it only affected the one crog, whicli was very 
 fine, and yielded one tun, perfect leaf, to the acre, for which 35 cents per lb. 
 was offered and refused. Any one can figure up and see if it pays to do the 
 business thoroughly. The gentleman raising this crop devoted his entire 
 time to this one acre. In conclusion, I would say to any one tliinking of 
 commencing tobacco-growing, count the cost before you begin, and be con- 
 tent to raise a little good tobacco until you have experience suflicient to 
 raise only the best." The best animal manure for tobacco is that of sheep, 
 and the best way to apply it is to feed off a previous crop, say, turnips, on 
 the ground, or yard and feed sheep where the tobacco is to be grown. 
 
 1109. Tobacco-Growing in New Yorli. — From an article prepared by Hon. 
 Geo. Geddes, of Onondaga Countj^, N. Y., we extract some interesting facts 
 in relation to the cultivation of tobacco in tliat county. He says : 
 
958 
 
 STAPLE SOUTHERN CROPS. 
 
 [Chap. XIV. 
 
 "The cultivation of tobacco, as a crop, was commenced in this county in 
 1845, by Chester Moses and Nahum Grimes, both of the town of Marcellns. 
 Tiiey joined in hiring a man from Connecticut, who Avas skilled in the cul- 
 ture. In 1846, Col. Mars Nearing, then of the town of Salina, grew ten 
 acres; and very soon others engaged, in a small way, in growing this crop. 
 By the census of 1855, it appears that in the preceding year there were 
 grown in the whole county 471j acres, yielding 554,987 lbs. ; which gives as 
 the average yield, 1,178 lbs. to the acre. Mr. Benjamin Clark, of Marcellus, 
 who is perhaps better acquainted Avith the facts in regard to the culture of 
 tobacco than any other man here, estimates the production of 1859 at 
 $150,000." lie says: "Tobacco must have a warm, rich, well-drained, and 
 mellow soil, and then twenty-five loads of rotten barn-yard manure should be 
 put on an acre. The land being in high condition, this amount of manure will 
 be consumed by a crop. The plants should be set about the first of June, three 
 feet four inches by two feet to two feet six inches apart. To grow the 2>lants, 
 pulverize the bed fine in autumn, and mix with the soil hog manure or some 
 other that has no foul seeds in it. Sow seeds on the well-raked bed, as soon 
 as the ground can bo properly prej^ared in the spring, about one ounce to a 
 square rod, equally distributed all over the bed. EoU hard with a hand 
 roller, but do not cover the seed. Glass should be kept over the bed until 
 the plants appear, which will be in two or three weeks ; after they are up 
 and started, the glass will be required only at night and in cold days. The 
 bed should be kept moist and free from weeds. When the plants are three 
 inches high they are large enough to set. To prepare the land, the manure 
 should be applied as early as the ground is dry enough to plow. The last 
 of May plow and harrow again, so as to mix the manure well with the soil. 
 Mark the land one way for rows, three feet four inches. Make hills by 
 hauling up a few hoefuls of dirt and press it well with the hoe. In taking 
 the plants from the bed, take care to keep the roots wet. Unless the ground 
 is quite damp, put a pint of M'ater on each hill half an hour before setting. 
 Make a hole, put in the root, and press the dirt close to it, all the way to 
 the lower end. If any plant does not live, take care to set another. Unless 
 the earth is wet, ^v at least moist, water the plants as soon after setting as 
 may be necessary. In about one week cultivate and hoe. In ten or four- 
 teen days repeat the operation, and continue to cultivate so as to keep the 
 weeds down. The tobacco "worms niay appear about the second hoeing; 
 kill them as fast as they show themselves. "When the blossoms appear, 
 break off the stalk, leaving about fifteen leaves, taking off about seven 
 leaves. After topping, break off all the suckers. In about another week 
 go over again, breaking off suckers and killing worms. In another week 
 repeat the operation. By this time the crop is ready to begin tiie harvest. 
 This may be known by the suckers which start at every leaf, and. when they 
 have all appeared down to the lower leaf, the plant is ready to cut, every 
 sucker having been removed as it appeared. The stalks are cut at the root. 
 In a warm day cut in the moiMing and evening. In the middle of a hot day 
 
Sec. 59.] DIRECTIONS FOR TOBACCO-GROWING. 959 
 
 tho-leaves will burn before tbey are wilted. The best way is to cut in the 
 afternoon and lay on the ground to wilt. This wilting forwards the process 
 of curing, and so toughens the plant as to make it practicable to hang it 
 without much loss in breaking leaves. After wilting draw to the house, 
 which sho'.ild bo twenty-four feet wide, fifteen feet high, so as to have three 
 tiers, one above the other. A building of this width and hight, thirty-five 
 feet long, will store an acre, or one ton of tobacco. The girts on the side of 
 the building should be five feet apart ; a row of posts through the middle is 
 necessary to put girts in, to hold the poles that the plants are tied to. The 
 best poles are made of basswood sawed one and one-half by four inches, 
 and twelve feet long. The plants are handed to a man who, standing on a 
 movable platform made by a light jjlank, receives them, and beginning at 
 the top tier, he winds a piece of prepared twine around a stalk, fastening the 
 first plant to the polo ; the second plant is placed on the other side of the 
 pole, and a single turn is made around tiie stalk ; then again the third stalk 
 is put on the same side of tlie first, the twine passed around, and the next on 
 the other side, and so on to the end of the pole, where the twine is made 
 fast. About thirty or thirty-six are hung on a pole, one half on eacii side. 
 If this twine gives way it is manifest that they will all be let loose. The 
 poles are put on the girts about fourteen inches apart ; in this way the whole 
 building is filled. Skill is now demanded to regulate the ventilation until 
 the crop is cured, whicli is determined by examining the stem in the leaf, 
 which should be hard up to the main stalk. Then in damp weather the 
 tobacco can be taken down and laid in piles, with the tips together to keep 
 it from drying, and to secure this, cover over with boards. The next thing 
 is the removal of the leaves from the stalks, taking this time to separate the 
 broken leaves from the unbroken ones. They are then made into parcels of 
 of 16 to 18, called 'hands,' and are fastened by winding a leaf around 
 them. Pile these bauds tips on tips, the scpiare ends out. This preserves 
 the moisture. The pile should be kept covered with boards, and the sides 
 also covered, leaving the wound ends of the hands exposed to the air. If 
 everything up to this point has been skillfully done, in four or five days the 
 tobacco will be fit to pack in cases, and take to market. The cases should 
 be of pine, two feet six inches square by three feet eight inches, and of inch 
 lumber. Place the hands tips on tips, and the wound ends against the 
 ends of the box ; press with a lever or screw until 4'i0 pounds arc in, then 
 fasten on the top. The tobacco now goes through the sweating process, 
 and will lose about ten per cent, in weight before fit for use. This tobacco 
 is known in the market as ' seed leaf,' and is principally used for wrappers 
 for cigars ; the refuse is exported. A crop handled in the manner described, 
 and with skill, will sell in New York city at from twelve to fifteen cents a 
 pound ; but from want of proper care and skill, the crop of this county does 
 not bring an average price of over eight cents." 
 
 1110. Cost and Profit of Tobacco-Growingt— Mr. Geddes gives the follow- 
 ing estimates. Cost of producing a tobacco crop in Onondaga County, per 
 
960 
 
 STAPLE SOUTHERN CROPS. 
 
 •[Chap. XIV. 
 
 acre: The plants, $2 ; manure, 10 cords, $20 ; preparing ground $i 50 ; set- 
 ting plants, $5 ; cultivation, $3 50 ; topping, worming, and suckering, $7 ; 
 harvesting and housing, $6 ; twine, $1 ; stripping, $10 ; packing, $1 50 ; 
 five packing-boxes, $5. The crop is calculated at a ton per acre ; and tliat, 
 at the average price of former years, 13^ cents, is $270 ; from which deduct 
 cost of production, $66, and shrinkage, transportation, and commission, $52, 
 it leaves $152 profit. This varies, of course, in different localities, and with 
 liigh and low prices. 
 
 1111. Rules of a Florida Tobacco-Grower,— " Be sure to grow plenty of 
 plants in your seedbeds. That is the first step to success. An acre requires 
 5,000 plants ; and as one half may fail, 7,000 should be provided. Make 
 j'our seed-beds on a slope, near water. Spread brush evenly, so as to give 
 the surface a good burn, and no part too much, as will be tlie case if brush 
 are piled in a round heap on the center of the plot. Eake off trash, and pul- 
 verize the soil thorougldy. Then make the ground into beds three feet wide, 
 with narrow walks, running from tlie water, for the convenience of artificial 
 watering in drouth. Tlie narrow beds can be I'eached across from the paths, 
 when necessary to thin out, or take up plants for use, as well as watch and 
 kill tlie worms. If there is no rain soon after the seed is sown, the beds 
 must be wet with a fine rose-nozzle watering-pot, and also by pouring water 
 along the walks to soak into the beds. As soon as the plants are up, watch 
 carefully for insects. Go over the l)eds every morning and kill worms. 
 Soap-suds or weak lye will help you with the worms. Sow your first bed 
 about March 15 [later, of course, at the north], and another ten days later, 
 and so on, till yoxi are sure you have enough. The seed is only one fifth the 
 size of cabbage seed. The qnantit}' to sow on a given space may be judged 
 by that. 
 
 1112. Directions for Trausplanting. — " The proper size of the plants to trans- 
 plant, when they are most certain to live, is wlien tiio largest leaves are 
 about half the size of j-our hand. Be careful, in drawing plants from the 
 beds, not to crush nor bruise a leaf. Thrust the thumb and finger down so 
 as to take hold of the root, and lay tlie plants upright in a basket, tray, or 
 some convenient shallow vessel, to carry to the field. Do not crowd tlie 
 plants, nor pack them so they can not be taken out by the roots, and placed 
 gently in the left hand, with the leaves folded over the bud. Make a hole 
 in the prepared hill with the right hand, and insert the plant about as deep 
 as the bud, pressing the dirt well down upon the roots, so as to leave the 
 plant with the leaves folpled over the bud, standing in the center of a shallow 
 basin. The hills should be wet before setting the plants, and directly after 
 pour a pint of water very carefully on the hill, so as not to disturb the plant. 
 Except in rainy days, always transplant at evening, and cover each plant 
 next morning before the sun is hot, and uncover and water at evening, until 
 the plant begins to grow. Expose the plants gradually, more and more, 
 morning and evening. The best and cheapest covering is long moss. Watch 
 and replant whenever one dies, or appears too feeble to grow, as it is very 
 
Seo. 59.] 
 
 CULTIVATION OF TOBACCO IN FLORIDA. 
 
 961 
 
 important to get a good stand. "Watch for M'orms carefully every day und?r 
 the moss. 
 
 1113. Directions for Selecting .and Preparing Tobacco Ground.— " Tlie best 
 soil is that known in Florida as 'hommock land,' which is ratlicr sandy, but 
 rich. In black, stiff hommock land the leaf does not hold the spots well 
 until it is ripe, and where they rot out tlie leaf is apt to split. To prepare 
 for a crop, cut the timber in autumn, while in full leaf, trim off limbs and 
 cut bushes, and spread all over the surface, to insure a good, even burn all 
 over the field. Bum off in April ; roU the logs in small heaps, and burn, 
 and pick up all trash, and commence at once to mark off, with bull-tongue 
 or scooter-plow, as much ground as you have plants ready for, running rows 
 north and south. Then take the hoe, a^nd make the hills every twenty inches 
 to two feet, digging iTp the ground well about one foot around, and taking 
 out all the roots from the hill. Make always a slight depression in eacli hill, 
 as it is made, to govern the transplanting, and to collect and retain the water 
 used in transplantuig, as well as tlio dews and rains. 
 
 1114. Cultivation of Tobacco — Worming — Topping — Priming. — " Just as soon 
 as the plants have recovered from tiieir transplanting, commence the work 
 of cultivation by flat-weeding, with horse and hand hoes, and with the hand 
 smooth the dirt up to the stalk, filling up entireh' the little sink made in 
 transplanting. Remember to do this to each division of jonr patch or field 
 as it comes on. Be careful, in all stages of the plant, to keep worms off of 
 the leaf and out of the bud ; first, the cut-worm around the root, then the 
 bud-worm. In taking this worm out of the bud, be very tender, or you will 
 do as much harm as the worm. Every two days at least, and if the worms 
 are very bad, every day, if it can be done, each plant should be carefully 
 wormed. Often, at an early age of the plant, the horn-worm makes his ap- 
 pearance. Begin soon to turn up the leaves and examine for the egg, M'liich 
 is semi-transparent, of a light greenish cast, and about the size of a mustard- 
 seed. This should be mashed. Never let one of the worms live, for one 
 horn-worm can ruin half a dozen stalks. It is not necessary to till the land 
 as in other crops ; only be sure to keep down the weeds and bushes ; and 
 when the hoe is used, care should be taken not to break, bruise, or split the 
 leaves. 
 
 " Topping is the next process, which is to be accomplished as soon as the 
 button or bud has fully appeared. This is done by taking the thumb and 
 finger of the left liand and gently pressing back the leaves which inclose the 
 button, and with the thumb of the right hand rolling out the button and 
 taking off the next leaf, which would otherwise turn over the topped stalk, 
 with its back to the sun. 
 
 " Priming is -the term used to signify stripping off the leaves as they ripen, 
 before the s'alk is ready to cut. This is the most difiicult part of tobacco- 
 growing to new beginners. They are at a loss to tell at what stage to pull 
 the leaves. The imder leaves often ripen before the topping comes off; 
 sometimes not until the bud comes out. To know when to prime, yen must 
 
962 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 at first institute a very critical examination. Some prime as soon as the tip 
 and edges near the stalk turn a little yellow. Bottom leaves show this ap- 
 pearance without being fully ripe. The most certain criterion is to find 
 lai'ge spots about over the leaf, growing smooth underneatli, and semi-trans- 
 parent upon holding it to the light. When this appearance begins to come 
 together, making nearly the whole leaf in this condition, it is fully ripe, and 
 may be primed off. The priming must not be carried on while the dew is 
 on tiie leaf in great quantities, nor immediately after a heavy rain, or it will 
 be deficient in gum and aroma. In pulling off the ripe leaves, care must be 
 taken not to bruise or tear the leaf, or to injure the remaining leaves. Lay 
 the leaves in small piles along the row, under the shade of the stalk. They 
 must be carefully carried out to the barn in trays, hand-barrows, or carts. 
 If bruised before curing, tlie bruised part cures up green and worthless. 
 
 1115. Curing the Tobacco. — '■'■Splitting the Leaf. — "When the leaves are 
 brought to the barn they should be laid on large tables, and not in very 
 large piles, and immediately split and strung on slicks, and hung in the 
 stalls as they are strung. To split a leaf, lay it on a smooth board for the 
 purpose, or on the table ; take a sharp-pointed kuife between the thumb and 
 fore-finger of your right hand, putting forward just enough of the blade to 
 reach through the stem ; commence about half an inch from the end, and 
 split in tlie middle of the stem down toward the point, about one fourth of 
 the length of the leaf, and lay them ofi" in three or four different piles, ac- 
 cording to their length, wliicii will save much trouble in hanging and boxing. 
 
 " Stringing. — In putting the leaves on the sticks, fasten one end in a crack, 
 or hole bored on purpose ; then take two leaves, turn the backs together, 
 and run them on the sticks. Serve the next two the same way, leaving a 
 space on the stick between each pair of leaves of about two inches. String 
 the same sized leaves only upon the sticks. The smaller leaves may be 
 placed something closer. 
 
 " Hanging and Handling. — The sticks should be hung so as just to touch ; 
 and when the leaves are partially cured, close up to save house-room. Let 
 the stalls be filled up, stall by st^ll, from bottom to top, and not altogether 
 over the bottom tiers of the barn, and then carried up as it cures. ' Barn- 
 burnt' is created by having the tobacco too close and the barn too tight, 
 causing it to fill with the evaporating juices, which settle upon the curing 
 tobacco, for the want of means of escape, and for the want of an influx of 
 fresh air, causing the tobacco to sweat and lose all its gum or aroma. Tiie 
 barn must be watched, and properly ventilated. In wet spells the doors 
 should be kept closed ; and if one should continue too long, fires should be 
 made outside, of bark and sound wood, and burned to coals, and the coals 
 placed in iron vessels about under the tobacco, which will soon dry out the 
 house. In dry, open weather the house may be kept open or shut, to suit the 
 condition of the mass of the curing crop. 
 
 "The more of your crop you can save by priming the better; but when 
 pushed, the last two or three leaves, ripening pretty much together, may be 
 
Sbo. 59.] CULTIVATION OF TOBACCO IN FLORIDA. 963 
 
 cut, and liuDg on the largest slicks with strips of bear-grass, which is very 
 plentiful, taking care to give the stalks good room at first. Tliis will be 
 longer curing than the primed leaves, and will be thicker, heavier, and likely 
 deeper colored. When the stem dries as in the primed leaf, take down, strip 
 off from the stalk, and hand as in the other case, but keep and box it separate. 
 
 " W/ieii to Take Doifn. — As soon as the middle stem is fairly dry ; when in 
 case, that is, when it will not rattle nor break from handling, take that down 
 which you find thus cured and in case, and make it into hands, assorting it 
 as to quality, and tying it up with the same quality leaf, from fifteen to 
 twenty leaves, according to size, in a hand, being careful to have the tie 
 come out flush with the end of the stems. As you hand it, either lay it in 
 windrows or in boxes, not packing it, however. Examine every day, to see 
 it is not heating. If it heats it must be taken out and changed into other 
 boxes or other windrow*, and so on until it ceases to heat. If it goes through 
 no heat in two or three days, it is ready for boxing. To pack well, the boxes 
 should be made of well-dressed plank, three feet long, tw(5 and a half feet 
 wide, and about two and a half feet deep. 
 
 " Paching. — In packing, invariably place the buts of the hands next to the 
 box. Fill the box full, and place on the top smooth ^jlanks, that will just fit 
 inside the box ; then pack down with an ordinary lever. Manage to put 
 about 300 lbs. in this size box ; and in order to ascertain how hard to pack, 
 weigh the empty box ; then, after packing it as full as you can conveniently, 
 weigh, and see how much you have put in. If you have in only 175 lbs., 
 you may know you have not packed hard enough ; and if you find in your 
 box 350 to 4Q0 lbs., you may calculate your tobacco was in too high case, 
 and you have got in too much. In this way you may learn exactly the 
 pressure to use. After nailing on the cover, nail on two hoops all around to 
 every box. Cleats should always be nailed at every corner of the box when 
 making. Be careful that the top is of seasoned timber, and thoroughly dry 
 when put on, and do not nail it so as to make any nails enter the mass of 
 tobacco. After all, in shipping, be careful that it does not get wet, and is 
 not stowed in the damp holds of vessels. 
 
 1116. Tobacco Curing House or Barn— its Proper Size. — " The proper size of 
 a tobacco barn is an important matter for tyros in the business of tobacco- 
 growing. In Florida, it is estimated that a barn twenty feet square on the 
 ground and sixteen feet high is as small as will do to save an acre of good 
 tobacco ; and to do this the tobacco must be taken down and packed as it 
 cures. Upon this ratio, house-room must be provided for your whole crop. 
 If your barn is a frame building, divide it into stalls four feet wide, by posts 
 and cross-bars — the bars about two feet apart. If built of logs, arrange 
 cross bars of round poles as the building goes up. You must have a good 
 roof and plenty of windows with tight sluitters in the wa.ls, and 'd Four 
 building is of logs it must be tightly ceiled with boards on the inside. The 
 sticks to lay on the poles or bars to hang the leaves Ujion, may be split out 
 of good pine, or any other straight rifted timber, board fashion, three fourths 
 
964 STAPLE SOUTHERN CROPS. [CHiP. XIV. 
 
 of an inch thick, and then split to a square, four and a half feet long, and the 
 splinters and corners drawn off, and one end a little sharpened. About 
 2,500 or 3,000 sticks should be provided to the acre. In some sections, 
 sticks made of reeds are used. 
 
 1117. Where Tobacco may be Grown. — The isothermal lines, within which 
 tobacco may be grown, correspond with Indian corn, ranging from the equa- 
 tor to lat. 50'^ N., but the production at the extremes is not equal to the tem- 
 perate zone, say lat. 24° to 40°. It is now grown in all the States, but most 
 largely as a staple crop in Tennessee, Kentucky, and Yirginia. The lands 
 of the latter State have been extremely exhausted by tobacco, and so they 
 have in Maryland, and until lately it has been supposed that all tobacco 
 grown in a climate as cold as that north of lat. 41° was of a coarse, rank 
 quality, but this has been proved to be a mistake by some of the tobacco 
 growers of Connecticut and New York. True, the*'e is a peculiar sort of 
 sweet-scented tobacco grown in Florida, known as Cuba tobacco, that can 
 not be profitably grown as far north as some coarser variety will grow. In 
 Europe, tobacco is grown as far north as central Unssia, and it will succeed 
 anywhere in suitable soil, where the mean temperature of July is Gb°, and 
 some writers say 2° less. It is also said that all the varieties grown in warm 
 regions may be transferred northward and acclimated. We believe, how- 
 ever, that all the good qualities will not continue to attach to the plant 
 grown at the North. 
 
 1118. Tobacco Soil. — ^The best soil for tobacco is that which contains the 
 most potash. Ilence it succeeds best upon newly cleared forest land, and 
 some of the fine sort grown in Florida is not worth much more than half as 
 much in market from the third crop, as the first upon the same land. 
 In Virginia there are many thousands of acres that give their owners rich 
 returns when first cleared, that would not now produce tobacco enough to 
 pay for a single plowing. There apjtears to be no grade of soil, from sand 
 to black muck, that tobacco will not grow in, if the proper plant food is 
 added ; and there is no better manure than wood ashes. So fit are ashes to 
 fertilize tobacco, that a plant bed is generally prepared by burning brush, 
 and sowing the seed in the earth lightly, mixed with the fresh-burnt ashes. 
 For the finest quality of tobacco we would select, in old land, a light loam, 
 and manure it by the Connecticut rule, "with all we could get." It will 
 grow well, as a general rule, upon all soil tiiat is really good for Indian 
 corn, by following the preceding i-ules given in this article. 
 
 In Connecticut, the plants are set June 5 to 15, and good crops have been 
 made when they were set as late as July 5. Some cultivators set their 
 plants on a ridge, instead of in a basin, as recommended in the article about 
 Florida. Thi-s is for the purpose of using a horse-hoo in the first cultivation. 
 The planis when set on a ridge are less liable to be covered up. The soil of 
 the seed-beds must be not only rich, but very carefully worked. 
 
Sec. 60." 
 
 INTRODUCTOX OF HEMP CULTIVATION IN" AMERICA. 
 
 965 
 
 SECTION LX.-FIBROUS PLANTS-HEMP AND FLAX-HISTORY AND CUL- 
 TIVATION OF HEMP-COST AND PROFIT OF FLAX CULTURE. 
 
 ?E are aware that neither hemp nor flax should rank 
 as Southern crops ; but they seem naturally con- 
 nected, and are therefore treated of in the same 
 section. Hemp ranks in America as a Southern 
 crop because almost exclusively grown in slave 
 States — that is, Kentucky, Tennessee, Missouri ; 
 though in Europe it is cultivated largely in higher 
 .latitudes than our most l^ortliern States. There ap- 
 pears to be a prevalent opinion that hemp really 
 belongs in the South, because none of the Northern 
 States grow it as a staple crop ; yet the States 
 where it is grown are not southern, nor is the crop 
 a Southern one, any more than Indian corn. His- 
 tory gives the native place of hemp {Cannabis 
 sativd) in India ; but if that is so, it has been 
 acclimated much farther north ; and the fact is interesting to ell fiirmers 
 that it can be successfully grown wherever the soil is suitable, as far nortii 
 as the great lakes ; indeed, as far north as they successfully cultivate flax 
 (Linum usitatissimuni), which has been grown in all parts of America since 
 its first settlement, and its cultivation only ceased because it could not com- 
 pete with cotton, for the want of proper machinery to cheaply reduce the 
 fiber to practical purposes. That want is now about overcome. 
 
 1119. Introductlou of Hemjj fuUivatioa in Americai— The first settlers of 
 New England, New York, and Virginia introduced the cultivation of hemp, 
 and hopes were entertained by the " mother countries" — England and Hol- 
 land — that their American colonies would furnish the much-needed supply 
 for their great navies. It was grown on Manhattan Island in 1626, and in 
 Massachusetts in 1630. In Virginia, hempen cloth was manufactured in 
 16-18. In 1730 Pennsylvania oS'ered bounties to encourage hemp-growing. 
 It was never extensively grown as a farm crop until after Kentucky was 
 settled ; there it became a staple crop at an early day, and up to the present 
 time it has been grown in that State more extensively than in any other, 
 though large i>lantations have been established in Tennessee and Missouri, 
 but all have never been able to give enough for the wants of the country. 
 The consumption of hemp for bagging and rope for cotton bales is enormous, 
 and must always aftord a good market for the crop and make its cultivation 
 profitable. The consumption for maritime purposes is almost beyond the 
 power of imagination. It is estimated that a war ship of the first class re- 
 quires 180,000 lbs. of hemp to fit her for sea. So great has been the con- 
 sumption that the price has increased to such an extent that various sub- 
 
966 STAPLE SOUTHERN CROPS. [Cuap. XIV. 
 
 stances have been songlit for as snbstitutes ; for instance, Manilla hemp, 
 flax, and cotton for cordage and duck, and iron for cables, and to some 
 extent for standing rigging, and also for cordage of cotton and other bales. 
 Farmers who feel a disposition to engage in hemp-growing maj rest assured 
 that they will always have a sure market, and from what we have stated 
 they will see that it can be grown in anj-^ of the Northern States. 
 
 1120. A New Variety of Hemp. — Within a few years past a new variety of 
 hemp lias been introduced into the Western States, under the name of 
 Chinese hemp. The editor of the Valley J^armer, speaking of it, says : 
 " We know of no new variety of vegetable production that presents such 
 marked superiority over kinds before known to us. We visited the first 
 extensive field of it grown by Mr. Vance, before it was generally made 
 known to the public. In our statement of it we were particularly guarded, 
 lest the public should place an undue estimate upon it, and sutler final dis- 
 appointment as to its value, which is so frequently the case with the intro- 
 duction of new things of the kind. But in this instance, so striking was the 
 contrast between the Chinese hemp growing upon land so waslied and worn 
 that it would no longer produce the common hemp, it required only to be 
 Been to convince the most skeptical as to its value." A writer in the JVcios, 
 of Slielby Co., Ky., says: "From the information we have of this new 
 variety, we are fully satisfied that it must eventually supersede all varieties 
 hitherto introduced. Having, during the present month, manufactured and 
 examined closely samples of this hemp, -we find^compared with other hemp 
 — the lint to be more harsh, coarse, yet heavy and lengthy, giving good 
 gloss, after being manufactured, also producing less tow, both at hackle 
 and break ; and for rojje purposes we consider it equal to other varieties. 
 For bagging and twine purposes, wliere a soft, silken article is preferable, it 
 may not answer so well. The greatest benefit to the grower is in the largely 
 increased yield per acre — double and even treble the amount of the old 
 variety — making it a more, profitable crop than j King Cotton' itself. We 
 have reports from a number of farmere who have experimented with it the 
 past season. Their reports of product per acre vary from 900 to 1,400 
 pounds; and in one instance 1,700 pounds were Aveiglied from less than one 
 acre, the correctness of which can not be doubted. The next greatest benefit 
 to be derived from its adojjtion is the greater ccrtaiuty of good crops. The 
 long time — five months — during which it is maturing, gives it the advantage 
 of both s]M-ing and summer rains ; nor does a dry spring preclude the hope 
 of a good yield ; whereas, with the old variety, you must have spring 
 showers or no crop, as it matures in about three months. Sown in March, 
 it ripens in September, after the heat of sunburning days is past, thereby 
 doing away with the necessity of stacking and spreading, which is a heavy 
 item in hemp culture. There is more wood in the stalks, making it harder 
 to break ; but when once broken or cracked, it is more easily cleaned than 
 the old variety, the hards falling out freely in long pieces. The seed is 
 somewhat smaller than the old variety, requiring less per acre. In cultivat- 
 
Sec. 60.] SOWING AND HARVESTING HEMP. 967 
 
 ing for seed the j'ield is not so large by one third as the old kind ; and 
 ripening very late, it is liable to be caught by early autumn frosts. 
 
 1121. Cost and Proflt of Hemp-Growing. — Wo cstimaie a hemp crop, upon 
 good fair soil, at au average of 700 lbs. of merchantable lint per acre ; and 
 probably a fair average price on the plantation, if near water or I'ailway 
 transportation, is five cents a pound, making $35 an acre ; and we can not 
 count over half of this for cost of production and preparation. Some plant- 
 ations, we know, average 1,000 lbs. per acre for a series of years, for all the 
 land in hemp; and the cost of production, including a fair rent of land, 
 would not exceed $10 au acre. This makes it an exceedingly profitable 
 branch of agriculture. Upon some of the inexhaustibly rich bottom lands 
 of Missouri, 1,400 lbs. per acre have often been made ; and successive crops 
 have been taken from the same land, without manure, ever since it was de- 
 nuded of forest. ' 
 
 1122. Sowing and Harvesting Hemp. — Tiie proper mode of preparing tlie 
 soil is to plow it as early in the spring as possible, and the deeper the better. 
 No doubt the subsoil plow would be extremely beneficial, as the plant has a 
 long tap-root. As fast as it is plowed, the land should be nicely harrowed, 
 to break up all the clods and render the surface as smooth as possible, as 
 that is a very important p>art of the whole art of hemp growing. Where it 
 is most grown in Kentucky and Missouri, the seed is generally sown in the 
 latter part of April, the ground being re-plowed, with a lighter plow than at 
 first, and one and a quarter bushels per acre of seed sown on the fresh soil, 
 which should then be heavily harrowed, and afterward smoothed with a light 
 harrow or brush-drag, so as to leave the surface quite smooth. It is important 
 that you should know that your seed is good, for mucii depends upon the 
 evenness of growth and j^roper thickness of plants to produce a heavy coat- 
 ing of fiber of fine quality. Where hemp stands too thin, the stalks send out 
 so many side-branches that the crop is injured. If grown for seed, instead 
 of lint, it would be advantageous to grow the stalks full of branches — that 
 is, the female portion, as there are always male and female plants in this 
 family, and it is the latter that incline most to branches. Hemp should not 
 be cut until the stalks turn yellow and leaves begin to full, as the lint does 
 not acquire its full weight and strength until such time. 
 
 Cutting hemp is hard, slow work. A strong, skillful hand can cut an acre 
 a day with a hemp-cradle, which is like a grain-cradle, but stronger, and 
 scythe shoi'ter. Many planters prefer the hemp-hook, which does not cut 
 half as fast as the cradle, but saves more liemp ; and some who grow hemp 
 contend for the hook, because a hand can harvest with it all that he can 
 dress during winter, which is the only season that hemp dressing can be 
 done to advantage. 
 
 Hemp is generally ready to commence harvesting, south of lat. 40°, the 
 first of August : and it is set up in shocks, to stand until October, when the 
 process of rotting is begun, by spreading it upon the field where it grew, or 
 in some grass lot, unless the planter has conveniences for water-rotting, which 
 
968 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 is generally preferred, though the rotting upon the Held adds much to its 
 fertility, and some say is sufficient to keep the land always productive. 
 
 Some planters remove the hemp from the field as soon as harvested, and 
 stack it, and plow the land directly afterward ; while others contend that this 
 practice is injurious to the soil, and that it will surely fail sooner than it 
 would if the stubble were left untouched until the time of sj^ring plowing. 
 It is true that plowing exposes the soil to the drying influence of a hot sun, 
 like a naked fallow, to which we are opposed. Those who advocate plowing 
 hemp stubble contend that, without it, such a grass sod would grow that, 
 when plowed in the spring, it could not be harrowed smooth, and that much 
 of the grass would grow, and injure the hemp crop. If it is necessary to 
 plow hemp land after harvest, we recommend sowing a green crop, say 
 corn, oats, rye, or buckwheat, to shade the surface and enrich the soil. It 
 can be fed'down in autumn, or plowed under, or dragged down to decay. 
 Kotation would be advantageous, for a hemjj stubble will produce good 
 wheat, or corn, or clover, and thus extirpate the troublesome weeds and 
 grass. It is contended by many hemp growers that rotation is not necessary 
 on account of any exhaustion of the soil, and that the leaves of one crop pro- 
 duce sufficient fertilization for another crop. "We have before us the notes 
 of a Missouri hemp grower, who averaged 800 lbs. per acre eleven years in 
 succession. The mode of estimating the yield per acre while the crop is 
 growing is to calculate 100 lbs. of lint for every foot in hight. That is, a 
 field that averages eight feet in hight will yield 800 lbs. per acre. 
 
 1123. Rotting aud Dressing Uemp. — The process of water-rotting hemp in 
 ponds or streams is much objected to in thickly-settled districts, on account 
 of its influence upon health. It certainly is objectionable on account of the 
 odor it diffuses; and it is not a very pleasant job for those who do the work 
 of handling the rotted hemp, and carrying it to the field where it is spread 
 to dry. It is resorted to because it takes a shorter time, and produces better 
 lint. Spread upon the field like flax, it takes from two to three months to 
 rot sufficiently. The breaking usually commences about New Year's, and 
 requires hard labor from the stoutest hands. It is not dressed like flax, but 
 broke, and the slaves shaken out, and fibers straightened, and tied up in 
 bales of about a hundred pounds each. The earliest rotted hemp is darkest 
 and toughest, and more difficult to break than that which lies until cold 
 weather. If not well rotted, the task of breaking is very severe. If too 
 much rotted, the value of the fiber is greatly injured. The best grown hemp — 
 that is, that grown with stalks close together, and of even size and length — 
 affords the most fiber, and is the easiest dressed, because the wood is weak, 
 and becomes very brittle by the process of rotting, before the fiber is injured. 
 
 1124. Cutting Hemp by Machines. — Some experiments have been made to 
 cut hemp with mowing machines. Wlierever they have failed, it has been 
 because the strengtli of the machine was not adapted to the work, which is 
 much harder than the stoutest grass or grain. Since machines have been 
 adapted to cutting Indian corn, we have faith that they will be to cutting 
 
Seo. 60.] CULTIVATION OF FLAX. 969 
 
 hemp as well as to breaking it, so 'that the limit of production -will not be 
 conHned to the quantity that can be dressed in winter by the hands that 
 grow the crop in summer. 
 
 1125. Historical Facts about Flax. — Tlie most interesting fact for farmers 
 about to engage in flax-growing is, that it is a rapid exhauster of the soil. 
 Second, that it requires a moist soil and wet season ; consequently it is a 
 good crop for bottom lands that can be irrigated. The country of its origin 
 is unknown, but it grows well upon irrigated land in tropical climates, 
 and through all gradations of climate and soil to a high northern latitude. 
 In Egypt, flax is sown in December and January and harvested in April or 
 May, and in northern Russia it is sown in May and harvested in August ; 
 and so it is in the northern parts of the United States. Flax clotli has an 
 antiquity much greater than Moses' account of it, for the oldest mummy 
 wrappings in Egypt have been proved by microscopic examinations to be 
 made of linen, instead of cotton or any other fiber. Flax was one of the 
 necessities of cultivation by our Pilgrim fathers and other immigrants into 
 North America, and by all the new settlers in the wilds of the country, for 
 the lint with which their families have been clothed. Up to a period within 
 our active participation in farm-labor, almost eveiy thriving New England 
 farmer cultivated a small piece of land in flax every summer, and dressed it 
 out by hand in the barn in the dry, cold days of winter, and the family 
 ununifactured it into a variety of articles of domestic use. Indeed, a good 
 many old-style farmers did not think they could get along without their tow 
 frock and trowsers, uor that anything was so fit for meal-bags as liome-made 
 tow-linen. We fully believe that a great many who have abandoned flax 
 culture because " cotton is so cheap," may safely, in an economical point 
 of view, return, in some degree, to the ways of our fathers. We oflPer a few 
 hints to this end. 
 
 1 1 26. Flax-Growiug— Soil and Preparation.— There is no material diflPerence 
 in the soil nor in its preparation for a flax crop from that already described 
 for hemp. Both need a rich, mellow loam, made just as pulverulent as pos- 
 sible with ordinary farming tools, and for flax the surface must be free of 
 lumps, clods, and stones, or there will be a great loss of seed. The crop 
 always does best upon soil that suffers least from drouth. And although 
 not strictly a Southern crop, it seems to come in its proper place after hemp, 
 and therefore we give some brief facts in this connection. 
 
 1127. Quantity of Seed per Acre, and Tims of Sowing. — The seeding of flax 
 land varies from half a bushel to six bushels per acre, according to what the 
 crop is designed for. Where it is sown for the seed alone, as it is in many places 
 in the Western States, where no use is to be made of the lint, half a bushel 
 of seed an acre is considered sufiacient, and better than more ; and if the 
 ground were as carefully prepared as we have recommended for a lint crop, 
 a peck of seed would be ample, as it would be no object io have the stalks 
 grow as thickly as possible. Fifteen bushels of seed per acre is a good 
 yield, and above the average, though we have heard of twenty-five bushels 
 
970 STAPLE SOUTHERN CROPS. [Chap. XIV. 
 
 an acre, and so we have of many crops of less than ten bushels. The tune 
 
 of sowing in tlie latitude of central New York is as early in April as the 
 
 land could be properly prepared ; and if the intention is to grow the crop 
 
 for both lint and seed, as the crop is most generally grown in the Eastern 
 
 States, we would recommend two bushels of seed per acre. If the crop is 
 
 desired more for lint than seed, the seeding must be thicker and thicker as 
 
 the fineness of the lint is required. For the very finest linen threads, we 
 
 arc assured that seven bushels of seed per acre has been sown in Europe, 
 
 and the flax pulled while in blossom. 
 
 1128. Cost and ProGt of a Fla\ Crop. — The following estimate of the cost 
 
 and product of an acre of flax in the Middle or Eastern States may be taken 
 
 as a pretty fair basis : 
 
 Plowing and subsoiling thoroughly, and cross-plowing with one horse lightly $3 25 
 
 Harrowing once with ox-harrow, and once with light harrow 1 00 
 
 Sowing and brushing, 50 cts. , and two bushels of seed, S2 00 2 50 
 
 Cutting crop by mowing machine, binding and setting up 75 
 
 Carting, thrashing, spreading, handling, and storing 4 50 
 
 Dressing by hand at G cts., or machine at 2 cts., 400 lbs 8 00 
 
 — making a total of $20, or $36 if dressed by hand, and $-±G counting 
 manure and rent. 
 
 Tiie crop we would estimate at 8 bushels of seed, average $1 a bushel, 
 $8 00 ; and 400 lbs. of lint, average 12i lbs., making $58, and the profit 
 of a flax crop $12 per acre. Where a larger quantity of seed per acre is 
 used, the result will not be difi'erent ; for though the cost of seed is more, 
 and yield of seed less, the value of the lint will make it up about the same. 
 Of late years, flax has been a good deal sown for seed, and the rough straw 
 sold by the tun at an average of about five dollars, which pays better than 
 burning it, as has been the practice, though at that price it can not be trans- 
 ported far upon common roads. 
 
 1120. Other Fibrous Plants. — It has been stated, from some small experi- 
 ments, that cotton would produce as valuable a crop as hemp from the fiber 
 of the stalks, if the seed was sown broadcast so that the stalks would grow as 
 closely together as those in a hemp-field. Instead of using the cotton plant 
 for this purpose, which is only practicable south of lat. 40° to advantage, we 
 recommend the okra plant, which makes a similar growth to cotton, and has 
 a more fibrous stalk, and grows well as far north as New York. The whole 
 nettle family might be cultivated for its fiber, but after all, it is doubtful 
 whether anj' other plant can be profitably substituted in any of the Northern 
 States for flax, which we know can be grown with profit to the grower, for 
 its fiber alone, whenever he can be assured the average price of hemp, and 
 that we think he will be assured, as soon as some of the recent inventions 
 for separating the lint and wood have been put into general operation. 
 
CHAPTER XV. 
 
 THE GLEANINGS OF THE FIELD. 
 
 SECTION LXI.-MISCELLANEOUS ITEMS OF USEFUL KNOWLEDGE TO 
 FARMERS. 
 
 f- , N gathering the liarvest that we have garnered up in 
 ' this store-house for the use of American farmers, and 
 arranging each subject under its appropriate head, we 
 have necessarily scattered, as the reaper does, some good 
 grain, to be afterward gleaned. These gleanings we at- 
 tach to our work under the head of Misi^ellaneous, with strong 
 hope that the reader will find among them enough good seed 
 to pay for the trouble of winnowing. 
 
 1130. Time Required for Seeds to Germsuate.— Wheat, one 
 day; spinach, beans, mustard, three days; lettuce, four; 
 melon, cucumber, cress, five; radish, five; beets, five ; bar- 
 ley, seven ; purslane, nine ; cabbage, ten ; parsley, forty ; 
 almond, chestnut, peach, one year; rose, hawthorn, filbert, 
 two years. This is according to Loudon, but is subject to 
 many variations, as the germination will be affected by the degree of heat, 
 moisture, and general condition of the soil. 
 
 1131. Temperature at which Several Plants Flourishi— Wheat, 74° to 75° ; 
 barley, 69° to 74° ; potatoes, 54° to 75° ; melons, 66° to 67° ; apples, 59° to 
 72° ; tobacco, 66° to 82° ; corn, 59° to 80° ; sugar-cane, 71° to 82° ; grapes, 
 70° to 80°. Whenever the temperature of the proper season for perfecting 
 the fruit materially varies from the above, a decreased production may be 
 expected, unless the crop is affected by artificial means. Winter grain, 
 vines and trees, all suspend growth, and rest in winter, iu all of our Northern 
 States. Wheat requires 120 to 140 days from the time of sowing to harvest 
 in a mean temperature of sixty-one degrees. 
 
 1132. Storiug Grain in Cemented Caves. — It has been recommended as an 
 excellent way to store gi'ain, to make cavities in the earth, plastered per- 
 fectly water-tight with hydraulic cement, and of a form like a jug, which, 
 being filled with grain, could have a cover cemented on, and thus preserve 
 the grain for an indefinite length of time. We should like to have the air 
 pumped out, and then seal it up, and we believe such grain-cisterns would 
 be excellent preservatories. Farmers who are troubled with rats would find 
 such granaries highly valuable, and they can be cheaply constructed. See 
 article on Cisterns. 
 
972 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 1133. A Kew Grain Mill has lately been invented, that operates upon an 
 entirely different principle from any of its predecessors. There are no rub- 
 bing, nor grinding, nor cutting surfaces which come iu contact with the 
 grain. It is reduced to powder by blows struck upon it while suspended in 
 air. A shaft, armed with beaters, inclosed in an iron case, is made to revolve 
 with great velocity, and the grain, being fed into the case near the shaft, is 
 carried out by centrifugal force, where tlie arms strike their rapid blows 
 upon it, and shatter it to atoms, as a blow of a heavy iron bar, it may be 
 supposed, would shatter a piece of glass, if hit while flying througli the air; 
 it is then blown out of the case through an orifice made for the purpose, and 
 the bran is separate<l from the flour by the force of gravity ; the flour, being the 
 heaviest, is carried farthest from the machine. It is said that all sorts of grain 
 can be reduced by this means, even corn and cobs, if any one desires it ; we 
 do not, because we do not believe tliat cobs will ever pay for grinding, no 
 matter how cheap the power. But Indian corn ground in this way will, un- 
 doubtedly, be better for human food than when ground by any of the rub- 
 bing processes, which breaks the oil-cells, and makes the meal liable to ran- 
 cidity from long keeping. 
 
 1131. Nutriment in Food Substances for Man.— The following table gives a 
 comparative view of the value of difi"erent substances for human food, so far 
 as their nutritious qualities are concerned. With peas and beans, some of 
 the coarser and less nutritious substances should be taken, upon the same 
 principle that hay or straw is fed with grain to stock. Of 100 pounds of 
 each of the following substances, it may be assumed that the figures show 
 the number of pounds of matter that go to sustain life or support the strength 
 of the consumer. Thus, if 100 pounds of corn meal cost the same as 100 
 pounds of turnips, which is often the case in city markets, the meal will re- 
 ally be worth twenty-two times as much as the turnips for food. 
 
 The per cent., taking 100 as the unit, of the diflerent articles is as follows, 
 according to chemical analysis : 
 
 Per Cent. 
 
 Lentils 84 
 
 Peas 83 
 
 Beans 92 
 
 Cora (Maize) 89 
 
 Wiieat 85 
 
 Barley 83 
 
 Rice 88- 
 
 Eye 79 
 
 Per Cent 
 
 Oats 74 
 
 Meats, average 35 
 
 Potatoes 25 
 
 Beets , 14 
 
 Carrots 10 
 
 Cabbage 7 
 
 Greens 6 
 
 Turnips 4 
 
 113.5. now to Calculate the Value of a Load of Hay.— The following is an 
 easy way of calculating the value, in dollars and cents, of a load of hay: If 
 the price agreed upon is $18 a tun, ascertain the number of pounds in the 
 load, and multiply that by the unit 9, which is the half of the sum agreed 
 upon, or else whatever may be half of that sum, and you will have the price 
 of the load in mills ; per example, a load contains 3,300 lbs. ; multiply by 9, 
 and it gives 29,700 mills, which is $29 70, the amount of the load of hay at 
 $18 a tun. If the price is $15 a tuu, and the weight of the load 1,950 lbs., 
 multiply by 7j, and you have 1-1,625 mills, or $14 62^, as the price of the 
 
Seo. 61.] USEFDL KNOWLEDGE FOR FARMERS. 973 
 
 load. So an}^ load, of any weight or price, may be quickly ascertained by 
 this rule. 
 
 1136. How to Calculate tUe Number of Plants upon an Acre.— This is a very 
 importaut iiiatter, and is all worked out in Ino. 5tiS. Look at that whenever 
 you are about planting an orchard, or when yon wish to estimate the num- 
 ber of forest trees upou an acre. Suppose you are selling the timber. One 
 man offers a price per acre ; another one offers a price per tree. If you know 
 how many an acre contains at given distances apart, you can tell which offer 
 is best. At 30 feet apart, you have 50 trees ; at 25 feet, 70 ; and so on. 
 
 1137. Limit of Vitality of Seeds.— There is no limit to the vegetative life 
 of cereal grains kept perfectly dry in an unchangeable temperature, and 
 most of the garden seeds will grow after two years, and those of the cumimis 
 family after many years. Some persons prefer melon seeds two or three 
 years old. Onion seed loses vitality of about half the seeds the second year, 
 and old parsnep seed is not as good as new. All garden seeds should be 
 kept in air-tight vessels, and none bnt the best should be saved. Their vital- 
 ity may then be counted upou as follows : Parsneps and rhubarb, two years ; 
 beans and peas, two to three years ; carrot, nasturtions, mustard, parsley, and 
 lettuce, three lo four years ; pepper, cabbage, spinacli, tomato, turnip, sal- 
 sify, radish, and egg-plant, four to five years; asparagus, celery, okra, broc- 
 coli, and cauliflower, five to six years ; beets, cucumber, gourd, melon, squash, 
 pumpkins, corn and other grains, six to ten years, and longer. The great 
 secret of keeping seeds is to have them well matured, and kept cool and dry. 
 It is impossible to say liow long seeds may be made to preserve vitality, with 
 proper care ; but it is certain that any sort may be spoiled in any year by 
 damp and heat. 
 
 1138. What Ohio Produces. — Besides its great crops, it produces men ; and 
 here is the sort its soil furnishes. E. D. Mansfield, State Commissioner of 
 Statistics in Ohio, has submitted to the Legislature of the State his annual 
 report for 1861. It contains some curious items. For instance, the average 
 liight of Ohio men is given as four inches above that of the Belgians, two 
 and a half above that of the English recruits, and one and a half inches above 
 that of the Highlanders. The average hight per man is a fraction under 
 five feet ten and a half inches. Highland County showed the tallest and 
 lieaviest men. Twenty-one who were weighed averaged one hundred and 
 eight3'-two pounds. Fair complexions predominate in Ohio. There are few 
 of olive brunette, or dark complexion. The great majority are light or san- 
 guine. The eyes are light in the proportion of three to two, including blue 
 and gray in the light class, black and hazel in the dark. The hair is the 
 only feature among Americans, and especially in Ohio, wliich approaches 
 the characteristics of the dark nations. Even in this, the majority have what 
 may be fairly called light hair, including most of the shades of brown hair. 
 
 1139. Thoroughness— What it Produces. — It produces great and good re- 
 sults in all the operations o'f the farm. He who hurries througli everything 
 generally so slights his work as to do nothing well. But we would not have 
 
974 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 any farmer thorotiglily attached to routine, such as appears to govern some 
 farmers, and never leads tliem upward. Farming, as well as all ancient 
 arts. Las been run down by routine. Eoiitine is the enemy of all improve- 
 ment in fanning. Routine plows three inches deep, and will not go deeper. 
 Routine plants without manure, and runs down and wears out the most fertile 
 soil. Thoroughness, in all undertaken improvements, avoids routine, and 
 strikes out boldly to produce a result. With some farmers, everything is 
 done thoroughly ; with others, nothing. One lives as though he hoped to 
 live long and enjoy his labor; the other only lives for to-day. He literally 
 " takes no thought of the morrow." 
 
 lliO. Legal Weights of a Bushel of Graiu and Other Things.— The following 
 table, published a few years since in the Jiochestcr Union, is said to give the 
 legal weights of the substances named, so far as fixed in the following States: 
 
 AKTICLE9. N. T. Oil. Pa. Ind. Wis. Iowa. Ul. Mich. Ct. Mass. K. I. Ky. N. J. Vt. Mo. Ca. 
 
 Wheat, lb 60.. 60. .00.. 60. .60. 60, .60.. 60. .56. .60. . — ..60. .60. .60. .60. .60 
 
 Eye 66.. 56.. 66.. 56.. 56.. 50.. 64.. 56.. 56.. 56.. — ..56. 56.. 56.. 56.. 56 
 
 Corn 56.. 56. .56.. 56.. 66.. 56.. 56.. 56.. 56.. 56.. — ..56.. 56.. 56.. 52.. 56 
 
 Oats S2..32..32..32..32..35..32..82..28..30.. — .. — ..30..32..m..34 
 
 Barley 48. .48. .47. .48. .48. .48. .44 .48. . — . .46. . — . .48. .48. .46. .m. .48 
 
 Buckwheat 48.. — . .48.. 50.. 42. .52. .40. .42. .45. .46. . — . .52. .50. .46. .m. 48 
 
 Clover seed 60. .54. . — . .60. .60. .50. . — . .60 .— . . — .. — . .50. .54, , — . ,m. .60 
 
 Timothy seed 45, ,42. . — , .45. . — . .45. . — , ,m. . — . .m, . — , ,45, , — , , — . ,m, ,48 
 
 Flaxseed 56. ,56, . — , ,56, , — . .56. . — . .in . . — . .m , , — , .56, ,55, . — . ,m, .56 
 
 Hempseed 44 . . — . . — . . 44 . . — . . 44 . . — . , — , . — .. — ..— .. — .. — .. — ,, — .. 
 
 Blue grass seed 15. . — . . — . .14, . — . .14, . — . . — . . — . . — . . — , . — , , — . , — , . — , . 
 
 Dried apples 22. .25. . — . .30. .28. .24. .—. .28. . — .. — .. — ..— ,. — .. — .. — . .22 
 
 Dried peaches 32, ,33. . — . . — , .28. .35. .— . .28, .— . . — .. — , . — ,.—. . — ,. — , ,22 
 
 Dried plums — .. — .. — ,24.. — .. — .. — ,. — ,. — .. — .. — .. — ,. — .. — .. — . 
 
 Coarse salt 56.. 60. .85. .50. . — . .60 .— . — .. — . .70.. — . ..50. . — .. — ..56 66 
 
 Fine salt 56:.50. .62. .50. . — , ,50, — . , — . . — , ,70. . — , ,50, , — , ,— .50 66 
 
 Potatoes 60..— ..— .60.. — ..60.. — .. — . .60., 60.. 60, , — , — .60,. — . — 
 
 Peas 60.. — .. — ,, — , —,, — .—,. — .. — , .60, , — .. — ,, — ,. — ., — , 60 
 
 Beans 60. .56. . — . ,60, , — , .00 . — .. — .. — . .60. . — . .00. —.. — ..— 60 
 
 Castor beans 46.. — .. — ,.46.. — 46.. — ,. — ,, — , — ,, — ,, — ,, — .. .. .. 
 
 Onions 57. . — .. — . .57. . — . .57. . — ..—.. — . .50. .55. . — .. — ,. — ,, — , .— 
 
 Corn on the cob weighs 70 lbs. ; bran, 20 lbs. 
 
 11-tl. Capacity of Boxes. — Any farmer can make, or have made, accurate 
 measures. Boxes made of the following capacities will contain tlie quantity 
 of grain or other article of dry measure sold by the barrel, bushel, or quart. 
 For instance, a box, measured inside, 24 inches long, 16 inches wide, 28 
 inches deep, gives 10,752 cubic inches, and will contain a barrel. A box 
 24xlG, and 14 deep, 5,376 inches, half a barrel. A box 16x16.8, and 8 
 deep, 2,150.4, holds a bushel; and one 12 x 11.2, and 8 deep, 1,075.2, half a 
 bushel ; and 8 x 8.4, and 8 deep, 537.6, a peck ; 8 x 8, and 4.2 deep, a gallon. 
 The same size, half the depth, or 7x4, and 4.8 deep, 134.4, half a gallon. 
 One 4x4, and 4.2 deep, 67.2, a quart ; and half the depth, a pint. 
 
 1142. How to Measure an Acre— Square— Triangle— Circle.— For a circle, 
 use a rope for a radius, 7 rods 3| links long. For a fourth-acre, 3 rods 14 
 links. For an eighth, 2 rods 13 links. An acre in the form of an equilat- 
 eral triangle is 19 rods 5i links upon each side. A triangle eighth of an 
 acre is 6 rods 20 links. A rod is 16i feet, and a link 7.92 inches. A square 
 
Seo. 61.] MAXIMS FOR YOUNG FARMERS. 975 
 
 acre is 160 rods, 43,560 superficial feet, and is 12 rods and 10.7 feet \ipon 
 each side. To lay out an oval plot, measure off an exact triangle upon the 
 spot, and set a stake at each point, and stretch a rope around tight; then 
 pull up one stake, and press it Iiard against the rope, and mark upon the 
 earth as you go around. If you wish to form an oval, say 20 x 100 feet, 
 draw a perpendicular and a horizontal line through the center of the plot 
 where you desire to forgi your oval, and set stakes 100 feet apart upon the 
 long line, and a stake ten feet out from the center on the other line. Now 
 draw a cord tight around these three stakes, and fasten it. Then take up 
 the stake on the short line, and press it against the line, and with the point 
 scratch a mark all the way around, and you will have an oval of the de- 
 sired size. 
 
 1143. Axioms, Proverbs, and Maxims. — "We have always loved tlie little 
 sentences that we have found floating upon the sea of printer's ink, which 
 come under the class of axioms, self evident truths, or proverbs — truths often 
 repeated, in wise, pithy sayings — or maxims of established principles, and 
 propositions generally received as true ; and as we have always found man- 
 kind ready to learn truth from these little scraps, we have gathei-ed a few 
 that appear worth preserving. Although we address them, by their titles, 
 to difl:erent members of the farmer's family, we hope none of them will be 
 passed over by other members ; for however trite some of the sayings may 
 appear to the elder class, let us not forget that we were once young, when 
 many an old saying was fresh to our minds, as some of these will be to others. 
 Let us remember that the soundest grains of wheat are found mixed with 
 chaff, which the skillful farmer winnows out and garners in his store-house. 
 So let eacli winnow and save such grains as he may find in these pages. 
 
 1144. Maxims for ¥oung Farmers. — A tyro in farming should not select an 
 impoverished farm to begin with, lest lie fail and become discouraged through 
 no fault of his own. 
 
 To preserve fertility, as much must be restored to a field, in some shape, 
 as the crop carried off extracted fiom the soil. This can be done by turning 
 under a green croj^, or applying animal or mineral manure. 
 
 Never try to cultivate more acres than you can do thoroughly. Sow none 
 but good seed, and be sure always to sow it at the right season. 
 
 Never attempt to carry " coals to Newcastle" in any of your farming op- 
 erations. That is, do not try to grow things for sale for which you have no 
 market. Grow such things as your soil, situation, and climate are adapted 
 to, and such as facilities of transportation will warrant. Do not try to grow 
 apples nor potatoes at the tropics, nor oranges and yams at the poles. 
 
 Practice mixed husbandry. As a general thing, no small farmer, such as 
 most of us are in the Northern Sta*es, can confine liis operations to a single 
 article of produce. The risk is too great. If that fails, all income for the 
 year fails. 
 
 Be sure never to fail to plant a garden of the most useful vegetables for 
 family use, and cultivate it well. No part of the farna will be more profit- 
 
976 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 able. Plant fruits of all useful sorts, and let no tree cumber the ground that 
 does not produce good quality. 
 
 "Weeds are a pest. Do not plant the seed. Do not cart the weeds into 
 your barn-yard, and cart the manure out in its raw, unfermented state, with 
 every weed seed in a perfect condition to grow. If you would not be pes- 
 tered with weeds, compost your manure, and kill the vitality of all seeds. 
 Make it a law of the farm that every one shall stop and pull up every nox- 
 ious weed, such as d«;k, thistle, Spanish needles, etc., and in a very few 
 years your greatest pest will be gone. Walk about your farm for recreation 
 or inspection with a staff liaving a hook at one end and a chisel at tlio other, 
 and keep an account of the number of your enemies you slay in the course 
 of the year, at little expense of ammunition. 
 
 Turnips will winter better in piles than in pits, and pine brush is better 
 than straw for covering, laid but-ends up, with a few inches of dirt over. 
 
 Ajjples M'ill keep if buried, but the earth is apt to extract the aroma, and 
 thus injure the quality of fruit. 
 
 Upon land seeded to grass, volunteer oats should not be allowed to grow. 
 If you can not feed tliem off, mow them. 
 
 Spend leisure hours in autumn among the raspberry plants. Cut away 
 all old canes, and shorten new ones. Tender j^lants may be covered with 
 evergreen boughs. 
 
 Trenching is simply spading and mellowing up the soil some two feet 
 deep. It is done by digging a series of ditches parallel to each other, and 
 throwing the dirt of one into the otlier. The great secret of growth of garden 
 vegetables is not in the greater supply of manure, but in the fine pulveriza- 
 tion of the soil. Subsoiling is of the same nature as trenching, and, as far 
 as it goes, equally profitable. 
 
 Boulders may sometimes be got rid of by digging a hole alongside, and 
 burying them, mucli better than any other way. A man will sometimes bury 
 a stone in one day that could not be blasted and hauled oijt for five dollars. 
 
 Save and sow the largest seed, and by these means you will get peas, or 
 anything else, of a bulk of v/hich we have at present no conception. 
 
 Radishes planted in the hill with melon or cucumber seed will often save 
 the vines from bugs, which, liking the radish plants better than the vines, 
 will eat them first ; in the mean time the vine plants grow to such a size that 
 tlie bugs will not molest them. 
 
 Fumes of rosin have been found equally efficacious and mucli cheaper 
 than fumes of tobacco for destroying aphides upon plants. The maggots of 
 the asparagus beetle proved destructive upon Long Island in 1862, and the 
 best remedy discovered was fowls. Several persons who kept chicken-coops 
 near their asjiaragus beds found tliem an excellent protection. As the eggs 
 of the nuig;rtf'S are deposited upon tlie seedbngs, it is best to destroy thetv. 
 
 Peiis jin: an excellent croj) to prepare land for wheat or any otlier grain, 
 and may be profitably grown as a manure crop. They may be grown for 
 seed after the 10th of June, free from the pea-bug; and a bushel is worth a 
 
Sbc. 61.] MAXIMS ABOUT STOCK. 077 
 
 bushel of corn for fattening purposes, and it does not cost lialf so much to 
 produce it. 
 
 Teazles have been grown profitably in this coiintrj. They are used by all 
 woolen cloth dressers. 
 
 1145. Maxims about StOCki — A morbid appetite for animal food causes 
 sows to eat their pigs. Feed them flesh before they drop their pigs, as a 
 preventive remedy, and give them saw-dust instead of straw for bedding. 
 It is good for any stable bedding. 
 
 Feed oil-cake to heifers. It enlarges the milk-vessels. Say two pounds a 
 day, for two or three months before calving. Give all animals plenty of 
 water. 
 
 Pumpkin seeds are good for all stock when cooked, but injurious raw. 
 Ducks are often killed by eating them. 
 
 All food is better for all animals if cooked, but it will not always pay to 
 cook it 
 
 Dogs indicate the character of a neighborhood. If they are an ugly, 
 brawling set, look out for their owners; they are very likely to be ditto; 
 for the gentleness of all animals is generally in keeping with their masters. 
 If one is ngly, he is only a brute ; the other is brutish. 
 
 Neglect of young stock in November is one of the sins of which almost all 
 American farmers are guilty. It may save hay, but it will be at the ex- 
 pense of value in flesh, and perhaps of life. 
 
 Sheep and calves should be yarded together. Sick calves often pick up 
 and devour with avidity the hay and straw from among the sheep-dung. It 
 is medicinal, and no article has more immediate and salutary effect in re- 
 storing diseased calves to health. 
 
 "Where all fodder is dear, and labor cheap, it is good economy to cut up all 
 the coarse materials, and coax the stock to eat them by mixing in a little 
 meal. We do not believe that it will pay to cut up everything, and in some 
 localities it' will not pay to cut anything. It all depends upon the cost of 
 labor and the value of fodder. Eoots are better if cut, or pulped, and mixed 
 with dry feed, for stock, but that would not always pay. 
 
 Ticks on sheep can be got rid of by keeping the flock always in good order. 
 
 Hold np your wliip in driving oxen. The best ox-drivers rarely use the 
 whip. It is a wand of office, not an instrument of torture. A driver of an 
 ox-team should walk directly opposite to the yoke, walk straight, and carry 
 his whip as upright as a soldier would his gun. Use a whip-stock with a 
 short lash, and touch the cattle only with the lash, and never strike them on 
 the nose or over the eyes. "The merciful man is merciful to his beast." 
 
 Coal ashes are good for pigs. So they are for fowls to wallow in during 
 winter. 
 
 Castrate your lambs and pigs just at dusk, or liy candle-light in the even- 
 ing. The mothers then lie down, and the young animals have a night of rest. 
 
 Housing cattle will pay a greater interest upon its cost than any other 
 outlay in farming. 
 
978 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 Boiling corn on the cob is economical for swine feeding. It will save one 
 fourth the quantity. 
 
 Of " condiments for cattle" beware, and of all who deal in them, as you 
 would of any other humbug. 
 
 A good horse should have fifteen good properties and conditions, viz. : 
 Three of a man, three of a woman, three of a fox, three of a hare, and three 
 of an ass. Of a man, bold, proud, and hardy ; of a woman, fair-breasted, 
 quick hearing, and easy to move ; of a fox, a fair tail, short ears, and a good 
 trot ; of a hare, a clear eye, a dry head, and a well-formed body ; of an ass, 
 a big chin, a flat leg, and a good hoof. 
 
 A cow is like a mill ; if you put but little in the hopper, you will have 
 but little grist. In regard to milk, manure, or beef, you can get nothing out" 
 of a cow that you do not put into her. 
 
 Every farm in America, upon which ten head of cattle are kept, would 
 make money by expending enough to provide water in the yard both for 
 winter and summer use. Pumps can be easily made so as to raise water 
 whenever the cattle come to the trough for a drink. "Where wells can not 
 be had, cisterns can. 
 
 Medium-sized sheep are the most profitable ; say such as will dress 50 
 pounds, and have a fleece of medium wool that grows thick and flrm. A 
 farm will carry three such sheep per acre ; that is, a farm of 100 acres, that 
 grows, perhaps, ten acres of corn and family vegetables, with pasture and 
 mowing proportioned to the stock, will carry 300 head of sheep, with the 
 family cow and necessary team. Young lambs can bo taught to feed in the 
 following way : With the three lower fingers of the right hand, clasp the 
 right fore leg near the foot, and do the same with the left hand and left foot ; 
 then raise it up, and, holding the head of the lamb a few inches below 
 your mouth, insert a thumb and fore finger into each side of its mouth, open- 
 ing and holding it so as to let a small stream of cow's milk flow from your 
 own mouth into the lamb's. It may strangle and struggle some, but there 
 need be no fears of injuring it. One or two mouthfuls are usually sufii- 
 cient, and these maybe given in as many minutes. Be sure to give enough 
 to make his ribs bulge some when you stand him on his feet. After a few 
 feedings the lambs will huddle about your feet, sticking up their noses in a 
 most amusing manner, begging to be taken up and fed.'' Such feeding and 
 saving of lives will do much to multiply sheep, and thus cheapen food and 
 clothing, two of the essential wants of life. 
 
 One of the best things in the world to make cattle handy is to treat them 
 well in winter. Farmers should discard the word breaking from their vocab- 
 ulary, and substitute that of handying. Never strike or frighten a steer, 
 heifer, or colt. Handle and handy them. Gentleness will accomplish more 
 tlian harsh words and hai'd blows. You must begin with the idea that they 
 do not know what you want, but are willing to learn. You should give 
 them time, patience, and good usage, and they will gladly become your 
 faithful servants. The true secret of managing young cattle to advantage 
 
Sec. 61.] MAXIMS FOR ALL FARMERS. 979 
 
 is gentleness, kindness. One little nubbin of soft corn is worth a dozen 
 whips and sticks to make them obey. Be patient ; do not hurry tliem. Let 
 them have a little time to reflect, and they will prefer marching to being 
 whipped. Animals are made vicious by bad treatment — by abuse. The 
 same effort to be kind will secure docility and kindness in the animal. Ap- 
 propriate a dish for the purpose, and always carry something — salt or grain — 
 and feed your horses when yon go to catch them. 
 
 Everjr farmer should adopt a few unvarying rules in relation to stock. 
 One of these is, never to kick a poor animal ; and another, never kick an an- 
 imal poorly. Another is, seek to improve poor animals by crossing with 
 good ones. Avoid breeding from blood relations. 
 
 1140. Maxims for All Farmers. — " Waste not, want not." Waste no min- 
 utes, much more hours. Yet yon should have hours of recreation. But 
 such hours are not Avasted. Never fatigue the body to such a degree that 
 you have no desire to acquire mental food. Work so as to make leisure 
 hours, and devote them to acquiring things useful to the profession of a 
 fai'mer. Study the habits of insects. Learn which are hurtful and which 
 are not. Learn to use the microscope, and examine plants and insects. 
 
 Keep good fences, and yon will keep good neighbors. The worst fence is 
 a dog-fence. Gates are more economical than bars. 
 
 Every farmer should send his son to a school where he will learn the rudi- 
 ments, at least, of botany, mineralogy, geology, chemistry, surveying, book- 
 keeping, besides the ordinary branches of a common school education. Let 
 him also Le taught the use of carpenter's tools ; and also how to bud, graft, and 
 transplant trees ; how to castrate and spay, and how to manage sick animals. 
 
 Take agricultural journals ; buy agricultural books. What if they are not 
 perfect? What if they publish errors ? They also publish much valuable 
 information. 
 
 Attend meetings of farmers' clubs and agricultural shows, and take your 
 family with you, and try to learn something about improved stock and im- 
 ])roved tools. 
 
 Farmers' sons should learn to be good farmers ; and farmers' daughters 
 should, both at iiome and in school, leai-n to be farmers' wives. 
 
 Inculcate economy, as one of the leading virtues of a farmer's life. Econ- 
 omy is not parsimony. Teach your children wisdom, virtue, affection, in- 
 dustry, and they will be truthful, and your home will be attractive. 
 
 Never incur debt, except to improve your farm, and only in a way that 
 will be sure to return a pi-ofit uj^on cost. Many a farmer has lost his farm 
 through debts to a merchant ; and many others have built themselves out 
 of a home by borrowing money to build a fine house. 
 
 Teach your children not to be asliamed of their calling by making it re- 
 spectable, dignified, and honorable as it is useful. Teach them how to help 
 themselves, and they will not then depend upon others. Remember that 
 tlie mind of a child is white, and liable to be stained by impurities. Teach 
 them that wisdom maketh men humble, and ignorance and pride the reverse. 
 
980 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 Convince your children by your acts, as well as words, of your love, and they 
 will love, honor, and respect you. 
 
 Do not contradict things that you do not understand, nor dispute propo- 
 sitions which may prove true. 
 
 A snappish dog is often bit. Apply this to yourself. 
 Trouble comes as the fruit of a first false step. , 
 
 It is a brave man who does good where he has no expectation of reward. 
 Provide good tools and a place to keep them. Have a good tool-house, 
 and everything in its proper place. "When you lay by tools in winter quar- 
 ters, have them cleaned, and the bright iron oiled. Use leisure days in win- 
 ter to repaint and varnish wood-work of tools. Carefulness is economy. 
 Preserving tools saves much expense. Providing them half accomplishes 
 the work, and causes many jobs to be done that would not be if there were 
 no suitable tools at hand. 
 
 Dreading a job often consumes more time than doing it. 
 An imjjulsivo man is better than a drone ; for, though ho may make mis- 
 takes, he will accomplish many useful things — a drone, nothing. 
 
 "Will is the mother of invention ; for will makes the necessity. Men with 
 a will to do always do. 
 
 Do not be over-eager nor over-cautious. The first rushes ahead inconsid- 
 erately ; the last often loses advantages. 
 
 If you are wealthy, be benevolent. If you are poor, be more so ; for be- 
 nevolence bringeth blessings, and with blessings coraeth wealth. A miser 
 misses many blessings. A sensualist throws many away. 
 
 The birds rise early, for then the worms fall an easy prey. Man may 
 learn lessons from birds. 
 
 Husking in the field wastes winter fodder. If saved early, husks are 
 wortli as much as hay, and more to the farmer than will bo paid by the 
 mattress-maker. 
 
 Save corn and weigh corn. Learn which sort is heaviest. "Weight makes 
 value. The average weight per bushel of ears, of the eight or twelve-rowed 
 sort of Northern fiint-corn, is given at -iGj lbs.; the grain 37{ lbs., and cobs 
 9 lbs. A bushel of such corn, 5i lbs. 
 
 Paint and preserve should be the farmer's motto. A good coating for 
 rough work is made of fish-oil and water-lime. 
 
 Remember that June, in this latitude, is not only, as a general thing, the 
 most busy, most important month of the year — for upon the start given this 
 month to all spring crops depends their success — but it is one of the most 
 healthy and pleasant in all the year. It is the great month of flowers and 
 early fruit ; the trees are arrayed in their richest robes of green ; the grass is 
 most luxuriant and beautiful ; and in the after part of the month we have 
 that most delicious aroma that comes from the hay-field. It is a month of 
 life and liope, and it should be a season of enjoyment; for every farmer, 
 busy as the season requires, him to be, should so arrange his work, and so 
 proportion it to the hands employed, that all could have a day now and then 
 
Seo. 61.] MAXIMS OF HEALTH. 981 
 
 for recreation, by relaxation from labor and devotion to innocent amusement 
 appropriate to tliis lovely month, to invigorate them for the toil of the har- 
 vest-field, when it is expected that every member of a farmer's family must 
 put forth extra exertions till that hajipy time, too much neglected as a holi- 
 day, the harvest-home festival. Remember, too, how much that depends 
 upon the sunshine and showers of June. Remember that eggs are abundant 
 in June. If properly preserved, they will be abundant in January. 
 
 A barrel of eggs, packed in oats for market, contains sixty to eighty dozen. 
 
 1147. Maxims of llealtlii — Constant delving is not wisdom. Men lose elas- 
 ticity by over-exertion. lie that works most hours does not always accom- 
 plish most work. 
 
 A change of occupation is as necessary for health as change of food. 
 When the weather is hot, the hours of labor should be reduced, or else lighter 
 work substituted during some of the hottest hours. Change from mowing 
 to raking, or from raking to pitcliiug, loading, stacking, enables men to do 
 more work, while they are less fatigued. 
 
 Attempt less — accomplish more. Many a man has broken down with 
 fatigue of mind, because he attempted more than he could perform. The 
 mind should be kept as elastic as the body. 
 
 Promptness and energy save time. One man always drags his work, and 
 never has leisure. Anothei", by ])romptness and energy, pushes everything 
 ahead. Ten hours' hard work, six hours of rest, and leisure for study or 
 recreation, and eight for sleep, will accomplish more in a lifetime than six- 
 teen hours of toil, without rest, and eight of sleep. 
 
 Be not ambitious to be the richest, but the healthiest, hapj^iest farmer in 
 your neigliborhood, and in possession of the best, not the largest farm. Aim 
 for the most comfortable, not the most showy house. 
 
 Great farms — great care. Great income — great outgo. Spend less, and 
 you will not need to earn so much. 
 
 A reasoning man uses reason with his teams. A dumb animal can not en- 
 dure constant fatigue. Attend to the mute appeals of such faithful servants. 
 
 Neglect of physiological laws produces premature infirmity. To be long 
 useful to yourself and others, " learn to know thyself" 
 
 A short and easy law of health is, to keep the head cool, the body warm, 
 and feet dry. Bathe for cleanliness, but never to chill the overheated bod3^ 
 No man who practices eating or drinking without reason and regard to 
 health can expect it. Be regular in your meals, and never eat inordinalely. 
 
 Eating in a hurry will hurry j'ou through life. Swallowing without mas- 
 ticating will destroy the strongest digestive organs. Never eat wliile the; 
 mind is agitated nor body exhausted. Digestion requires health of body 
 and mind. Late suppers, early graves. 
 
 Tea and coffee in childhood — tobacco in youtli — intoxicating liquor in 
 manhood — nothing in old age. There is no old age for those who abuse 
 God's good gifts. 
 
 Marry in haste — repent at leisure. An uncongenial companion is vi-orse 
 
982 TEE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 than none. Tliere is but one tiling in conjugal life worse than a jealous 
 wife. The wife can tell what that is. 
 
 It is worry, more than work, that kills. Fits of anger bring fits of disease. 
 
 Surfeits are the physician's agents. So are all irregularities. Among 
 these include all high-seasoned food ; all tempting the appetite with bitters, 
 acids, and sjjices ; all forcing of food into the stomach when nature says. No ; 
 all practices that .savor of " u]) till midnight, in bed till noon." 
 
 Ice-water promotes health, because a smaller quantity than from well or 
 spring cools the body and quenches the thirst. When very much heated, 
 first cool the hands and face, and hold a lump of ice in the mouth. 
 
 The farmer's food should be plain, substantial, hearty. It should be taken 
 with a view to the labor to be imdertaken, to the rest required, and to the 
 needs of the body. It sliould consist more of fresh meat than is usual. Salt 
 fish is a healthful and economical change from salt meat. Eat more fruit 
 and less meat — more plain bread, and less pic and cake — more soiip-maigi^e, 
 and less rich gravy. To be healthy, yon must eat simple food. Dainties 
 make beggars. Kise early, and you will digest easily. 
 
 Live in the light. Health and dark rooms are incompatible, both for man 
 and beast. Light is as necessary as air. A nut-brown face is more beauti- 
 ful, with health, than a pale one with pain and lassitude. Look at the flow- 
 ers in a dark room, and learn a lesson. 
 
 Mental and moral depression are dead weights in the scale of health. A 
 man's health may be measurably controlled by a strong will. Judgment 
 and discretion are better than doctors and physic. When a physician or 
 nurse says to a patient, "You will not die; you shall recover," it aids all 
 their eflorts. 
 
 Simples are better than compounds. This is often true in remedies for 
 family diseases. It is true in relation to the common piiff-ball. There is 
 no better styptic. Bleeding at the nose has been stopped by a few pufi's of 
 this dry fungus. A paper published by the London Medical Society says 
 that the ])ufi"-ball is a valuable anesthetic. It is owing to this property that 
 bee-keepers use it to stupefy bees. The effect is precisely the same as that 
 produced b}- chloroform, if, while burning, the fumes are inhaled. 
 
 A valuable disinfectant for fetid sores has been discovered in Paris — a 
 mixture of one to five parts of coal-tar, by trituration, with one hundred 
 parts gypsum, in fine powder. This powder is used dry, or made into an 
 ointment, and its efi'ect is such as to render the discharge of a gangrened 
 sore inoffensive. 
 
 The organ needing most care in the human body is the cuticle. Exercise, 
 water, and friction are its best preservatives. The effects of old age are ex- 
 hibited in the skin earlier than anywhere else. It loses its bloom ; it wrinkles ; 
 it grows hard, and loses its fine sensibility, and, upon the most exposed parts, 
 becomes dry and horny. It is then more like a sort of armor than soft, vel- 
 vet}^ skin, and it seems to cut off communication between the body and sur- 
 rounding atmosphere. The great preventive of this is perfect cleanliness in 
 
Sec. 61.] MAXIMS OF HEALTH. 983 
 
 yontli. Plunging into the water is not necessary, but frequent ablutions of 
 the whole body are. For the cure of hard, horny hands there is no better 
 remedy than urine. For health, comfort, and longevity, soap and water are 
 wortii more than materia medica to a farmer. 
 
 Ice is one of the most valuable remedies for some diseases. For nausea, 
 accompanied with burning in the stomach and tliirst, swallow lumps of ice 
 as large as peas, one after another, every five seconds. Tliis has checked 
 severe attacks of diarrhea. Ice in a bag, or wrapped in a towel, upon the 
 licad in brain fever, is an invaluable application. Ico bound to the throat, in 
 ease of inflammation, is very valuable. Put ice upon the back of the neck to 
 arrest bleeding at the nose. Dyspeptics should not drink ice-water at meals. 
 
 Mirth is a medicine. It is not taken half often enough. It restores mind 
 and body. It is one of the causes of elasticity of children. They have not 
 yet learned to restrain their mirth. Many of the great and good men of the 
 world have been mirthful men. "We doubt the correctness of all tenets that 
 deny mirthfulncss to all human beings. It is their birthright. " God made 
 man a laughing animal." Allow your children to be mirthful, and join them 
 in their sports. It is the cheapest way to save doctors' bills. Care drives 
 nails in the coffin ; mirth draws them out. 
 
 The cook is the cause of much sickness. " Bad blood" comes of bad food. 
 JSfcunxIgia, one of the most common of all maladies in the present age, is 
 caused by the condition of the blood, under the general term had. It gets 
 bad for lack of suitable food, lack of proper exercise, and unwholesome air, 
 all of which produce indigestion, dyspepsia, thin, pale faces, neuralgia, and 
 its train of almost unbearable pains. There is no medical advice that can 
 be given to those subject to neuralgia better than this : Eat to live, not live 
 to eat. Eat suitable food, and in such quantities as digest most easily. Ke- 
 member, " what is one man's meat is another man's poison." Take much 
 exercise in the air out of the house. Keep the bowels free by using fruit, 
 and such farinaceous food as will not produce constipation. If that occurs, 
 use enemas of tepid water, with a trifle of salt and molasses, instead of pills 
 and purgatives. Keep the M-hole surface of the body absolutely clean. The 
 skin, kept clean by judicious washings and frictions, helj^s, by its open pores, 
 to unload the system of its surplus; the bowels, kept free bj^ fruits, berries, 
 coarse bread, and cold water, are another source of deliverance of excess. 
 While these articles of food supply but a moderate amount of nourishment, 
 in addition, active exercise still more rapidly works oft' the surplusage of the 
 system, and the man is well ; not as soon as by bleeding, but by a process 
 more efi'ective, more certain, more enduring, without harm or danger. 
 There is no form of mere neuralgia which is not safely and permanently 
 cured, in a reasonable time, by strict personal cleanliness, by cooling, loos- 
 ening food, as named, and by breathing a pure air in resting in our chamber 
 at night, and in moderate labor out of doors during the hours of daylight. 
 Those who prefer uncertain physic or stimulants to these more natural rem- 
 edies are unwise, and ought to have neuralgia — a little. Chloric ether, 
 
984 THE GLEANINGS OF THE FIELD. [Chap. XV- 
 
 which is made by mixing one part of chloroform with six parts of rectified 
 alcoholic spirits, is excellent for outward application in neuralgia and tooth- 
 ache ; but the best external application for neuralgic pains, and also for 
 rheumatism, is made of the following compound, and is a real " pain-killer :" 
 Oil rosemary; oil cloves; oil origanum; oil turpentine; spirits ammonia; 
 tincture cantharides ; high-proof alcohol ; one ounce of each, specific meas- 
 ure. Mix, and apply witli the hand, rubbing freely. Shake the bottle be- 
 fore using. The following is recommended as an internal remedy : Half a 
 drachm of sal ammonia in an ounce of camphor-water, in doses of a tea- 
 spoonful every five minutes. Diptheria, another dangerous disease, has 
 often been cured by the following treatment : Make two small bags, that 
 will reach from ear to ear, and fill them with hard-wood ashes and salt ; dip 
 them in hot water, and wi-ing them out so they will not drijJ, and apply 
 them to the throat; cover up the whole with a flannel cloth, and change 
 them as often as they become cool, until the throat becomes irritated, near 
 blistering. Tiien take a piece of flannel, well covered with a stiff lather of 
 castile soap, dip in hot water, and apply to the throat as hot as it can be 
 borne ; have another ready when this becomes cool, changing frequently. 
 At the same time, use a gargle made of one teaspoonful of cayenne pepper, 
 one of salt, one of molasses, in a teacupful of hot water, and when cool add one 
 fourth as much cider vinegar. To be taken every fifteen minutes, until the 
 patient requires sleep. A gargle of castile soap may be used part of the time. 
 
 1148. Maxims for Farmers' Wives. — Happiness and health are handmaids. 
 "Whatever tends to promote one promotes the other. The art of love is the 
 art of good housewifei'y. Tidiness wins, negligence loses husbands. Home 
 is made haj^py by woman's constant care. Smiles and neatness are sauce 
 for homely meals. An orderly house with poverty, is better than confusion 
 with wealth. A fretful woman is every man's horror. A woe-begone look 
 has given many a heart-ache. A happy house always wears a cheerful look. 
 To take a social meal in such a house needs no second invitation. A hus- 
 band is blind to a wife's faults who always strives to please. Do not give 
 vinegar to your husband's friends. Honey is sweet, and its taste lies long 
 upon the tongue. Policy sometimes requires sacrifice. A friend may seem 
 an ill-bird to-day, who, in after-years, will think it no hardship to lend you 
 his wings. AVith those, you or your children may soar out of despondency. 
 
 Children and responsibility are born together. Gentleness and firmness 
 should be born at the same time. Laugh at young cunning, and you may 
 cry at older impudence. Teach your servants always to say " young lady," 
 and you will teach young lady to call her mother " old woman." 
 
 Teach your children to obey a look, and they will look to obey. If they 
 obey and respect parents, they will respect all superiors and be loved by all 
 equals. Never command but to be obeyed. To speak to others of a child's 
 foibles in its presence will harden its mind to the faults you deprecate. 
 
 Teach yourself what yourself should know in relation to your own children 
 or those under your care. 
 
Sec. 61.] 
 
 MAXIMS FOR FARMERS' WIVES. 
 
 985 
 
 Children of civilization should not bo clad like those in savage life. It is 
 a cruel fashion that exposes their naked limbs to all the vicissitudes of our 
 ever-changing climate. Where such pride dwells, death finds victims. Do 
 not say Providence called the child away, when it dies from neglect of the 
 mother. Furs upon the shoulders, and nothing upon tlio limbs, is not the 
 dress to preserve health. 
 
 Make your children sensible of a mother's love, and they will love you. 
 Teach them to love home. Let them learn, and often sing, tliis little song : 
 
 ' Although our home's a lowly cot, 
 It is the one that God provides — 
 
 Where first I heard my mother's voice ; 
 It is a home I love so well, 
 
 Because 'tis there that love abides. 
 
 Where, day by day, with tearful care, 
 In gratitude for home and love, 
 
 She taught me how to lisp a prayer, 
 And tune to truth my infant tongue. 
 
 And lift my heart to Grod above." 
 
 Never fear spoiling children by making them too happy. Happiness is 
 the atmosphere in which all good aflections grow — the wholesome warmth 
 necessary to make the heart-blood circulate healthy and freely. Unhappi- 
 ness is the chilling pressure which produces here an inflammation, there an 
 excrescence, and, worst of all, " the mind's green and yellow sickness, ill- 
 temper." 
 
 Anger and reproof should never go in the same boat. One npsets the 
 other. A loud voice and correction are incompatible. She who governs 
 well lias a still, soft voice. Inspire love, not dread — resj)ect, not fear. Seed- 
 plants to-day may produce fruit in eternity. 
 
 Cofdial and quiet — paregoric and j)olicy — have bred many a depraved ap- 
 petite. Cakes and candy for present quiet — doctors' bills and other ills in 
 after-years. Time cures more sick children than mercury and tartar emetic. 
 
 Order in after-years is the fruit of seed sown in childhood. Teach them 
 to put things in place, and do not make them helpless by always helping 
 them. Teach them to be useful. 
 
 Little griefs are often large to little children. Do not forget you were 
 once a child. It is better to bear auger patiently than to excite more anger 
 than a little heart can bear. 
 
 The beauty of sunset, children often admire. Teach them that there is an- 
 other period of day still more beautiful. It is sunrise. It is a scene that 
 never tires. If seen all through a long life, from the same window, over the 
 same tree-tops, it presents a new view, a different combination of colors, and 
 new joys every time it is seen. It is a truth to be remembered, that looking 
 at sunrise every day is not tiresome nor unprofitable ; it prolongs life. 
 
 Soft words and soft water should be in every household. One turneth 
 away wrath ; the want of the other often produces it. 
 
 Philosophy and fire-making are intimately connected, though seldom 
 taught together. Every child should be taught how to kindle the kitchen 
 fire. It is an art which many an adult does not understand. The kindlings, 
 or live coals, should be so placed that the current of air should pass directly 
 through the fire into the wood to be ignited. Kindlings and comfort go to- 
 
986 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 getber. Teach children and servants to save all suitable substances for kind- 
 lings, and have a stock in hand over-night. Stalks of coarse plants, such as 
 sunflower, hollyhock, broom-corn, large weeds, and dry twigs, Avhere shav- 
 ings are not convenient, sliould be stored for kindlings. Corn-cobs are worth 
 more for fuel than for any other purpose. 
 
 Live and learn, and learn every day we live, should be a law of every 
 household. 
 
 "The poor traveler, scatcu to rest upon a bank of snow, dined upon a 
 crust and an onion." Why? This you may learn. Although offensive to 
 many, the onion is a valuable articl-e of food. It is nutritive and stimulant. 
 It satisfies hunger and warms the body. 
 
 " Cheese fought with famine, and conquered." This is also something to 
 learn, that hunger is satisfied and strength sustained upon a small quantity 
 of bread and cheese, better than with the same bulk of almost any other 
 food. Therefore, never fear that your husband or child will suffer for a lost 
 meal, if your forethought has put a little bread and cheese in his pocket. 
 
 You may learn that the common dandelion {Leontodon taraxacuni) is used 
 as a salad plant in France, and in Germany its roots are dried, and used in- 
 stead of coffee ; and the value of the plant for medicinal uurposes is widely 
 kuown. 
 
 " A simple herb cured sore disease." This proverb should induce an 
 housewives to preserve hei'bs for winter. Cut them while in flower, and dry 
 in the shade. 
 
 Botany and beauty are twins. Teach the first to your children, and they 
 will acquire the second ; if not in face, in mind. Show them how to pre- 
 serve specimens. Plants to be dried, to jjreserve their form and color as far 
 as possible, in stalk and flower, should be laid between folds of old news- 
 paper, and pressed. The paper absorbs the moisture of the green plants, 
 and becomes quite damjJ in a few hours. Tlien open the pile, and place 
 each paper, with the plant within its folds, on slielves or over the floor, for 
 two or three hours, longer or shorter, according to the dryness of the weather, 
 until the papers are dry, but not until the plants curl up. Then place them 
 under the stone again for a day, and repeat the drying process. Increase 
 the weight as they approach thorough dryness. Only one plant (unless quite 
 small) should be placed between the folds of a single paper. When perfectly 
 dry, take them out, and several may be placed in a fold, for keeping or send- 
 ing to a distance. Mark the time they flower on a slip of jjaper attached to 
 each, whether growing in wet or dry ground, on rocks or in swamps, woods 
 or open ground, wild or cultivated. 
 
 Flowers should be cultivated by every mother, and she should make it a 
 rule of her life to teach the love of flowers to her children. Show them that 
 the world is full of flowers — in the woods, on the "wild prairies of the West, 
 " waving like a sea of flowers" — in the meadow— on the old hills of the pas- 
 ture — creeping along the stone wall — climbing the rocks — -living on trees, 
 are the wild flowers, abounding everywhere — everywhere sending forth their 
 
Sec. CI] MAXIMS FOR FARMERS' GIRLS. 987 
 
 fragrance free as the morning air. Bottled odors are not sold by Nature — 
 they are free. In civilized countries, wherever a liigli degree of cultivated 
 taste prevails, flowers are planted in gardens, parterres, front yards, and back 
 yards, all around the house, to gladden the eye and please the olfactory 
 nerves. Then, again, what thousands of dollars are expended npon hot-honse 
 conservatories, forcing jSTature to produce flowers out of place and out of 
 season, that we may be gratified with their sight at all times of the year — 
 on our inantlepiece, in our window, everywhere, in-doors or out, wherever 
 we can And a spot to set a little pot, witli its little stem and single bud. But 
 that bud Avill bring a flower — that flower will bring a smile, a joy, a holy, 
 happy feeling, and perhaps a prayer of thanksgiving to Him who opened 
 tliat bud and spread its beauty and fragrance abroad, for the great, good, 
 glorious gift of flowers. 
 
 Hight across the street from where we write this jJaragraph there is a 
 whole row of flowei--pots in a window — seven of them — we know tlie number 
 well, for we have counted them over and over many a time; and thev are 
 tended by a fair hand, guided — we have no doubt of that — by a good heart, 
 who snatches a moment from her daily toil— she is a bookbinder's girl — to 
 tend her favorite flowers. Well, M'e only hope they gladden her heart as 
 mi;ch as they please our eyes. They are blooming now, riglit opposite our 
 window. We have often watched a delicate hand as it conies out to pour 
 a little water into the pots or take one of them into the room to set on her 
 table where she works ; but we have never seen her face ; tliat remained 
 concealed behind the painted, opaque glass; yet we fancy how it looks — 
 that it is sweet, like her flowers. 
 
 1149. Maxims for Farmers' Girls. — The art of being loved should be the 
 first thought of a girl approaching womanhood ; for with that will come all 
 the arts of housewifery. No young woman need to expect to win and keep 
 the love of a man worth loving, without exercising this art. The secret of 
 this art is all embodied in the " small, sweet courtesies of life." 
 
 The art of preserving includes more than pickles and peaches. A hus- 
 band's love must be preserved as well as won. 
 
 To preserve beauty, you must preserve health. That is preserved by mod- 
 erate labor, cheerfully performed ; by generous diet, quiet sleeja, and proper 
 dress. 
 
 Health is woman's richest jewel. Its casket is the heart. Its location is 
 within a chest that should never be rudely exposed to injury. Keep that 
 well covered, though all the limbs should be exposed. You need never fear 
 cold if properly clothed. See that sitting-room and sleeping-rooms are well 
 ventilated. Do not neglect exercise nor recreation. 
 
 " Laugh and grow fat." It is an old proverb, and a true one. Boister- 
 ousness is not mirth. Tlie meaning of the maxim is. Always be cheerful, 
 and thankful for health, and more health will follow. 
 
 Hugging the stove will never gain health. That comes from air and ex- 
 ercise. A flower fades in a hot-air room. Beauty does th# same. Health, 
 
988 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 contentment, happiness, and matrimony should dwell together. When you 
 are reasonably sure that lliey M'ill in your case, you may contract mar- 
 riage. Love may bring care ; the want of it may bring sorrow. No one 
 has a right to ask to be exempt from a share of the cares of life ; liut, before 
 you make this contract to leave your mother, be sure that you have learned 
 every household duty that she can teach. One of the most important things 
 for j-on to learu about household duties is, not to depend upon borrowing. 
 There is nothing that will render you unwelcome to a new neighborhood 
 quicker than this. However kindly disposed and pleasant jonv neighbors 
 may be, they will soon grow cold if they find that you are an habitual bor- 
 rower — sending for a little tea or sugar to-day, a little soap or salt to-mor- 
 row, and bread or butter next day. In sickness, you may send to a neighbor 
 for medicine and assistance, and they will be freely given. In health, avoid 
 borrowing as you would a pestilence. 
 
 Indolence is the parent of languor. That, as a general thing, is true, al- 
 though there are cases where languor comes of ill health or fatigue. But, un- 
 happily, listlessness is a state that city ladies, and sometimes farmers' girls, 
 fall into. To prevent this, exercise freely in the open air. Do not be afraid of 
 walking. It is one of the most healthy kinds of exercise that girls can take. 
 Wear strong shoes, and take long walks. 
 
 You will never die on horseback. This is an old and very true proverb. 
 We can not give better advice to farmers' girls than this : learn how to ride 
 well, and ride much. Walking, sometimes, is fatiguing, while a canter,, 
 upon an easy-going horse, invigorates body and mind. Many a poor, dis- 
 eased liver has been restored to health on horseback. Roses will bloom 
 upon pale cheeks, rushing through the air before sunrise. 
 
 A New Hampshire farmer was congratulated upon the healthy apjDcar- 
 ance of his girls, and asked to explain the cause. He said, "It is because 
 their diet has always been wholesome, plain, and simple, yet abundant. 
 They drink water or milk, never having used tea or coifee. They have 
 exercised every day in the open air, assisting me in tending my fruit trees, 
 and in such other occupations as are appropriate for women ; and their dress 
 has never been such as to hinder free respiration of our pure mountain air, 
 which is a better panacea than druggists' remedies." 
 
 A burnt child dreads the fire. This is another old and true proverb. A 
 better one would be one that taught the child to dread a dress that would 
 burn. Many a life might have been saved by rendering a gauzy dress in- 
 combustible. This can be done by dipping it in water in which crystallized 
 sulphate of ammonia has been dissolved, to the extent of about seven per 
 cent, of its Aveight. Alum, in pretty strong solution, and also phosphate of 
 soda, or borax, are said to produce the same result ; that is, to render all 
 light fabrics that are dipped in the solution so incombustible that they may 
 sweep over the blaze of a lamp or fire without igniting. If you love life, 
 remember this. 
 
 1150. MaximmfiDr Farmers' BoySi — To be useful, be industrious. To be re- 
 
Seo. 61.] MAXIMS FOR FARMERS' BOYS. 989 
 
 specteJ, be willing to do your duty in all situations. To be loved, love 
 others. To be rich, bo frugal. Save pence, and shillings will follow. Learii 
 that a stick that will not make a rail may answer well for a stake. If you 
 can not make a pot of a small board, you can make a pot lid. Everything 
 is worth saving, and everything is useful for something. Perseverance built 
 a house. All difficulties are overcome by diligence and assiduity. Your 
 business will be attended to if you attend to it yourself. If you trust to your 
 neighbor to watch your pot, the fat will be in the fire. Do not try to catch 
 mice with mittens on until you see the cat do it. If you would save toll, you 
 must do yoiir own grinding. If you would grow corn to grind, you nnist 
 first plant it. If you would have it grow while you sleep, you must not plow 
 with a ing for a team. Do not look for wealth without labor. Do not look 
 for courtesj- from those who never see it in you. Good manners save money- 
 Good conduct, and not good looks, wins friends. If you wait for the shoes 
 of a dead man, you will go long barefooted. If you race for a shadow, be 
 sure to start before sunrise. Never despair ; that is distrusting God. Be 
 observing, and you will learn much that will be useful in after-years. Con- 
 stantly study into the nature of things of every-day use. Nothing is of " no 
 importance," or unworthy of your attention. Seek all the means in your 
 l^ower for mental improvement if you wish to be respected. But few per- 
 sons ever reflect on the means by which they may improve their general 
 ability for increased thought, while all agree that the human mind is sus- 
 ceptible of such improvement ; by no class of citizens is this subject more 
 neglected than by farmers. The farmer, beyond all others, should have 
 clear ]iowers of observation, so as readily to observe and apply nature's laws. 
 His vocation is the root of all prosperity, and until the farmers of a nation 
 are progi'essed to the highest power of observation, the country can not rise 
 to the highest rank. By observation alone you may learn much. You may 
 learn what you will find that many old farmers do not know. Among these, 
 that cows and sheep have no upper teeth : that cold water will dissolve more 
 salt or lime than hot water; that a gallon of water will dissolve more plaster 
 of Paris than it will of slaked lime which has been long enough exposed to 
 the atmosphere to become carbonate of lime. How many know that water 
 is at its mean of size when at 40° of heat — that if cooled below that tem- 
 perature it swells, until it becomes ice at 32°, and if heated above 40° it also 
 swells, until it eventually becomes steam, thus occupying more tlian 1,700 
 times its original space ? Still, all these are facts, and to minds generally 
 observant, they are well known to be true. 
 
 By observation you may learn why i-ain or pond water is better for plants 
 than well or pure spring water — that it is because it contains more carbonic 
 acid. Do not say you have no opportunity to learn facts that are only re- 
 corded in books. Let any farmer's boy devote the evenings of a single win- 
 ter to the reading of geology, entomology, chemistry, natural philosophy, 
 and natural history, and apply his acquired knowledge as an amusement, 
 while pursuing his vocation during the following summer, and he will find 
 
990 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 liimself able to ob.serve and comprehend thousands of incidents connected 
 with natural law which before would have passed by xmobserved. He will 
 then see and understand that the soil is but a debris of the rocks ; that in its 
 original formation this occurred from the combined influence of sun and air, 
 and changes of temperature by freezing and thawing, in rendering these rocks 
 a soil. He will see how the convulsions of nature have mixed the soils 
 of different localities; he will see, also, that the earliest vegetable growths 
 were necessarily grosser sorts than those now produced ; and that they, by 
 receiving carbon from the atmosphere — for the carbon originally must have 
 existed there in immense quantities in the form of carbonic acid — by their 
 decay deposited it in the soil, thus improving its quality and rendering it fit 
 for the development of a more advanced class of vegetation. lie will also 
 see where and from what causes animal life progressed, and can trace its 
 progress. He will clearly understand that such vegetable matters as were 
 consumed by animals merely change the arrangement of their 2:)articles by 
 such process, and that no one particle was put out of existence, but that by 
 the decay of these animals and the change of the arrangement of the nlti- 
 mdte particles, both of themselves and their food, that they re-enter nature's 
 great storehouse — the atmosphere and the soil — in a progressed condition ; 
 that thus both plants and animals have progressed to their present state. 
 
 lie will next be able to observe why deeply disintegrated soils can never 
 suffer from drouth, because he will know that when water is absent from the 
 soil it is present in the atmosjihere, and will be deposited on the surface of 
 colder particles, at greater depths than can be reached by atmosphere when 
 attempting to jjercolate shallow plowed land. lie can trace the action of 
 this moisture and its office in the soil ; he can know what amendments are 
 required to replace those which he may find to be deficient ; and, indeed, he 
 can render himself doubly happy and a better servant of his Creator, and liis 
 vocation afneliorating to his fellow-men. All this' must occur if he knows 
 so much of nature's laws as will give his mind the first ability for closer ob- 
 servance, and his progression as an individual will be the natural conse- 
 quence of its exercise. And this does not call for the tedious exertions of 
 thought as practiced by the mathematician and the merchant, but merely 
 for ther culture of the power of observation to see truths as they exist, and 
 apply them rightly ; and this, and nothing else, ho will find to constitute the 
 science of agriculture. 
 
 Keniember that plowing deep is the easiest way to enrich your farm. A 
 farmer who was unable to own or hire a strong team, adopted the plan of 
 running the same plow twice in one place, and is sure that the extra work 
 was much more than paid for by an increase of crops. By this plan he 
 plowed a stiff sward 12 or 14 inches deep, and got a good tilth on top of the 
 reverted sod which had remained undisturbed through several years of 
 previous cultivation, aud crops were more free from the effects of drouth 
 than ever before. 
 
 Boys should not neglect their country school, notwithstanding their fathers 
 
Sko. 61.] MAXIMS FOR FARMERS' BOYS. 991 
 
 allow it to remain (lie most neglected building of all that arc called public 
 ones, and frequently most uncomfortable and uninviting to cultivated minds, 
 and hence those of the least cultivation are employed as teachers. And 
 wliat is learned there? Just what the books teach — nothing more. The 
 child learns A, B, C. Tlio larger one finds the letters transposed, and spells 
 cab. The next advance is to learn the mechanical operation of forming a 
 resemblance to these letters with pen or pencil. Then the child reads that 
 one class of words are called nouns, another verbs, and a third adjectives. 
 And so on and on througli books and daily tiresome lessons, the child plods 
 up to maturity, and if particularly bright may be called " well educated." 
 Yet wliat of the surroundings of every-day life lias that child ever learned in 
 school ? Now, let a farmer go into the district school and ask of teaclier and 
 pupils these few simple questions — questions that involve things tliat might 
 be learned in school, but are they ? The answers to his questions Avill show 
 him whether they are or not : 
 
 What kinds of forest-trees grow indigenously in this neighborhood ? 
 
 Can you give their names, common and botanical ? 
 
 Which are the most useful, and what are their uses? 
 
 What useful and what noxious plants are most common ? 
 
 What plants are cultivated, and what for? 
 
 How many of these are indigenous ; where are those from that are not ? 
 
 What is the staple product of the neighborhood ? 
 
 What is the nature of the soil? Name its principal constituents. 
 
 What kind of rocks abound here, and are they in place; and if not, -where 
 did they come from ? 
 
 How many kinds of birds abound in the neighborhood, and are they iiseful 
 or injurious? Give their common and scientific names. 
 
 Do the same of quadrupeds, reptiles, and insects. 
 
 These are some of the things that might be learned in school, but rarelv 
 are. The subject is one worth a thought, and might be a good deal ampli- 
 fied and thought of, and not alone by farmers'' boys. The farmer himself 
 may well think of these facts. 
 
 Every country school should have as one of its standard books a "Manual 
 of Agriculture," an excellent new work just published under the sanction 
 of the State Board of Agriculture of Massachusetts, edited by Geoi'ge B. 
 Emerson and Charles L. Flint ; for it is full of practical information for the 
 school, the farm, and the fireside. It contains many things desirable for all 
 farmers' children to learn in school, and is admirably arranged for that 
 purpose. 
 
 "The Hand Book of Household Science" is another valuable school-book 
 which should be in extensive use. Both of the books named are of conve- 
 nient size for Schools, and both contain many things of great value not only 
 to pupils, but their teachers, who might learn many things that should be 
 taught and learned in all schools. 
 
 Among other things that boys and girls should learn at pcImoI are the 
 
992 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 names of the days, or, rather, why they are so called. They are all derived 
 from the old deities of the Saxons, each one of whom has a statue intended 
 to personify the idea of the being. For instance, the idol of the sun, which 
 gives name to Sunday, is represented with his face like the sun, holding a 
 burning wheel, with both hands on his breast, signifying his course round 
 the world. The idol of the moon, from which comes Monday, is habited in 
 a short coat like a man, but holding the moon in his hands. Tnisco pre- 
 sided over strife, litigation, combats ; so Tuesday, which derives its name 
 from Tuisco, was originally set apart for the commencement of combats, 
 assizes, and litigations. His statue is clothed in skin garments, such as were 
 worn by the old Scandinavians. Odin or Wodin, from which the name 
 of Wcdnesdaj^ is derived, was a valiant and much-loved Saxon prince, whose 
 name was revered as " universal father," and whoso image was invoked in 
 prayers for victory in battle. Thor — god of thunder — was the son of Odin, 
 and gives name to Thursday. His image is represented in a bed, holding a 
 scepter in his hand, with twelve stars over his head. Friga, from whence 
 we have Friday, was the wife of Odin, the goddess of hope, peace, fertility, 
 and riches, tliough represented with a drawn sword in the riglit hand and a 
 bow in the left. Saturday is said by some autliorities to be derived from 
 Saturn, and by others from the Saxon deity Sffitor. His image has a wretched 
 api'earauce, with thin visage, long hair and beard, with a pail of wafer and 
 fruits and flowers in his right hand. 
 
 Tlie names of the months come from the Komans. 
 
 The first was so called from Janus, an ancient king of Italy, who was dei- 
 fied af'fer his death, and derived from the Latin word Januarius. 
 
 February is derived from the Latin word Fehruo, to purify, hence Fehrvr 
 arius ; in this month the ancient Komans otfered up exniatory sacrifices for 
 the purifying of the people. 
 
 Marcii was anciently the first month. The name is derived from the word 
 Mai's, the god of war. 
 
 April is so called from the Latin Aprilus, i. e., opening — because in this 
 mouth the vegetable world opens and buds forth. 
 
 May is derived from the Latin word Ifajores, so called by Romulus in 
 respect toward the Senators; hence Maius or May. 
 
 June, from the Latin word Junius, or the youngest of people. 
 
 July is derived from the Latin word Julius, and so named in lionor of 
 Julius Caesar. 
 
 August was called in honor of Augustus by a decree of the Roman senate. 
 
 Septembei', from the Latin word Septein, or seven, being the seventh from 
 March. 
 
 October, from the Latin word Octo, the eighth. 
 
 November, from the Latin word Novem, nine. 
 
 December comes from the Latin Decern, ten, numbered so from the Roman 
 first month, March. 
 
 Boys should learn the nature of minerals ; that salt is one as tnuch as 
 marble, and like it is quarried from deep mines. " Liverpool salt," is rock 
 salt refined. In its mineral state it is not white, but has a pinkish hue. 
 
Seo. 61.] THINGS TO BE THOUGHT ABOUT. 993 
 
 Until refined it is not good for the dairy ; that is true, however, of all man- 
 ufactured salt. In Cracow, Poland, there are great salt mines, wonderful as 
 a curious work of human industry. 
 
 Boys, do you know the size of a square acre? You can only learn to 
 estimate the area of a field by comparing its size with a well-known plot, 
 Select a level spot, clear of trees and fences, and measure a square 208 feet 9 
 inches upon each side, and set up stakes at the corners, and exactly halfway 
 between. That gives you the size of an acre and quarter acre. A half acre 
 is liTi feet square ; fourth of an acre, 104i feet square ; an eighth of an acre, 
 73 1 feet equare. 
 
 1151. Things to be Thought About. — There are a great many useful little 
 things which need to be stored up for farmers' use. For instance : What 
 is the diflerence between the gross and net weight of a hog ? We have told 
 you, iu Ko. 17, that in dressing, hogs lose one fifth. That is the general rule ; 
 but it varies with quality and condition. Some smooth, small-boned, well- 
 fatted hogs lose only 13 or l-i per cent. Some calculate shrinkage at 20 per 
 cent, on the first cwt., 17 per cent, on the second, and 12 per cent, upon all 
 above that. One calculation, for a hog of 260 lbs., live weight, is 7 lbs. of 
 blood, 32 lbs. oflal, leaving 220 lbs. net weight. If a hog of 275 lbs. net 
 weight is cut up, the several parts will weigh as follows : Head, 24 lbs. ; 
 shoulders, 29 lbs. ; hams, 42 lbs. ; sides, 90 lbs. ; lard, 17 lbs. ; lean meat, 
 scraps, and bones, 73 lbs. — 275. The proportion is .thus seen to be, head, 
 nearly one eleventh ; hams and shoulders, a little over one fourth ; sides, or 
 clear pork, nearly one third ; bones, etc., over one fourth. The hog, at G 
 cents a pound, would amount to $16 50, and make the value of the several 
 parts as follows: head, at 3 cents, 72 cents; shoulders, at -6 cents, $1 74; 
 hams, at 7 cents, $2 94 ; sides, at 9 cents, $8 10 ; lard, at 9 cents, $1 53 ; 
 lean meat, etc., at 2 cents, $1 46— $16 49. 
 
 There are a few simple rules in the philosophy of fertilization that farmers 
 should think of, talk about, experiment upon, and act accordingly. One is, 
 that all non-volatile substances, such as lime, plaster, salt, bone-dust, niti'ates 
 and phosphate, should always be applied upon the surface, because their 
 natural tendency is to descend by the laws of gravity. Volatile ma- 
 nures only require to be covered to prevent evaporation. Lime sinks lower 
 than roots. Lime, ashes, or clay are, each or all, beneficial to sandy soil. 
 Clay to sand is better than sand to clay. Limestone land retains heat, 
 and is therefore best for crops that require continued warmth during a short 
 season. 
 
 " There was frost upon the bottom lands, but none on the hills " Why ? 
 This is a subject for thought, and, as it is a natural eflTect, it should govern 
 the planting of tender crops. The reason is, that the bottom land is usually 
 of darker color than hill land, and it is generally supposed that it radiates 
 heat more rapidly than lighter-colored soil. 
 
 Dry peat, or muck, will absorb four times its own weight of water. 
 
 It requires four pounds of clover to make one pound of mold ; and a tun 
 
991 TUE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 of dry forest leaves will make 500 lbs. of mold ; and that mold will produce 
 a tun of forage plants. 
 
 Phospliorus is found in all plants, and is a necessity of the growth of many 
 of those most useful to man. Commercially, phosphorus is valued at four 
 or five thousand dollars a tun. Of course, it can not be used in that form 
 for agi'iculture. It can in the cheaj) form of phosphate of lime. 
 
 Soft water is jn-eferred by most animals. A beast will often show a pref- 
 erence to a pond of foul water that is soft, rather than to a cool spring that 
 is hard. Some stable-men, who have none but hard water, always keep it 
 exposed to the air, in a tub or trough, some time before it is used. 
 
 A kettle is not a necessity in heating water. It may be heated nearly 
 boiling hot in any wooden vessel, by hot stones, or a lump of cast iron. 
 This plan is very useful in scalding hogs. An iron weiglit of twenty-live 
 pounds, with a ring for handling, is a good form, and with it a given quan- 
 tity of water can be heated quicker than with an open kettle. 
 
 A machine belt of leatiier should never be put on with the flesh side to the 
 pulley, because it will wear longer the other way. 
 
 "What is the strength of a man? Or what is it compared with a horse? 
 Farmer, do you know ? Have you ever thought of it? It is very important 
 for you to know how much labor you can perform, or how much you have a 
 right to expect of hirelings. The result of many experiments by scientific 
 men is that, on the average, an active, healthy man, of about 150 lbs. weight, 
 can walk 264 feet per minute, working ten hours daily, and make 30 miles 
 a day, upon level roads. If he mounts stairs, he walks only one tenth as 
 fast, and is unable to continue the labor more than eight hours a day. If he 
 carries 90 lbs. upon his back, ho can move only 132 feet a minute, or one 
 and a half miles an hour, and continue seven hours "a day. If he climbs a 
 stair with 150 lbs. on his back, at the rate of seven feet per minute, he can 
 work only six hours a day. If a man works Avith a wheel-barrow, carrying 
 loads a distance, and returning empty for a new load, he may carry 130 lbs., 
 at the rate of 90 feet a minute, ten hours daily. The absolute force of trac- 
 tion which a man can continue ten hours a day, by a rope passing over his 
 shoulder, at the rate of two miles an hour, is given at 75 to 132 lbs. The 
 greatest velocity at which a man can walk varies from i^ to 6J miles per liour. 
 The proportion of strength exerted by a man at different employments is 
 as follows: Working a pump, 100; working a winch, 167; ringing a bell, 
 228 ; rowing a boat, 2iS. Tiiis shows the importance of arranging all machin- 
 ery to be operated by manual labor so that the operator can exert his strength 
 to the greatest advantage. If a pump was rigged so it could be worked ex- 
 actly upon the same principle as the row-boat, the man would be worth nearly 
 two and a half times as much as at the handle of one in the ordinary way. 
 
 The average strength of men varies in different countries. In England it 
 is given at 71.4:; France, 69.2; Yan Dieman's Land, 51.8; New Ilnlland, 
 50.6. Strength and activity must not be confounded; nor activity and 
 weight. If two men of equal strength and weiglit contend, one may pull 
 
Seo. gi.] things to be thought about. 'J9o 
 
 tlic other oif his feet. Let one take a third man under his arm, of equal 
 weight to liimself, whicii would appear to be a sufficient load, jet he will 
 not only carry it, but pull his aniagoiiist easily after him across the room. 
 
 The strength of a horse is variously estimated as compared with man. 
 That is, one horse is estimated as equal to from five to fourteen men. In 
 the estimates of the power of a liorse, compared with the power of a steam- 
 engine, Watt fixes the horse-power at his ability to raise 33,000 lbs. per 
 minute, the weight being attached to a rope over a pulley. An engine that 
 can do the same is rated as one-horse power. Its real power is greater, be- 
 cause thef engine has the greatest power of endurance. 
 
 Men and animals acquire, by practice, great powers of muscle and endur- 
 ance. A brawny London porter walks three miles an hour, with two or 
 three hundred pounds upon his shoulders. Doctor Windship, of Roxbury, 
 Mass., lifts a tun attached to a strap across his shoulders, and he is not a 
 brawny man. A horse will endure more labor, though necessarily working 
 harder, traveling in a hilly country than upon a plain. The power of a horse 
 harnessed in a wagon is calculated at 770 lbs., drawn at the rate of 433 feet 
 per minute, 4J hours per day, day after day, without exhausting his power. 
 Tliis is about 22 ' miles per day. 
 
 For carrying loads on a plane, a man is rated 1 ; a horse, 4.8 to 6.1. For 
 transportation in wheel-carriages, a man is rated 1 ; a horse, in four-wlieel 
 carriage, 17.5 ; in two-wheel cart, 24.3. A mule, with cart, 23.3 ; an ox, with 
 cart, 12.2. 
 
 Another authority gives the following as the units of man and horse power : 
 An active man, in the prime of life, can raise 100 lbs. one foot per second, 
 working ten hours per day ; a horse can raise 550 lbs. in the same space 
 of time. 
 
 These "things to be thought about'' should be thought of more than they 
 are by all farmers. So should " What food will produce the most strength ?" 
 Eace-horse men say that broken grains of hulled Indian corn, with corn- 
 leaves, are the best food. Workers of horses think that they will do the 
 .most work, where action of muscle is required, if fed on oats. It is also 
 said that five piounds of corn will make a pound of beef; and that three and 
 a half pounds of corn-meal will make a pound of pork. Yet who knows ? 
 We know that all should inquire. 
 
 1152. How to Dress Fur-Skins, or She>p-Skins nidi the Wool on. — Take 
 equal parts of salt and alum, pulverized, and sift about four (lunccs upon the 
 flesh side of the skin, while fresh from the bodj- — or, if dry, after being 
 moistened — and then fold it xip carefully, and keep it in a damp place about 
 four days; then open it, and lay it on a table, and scrape it with a dull 
 knife, to get all the adiieriug flesh off, and then rub it with a blunt wooden 
 instrument, until it is drj' and soft. Then thoroughly wash it in warm soap- 
 suds, let it dry moderatel}', and just before it is fully dry, rub it soft with 
 your hands. After rubbing, it is soft and pliable as a kid glove, and will 
 continue so. Another plan isf to nail tiic skin tightly and smoothly against 
 
996 THE GLEANINGS OF THE FIELD. [CnAP. XV. 
 
 a door, keeping the flesh side out. Next proceed, with a broad-bladed, 
 blunt knife, to scrape away all loose pieces of flesh and fat ; then rub in as 
 much chalk as possible, and be not sparing of labor; when the chalk begins 
 to powder and fall ofl", take the skin down, fill it with finely-ground alum, 
 wrap it closely together, and keep it in a dry place for two or three days ; 
 at the end of that time unfold it, shake out tlie alum, and the work is over. 
 
 1153. How to Dress Skius Soft, like Buckskiu.— Take the skin fresh from 
 the animal, and stretch it tightly upon a board, and scrape ofl" all the flesh 
 that will come off easily. Then warm two quarts of milk, and mix in a tea- 
 cupful of salt aud half an ounce of oil of vitriol. In this mixture soak the 
 skin about forty minutes, stiri'ing it and keeping it warm. Then take it out, 
 and stretch aud rub it over the smooth edge of a board, working it till dry. 
 Tlie Indians dress all their deer-skins by soaking them in a paste made of 
 brains, and, after rubbing them, drying them in smoke. 
 
 1151:. How to Prepare Fur-Skius for Market. — In the first place, carefully 
 avoid getting blood or dirt upon the fur before skinning. If that is una- 
 voidable, carefully clean and dry it before you take off tlie ]2elt, which, of 
 all small animals, such as mink, fox, weasel, cats— wild or tame, muskrat, 
 fisher, otter, rabbits, squirrels, sliould be taken oft' without ripping down the 
 belly, and no bones should be left in legs or tail, and no flesh left adliering 
 to the pelt. This must be carefully scraped or picked off, before oi'after 
 the pelt is stretclied, which is best done upon a thin, smooth board or shingle, 
 cut a little tapering, upon which the skin sliould be turned inside out as 
 soon as it is stripped from tlie body, and drawn smooth and tight, and tacked 
 fast, -and tlien hung up to dry in the air or in the smoke, w^th but little heat 
 from the fire. If you are in the woods, or where you can not get boards or 
 sliingles to make your stretchers, you must adopt the Indian's mode, and 
 stretch your pelts upon a bow made of a hickory sprout, or other tough 
 wood, which, after trimming perfectly smooth, you will slightly notch in 
 tlie middle of the length, and bend toward the notch. Then, half way from 
 the nose end, cut two notches and insert a brace, which will be held in place 
 by tying a string around the ends, so as to bring tliem just near enough 
 together to suit the size of your pelt. It is sometimes necessary to put in 
 two or more braces, to hold the sides of the bow firm, and wide enough 
 apart to stretch the skin into a good shape and to the utmost tension, which 
 adds to its value. It is not necessary to stretcli skins fur side out to show 
 the quality. A good judge can tell a good pelt as soon as he sees the flesli 
 side. Well-handled skins will always sell for 10 to 25 per cent., and some- 
 times 50 per cent., more tlian similar skins badly handled. What we mean 
 by the technical term " well-handled" is, the preparation of the skin, which 
 is a very simple matter to those who Tcnow how. If you wish to dress the 
 skins for home use, follow tlie directions of 1153. using less materials and 
 more labor, in proportion to size of pelts. 
 
 1155. Farmers Should Use Rawhide. — A skin of an animal, M-hether cow, 
 calf, colt, or horse, that dies on the farm, is worth more" at home than at the 
 
Seo. gi.] protection for horses and drivers. 997 
 
 tanner's. Cut tlieni into narrow strips, and shave off the hair with a sharp 
 knife, before the kitchen fire or in your work-shop, stormy days and even- 
 ings. You may make them soft by rubbing. A rawhide lialter-strap an 
 inch wide will hold a horse stronger and last longer than an inch rope. It 
 is stronger than hoop-iron, and more durable, and may be used to hoop dry 
 casks and boxes, and for hinges. Try it upon a broken thill, or any other 
 wood-work that i^ splintered. Put it on wet, and nail fast. Thin skins 
 make the best bag-strings in the world. A rawhide rope is a good substitute 
 for a chain. It is valuable to mend a bi-oken link in a trace-chain. For 
 some purposes it is best to use it in its natural state. For other purposes it 
 may be dressed soft. 
 
 1156. Oiliug Harness and Boots. — Oils should not be applied to dry leather, 
 as they would invariably injure it. If you wish to oil a harness, wet it over- 
 night, cover it with a blanket, and in the morning it will be dry and supple ; 
 then apply neat's foot oil in small quantities, and with so much elbow-grease 
 as will insure its penetrating throughout the leather. A soft, p>liant harness 
 is easy to handle, and lasts longer than a neglected one. One authority says : 
 "Never use vegetable oils on leather; and among animal oils, noat's-foot is 
 the best." Another says: "The very best oil for all applications to leather 
 is the common castor-oil. One of the reasons of its value is, that it has less 
 tendency to harden or thicken the leather, as neat's-foot and other animal 
 oils do. Leather that has been frequently saturated with any kind of animal 
 fat and exposed to water, as boots and harness are, instead of remaining pli- 
 able, becomes hard and dry, losing its elasticity, and finally becoming brittle 
 and worthless; but that which is oiled with the extract of the Palma Christi 
 bean, and in a less degree with flax-seed oil, appears to retain its fibrous 
 toughness a great deal longer. The oil is naturally viscid, and, containing 
 some glutinous matter, serves a better purpose than animal oil to exclude 
 water, which, when absorbed by the leather, is the real cause of its inelas- 
 ticity. Castor-oil, if bought by the gallon, is not expensive. It was manu- 
 factured a few years ago in Illinois, and sold at fifty cents a gallon ; and the 
 beans were grown as a field crop, at fifty cents a bushel. It is well worth 
 while for farmers to give castor-oil a trial as a lubricator of leather." 
 
 1157. Lubricating AxlcSi — ^Take three pounds of tallow, one of lard, and 
 one of fine black lead, and two ounces of India-rubber, cut in shreds ; beat 
 them together until they are completely mixed, when it makes a most excel- 
 lent anti-friction grease for the axles of wagons. And when you can not get 
 these materials, make a paste of wheat flour in oil, and it will answer nearly 
 as well. Powdered soap-stone and oil are excellent. 
 
 1158. Protection for Horses and Drivers. — At the South they have " buggy 
 umbrellas." They are made just like the common umbrella, with a staff 
 four or five feet high. In the bottom of the wagon is a socket, which liohls 
 the end of the staff when in use. At other times it is laid down, or carried 
 into the house, like any other umbrella. Every carman might have just 
 such a one, without interfering at all with his load. Every stage-driver 
 
998 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 should have one, to protect him both from sun and rain. They are real life- 
 preservers, liealth-promoters, and preventives of excessive drinking. Every- 
 body wlio rides in open wagons, in city or country, should liave a wagon- 
 umbrella. It is much better than a top-wagon, because lighter. It would 
 also be good economy for every farmer to have a water-proof covering 
 for each wagon-horse, to protect him from sudden showerS M'hen heated, and 
 at all times from cold, drenching rains. '* 
 
 1159. llOM' to Fix Chaiu Plliaps. — Chain pumps frequently get out of order, 
 in consequence of too great length of chain. If a chain should be of the 
 correct length when it is new, after it has been in use for a year or more, 
 the reel, the links, and the roller in the bottom of the well become worn, so 
 that the chain will be several inches too long, and in consequence of which 
 the cliain will often become entangled at the bottom of the well, and will 
 stop the motion of tlie pump very often and very suddenly. In such a case, 
 open links of the chain, and take out enough to make the chain as tight as 
 it was originally, and tlie pump will work as well as ever. 
 
 1160. How to Blend an Aqueduct Pipe. — IIow to solder a lead pipe witli a 
 head of Mater on is a secret worth knowing. We have known instances where 
 the knowledge imparted in this item vroiild be worth much more than the 
 coit of this volume. Repairing jjipes, whether lead or other material, under 
 a pressure of fifty feet of water, that can not be shut off, is a serious under- 
 taking ; but see how easy ! A lead pii^e Avas accidentally cut apart by a 
 spade. No one knew how the water could be shut off without going a long 
 distance, and then it M'ould stop the supply of many persons connected with 
 the same line of jiijies. An ingenious plumber was sent foi'. lie iirst stopped 
 the flow by a wooden plug. Then he called for broken ice and salt. " lie 
 is going to freeze icecream," said a little boj', who knew the philosophy of 
 tliat operation. Ko, he is going to place the ice and salt around tlie pipe, 
 and freeze the water solid. It was done in a few minutes.. In tlie mean 
 time he had added a short piece of pijje to the empty part, and as soon as 
 the ice-plug was perfect, lie withdrew the wooden one, and in one minute 
 had made a soldered joint. In live minutes more the ice-plug melted, and 
 on to its destination flowed the living current. 
 
 1161. Do Fogs in January Indicate Frosts in May?— Such is the popular 
 belief witli many i)eoplo. To show that it is not well founded, we give the 
 statement of a writer in the Country Gentleman, who says : " On looking 
 over a record for the past seventeen years, I can not find anything on which 
 to base such an assertion. It is true, as a general thing, we liave fogs in 
 January, and also true, as a general thing, we have frosts in May ; but we 
 have Ir-'d man}' a January with neither fog, rain, or mist, -while in the May 
 that r..,i)wed we have had frosts and hard freezes. We will take tlie past 
 five years, wliich will prove as much as tlie seventeen, and see what relation 
 the frosts of May have to the fogs of January. In the year 1S57, we Iiad no 
 days that could be called foggy, rainy, or misty, in tlie month of January, 
 but in j\r;;y wo liad cold weather. There were frosts on the mornings of the 
 
Sec. 61.] WEATHER PROGNOSTICS. yO!> 
 
 8th, lOth, 12tli, IStli, 16th, 17th, and 18th. Snow fell on the 10th and ITth, 
 and ice one eighth of an inch in tliickness was fonnd in vessels containniL;- 
 but little water on the morning of the 10th, and one fourth of an inch on tiio 
 inornings of the 11th, 17th, and 18th. Wo had also a heavy frost in June, 
 killing almost every green thing. In the year 1S58, on the 11th of January, 
 we had fog, and on the mornings of the 3d, 11th, 13th, 16th, 22d, and 23d 
 of May we had frosts, more or less. In 1859 we had fog on the 7tli of Jan- 
 uary, and on the 23d of May we had a slight frost. In 1860 there was 
 fog on the 7tli and 11th of January, but in the month of May we had no 
 frost, and it was the warmest month of May that we have had ia the seven- 
 teen years I have recorded. In 1861 we had no fog, and not a day that 
 could be called rainy or misty, in January ; but iu May we had frost on the 
 2d, 3d, 29th, and 30th." 
 
 1162. Weather ProgiiosticSt — Every farmer should have some settled rules 
 upon which he could safely calculate the prospects of the weather. It would 
 be highly economical to a farmer if he would carefully study all the prog- 
 nostics of the seasons, and such as indicate changes in tlie weather day by 
 day. The nse of the barometer is of doubtful utility to the farmer, but there 
 are many homely barometrical signs that should not be neglected. The 
 changes of the wind ; the course of the clouds ; the smoke beating to the 
 ground ; the circle around the moon ; the flight of birds, both wild and do- 
 mestic ; the hurrying home of bees when a sndden shower approaches ; the 
 actions of domestic animals, swine in particular ; the acute pains felt by rheu- 
 matic persons at the approach of storms ; the absence or excess of moisture 
 in the atmosphere, as indicated by the rapid evaporation of boiling water 
 when the air is dry, or ready condensation upon the cold-water pitcher when 
 it is moist ; the peculiar sighing of the wind ; the turning up of the leaves 
 of the forest before a storm, and many more indications of change, should a!l 
 be studied, better understood, and used to the farmer's benefit. Every chim- 
 ney is as good an indicator of the changes of weather as any cheap barometer. 
 If smoke is heavier than the atmosphere, it will, of course, fall to the ground 
 as soon as it is disengaged from the heat which forces it through the chimney. 
 When the fire is made in the morning, if the smoke is seen on the ground 
 near the house, we may conclude foul weather will soon follow. The follow- 
 ing sensible thoughts and words arc from F. K. Phenix, of Bloomingtou, 111. : 
 
 " How curious and humiliating that, after living in the world, as men 
 have, for thousands of years, and learning about almost everything else, we 
 should yet be in total darkness as to the character of the forthcoming seasons. 
 Governed as they are by immutable laws, with historic records and scientific 
 observations at command, Avhat walking clods we are as to the impending 
 weather! What immortality is there yet in store for some Storm-King, who 
 shall unlock this mighty weather-vault, and hand over the key to his de- 
 lighted fellows ! If there be one vvell-ascertained fact in regard fo the weath- 
 er, why not make that a basis for other scientific calculations and deductions ? 
 For instance, it has been stated that thei'e is every year about the same an- 
 
1000 
 
 THE GLEANINGS OF THE FIELD. 
 
 [Chap. XV. 
 
 nual mean of temperature. Now, if this be tlie fact, how easy to foretell 
 the general temperatiire of the last three or six months in each year from 
 that of the preceding months ! Will not the mvans please figure up, and 
 tell us what we may expect in future ? It is also said that one extreme fol- 
 lows another. How natural, then, to infer that, after such a series of dry 
 seasons as we had in Illinois in the five years preceding 1S5S, that we should 
 that year get terrible rains ; after which, drouths again, against both of 
 which extremes farmers should provide, by thorough draining and deep 
 culture. Here at the West, the weather doubtless has, in the matter of wet 
 and dry, its cycles or periods — a very wet season occurring every six or seven 
 years. Then might not this wet season have been anticipated? If naviga- 
 tors may know the tides of ocean, why may not we poor, water-logged lands- 
 men know something of the great air-tides that give us fair or foul weather?" 
 Much, too, may be learned by careful observations of the thermometer. 
 Look at this table of average in New York for ten years : 
 
 1849. 
 
 Aggregate averages 718. 
 
 Average of fifteen days ... 48 . 
 
 This shows an average of temperature for the last period 3i° above the av- 
 erage. A careful observer would at once conclude, " This will be a good 
 year for fruit ;" and so it proved. 
 
 1163. Gestation, Periods of, and Proper Time of Reproduction.— The follow- 
 ing table is compiled from good authority, and may be useful to young farm- 
 ers. No exact period can be stated, however; for M. Tessier, of Paris, 
 kept a record of 582 mares that copulated but once, and found the period of 
 foaling varied from 287 to 419 days, making a difference of 132 days, and 
 in the lowest number falling short of the usual time of eleven months by 47 
 days, and in the longest, overrunning the allotted time by 85 days ; so you 
 need not despair of your mare, cow, or other animal, if it does not bring 
 forth at exactly the time fixed upon. 
 
 TABLE OP PERIODS FOR SEVERAL AKIMALS. 
 
 1850. 
 
 1851. 
 
 1852 
 
 .1858. 
 
 1S54. 
 
 1855. 
 
 1866. 
 
 1S6T. 
 
 1858. 
 
 775 . 
 
 .786 . 
 
 ..782. 
 
 .768. 
 
 .754 . 
 
 .739 . 
 
 .708.. 
 
 ..752.. 
 
 ..810 
 
 51S. 
 
 . 52J. 
 
 . 52. 
 
 . 51. 
 
 . 50 J. 
 
 . 49i. 
 
 . 47.. 
 
 .. 50. 
 
 .. 54 
 
 Proppr age Period of the 
 Kinds op for Power of 
 
 Animals. Eeproduction. Eeproduction. 
 
 Years. 
 
 Mare 4 years 10 to 12 ... 
 
 Stallion 5 " . . . . 12 to 15 . . . 
 
 Cow 3 " .... 10 
 
 BuU 3 " .... 5 
 
 Ewe 2 " .... 6 
 
 Tup 2 " .... 7 
 
 Sow 1 " 6 
 
 Boar 1 " 6 
 
 She-Goat 2 " 6 
 
 He-Goat 2 " .... 5 
 
 She-Ass 4 " . . . . 10 to 12 . . . 
 
 He-Ass 5 " .... 12 to 15 ... 
 
 She-Buffalo . . . 
 
 Bitch 2 " 8 to 9 ... 
 
 Dog 2 " 8 to 9 ... 
 
 She-Cat 1 " 5 to 6 ... 
 
 He-Cat 1 " .... 9 to 10... 
 
 Doe-Rabbit 6 months 5 to 6 . . . 
 
 Buck-Eabblt 6 " 5 to 6 ... 
 
 Number of The most 
 
 Females favorable season . — Period of Ges'ation. — . 
 to one Male, for Copulation. Shortest. Mean. Longest; 
 Days. Days. Days. 
 287 
 
 20 to 30 . 
 30 to 40 
 40 to 50 
 6 to 10 . 
 20 to 40 
 
 .May. 
 . July. 
 .Nov. 
 
 240 
 146 
 
 .March 109 
 
 .Nov. 
 .May. 
 
 150 
 365 
 
 281 
 55 
 
 347 
 283 
 154 
 115 
 156 
 
 419 
 
 321 
 
 161 
 
 143 
 
 1G3 
 
 391 
 
 335 
 63 
 
Sec. Gl] WHITE BEAFS. 1001 
 
 1161. The Cultivation of Wliite Beans as a Field Crop.— It is often said of a 
 man, " lie don't know Leans." If it was said he don't know how to grovi' 
 them, the assertion would be often true. Wo do not know that wc do, but 
 we do know how to cure them. Here it ia. 
 
 1165. How to Cure White Beans- — There is no crop that gives more trouble 
 to the farmer in curing than beans, which from being late planted because 
 grown among corn and from the shade, are often as green as ever at the 
 time they must be harvested. With a good deal of trouble in hanging the 
 vines on the corn, they will cure if the weather is propitious. Then they 
 must be handled again and the whole carried by hand out one side of the 
 field. Sometimes they are carried out in the iirst place and spread on fences, 
 head lands, or green sward, to get them out of the way of cutting np the 
 corn. This is hard work, and often proves labor lost, for if the season proves 
 wet, the green vines will not cure, and the dry buds are often molded and 
 beans blackened by the attempt to dry the vinos. Now, if planted alone, 
 there need be but one handling after pulling, and that will be to put them 
 on the wagon, cured in the most perfect manner. We afBrm that there is 
 no crop grown that can be cured easier than white beans, no matter how 
 green the vines when pulled. To do this, take some stakes about five feet 
 long — old garden bean-poles will do— and go through the field and set as 
 close together as your present experience will tell yon is necessary. Place 
 any old trash, such as coarse weeds, sticks, sods, or stones around the bottom 
 of the poles to form a raised bed as yon would for a hay-stack bottom, and 
 then pull your beans and stack them in a single course around the stake, the 
 roots inward, and dryest vines at the bottom and a tangled bunch at the top 
 to hold the stack to its pole, and your beans will cure and look clean and 
 bright, and the leaves and pods will be eaten with great avidity by the 
 sheep. There is no other inexpensive way to cure field beans. 
 
 1166. Suitable Soil for White BeanSt— There is no crop that will produce so 
 well as Avhite beans upon a thin gravelly knoll. We have seen twenty 
 bushels of beans per acre upon land that would not produce twenty bushels 
 of corn, if stalks and all were measured. They do not produce well ujiou 
 rich soil, running too much to vines. 
 
 1167. Growing Beans among Corn, — We are opposed to planting beans with 
 corn, except solely to fill up vacant spots, because we do not think there is 
 anything gained by planting the two crops together. The practice orig- 
 inated in early times, when cleared land was scarce, and when the soil was 
 rich, and when it was an object to get as much food oflP one acre as possi- 
 ble, because the owner had no other ground that he could use ; and so the 
 practice has come down to the present day, each generation following it be- 
 cause " father did so," without even inquiring why. In our opinion the 
 most advantageous course to pnrsue for a profitable bean crop, is to plant 
 the seed upon land that it would not be profitable to use for Indian corn, 
 making the rows in drills about twenty inches apart, and mannring them 
 with fine compost to give them an early start and vigor while young, rather 
 
1002 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 than a large growth of vines, M'hich they get among corn. Beans mast 
 never be worked while wet with rain or dew, and that is a good reason for 
 keeping them away from corn, for that may bo worked to good advantage 
 wlien dripping wet. The only advantage, besides the two crops npnn one 
 surface, that we ever heard contended for by planters of beans among corn, 
 is the convenience of curing the vines upon the cornstalks. 
 
 1168. Hop Culture. — The hop is a hardy perennial, of easy cnltivation, and 
 will grow in any part of the Union. It requires a deep, rich, mellow soil, 
 with a dry, porous, or rocky sub-soil. The exposure in a northern climate 
 should be toward the south, as on the slope of a hill, or in any well-sheliered 
 valley. It may be propagated by seeds or by divisions of the roots; but it 
 is more usual to plant tlie young shoots which rise from the bottoms of the 
 stems of old jDlants. These are laid down in the earth till they strike, wlien 
 they are cut off and planted in a nursery-bed. Care must be taken to have 
 only one sort of hops in one plot, that they may all rijien at the same time. 
 The ground having been pi'ejjared for planting, it is divided by parallel lines 
 si.x feet apart, and short sticks are inserted into the ground, along the lines, 
 seven feet distant from each other, and so as to alternate in the rows, as is 
 frequently done with fruit-trees and other plants, in Avhat is called the quin- 
 cunx form. By this method, every plant will be seven feet from each of its 
 neighbors, although the rows will be only six feet apart, and thus one eighth 
 of ground will be saved. Fresh dung should never be applied to hops. A 
 watering with liquid manure will greatly assist their taking root. During 
 their growth the ground should be well hoed, and some of the fine mold 
 thrown np around the roots. Any good corn ground will produce hops. Tlie 
 roots are nsually planted in corn land and grow with the corn the first year. 
 They produce the second year $300 to $400 per acre at 35 cents per pound. 
 Liberal applications of manure are needed, and they do not affect the quality 
 of product, as is the case witli tobacco. Besides farmyard dung, wool, hair, 
 bones, plaster, lime, and ashes are all useful fertilizers. In England, the 
 Kent aTid Sussex hop-growers calculate upon spending about $50 per acre 
 for special manures, in addition to what of the ordinary kind they make on 
 the farm. With such care, they have hop plantations 300 years old. The 
 ground must be trenched and worked deeply. About 1,200 liills is the 
 proper number per acre, and for each 200 hills there should be one hill 
 of male plants. When jiicked, the hops should be at once dried, and this is 
 better done by passing a current of hot air over them than in placing them 
 in a room where they get only the radiated heat from a stove. 
 
 1169. What Constitutes the Value of Hops.— The yellow powder of the flow- 
 ers contains all the value of hops. It is not in the leaves; they are good for 
 nothing. If the powder, lujyulin, was separated from hops and put up in 
 soldered cans, there would be no need of transporting the bulky material 
 of hop bales. Liebig recommends exposing hops to the fumes of sulphur, 
 as thus the lupulin, or active j)rinciple, may be preserved from one season 
 to another. The practice is opposed by some, but adopted by many of the 
 
Seo. 61.] TEASELS AS A CROP. 1003 
 
 best Muiiicli brewers. The bop crop varies' from year to year to such an 
 extent that the price is very fluctuating, and even in a single season or a 
 month may make a difl'crence of 100 per cenf. 
 
 1170. Growing Hops wilhout PoIeSi — The great expense in prepai-ing a liop- 
 yard is a good set of poles. To avoid this, posts have been set and wires 
 drawn across the yard, and vines trained up on strings fastened to a stake at 
 the hill, and to the wire at top. In France, a hop-grower has discovered 
 that lie can train liis hoi3 vines horizontal to a low trellis. The French Acad- 
 emy' recommend this plan because it enables the grower to investigate the 
 plant while growing, and cleanse it from the numerous insects which injure 
 it to so vast an extent; then it is protected frona the sun, which always 
 destroys the xipper shoots ; it obviates the great destruction of hops in stormy 
 weather, when the wind lays low whole hop-grounds from the hight of the 
 poles ; and most of all, it enables tlie gathering of the cones to take place 
 without uprooting the plant, besides permitting the selection of the ripest 
 ones at fii-st, and preventing the great loss which arises from the necessity 
 of tearing down the whole plant to get at the rijiest blossoms. 
 
 1171. Teasels as a Crop. — It is worth while for farmers to consider whether 
 teasels as a crop are not woi'thy of more attention. \Ve have seen it stated 
 that a fair average crop is 200,000 burs per acre, and we think a fair average 
 price is $1 50 a thousand. Their cultivation is not a new thing in this 
 country, though but ^ttle attended to. Nor is it difficult. A Mr. Wells 
 (N. L., we think), of East Windsor, Conn., has grown them many years, and 
 found them profitable. The most suitable soil is a rich clayey loam, of rather 
 a moist nature, such as would produce two tuns of hay per acre. The best 
 preparation is to grow potatoes upon the turned sod without manure ; the 
 next spring manure heavily, plow eight inches deep, pulverize the soil thor- 
 oughly with a cultivator, and then level smooth with a bush-drag. The 
 seed, after soaking one night, is rolled in plaster, and dropped by liand in 
 shallow drill marks, thirty inches apart. It should be sowed very tliick, 
 sometimes half a bushel per acre, as it vegetates badly. Like cotton or 
 broom-corn, if too thick it is " thinned to a stand." The time of planting 
 is when the ground is in good order, about the first of June. Do not cover 
 the seed more than half an inch deep with fine earth, but press it liard with 
 " a spatter," made of a plank, with a convenient handle. In about two 
 weeks the rows can be seen, when a band or horse hoe must be put to work. 
 At the second hoeing the plants may be thinned out, leaving them four or 
 five inches apart. The after-culture is to keep the ground absolutely clean 
 till about the middle of jSTovember, when the plants are covered with straw, 
 held in place by dirt, to remain till first of May, or till freezing nights are 
 past, when the plants are uncovered and weeds kept down till the plants 
 grow, as they soon do, to cover tHe ground closely. Soon after the flowers 
 drop, the burs must be cut with stems about four inches long, and carried to the 
 drying-house, where they are spread upon open-work shelves of slats, poles, 
 or small rails in tiers one above another, so as to give a free circulation of 
 
1001 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 air. They may be placed a foot thick upon shelves of this sort. A good 
 hand can cut 15,000 or 20,000 a day, but the harvest should commence by 
 the time half the flowers in a field are off. The top burs drop their flowers 
 first ; these arc called " King," but are not quite as good as the burs next 
 below, whicli are called " Queens." A stalk has from four to six No. 1 
 teasels, and twenty to thirty, and sometimes fifty whicli are merchantable. 
 The most common method of disposing of the teasel stalks is by mowing, 
 drying, and burning on the ground. Two crops in succession generally do 
 well, but more than that is not recommended. 
 
 1172. Prices in Counecticut a Hundred Years aso. — From a curious and in- 
 teresting document fully published in the The Homestead, at Hartford, 
 Conn., we have extracted the prices of farm produce and slaves, as sworn to 
 in the inventory of the estate of Captain Tliomas Wheeler, of Stonington, 
 Dec. 11, 1755 — a little over one hundred years ago. Captain "Wheeler was 
 one of the largest landed proprietors in that town, and the appraisement of 
 hi^ estate amounts to £12,669' 9s. 5d., Connecticut currency, which, at six 
 shillings to the dollar and twenty shillings to the pound, gives $42,231 55, 
 which in those days constituted him a pretty ricli man. Tlie home farm is 
 appraised at £7,000, and tlie prices of the following articles are given in 
 pounds, shillings, and pence, which vre have reduced to dollars and cents — 
 whicli, b}'' way of comparison Avith present prices, will be interesting ; as 
 well as the fact that only a hundred years ago Ctesar, Scipio, and Hagar 
 were part and parcel of a dead man's estate ; and also the prices at which 
 these " chattels" were valued at that time in Connecticut. Perhaps, how- 
 ever, the inventory of a South Carolina planter dying in 1855 will be read 
 with just as much curiosity and wonder, as regards both the price and exist- 
 ence of slaves, a hundred years hence, as this is of a time a hundred years 
 past. The quotations from Col. Wheeler's inventory are as follows : 
 
 Three Iiundred and ninety-eight bushels of Indian corn, £40 os. 2d. — 33f e. 
 per bushel. 
 
 Eight bushels wheat, 30s. — 62ic. per bushel : fifteen bushels rye, 37s. 6d. 
 — 41 |c. per bushel. 
 
 Five bushels beans, 16s. 8d. — 55ic. per bushel ; fifty bushels salt, £6 5s. 
 — 41 |c. per bushel. 
 
 One and a half bushels malt, 4s. 4d. — 47c. per bushel ; twenty-seven poun«is 
 tallow, 9s. — 5|c. per pound. 
 
 Twenty-five hundred seventy-four pounds cheese, 3d. per pound— 4^0. 
 per pound. 
 
 One hundred eighty-seven pounds flax, in ye swingle, 6d. per pound — 
 Sic. per pound. 
 
 One hundred twenty-five tuns hay, 25s. a tun — ^$4 17 per tun. 
 
 Half bushel flax seed, Is. 3d. — 42c. per bushel. 
 
 Three hundred fifty feet pine boards, 17s. 3d. — $2 87j ; eighty squares 
 glass, 16s. 8d. — 3|c. per square. 
 
 His riding horse, saddle, and bridle, £16 13s. 4d. — $55 55. 
 
 One old sorrel horse, £7 18s. 4d.— $26 38. 
 
 One black horse, £16 13s. 4d.— $55 55. 
 
Sec. 61.] PRICES IS CONNECTICUT A HUNDRED YEARS AGO. 1005 
 
 One sorrel horse, swift nose, £11 5s. — $37 50. 
 
 One sorrel horse, bald face, £12 5s. — $10 85. 
 
 One pied horse, £10— $33 34. 
 
 One small horse, swift nose, £6 13s. 4d.— $22 21. 
 
 One sorrel stone horse, two years old, £9 lis. 3d. — $31 96. 
 
 One sorrel year-old horse, $4 lis. 8d. ; one do., £4 lis. Sd. — $15 28 — 
 $15 28. 
 
 One old sorrel marc and mare colt, £2 ISs. 4d. — $9 71. 
 
 One old hay mare and horse colt, £3 6s. 8d.— $11 11. 
 
 One old black mare and horse colt, £8 6s. 9d.— $27 80. 
 
 One black mare and white face mare colt, £8 6s. Sd. — $27 78. 
 
 One large sorrel mare, white face horse colt, £14 3s. 4d. — $47 22. 
 
 Olio old bay mare, £2 ISs. 4d. ; one sorrel two-year-old mare colt — old 
 bay, $9 71 ; colt, $12 21. 
 
 One sorrel mare, swift nose, £10 Ss. 4d. — $34 71. 
 
 One black mare, swift nose, £10 16s. 8d.— $36 11. 
 
 One brown mare, £5 16s. 8d.— $19 42. 
 
 One fat ox, £5 8s. 4d. ; two speckled lean do.. £11 13s. 4d. — one fat ox, 
 ■ $18 06— one pair, $38 90. 
 
 Two brown pied oxen, £10 8s. 4d.— $34 72. 
 
 Two broM-n pied oxen, £10 16s. Sd. ; two red pied do., £13— $36 11, 
 $43 34. 
 
 Two white pied oxen, £8 los.— $29 17. 
 
 One brown fat cow, £4 3s. 4d ; one speckled cow, £3 3s. 4d. — $16 90, 
 $10 55. 
 
 Twenty-three fat cattle, at £3 ISs. 4d. per head— $9 72. 
 
 One bill], £2 ISs. 4d. ; thirty-two cows, £86 8s. 4d.— $223 61. 
 
 Twenty-live two-year-old cattle, £41 13s. 4d.— per head, $5 51— $138 90. 
 
 Twenty-six one-year-old cattle, £30 6s. Sd.- per head, $3 89— $101 11. 
 
 Twenty-five calves, £15 12s. 6d.— $2 OS per head ; total, $52. 
 
 One hundred and seventy-nine store sheep, £26 2s. Id.— 4Sc. per head — 
 $S7. 
 
 Five sheep rams, £1 5s.— 83c. per li „'ad. — $4 17. 
 
 Fifty-six fat swine, £65— $3 86 per head— $216 67. 
 
 Sixty-five store swine, £14 15s. — 75c. per head — $49 17. 
 
 One negro man named Quasli, £2 10s. — $8 34. 
 
 One old negro woman named Juno, 16s. 8d. — $2 76. 
 
 One negro man named Cab, £41 14s. 4d. — $139 06. 
 
 One negro man named Cffisar, £38 10s.— $128 34. 
 
 One negro man named Cipeo, £45 16s. Sd.- $152 78. 
 
 One negro woman named Hagar, £37 lOs. — $125. 
 
 One negro woman named Flora, £31 13s. — $105 50. 
 
 One negro woman named Sarah, £40 — $133 34. 
 
 One negro woman named Jane, £37 lOs. — $125. 
 
 One negro woman named Cloe, £37 lOs. — $125. 
 
 One negro boy named Pharaoh, £8 8s.— $28. 
 
 One negro girl named Phillis, £15 — $50. 
 
 One servant mulatto boy Harry, £8 6s. 8d.— $27 78, 
 
 One servant mulatto girl Eliza'betli, £5— $16 67. 
 
 One servant Indian woman Mary, £1 13s. 4d. — $5 55. 
 
 Corn is appraised at 33fc. ; rye, at 41|c. a bushel. The price of horses, 
 
1006 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 beeves, stoi-o cattle, sheep, and swine will strike every one acquainted with 
 present prices of such stock as quite remarkable, but not more so than the 
 variation between the price of slaves iu Connecticut in 1755 and the price 
 of slaves in Virginia in 1S55. Old Juno is valued at $2 76, M'hich seems 
 to be the niiiiiumm value of one of the human family, while the maximum 
 is only $152 78 — a valuation that lacks a cipher at the right baud to make 
 it equal to the current rates usual south of that noted line of Mason and 
 Dixon. The " mulatto girl Elizabeth" must have been very young or very 
 ugly, or the appraisers were actuated by different motives from those which 
 influence the " friends of the ijeciiliar institution" at the South, or she would 
 have been valued at a much higher figure than £5— $16 67- — even in those 
 days of cheap chattels. One servant Indian woman " Mary," rated at $5 .^5, 
 shows not only that the aborigines were enslaved, but that they were esti- 
 mated at a low price. As an evidence of the little care for literature which 
 prevailed a century ago, we notice that all the books of this rich man's estate 
 were valued at only 56 shillings — §9 33. That is not so singular, for even 
 in our day slaves and libraries are not always found in abundance upon the 
 same inventory. 
 
 1173. Winter Employment of Farm Laborers. — As a rule, our farmers are 
 not employing a fourth part of the labor thc}^ might make profitable. Labor 
 well bestowed would double the grass crop of any State in less than five 
 years. 
 
 It is one of the greatest diflicultics in the way of American farming, this 
 si.x months on and six months off of laborers. There is a constant complaint 
 about the trouble of getting good farm laborers, and this trouble is con- 
 stantly augmenting — growing worse and worse at every annual return of the 
 hiring season. And why ? Because our laborers are mainly made up of 
 foreigners unaccustomed to our modes of farming, unused to the climate, 
 and unfitted for farm labor without previous training ; and all that one 
 of them gains in this line in one season is generally lost to the one who 
 gave it, because he only employs his farm hands for the summer, instead of 
 the whole j^ear. "We have never conversed with a farmer who did not deplore 
 this state of things, and acknowledge that it would be much better, that is, 
 more profitable to keep the same laborers on from year to j-ear after they 
 had learned " the ways of the farm." 
 
 "Then why not do it?" 
 
 " Oh, dear, bless 3'our soul, I would if I could, but I have nothing, or next 
 to nothing, to do in the winter." 
 
 Now is this so ? Have farmers nothing to do ? Look about your farm 
 and see. Have you no ditches to dig, no swamps to drain, no muck to dig 
 for manure — no stone, timber, fuel, or manure to haul — no holes, large, deep, 
 and wide to dig for setting fruit-trees in the spring — no land on your farm 
 that needs and will pay for underdraining ? For all of this work can be done 
 during the many good out-door working days of winter, and, as a general 
 thing, will not be done at any other season. 
 
Seo. 61.] WINTER EMPLOYMENT OF FARM LABORERS. 1007 
 
 A good farmer can always provide work for stormy weather under shel- 
 ter. There is fuel to be cut and split in the wood-honse. There are gates, 
 and bars, and feucc-posts to be made in tlie workshop:!. There is manure to 
 be piled in the yard — that should be done every day — and there sliould be 
 manure to be forked over in the barn cellar. Thei-e are straw and stalks to 
 be cut, and this may be done in quantity if the cut stuff is packed in boxes 
 or barrels, so as not to dry up before it is wanted to feed out. There is corn 
 to shell in the granary, and t.his is good work for dry, cold days, when it 
 would be pretty severe to work out of doors. 
 
 We iiave long advocated thrashing to be done more with flails and less 
 with machines, because it costs no more to thrash with flails, and the straw 
 is better for stock, and it gives employment to farm laborers in winter, which 
 is more important than all other considerations ; for if they are not em- 
 ployed, it frequently happens that actual suffering ensues, and at the same 
 time their former employer will lose their services another year, and in the 
 end will actually pay as much or more for what he gets out of a raw hand 
 each summer than he would have paid, the winter included, for one good 
 hand. 
 
 If, as all well know, it is bad policy to part with a good hand, it is bad 
 policy not to furnish employment for the winter. It is not only bad policy, 
 but it is a wrong to the class who make np the farm laborers. Think qf this 
 in the first winter storm, when you think of your brute creatures, what may 
 be the suflering condition of your laborers that you have discharged because 
 you thought you had nothing to do. In this you are mistaken. You can 
 find employment, and can make it profitable. But if not, you can not con- 
 scientiously discharge your poor dependent laborers, many of them strangers 
 not only within your gates, but upon our side of the great Atlantic. Tell 
 them, at least, that the roof which has sheltered them in summer shall not be 
 denied them in winter. If you really can not find full employment for them, 
 tell them fairly what you can do — that you will feed them in all weather 
 and employ them in all days when they can work to advantage. 
 
 More than one half of the new emigrants that have found work upon 
 farms during the summer within reach of this city will come directly here to 
 spend their earnings while looking for city employment, and they will go 
 back to their farm-work in the spring as ill fitted for it as half-starved oxen 
 are to drag the plow, and cart the manure, and draw the fencing, and mnch 
 other work that they could have done to better advantage in warm days in 
 winter. 
 
 Let every farmer who is about to discharge a farm laborer, put his hand 
 upon his heart to mark its piilsations, while he asks it this question : " Am I 
 doing as I would that others should do to me ?" The assertion that you 
 have nothing or can have nothing to do is an erroneous one. There arc but 
 few, if any, farms that require three summer laborers that could not find 
 profitable employment for at least two of them all the winter. It is ex 
 tremely bad economy to discharge hands that have worked faithfully, and 
 
1008 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 have just got used to the ways of the farm, and would be valuable help 
 another year, and leave them to shift for themselves, more uncared for than 
 your cattle, because you have nothing to do in winter. If you do so you 
 must expect to meet with the same trouble in hiring help every coming spring 
 that you have in every past one. There is a great influx to the cities e.very 
 winter of persons willing to work, but who have been discharged where tliere 
 was work to do, and have gone there as the most likely place to find shelter 
 for the winter, but there they can find nothing to do ; the city labor market 
 is overstocked. 
 
 Farmers, we appeal to you for your own interest ; we appeal to you upon 
 the "golden rule;" we appeal to you for the sake of all who are willing to 
 work for their bread ; we appeal to you for those who, ignorant but not 
 vicious, need your guardianship, that you do not send or leave one unem- 
 ployed to come back to this city, where he will not only be idle, but as- 
 suredly acquire vicious habits that will make him a less valuable servant 
 next year than this. 
 
 This common practice of discharging laborers in autumn is one lUat will 
 in a short period quite destroy the efficiency of farm laborers. Their dispo- 
 sition to come to the city to spend the winter, farmers should check, not en- 
 courage. A man who has spent the winter in idleness in the city is not wortli 
 half as much in summer as one that remains continuously on the farm ; and 
 the same thing is true of in-door servants. 
 
 ""What can I do in winter?" is the usual reply in argument against keep- 
 ing laborers through tlie year. One thing that a farmer can do late in au- 
 tumn, and often in many winter days, is to prepare for setting out a few 
 more fruit-trees in the spring. "We contend that not one farmer in a hundred 
 has a sufiicient supply of trees yielding fruit in their season. An orchard 
 that gives good, marketable apples is always profitable to its owner if within 
 reach of any large towns, for these apples are always salable and always at 
 paying prices, if of good eating or cooking sorts, of summer or winter fruit, 
 if carefully hand-picked and packed in neat barrels. Land for an orchard 
 of any kind of fruit-trees will amply pay for draining with tiles or good 
 stone underdrains ; these must be set deep — not less than five feet. Tiie land 
 must be plowed deep and subsoiled, if its character will admit of it ; and 
 if not, the holes for the trees should be dug out three feet deep and eight 
 feet across. Leave these open all winter ; in the spring put back tlie sods 
 atid surface earth at the bottom, and haul some rich earth, compost, chip 
 manure, or leaf mold, to set the roots in. Getting this ready, is work for the 
 last earth-working days in autumn. Time will produce $10 for every day 
 thus occupied, when your trees yield their fruit. Every iota of fuel to be 
 used in summer sliould be prepared rearly for the fireplace, whether on 
 hearth, or stove, or oven, during winter. Many a farmer could economically 
 employ a man all winter to thrash grain with a flail and cut tlie straw ibr 
 stock. Much work at ditching, fencing, stone-digging, rock-blasting, ma- 
 nure hauling, and in some winters plowing, can be done to good advantage 
 
Sec. 61.] FARM ACCOUNTS AND FARM ECONOMY. 1009 
 
 in the latitude of New York city. And if nothing can be done, it is better 
 for both employer and hireling that farm hands should be idle on the farm 
 than in the city. If farmers have a surplus of leisure in winter, we advise 
 them to organize farmers' clubs, and meet every week, and have all the 
 farm laborers attend. Something will be learned. 
 
 1174. Rules for a Fanners' Club. — E. C. Packhurst, of York, Penn., says: 
 '• A good many farmers would organize farmers' clubs, if they knew how. 
 Will you give us a copy of the Constitution and Rules of your New York 
 Farmers' Club, if you have them printed ?" 
 
 Thei'e is a set of printed rules, but they are never referred to nor ever 
 needed for any club. The members should agree to meet once a week or 
 once a month, at a given hour and place. Select a chairman, to preserve 
 order in debate, and open the meeting with any miscellaneous matter that 
 any one chooses to bring up, and allow one hour for such discussion. Then 
 devote another hour to some question agreed upon at the previous meeting, 
 and adjourn punctually at the time. Make the whole discussion to consist 
 of brief facts, but never dispute. Get some one to prepare a paper to be 
 read at each meeting, if possible. "We advise every farming neighborhood 
 that can muster ten intelligent men, who will attend a farmers' club, at once 
 to form one. But do not make any formal constitution and by-laws, or con- 
 ventional rules, but make your meetings social and conversational. Let 
 your organization be of the simplest form possible, and avoid all formality 
 in your meeting, except just enough to preserve order. Let one man act as 
 secretary, to keep a few simple minutes, and advertise meetings ; and let 
 them be open to everybody, without fee or membership ; and if money is 
 needed, ask anybody and everybody to contribute. If they won't do it, but 
 leave all the burden of the expense and business of the club to rest on the 
 shoulders of three or four persons, give it up. The time has not come for a 
 farmers' club in that neighborhood. It is a good plan, in the country, to 
 meet at each other's houses ; but, to succeed, you must get your wives and 
 daughters interested. A farmers' club is a barren M'ilderness, unless smiled 
 upon by woman. One excellent subject for discussion would be about im- 
 proved farm stock. Another, farm imj)lements. More than one half of the 
 benefit which might be derived from the various labor-saving improvements 
 in agriculture, which have flooded our country for the last ten years, is lost 
 by our general ignorance of their construction and the proper method of 
 working tliem. How to use manure, and how to make land more produc- 
 tive, and consequently more profitable, are questions that can not be dis- 
 cussed too much. 
 
 1175. Farm Accounts and Farm Economy^ — No man can be a good farmer 
 and a successful one who does not keep accurate accounts. Be able to tell, at 
 the end of the year, every dollar that came to hand, and what for, and every 
 one that goes out, and why it went ; and balance your cash account at least 
 once a month — once a week is better. Keep accounts with everybody, debit 
 and credit, and in some degree, with everythmg. Number your fields, and 
 
1010 THE GLEANINGS OF THE FIELD. [Chap. XV. 
 
 charge each with manure, seed, and labor, and credit the crops, and you 
 will soon find which is the most profitable. Open an account with your 
 stable, your pig-pen, your pasture, and with your general stock, and with 
 different classes and branches of it, if you would learn with accuracy which 
 is the most profitable. To be successful, you must be accurate ; to be accu- 
 rate, you must keep account-books. 
 
 True economy does not consist in mere saving and stinting ; it requires 
 far-reaching views and a generous spirit to decide practical questions upon 
 that just basis which secures the greatest measure of success. We must look 
 further than the first cost. In farm stock, for instance, when once obtained, 
 it costs little more to raise, to any given age, a good animal than a bad one, 
 while one may be far more remunerative than the other. 
 
 And finally, as the very concentrated essence of farm economy, every 
 American farmer, who is worthy of the name, will obtain this volume, and 
 study it from title-page to 
 
 irirmso 
 
INDEX. 
 
 [The number of paragraph on the Icfl-liaiiJ side ; that of the page on right-hand side.] 
 
 1 142. Acres, how to measure 974 
 
 'J'io. Adaptation of trees to locations 845 
 
 102o. Adulterations of siiperphosphates . . . 8D7 
 
 1 137. Age of seeds, when good 07.3 
 
 y43. Age of trees 852 
 
 1078. Agricultural tools noticed 920 
 
 4.59. Air, impurity of, in rooms 412 
 
 3S0. Alljumeu of meat, how extracted . . . 3G0 
 
 945. Alder, where from 854 
 
 47. AlJerney cow 44 
 
 818. Alfalfa, its use 758 
 
 398. Alkalies in bread 377 
 
 267. Alum water for bugs 243 
 
 713. Allen's hybrid grape C31 
 
 737. American wine-maker's rules C61 
 
 101. Analysis of various cattle food 75 
 
 382. Analysis of food for men 300 
 
 98. Animal bones, use of 73 
 
 19. " species 31 
 
 20. " structure 31 
 
 1. Animals, domestic 13 
 
 1159. " gestation and reproduction . 1000 
 
 80. " unruly, how made so 62 
 
 5ij2 Anise 494 
 
 942. Antediluvian seeds of trees 852 
 
 457. Ants, how kept away 409 
 
 289. " in the house, how got rid of . . 243 
 
 254. " whisky cure for 230 
 
 37. Sec. Apple and peach trees, manage- 
 ment of 579 
 
 4S9. Apple custard 434 
 
 712. " paring machines 629 
 
 662. Apple trees, form of various 585 
 
 663. " " dwarf 586 
 
 634. " " how to winter young .. . 566 
 
 482. Apples, how kept for winter 429 
 
 059. •' in Georgia, list of Indian . . . 582 
 6.59. " Newtown pippin, history of . 582 
 489. " raw, and cooked as food 433 
 
 659. " select list of, descriptions. . . . 580 
 
 660. " use of, good for cattle 584 
 
 691. Apricots, history and cultivation of . 615 
 
 341. Aqueduct pipes, durability of 317 
 
 333. Aqueducts, economy of 309 
 
 1 149. Art of being loved 987 
 
 503, 875. Artichokes, Jerusalem, growing, 
 
 and use 495, 810 
 
 538. Asparagus, cultivation, soil, and ma- 
 nure 478 
 
 1023. Atmospheric feitilization, theory of. . 896 
 
 733. Austrian vineyards 654 
 
 57. Ayrshire bull 60 
 
 34, 43. " cows described 37, 42 
 
 1143. Axioms, proverbs, and maxims 975 
 
 446. Bacon, dry-salting 404 
 
 447. " English mode of curing 404 
 
 445. " facts about 404 
 
 348. " how smoked 323 
 
 918 Baggasse of sorgo injures stock 834 
 
 392. Bakers' yeast, ferment, sponge 371 
 
 19. ^ec Balloon frames described 325 
 
 35U. Balloon frames, how to build 32o 
 
 562. BiUm 494 
 
 775. Barley cultivation 704 
 
 753. " seeds in a bushel 678 
 
 324. Bam boarded tight or open 303 
 
 322. " foundations 3ft3 
 
 320. " of Shakers at Canterbury 301 
 
 321. " " circular 302 
 
 323. " practical opinions about 303 
 
 325. " ventilation of hay-mows 305 
 
 319. Barns, use, value, location 299 
 
 987. Barnum using nitrates, sulphates, mu- 
 riates 878 
 
 450. Barrels, how cleaned 409 
 
 502. Basil, sweet 494 
 
 294. Bats are insect eaters 263 
 
 1167. Beans among corn 1001 
 
 440. ' ' how to cook 401 
 
 1165. " how to cure vines of 1001 
 
 1166. " soil suitable for 1001 
 
 534. ' ' sorts of, for garden 476 
 
 1164. " white, as field crop KiOl 
 
 267. Bed-bugs, infallible remedy for 242 
 
 465. Bed-.omforters, how to make 415 
 
 308. Betl-room-s fit to live in 283 
 
 463. Beds aud bedding 414 
 
 453. Beef, corned, how to cure and cook. . 400 
 468. " gall, its use 416 
 
 454, 455. Beef, pressed, how made —scraps, 
 
 how saved 407 
 
 226. Bees, fourteen sorts in Honduras .... 174 
 222. " hives, new -way to make, of straw 171 
 
 222. " hives should be ventilated 170 
 
 223. " how to keep from stinging 172 
 
 223. " how to take honey from 172 
 
 212. " history of their introduction. . . 157 
 
 227. " Italian, their introduction 174 
 
 224. " moths, how to protect, from . . 173 
 220. " pasture and feeding 165 
 
 215. " patent hives, bee houses, bee 
 
 palaces 161 
 
 213. " proper form of hives 160 
 
 228. " reasons for keeping 175 
 
 212. " reasoning powers of 159 
 
 226. " stingless, not desirable 174 
 
 214. " straw hives 161 
 
 219. " swarm, proper weight of 165 
 
 217. " swarming, how to manage, do- 
 
 mesticate 102 
 
 218. " swanns, what they consist of . . 164 
 212, 225. Bees, their introduction into Cal- 
 ifornia 159, 173 
 
 212. Bees, where they flourish best 159 
 
 216. " where to keep hives 162 
 
 529. Beets, varieties of 474 
 
 4. Sec. Beeves, gross and net weight. . . 51 
 562. Bene plant 494 
 
238. 
 237. 
 
 CIO. 
 
 402. 
 392. 
 393. 
 401. 
 391. 
 
 403. 
 
 398. 
 399. 
 
 394. 
 391. 
 40-5. 
 395. 
 391. 
 393. 
 
 4. Sec. Big Ijullocks 01-50 
 
 353. Billets of wood, building wiih. 331 
 
 Sec. Birds and children ij ; 
 
 239. Birds consume weed .'■eeds '. 200 
 
 11. Sec. Birds, country desolate without. 177 
 
 234. Birds destroy worms and bugs 190 
 
 236. " eating bees jgj 
 
 239. " protected by laws ...'.' ' ' ' ' .' ' " I'M 
 239. " quails, their value on the farin'. 190 
 11. Sec. Birds, reason and religion in 
 
 preserving j7q 
 
 233. Birds, robins arc worm-eaters, tiie 
 
 quantity consumed ......... 186 
 
 skylarks and imported birds. . 194 
 swallows, swifts, and martins 
 described jgo 
 
 JV ^"v*^-, J^""'''*' tlie farmer's best friends". 176 
 
 233. Birds, the food of jgj 
 
 230. " the sap-suckers do not destroy 
 
 trees jgj 
 
 232. " to protect fruit-trees against. . 183 
 7no' T,.' ■""'iP'gcons, sending to market 201 
 493. Bites and stings, remedies for. 439 
 
 620. Blackberries, cut-leaf O.'il 
 
 'l^^- " Dorchester , . 050 
 
 f)!^- ■' Lawtnn, or New Ro- 
 
 chelle .54f; 
 
 , ^ PiU'sley-leafed .' 05O 
 
 Jji-'- " running or trailing 501 
 
 "''• " thomless 500 
 
 ^'77 " value for wine 551 
 
 ^ *• variety and cultivation 547 
 
 "'"■ " white 5,5Q 
 
 476. Blackberry cordial . . 4->o 
 
 130. Black-hawk Morgans [ joi 
 
 100. Blindness in horses, how to detect. ' ! Ill 
 
 159. Blind staggers in horses, cure for 110 
 
 92u. Boilers and boiling maple sap 838 
 
 0. Boiling weeds for pigs ' 05 
 
 92. Bone in different food '.'. .,[[[ (jg 
 
 998. Bones, how to dissolve 883 
 
 98. " of hogs in cholera 73 
 
 097. " their value gg3 
 
 1 150. Books useful for famiers' bo.ys ' .' . . . ' 991 
 
 088. Botanical names of trees ... . . 020 
 
 1 148. Botany and beauty . . 98ij 
 
 472. Bottles and corks for wine ...... 424 
 
 1141. Boxes, capacity of, to hold barrels' 
 
 bushels, gallons 974 
 
 394. Bread, bake thoroughly 374 
 
 baking, heat of oven 384 
 
 bakers', how made 371 
 
 Boston brown 37 1 
 
 chemicals in, Youmans' 383 
 
 good housewife's rules for 
 
 making 357 
 
 kneading, effect of .' .' 385 
 
 made with saleratus rising . . . 370 
 " soda and unfer- 
 
 mented 373 
 
 mixed witli lime water 374 
 
 mixed with potatoes 370, 373 
 
 of corn meal 387 
 
 of sprouted wheat . " . 374 
 
 potatoes in og^ 
 
 i-ye and Indian ,'.,[[ 372 
 
 Sec. Bread, varieties and quality, how 
 
 ^™^fle 366 
 
 cread, various rules for making 378 
 
 Bread, various substances, prepara- 
 tion of 
 
 ilo' " '^'irginia corn '.[',] 39., 
 
 dyd. wheat and Indian 370 
 
 ia]' " ""heaten,howtomake .. "'366 
 OQ, , ""^^"^ ^'=^le, how to use .... 374 
 d9d. Yankee brown 370 
 390. Breakfast, early, effect on iieaith'.'.'" 365 
 ^'°- ■' lundi, and dinner of a gour- 
 mand 3.5g 
 
 168. Breeding horses and mules '117 
 
 Breeds of pigs, Berkshire, Essex, Sufi 
 
 folk, Chester jg 
 
 108. Brine, poison to cattle .... . .!..." 78 
 
 1068. Broadcast sowing machine 923 
 
 o20. Broccoli, cultivation of. . . 474 
 
 °'0. Broom-corn, how to grow, value " " 745 
 <J-0. Brassica family, what it is . 470 
 
 450. Brushes and knives, how cleaned ' 409 
 
 n_b. Buckwheat cultivation 700 
 
 " seeds in a bushel .. " 678 
 
 Budding, bass matting for 578 
 
 liow performed . . 077 
 
 2.34. Bug powder 2-^8 
 
 ^^203. Bugs infesting potatoes' ....'. 240 
 
 -62, 4-j7. Bugs, remedies fcr . . 2311 409 
 
 64. Bullock, the largest known ' 52 
 
 01. Bulls, Ayrshire, Jersey, Du-'ham 
 
 Dutch, Hereford, Devon 00 
 
 99o. Burnt earth, value of ' " ' 000 
 
 657. 
 656. 
 
 301 
 502. 
 509. 
 499. 
 512. 
 437. 
 608. 
 408. 
 504. 
 511. 
 500. 
 510. 
 500. 
 499. 
 391. 
 
 iifn' ?"^''^' measure, cubic inches in . . 974 
 1140. Bushels of grain, etc., weights of 974 
 
 ■'^^"1 Butter affected by food ]] 447 
 
 aft'ected by packages 448 
 
 " colored lo order 4.52 
 
 I' good, how judged . . ' 443 
 
 how to cool without ice 454 
 
 " how to keep 400 
 
 how to make in winter 452 
 
 " making, first requisities for . . 441 
 
 " of Alderney cows 443 
 
 II packing and preserWng 403 
 
 'I quarts of milk for a pound . . , 444 
 
 " rules for salting 403 
 
 " time of churning 440 
 
 _ " _ wasliing and coloring. ......'. 442 
 
 Biscuit, how to make good . . 368 
 
 423. Buy good articles 396 
 
 524. Cabbage cultivation .'...'.'..'. . 472 
 
 o24. " how to head in winter ....! 472 
 
 ^-4- " varieties of 473 
 
 536. California beans 477 
 
 (32. " vineyards and wine cellars 653 
 
 Qo r. , ' , , ''^'"'^ making 662 
 
 3j. Calomel for cows 30 
 
 _6. Sec. Calves, selecting and rearing ... 60 
 
 ^ 1 8. Calves should be sheltered 61 
 
 29j. Camels, introdactioii of, into V. S. . 264 
 
 298' '^""'^'^s and oil, cost compared 396 
 
 4;8. " bow to improve 397. 
 
 2-d5. Canker worms, preventives 232 
 
 1141. Capacity of boxes 974 
 
 187. Capons, how to make 134 
 
 562. Carraway 494 
 
 527. Carrots and other roots require deep 
 
 soil 474 
 
 884. " and rye on same ground 818 
 
 879. " as a field crop 815 
 
 882. " cultivation of 817 
 
883. Carrots, liarve.itmg, storing, and value 
 
 of crop 817 
 
 880. " soil anil preparation 81G 
 
 881. " sowing the seed 810 
 
 528. " varieties of 474 
 
 4ti7. Carpets and carpet sweepers 416 
 
 845. Carting hay to market 780 
 
 1U61: C\ist-iron plows, history of 918 
 
 713, 725. Catawba grapes 030, 039 
 
 G. 8ec. Cattle, care and feeding GO 
 
 74. Cattle cars and transportation 58 
 
 104. •' diseases of 76 
 
 105. " diseases, the horn-ail, its cure. 77 
 87. " fattening on hay, value of . . . . 64 
 83. " %d oil-cake 06 
 
 83. " feeding straw 63 
 
 101. " food analyzed 73, 70 
 
 ■ 88. " how to feed roots 65 
 
 84. " how to winter 63 
 
 76. " improvement of breed and 
 
 weight 60 
 
 5. Sec. Cattle market statistics 50 
 
 75. Cattle, me isurement of 59 
 
 958. " on the liighways 865 
 
 108. " poisoned, with brine, with 
 
 cherry leaves 78 
 
 103. " soiUng, tre.rte.i upon 76 
 
 1. " transportation, on Mississippi 
 
 steamboat 15 
 
 107. " with lice, cured with onions . . 78 
 
 1145. Castrating, when to perform 977 
 
 284. Cats killing chickens, to prevent .... 255 
 525. Cauliflower, cultivation of 473 
 
 539. Celery, how to grow and keep in 
 
 winter 479 
 
 15. Sec. Cellars, chimneys, and ice-houses 288 
 
 310. Cellars, how to make 288 
 
 350. Cement roofs 327 
 
 1132. Cemented caves for stoiing grain ... . 971 
 100. Chaffing or cutting food for stock ... 74 
 
 177. Chandlers' greaves for hens 126 
 
 1037. '■ " value as manure . 902 
 967. Chaning fence posts 869 
 
 617. Cheese, English stvle 4.59 
 
 437. " how to keep 400 
 
 516. " how to make it 4-57 
 
 618. " making in manufactories 459 
 
 400. Chemicals in bread 381 
 
 401, 45. Sec. Chemistry and com 383, 711 
 
 677. Cherries, history, cultivation, use ... 599 
 
 673. " varieties of, described 594 
 
 676. Cherry trees, grafting and budding . . 598 
 
 674. " " ornamental 597 
 
 18. Chester County hogs 29 
 
 540. Chiccory, how to grow, prepare, and 
 
 use 481 
 
 183. Chicken coops, how to build 132 
 
 183. " hou.ses warmed by stoves .. . 133 
 
 1148. Children, how to treat 985 
 
 3U. Chimneys, how to build 289 
 
 892. Chinese sugar-cane growing 822 
 
 892. '• " —aee Sorgo 823 
 
 869. " yam, cultivation of 806 
 
 564. " " descriptiou of 495 
 
 431. Chocolate 397 
 
 499. Chums and churning 442 
 
 480. Cider, aerifying, effect of 428 
 
 479. " filtering, how done 428 
 
 477. " how to keep sweet 427 
 
 4ti7 
 478, 
 710. 
 1142. 
 334. 
 
 758. 
 
 129. 
 
 347. 
 
 1067. 
 
 813. 
 817. 
 814. 
 815. 
 753. 
 955. 
 1020. 
 992. 
 51. 
 267. 
 179. 
 431. 
 430. 
 432. 
 599. 
 658. 
 151. 
 960. 
 960. 
 101. 
 713. 
 3.52. 
 346. 
 6. 
 385. 
 384. 
 3S3. 
 386. 
 1147. 
 806. 
 
 804. 
 1070. 
 
 405. 
 
 413. 
 
 807. 
 
 343. 
 
 342. 
 779, 
 
 100. 
 799. 
 794. 
 795. 
 801. 
 408. 
 794. 
 796. 
 805. 
 800. 
 418. 
 406,7 
 795. 
 793. 
 802. 
 
 Cider jelly, how made 483 
 
 ' ' oilins, to keep 427 
 
 " without pressing 628 
 
 Circular acre, how to measure 974 
 
 Cisterns, value, size, contents, how to 
 build, cost, how to calculate ca- 
 pacity 310 
 
 Cleaning grain for market 684 
 
 Cleansing wool 96 
 
 Cloacina's temple 321 
 
 Clod crushers 923 
 
 Clothing a man consumes in a life- 
 time 357 
 
 Clover growing 754 
 
 " hay, when to cut 758 
 
 " how much seed per acre 756 
 
 " seed growing and harvesting . 757 
 
 " seeds in a bushel 078 
 
 Coal and wood, economy of, compared 859 
 
 ' ' aiihes for manure 895 
 
 " value of 882 
 
 Sec. Coal vs. wood for fuel 845 
 
 Cockroaches, remedy for 242 
 
 Cocks, choice of 1 27 
 
 Cocoa, how to buy good 397 
 
 Codflsh, how to keep 400 
 
 Coffee, best sorts, how to prepare .... 396 
 
 Cold frames for plants 528 
 
 Collodion, how made, and use of. . . . 579 
 
 Colts, treatment of 108 
 
 Commons should be cultivated S6f) 
 
 " unfenced 8JiJ 
 
 Composition of various food for stock ~-j 
 
 Concorel grape fiiiii 
 
 Concrete walls, how made o:;0 
 
 Cooking arrangement for a piggery . . 321 
 
 ' ' food for swine 23 
 
 " how affected by hard water . 303 
 
 " reasons for improving 302 
 
 " vegetables, changes produced 301 
 ' ' vessels, improvement wanted 303 
 
 Cooks cause sickness . . 98 1 
 
 Com and crows 74.j 
 
 " and pork, how much will a 
 
 bushel make 19 
 
 " and pumpkins together 742 
 
 ' ' baskets improved 924 
 
 " bread 387 
 
 " bread, receipt for 392 
 
 ' ' cost and profit of crop 743 
 
 " cribs of raUs 318 
 
 " cribs, how built 318 
 
 r97. Com cultivation. See Indian 
 
 corn 709, 738 
 
 Corn fodder for stock 74 
 
 ' ' fodder, value of, for cows 739 
 
 ' ' harvesting 735 
 
 " harvesting machines 730 
 
 " how to measure in bulk 740 
 
 " hulled, good food 390 
 
 " husking 735 
 
 ' ' husking in the field 737 
 
 " hybridizing 742 
 
 " in drills or liills 740 
 
 " popped, its use as food 393 
 
 ' ' roasting ears, sweet corn 3b9 
 
 " shock-cart described 737 
 
 " shocks, how to bind 734 
 
 ' ' shrinkage in drying 741 
 
797. Corn sown broadcast for fodder 738 
 
 794. " stalks, cutting 73G 
 
 803. " yield of starch 741 
 
 5G2. Coriimder 494 
 
 ■ 476 Cordial of blackberries 42G 
 
 472. Corking wine bottles 424 
 
 52. Sec. Cost of fences of highways 862 
 
 351. Cost of the author's balloon-frame 
 
 house and barn 329 
 
 94. Cotton cake, its quality and value 
 
 described 69 
 
 1092. " culture, extension north 941 
 
 1091. " " will it increase 940 
 
 1081. " fields, beauty of, in blossom. 932 
 
 1093. " from flax fiber 942 
 
 1083. " f^in, history of invention. . . . 934 
 
 1089. " ginning, per cent, of lint and 
 
 seed 940 
 
 56. Sec. Cotton, history, grow-th, and 
 
 manufacture 928 
 
 1079. Cotton, history of 920 
 
 1080. " " of culture in America 930 
 468. " in woolen, how to detect. .. . 418 
 
 1082. " manufacture, history of 932 
 
 1085. " Sea Island, how ginned 935 
 
 1080. " " " grown 936 
 
 1084. " " name of 935 
 
 1090. " seed used as manure 940 
 
 1088. " upland, cost of growing in 
 
 detail 938 
 
 1087. " upland, how grown 937 
 
 47. Cow.s, Alderney or Jersey 44 
 
 44,46. " Ayrshire breed, yield of milk. 43,44 
 
 40. ' ' badly wintered unprofitable ... 40 
 
 32. " cured with calomel 36 
 
 53. " Devon described 46 
 
 31. " directions for spaying 35 
 
 51. " Dutch or Holland breed 45 
 
 26. " exercise and shelter 33 
 
 38. " fed roots 39 
 
 87. " fed sugar-cane 39 
 
 25. " food consumed by 33 
 
 29. " hay required for 35 
 
 28. " health of, aflects milk 34 
 
 52. " Hereford breed 46 
 
 27. " how fed for butter 34 
 
 24. " how many per acre 33 
 
 23. " how to increase value of 32 
 
 33. " how to keep gentle 37 
 
 41, 55. " how to select a good one ... 41, 49 
 
 39. " how to winter 40 
 
 48. " Jersey, origin and description. 44 
 
 42. •' of different breeds 42 
 
 50. " of Durham breed 45 
 
 35. " poor for butter, how improved 37 
 
 30. " remedy for kicking 35 
 
 40. " tons of hay for, needed 41 
 
 3. Sec. Cows, what is a good one, the 
 
 standard 31 
 
 36. Cows, winter feed of, in Orange 
 
 County 38 
 
 22. " with garget, cure of . . .- 32 
 
 45. " yield of milk of breeds com- 
 pared 43 
 
 1150. Country schools, what they should 
 
 teach 991 
 
 700. Crauberiies as a field crop, how grown 621 
 
 702. " how to cook 626 
 
 567. " in gardens 498 
 
 701. Cranberries, varieties of, planting .. . 623 
 
 592. Creepers, native 522 
 
 964. Creosote for kyanizing 868 
 
 554. Cress, garden 488 
 
 555. " water 489 
 
 342. Cribs for corn 318 
 
 230. Crows, discussion about usefulness of. 180 
 800. " how to prevent mischief 743 
 
 70. Crystal Palace show cattle 64 
 
 840. Cubic feet in a tun of hay 780 
 
 644. Cucumbers, varieties of 483 
 
 469. Currant wine, how made 420 
 
 606. Currants, black, how grown and use. 530 
 
 602. " descriptive list of 532 
 
 605. " expense of growing 535 
 
 603. " how to prune and grow .. . 534 
 487. " jelly, how made 432 
 
 604. " productiveness of chcn-y. . . 535. 
 601. " varieties and cultivation . . 530 
 
 250. Curculio remedies 216 
 
 100. Chaffing food for stock 74 
 
 258. Cut- worms described 235 
 
 28. Sec. Dairy, butter and cheese making 441 
 
 507. Dairy room, necessity of a 451 
 
 1150. Days of the week and month, names 
 
 of 992 
 
 1064. Deep plowing, its benefits 921 
 
 713. Delaware grapes, history of 631 
 
 936. Descriptive list of hardy trees 841) 
 
 62. Devon bull 51 
 
 53. " cows described 46 
 
 53. " " value for dairy 47 
 
 713. Diana and Anna grapes 632 
 
 1006. Digging machines 923 
 
 562. Dill 4!'4 
 
 869. Dioscorea batatas, cultivation of ... . 800 
 564. " " growth and use. . . 495 
 
 104-6. Diseases of cattle, horn-ail, scours, 
 
 poison 76, 77 
 
 459. Disinfectants, how made and used. . . 411 
 
 998. Dissolving bones 883 
 
 959. Division fences, laws relating to 865 
 
 287. Dog laws to protect sheep 257 
 
 288. ' ' traps, how made 258 
 
 285. Dogs generally a nuisance 255 
 
 289. " sermon about, keep them in 
 
 dogs' places 25.S 
 
 286. " Shepherd, Scotch colley, En- 
 
 glish, Iri.sh 2 ■ C 
 
 286. " the Shepherd breed L5n 
 
 1 . Domestic animals J :; 
 
 26. Sec. Domestic wines, cider, preserves. 
 
 Rules for wine making, etc 419 
 
 739. Domestic wine-making rules 6U:i 
 
 469. " wines, how made 42(i 
 
 171. Double and single trees, size of 11-1 
 
 798. Doura corn for fodder "!■>'.< 
 
 10-J3. Drain tile, cost of sizes 014 
 
 ]0-j9. " " proper shape of PIG 
 
 1047. Draining (see Tile draining) 910 
 
 1052. " what it does for land 911 
 
 10-J8. " with a mole plow 91G 
 
 1055. " " brush and other substi- 
 tutes for tile 915 
 
 1057. " " cement pipes 916 
 
 1060. " " cobblestones 91G 
 
 1054. " " wooden tubes 915 
 
 1051. Drains, descent and depth of 913 
 
 114.''. Driving oxen 977 
 
1 147. Diptheria, cure for 984 
 
 191. Ducks of various sorts 139 
 
 59. Durham bull 50 
 
 50. " cow 45 
 
 GO. Dutch bull 50 
 
 51. " cow 45 
 
 542. Eirly garden potatoes 482 
 
 330. Earthen stable floors 307 
 
 389. Eating, how it affects health 364 
 
 384. Economy in cooking 362 
 
 299. Eel-streams and eel-fishing 272 
 
 660. Egg plants 487 
 
 210. " trade in this country 155 
 
 203. Eggs, how produced in winter 152 
 
 207. " " to preserve 153 
 
 21 1. " packing for market 155 
 
 208. " quantity consumed in England 153 
 
 209. " " " in Franco.. 154 
 206. " should be sold by weight 153 
 
 204. " the sex of, how to tell 152 
 
 205. " the vitality of, affected on rail- 
 
 roads 152 
 
 948. Elder as au ornamental shrub 856 
 
 470. Elderberry wine, how made 423 
 
 656. Endive for salad 489 
 
 7. Sec. English sheep 81 
 
 88. Errors in feeding roots 65 
 
 945. Evergreen seeds, planting of 853 
 
 591. Evergreens, foreign, names of 522 
 
 590. " indigenous, names of ... . 521 
 
 941. " transplanting in summer 851 
 
 941. " yews, junipers, arbutus, 
 
 laurestines 851 
 
 25. Sec. Excerpta of useful knowledge . . 396 
 
 3. Experiments in feeding pigs 19 
 
 745. Fallowing land for wlieat 67 1 
 
 1175. Farm accounts and farm economy. . .1009 
 
 971. " gates and bars 870 
 
 364. " " various kinds described . . 338 
 
 310. " houses, cellars, how to make. . 288 
 
 311. " " chimneys, how to build 289 
 
 303. " " dark, are unhealthy .. . 277 
 
 307. " " howtobuildconvenient 281 
 
 302. " " inducements to beautify 275 
 301. " " influence the character 
 
 of occupants 275 
 
 309. " " kitchen in oldcu time . 284 
 
 306. " " necessary rooms in ... . 280 
 
 304. " " not build on high hill. 279 
 309. " " of Farmer Slack 287 
 
 304. " " proper location for. .. . 278 
 
 303. " " should be light 277 
 
 305. " " size and form 279 
 
 308. " • " ventilation of 283 
 
 306. " " what constitutes con- 
 
 venient 280 
 
 1173. " laborers' employment in winter 1006 
 6. Sec. Farm stock, care of 60 
 
 1150. "Farmers' boys, maxims for 988 
 
 1150. " " what they should learn 
 
 in school 991 
 
 309. " children in olden time 285 
 
 1174. " clubs, how to organize 1009 
 
 1 149. ' ' maxims for 979 
 
 309. " meals in olden time 285 
 
 1150. " school books recommended 991 
 1155. " should use raw-hide — value 
 
 of 99"! 
 
 1148. " wives, maxims for 984 
 
 12. 
 12. 
 
 329. 
 496 
 969. 
 968. 
 963. 
 967. 
 965. 
 966. 
 
 52. 
 
 62. 
 959. 
 961. 
 962. 
 958. 
 662. 
 989. 
 984. 
 985. 
 
 986. 
 53. 
 60. 
 
 099. 
 
 497. 
 1148. 
 1149. 
 
 357. 
 
 368. 
 
 300. 
 
 297. 
 1028. 
 1027. 
 
 156, 
 
 973. 
 
 462. 
 1128. 
 1126. 
 1125. 
 1127. 
 91. 
 
 267. 
 
 387. 
 
 570. 
 
 571. 
 31. 
 
 569. 
 
 572. 
 
 537. 
 
 574. 
 
 673. 
 
 576. 
 
 578. 
 
 579. 
 
 832. 
 
 101. 
 1161. 
 
 378. 
 
 377. 
 
 Farmers, young, maxims for 988 
 
 Fat in different food 66 
 
 Fatting cattle on hay 64 
 
 " swine, begin early 28 
 
 " " on standing corn 28 
 
 Feed-trough, cheap and good 306 
 
 Felon remedy 440 
 
 Fence on soft ground 870 
 
 " portable picket 869 
 
 ' ' posts kyauized 867 
 
 " " preserved by charring . . . 869 
 
 by salt 868 
 
 " " top end down 869 
 
 Sec. Fence system, evils of 863 
 
 Sec. Fences, cost of, calculated 861 
 
 Fences, division, laws relating to ... . 865 
 
 " how dispensed with 867 
 
 " waste land 867 
 
 Fencing highways, laws relating to . 8i)4 
 
 Feimel 494 
 
 Fertility, primitive sources of 881 
 
 " promoted by clover 877 
 
 " " by color and 
 
 moisture 878 
 
 " " by fineness of soil 877 
 
 " " byincrustingseeds 878 
 
 Sec. Fertilization, the art of 877 
 
 Sec. Fibrous plants, hemp and flax . . 965 
 
 Figs, where and how they grow 620 
 
 Finger ring, tight, how to get off. . . . 4-10 
 
 Fire making, art of 985 
 
 ' ' proof dresses, how to make .... 988 
 
 " " wash.for roofs 335 
 
 " protection from 348 
 
 Fish-breeding, ancient, account of. . . 273 
 
 " " for domestic use 260 
 
 " guano, American 898 
 
 " " Norwegian, how made . . 897 
 " trout streams, cause of disap- 
 pearance 270 
 
 Fistula in horses cured ]09 
 
 Flat bar iron fence -87 1 
 
 " irons, smooth, to make 414 
 
 Flax crop, cost and profit of 970 
 
 " growing, soil and preparation , . 969 
 
 ' ' historical facts about 969 
 
 ' ' seed, quantity and time of sowing 969 
 
 Flesh in different food 67 
 
 Flies, how to drive out 242 
 
 Flour, how to select good 364 
 
 Flower beds, how to make 502 
 
 ' ' cultivation of hardy 603 
 
 Sec. Flower culture, moral influence. 500 
 
 Flower garden, soil suitable for 500 
 
 " list of choice annuals 503 
 
 Flowering beans 477 
 
 ' ' bulbous plants 507 
 
 ' ' herbaceous plants, list of . 506 
 
 " list of, hollyhocks 509 
 
 Flowers grown as a farm crop 511 
 
 " soil for, protection of 513 
 
 Fodder, amount necessary 771 
 
 ' ' analyzed 75 
 
 Fogs in January — Frosts in May 998 
 
 Food a man consumes in a lifetime . . 357 
 ' ' adaptation to circumstances . . . 350 
 
 " adulterations of 364 
 
 " analysis of 360 
 
 " consumed by a cow 33 
 
6. Food for cattle, variety of G3 
 
 490. ' ' for sick, kinds and preparation . 435 
 27. Sec. Food for the sick, remedies for 
 
 poisons and bites 435 
 
 381 . Food, French experiments with 360 
 
 371. " how much for a hard-working 
 
 man 351 
 
 37G. " how it affects the system 355 
 
 379. " how it is changed by cooking. . 358 
 90-92. " properties for fat, flesh, bone. 66-68 
 375. " quality of, suitable for farmers. 354 
 
 372. " rations of slaves 352 
 
 373. " rations of soldiers 353 
 
 382. " relative value of substances 360 
 
 1134. " substances, nutriment in 972 
 
 22. Sec. Food, the question considered of 
 
 quantity, quality, adaptation. 351 
 
 374. Food, time between meals 354 
 
 374. " variety of, necessary 353 
 
 383. " vegetables, changes iu cooking 361 
 831. Forage, how to produce and use ... . 770 
 
 1016. Forest leaves for manure 894 
 
 976. " tree hedges 872 
 
 61. Sec. Forests unprofitable on valuable 
 
 soil 845 
 
 181. Fowls, Chinese breeds 128 
 
 178. " fed on putrid meat are un- 
 wholesome ] 26 
 
 197. " mode of killing 145 
 
 182. " ornamental varieties of — Ma- 
 
 lay, Gueldcrland, Dorkings, 
 Spanish, Game, Java, Jer- 
 sey Blue, Poland, Hamburg, 
 Bolton Gray. Silky, Frizzleil, 
 Cuckoo, Blue Dun Crested, 
 Bantam. Dominique, Forked 
 Tail, Sonerafs Wild Cock . . 128 
 
 713. Fox grapes 631 
 
 736. French wine-raaker"s rules 659 
 
 1151. Frost, why more on bottoms than hills 993 
 698. Fruit baskets and boxes 018 
 
 35. Sec. Fruit books mentioned 5.55 
 
 349. Fruit drying houses 323 
 
 661 . " how to grow large 585 
 
 G98. " how to pack and transport .... 618 
 
 484. " in air-tight cans 430 
 
 703. " tree protectors 626 
 
 G70. " trees, manuring, use cf hogs for 589 
 
 635. " " on the prairies 568 
 
 631. " " rules about planfing 561 
 
 630. " " spring or .autumn planting 558 
 029. " " when and how to plant . 558 
 
 482. Fruits, how preserved 429 
 
 697. " small, for field culture 617 
 
 34. Sec. Fruits, small, <,f the garden 530 
 
 456. Furniture renovated 407 
 
 1 152. Fur-skins, how to dress 995 
 
 1 164. " how to prepare for market 996 
 
 4.J7. Furs, how packed and kept 409 
 
 956. Fuel, how it sliould be seasoned .... 860 
 
 51. Sec. Fuel, wood or coal 845 
 
 3. Gain of pigs in feeding 22 
 
 IGl. Galls in horses, remedy for Ill 
 
 202. Game, preparing for market 151 
 
 541. Garden corn 481 
 
 1069. " hoe, improved 924 
 
 519. " vegetables, origin, use, culti- 
 vation 465 
 
 29. Sec. Garden vegetables, their history. 
 
 when and how to plant, pleasures 
 
 and profits of a garden 461 
 
 519. Garden vegetables, origin, use, cul- 
 tivation 465 
 
 22. Garget in cows, bow to cure 32 
 
 991. Gas lime, value of 882 
 
 364. Gates, how made, cost of 338 
 
 971. " !•«. bars 870 
 
 192. Geese, how and where kept, breeds 
 
 and value 140 
 
 198. " value of corn fed to 145 
 
 1 130. Germination of seeds, time of 971 
 
 1 163. Gestation, periods of 1000 
 
 987. Glauber salts for manure 880 
 
 61. Sec. Gleanings of the field 971 
 
 1015. Glue-maker's waste for manure 893 
 
 468. " to keep sweet 418 
 
 296. Goats, Cashmere, introduction into 
 
 the United States 265 
 
 623. Gooseberries, varieties of 552 
 
 292. Gophers described, beneficial to 
 
 farmers 261 
 
 192. Goslings, how managed 141 
 
 543. Gourds 483 
 
 36. Sec. Grafting, budding, pruning ... . 570 
 
 652. Grafting, antiquity of 576 
 
 653. " clay and wax, how made. . 576 
 645. " cleft, splice, tongue, root, 
 
 saddle 574 
 
 651. " new method, natural 675 
 
 644. " on old orch, r.ls 674 
 
 643. " proper time of 673 
 
 6.54. Grafts, how to preserve 676 
 
 655. " influence of stocks upon 677 
 
 778. Grain fanns and stock farms 708 
 
 1133. " mill, new one, described 972 
 
 1132. " stored in cemented caves 971 
 
 754. i" when it should be cut 679 
 
 733. Grape culture in Austria G54 
 
 732. " " California 653 
 
 730. " " Missouri 645 
 
 714. " " by Dr. Grant 633 
 
 716. " cuttings, caution about 636 
 
 726. " " how to grow 641 
 
 715. " grafting 635 
 
 717. " growing, profit of 636 
 
 742. " seedling, prize for 666 
 
 730. " soil, what is best 645 
 
 723. " trellis 638 
 
 718. " vine gigantic 636 
 
 729. Grapes, disea.ses of, remedy fur G43 
 
 483. " how to keep 480 
 
 728. " order of excellence of five .. . 642 
 
 722. " under glass 638 
 
 713. " varieties of 630 
 
 730. Grapevines, care of, planting and 
 
 pruning 644 
 
 727. " hardiness of sorts 641 
 
 730. " object of pruning, rules 
 
 for ^ G48 
 
 730. " summer pruning G47 
 
 731. " what are merchantable. . 652 
 
 254. " worms 226 
 
 254. Grasshoppers, habits of 232 
 
 46. Sec. Grass and its use and cultivation 748 
 841. Grass, how much, land can produce. . 778 
 825. •' plats, how seeded with sods. . . 766 
 
 820. ' ' seed, how much per acre 762 
 
 823. " sowing in autumn 765 
 
INDEX. 
 
 1017 
 
 753. 
 839. 
 811. 
 
 812. 
 
 468. 
 
 468. 
 
 406. 
 1030. 
 1026. 
 1077. 
 1151. 
 1009. 
 1010. 
 1010. 
 1008. 
 1028. 
 
 990. 
 
 916. 
 
 190. 
 
 981. 
 1037. 
 1141. 
 
 448. 
 
 450. 
 
 445. 
 
 449. 
 1145. 
 
 936. 
 
 7i:^ 
 
 'J4J. 
 
 71. 
 
 sm. 
 
 47. 
 842. 
 1 135. 
 846. 
 325. 
 
 29. 
 841. 
 837. 
 117. 
 950. 
 401. 
 390. 
 
 389. 
 1147. 
 1138. 
 
 S75. 
 
 976. 
 
 978. 
 
 977. 
 1120. 
 1121. 
 1124. 
 1071. 
 1119. 
 
 1123. 
 1122. 
 
 174. 
 
 184. 
 
 173. 
 
 332. 
 
 195. 
 1148. 
 
 Grass, sweet vernal, seeds in a bushel 678 
 
 " when to cut 777 
 
 Grasses, cultivated varieties of, de- 
 scribed 748 
 
 " varieties recommended 752 
 
 Grease in silk, how to remove 417 
 
 " spots, how removed 418 
 
 Green corn as food 389 
 
 " crops and lime for manure 898 
 
 " sand marl, its value 897 
 
 Grindstone, its value on a farm 926 
 
 Gross and net weight of swine 993 
 
 Guano, economy of using 891 
 
 " how to apply 891 
 
 " in solution for gardens 891 
 
 " its history 890 
 
 ' ' manufactured of fish 898 
 
 " phosphatic, value of 882 
 
 Guinea com, sorghum viilgare 833 
 
 " fowls 139 
 
 Ha-ha walls 875 
 
 Hair, value of, as manure 902 
 
 Half-bushel measure, how to make . . . 974 
 
 Hams, good pickle for 405 
 
 ' ' how to cook 405 
 
 " how to cure 404 
 
 " ho w to keep 405 
 
 Handying steers ....•••• 978 
 
 Hardy trees, ash, maple walnut, Pau- 
 lonia, sns3afras, locust, poplar, fir, 
 
 hemlick, chestnut, linden 840 
 
 H irtt'ord prolific grape 632 
 
 H iwthorn, varieties of 854 
 
 ll.\xtun steer, weight of the 54 
 
 H.vy-c.ips, value of, how made 776 
 
 Sec. Haying and haying machines. . . 772 
 
 Hay, how much must we provide. . . . 778 
 
 " load of, how to calculate value. 972 
 
 " measurement, cubic feet in a ton 780 
 
 " mow, ventilation of 805 
 
 " required for cows 35 
 
 " rigging of carts and wagons 779 
 
 " ventilation of 776 
 
 " weight necessary for sheep 85 
 
 Hazel grown for fruit 857 
 
 Health, cautions about 437 
 
 " is affected by early break- 
 fasts 365 
 
 " is affected by mode of eating 304 
 
 " maxims of 981 
 
 Hea^•y men in Ohio 973 
 
 Hedges and hedge plants 872 
 
 " of forest trees 872 
 
 " ornamental more than useful 873 
 
 " Osage orange 873 
 
 Hemp, a new variety 966 
 
 " cost and profit of growing .. . 967 
 
 " cutting by machines 968 
 
 " harvester 924 
 
 " history of introduction into 
 
 America 965 
 
 " rotting and dressing 968 
 
 " sowing and harvesting 967 
 
 Hens, number to keep and time to sell 1 24 
 
 " proper time t) set 133 
 
 '• shod to preven' scratching. .. . 124 
 Hen-roosts, how buil', 'ud manure of 308 
 
 " how c;in.-=tructed 143 
 
 Herbs preserved 986 
 
 61. Hereford bull 51 
 
 52. " cows described 46 
 
 248 Hessian fly described 213 
 
 945. Hickory seeds, planting 853 
 
 958. Highway fences, laws relating to. . . . 864 
 
 562. Hoarhound 493 
 
 456. Hodge-podge, how made 408 
 
 7. Hog pastures 26 
 
 17. Hogs, gross and net weight 30 
 
 16. " large 30 
 
 13. " of Chester County breed 29 
 
 51 . Holland cow 45 
 
 576. Hollyhocks, list of 509 
 
 409. Hominy, economy of, for food 391 
 
 410. " how to cook, hominy cakes, 
 
 pudding 391 
 
 411. " how it is made 392 
 
 1 168. Hops, culture of, and suitable soil .... 1002 
 1170. " growing without poles 1003 
 
 1169. " value of the lupulin 1002 
 
 105. Horn-ail, how to cure, false notions of 77 
 
 531. Horseradish 475 
 
 150. Horse breeding for longevity 108 
 
 834. " rakes 774 
 
 169. " gearing, English and American 119 
 162. " shoeing 112 
 
 144. " stables should be light 105 
 
 8. Sec. Horses and mules, history of. . . 
 
 148. Horses, diseases of, capped hock, con- 
 
 tracted hoofs, corns, cough, 
 trembling, wheezing, crib- 
 biting 106 
 
 152. " diseases of, and remedies ... . 109 
 
 131. " English hunters 99 
 
 132-4 " English roadsters, coach and 
 
 dray 99 
 
 142. " fortlie saddle 105 
 
 140. " for walking 104 
 
 138. " how to drive 103 
 
 146. " how to remove from buildings 
 
 on fire 106 
 
 154. " heaves, cure of 109 
 
 1.35. " Morgan breed 99 
 
 157. " old sores of, cured with white 
 
 lead ■ 110 
 
 171. " plowing with four, how to 
 
 hitch 122 
 
 149. " profits of soiling system 107 
 
 147. " proportion of, to men 106 
 
 145. " sand for bedding of 106 
 
 153. " scratches, how cured 109 
 
 139. " size of roadsters 103 
 
 130. " thoroughbred 98 
 
 141. " torturing with bit and harness 104 
 
 148. " unsoundness, what consti- 
 
 tutes 106 
 
 170. " working three abreast 120 
 
 155. Horse's collar chafing 109 
 
 143. " color indicative of temper. . . 105 
 163. " feet, contraction of, and rem- 
 edy 114 
 
 565, 595-598. Hot beds, how made, and use 
 
 of 497, 524 
 
 1150. Household science, book of 991 
 
 1031 Housed and unhoused manure exper- 
 iments 899 
 
 207. House flies, how got rid of 242 
 
 408. Hulled corn, hcrw prepared 390 
 
 819. Hungarian grass 760 
 
1018 
 
 INDEX. 
 
 970. 
 495. 
 340. 
 502. 
 310. 
 317. 
 315. 
 314. 
 313. 
 312. 
 701. 
 111. 
 111. 
 781. 
 185. 
 822. 
 785. 
 779. 
 
 790. 
 782. 
 791. 
 791. 
 791. 
 790. 
 779. 
 784. 
 781. 
 
 417. 
 416. 
 414. 
 415. 
 589. 
 (149. 
 12. 
 270. 
 254. 
 254. 
 243. 
 266. 
 242. 
 249. 
 767. 
 254. 
 267. 
 253. 
 
 244. 
 
 Hurdle fence 870 
 
 Hydiophobia, remedy for 439 
 
 Hydraulic rums, liow made, and use. 316 
 
 Hyssop 494 
 
 Ice, how to carry it to the field 298 
 
 " how to keep it in the house. . . . 298 
 
 " how to store it 297 
 
 Ice-bouses, liow to build 292 
 
 " reasons in favor of 291 
 
 ' ' their advantage 290 
 
 Illinois wheat growing, cost of 690 
 
 Imported stock deteriorates 80 
 
 " vs. native stock 79 
 
 Improved King Philip corn 719 
 
 Incubation of eggs, time of various . . 1 34 
 Indian corn land, seeding to grass. . . 7G4 
 
 " " autumn plowing for 724 
 
 " " crops North and South.. 714 
 " " cultivation in hills or 
 
 drills 726 
 
 " " depth and distance of 
 
 planting 725 
 
 " " experiments in growing. . 728 
 
 " " fertilizing seed 722 
 
 " " great crops in Conn 732 
 
 " " " " Kentucky. 731 
 
 " " " " Ohio 733 
 
 " " manures used upon 728 
 
 " " premium crops, cost of . . 716 
 " " preparing ground for ... . 723 
 " " selecting, saving, prepar- 
 ing seed 718 
 
 " " shrinkage in drying 730 
 
 " " soaking seed 730 
 
 " " transplanting, it can be 
 
 done 727 
 
 " " two ears on a stalk, shall 
 
 one grow 722 
 
 " " when to plant 717 
 
 " " where profitably grown . . 715 
 
 " " yield per acre 730 
 
 " " 200 bushels per acre ... . 733 
 Sec. Indian corn, a national staple . . . 709 
 
 ' " " its history 709 
 
 ' " " its use and value as 
 
 food 712 
 
 ' " " product in Ohio... 713 
 
 ' " " " in slave and 
 
 free states 712 
 
 Indian meal baked pudding 393 
 
 " " cakes 393 
 
 " " mush 393 
 
 " " mush, how cooked 393 
 
 Indigenous trees 521 
 
 ludolence the parent cf langU' r . . . 9f 8 
 
 Sec. Insects, what are 203 
 
 Insects beneficial to farmers 244 
 
 '• convtroations upon 216 
 
 coal-tar to kill 229 
 
 ' ' destructive to corn and wheat 205 
 " how preserved for reference . . 242 
 " infesting the cotton plant . . . 204 
 
 " injurious to fruits 215 
 
 " in wheat, how killed 698 
 
 " kerosene oil, to kill 229 
 
 " of the house, remedies for . . . 242 
 " remedies, caustic soda, liquid 
 
 sulphur, oil troughs 224 
 
 " the rice weevil 207 
 
 Introduction to facts. 13 
 
 996. Iron as a fertilizer 883 
 
 972. Iron fences 870 
 
 54. Sec. Irrigation, practice and value of 904 
 
 1044. Irrigation in America 908 
 
 1043. " France, Belgium, etc. . . S07 
 1042. " Germany 907 
 
 1040. " Italy 904 
 
 1041. " Piedmont 906 
 
 1046. Irrigation, quantity of water required 909 
 
 1045. " what lands are benefited. 909 
 
 725. Isabella grapes 639 
 
 753. Japan wheat a cheat 679 
 
 58. Jersey bull 50 
 
 48,49. " cow, properties of 44 
 
 875. Jerusalem artichoke, how to grow 
 
 and use 810 
 
 247. Joint worms that destroy wheat 212 
 
 696. Jujube friut 617 
 
 86. Keeping stock warm and variety of 
 
 food 63 
 
 725. Kelly's Island vineyard 641 
 
 427. Kerosene oil for farm-house lights. . . 397 
 254. " " to kill insects 229 
 
 30. Kicking cows cured 35 
 
 81. Kindness to cattle G2 
 
 436. Kitchen knowledge and rules 399 
 
 309. " old style, described 284 
 
 403. Kneading bread, effect of 38i 
 
 456. Knives and brushes, how cleaned. . . . 409 
 
 523. Kohl-rabi, its character and use 472 
 
 963. Kyanizing fence posts 867 
 
 636. Labels for fruit trees 6G0 
 
 1145. Lambs, how to feed young 078 
 
 945. Larch, white, seed of 854 
 
 420. Lard, how to keep sweet 397 
 
 562. Lavender 494 
 
 32. Sec. Lawn, how to make 515 
 
 583. Lawn, cause of grass dying upon 516 
 
 581. " clipping, watering, manuring, 516 
 
 584. " glass, new sort 517 
 
 585. " how to ornament 518 
 
 580. " how to set in grass 515 
 
 586. " made by a woman . 518 
 
 587. " trees, what sorts suitable 519 
 
 959. Laws relating to division fences 865 
 
 958. " relating to highway fences .... 864 
 615. Lawton blackberries, how to grow . . 548 
 
 1150. Learning comes by observing 989 
 
 713. Lenoir grape 631 
 
 551. Lettuce, varieties of, and how to grow 487 
 107. Lice on cattle, how cured 78 
 
 425. Lights, cost of various 396 
 
 424. ' ' farm-house 396 
 
 427. " kerosene oil best ;97 
 
 428. " of candles, how improved.. 397 
 
 426. " oils and candles compared .. . 390 
 
 305. Lightning conductors considered, at- 
 
 traction of. insiilatii'n. i-ize of points, 
 con truition. ^hade trees conduct n 342 
 367. Lightning rods, area of attraction. . . 347 
 365. " " opinions of use 344 
 
 306. " " materials of ?47 
 
 535. Lima beans, how to grow 477 
 
 518, 744. Lime and salt mixture .... 461. 068 
 
 992. Lime ashes, value of 882 
 
 671. " for trees 590 
 
 993. " how to apply 882 
 
 93. Linseed-cake for food 68 
 
1004. 
 1147. 
 
 496. 
 
 945. 
 
 254. 
 
 914. 
 
 818. 
 
 818. 
 1151. 
 
 836. 
 1076. 
 1022. 
 
 695. 
 53. 
 
 985. 
 1001- 
 1003. 
 1006. 
 1002- 
 1(121. 
 lOlJl. 
 lOUU. 
 1031. 
 
 1004. 
 1007. 
 1035. 
 1034. 
 
 999. 
 1005. 
 1031. 
 1033. 
 1030. 
 
 936. 
 
 931. 
 .50. 
 
 925. 
 
 929. 
 
 926. 
 
 928. 
 920. 
 932. 
 927. 
 
 924. 
 921. 
 930. 
 933. 
 168. 
 464. 
 709 
 
 1145. 
 1146 
 115). 
 1149. 
 1148. 
 1144. 
 1147. 
 
 Liquid manure 887 
 
 Live in tlie liglit 982 
 
 Lockjaw remedy 410 
 
 Locust seeds, planting, how to vege- 
 tate 853 
 
 Locusts, are they injurious ? 230 
 
 Lotus, American, substitute for pota- 
 toes 806 
 
 Lovering's experiments with sorgo. . 831 
 
 Lucern 758 
 
 Lupine ^ 758 
 
 Machine belts, how to use 994 
 
 ' ' to stack hay 775 
 
 Jlachinerjs saving labor 925 
 
 Magnesia iis a fertilizer 896 
 
 Mangosteen fruit 617 
 
 Sec. Manures and manuring 877 
 
 Manure, color and moisture of 878 
 
 ' ' experience of farmers using . 886 
 
 " for old pastures 887 
 
 " gained by soiling stock 888_ 
 
 " German experiments 886' 
 
 " how much profitably used . . 898 
 " how to apply when, where. . 886 
 
 " " preserve 885 
 
 " leather shavings, woolen 
 rags, hair, oil-cake, ammo- 
 nia 899 
 
 liquid 887 
 
 " special, use of 889 
 
 " table of values of, on oats. . 900 
 
 " wheat 899 
 
 " " " of substances 884 
 
 " tan bark, use of 888 
 
 " value depends on fineness . . 899 
 " value of, used in England. . 899 
 
 Manuring with green crops 898 
 
 Maple, Norway, described 840 
 
 ' ' sap, ratio of, to sugar 843 
 
 Sec Maple sugar-making 835 
 
 Maple sugar, boiler and boiling 838 
 
 " " details of expense 842 
 
 " " furnace and setting pans 839 
 " " how much will trees pro- 
 duce 843 
 
 " " made in a small way .. . 840 
 
 " " preparation for making 836 
 
 " " preparing for market. . . 843 
 
 " " process of making, and 
 
 molasses 839 
 
 " " profits of making 842 
 
 " " siip buckets 837 
 
 " " sap spouts, how to make 
 
 and use 836 
 
 " " storing sap 838 
 
 " " tapping trees for making 836 
 
 " trees, how much they produce 843 
 " " why we should plant . . 844 
 
 Mares, size of, for breeding 117 
 
 Mattresses, how to make 415 
 
 Mature trees, best apples for keep- 
 ing from 628 
 
 Maxims about stock 977 
 
 ■' for all farmers 979 
 
 " " farmers' boys 988 
 
 " " " girls 987 
 
 " " " wives 984 
 
 " " young farmers 975 
 
 Maxims of health 981 
 
 827. Meadows and pastures, plants injuri- 
 ous to 767 
 
 827. Meadows, plants that injure 769 
 
 374. Meals, what mtervals between 354 
 
 75. Measurement of cattle compared .... 69 
 
 1142. Measure of acres, square, triangle, 
 
 circle 974 
 
 801. Measuring corn in bulk 740 
 
 380. Meats, boiling extracts albumen of. . 360 
 
 379. Meat, how it loses by boiling 359 
 
 384. Meat and vegetable food compared . . 362 
 
 456. Meat and fowls, how made tender and 
 
 cooked 408 
 
 562. Medicinal herbs 493 
 
 548. Melons, apple-pie 485 
 
 545. ' ' how to grow 484 
 
 547. " " to start early 485 
 
 279. Mice, Osage orange, destroyed by 252 
 
 277. " and their mischief 251 
 
 278. " remedies for eating trees 252 
 
 761. Michigan wheat growing, cost of. ... 091 
 
 777. Millet, soil, cultivation, use 707 
 
 489. Milk and apples for food 434 
 
 29. " cost of producing 35 
 
 515. •' farms, profits of 455 
 
 505. " heating new 450 
 
 500. ' ' how much for a pound of butter 444 
 
 514. " " to make cows give down . . 455 
 
 •54. " mirror described 48 
 
 506. ' ' pans and covers 450 
 
 503. " when to skim 448 
 
 513. Milking machines 454 
 
 701. Jlinnesota wheat growing, cost of . . . 692 
 
 562. Slint, spear and pepper 493 
 
 1147. Mirth is a medicine 983 
 
 741. Missouri, German vine growers in. . . 665 
 
 740. " wine making in 664 
 
 1144. Jlixed husbandry best 975 
 
 435. Molasses, how to buy 399 
 
 927. " of maple sap 839 
 
 276. Moles, American, opinions about. . . . 251 
 
 275. " English, opinions about 251 
 
 13. Sec. Moles, their character considered 248 
 
 958. Moral of pasturing highways 865 
 
 137. Morgan horses, faults of 102 
 
 135. " " history of 99 
 
 359. Mortar, made weather proof 336 
 
 268. Moth, protectors from 243 
 
 457. " remedies 409 
 
 833. Mowing machines 772 
 
 846. Mows and stacks, how to measure 
 
 tuns in 780 
 
 1012. Muck, analvsis of 892 
 
 1013. " mixing with night soil 893 
 
 101 1 . " use and value of 891 
 
 107. Mules, horses, oxen, on the farm. ... 116 
 
 164. '■ history, first importation 115 
 
 165. " longevity of 116 
 
 166. " the largest in the world .... . 116 
 
 693. Mulberry fruit 616 
 
 443. Mushrooms, use and production 402 
 
 545. JIusk-melons 484 
 
 552. Mustard 488 
 
 120. Mutton sheep, age of 90 
 
 123. •' " at the West profitable. 91 
 
 123. " " breeds most profitable 91 
 
 358. Nails m.ade weather proof 335 
 
 55 ". N';vsturtium 488 
 
 Hi. Native va. imported stock 79 
 
1020 
 
 INDEX. 
 
 272. 
 303. 
 
 692. 
 1147. 
 
 930. 
 
 431. 
 1134. 
 
 101. 
 
 945. 
 774. 
 770. 
 771. 
 753. 
 773. 
 
 1150'. 
 
 450. 
 
 713. 
 1138. 
 
 701. 
 
 114.J. 
 
 95. 
 
 89. 
 
 9t. 
 
 425. 
 
 658. 
 
 994. 
 
 072. 
 
 880. 
 
 887. 
 
 890. 
 
 257. 
 
 889. 
 
 888. 
 
 532. 
 35. 
 
 711. 
 
 978. 
 
 974. 
 
 279. 
 
 977. 
 1142. 
 
 402. 
 
 no. 
 
 06. 
 
 68. 
 
 67. 
 1074. 
 
 65. 
 531. 
 360. 
 1146. 
 273 
 502. 
 885. 
 530. 
 
 24. 
 830. 
 829. 
 828. 
 1003. 
 958. 
 713. 
 694. 
 
 Katural insect destroyers 246 
 
 Night air not as unhealthy as closed 
 
 rooms 277 
 
 Night soil, how prepared for use .... 893 
 Nitrates, muriates, sulpliates, what 
 
 are tliey 878 
 
 Nectarines, history and sorts of 010 
 
 Neuralgia cure for 983 
 
 Norway maple 840 
 
 Nutmegs, how to buy 397 
 
 Nutrnnent in food substances 972 
 
 Nutritive value of various food for 
 
 stock 75 
 
 Oak tree seeds, planting 853 
 
 Oats, cause of rust 703 
 
 " cultivation 700 
 
 " how much seed per acre 700 
 
 " seeds in a bushel 078 
 
 " ho w to make a good crop 701 
 
 " when to sow 701 
 
 Observe and learn 989 
 
 Odors, bad, how prevented 408 
 
 Otfen grape 030 
 
 Ohio, what it produces 973 
 
 ' ' wheat production 692 
 
 Oil-cake, about feeding 977 
 
 " composition of 71 
 
 feed for cattle 00 
 
 " stale and moldy, injurious. . 70 
 
 Oils fur light compared 390 
 
 Okra, use and cultivation 489 
 
 Old mortar plastering, value of 883 
 
 Old orchards, how to renovate 591 
 
 Onions, as a field crop 819 
 
 " best fertilizers for 820 
 
 " California, wild 821 
 
 " maggots, salt for 235 
 
 " protit of culture 821 
 
 ' ' remedy for worms 820 
 
 " varieties and cultivation. . . . 475 
 Sec. Orchards, aspect of, how to plant 550 
 
 Orchard house described 029 
 
 Ornamental iiedges 873 
 
 ' ' iron fence 872 
 
 Osage orange, eaten by mice 252 
 
 " " hedges 873 
 
 Oval plats, how to lay off 975 
 
 Ovens, heat of, for baking 384 
 
 Overstocking the farm nnprotitable . . 78 
 
 Oxen, largest of olden time 52 
 
 ' ' large ones in Pennsylvania ... 53 
 
 Ox, Leopard, his size 52 
 
 " shovel, road-scraper 925 
 
 " Washington, his weight 52 
 
 Oyster plant, cultivation of 475 
 
 Paints, cheap, fur farm buildings . . . 336 
 
 ' ' and preserve tools 980 
 
 Parasite of wheat midge 247 
 
 Par.-iley 494 
 
 I'arsneps, as a field crop 819 
 
 ' ■ when to sow, value of ... . 475 
 
 Pasture, how to improve, for cows. . . 33 
 
 ' ' improved by sheep 770 
 
 " mixing stock in 770 
 
 " remedy for short 769 
 
 " renovated by top dressing . . 887 
 
 Pasturing highways 865 
 
 Pauline grape 631 
 
 Pawpaws described 616 
 
 009. 
 604. 
 667. 
 188. 
 843. 
 265. 
 685. 
 682. 
 683. 
 686. 
 687. 
 079. 
 084. 
 078. 
 .680. 
 686. 
 681. 
 
 533. 
 1144. 
 
 761. 
 562. 
 578, 
 250, 
 990. 
 1024. 
 908. 
 937. 
 
 9. 
 
 11. 
 
 12. 
 
 8. 
 
 7. 
 
 4. 
 
 2. 
 
 345. 
 
 8. 
 
 18. 
 
 934. 
 
 937. 
 
 1136. 
 
 827. 
 
 271. 
 
 000. 
 
 988. 
 
 55- 
 
 1001. 
 
 1061. 
 
 1005. 
 
 1063. 
 
 1002. 
 1000. 
 689. 
 
 Peaches, sugar-drying 628 
 
 Peach tree borers, hot water cure 220 
 
 " " worms, tobacco for 628 
 
 " " " soda wash for, cut- 
 ting out 587 
 
 " trees, budding of 588 
 
 " " grown fur fuel 589 
 
 " " how tu plant and treat. . 580 
 
 " " winter killed 587 
 
 Pea-fowls described, and use 135 
 
 " vine, hay. . .■ 779 
 
 " weevil, how destroyed 241 
 
 Pears, are they a profitable crop 600 
 
 " and poultry do well together . 005 
 
 blight of 606 
 
 " dwaif, culture of 609 
 
 " list of good ones described. .. . 610 
 
 ' ' rules for culture 602 
 
 ' ' seedlings 606 
 
 " Select list, cultivation, pruning 001 
 
 " size and improvement 003 
 
 " weight of different sorts 610 
 
 "• when to gather, and how to 
 
 ripen 604 
 
 Peas, kinds and cultivation in garden 475 
 
 " prepare land for wheat 976 
 
 Pennsylvania wheat growing 693 
 
 Peppers, kinds and quality 494 
 
 Perfumer}', manufacture of flowers . . 511 
 
 Pests of gardens and fields 234 
 
 Phosphatic guano, value of 882 
 
 Phosphorus as a m.\nuro 890 
 
 Picket, portable, fence 809 
 
 Pine tree planting 848 
 
 Pickling, the art of 433 
 
 Pie-eating, an Americanism 350 
 
 Pie-plant, how to grow 492 
 
 Pig-breeding, the sow should be 
 
 largest 30 
 
 Pig-feeding, cost and profit 20 
 
 " and pork-making 19 
 
 Pigs fed cinders, and coal ashes, and 
 
 burnt clay 27 
 
 " " hay seed 27 
 
 " " parched corn and honey. .. . 27 
 
 " " standing corn 28 
 
 Pigs, as land workers 26 
 
 " grazing, how many per acre ... 26 
 
 " how to pen them to fatten 24 
 
 ' ' what is the licst breed 19 
 
 Piggeries, how arranged 320 
 
 Pig-pen, its value fur manure. ...... 26 
 
 Pork, salting while warm 30 
 
 Plantation of trees 845 
 
 Planting forest trees 848 
 
 Plants, how many per acre 973 
 
 " injurious to meadows 769 
 
 Plant-lice destroyers 245 
 
 Plant-protectors, how made and use of 528 
 
 Plaster of Paris, gypsum 881 
 
 Sec. Plows and plowing, object of 917 
 
 Plows, cast-iron, history of . . 918 
 
 " inventors of 918 
 
 " steam, use of 922 
 
 " steel, manufacture and value 
 
 of 921 
 
 " sulisoil, shape and use 920 
 
 ' ' substitute for 923 
 
 Plums, choice varieties described. ... 614 
 
INDEX. 
 
 1021 
 
 690. Plums, grafting wild stocks 615 
 
 088. " soil, climate, cultivation 612 
 
 •1U2. Poisons, antidotra for 438 
 
 789 Pop-corn as a crop 727 
 
 419. " pudding and calics 394 
 
 420. " " " how made 394 
 452. Poric and bacon, value compared 406 
 
 3. " and corn, lbs. per bushel 19 
 
 18. " salting while warm 30 
 
 968. Portable picliet fence 869 
 
 1019. Potash for manure 895 
 
 263. Potato bugs 240 
 
 891. " rolls and bread 370 
 
 850. " rules of culture 792 
 
 856. " seed cut or whole, experiments 795 
 867. " " large orsmall, " 797 
 
 857. " " weight of, and yield 798 
 
 853. Potatoes, ashes for 794 
 
 805. " Bergen, John G., experi- 
 ments of 803 
 
 850. " best soil for, and aspect of 
 
 field 792 
 
 848. " character of several sorts 
 
 described 786 
 
 864. " cost of producing crops de- 
 tailed 801 
 
 849. " crop, importance of 791 
 
 851. " culture by plow alone .... . 793 
 
 866. " disease of 804 
 
 542. " early varieties 482 
 
 849. " estimated quantity used by 
 
 each person 791 
 
 852. " growing under straw 793 
 
 854. " hoeing when wet 794 
 
 383. " how baked, l>oiled, roasted, 
 
 or fried . 361 
 
 863. •' how to keep from sprouting 801 
 394 '■ in bread making 373 
 
 855. •' in hills or drills 794 
 
 861. '■ Michigan or Roberts' the- 
 ory of seed 799 
 
 860. " planted in autumn 799 
 
 859 " " with sets 798 
 
 858. " " without plowing. . 798 
 855. " practical opinions about 
 
 seed 794 
 
 855. " proper depth to plant 794 
 
 882. ■ ■ storing for winter 800 
 
 867. " substitutes for 8C6 
 
 438. " sweet, how to keep 400 
 
 847. ■• the history of 785 
 
 175. Poultry, feeding meat to 124 
 
 177. " food of . 125 
 
 200. " great consumption of 146 
 
 201. " how to kill, and dress, and 
 
 pack 148 
 
 176. " how to treat in confinement 1 24 
 
 196. " how to water . 145 
 
 194. " keeping, management of. . . 142 
 
 9 Sec Poultry, maxims for keepers of, 
 how to keep healthy, shelter, 
 vennin, water, feed regular, 
 yard, to fatten 123 
 
 194. Poultry, pleasures of raising 142 
 
 201 " preparing for market 148 
 
 19& " prices of fixncy 145 
 
 195. " vermin, how prevented ... . H3 
 186. " weights of different brseds. 134 
 824. Prairie sloughs seeded to red top .... 706 
 
 486. Preserving fruit by dry pressure 432 
 
 484. " '• in air-tight cans. .. . 430 
 
 485. " " in dry sugar 432 
 
 766. " wheat 696 
 
 763. Price of wheat for 60 years 694 
 
 1172. Prices 100 years ago 1004 
 
 759. Product per acre of wheat 685 
 
 760. Productive ability of America 086 
 
 119. Profits of feeding sheep for butchers . 86-89 
 
 110. " selling milk 79 
 
 628. Propagation by cuttings and layers. . 557 
 
 1145. Properties of a good horse 978 
 
 1143. Proverbs; axioms, and maxims 975 
 
 639. Pruning, objections to spring 571 
 
 040, " " autumn 572 
 
 038. " tendency to over 571 
 
 641. " pi-actical directions about . . 572 
 
 042 " root, object of 573 
 
 037. " right time for 570 
 
 804. PumpUius and cjrn together 742 
 
 85. " for cattle 63 
 
 1145. " seeds must be cooked for 
 
 stock 977 
 
 17. Sec. Pumps and windmills for the 
 
 farmery 308 
 
 290. Rabbit breeding 260 
 
 290. Rabbits, domesticated 200 
 
 290. " to prevent gnawing trees . . 259 
 
 500. Radishes, how to grow 492 
 
 013. Raspberries, varieties of 546 
 
 282. Rat-catchers 254 
 
 281, 458. Rat remedies — ai-senic, strychnine, 
 
 tar, plaster, potash, phosphorus. 253, 410 
 
 207. Rats and mice, remedy for 242 
 
 280. Eats, history of 252 
 
 283. Rat-traps, how to make 254 
 
 1155. Raw hide, how to dress . !i90 
 
 1155. " use of, for farmers 990 
 
 7 13. Rebecca grape 032 
 
 450. Refrigerator, cheap one, how made. . 407 
 
 318. Refrigerators 298 
 
 490. Remedies for lockjaw, felons, ulcers . 440 
 497. " tight finger-rings 440 
 
 1003. Renovating old pasture.? 887 
 
 1103. Reproduction of animals, proper time 
 
 of 1000 
 
 561 . Rhubarb, how to grow 492 
 
 444. " stalk-s, how to prepare and 
 
 use 403 
 
 471. ' ■wine, how made 423 
 
 430. Rice and sago 397 
 
 58. Sec. Rice, cultivation of 948 
 
 1102. Rice, how it is hulled 952 
 
 1101. 
 
 1103. 
 1103. 
 
 1104. 
 
 1100. 
 
 1099. 
 
 52. 
 
 958. Road fences, laws relating to 864 
 
 1075. " scrapers, horse and ox 925 
 
 400. Roasting ears 389 
 
 97. Rock-salt for stock 72 
 
 356. Roofing of paper, tar. and gravel. 334 
 
 20. Sec. Roofs and roofing 332 
 
 357. Roofs, protecting from fire 335 
 
 land, how flooded, and purpose 
 
 of 951 
 
 ' ' product of clean, from rough . . 952 
 " " per acre, cost, value, 
 
 and profit 952 
 
 ' ' statistics of exportation 953 
 
 " " of plantations 949 
 
 " where and how grown 948 
 
 Sec. Road fences, cost of 802 
 
Roofs, their proper form 334 
 
 48. Sec. Ivoot crops 78-5 
 
 48. Boots for stock o9 
 
 627. " of trees, functions of 550 
 
 891. " quantity a:i acre may produce . 821 
 
 254, 594. Rose bugs and slugs, remedies 
 
 for 220, 524 
 
 562. Rosemary 494 
 
 593. Roses, cultivation recommended .... 523 
 
 508. Rows and plants on an acre 499 
 
 456. Rust of metals, how prevented 408 
 
 878. Ruta b.aga turnips, cultivation of . . . . 814 
 
 884. Rye and carrots grown together 818 
 
 769. " cultivation and yield of 698 
 
 753 " seeds in a bushel of 678 
 
 562. Saffron 404 
 
 562. Sage 494 
 
 4-56. " and herbs, how preserved 409 
 
 430. Sago and rice, how to buy good 397 
 
 551. Salad plants 4S7 
 
 398. Saleratus in bread 376 
 
 531. Salsify, when to sow 47,5 
 
 905. Salt for fence posts 868 
 
 96. " for stock, is it necessary 71 
 
 744. " for wheat, how to use 670 
 
 1030. " value and use of, as a fertilizer . 901 
 
 69 Saratoga County bullock 54 
 
 442. Sauce, pic-nic, how made 402 
 
 441. " tomato, how made 402 
 
 451. Sausage making 400 
 
 354. Sawed shingles condemned 332 
 
 106. Scours in cattle, how cured 77 
 
 153. Scratches in horses, how cured 109 
 
 1084. Sea Island cotton, how grown and 
 
 ginned 935 
 
 950. Seasoning fuel 860 
 
 1014. Sea-weed, its use as manure 893 
 
 821. Seeding land to grass 763 
 
 980. Seeds, how fertilized by inci-usting . . 878 
 456. " how preserved 408 
 
 1137. " limit of vitality of '. . 973 
 
 753. " of grain in a bushel 678 
 
 '^"3. " " sown do not all grow 678 
 560. " steeped in hot water 498 
 
 1130. " time required to germinate .. . 971 
 
 289. Sermon on dogs 258 
 
 184. Setting hens I33 
 
 194. Shanghae fowls 143 
 
 328. Sheds for cattle made cheaply 306 
 
 120. Sheep, age for mutton 90 
 
 1145. " and calves, yard together. .. . 977 
 119. " feeding, compared with beeves 86 
 
 I'O " " grass, h.ay 85 
 
 115. " general care of, thrift, shelter, 
 economy in feeding, venti- 
 lation, racks, fodder, water, 
 
 salt for 83-4 
 
 122. " gross and net weight of 90 
 
 12^. " grub in, to cure 90 
 
 117. " hay necessary for 85 
 
 7. Sec. Sheep husbandry 81 
 
 124. Sheep in Texas, how managed 92 
 
 288. Sheep-killing dogs 258 
 
 114. Sheep, merinos, first importation of . 83 
 
 126. " numbering and ages of 94 
 
 118. " pasture should be changed. .. 80 
 
 1 25. " producing twins 93 
 
 113. " sexes, how produced 82 
 
 127. " shearing 95 
 
 128. Sheep should be tagged 96 
 
 7. Sec. Sheep, South Downs, Hampshire, 
 Le!^;c^te^, Cotswold, Lincoln, 
 
 ShroiJshire, Oxfordshire 81 
 
 7. " Sheep, various breeds of 81 
 
 658. Shellac, use of, in grafting 578- 
 
 78. Shelter for calves 61 
 
 82. " for cattle 62 
 
 20. " for cows, and feeding 33 
 
 1032. " of manure, value of 899 
 
 286. Shepherd dogs described 256 
 
 355. Shingles, how preserved 333 
 
 354. " sawed 332 
 
 755. Shocking wh-cat 681 
 
 50. Short-horn Durham cow 45 
 
 828. Short pastures, remedy for 769 
 
 267. Silk- worms worked by electricity 243 
 
 468. Silver, never wrap in woolen 418 
 
 1 1 47. Simples better than compounds 982 
 
 927. Sirup of maple, how made 839 
 
 1 147. Skin, care of the 982 
 
 1 153. Skins, how to dress soft 996 
 
 1152. " how to dress with fur or wool 
 
 on 995 
 
 293. Skunks, their usefulness considered. 263 
 
 372. Slaves, rations of food of 352 
 
 348. Smoke-houses, how to build and use . 322 
 
 760. Smut of grain 697 
 
 494. Snake bites, and remedies 439 
 
 391. Snow cakes 370 
 
 436. Soap, how to keep and use 400 
 
 400. Soap-making receipts 412 
 
 149. Soiling, advantage of 107 
 
 103, 1006. Soiling cattle, the practice dis- 
 
 cuss'ed 76, 888 
 
 373. Soldiers' rations of food 353 
 
 1021 . Soot as manure, its value 896 
 
 916. Sorghum that has no saccharum .... 8^3 
 40. Sec. Sorgo and maple sugar 822 
 
 900. Sorgo, analysis and character of 826 
 
 917. " and com, cost of growing equal 834 
 902. " as food for stock 825 
 
 918. " baggasse, stock injured by eat- 
 
 ing 834 
 
 910. " best mode of growing, feeding 
 
 stock 829 
 
 911 " boiler, how to make a cheap one 8r;0 
 
 907. " effect of frost on canes 827 
 
 37 ' ' for cows 39 
 
 905. " fraits of experience in growing 826 
 
 899. " how to make sirup 824 
 
 912. " juice extracted in a domestic 
 
 way 830 
 
 915. " juice proved— it will make 
 
 sugar 832 
 
 90 (. " keeping canes and juice 820 
 
 914. " Lovering's experiments, boiling 831 
 895. " manner of planting 824 
 
 913. " mills described 830 
 
 898. " period for manufacturing. ... 824 
 893. " preparation and time of plant- 
 ing 823 
 
 901. " profits of making 825 
 
 909. " sirup, and cost, by Col. Morris 828 
 
 900. " " how to clarify 825 
 
 919. " " vinegar, how made 835 
 
 892. " soil and situation for 823 
 
 890. " stripping and topping 824 
 
 897. " time of cutting 824 
 
903, 908. Sorgo, yield per acre 82G, 828 
 
 14. Sows, to prevent killing pigs 2'J 
 
 31. Spaying, directions for 3j 
 
 1007. Special manures 889 
 
 584. Spergula described 517 
 
 431. Spices, how to buy and keep 397 
 
 375. " their xise in food 354 
 
 747. Spring wheat, when to sow G72 
 
 557. Sprouts, how grown for salad 489 
 
 549. Squashes, summer and winter 486 
 
 291. Squirrels and their mischief 261 
 
 330. Stable floors of earth 307 
 
 331. " yards, how arranged 307 
 
 326. SUbles, how to build 305 
 
 327. " build them high, reasons for 305 
 
 756. Stacking grain 681 
 
 835. ' ' hay 774 
 
 468. Stains, removing 416 
 
 168. Stallions, size for breeding 118 
 
 80.3. Starch, yield from corn, use of 741 
 
 344. Stathels for stack bottoms 319 
 
 5. Sec. Statistics of New York cattle 
 
 market 56 
 
 1063. Steel plows 921 
 
 1 145. Steers, how to break 978 
 
 79. " training 61 
 
 706. Stirring soil among trees 627 
 
 1. Sec. Stock growing, short pasture in 
 
 autumn 14 
 
 99. Stock, how to obtain water for 74 
 
 1. Sec. Stock, introduction to facts about 13 
 
 86. Stock^keeping, warm 63 
 
 1145. " ma.xims about 977 
 
 1. Sec. Stock the foundation of fai-m im- 
 provement 13 
 
 979. Stone wall fences 873 
 
 980. " how to build 874 
 
 982. " builders' tools 875 
 
 1144. Stones, how to get rid of large 976 
 
 1132. Storing grain in cemented caves 971 
 
 83. Straw for cattle 63 
 
 608. Strawberries, best sorts of, described. 537 
 607. " healthy and profitable . 537 
 612. " preparation of soil and 
 
 cultivation 544 
 
 610. " product per acre 543 
 
 611. " staminate, pistillate, 
 
 hermaphrodite 543 
 
 609. " the Tiibune prize seed- 
 
 lings 542 
 
 1151. Strength of men and horses compared 994 
 
 303. Stucco whitewash 337 
 
 1062. Subsoil plows, shape and use 920 
 
 24. Sec. Substitutes for bread 389 
 
 1066. Substitutes for the plow 923 
 
 1. Sec. Success in farming based on stock 13 
 
 57. Sec. Sugar-cane cultivation 943 
 
 920-32. Sugar-making from maple-trees . 836-43 
 
 1095. Sugar plantations, Bishop Polk's .... 944 
 
 1094. " production in Louisiana 943 
 
 435. " refined, economical 399 
 
 1098. " refined on plantations 947 
 
 1095. " statistics of plantations 943 
 
 1096. " yield per acre, and cost of pro- 
 
 ducing 947 
 
 988. Sulphate of lime, plaster, gypsum. . . 881 
 
 949. Sumac as an ornamental shrub 856 
 
 1026. Superphosphates, adulterations of, to 
 
 detect 897 
 
 1147. Surfeits are physicians' agents 982 
 
 193. Swans, black and white, young swans 
 
 for the table 141 
 
 158. Sweeney in horses, cure for 110 
 
 808. Sweet corn, early, value of 744 
 
 407. " " how to dry and cook ... 389 
 
 947. " gum, a valuable tree 855 
 
 562. " marjoram 494 
 
 438. " potatoes 400 
 
 870. " " best varieties 807 
 
 874. " " harvesting and storing 810 
 565. " " how to grow 496 
 
 872. " " how to set the plants 808 
 
 871. " " making seed beds and 
 
 growing plants. . . . 808 
 
 873. " " soil and preparation 
 
 suitable 809 
 
 873. " " tillage for 809 
 
 870. " " where they can be 
 
 grown 806 
 
 6. Swine, raw food, or cooked 25 
 
 3-15. Swine-feeding experiments 20-30 
 
 6. " weeds 25 
 
 1140. Table of weights of bushels 974 
 
 568. Tables of plants and rows per acre . . 499 
 
 1005. Tan bark as manure 888 
 
 1015. Tanners' and glue makers' waste for 
 
 manure 893 
 
 921. Tapping maple-trees 836 
 
 713. Taylor, or Bullit grape 631 
 
 434. Tea, how to prepare black 399 
 
 433. " its value as food 399 
 
 1171. Teazles as a crop, how to grow 100.3 
 
 1131. Temperature at which plants flourish 971 
 
 986. Theory of fertilizing seeds 878 
 
 1151. Things to be thought about 993 
 
 1139. Thoroughness, what it produces .... 973 
 757. Tlirashing grain, machines ra. flails. . 682 
 705. Thumb pruning trees and plants .... 627 
 
 562. Thyme 494 
 
 54. Sec. Tile draining, where and when it 
 
 should be 904 
 
 1053. Tile draining, cost and durability of 
 
 tiles 914 
 
 1051. " " descent and depth nec- 
 
 essary 913 
 
 1049. " " how it should be done 912 
 
 1047. " " its importance and va- 
 
 lue 910 
 
 1060. " '■■ laws needed to regulate 917 
 
 1050. " " laying off ground, 
 
 ditching, and laying 
 
 tile 913 
 
 1059 " " proper shape of 916 
 
 1052. " " what it does for land. 914 
 
 1048. " " what land should be 
 
 drained 91 1 
 
 1055. " " with brush, poles, etc. 915 
 1057. " " with cement tiles 916 
 
 1054. " " with wooden tubes. . . 915 
 
 826. Timothy seed, harvesting 766 
 
 840. " when to cut, for seed 778 
 
 1073. Tire-bending machine 924 
 
 294. Toads are insect eaters 263 
 
 59. Sec. Tobacco cultivation 953 
 
 1116. Tobacco barn or curing house de- 
 scribed 963 
 
 1110. Tobacco, cost and profit of growing . 959 
 1106. " exports and consumption . . 954 
 
1U4. Tobacco, cultivation, worming, top- 
 ping, priming 001 
 
 1115. " curing, splitting leaf, string- 
 ing, lianging, handling, 
 taking down, packing . . . 9G2 
 
 1107. exhausting nature of the 
 
 crop 950 
 
 1108. " growing in Connecticut. .. . 1)57 
 
 1109. " " in New York 957 
 
 1 105. " history of 953 
 
 1111. " rules of a Florida grower . . 960 
 
 1112. " rules of transplanting 900 
 
 1113. " selecting and preparing 
 
 ground 961 
 
 1118. " soil, when to plant 904 
 
 1117. " where it may be grown .... 964 
 201. " worms described, and rem- 
 edy 238 
 
 713. To-Kalon grape 032 
 
 441. Tomatoes, to preserve and use 401 
 
 441. " catsup and sauce 402 
 
 559. " varieties and cultivation. . 490 
 
 744. Top-dressing wheat land 670 
 
 79. Training steers 61 
 
 724. Traminer grapes compared with Del- 
 aware 638 
 
 102. Treatise on feeding 70 
 
 947 . Tree, a rare ornamental and medicinal 855 
 033. Tree-planting, preparation for 565 
 
 935. Trees, adaptation of kinds to locations 845 
 
 943. " age of 852 
 
 508. " and plants upon an acre 499 
 
 61. Sec. Trees and tree planting 845 
 
 942. Trees, antediluvian 852 
 
 936. " descriptive list of hardy 840 
 
 941. " evergreens, transplant in sum- 
 mer 851 
 
 951. " forked, to prevent from splitting 858 
 954. " for sandy wastes 858 
 
 945. " growing from seeds 853 
 
 032. " how to move large ones 563 
 
 939. " how to plant them 850 
 
 937. " planting forest, what has autl 
 
 can be done 848 
 
 35. Sec. Trees, propagation and cultiva- 
 tion - . . 555 
 
 946. Trees, seeds of, how diffused 855 
 
 944. " value of, in cities 853 
 
 704. " watering newly transplanted . . 627 
 
 934. " what kind to plant 845 
 
 957. " what to plant for fuel 861 
 
 938. " when and whv to plant 849 
 
 940. " where to plant them 851 
 
 1144. Trenching, wliat it is WO 
 
 298. Trout and trout streams 270 
 
 846. Tun of hay, cubic feet in 780 
 
 1017. Turf ashes for manure— the old sod 
 
 fence 894 
 
 189. Turkeys, improving the breed 138 
 
 189. " profits of raising 137 
 
 189. " wild and domesticated, how 
 
 to feed 1 35 
 
 264. Turnip-fly preventive 241 
 
 876. Turnip.s ;vs a field crop, how and when 
 
 to sow 811 
 
 876. " best manure for 812 
 
 521. " cultivation 471 
 
 1144. " how to winter 976 
 
 622. " protection from insects 471 
 
 878. Turnips, ruta bagas, how to grow . . . 814 
 
 877. " storing and winter feeding. 813 
 
 713. Union Village grapes 631 
 
 80. Unruly animals, how made so 62 
 
 1088. Upland cotton, cost of growing 938 
 
 1092. " '■ inniinois 941 
 
 1087. " or short-staple cotton 937 
 
 944. Value of trees in cities 853 
 
 1134. " of various food substances ... . 972 
 
 308. Ventilation of houses, rooms, cars. . . 283 
 
 577. Verbenas, list of 610 
 
 457. Vermin remedies 409 
 
 481. Vinegar, how to make 429 
 
 919. " of sorgo, how made 835 
 
 719. Vines on city lots 637 
 
 720. " on walls 637 
 
 721. " ringing or girdling 637 
 
 713. Vineyards, how to plant and cultivate 030 
 
 732. " in California 653 
 
 1137. Vitality of seeds, limit of 973 
 
 352. Walls of concrete 330 
 
 401. Washing machines 413 
 
 402. " soft water necessary 414 
 
 962. Waste land around fences 867 
 
 52. Sec. Waste land in the State of N. Y. 862 
 
 1140. Waste not, want not 979 
 
 1039. Water as a fertilizer, value of 903 
 
 80. " for stock in winter 04 
 
 17. Sec. Water for the farmery 30n 
 
 1151. Water heated in wooden vessels 991 
 
 540. " melons, how to grow 481 
 
 385. " suitable for cooldng 30u 
 
 753. Weeding wheat 679 
 
 1144. Weeds, how not to grow 970 
 
 245. Weevil in grain, how to destroy .... 208 
 1 140. Weights, bushels of grain, and other 
 
 things 974 
 
 339. Wills, bucket, self-emptying 315 
 
 338. " causes of impure water 314 
 
 336. " horizontal, how made 313 
 
 338. " how to look into 315 
 
 335. " how to dig 313 
 
 337. " on hills 314 
 
 123. Western mutton 91 
 
 700. Wheat, ability of America to produce 086 
 391. " bread, how to make good. . . 366 
 750 " drilling, advantage of 075 
 
 744 " experiments and details cf 
 
 growing 669 
 
 343. " exposed to rain 319 
 
 744. " fertilization of 668 
 
 701. " growing in different States . . 689 
 768. " heaving out, how to prevent. 698 
 749. " how much seed is required . . 673 
 
 764. " how stored and handled .... 095 
 
 765. " how to preserve in bins 690 
 
 422. " hulled, boiled, wheat groats. 395 
 
 707. " insects, how destroyed 698 
 
 240. " insect vs. weevil 209 
 
 744. " lodging, to prevent 070 
 
 246. " midge described 211 
 
 273 " " parasite of the 247 
 
 745 " naked fallows for 071 
 
 749. " jmmber of grains per foot and 
 
 acre 074 
 
 744. " plaster, salt, and top-dressing 670 
 
 743. " preparation of .soil for 667 
 
 763. " price 60 years ago 694 
 
 759. " product per acre 685 
 
762. 
 751. 
 752. 
 753. 
 753. 
 755 
 766. 
 746. 
 753 
 754. 
 747. 
 362. 
 3S1. 
 1. 
 109. 
 1072. 
 370. 
 369. 
 469. 
 
 470. 
 
 735. 
 
 473. 
 
 43. 
 
 732. 
 
 736. 
 474. 
 
 Wheat, red and white 
 
 ' ' seed, how to select and prepare 
 
 " " pickling of 
 
 " " wliit becomes of it . 
 
 " seeds in a Imshel 
 
 " shookiug in lield 
 
 " smut considered 
 
 ' ' spring wheat, growing 
 
 " weeding 
 
 " when it should be cut 
 
 *' when to sow 
 
 Whitewash of zinc and lime 
 
 ' ' permanent 
 
 Sec. Wild cattle, fun in handling . . . 
 
 Wild cherry leaves poison cattle 
 
 Willow-peeling machine 
 
 Windmills, self-regulating 
 
 " their use 
 
 Wine, domestic, currants and other 
 
 fruit 
 
 Wine, elderberry 
 
 " from various grapes 
 
 " grape 
 
 Sec. Wine makers' rules, grapes for 
 
 wine 
 
 Wine making and wine vaults in 
 
 California 
 
 Wine making, domestic rules of 
 
 " " in California 
 
 " " rules 
 
 " mashing and pressiag grapes, 
 fermentation, racking, bot- 
 tling 
 
 425 
 
 475. Wine of tomatoes 420 
 
 471. " rhubarb 423 
 
 734. " what grapes make good 057 
 
 075. Winter cherries 598 
 
 748. " wheat, when to sow 673 
 
 39. Wintering cows 40 
 
 972. Wire fence, detail of cost 870 
 
 259. ' ' worms, remedy for 2«7 
 
 761. Wisconsin wheat growing, cost of . . . 091 
 
 955. Wood and coal, economy of, compared 859 
 
 1018. " ashes for manure 895 
 
 1019. " " substitute for 895 
 
 341. Wooden pipes, durability of 817 
 
 955. " value of kinds compared 859 
 
 129. Wool, how to cleanse 96 
 
 4. Working pigs 24 
 
 200. Worm killers 238 
 
 261 . Worms infesting tobacco 238 
 
 254. " protection from " measuring" 
 
 worms 228 
 
 251. " that infest apple and peach 
 
 trees 220 
 
 502. Wormwood 494 
 
 1038. Worn-out lands, how restored 902 
 
 23 1 . Wrens, their value and beauty 1 82 
 
 401. Wringing machines, value of 413 
 
 397. Yeast cakes, how made 376 
 
 23. Sec. Yeast, how made and how to use 366 
 
 396. Yeast, how to make it 375 
 
 391. " how to make of hops 369 
 
 391. " of potatoes, how made 367 
 
 400. ' ' substitutes for 381 
 
 1144. Young farmers, maxims for 975 
 
INDEX OF NAMES OF PERSONS 
 
 Referred to as authi)rity, or quoted from, in the com]iUation of tliis work, independent of editors 
 of agricultural journals. Most of those mentioned are practical farmers, now living ; and, so far 
 as possible, the residence of each is given, to enable others to consult them if desired. The list 
 shows that the work is made up of opinions and practices of the present rather than of the past, 
 and that its character is American. 
 
 Page 
 
 Adams, J. C, Seymour, N. T 10 
 
 Aikin, Ex-Governor, South Carolina 949 
 
 Aldrich, William, Pennsylvania 644 
 
 Allen, J. Fiske, Salem, Mass 631 
 
 " Lewis F., Black Hock, N. Y 88 
 
 647, 606, 886 
 
 " Mr., Burlington, N. J 623 
 
 Alton, J. E,, Quinsigamond, Mass 137 
 
 Amierson, Pr. , Scotland 889 
 
 Andrews, S. N., Herkimer Co., N. T 459 
 
 Arkwright, Sir Richard, England 933 
 
 AruLstroug, James, Knoxville, Tenn 731 
 
 Avery, E. H., Wampsville, Madison Co., 
 
 N. Y 138 
 
 Ball, Mrs. Lynda, Clevit, Eaton Co., Mich.. 369 
 
 Bamford, R. B., England 793 
 
 Barber, H., Juneau, Wis 697 
 
 Barker, George F., Charlcstown, Mass 892 
 
 Barnard, Lyman, Steuben Co., N. Y 74 
 
 Barnum, P. T., New York city 146, 879 
 
 Barrv, P., Rochester, N. Y COo 
 
 Bartiett, Levi, Warner, N. H 777 
 
 Mr., Dutchess Co., N. Y 88:5 
 
 Beach, Lucius, Port Huron, Mich 298 
 
 Beatson, Gen., formerly commanding at St. 
 
 Helena 79-5 
 
 Beatty, Dr., Terrebonne, La 94 i 
 
 " Messrs., Aurora, Cayuga Countv, 
 
 N. Y 147, 603 
 
 Beckner, Isaac, Goshen, Elkhart Co., Ind. . 794 
 
 Beckwith, Dr., Connecticut 790 
 
 Belding, W. H. and David L., Dutchess Co., 
 
 N. Y 881 
 
 Bell, Thomas, Monmouth Co., N. J 86 
 
 Benjamin, J. P., New Orleans^ La 947 
 
 Bennett, Dr., Boston, Mass 491 
 
 " Mrs. M., Auburn, Mass 137 
 
 BercKinans, Louis E , Augusta, Ga 611 
 
 Bergen, Adrian G., Long Island 345, 592 
 
 J. G., Brookl5-n, L. 1 227, 796, 803 
 
 Biddle, Nicholas, Philadelphia, late of 861 
 
 Bigelow, Mr. , Flushing, L. 1 175 
 
 Bill, James A., Lyme, Ct 717 
 
 Bird, Jonathan, Belleville, N.J 449 
 
 Birney, William, SpringfieM, Mass 771 
 
 Blanchard, Mr., Boston, Mass 75 
 
 Bliss, Benjamin K., Springfield, Mass 500 
 
 P.lodgett, Judge, Lewis Co., N. Y 856 
 
 Blunt, Hon. Joseph, New York city, late of 861 
 
 Bovie, C, Gullprairie, Mich 30 
 
 Bowen, Mr., Orleans Co. , N. Y 88 
 
 I Braekett, Chas., Rochester, Fulton Co., Lid. 676-8 
 
 Brewster, E. M., Griswold, Ct 24 
 
 Brigham, Otis, Wcstborough, Mass 35 
 
 Brocksbank, Mr. , Hudson, N. Y 632 
 
 Brodie, W , England 195 
 
 Brooks, C Edward, Orange Co., N. Y 38 
 
 ' ' John, Massachusetts 64 
 
 Brown, Alpha, Eaton, N. Y 180 
 
 " C. B., Alton, 111 924 
 
 " J. L., Indianapolis, Ind 333 
 
 " Lewis B., Westchester Co., N. Y. . . 108 
 
 " Mr., North Stonington, Ct 797 
 
 " Rufus, Chelsea, Orange Co., Yt.l45, 794 
 
 Bryant, Mr., Jessamine Co., Ky 731 
 
 Bryson, Miss Ann, Macon Co.,'N. C 582 
 
 Buchanan, Micajah, South Carolina 853 
 
 Buck, Wm., Herkimer Co., N. Y 459 
 
 Buckholder, John, Adams Co., Penn 581 
 
 Buckingham, James, Illinois 28 
 
 " Leroy, Cadiz, Cattaraugus Co., 
 
 N. Y 19 
 
 Buckman, Professor, England 767 
 
 Buckminster, Wm., Framingham, Mass. .. 444 
 
 Buist, Robert, Philadelphia 610 
 
 Bulkley, H. G., Kalamazoo, Mich 830 
 
 Burden, Mr., South Carolina 930 
 
 Burgwin, Messi-s., Halifax, N. C 714 
 
 Burnett, Judge, Cincinnati, Ohio, late of . . 852 
 Burnham, Asahcl, Arkwright, Cattaraugus 
 
 Co., N. Y 784 
 
 Butler, Charles, White Plains, N. Y 638 
 
 Butterfield, Col . , Utica, N. Y 74 
 
 Capron, Col., Marvland 870 
 
 Carpenter, C. W , "jJlount Gilead, Ohio 693 
 
 Jesse, Elmira. N. Y 87, 443 
 
 L., Rutland, Vt 843 
 
 Wm. S., New York city 222, 
 
 294, 572 
 
 Carson, Col., South Carolina, late of 960 
 
 Carter, J. J., Hornville, Chester Co., Penn. 21 
 
 " Mr., Pittsfield, Mass 786 
 
 Cartwright. Mr., England 933 
 
 Cattell,"j. D., Salem, Columbiana Co., Ohio 252 
 Oavenach, Tliomas, Brooklyn, L. I. . . . 525, 664 
 
 Chamberlain, Dr., Chicago, 111 722 
 
 Chenery, W. W., Watertown, Mass 50 
 
 Chesnut, Col. James, South Carolina 940 
 
 Chetwood, Mr., Burlington, N. J 623 
 
 Chew, S. H., Fayette, Ky 731 
 
 Chinn, Judge. Baton Rouge, La 947 
 
 Clark, Benjamin, Marcellus, N. Y 958 
 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 INDEX. 
 
 1027 
 
 
 
 
 Page 
 
 • 
 
 
 Page 
 
 
 
 Clark, E. C, New Haven, Ct 
 
 Clay, Samuel H., Bourbon Co., Ky. . . 
 
 
 
 
 
 
 
 
 
 
 . 19, 2.3 
 
 Eyre, Prestun,. Darlington, Penn 
 
 
 827 
 
 
 
 
 
 Clayton, Hon. John A., New Castle, 
 
 3el., 
 
 
 Fairbrothers, C. \\'., Saxton's River, V 
 
 
 781 
 
 
 
 
 
 
 224 
 
 590 
 820 
 
 Fairchild, J. W., Hudson, N. Y 
 
 Faraday, Professor, England 
 
 
 808 
 347 
 
 
 
 Clifford, Benjamin, Norwich, Vt 
 
 
 
 Cloud, Dr., Alabama 
 
 
 933 
 
 Farnum, J., Uxbridge, Mass 
 
 
 783 
 
 
 
 
 
 Coats, S. N., Philadelphia 
 
 
 600 
 
 Fawkes, Mr., Lancaster, Penn 
 
 
 922 
 
 
 
 
 
 Cockrill, R. , Nashville, Tenu 
 
 
 117 
 
 Fay, Mr., Lynn, Mass 
 
 
 770 
 
 
 
 
 
 Coe, 0., Port Wa-hington, Wis 
 
 
 923 
 
 Feeks, Mr., Oyster Bay. L. I 
 
 
 478 
 
 
 
 
 
 Coit, Mr., Norwich, Ct 
 
 
 446 
 
 Field, T. W., Brooklyn, L. I 
 
 603 
 
 880 
 
 
 
 
 
 Colburn, Mr., Union, Ct 
 
 
 791 
 
 Fish, A. L., Herkimer Co., N. Y 
 
 
 880 
 
 
 
 
 
 Cole, J. M., Saratoga Springs, N. Y. . . 
 
 
 54 
 
 Fisher, John, Carroll Co., Md 
 
 
 750 
 
 
 
 
 
 Colvin, Richard, Baltimore, Md 
 
 
 175 
 
 Fitch, Dr. Asa, Entomologist of the State 
 
 
 
 
 
 
 Comstock & Cfliddon, Milwaukee, Wis. 
 
 
 923 
 
 of New York 
 
 186 
 
 805 
 
 
 
 
 
 Conger, A. B., Rockland Co., N. Y.. . . 
 Conrad, F. D., Baton Rouge, La 
 
 875 
 
 886 
 
 
 
 381 
 
 
 
 
 
 
 947 
 
 Flagg, Wilson, Massachusetts 
 
 
 850 
 
 
 
 
 
 Coon, A. , Russia, N. Y 
 
 
 469 
 
 I'lint, Chas. L., Boston, Mass. . 42, 75 
 
 76ti 
 
 991 
 
 
 
 
 
 
 
 240 
 
 Foljambe, Joseph, Rotherham, England. .. 
 
 919 
 
 
 
 
 
 Crawford, Rev. John, Gallatin Co., 111. 
 
 
 78 
 
 Fourze, Dr. Victor, Sonoma, Cal 
 
 
 653 
 
 
 
 
 
 Cressinger, J. W., Sullivan, Asliland Cc 
 
 .,0. 
 
 782 
 
 Fowler, Mr , England (steam plow). . . 
 
 
 922 
 
 
 
 
 
 Crocker, Hon. David, Tompkins Co., N. Y. 
 
 675 
 
 Frantz, Andrew M.. Lancaster, Penn.. 
 
 
 53 
 
 
 
 
 
 Crompton, Mr., England 
 
 
 933 
 
 Freeman, I. G., Iowa 
 
 
 834 
 
 
 
 
 
 Cumings. 0. S., Trenton Falls, N. Y.'. . 
 
 
 459 
 
 French, Joseph, Selden, L. I 
 
 
 651 
 
 
 
 
 
 Curtenas, Peter J , New York, late of. . 
 
 
 918 
 
 Judge, Exeter, N. H 
 
 HV 1 
 
 910 
 
 
 
 
 
 Curtis, Mr., Tompkins Co., N. Y 
 
 Cushman, S. D., South Bend, Ind 
 
 
 880 
 
 
 
 780 
 
 
 
 
 
 
 343 
 
 Froehling & Kohler, California 
 
 
 602 
 
 
 
 
 
 Dadd, Dr. Geo. H. (V. S.), Cliicago, H: 
 
 ...35, 77 
 
 Frost, Charles, Wayne Co., Ind 
 
 
 116 
 
 
 
 
 
 Dana, Dr., Boston, Mass 
 
 
 888 
 
 Fuller, Andrew S., Brooklyn, L. I. 223 
 
 632 
 
 ,568 
 
 
 
 
 
 Datnall, M. D., Bainbridge, Ind 
 
 
 806 
 
 Fulton, John, Richland Co., Ohio 
 
 
 675 
 
 
 
 
 
 
 
 946 
 
 Garlick, Dr., Cleveland, Ohio 
 
 
 274 
 
 
 
 
 
 " James B., Charleston, S. C, late of. . 
 
 265 
 
 Gates, W. P., Windham, Ct 
 
 
 
 
 
 
 
 " William, Marengo, Morrow Co., 
 
 Ohio 
 
 230 
 
 Geddes. Hon. Geo., Fairraount, Onondaga 
 
 
 
 
 
 
 Pittsfield, Vt 
 
 
 843 
 
 Co.. N. Y 683, 750, 754, 886 
 
 926 
 
 967 
 
 
 
 
 
 Dawson, George, Albany, N. Y 
 
 
 271 
 
 Gilberts, A. Hamilton (letter from Austria) 
 
 054 
 
 
 
 
 
 Day, Mr., Genesee Co., N. Y 
 
 
 886 
 
 Glasgow, William, near St. Louis, Mo. 
 
 
 605 
 
 
 
 
 
 Delafield, J., Geneva, N. Y 
 
 752 
 
 912 
 
 Glover, Townend, Washington, D. C. 
 
 
 204, 
 
 
 
 
 
 Denton, Baily, England 
 
 
 768 
 
 
 '210 
 
 215 
 
 
 
 
 
 Dickenson, A. B., Hornby, Steuben 
 N. Y 74, 89. 227, 34.5,441, 
 
 Co 
 
 
 Gold T S Cornwall Ct 
 
 
 
 
 
 
 
 672 
 
 908 
 
 Golding, Mr., Orange Co., N. Y 
 
 
 886 
 
 
 
 
 
 Dickinson, W. D., Victor, Ontario Co., N. Y. 
 
 94 
 
 Goldsborough, M. t., Ellenboro', Md. . 
 
 
 685 
 
 
 
 
 
 Dikeman, Mr., Oneida Co., N. Y 
 
 
 787 
 
 Goldsmith, Mr., Orange Co., N. Y"" 
 
 
 886 
 
 
 
 
 
 Dimond, J. M., Eaton Co., Mich 
 
 
 240 
 
 Goodrich, Rev. Chauncey E., tJtica, N. 
 
 y.. 
 
 786 
 
 
 
 
 
 Dixie, R., Painesville, Ohio 
 
 
 227 
 
 Goodwin, P.M., Kingston, Luzerne Co. 
 
 , Pa. 
 
 223 
 
 
 
 
 
 Dodge, Hon. W. C, Minnesota 
 
 
 69^^ 
 
 Gorgas, John, Wilmington, Del 
 
 
 195 
 
 
 
 
 
 " Mr. , Long Island 
 
 
 231 
 
 Gould, J. Stanton, Hudson, N. Y 
 
 
 748 
 
 
 
 
 
 
 
 811 
 
 Gowdy, G., Burlington. N. J 
 
 Grant, Dr. C. W., lona, near Peekskill, 
 
 623 
 
 
 
 Doolittle, H. H., Oak's Corners, Ontario 
 
 (;o., 
 
 
 
 N. Y 
 
 
 547 
 
 N. Y 555, 
 
 632 
 
 641 
 
 
 
 
 
 Downing, Charles, Newburg, N. Y 
 
 595 
 
 873 
 
 Gravson, Mr., near London, England . 
 
 
 468 
 
 
 
 
 
 Drew, Dr. 0. W., Waterbury, Vt. ... 
 
 
 820 
 
 Greeley. Hon. Horace, New York city. 
 
 831 
 
 894 
 
 
 
 
 
 Dubreuil, Mons., France 
 
 
 883 
 
 Green, H. Carl, Warren Co., Penn 
 
 
 530 
 
 
 
 
 
 Dunglison, Dr., Scotland 
 
 
 492 
 
 Gregory, J. J. H., Marblehead, Mass.. . 
 
 
 473 
 
 
 
 
 
 Dutcher, Josiah, New York city, late of . . . 
 
 919 
 
 Philo, Chester, Orange Co. , N. Y. 38, 76 
 
 
 
 
 
 Dzierzon, Mr , Munich, Germany 
 
 
 165 
 
 Grimes, Nahum, Marcellus, N. Y 
 
 
 958 
 
 
 
 
 
 Eastman & Snell, Maineville, Warren Co., 
 
 
 Hall, Dr. {Journal of Health), New York 
 
 
 
 
 
 
 Ohio 
 
 
 807 
 
 city 
 
 242, 
 
 365 
 
 
 
 
 
 Eldridge, Mrs. Lydia, Andover, Mass. . 
 
 
 136 
 
 Hall, A S., Maiden, Mass 
 
 
 235 
 
 
 
 
 
 
 
 81 
 
 Halliday, Daniel, Ellington, Tolland Co., Ct. 
 Hambleton, Wm., Ea.st Hamburg, Erie Co., 
 
 350 . 
 
 
 
 Ellsworth, Henry L., Lafayette, Ind., 
 
 late 
 
 
 
 of 19, 
 
 71fi 
 
 736 
 
 N. Y , 
 
 
 740 
 
 
 
 
 
 Elmer, Dr. Wm., Bridgeton, N. J 
 
 
 53 
 
 Harastzhy, Col. , Sonoma, Cal 
 
 
 053 
 
 
 
 
 
 Emerson, Ed., Hollis, Mass 
 
 
 333 
 
 Harbison, Messrs. , Pennsylvania, and Sacra- 
 
 
 
 
 
 
 " Geo. B., Boston, Mass 
 
 Emory Brothers, Albany, N. Y 
 
 
 991 
 934 
 
 
 
 17:; 
 933 
 
 
 
 Hargreaves, Mr. , England 
 
 
 
 
 Engle, Manlius, West Almond, Alleghany 
 
 
 Harmon, General, Wheatland, Monroe Co., 
 
 
 
 
 
 
 Co., N. Y 
 
 Erhard, Charles F., Ravenswood, N. Y 
 
 '534 
 
 842 
 606 
 
 NY 
 
 88, 
 
 668 
 209, 
 
 
 
 Harris, Dr., Cambridge, Mass., late of. 
 
 
 
 Evans, Joseph, Warren Co., Ohio 
 
 
 807 
 
 
 2i2, 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
10:^8 
 
 INDEX. 
 
 Page' 
 
 Harris, Hiram, Ohio 7a4 
 
 Josepli, Rochester, N. Y 728, tiOO 
 
 Harrison, Isaac, Burlington Co., N. J 30 
 
 Hjrroiui, C. H., Patterson's Slills, Iowa Co., 
 
 Jlich "84 
 
 Hart (Jr.), Nathan, West Cornwall, Ct 716 
 
 llartbUurn, C. W., Burlington Co., N. J 30 
 
 Hartstein, Dr., PoiipelsJorf, Prussia 670 
 
 Hatch, Thorn IS E., Keene, N. H 77 
 
 Haxtun, E., Beekmiu Township, Dutchess 
 
 Co., N. Y 54 
 
 H lyilen, E.lwara, E;ist Hartford, Ct 39 
 
 Hayes, Mr., Newark, N. J 601 
 
 Head, Harvey, Paris Hill, N. Y 783 
 
 Hedges, A., Bourbon, Ky 731 
 
 Heirstera, Samuel, Chester Co., Penn 670 
 
 Heudrickson, Geo., Eose Township, Ham- 
 say Co. , Minn 692 
 
 Herjien. Mons., Paris, France 411 
 
 Herrick, E. C, New Haven, Ct 233 
 
 J., Lyndeborough, N. H 840 
 
 Hcstou, Lewis E.. Genesee Co., N. Y 669 
 
 Heusted, Mr., Ulster Co., N. Y 886 
 
 Heutchcraft, J. , Bourbon, Ky 731 
 
 Hickey, Col., Baton Rouge, La 940 
 
 Daniel, West Baton Rouge, La 940 
 
 Hickman, Wellington, Chester Co., Penn. . . 693 
 
 Hilderbrandt, Squire, Stai'k Co., Ohio 67-5 
 
 Hill, Noble, Caton, Steuben Co., N. Y 621 
 
 Hite, Geo. H., Morrisanii, Westchester Co., 
 
 N. Y 227, 420, 463 
 
 Hoag, Thomas, Somhanoek. N. Y^ 22 
 
 -Hocaday, Mr., Clarke Co., Ky 731 
 
 Holbrook, E.-c-Governor, Burlington, Vt 917 
 
 Hooui, Thomas, Ocean Co., N. J 30 
 
 Hooker, H. E., Rochester, N. Y 541 
 
 Horsford, Professor E. N., Cambridge (Uni- 
 versity), Mass 381, 427 
 
 House, G. C, Lowville, N. Y 282 
 
 Hovey, C. M., Boston, Ma.ss 185 
 
 Howard, C, England 680 
 
 lliyt, Freeman, Sumterville, S. C 268 
 
 Hubbard, Isaac, Claremont, N. H 65 
 
 lUime, Professor Wm., Charleston, S. C 601 
 
 Hunt, L G., Kalamazoo Co., Mich 691 
 
 " Otis, Eaton Village, N. Y 32 
 
 Hussey, Obcd, Baltimore, late of 772 
 
 Hustman, Geo , Missouri 640, 045 
 
 Hutchins, Warreu, Bethel, Vt 738 
 
 Hutchinson & Wickcrsham, New York city. 871 
 Hyde, James F. C, Newton Centre, Mass. . 788 
 Ingerson, C. W., New Bremen, Lewis Co., 
 
 N. Y 782 
 
 Jackson, J., Butternut Ridge, Ohio ..;.... 669 
 
 " Prof. Samuel, Penu. University. . . 381 
 
 Jaques, Col., Charlestown,Mass., late of. 42, 444 
 
 J.irvis, Hon. Wm., Weathersfield, Vt 83 
 
 Jivy, John, Bedford, Westchester Co. , N. Y. 851 
 J.,'tTeris, Capt. James, Chester Co., Penn ... 29 
 
 Jenks, Professor, Boston 185 
 
 Jennings, R (V. S.), Philadelphia, Penn... 114 
 
 Jewett, Solomon W., Middlebun', Vt 101 
 
 Johnson, Col. B. P., Albany, N. Y 752 
 
 " Jasper, Genesee Co., N. Y 839 
 
 " L. , Washington, Mass 843 
 
 " Professor S. W., Yale College, 
 
 New Haven, Ct 31, 892, 901 
 
 Johnston, John, Geneva, N. Y 670, 911-12 
 
 Jones, John, Middleton, Del 42, 444 
 
 Kanouse, John C, Wisconsin 615 
 
 Keeley, J. T., Alleghany Co., N. \' 782 
 
 Kellogg, E. C, Hartford, Ct 274 
 
 Kelly, William, Ehinebeck, N. Y 752 
 
 Kendall, G. W., New Braunfels, Texas 92 
 
 Kenny, K. K., Lorain Co., Ohio 797 
 
 Kent, E. N., U. S. Assay Office, Philadelphia 396 
 
 Kerns, Andrew, Grundy Co., Ill 567 
 
 Ketchum, Mr., Buffalo, N. Y 773 
 
 Kidd, Mr., England 618 
 
 King, Rev. David, Vernon, I'lumbuU Co., 
 
 Ohio 843 
 
 Kingsbury, H. C, Medina Co., Ohio G75 
 
 Kinnard, Lord, England 899 
 
 Kirk, B. P., Chester Co., Penn 21 
 
 Knox, Rev. Mr., Pittsburg, Penn 540 
 
 " Mr., Worcester, Mass 920 
 
 Ladd, Wm. H., Jefferson Co., Ohio 90 
 
 Lampadius, Professor, Germany 398 
 
 Lampher, Egbert, West Lowell, Lewis Co., 
 
 N. Y 799 
 
 Landis, Abram, Manheim, Penn. 53 
 
 Langstroth, Rev. L. L, Philadelphia 175 
 
 Langworthy, B. F., Alfred Centre, N. Y. . . 138 
 Lapice, Mons. .(sugar planter), Louisiana. . . 947 
 
 Lathrop, Paoli, South Hadley, Mass 64 
 
 Lawrence, Wm. B., Newport, R. 1 629 
 
 Lawton, Wm, New Rochelle, N. Y. . . . 218, 223 
 
 Le Contour, Col., Isle of Jersey, Eng 45 
 
 Le Due, Wm. G., Hastings, Westchester Co. , 
 
 N. Y 229 
 
 Lee, Major William, Western Pennsylvania. 85 
 
 Leeds, Mr. (architect), Philadelphia 289 
 
 Legare, Mr., Charleston, S. C 981 
 
 Legnitz, Professor, Elden, Holland 880 
 
 Leland, Major William, Texas 92 
 
 Lester, C. Edwards, Newark, N. J 490 
 
 Lieber, Oscar M., State Geologist of South 
 
 Carolina 752 
 
 Liebig, Professor, Germany. . . 72, 300, 374, 437 
 Lincoln, Charles, North Bridgewater, Mass. 226 
 
 " Wm. S., Worcester, Mass 445 
 
 Liniiley & Loudon, England 556 
 
 Lindsley, Hon. Wm. D., Sandusky City, O. 211 
 Livingston, Chancellor, Columbia Co., N.Y., 
 
 late of 758 
 
 Locke, Dr. G. J., Danby, Rutland Co., Vt. . 724 
 Longworth, Nicholas, Cincinnati, Ohio, 
 
 late of 538, 541, 606 
 
 Lothrop, H. A., Sharon, Mass 924 
 
 Lounsberry, Wm., Com'y. 20tli Regiment 
 
 N. Y. V 380 
 
 Lovering, Joseph S., Philadelphia , 831-2 
 
 Lovet, Capt., Beverly, Mass 550 
 
 Lowman, H. E., Elmira, N. Y 443 
 
 Lyman, II., Johnstown, Wis 297 
 
 Lynde, Mrs. Ruth H., New Bedford, Mass. 516,591 
 
 Macondray, Capt. , California 174 
 
 Macy, Josiah, Westchester Co., N. Y 307 
 
 Madison, James, late President of the U. S. 933 
 
 Mahan, P. J., Philadelphia 175 
 
 Maillard, Dr., France 537 
 
 Manning, Col. (sugar planter), Louisiana. . . 945 
 
 Mansfield, E. D., State Statistics, Ohio 973 
 
 Mapes, Prof., New York city .73,576, 608, 920, 923 
 
 Marks, Mr., Onond.iga Co., N. Y 886 
 
 Martin, Gen., Bayou La Fourche, La 945 
 

 
 
 
 
 
 
 INDEX. 
 
 1029 
 
 
 Martin, Wm., Dalilonega, Ga 
 
 Mason, S. P., Walnut Creek, N. Y 
 
 Page 
 
 582 
 085 
 
 Peirce, M. R., New York 
 
 Page 
 311 
 
 Pell, Robert L., Ulster Co., N. Y.. 249 
 
 209, 582 
 
 
 Mather, Jos. H., Goshen, N. Y 
 
 217 
 
 1 Percy, Dr., England 
 
 .... 351 
 
 
 
 ■ " W., Cuyahoga Co., Ohio 
 
 822 
 
 Periam, Jno. , Chicago 
 
 .... 235 
 
 
 
 Matson, J., Bourbon Co., Ky 
 
 781 
 
 Perry, A. G., Newark, Ohio 
 
 .... 20 
 
 
 
 Matthews, Mr., Durham, N. H 
 
 102 
 
 ' ' James, New York city 
 
 .... 381 
 
 
 
 M.ittoon, Arannah, Washington, Mass. . . . 
 
 843 
 
 " P. H., Collins Centre, N. Y 
 
 .... 218 
 
 
 
 McCall, Henry, Bayou La Fourche, La 
 
 946 
 
 Peters, Hon. Richard, Atlanta, Ga. . . 
 
 265, 681 
 
 
 
 •' John R., Austin, Texas 
 
 2(;5 
 
 " Hon. T. C, Darien, Genesee 
 
 Co., 
 
 
 
 McCoUum, A., Eayou La Fourche, La. ... 
 McKunn, John. Gravescnd. L. I 
 
 1)46 
 801 
 
 NY 74 
 
 862, 886 
 .... 89 
 
 
 Pettibone, Mr., Manchester, Vt 
 
 
 Mead, Peter B., New York city 
 
 227 
 
 Peyton, General, Richmond, Va 
 
 .... 714 
 
 
 
 Mears, Thomas D., Wilmington, N. C 
 
 951 
 
 Phelps, Charles B., Colebrook, Ct 
 
 .... 498 
 
 
 
 Jleclii, J. J., England 27, 86 
 
 887 
 
 Philippar, Mons,, Versailles 
 
 .... 697 
 
 
 
 Metcalf, C. L., Franklin, Mass 
 
 908 
 
 Pitcher, Edwin, Martinsburg, N. Y. . . 
 
 .... 457 
 
 
 
 Middaugh, Mr.. Red Wing, Minn 
 
 692 
 
 Plumb, Mr., Onondaga Co , N Y 
 
 .... 75 
 
 
 
 Middleton, Col., South Carolina 
 
 116 
 
 Poiteau, Mons. , France 
 
 .... 697 
 
 
 
 Miles, William, England 
 
 112 
 
 Polk, Gen. Leonidas, Bayou La Fourche. . . 943 
 
 
 
 Miller, George, Canada West 
 
 072 
 
 " William, near New Orleans, La.. 
 
 .... 945 
 
 
 
 Mr., La Porte, Ind 
 
 832 
 
 Policy, John C, De Witt, Clinton Co., 
 
 bwa 789 
 
 
 
 •' Samuel, Lebanon, Penn 
 
 " William F., Lancaster. Penn 
 
 633 
 
 58 
 
 
 946 
 
 
 Poulet, Mons , France 
 
 .... 347 
 
 
 Mills, Hiram, Lewis Co., N. Y 
 
 705 
 
 Pratt, General, Rocky Hill, Ct 
 
 .... 791 
 
 
 
 Miner. T. B., Oneida Co., N. Y 
 
 104 
 
 " E. (Jr.), Freeport, Me 
 
 182, 781 
 
 
 
 Molan, Mr., Wayne Co., Ohio 
 
 075 
 
 Priestley, Dr. Jos. , England 
 
 .... 347 
 
 
 
 Moody, Mr., New Jersey .• 
 
 249 
 
 Prince, Wm. R., Flushing, L. I 
 
 .... 2S0 
 
 
 
 Morely, Mr., Onondaga Co., N. Y 
 
 886 
 
 Proctor, J. W. , South Danyers, Mass. . 
 
 .... 819 
 
 
 
 Morgan, John, Lima, N. Y 
 
 100 
 
 Provost, Mr., Williamsburgh, L. I. . . . 
 
 . ... 636 
 
 
 
 " Justin, Stockbridge, Vt 
 
 100 
 
 Purvis, Robert, Byberrv, Penn 
 
 , ... 79 
 
 
 
 Morrill, P., Maine 
 
 765 
 828 
 
 Putnam, Wm. H., Brooklyn, Ct 
 
 Pugh, Thomas, Louisiana 
 
 . ... 716 
 . ... 944 
 
 
 Morris, Col. A. T., Indianapolis, Ind 
 
 
 " L., Windsor, Ashtabula Co., Ohio . 
 
 477 
 
 Quinby, M., Amsterdam, N. Y. . . 165, 
 
 171, 173 
 
 
 
 " Miss, Germantown, Penn 
 
 231 
 
 Quincy, Josiah (Jr.), Boston, Mass. .76 
 
 867, 888 
 
 
 
 Jloses, Chester, Marcellus, N. Y 
 
 924 
 
 Quinn, Mr., Newark, N. J 
 
 297, 524 
 
 
 
 Motley, Mr., Massachusetts 
 
 452 
 
 Raiinesque, Professor, France 
 
 . ... 491 
 
 
 
 Mottier, John L . Cincinnati, Ohio 
 
 658 
 
 Rand, E. S. (Jr ), Boston, Mass 
 
 . ... 185 
 
 
 
 Moxley. J. T., Sheboygan Co., Wis 
 
 Murray, 0. S., Warren Co., Ohio 722 
 
 8iH 
 
 Randall, Capt. New Bedford, Mass. . . 
 
 37 
 
 
 
 807 
 
 Ransom, Robert, Ipswich, England . . . 
 
 . ... 918 
 
 
 
 Mvrick, A. S., Jefferson Valley. N. Y 
 
 784 
 
 Remington, Markhani & Co., Ilion, N.Y 
 
 921,926 
 
 
 
 Napp, Christian, Wayne Co., Ohio 
 
 675 
 
 Renick, Wm., Circleville, Ohio 
 
 ... 22 
 
 
 
 Nash, Professor, New York city 183 
 
 411 
 
 Renwlck, Professor, New York, late of 
 
 ... 346 
 
 
 
 Nearing, Col. Mars 
 
 958 
 
 Reynal, Mons., Ayort, France 
 
 ... 78 
 
 
 
 ^ Newberry, E. F.. Montgomery Co.. Ill 
 
 823 
 
 Rhoads, B. M., Baltimore, Md 
 
 .... 882 
 
 
 
 Newbold, Charles, Burlington, N. J 
 
 918 
 
 Rice, L. B., Middlebury, Vt 
 
 . ... 232 
 
 
 
 Newman, Jonas, Ulster Co., N. Y. 
 
 550 
 
 Richard, Robert (sugar planter), Louisiana. 940 
 
 
 
 Nightingale, Florence, England 
 
 North, E., Rochester, Racine Co., Wis 
 
 277 
 
 
 799 
 
 
 
 920 
 
 Robie, H., Georgetown, N. Y 
 
 .... 781 
 
 
 
 Norris, L., Windsor, A.-ihtabula Co., 0. .477 
 
 485 
 
 Robinson, J. G., Hancock, Vt 
 
 ... 843 
 
 
 
 Norton, John T., Farmington, Ct 441 
 
 448 
 
 " Dr. D. A., Union Springs, N. 
 
 Y.. 340 
 
 
 
 " Capt. Tliomas A., Yarmouth, Mass. 
 
 152 
 
 Roe, «ecley C. , Chester. Orange Co. , N. 
 
 Y. 38, 78 
 
 
 
 Nourse, Joel, Boston, Mass 773 
 
 919 
 
 Rotch, Francis. Butternuts, Otsego Co., N.Y. 260 
 
 
 
 
 21 
 588 
 
 
 ... 714 
 
 
 Olney, C, Pittsford, Monroe Co., N. Y 
 
 Ryan, Mr., Sonoma, Cal 
 
 ... 653 
 
 
 Ostensacken, Baron, Sec. Russian .Legation 
 
 
 Sainsyain Brothers, Los Angeles, Cal. . 
 
 ... 662 
 
 
 
 United States ' 
 
 185 
 848 
 
 Sanborn, Dr. E., Andover, Mass 
 
 Sanderson, John, Bernardston, Mass. . . 
 
 ... 210 
 ... 52 
 
 
 Otis, Amos, Yarmouth. Mass 
 
 
 Oyershire, John F., Athens, Bradford Co., 
 
 
 Savory, Mr., De Kalb Co., Ill 
 
 ... 450 
 
 
 
 
 738 
 538 
 
 Schncicke, Frederick, Cincinnati, Ohio 
 Scribner, J. L., Montpelier, Vt 
 
 ... 659 
 ... 171 
 
 
 
 Pardee, R. G., New York 217, 224 
 
 i Parker, Dr. J. W., Columbia, S. C 
 
 733 
 
 Searls, Wm., E-iton Co., Mich 
 
 ...843 ■ 
 
 - 
 
 i Parsons, L. M., Wakau, Wis 
 
 Sfifi 
 
 Secor. Mr., New Rochelle, N. Y 
 
 ... 548 
 
 
 1 '■ S. B., Flusliing, L.I 
 
 175 
 
 Seymom-, George, Norwalk, Ct 
 
 ... 548 
 
 
 Peabody, Charle.s A., Columbus, Ga 
 
 541 
 
 SheaS, Mr., Dutchess Co., N. Y 
 
 ... 54 
 
 
 [ Peacock, David, New Jersey, late of 
 
 Peake, Mrs. E. M., Hudson, N. Y 
 
 918 
 
 
 ... 173 
 
 
 632 
 
 Shepard, Mr., Saratoga Co., N. Y 
 
 ... 788 
 
 
 \~ Pean, Peter, Clarke, Kv 
 
 731 
 
 Sheppard, Wm., Ann Arundel Co., Md. 
 
 ... 238 
 
 
 1 Pease, Wm., Oswego, N. Y 
 
 781 
 
 Shook, J., Wayne-Co.. N. Y 
 
 ... 675 
 
 
 
 Peck, Mr., Chaplin, Ct 
 
 791 
 
 Sickman, John, Wayne Co., N. Y 
 
 ... 675 
 
 
 
 
 
 
 __] 
 
Small, James, Berwickshire, Scotland 918 
 
 Smith, Ira, Peoria, 111 640 
 
 " J. M., Beaver Co., Penn 794 
 
 Mr., Colchester, Ct 222 
 
 " Robert, Buckiugham, Penn 918 
 
 " R. Biird, Ii-rigatioii Eugineer, En- 
 
 glauil 906 
 
 Smoker, Isaac, Aihliud Co., Ohio 675 
 
 Sneedly, Joel, Fiiltoii. Lancaster Co., Penn. 693 
 
 SiielUng, G. G., South Thomaston, Me 783 
 
 Sostz, Mr., Berks Co., Penn 54 
 
 Soyer, Ale.xis, France 357 
 
 Speer, Alfred. Passaic, N. J 423 
 
 Spencer, Thomas, Cape Girardeau, Mo 718 
 
 Sperry, Mr., Bethany, Ct 790 
 
 " Mr., Che.5hire. Ct 797 
 
 Sprengel, Professor, Germany 888 
 
 Squier, E. G., New York city 941 j 
 
 Starr & Gaylord, Lake City, Minn 692 
 
 Stearns, Charles, Springfield, Miss 317 
 
 Steele, Henry, New Jersey 218 
 
 Stevens, Amlirjse, Genes3e Co., N. Y 672 
 
 Edwin A., Hoboken, N J 919 
 
 " JohnO., South Amboy, N.J., late of 316 
 
 " Paran, Boston, Ma-ss 65 
 
 Stewart, James, Lancaster, Penn 53 
 
 Mr., Erie Co., N. Y 883 
 
 Stone, Dr. (sugar planter), Louisiana 946 
 
 Stoughton, T. M., GreenticM, Mass 449 
 
 Strawn, Jacob, Smgamjri Co., Ill 74 
 
 Sturtevant. E, T., Cleveland, Ohio 170 
 
 Summer, Ool A. G., Pomaria, S. C 238 
 
 Sutter, Mrs., C.ilifornia 174 
 
 Swan, R. J . G;;ieva, N. Y 914 
 
 Sylvester, M . VYayne Co., N. Y 886 
 
 Tanner, J. N., Terrebonne, Bayou La 
 
 Fourche, La 946 
 
 Taylor, James, St. Catherine's, C. W 217 
 
 " John, Caroline Co., Va 872 
 
 " Ju ija, Jericho, Ky 631 
 
 WilUim, Ocean Co., N. J 30 
 
 " War \V., South Dartmouth, Mass. 626 
 
 Teubrook, J. \V., Rockville, Ind 496 
 
 Thatcher, Richard, Darby, Penn 22 1 
 
 Thompson, Gen. Waddy, South Carolina . . 130 j 
 " J. R. (sugar planter), Louisiana 946 I 
 
 Taomion, Mr., D.Uwarc, Ohio 631 
 
 Thorne, Samuel, Wasliington, Dutchess Co., 
 
 N. Y 87 
 
 Tobey, Nathaniel M., Tompkins Co., N. Y.. 191 
 
 Toguo, Dr., Wilmington, N. C 635 
 
 Townsend, Mr., Edisto Island, S. C 715 
 
 Treadwell, Professor, Cambridge, Mass 187 
 
 Treat & Son, Eastport, Me 274 
 
 Page 
 
 Trimble, Dr., Newark, N. J 217, 
 
 219, 220, 225, 231 
 
 Tucker, James, Bayou La Fourche, La 946 
 
 " J. \V., Bayou La Fourche, La 946 
 
 Luther, Albany, N. Y 340, 910 
 
 Turner, Professor J. B., Jacksonville, III... 923 
 Tuttle, Dr. J. T.. Rye, Westchester Co., N.Y. 732 
 Underbill, Dr., Croton Pomt, N. Y. 217, 641, 651 
 
 Ure, Dr., England 396 
 
 Vallejo, General, Sonoma, Cal 653 
 
 Vanmeter, A., Fayette, Ky 731 
 
 Vilmorin, Mons., Paris, France 759 
 
 Voelcker, Dr. Augustus, Cirencester, En- 
 gland 66, 827, 899 
 
 Vreeder, J. P., New York city 297 
 
 Vulkan, Dr. Franz, Eppan, Ihe Tyrol 643 
 
 Wade, Mr., Canada West 87 
 
 Wagoner, Samuel, York, Penn 175 
 
 Wakeman, James, Du Page Co., Ill 568 
 
 Wales, Theron, Windham, Portage Co., 0.. 181 
 Walworth, Mr., St. Lamcnce Co. , N. Y. .. 671 
 
 Ward, Dr , Newark, N. J 538 
 
 Warner, D. W., Sharon Springs, N. Y 194 
 
 Waterbury, Dr., New York city 73 
 
 Watts, James H., Rochester, N. Y C31 
 
 Way, Professor, England 750 
 
 " Thomas (sugar planter), Louisiana . . 945 
 
 Webb, Jonas, England 81 
 
 Webster, Bidlock, England 643 
 
 Weishampol, Rev. J.S. (Sen.),Baltimore,Md. 221 
 
 Wells, William V., New York city 174 
 
 West, J. D., Pump Maker, Broadway, New 
 
 York city 314 
 
 Wetmore, Lansing, Warren, Penn 721 
 
 AVheeler, Mr., Wayne Co., N. Y 525 
 
 White, Mr., Chautauque Co., N. Y 147 
 
 " Mr., Manchester, Ct ... 797 
 
 Whitlock, D. S., Rochester, N. Y 787 
 
 J.S. &G.S., Monmouth Co., N.J. 787 
 Whitney, Eli. born in Westborough, Mass.. 934 
 Willdnsonj Wra., New Braunfels, Texas. . . 93 
 Willard, John H., Wilton, Franklin Co., Me. 731 
 
 Williams, Col., Society Hill, S. C 938 
 
 S., Seneca €o., N. Y 886 
 
 Wing, Benjamin, Rochester, N. Y 789 
 
 Woocl, Isaac N., Hampden Co., Mass 78J 
 
 " Jethro, New Jersey 918 
 
 " J. M., New York 924 
 
 Woodward, (5eo. E. , New York city 325 
 
 Wright, E. C, Gallatin Co., Ill 73 
 
 Mr., Poughkeepsie, N. Y 526 
 
 " Joseph A., Indiana 85 
 
 Youmans, Edward L. , New York city . 359, 383 
 Young, Mr., Jessamine Co., Ky 731 
 
C R E 1) I T . 
 
 " Give honor to icTtom lionor is ihte.^' I lirtve not given credit in tlie body of the work tA 
 all tbe sources from wliicli 1 liave gathered facts. 1 freely aclinowledge myself indebted to 
 the -whole agricultural press. I give a list of these papers as they were when I commenced 
 compiling the worlc in 1861, though we are aware that quite a number of them, particuhirly 
 in Southern States, have been discontinued. 
 
 AGRICULTURAL PAPERS IN THE UNITED STATES. 
 
 The Maine Farmer. This is a large-sized folio, clearly printed on good white paper ; one 
 page is devoted to well-selected agricultural matter. Homan & Manley, Augusta, Me., pro- 
 prietors. Dr. E. Holmes, editor ; weekly, $2 a year. 
 
 Eastern Farmer, published at Ellsworth, Me., a weekly folio, at $1 a year, by "Wasson & 
 Moore, is about one third agricultural. 
 
 The New Eamjishire Journal of Agrinilture, folio, is published at Manchester, N. El., by 
 Wm. II. Gihnore, at $1 50 a year ; Z. Breed & M. A. Cortland, editors. It is about half 
 agricultural. 
 
 Boston makes a good show of agricultural paper.s in the four nest following : 
 
 The New England Farmer is the continuation of one of the oldest of farmers' papers. 
 Many will remember The New England Farmer and Fessenden, of aukl lang syTie. It is now 
 published weekly by Nourse, Eaton & Talman, with Gov. Simon Brown as editor, and is 
 really one of the best on the list. It is a large, handsomely -printed folio, published at $3 a 
 year, and always has one i>age or more of valuable matter for the farmer. Thei'e is or was a 
 monthly, at $1 a year, made up of the agricultural matter of the weekly. 
 
 The Massachusetts Ploughman is another of similar character, not quite so much devoted to 
 farming as The N. E. Farmer, but is a good family paper. Weekly, $2 a year. W. &. "W. .J. 
 Buckminster, editors and proprietors. 
 
 Boston Cultivator ; a large quarto, now in its twenty-second volume, published weekly, at 
 $2 a year, by O. Brewer & Sou ; is about one fourth agricultural. James Pedder, formerly 
 editor of The Farmer''s Cabinet, Philadelphia, was, many years before his death, connected with 
 The Cultivator, and so was — perhaps is — Sanford Howard. 
 
 Magazine of Horticulture ; amonthly octavo of 48 pages, published by Ilovey & Co. at $2; 
 is now in its twenty-sixth volume. It is devoted entirely to horticultural matters, fruits, 
 fl.owers, etc., and is the journal of the Massachusetts Horticultural Society, and is patronized 
 by all the leading horticulturists in the country. It is not so well adapted to the wants of 
 farmers' families generally, as it is to. suburban residents who have an abundance of money to 
 spend in beautifying their places. It is always faultless in its typography. 
 
 The Homestead, a weekly octavo of 32 pages, formerly a quarto of 16 pages, is published at 
 Hartford, Conn., by Mason C. Weld, at $2 a year, and now in its sixth volume. It is devoted 
 to agriculture, and particularly to Connecticut farming; often showing np the bad as well as 
 the good. It is a good paper for farmers. Rev. Wm. Clift, Henry A. Dyer, Secretary of 
 Connecticut State Agricultural Society, and T. S. Gold, are its editors. 
 
 The American Agriculturist, a large, beautifully printed monthly quarto of 32 pages, filled 
 with matter designed to advance the science of agriculture and horticulture, and improve- 
 ment of all that pertains to rural life. Orange Judd, editor and proprietor ; $1 a year ; New 
 
1032 CREDIT TO AGRICULTURAL PAPERS. 
 
 York city. This paper is now in its nineteenth year, and probably has the largest circulation 
 of any agricultural paper in America, and is published in i^n office with a rent of |3,000 a 
 year. This indicates success in a purely agricultural journal. 
 
 Tlie Amerieanischer Agriculturist is a German translation of the above, of the'same form, 
 size, and price, and is, we believe, the first German agricultural paper published in tliis 
 country. 
 
 The HorticiiUiirist ; originally established by Luther Tucker at Albany, and edited by A. J. 
 Downing ; is now published in New York by 0. M. Saxton, Barker & Co., and edited by Peter 
 B. Mead. It is a large octavo, 48 pages, monthly, $2 a year (with colored plates $5). It is 
 mainly devoted to the higher branches of horticulture, where the outlay is necessarily large, 
 rather than to the wants of the many, and its circulation is therefore limited to a class not 
 yet very large in this country. It is generally to be found in all first-class rural residences, 
 and in those of " fancy farmers," as they are called, and of all gardeners and nurserymen of 
 good standing. 
 
 The Working Farmer ; a monthly quarto of 24 pages, beautifully printed, edited by Pro- 
 fessor Mapes, and published in New York city by his sou, C. Vr Mapes, at $1 a year. It is 
 now in its twelfth volume, and is always filled with valuable matter. It copies from the best 
 foreign agricultural journals, and is richly deserving of a much larger circulation. 
 
 American Stock Journal ; a monthly octavo of 32 pages ; D. C. Linsley, editor and proprie- 
 tor, New York, %\ a year ; mainly devoted to matters connected with the business of raising 
 farm-stock, though it contains mucli useful information upon agriculture in general. 
 
 The Country Gentleman ; a weekly paper, whose title indicates its purpose ; is published at 
 Albany, by Luther Tucker & Son, and is one of the neatest specimens of typography exhib- 
 ited in any weekly paper, and is always readable, the matter being nearly all agricultural. 
 It is edited by the proprietors and J. J. Thomas, a veteran editor, and its readers get from 
 it. a mass of valuable information for $2 a year in its 16 handsome quarto pages. 
 
 The Cultivator is a monthly, made up from the above, 24 handsome, large octavo pages, 
 at .50 cents a year. It is now in its twenty-second volume. 
 
 The Rural American is a weekly quarto, with just agriculture enough to cill it an agricul- 
 tural journal, published at Uliuton, N. Y., at $1 50 a year; T. B. Miner, editor and proprietor. 
 It has been published some five years, having started, we believe, at 25 cents a year. 
 
 The Saratoga Farmer. This is a new enterprise, by G. A. Corey, Saratoga Springs; 16 
 pages octavo, monthlj', at $1 a year. 
 
 The Dairy Farmer, Little Falls, N. Y., monthly, 32 pages octavo; A. W. Eaton, publisher, 
 at 50 cents a year. This is also a new work, devoted chiefly to dairy farming. 
 
 The Genesee Farmer. This is a continuation of the oldest farming paper in the State. It 
 is a well-printed octavo, 32 pages, of valuable matter for all farmers, published at 50 cents 
 a year monthly, at Rochester, N. Y., by Joseph Harris, editor and proprietor. 
 
 Moore's Rural 2\^ew Yorker, Rochester; large quarto, weekly, $2 a year. It is divided 
 equally between agricultural aifairs and miscellaneous matters. It is deservedly a very pop- 
 ular family paper. D. D. T. Moore, proprietor and editor, assisted by " an able corps of 
 assistants." 
 
 This makes up a round dozen of agricultural papers in the State of New York. Besides 
 tliese, several of the political papei-s, of late years, have devoted much space to giving prac- 
 tical information to formers. Of this class, the Tribune is one, and is welcomed into many 
 a family on account of such information. 
 
 The JS''ew Jersey Farmer ; now in its fifth volume; is published in Trenton, by D. Naar, 
 editor and proprietor, at $1 a year ; 32 pages octavo ; agriculture and horticulture. 
 
 The Gardener^ s Monthly ; octavo, 48 pages ; a popular journal, chiefly devoted to horticul- 
 ture ; is no w in its second volume. "We hope for it a long life of usefulness. Edited by Thomas 
 Meehau, Philadelphia ; $1 a year. 
 
 Farmer and Gardener, Philadelphia ; octavo, 32 pages, agricultural and horticultural ; $1 
 a year. A. M. Spangler, editor and proprietor ; is in its second volume. 
 
CREDIT TO AGRICULTURAL PAPERS. 1033 
 
 The Germantoicn (Penn.) Telegraph is an old established miscellaneous paper with an 
 agricultural department ; a -n^eekly quarto, $2 a year. P. R. Freas, editor and proprietor. 
 
 National Agriculturist, Pittsburg, Penn., in its third volume, is an 8 page quarto, pub- 
 lished monthly, at $1 a year, by J. T. F. TVright, editor and proprietor; devoted principally 
 to agriculture, but in part to general miscellany. ' 
 
 Ohio Farmer, Cleveland ; weekly, $2 a year ; a handsome quarto, filled with miscellaneous 
 and agricultural matter suited to an enlightened farmer's family. Col. S. D. Harris, editor 
 and proprietor. 
 
 The House and Garden is published monthly, at Cleveland, at 50 cents a year, by Thomas 
 Brown, editor and proprietor. It is a 16 page pamphlet, devoted to agricultural and house- 
 hold affairs. 
 
 The Woul- Grower is a monthly quarto, devoted to the interests of wool-growers, stock 
 niatters^nd miscellany. It i)urports to be printed at Cleveland, Ohio, at 50 cents a year, 
 without editor or publisher being named. 
 
 Ohio Cultivator, Columbus; semi-monthly; in its sixteenth volume, at $1 a year, is a large 
 octavo, 16 pages, devoted to agriculture, horticulture, and stock. Col. S. D. Harris, editor 
 and proprietor. 
 
 Ohio Valley Former, Cincinnati; a monthly quarto, 16 pages, now volume five, |1 a year; 
 agricultural and horticultural. Published by B F. Sanford. 
 
 The Cincinnatus, Cincinnati, Ohio; a monthly octavo, 48 pages; a neatly got-np pamphlet; 
 published in covers at $2 a year, edited by F. G. Cary, proprietor, is now in its fifth volume. 
 It is agricultural and horticultural, and prints the proceedings of the Cincinnati Horticul- 
 tural Society. 
 
 The Farm^r^s Borne is the name of another Cincinnati agricultural p.aper, published monthly, 
 by E. M. Spencer & Co., at 50 cents a year. 
 
 Indiana Farmer, J. K. Ray, editor and proprietor, Indianapolis; semi-monthly, 16 pages 
 quarto, $1 a year, is now in its ninth volume; and though called the Indiana Farmer, is filled 
 with matter equally well adapted to farming in the adjoining States. 
 
 Michigan Farmer, Detroit; an old established weekly quarto, 8 pages, $3 a year; R. F. 
 .Johnson, editor and publisher ; is mainly devoted to agriculture and kindred subjects. 
 
 Wisconsin Farmer, Madison ; D. -J. Powers & Co., publishers ; 32 pages octavo, $1 a year ; 
 agricultural and horticultural ; adapted to the wants of the Northwest. 
 
 Prairie Farmer, Chicago, Illinois; Emery & Co., publishers; a well-printed quarto of 16 
 pages, weekly, at $2 a year; making agriculture its leading feature, with horticulture and 
 familj- miscellany. This paper dates back over twenty years. It was established by John S. 
 Wright, and has always been conducted with such ability as to make it particularly valuable 
 to all Western farmers. 
 
 Farmers' Advocate, Chicago; J. Bonham, .editor and proprietor ; a weekly quarto, 16 pages, 
 ^1 50 a year; an offshoot of the Prairie Farmer of some three years' standing. 
 
 Illinois Farmer, Springfield; Bailhache & Baker, publishers; monthly quarto, 16 pages, 
 $1 a year, in its fifth volume ; is mainly agricultural, and especially devoted to the interests 
 of the Illinois farmer. 
 Iowa Farmer. There was — perhaps is — an Iowa Farmer, edited by Wm. Dnane Wilson. 
 NehrasTca Farmer, Brownsville; volume one, monthly octavo, 16 pages, agricultural and 
 horticultural, §1 a year ; R. N. Farnas, publisher. 
 
 Valley Farmer. Norman J. Coleman, editor and publisher, St. Louis; A. Gunter, pub- 
 lislier, Louisville; II. P. Byram, traveling editor; octavo, 32 pages, %\ a year; a monthly 
 agricultural journal, designed to benefit the planter, farmer, gardener, ti-uit-grower, and 
 stock-raiser. It is a covered pamphlet, handsomely printed, and in matter well worthy of the 
 patronage of tliose it is intended to benefit. 
 
 Oregon Farmer, Portland; A. G. Walling, editor; semi-monthly quarto, 8 pages, $2 50 a 
 year ; now in its third volume of agricultural, horticultural, and miscellaneous matter suited 
 to that State. 
 
1034 CREDIT TO AGRICULTURAL PAPERS. 
 
 The Minnesota Farmer and Gardener ; published at St. Paul, monthly, in octavo form, 32 
 pages, L. M. Ford & Co., publishers. Vol. I. looks well. Price, $1 per annum. 
 
 California Farmer, San Francisco; 8 well-printed pages quarto, weekly, at $5 a year. 
 An agricultural and miscellaneous journal, largely patronized by advertisers. Edited and 
 published by Col. Warren. It is now iif its fourteenth volume, and is doubtless found valua- 
 ble to the agricultural community in the gold-digging State. 
 
 California Ctdlurist, San Francisco ; Wadsworth & Flint, editors and proprietors ; a 
 monthly octavo of 48 pages, at $4 a year; devoted to agriculture and horticulture; in its 
 third volume. 
 
 The American Farmer ; first published over forty years ago at Baltimore ; is a monthly 
 octavo of 32 pages, at $1 a year; Ly Worthington & Lewis, successors to Samuel Sands, wlio 
 succeeded John S. Skinner. This has always been a well-conducted, popular paper, the con- 
 tents never belying its name, though somewhat more devoted to Southern than Northern 
 farming. 
 
 The Rural Register, Baltimore, ild. ; quarto, 16 pages, in three columns, exclusive of ad- 
 vertisements; by Samuel Sands, who was publisher of The American Farmer for a long time, 
 and S. Sands Mills. This paper is now in its second volume, and well filled with matter as 
 well suited to Northern farmers as Southern planters. Monthly, $1 a year. 
 
 Southern Planter ; a small sized octavo, 0-i pages; published monthly at Richmond, Va., 
 by Augustus Williams, at $2 a year ; maintains a popularity established twenty years ago. 
 
 North Carolina Planter; published monthly, at Raleigh, by A. W. Gorman, at $2 a year; 
 octavo, 32 pages. This, as its name indicates, is local in its character, and as such entitled to 
 patronage. It is now in its third volume. 
 
 The Edgecombe Farm Joimial is published at Tarboro', N. C, in one of the most enter- 
 prising, improving sections. of that State. It is now in its first volume; is a well-printed 
 quarto, 8 pages, monthly; 50 cents a year; William B. Smith & Co., editors and pro- 
 prietors, who certainly give their subscribers (we hope they are numerous) the value of their 
 money. 
 
 Farmer and Planter, Columbia, S. C. ; R. M. Stokes, proprietor, Col. Sumner, editor; 
 octavo, 82 pages, covered ; monthly, $1 a year. Particularly adapted to Southern agriculture, 
 and valuable for all planters. It has been published eleven years, but has never received the 
 patronage it merits. 
 
 The Southern Cnltivator ; a large octavo of 32 pages; is published monthly, by W. S.Jones, 
 at Augusta, Georgia, at $1 a year ; was formerly edited by Dr. Lee, and now by the pub- 
 lisher and Mr. Redmond. It is Southern in its character, and justly popular there. 
 
 Southern Field and Fireside; published weekly, at Augusta, by J. Gardner, at $2 a year; 
 is partly agricultural and partly miscellaneous ; a quarto, now in its second volume. 
 
 American Cotton Planter, Montgomery, Alabama; a monthly octavo of 48 pages. A 
 Southern journal of agriculture, at |1 a year, by Dr. Cloud, editor and proprietor. 
 
 Southern Rural Gentleman, Grenada, Miss. ; a quarto-weekly, $2 50 a year ; J. L. Davis, 
 proprietor ; is now in its third volume, and is made up of agricultural and miscellaneous 
 matter suited to that region. 
 
 Canadian Agriculturist, Toronto ; appears to be published by the Board of Agriculture, and 
 contains its transactions and other agricultural matter, principally Canadian. It is issued 
 semi-monthly, 32 octavo pages, at 50 cents a year. 
 
 Possibly I have missed some, particularly those that print much agricultural matter, like 
 the Weekly and Semi- Weekly Tribune, and I also add two new ones: 
 
 The Sorgo Journal, published monthly, by Wm. II. Clark, Cincinnati, Ohio. |1. 
 
 Land- Marks, a quarto monthly, at $1, by Dr. C. W. Grant, the great grape propagator and 
 fruit culturist, Zona, near Peekskill, N. Y. 
 
 3 4 7 7 
 
^"■^.^ s 
 
 Kf. ^ 
 
 
 
 
 ■^^'' 
 
 <. .-^^ 
 
 ^0 O. 
 
 %4' 
 
 -./■ .\,\' 
 
 
 
 
 ^^ ^*.. 
 
 
 .^^^''^^^ ,s''''-i>. \'^'''^/». 
 
 
 '/•,. ..\V 
 
 
 
 
 ^f.^ S 
 
 
 
 
 ,0 o. 
 
 
 ,v^- -._ 
 
 
 %.^- 
 
 
 
 
 
 aV 
 
 ■5^' 
 
 •i''"^. 
 
 
 , O 
 
 
 
 
 
 ^A V^ 
 
 
 
 
 
 
 ^i^.. v^' 
 
 ^' -^ m'l^T^ 
 
 c5 ■^^ ° 
 
 ^"«-' 
 
 1 '^'t' 
 
 ..^' 
 
 iH^ A'' 
 
 *•>. ♦ , „ o ' .^<5■ 
 
 5 ►. o ' A^' 
 
'-^V 
 
 
 ^ "°v/' 
 
 
 
 ^'" 
 
 o: 
 
 >^^ '^...- 
 
 
 o5 -r, * 
 
 /: <H 
 
 00"= . ^> 
 
 
 
 
 •4" ... v 
 
 ^■■p <^^ 
 
 p^ ".,;^^' 
 
 CO' 
 
 ■oj. ^^^ 
 
 
 . .N^