MKtiARV 
 

Digitized by the Internet Archive 
 in 2016 
 
 https://archive.org/details/dwellinghouse00poor_0 
 
THE DWELLING HOUSE 
 
BY THE SAME AUTHOR. 
 
 Crown 8vo. 3s fid. 
 
 ESSAYS ON RURAL HYGIENE. 
 
 With 36 Illustrations. 
 
 LONGMANS, GREEN, & CO. 39 Paternoster Row 
 London, New York, and Bombay. 
 
THE DWELLING HOUSE 
 
 BY 
 
 GEORGE VIVIAN POORE, M.D., F.R.C.P. 
 
 Physician to University College Hospital 
 Fellow of the Sanitary Institute 
 
 Member of the Permanent Committee of the International Congress of Hygiene 
 and Demography 
 
 Honorary Member of the Hungarian Society of Public Health, &c. 
 Author of * Essays on Rural Hygiene ’ 
 
 Houses are built to Live in, and not to Looke on. . . .God Almightie 
 first planted a Harden. And, indeed, it is the purest of Humane Pleasures. 
 It is the Greatest Refreshment to the Spirits of Man ; without which 
 Buildings and Pallaces are but Grosse Handy workes. — Bacon 
 
 Is this improvement ? where the human breed 
 Degenerate as they swarm and overflow, 
 
 Till toil grows cheaper than the trodden weed, 
 
 And man competes with man, like foe with foe, 
 
 Till Death, that thins them, scarce seems public woe ? 
 
 * * * 
 
 To gorge a few with Trade’s precarious prize, 
 
 We banish rural life and breathe unwholesome skies 
 
 Campbell 
 
 WITH THIRTY-SIX ILLUSTRATIONS 
 
 SECOND IMPRESSION 
 
 LONGMANS, GREEN, AND CO. 
 
 39 PATERNOSTER ROW, LONDON 
 # NEW YORK AND BOMBAY 
 1898 
 
 All rights reserved 
 
PREFACE 
 
 This work is intended not merely to point out certain 
 common defects in the Dwelling House, and to show how 
 evils more or less necessary in towns may be avoided in 
 the country, but to call attention to the fact that our 
 modern methods of sanitation, and the heavy taxation of 
 the dwelling, inevitably increase overcrowding, and the 
 moral and physical ills which follow in its train. 
 
 An attempt is made to review the great subject of the 
 disposal of house refuse in its political and scientific 
 aspects, rather than from the point of view of the trades- 
 man or patentee. 
 
 The greater part of the ensuing chapters has been 
 previously published. Addresses delivered before the Royal 
 Institution of Great Britain, the London Institution, the 
 Sanitary Institute, and the Medico- Chirurgical Society of 
 Nottingham, together with short papers communicated to 
 the British Medical Association, the British Institute of 
 Public Health, and the ‘Practitioner/ have been incorpo- 
 rated with the text. 
 
VI 
 
 THE DWELLING HOUSE 
 
 The author is greatly indebted to his friend, Mr. 
 Thomas W. Cutler, F.R.I.B.A., for much valuable advice 
 and assistance in the preparation of some of the illustra- 
 tions ; and he is similarly indebted to Mr. Arthur Blomfield- 
 Jackson and the editors of the ‘ Lancet ’ and 4 Practitioner.’ 
 
 For permission to use the diagram illustrating the 
 Model By-Laws of the Local Government Board (p. 109) 
 the thanks of the author are due to Messrs. Knight & Co. 
 
 From Mr. George Pernet, B.A., M.R.C.S. &c., the author 
 has received much assistance and many valuable suggestions 
 during the passage of the work through the press. 
 
 32 Wimpole Street, 
 
 July 1897 
 
CONTENTS 
 
 CHAPTER PAGE 
 
 I. Defects in Planning 1 
 
 II. The Sanitation of the Isolated Dwelling . , . . 32 
 
 III. Slop-water . 69 
 
 IV. Overcrowding : Its Causes and Effects 90 
 
 V. The Circulation of Organic Matter 125 
 
 YI. The Soil in its Eelation to Disease and Sanitation . . 152 
 
LIST OF ILLUSTBATIONS 
 
 FIG. 
 
 i) 
 
 6 . 
 
 7. 
 
 8 . 
 
 9. 
 
 10 . 
 
 11 . 
 
 14. 
 
 15. 
 
 16. 
 
 17. 
 
 18. 
 19. 
 
 20 . 
 
 21 . 
 
 PAGE 
 
 Typical London House 4, 5 
 
 Combined Staircase and Ventilated Lobby . . . . 10, 11 
 
 House with Staircase forming Ventilated Cut-off from 
 
 Kitchen and Lavatory, &c . 12 
 
 Bungalow facing South . . . . . . • 14 
 
 Convalescent Home ........ 16 
 
 Stove with Air-inlet Underneath . . . . . . 17 
 
 Ventilating Panel in Door . . . . . . . 17 
 
 Bedroom Window .......... 22 
 
 Cellar Window ......... 29 
 
 Andover Houses and Garden ....... 35 
 
 Garden at Andover 38 
 
 Section of ‘ Dry- Catch ’ Privy 40 
 
 Earth-closet with Ventilated Lobby 46 
 
 Section through Earth-closet and Dry Catch. . . . 47 
 
 Section of Dry Closet Pan . . . . . . 48 
 
 Urine Filter . . . . . . . . . . 51 
 
 Dry Urinal 57 
 
X 
 
 THE DWELLING HOUSE 
 
 FTG. 
 
 22 . 
 
 23. 
 
 24. 
 
 25. 
 
 26. 
 
 27. 
 
 28. 
 
 29. 
 
 30. 
 
 31. 
 
 32. 
 
 33. 
 
 34. 
 
 35. 
 
 36. 
 
 Plan of Well, showing its relation to Paths and Hedge 
 
 Section of Well, showing Concrete Lining and position 
 of Pump 
 
 Rustic Arch 
 
 Use of Arch for getting Waste Water clear of House 
 
 Filtration Gutter . 
 
 Filtration Gutter on Bank 
 
 Kitchen Sink with Duplicated Outside Filter 
 
 Arrangement for Small Tenements 
 
 Section of Small Tenements 
 
 Building Estate 
 
 Illustrations of ‘ Model ’ By-Laws for Regulation of 
 Buildings 
 
 Curves of Unmanured and Manured Barley Plots . . . 
 
 Map to Illustrate Marylebone Small-pox Outbreak . 
 
 PAGE 
 
 65 
 
 65 
 
 77 
 
 77 
 
 79 
 
 80 
 82 
 
 87 
 
 88 
 92 
 
 109 
 
 139 
 
 145 
 
THE DWELLING HOUSE 
 
 CHAPTER I 
 
 DEFECTS IN PLANNING 
 
 It is doubtful if there be anything which more affects the 
 health of the individual than the house in which he lives. 
 
 Modern advances in bacteriology, and the certain know- 
 ledge of the way in which many diseases are carried 
 through the air, have given additional importance to 
 methods of house construction. The danger, for persons 
 who are not immune, of being under the same roof with a 
 case of whooping cough, measles, scarlatina, diphtheria, 
 typhus, or smallpox has long been recognised ; but it is 
 only recently that our eyes have been opened as to similar 
 dangers in relation to tuberculosis and pneumonia. Pneu- 
 monia has now for some years been occasionally spoken of 
 as a ‘ house disease,’ and the same term has recently — but 
 whether on sufficient evidence is doubtful — been applied 
 to cancer. 
 
 A careful study of the epidemic of influenza, which is 
 showing singular vigour in the seventh year of its reap- 
 pearance amongst us, has clearly shown that it is commu- 
 nicable through the air. And the way in which whole 
 households go down with it when once it gains a footing in 
 
 B 
 
c? 
 
 THE DWELLING HOUSE 
 
 a house, is an additional reason for reconsidering our 
 methods of house-construction. 
 
 The main object to be kept in view in building a house 
 is the supply of fresh air. Too much care cannot be taken 
 to insure that all the channels of internal communi- 
 cation-hall, passages, staircases — have independent ven- 
 tilation of their own. Unless there be the means of getting 
 these internal channels blown out by through draughts, 
 the house cannot be wholesome ; and in the event of 
 any of the air-borne contagia getting a footing in the 
 house, the liability to spread is enormously increased. 
 
 Not only must these internal channels have air, but they 
 must have light also. The dark passage, ending in a close 
 cul-de-sac of bedroom doors, is one of the commonest 
 features of the modern house, and is, of course, absolutely 
 to be condemned. 
 
 When we encounter the smell of the kitchen in the 
 corridors, this may be taken as sure evidence that the 
 house is unwholesome, and that the internal channels of 
 communication are as insufficiently ventilated as is the 
 kitchen. The smell of fried bacon which oozes through 
 the keyhole of your bedroom may be accompanied by all 
 the infective potentialities of all the inmates of the house. 
 This test, as applied to corridors, is analogous to the 
 smoke test or oil of peppermint test as applied to drains, 
 and is quite as important. 
 
 If the house be of several storeys, the ventilation of the 
 staircase has an importance which bears a direct propor- 
 tion to the height of the house. As a rule, in second-class, 
 and, indeed, in many first-class houses, the ventilation and 
 illumination of the staircase never trouble the mind of the 
 builder or his architect. Starting from the front passage, 
 the only light of which is from a closed fan-light over the 
 door, the staircase oscillates between water-closet doors 
 
TYPICAL LONDON HOUSE 
 
 3 
 
 and bedroom doors, getting darker and darker as it ascends. 
 In the houses of artizans, every doctor must be familiar 
 with the rancid whiff that comes up the absolutely dark 
 stairs leading to the basement ; the cold, damp smell of 
 mildew and soot in the sacred front parlour, where the 
 ‘ register 5 is closed and the blinds are drawn ; and the 
 variety of odours which assault his nose until he arrives at 
 the carbolic sheet protecting the door of the room contain- 
 ing the case of infectious illness he has possibly come to 
 see. Such houses are almost always let in lodgings, and 
 contain several families ; and if air-borne contagia ever 
 gain admission to them, it can be no matter for surprise 
 that they are difficult to dislodge. 
 
 The same defect of construction is seen in a very large 
 number of London houses, even the smartest. The defect 
 may be shortly spoken of as this : — ‘ that the internal 
 channels of communication , instead of serving for the supply 
 of fresh air , merely facilitate the exchange of fold air' This 
 defect of construction is dangerous in proportion to the 
 size of the building and the number of persons it contains. 
 
 The shafts for lifts necessarily require independent 
 ventilation as much as the staircases. The monster hotels 
 or towers of flats, from inattention to these details, are 
 liable to be most unwholesome residences, and to be 
 really dangerous if air-borne contagia gain access to 
 them. 
 
 The Typical London House 
 
 Let us look at the ordinary London house of the better 
 class. I have borrowed the plans which were given in 
 the ‘ Lancet ’ for July 4, 1896. Figs. 1 and 2 show the 
 plans of all the floors of the same house before (1) and 
 after (2) certain alterations in the plumbing arrange- 
 
4 
 
 THE DWELLING HOUSE 
 
 ments. Fig. 3 is a section of the same house, kindly made 
 for me by Mr. Thomas W. Cutler, F.R.I.B.A. 
 
 I have taken these plans for the sake of showing what 
 
 Typical London House. 
 
 Fig. 1. 
 
 Fig. 2. 
 
 are the common defects of the average better-class London 
 house. 
 
 I do not wish to he understood as saying that these 
 defects are, in London at least, remediable. That unfor- 
 tunately is not the case. That they are defects which ought 
 
TYPICAL LONDON HOUSE 
 
 5 
 
 to be avoided in places where land is less costly than in 
 London is very evident. 
 
 1. The main defect is due to the fact that the cubic capa- 
 city of the house is far too great for the area upon which it 
 is built. The house is, in fact, a tower of five storeys, 60 feet 
 high from basement to roof, and containing 60,000 cubic 
 feet, standing on an area of 1,512 square feet. A house of 
 this shape entails enormous labour upon servants. It has 
 
 Fig. 3.— Typical London House. 
 
 been said, that in raising the body vertically we do an 
 amount of work equal to moving the body twenty times the 
 distance horizontally. The climb from basement to the top 
 storey is therefore equal to walking 1,000 or 1,200 feet along 
 the level, and when a footman weighing 11 stone, and carry- 
 ing 28 pounds weight of coals, climbs from the coal-cellar to 
 one of the top rooms, the work done is rather more than 
 four foot-tons. I do not know when high-service water 
 supplies became general in London houses, but it is evident 
 that when the only water-supply was in the basement, the 
 
6 
 
 THE DWELLING HOUSE 
 
 inconvenience of these high houses must have been very 
 great. Gas-pipes, hydraulic lifts, electric wires, speaking- 
 tubes, and high water supply have so lessened the personal 
 service required in these domestic towers, that they have 
 become popular, and by increasing the overcrowding in our 
 cities they now constitute a very serious sanitary danger. 
 In America the houses w 7 ith steel frames have been run up 
 to a height of 250 feet and over, and have converted the 
 streets into sunless, draughty canons, in which locomotion 
 is a matter of great difficulty, because the width of the 
 street bears no due proportion to the cubic contents (and 
 population) of the houses flanking it. 
 
 2. The house being flanked on either side by other 
 houses, the front and back walls are alone available for 
 admitting light and air, and the depth of the house is 
 unduly great in proportion to its width. The noise of the 
 neighbours is not always a trivial drawback. 
 
 3. One storey, and the largest, is below the street level, 
 an arrangement which, from a sanitary point of view, 
 is unjustifiable, and ought never to be imitated in the 
 country. 
 
 4. There is no back door, which is a very serious defect 
 in a house. The result is that the coals have to be got in, 
 and the ashes and garbage to be got out, under the dining- 
 room windows, and that while these tedious processes are 
 in doing the traffic in the main street is very much 
 impeded. 
 
 It is said that eels get used to skinning, and so the 
 Londoner becomes very blind to the failings of the house 
 which he inhabits. 
 
 The house of wdiich the plan and sections are shown in 
 the figures is not, be it observed, one of the dwellings of 
 the poor, of which we hear so much, but one of the dwellings 
 of the well-to-do, or even rich, fetching probably 350Z. 
 
TYPICAL LONDON HOUSE 
 
 7 
 
 a year rent. It would need four servants, one of whom 
 would sleep below ground level in the pantry ; and in 
 addition to the servants, eight persons might squteze into 
 such a house. 
 
 The basement below ground level is really a cellar 
 dwelling, against which we inveigh, when we find it in 
 Whitechapel. It is very dark, and requires ai tificial light 
 nearly every day in the year. A butler sleeps in a dingy 
 ‘ pantry ’ among the tea-cups and other gear, which he 
 possibly sorts upon his unmade bed before he lays the 
 cloth for breakfast. 
 
 This basement (Fig. 2) contains four sinks and two 
 closets, each with its trap, and in each of the three areas 
 are trapped gullies so placed that any gases which escape 
 from them are more likely than not to find their way 
 into the house. 
 
 The only way into the kitchen is through the scullery. 
 The scullery sink is turned away from the window, and 
 the smell of cooking and of cabbage water must inevitably 
 find its w r ay into the basement. A water-closet has been 
 wedged into the back area between the windows of the 
 kitchen and the servants’ hall ; and the larder, while it is 
 without adequate light or ventilation, has a trapped gully 
 at its door to serve as a seed-bed for mould fungi which 
 will infect the food. 
 
 There is only one staircase, and this must serve as a 
 shaft for the culinary and other fumes of the basement to 
 rise in. It is entirely without independent ventilation until 
 the half-landing above the drawing-room is reached. Infig. 1 
 there is another staircase window on the second floor, but 
 this, be it observed, has been blocked by a water-closet in 
 the house, as altered by the plumbers. This is a very 
 serious thing to have done, and, in my judgment, is not 
 in any way compensated by the changes recommended. 
 
8 
 
 TIIE DWELLING HOUSE 
 
 The staircase has a skylight at the top, but skylights, 
 being never opened in London because of ‘ the blacks/ 
 are of very little use for ventilation. On the ground 
 floor a water-closet abuts on the morning-room windows, 
 while in the area beneath these windows is another water- 
 closet, previously mentioned. 
 
 The first floor contains two fine drawing-rooms and a 
 staircase window, and being without 4 sanitary apparatus ’ 
 is wholesome, except for the fumes which may ascend or 
 descend the well-staircase. On this floor the light and 
 decoration will render one oblivious of the basement. On 
 the second floor the staircase window has been blocked, 
 and there is an impossible bath-room, without adequate 
 light or ventilation, which nothing can make wholesome, 
 and which ought to be abolished absolutely. On the top 
 floor the staircase ends in an unventilated cul-de-sac formed 
 by four bedrooms, a dark ‘ box-room,’ and a water-closet 
 which is w 7 edged in between two bedrooms. 
 
 This house has, if one may say so, been over-plumbered. 
 There are five closets, five sinks, and a bath-waste (eleven 
 trapped waste-pipes) for a maximum of twelve people. 
 The closet on the second floor, and the one in the base- 
 ment between the servants’ hall and kitchen, should be 
 abolished, and the fixed bath on the second floor should 
 be removed. A. bath-room wants light and air, and should 
 always be against an outside wall. Persons should never 
 take houses with extemporised bath-rooms poked in ‘any- 
 where.’ 
 
 In order to be fairly wholesome this house wants a fan- 
 light over, or a glazed panel in, the front door, to serve the 
 purpose of a window and ventilator, and a window over 
 the w.c. between morning-room and study. In this way 
 there will be the possibility of a through draught at the 
 foot of the stairs. The staircase window on the second floor 
 
VENTILATION OF CORRIDORS 
 
 9 
 
 should be re-opened, and a window put above the w.c. on 
 the top floor (the w.c. need not be more than 7 feet 
 6 inches in height). In this way the main channel of 
 internal communication will be ventilated, and should any 
 of the sanitary fittings 4 go wrong,’ the emanations will be 
 diluted, perhaps to safety point. 
 
 Now we may assume that the house we have been con- 
 sidering, with three rooms on the ground floor, would let 
 for about 850Z. per annum, and would be rated at 300h The 
 alterations in the plumbing arrangements, as shown in 
 fig. 2, are estimated by the 4 Lancet ’ experts to cost 618L, 
 or, let us say, a sum equal to twice the rateable value, and 
 which adds (calculating 10 per cent, for wear and tear) at 
 least 60 1. per annum to the cost of the house. The local 
 rates for this house would amount to over 90Z. per annum, 
 and if we assume that one-third of this is for sewerage, we 
 may say that the sanitation of the house costs 90 1. per 
 annum, a sum sufficient to pay for the transmission by 
 Parcel Post of 1,800 packets, weighing 11 lbs. each. 
 Leaving the question of the waste of fertilising material 
 out of consideration, it is clear that sanitation by water 
 is as extravagant as it is dangerous. 
 
 Ventilation of Corridors 
 
 In the suggestions which the Medical Committee has 
 drawn up for the guidance of the architect in making plans 
 for the extension and ultimate complete rebuilding of 
 University College Hospital, the thorough ventilation of 
 the staircases and corridors is insisted upon ; and the 
 building is to be so constructed that it will be impossible 
 for air to drift from one floor to another, or from one ward 
 to another, without first mixing with the outside air. 
 
10 
 
 THE DWELLING HOUSE 
 
 Builders of mansions and hotels would do well to keep the 
 same principles of construction in view. 
 
 Another suggestion which has been made is to place 
 the secondary staircases between the wards and the sanitary 
 offices, so that the staircase-well forms a cut-off, with cross- 
 ventilation between the ward on one side and the various 
 sinks, closets, and baths on the other side. These second- 
 ary staircases are absolutely necessary in case of tire ; and, 
 
 Fig. 4. 
 
 by making them serve a double purpose, a considerable 
 saving of space is effected. This arrangement is shown 
 both in plan and section in figs. 4 and 5. It is very 
 usual to place some of the ward offices on either side of 
 the ward-approach, and others at the end of the ward. 
 This is, in fact, the common arrangement ; but, when 
 adopted, it has the effect of making the ward-approach 
 dark and gloomy, and of placing the ward between a 
 double set of sanitary pipes, with the dangers inseparable 
 
VENTILATION OF CORRIDORS 
 
 11 
 
 from them. It is, I believe, a sound principle of construc- 
 tion for private houses, as well as for hospitals, to place 
 the sanitary and culinary offices of all kinds on one side 
 of the staircase, and the living rooms on the other. If 
 the staircase-well be properly ventilated, the risk of living 
 and sleeping in an atmosphere of sewer air is thereby 
 diminished. 
 
 Fig. 6 is a ground plan of an ordinary country 
 or suburban dwelling house 
 which offers a suggestion in 
 this direction. It is the 
 principle only which I wish 
 to illustrate. If the principle 
 be sound, the method of 
 carrying it out will certainly 
 be improved by the experi- 
 ence and cunning of the 
 trained architect. 
 
 This figure shows the 
 ‘ offices ’ to the left and the 
 living-rooms to the right of 
 the staircase. The staircase 
 has through - and - through 
 ventilation of its own. The 
 passage leading to the sit- 
 ting-rooms has also illumi- 
 nation and ventilation inde- 
 pendent of the sitting-rooms. The w.c. has a lobby 
 with independent ventilation, and the door leading to 
 this lobby from the hall should be a spring door. It 
 will be observed that the ‘ pantry ’ (the workroom of the 
 man or maid whose duty it is to answer the door) is placed 
 as near the door as possible, and that this pantry inter- 
 venes, so to say, between the kitchen and the entrance 
 
12 
 
 THE DWELLING HOUSE 
 
 hall. If the door between the pantry and hall, and the 
 door between kitchen and pantry, be made to open in 
 opposite directions and close with springs, no smell of 
 cooking will be likely at any time to pervade the living- 
 rooms. 
 
 Only the ground floor of this house is showm, so that it 
 may be as well to state that, as regards the upper floor, all 
 the bedrooms would be to the right of the staircase, while 
 
 Fig. 6. 
 
 to the left, above the kitchen, &c., would be a second w.c., 
 bath-room, housemaid’s closet, and box-room. The prin- 
 ciple of construction which it is wished to inculcate is 
 this — that the culinary and sanitary offices should be quite 
 distinct from the living-rooms, and be placed in an annex 
 which should be separated from the living-house by a well- 
 ventilated staircase. The living-house itself should not 
 under any circumstances contain either water-tap or waste- 
 pipe of any kind. 
 
ASPECT 
 
 13 
 
 Aspect 
 
 In building a house, the point which requires more 
 attention than any other is the aspect. This is too often 
 neglected. In a climate like ours one may say that a 
 house should receive its maximum amount of sun. If a 
 house be well exposed to the sun there can be no doubt 
 that the expense of keeping it warm will be considerably 
 lessened. The best aspect for a house is generally con- 
 ceded to be that which allows its chief rooms to look to the 
 south-east. In this way the morning sun is enjoyed, and 
 the rooms do not get the glare of the afternoon sun, which 
 in July is apt to be intolerable. It may be advisable to 
 build a house in the form of a veritable sun-trap. And it 
 is quite possible so to‘ build a modest residence that those 
 who live in it may enjoy a maximum amount of sunshine 
 and fresh air without exposure to cold winds. 
 
 The ground plan for such a house would have to be 
 that of a right-angled triangle, with the apex pointing to 
 the north (see fig. 7). The sun, even on the shortest day, 
 would, if visible, shine into the angle for over seven hours 
 continuously. In this re-entrant angle there would be 
 complete protection from northerly and easterly winds ; 
 and if provided with a glass-covered verandah, it would be 
 possible for even the most delicate invalids to enjoy in it a 
 maximum amount of fresh air. 
 
 As only the truncated apex of the triangle faces due 
 north, it is obvious that every side of this house would be 
 bathed in sunlight for a considerable time every day. 
 
 The problem in such a house would be, not how to keep 
 warm in the winter, but rather how to keep cool in July. 
 
 There are a few points in the ground plan of this 
 ‘ bungalow facing south ’ which may be alluded to. Such 
 a bungalow, if placed on the south side of a public road 
 
14 
 
 THE DWELLING HOUSE 
 
 running east and west, would require no loner carriage- 
 drive of its own. The front door might be quite close to 
 the road (and there are many advantages on the score of 
 economy, safety, and convenience, of such a position) 
 without the privacy of the south side being lessened in any 
 appreciable degree. 
 
 The absence of stairs means less fatigue for invalids 
 and old people, and less danger for children. Provided the 
 cost of land be reasonable, is there any advantage in 
 
 having more than one storey to a house ? The sanitary 
 advantage of a large area for a house is very great indeed. 
 In hospitals we now recognise that infinitely the most 
 important element of the ‘ cubic space per bed ’ is the floor 
 area, and that a deficient floor space is not to be com- 
 pensated by giving great height to the wards. The same 
 reasoning is applicable to a house ; and there is this further 
 advantage in giving a large area to a country house, that 
 the greater the area of the roof, the greater is the amount 
 
ASPECT 
 
 15 
 
 of rain-water which can be collected. Such a bungalow in 
 our climate would certainly provide enough rain-water for 
 all the needs of the inmates. 
 
 The shape of this house, with a minimum exposure to 
 the north, is such that every room in it would receive a 
 very thorough exposure to the sun. 
 
 A reference to the ground plan will show that on either 
 side of the front door is a window, and that at the end of 
 both the long passages is a big window, so that the 
 channels of internal communication receive an ample 
 supply of light and air, and can be swept by a through 
 draught. The closets (and these should be ‘ dry-closets/ 
 and not water-closets) are cut off* from the main structure 
 by a lobby having cross ventilation. 
 
 The pantry, the occupant of which usually does duty as 
 hall- porter, is placed immediately between the front door 
 and the side door, so that both doors can be guarded, so to 
 say, at the same time and by the same person. 
 
 The kitchen is shut off by two doors, and both of these 
 should be spring-doors, in order to make perfectly sure 
 that the house shall not be invaded by a smell of cooking. 
 The kicchen, nevertheless, is quite close to the dining-room. 
 
 The triangular space enclosed by the two sides would, 
 there can be no doubt, need planting with a few deciduous 
 trees and creepers, in order that the shade afforded may 
 undergo a progressive increase as the heat of summer 
 reaches its maximum. 
 
 The disposition of the rooms shown is not intended to 
 be more than tentative, and in practice it would certainly 
 be found advisable to have at least one sitting-room with a 
 northerly aspect. 
 
 The verandah, it is observed, is big and serviceable, the 
 object of it being, not merely ornament, but to enable even 
 a delicate person to live practically in the open air. The 
 
16 
 
 THE DWELLING HOUSE 
 
 rooms opening on to such a verandah must have big case- 
 ment windows with low bottom sills, in order that chairs 
 and tables may be lifted in and out with ease. 
 
 The size of the bungalow is greater than most families 
 would require, but as the plan is merely intended to illus- 
 trate a principle this is of no consequence. 
 
 Fig. 8. 
 
 Fig. 8 shows an adaptation of the above plan, by Mr, 
 Thomas W. Cutler, for a Convalescent Rome in Epping 
 Forest. 
 
 Warming 
 
 Fig. 9 represents an economical and wholesome way of 
 warming the passages of a house. It is intended to 
 represent a stove (any slow-combustion stove) with a fresh- 
 air pipe of large calibre opening immediately beneath it. 
 When the stove is lighted there is necessarily a large 
 influx of fresh air, and the result is that the air in the 
 passage is never ‘close’ or ‘burnt.’ It is important that 
 the fresh-air pipe should be big, and that its gratings 
 should be easily removable for cleaning. 
 
WARMING 
 
 17 
 
 If the hall and passages be warmed in this way it be- 
 comes possible to ventilate the rooms from the passages in 
 the depth of winter. Fig. 10 represents one of the top 
 panels of a door converted into a louvre ventilator, with the 
 object of ventilating a room from the passages. A ventila- 
 tor of this kind, if provided with side-pieces, delivers its air 
 nearly vertically, and admits a large volume of air without 
 causing draught. 
 
 Draughts may be defined as currents of air rushing in 
 
 Fig. 9.— Stove with Air-inlet 
 
 UNDERNEATH. 
 
 Fig. 10. — Ventilating 
 Panel in Door. 
 
 at the wrong place through channels which have insufficient 
 area. The only way to cure draughts is to place inlets of 
 sufficient area in proper positions. When building a house 
 one might, of course, place louvre ventilators in the walls 
 between room and passage at a height of 6 ft. 6 in. above 
 the floor. The alteration of a door panel into a ventilator 
 costs only a shilling or two. In the writer’s experience it 
 is a most excellent way of ventilating a room, always 
 provided that the air of the passages he ivholes<me. 
 
 c 
 
18 
 
 THE DWELLING HOUSE 
 
 Living-kooms 
 
 A few words may be said as to living-rooms. Most 
 living-rooms in better-class houses are too high. This is 
 probably due to the bad example of London. In London 
 the height of a house is the only dimension in which 
 there is, so to say, the least elasticity, and London archi- 
 tects have attempted to compensate by height for absolutely 
 inadequate area. 
 
 The rooms of some of the learned societies at Burlington 
 House, with a space of several feet between the top of the 
 window and the ceiling, afford excellent illustrations of the 
 point which is to be avoided. Windows should extend to 
 within a few inches of the ceiling , and should open at the top . 
 This is universally admitted. If the room be 12 feet or 
 13 feet high, and the windows go to the top, then the 
 window becomes unmanageable from its weight, and the 
 opening of the top, although theoretically possible, is 
 seldom put in practice. The wholesomeness of a room 
 depends very much upon the rapidity with which the air in 
 it can be renewed — the facility, in short, with which one 
 can give it a blow out. This depends upon the relation of 
 window area to cubic capacity. Windows, again, should be 
 so constructed that they can be easily manipulated by a 
 child. The louvre window ventilator, such as is common 
 in churches, will be found very valuable for the admission 
 of a constant but relatively small supply of air. These 
 ventilators were introduced by the late Professor John 
 Marshall into his wards at University College Hospital, and 
 with the very best results. 
 
 Relatively low rooms, with big mullioned windows 
 going to within a few inches of the ceiling, are far more 
 wholesome than lofty rooms in which the tops of the walls 
 
ROOMS 
 
 19 
 
 are inaccessible to the housemaid, and the window sashes 
 too weighty for her to move without difficulty. 
 
 For wholesomeness and comfort I believe a height of 
 10 feet is sufficient for any domestic living-room, and 9 feet 
 for a bedroom. Provided the windows go to the top, and 
 can be easily opened, it is very doubtful if there is any 
 object, from the purely sanitary point of view, in having 
 rooms more than 9 feet high. In rooms of such a height 
 the cornice of the ceiling can be easily reached by a house- 
 maid standing on a set of hand-steps, and the practical 
 advantage of this is very great. 
 
 Our health is more in the hands of the housemaid than 
 most of us are aware. Facility for cleaning should be 
 ever in the mind of both builder and furnisher. The 
 modern boudoir, hung with dabs of mediaeval rags, and 
 stuffed with furniture and nicknacks till it looks like a trans- 
 planted bit of Wardour Street, is often not very cleanly ; 
 and when the daylight is excluded to a maximum extent, 
 lest fading should take place, and the sun’s rays never have 
 a chance of disinfecting the dust upon and behind the 
 curios, it cannot be wholesome. 
 
 It may be remarked that some of the curtain hangings 
 and chintzes which are now, or were lately, in vogue are 
 dressed or printed with a material which gives them a 
 peculiar ‘ fusty ’ smell, something like inferior hay. No 
 room in which they are used can ever smell ‘ fresh,' and it 
 must be remembered that the smell of 4 freshness ’ due to 
 the free admission of light and air is the best practical 
 criterion of wholesomeness. 
 
 Hotel Bedrooms 
 
 For discomfort and unwholesomeness the average hotel 
 bedroom is hard to beat. I have occupied, in a very smart 
 
20 
 
 THE DWELLING HOUSE 
 
 hotel, a bedroom which was 18 feet long, 13 feet high, and 
 had a varying width from 10 feet at the window end to 8 
 feet at the door end (the room was wedge-shaped, owing to 
 its being at the turn of a building which had a fine circular 
 front facing towards two thoroughfares). The top of the 
 window was at least 3 feet from the ceiling. The window 
 was huge and unmanageable, and access to it blocked by a 
 big dressing-table carrying a large looking-glass, which, in 
 company with a once white (but now dingy yellow) roller- 
 blind (which would not stop up) and absurdly heavy and 
 costly (and dusty) valance and curtains, succeeded in 
 keeping out most of the light which might otherwise have 
 succeeded in getting through the murky atmosphere of a 
 manufacturing town. The cubic capacity of this room was 
 considerable (2,080 feet), but the 160 feet of floor-space 
 was so occupied by bed, dressing-table, writing-table, ward- 
 robe, chest of drawers, sponge-bath, fender, portmanteau 
 stand, besides pedestal, two chairs and armchair, bidet, coal- 
 scuttle, and boot-jack, that after having extinguished the 
 light, which was at the farthest point from the bed, it was 
 no easy matter to thread one’s way back. 
 
 The planning and fitting of a room to serve in the best 
 way possible the purpose for which it is intended is a pro- 
 blem to which architects have paid as yet but little attention. 
 The house-builder might very well take a few hints from the 
 ship-builder. On board ship space is economised to the 
 utmost, and it is a matter of interest and wonder to observe 
 how many luxuries one can have on board a well-planned 
 ship, mainly by reason of the cleverly-designed fittings 
 which economise space ; and it is, further, a matter of 
 interest to observe how the principle of 4 a place for every- 
 thing and everything in its place’ lends itself to cleanliness 
 and wholesomeness. The besetting sin of modern hospital 
 architects is the giving of an extravagant excess of space 
 
ROOMS 
 
 n 
 
 in places where it is not needed. Because one gives, let us 
 say, 120 feet of floor-space to every patient, it does net 
 follow that any sanitary object is gained by giving a single 
 square inch more than is absolutely necessary for ward 
 offices. On the contrary, ward offices should be kept as 
 small as possible, so that the ‘ place for everything ’ 
 doctrine must necessarily be followed. I have seen ‘ ward 
 kitchens ’ for twenty patients, in which the only cooking 
 done is the heating of a little milk or beef-tea over a gas- 
 jet, which have been about three times as big as a P. & 0. 
 galley, in which a succession of banquets are daily prepared 
 for one or two hundred persons. If ward offices be carefully 
 planned, and be merely 4 big enough/ with no excess of 
 cubic capacity, not only will initial cost in construction be 
 saved, but cleanliness will be facilitated and cost of 
 maintenance and repair lessened. 
 
 So it is with hotel bedrooms. One lives in hopes of some 
 day seeing a competition among hotels in making the rooms 
 occupied by travellers as convenient and wholesome as 
 possible. There can be no doubt that a ‘ single ’ bedroom 
 12 feet square and 9 feet high, containing 1,296 cubic feet, 
 if properly planned, fitted, lighted, and ventilated, would be 
 far more wholesome and convenient than the wedge-shaped 
 apartment containing 2,080 cubic feet to which allusion has 
 been made. Without entering into the whole question of 
 bedroom fittings, one may say a few words as to that very 
 necessary article of daily use, the looking-glass. The swing- 
 looking-glass, which continues to hold its own, and which, 
 in spite of ‘ curses not loud but deep/ refuses to stop at 
 any angle, surely ought to be abandoned now that looking- 
 glass plate has become so inexpensive. Fig. 11 represents 
 a bedroom window comprising a thoroughly illuminated 
 long mirror, so that for toilet purposes the face and figure 
 are easily inspected. The looking-glass is surrounded 
 
22 
 
 THE DWELLING HOUSE 
 
 by window, and the window itself is easily accessible, and 
 is opened and shut with ease. All bedroom windows in 
 tourists’ hotels ought to have a balcony, in order that dusty 
 clothing may be shaken in the open air. In hotels all heavy 
 
 ' S//// ////// ////a 
 
 -7777777777777? 
 
 X^ // 7/7ZZ7 7 7/,/ 
 
 
 L 
 
 Plan — Bedroom Window. 
 
 Scale of ’ t u. 
 
 Fig. . 11 . 
 
 Feet 
 
 draperies, hangings, and carpets should be tabooed, and 
 every effort should be made to give an appearance of 
 elegance and luxury with a minimum amount of dust- 
 retaining decoration. Hotels are like hospitals in this 
 respect, that guests know nothing of the previous occupants 
 
rUTKESCIBLE FLUIDS 
 
 23 
 
 of their room, and it must often be that such ignorance is 
 blissful. Convenience for the guests and facility in cleaning 
 are the objects to be attained by designers and fitters of 
 hotels. 
 
 PUTRESCIBLE FLUIDS 
 
 Although I do not propose to enter into the details of 
 the plumbing and sewerage arrangements, it is nevertheless 
 necessary to touch upon certain broad questions. Where- 
 ever organic refuse is mixed with water putrefaction results, 
 and certain gases are given off from putrefying liquids 
 which are poisonous and hurtful to mankind. Every cook 
 and housemaid is familiar with the fact that all vessels 
 which serve as receptacles for putrescible liquids require the 
 most careful cleansing, and need to be scrubbed and 
 scoured, washed with hot water and soap and soda, and 
 wiped dry. If this is not done they become foul, and rapidly 
 cause the decomposition of any liquid containing organic 
 matter which may be subsequently added. 
 
 The modern house drains into a sewer, which is neces- 
 sarily always foul and filled with the gases of putrefaction. 
 These gases are the result of microbial action. The sewage 
 water is full of microbes, the gases of putrefaction are the 
 gaseous 'toxins’ (C0 2 , H 2 S, CH 4 , NH 3 , &c.) which result from 
 their growth. The air of the sewer is necessarily harmful 
 in itself, and the presence or absence of microbes in the 
 sewer air is a matter of practically small importance. The 
 house drains are necessarily foul as well as the sewers. We 
 hear a great deal about ' self-cleansing ’ sewers, which shows 
 how ignorant are the surveyors andothers who use such terms. 
 A glazed pipe, with a good gradient, may be less foul than a 
 rough sewer with insufficient gradient, but you can no 
 more have a 'self-cleansing’ sewer than you can have a 
 self-cleansing saucepan or chamber-vessel. 
 
24 
 
 TIIE DWELLING HOUSE 
 
 The foulest place in a house is the kitchen sink, with 
 its vegetable and animal debris , such as cabbage-water, 
 grease, &c. Sanitary engineers are tiyingto cleanse these 
 places by automatic flushing with cold water, which, to say 
 the least, is enterprising. A few years ago ‘ fat traps ’ 
 v 7 ere fashionable, but w T ere soon found to be intolerable 
 from their inexpressible foulness. 
 
 It must be remembered that wherever along a line of 
 drainage you get stagnation there must be putrefaction, and 
 it must be borne in mind that every ‘ trap 5 which is a con- 
 trivance for ensuring stagnation is necessarily a place 
 where putrefaction is liable to take place. Traps may keep 
 back the smell of the street sewer in house pipes, but it 
 must never be forgotten that they are undesirable evils in 
 themselves. 
 
 The efforts of modern sanitary engineers are directed 
 towards ensuring that the gases which inevitably result from 
 putrefaction in sewers and house-drains should be as much 
 as possible diluted with external air before we breathe 
 them. The sewer gratings in the streets give off foul gases 
 at the pavement level, especially in the summer. The 
 ventilating pipes give off foul gases at the roof level, close 
 to the water cisterns. The traps beneath every w.c. and 
 sink are all spots where putrefraction may and often does 
 take place. The gullies in the front and back areas of the 
 house are also liable to be foul. Here I would insist that 
 every gully on the ground level should, when possible, be 
 freely exposed to the air, so that the wind may blow over 
 it. This, in London, is impossible, as these gullies are 
 necessarily surrounded by the walls of the area, and in 
 still, muggy weather these areas must contain a large 
 amount of gaseous toxins. 
 
 I insist upon this point because I see the town architect 
 making the mistake in the country of enclosing the kitchen 
 
PUTRESCIBLE FLUIDS 
 
 25 
 
 and pantry gullies by walls (to form a kitchen yard), so 
 that any emanations which arise from them are liable 
 to be drawn into the house through the open windows. 
 Such an arrangement ought, when possible, to be carefully 
 avoided. 
 
 Traps and trapped gullies are evils which are only to be 
 tolerated for the prevention of greater evils. I visited 
 not long ago a convalescent home built on the slopes of a 
 decidedly steep hill. The building was a hue one, and 
 (why I do not know) was three storeys high. The builder 
 had brought the rain-water pipes from the roof, and had made 
 them terminate in trapped gullies close to the front wall of 
 the house. In these collections of stagnant water, dead 
 leaves, &c., would certainly decay, and every trap would 
 inevitably become a cultivating chamber for the growth of 
 mildew and moulds of various kinds. These trapped gullies 
 communicated with an underground drain, where the same 
 growth of mildew, &c., would inevitably go forward. In 
 such a situation the rain-water, without the interference of 
 the builder and architect, would have got clean away into 
 the valley below, and have left the house perfectly dry. All 
 that was needed was an open gutter. Great expense had 
 been incurred to make the walls of this building dry, and 
 still greater expense bad been incurred to ensure precisely 
 those evils which come from damp walls, viz., the growth of 
 mildew. 
 
 In the autumn of 1896 I was stopping in an hotel which 
 had no less than 42 trapped gullies touching its walls ; there 
 was one beneath almost every window and by the side of 
 almost every door. Here, again, a little contrivance and 
 common sense would have obviated all this mischievous 
 expense. 
 
 The constant inhalation of the gases of putrefaction is 
 a great danger to health, otherwise sanitarians would not 
 
‘26 
 
 THE DWELLING HOUSE 
 
 lead ns to imply that we ought to spend enormous sums to 
 ensure their dilution before we inhale them. If these gases 
 be concentrated, they are capable of killing strong men in 
 a few minutes. The constant inhalation of these gases in 
 a more diluted form leads to malnutrition, and one must 
 suppose that the pasty-faced and undersized Cockney is 
 made in this way. We have little certain knowledge of the 
 diseases caused by sewer air. Personally, I should say that 
 amemia and malnutrition are the chief resulting evils, and 
 that these conditions make us very vulnerable to infections. 
 Sore-throat is certainly a drain disease, and thus a vulner- 
 ability to diphtheria is probably engendered. Puerperal 
 disease of various kinds and rheumatic fever are among the 
 diseases which have been attributed to sewer air, and it is 
 probable that chronic enlargement of the tonsils and the 
 surprising increase of adenoid growths in the pharynx and 
 naso-pharynx are not without similar relationships. 
 
 Dr. Letheby and Dr. Haldane, who both investigated 
 cases of acute poisoning by air in sewers, came to the 
 conclusion that sulphuretted hydrogen v 7 as the fatal in- 
 gredient. 
 
 Dr. Haldane is of opinion that the source of the sul- 
 phuretted hydrogen is the kitchen refuse in the fat traps 
 and grease boxes. Pie states that *07 per cent, (or a 
 mixture containing 7 parts of sulphuretted hydrogen with 
 9,993 parts of air) is poisonous. 
 
 It is probable that the constant inhalation of very small 
 quantities indeed would be prejudicial to health. 
 
 Damp Houses 
 
 There is a very general consensus of opinion that damp 
 houses are unwholesome. 
 
 Why are they unwholesome ? It is very doubtful if the 
 
CELLARS 
 
 27 
 
 constant inhalation of watery vapour is prejudicial to 
 health. I am not aware that sailors and millers, and boat- 
 men who spend their lives on the water, are a short-lived 
 class, or that they are liable to diseases which are special to 
 them as a class. 
 
 The probable cause of the unwholesomeness of a damp 
 house is its liability to grow moulds and mildews and 
 allied organisms. The growth of putrefactive and patho- 
 genic organisms is checked by dryness and encouraged by 
 dampness, and it is probable that it is in this direction that 
 we are to look for the causes of the unwholesomeness of 
 damp houses. A friend built a house some eighteen 
 months since on an eminence in a park having a stiff clay 
 soil. His architect advised him to have cellars under 
 the house ‘ for the sake of dryness/ and such advice is very 
 general. Let us look at the question a little more closely. 
 Suppose you build a house having an area of 50 feet by 
 50 feet = 2,500 square feet. If you have no cellar this 
 2,500 square feet of your house rests upon the soil, and 
 six inches of concrete will effectually stop back the moisture. 
 Suppose you have a cellar beneath the house, say 8 feet 
 high, then you have to excavate 2,500 feet by 8 = 20,000 
 cubic feet of earth ; and in addition to the floor of your 
 cellar you have four sides, each 50 feet by 8 = 400 square 
 feet, or 1,600 extra square feet in all, in contact with the 
 damp earth. With a cellar you have 4,100 square feet 
 ready to imbibe moisture from the soil, and without it you 
 have 2,500 feet only. 
 
 A big cellarage used for pantries, larders, beer, wine, 
 coals, &c., &c., wiiich is not artificially warmed, makes a 
 house very cold ; and if the cellarage communicate directly 
 with the ground floor, there is a constant draught of cold air 
 from the vaults beneath to the living-rooms above. 
 
 Supposing such a cellarage to have walls and floor 
 
28 
 
 THE DWELLING HOUSE 
 
 impermeable to moisture, it is inevitable that whenever the 
 wind shifts from a cold dry quarter to a warm muggy 
 quarter (say from N.E. to S.W.), condensation will take 
 place, and the walls of your ‘ dry cellar ’ will stream with 
 moisture. 
 
 A cold damp cellar, which comes only occasionally 
 under the surveillance of the master and mistress, and in 
 which all sorts of odds and ends are poked away to accumu- 
 late dust and mildew, is an undoubted disadvantage to a 
 house. 
 
 Such a cellar should never be ‘ drained/ i.e., it must on 
 no account have a gully in it for the purpose of ‘ swilling 
 down.’ When such a cellar is cleansed, it must be scrubbed 
 and wiped dry precisely like a living-room. The trap of a 
 gully is sure to grow moulds and mildews, and if, as is 
 not unlikely, it becomes unsealed by evaporation, then the 
 gases from the sewer or cesspool will inevitably find their 
 way into the cellarage and the house above it. 
 
 An inhabited basement, such as is universal in London, 
 regarded in relation to the house above it, is a very different 
 thing from an uninhabited cellarage. 
 
 A place where food is stored, be it larder or dairy, must 
 be cool, and clean, and dry , and must on no account have 
 a gully either in it or near it. Food, and milk, and cream 
 are cultivating media for organisms of all kinds, and 
 food, especially cold gelatinous food, may become most 
 dangerously poisonous if stored in an unwholesome place. 
 
 I will invite attention to fig. 12, which represents 
 a cellarage window constructed quite recently. The 
 window is entirely below the level of the ground, and is 
 surrounded by an ‘ area ’ for giving light and air to the 
 window. The area is protected by a horizontal grating on 
 the ground level, securely and permanently fastened down, 
 and the area is drained through a gully, this being neces- 
 
CELLARS 
 
 29 
 
 sary because of the rain which falls into it. The gully 
 leads to an underground drain, which, in this particular 
 case, did not run directly to a cesspool, but to an open 
 gutter on the side of a hill at a lower level. Into this area 
 dead leaves are blown, and worms and slugs and snails 
 inevitably find their way, and are washed by the rain into the 
 stagnant gully, which becomes a place for putrefaction and 
 the cultivation of mildew, the spores of which are necessarily 
 
 Wrong 
 
 Fig 12. 
 
 Cellar Window. 
 
 Fig. 13. 
 
 blown into the house to infect the food which is stored there. 
 Not only is the area closed by a fixed grating above, but 
 the window is securely and permanently barred, so that 
 this dry area (?), with its mildew trap, cannot possibly be 
 cleaned without pulling the house to pieces. 
 
 Fig. 13 is a suggestion for the improvement of this 
 area. A glazed shutter has been placed (to prevent the 
 access of rain) over a fixed grating, which admits air at the 
 sides. The gully has been removed, the front wall of the 
 
so 
 
 THE DWELLING HOUSE 
 
 area has (at the suggestion of Mr. William White, F.S.A.) 
 been sloped forward so as to reflect the light into the room, 
 and the window bars have been taken away, in order that 
 this area may be cleaned as thoroughly as the room which 
 it serves. 
 
 Larders 
 
 In view of recent discoveries as to the liability of food 
 to become poisonous when stored in an unwholesome place, 
 the construction of the larder is an important matter. 
 
 The place where cooked and uncooked food is stored — 
 the larder — must be wholesome, and to this end great care 
 must be used in its construction. The following appear to 
 me to be the points which demand attention in the larder, 
 an apartment which may influence the health of a house- 
 hold to a very great extent : — 
 
 1. The larder must be dry . Both walls and floor should 
 be above suspicion as to dampness. Any mould or mildew 
 growing on the floor or walls is very apt to infect the food. 
 The floor should be of concrete, without seams or joints. 
 The walls should be limewashed every year, and the shelves 
 (if expense be no object) should be of some non-absorbent 
 material, such as marble, slate, g 7 az3d earthenware, or 
 glass. It is better to have a larder above the ground level 
 than below it, because in the latter situation dampness is 
 very difficult to prevent. 
 
 2. A larder must be cool . If it have no rooms above it, 
 the roof must be so constructed as to keep out the heat of 
 the sun. It is essential that its windows and ventilators 
 should face the north. The temperature which is most 
 favourable for the growth of microbes is one which ap- 
 proaches to blood-heat, and, speaking generally, one may 
 say that the higher the temperature, the more likely is the 
 ‘ cultivation ’ of microbes to go forward. It is important 
 
LARDERS 
 
 31 
 
 that the flue of the kitchen fire, or any other flue, should 
 not touch the wall of the larder. 
 
 3. Good ventilation is essential. The windows should 
 be big, and should be protected on the outside with wire 
 gauze, so as to prevent the access of flies or other insects. 
 
 4. On no account must there be a gully communicating 
 with any underground drain or sewer either inside or, 
 indeed, near to any place where food is stored. In short, 
 we must bear in mind that sewer-poisoning may be indirect 
 through the food, as well as direct from the sewer itself. 
 When the shelves and floor of a larder are washed, they 
 should be wiped dry, and such washing should be carried out 
 in dry weather, so that the drying process may be complete. 
 
 We all know how sensitive food is to unwholesome con- 
 taminations, and one may well have a doubt as to the 
 sanitary condition of show dairies, where a cool, plashing 
 fountain plays in the centre, because such fountain must 
 have a waste-pipe, and one must fear that such waste- pipe 
 communicates with a drain. A dairy, equally with a larder, 
 should be kept cool and dry, and should offer no facilities 
 for the ingress of putrefactive products from a sewer. 
 
 I have already pointed out that it is no protection to 
 have waste-pipes trapped, because in every form of trap 
 one must have stagnation, and wherever stagnation occurs 
 there must be putrefaction. A very small quantity of 
 food-refuse or milk is enough to set up putrefaction in a 
 trap. If any outlet for water is thought desirable in a 
 larder, it should be in the form of an open gutter which 
 can be thoroughly cleaned and dried, and which should 
 pass directly through the wall on the floor-level, the open- 
 ing in the wall to be closed by a sliding trap-door when the 
 gutter is not being used. No bacteriologist needs to be 
 reminded that a water-trap is necessarily a cultivating 
 chamber. 
 
32 
 
 THE DWELLING HOUSE 
 
 CHAPTER II 
 
 THE SANITATION OF THE ISOLATED DWELLING 
 
 We are now in a position to consider the sanitation of the 
 isolated dwelling. Having dwelt upon the evils of putre- 
 faction, it is to be expected that methods which involve no 
 putrefaction will be recommended. Further, it must be 
 remembered that there are many situations which are 
 otherwise suitable for a dwelling, but are rendered unsuit- 
 able by the lack of water ; and in these days we have become 
 so absolutely dependent upon water, that no site for a 
 dwelling where water is scarce is acceptable. 
 
 Dry Methods 
 
 We have come to think that there can be no cleanliness 
 without soap and water, and it may be necessary to remind 
 the reader that the nomad Arab cleanses himself with the 
 sand of the desert ; that polished floors redolent of beeswax 
 and turpentine are at least as wholesome as those that are 
 scrubbed and have their crevices filled with a soapy slime ; 
 and that one of the best ways of washing a flannel shirt is 
 said to be to hang it in the sun and beat it thoroughly 
 with a stick. Necessity is the mother of invention, and 
 were there a water-famine to-morrow, I have no doubt that 
 those who were minded to be cleanly would somehow 
 manage to be so. 
 
HUMIFICATION 
 
 33 
 
 There is no denying that dry methods of sanitation are 
 in this country, where water is plentiful, far from popular. 
 Dwellers in cities want to be rid of matters which have no 
 value for them as individuals, and the luxury of having a 
 scavenger 4 laid on,’ who can be set at work by merely 
 turning a tap, and who, albeit that we pay handsomely for 
 his services, does not hang about to be 4 tipped,’ are un- 
 deniable. Then, again, our scavenger is a very strict tee- 
 totaller and never strikes, although occasionally he is 
 4 frozen out.’ Many of us during a severe frost have, so to 
 say, been the victims of dry methods and of 4 water ’ closets, 
 so called, on the principle of Lucus a non lucendo. 
 
 If dry methods of sanitation are to be successfully 
 carried out, it is necessary to bear in mind the principles 
 which underlie them. 
 
 Humification 
 
 The change which is produced in excrement when 
 mixed with earth whereby the excrement is humified — i.e., 
 changed to something which is indistinguishable by our 
 senses from ordinary garden mould, or humus, is due to 
 the action of fungoid organisms. Some of these belong to 
 the 4 mould ’ fungi, such as penicillium and saccharomyces, 
 while others are allied to the schizomycetes, otherwise 
 known as bacteria, bacilli, and micrococci. 
 
 A very important organism, or class of organisms, in 
 this connection are those which bring about the nitrifi- 
 cation of nitrogenous matters, whereby they are oxidised 
 and made soluble, so as to be readily absorbed by the roots 
 of growing plants. I prefer, however, to use the word 
 humification in place of nitrification, because it is not likely 
 that nitrification is the sole change which takes place, and 
 it is at least highly probable that many of the fungi which 
 grow in nitrogenous matter play a very important part in 
 
 D 
 
34 
 
 THE DWELLING HOUSE 
 
 producing fertility and in feeding higher plants. The in- 
 testines of animals swarm with bacteria and allied bodies, 
 and it may be assumed, in the absence of evidence to the 
 contrary, that excrements carry with them, so to say, in 
 the form of moulds and bacteria, bodies which help in their 
 subsequent humification. 
 
 Which of us has not noticed the excrement of a dog, 
 evenly covered with exquisitely graceful stalks of fungus as 
 with a crop of erect white hairs. The greatest of all 
 human observers must have seen this, for he makes the 
 Queen say to Hamlet : 
 
 ‘ Your bedded hair, like life in excrements, 
 
 Starts up and stands on end.’ 
 
 Ordinary humus contains such organisms in countless 
 numbers, and it is probable that when excreta are mixed 
 with sterile bodies, such as ashes, the necessary organisms 
 are in part supplied by the excreta themselves, or possibly 
 gain access from the air around. 
 
 In order that humification may take place two things 
 are necessary : — 
 
 1. The matter must be tolerably dry — absolute dryness 
 checks the process, so does excess of moisture. It is stated 
 that about 33 per cent, of moisture is the amount with 
 which the humifying change is most rapid. 
 
 2. The access of air is necessary, because the organisms 
 which produce humification are aerobic, and, as much of the 
 change consists of oxidation, it is evident that the free 
 access of air is essential. 
 
 Actual Practice 
 
 It may be well to refer here to what is actually done in 
 my garden at Andover, in Hampshire. 
 
 It should be stated that the garden is close to the 
 
PEACTICAL SANITATION 
 
 35 
 
 centre of the town of Andover, the chief town in West 
 Hants (a purely agricultural district), with about 6,000 
 inhabitants. 
 
 The garden abuts on a street and lies very low, being 
 only two or three feet at most above the average level of 
 the river Anton, which forms one of its boundaries. 
 
 The interest of the garden lies in the fact that it has 
 been manured for the last ten years with the excreta and 
 
 a, cottages ; b, house and garden (let for a girls’ school) ; c, c, garden 
 ground used for sanitary purposes, measuring (exclusive of grass and 
 paths) about 1 \ acre ; w, well , d, d, d, d, d, small stream, supplied partly 
 by springs and partly from river. 
 
 other refuse of some twenty cottages, the only stable dung 
 which has been used having been sufficient to make a hot- 
 bed in the spring, and no more. 
 
 The plan (fig. 14) shows the position of the cottages, 
 which form a cul-de-sac running from the street to the 
 river, and also the position of the garden ground. This 
 ground, which is on both sides of the cottages, measures, 
 exclusive of paths and turf, about one and a quarter acre. 
 Nearly an acre of the ground has, together with a house, 
 
36 
 
 THE DWELLING HOUSE 
 
 been let for a girls’ school, and in the cultivation of this 
 piece the writer has no authority. 
 
 The cottages are fitted with ‘pail closets,’ with the 
 exception of one only, which has a ‘dry catch,’ which is 
 much superior, from every point of view to a pail closet, 
 and in course of time it is hoped that all the closets 
 will be converted into ‘ dry catches,’ of which more will be 
 said hereafter. The contents of the pails are removed 
 every morning, and are superficially buried in a furrow 
 such as a gardener makes when turning up the ground 
 with a spade. One must insist that the covering of the 
 excreta cannot be too light, as it is essential for the due 
 humification of the organic refuse that the air have access 
 to the pores of the soil ; and one may add that when 
 the pores of the soil are sealed up by drenching rains, as 
 was the case in the autumn of 1894, the process of humi- 
 fication is delayed, and certainly the excreta are not 
 (owing to their sticky, glutinous nature) washed out of the 
 soil by the heaviest rains experienced in this country. The 
 method of superficial burial has this further advantage, 
 that the tillage of the soil and the burying of the excreta 
 are carried on by a single operation. As the cottages are 
 close to the garden, the process of removing and burying 
 the contents of the pails is done in less than an hour. 
 Directly this has been accomplished, in the early hours of 
 the morning, there is an end of anything which can offend 
 either the eyes or the nose. 
 
 After the excreta have been superficially buried plants 
 of the cabbage tribe are dibbled in as soon as may be. This 
 is often done within three days, and the cabbages are sure 
 to flourish. Seeds do not flourish with any certainty, and, 
 although I have seen fair crops of turnips, peas, onions, 
 &c., when the weather has been favourable, such crops 
 are liable to fail, while cabbage as a first crop is 
 
GARDEN AT ANDOVER 
 
 37 
 
 practically sure to succeed. I can call to mind a spot 
 in the Andover garden which had been sown with turnips 
 and radishes as a first crop after manuring. The pro- 
 duce was Brobdingnagian, but worthless except to dig into 
 the ground. The development of green head was very 
 great, the roots were huge and woolly. When the plan 
 of operations which has been described (daily superficial 
 burial followed by cabbage planting) was commenced, some 
 ten years ago, many were the prophecies of failure. The 
 practical men shook their heads and said I never should 
 succeed that way, but that I was ‘ bound to store the stuff in 
 a heap to allow it to ripen before being put on the land.’ As 
 a sanitarian one w 7 as naturally anxious to get the excreta 
 below the surface of the ground as soon as possible, and I 
 now feel confident in stating that the plan I recommend is 
 the best from the sanitary, agricultural, and financial 
 points of view 7 . Sanitarily it is the best because there is 
 no delay in the safe bestowal of the excreta ; agriculturally 
 it is best because no ammonia or other volatile body is given 
 to the air, but all goes to enrich the land ; and financially 
 it is best because it involves moving the dung once only 
 instead of twice ; the same operation that tills the land 
 serves to cover the dung, and while the excreta are 4 ripen- 
 ing ’ for other crops the farmer gets a crop of cabbage. 
 After the cabbage crop the ground is still very rich and 
 will grow everything or anything, to which the soil and 
 situation are suited, in high perfection. 
 
 The garden is in great contrast to an ordinary sewage 
 farm. It is used as a pleasaunce, and its luxurious herbage 
 and bright colouring are very beautiful. The ordinary 
 garden crops show great exuberance of growth, and the 
 summer fruit trees (apples, pears, peaches, and nectarines) 
 are usually hung with a very bountiful crop of fruit. 
 
 The illustration (fig. 15) shows the central green path of 
 
38 
 
 THE DWELLING HOUSE 
 
 the garden, and although the rich colouring of the trito- 
 mas, gladioli, stocks, phloxes, asters, lobelias, calceolarias, 
 
 Fig. J5. — Garden at Andover. 
 
 roses, and dahlias, cannot be reproduced, the illustration 
 will serve to give some idea of the general luxuriance. 
 The writer claims to have proved (all chemical analyses 
 
‘DKY CATCH’ 
 
 89 
 
 to the contrary notwithstanding) that human excreta have 
 a very high manurial value, and this will be borne out by 
 the picture. 
 
 The ‘Dry Catcii’ 
 
 Seeing that moderate dryness and free access of air are 
 essential for humification, it becomes necessary so to con- 
 struct our receptacle that these ends may be attained. 
 
 This end is not attained in an ordinary pail, because all 
 the urine is retained ; there is an excess of moisture, and 
 the mixture becomes putrid and sloppy, unmanageable and 
 offensive. 
 
 The best method of treating excreta is to allow them to 
 be deposited in the ‘ dry catch,’ suggested by Mr. Eichardson, 
 of Clifton (see fig. 16). In this arrangement the seat is 
 raised on two or three steps, and the excreta are caught 
 on a slightly sloping concrete floor ; the excreta are freely 
 exposed to the air, and the urine flows away down the 
 slight slope and is caught by an absorbent material, of 
 which the best is garden humus. 
 
 With this arrangement no putrefaction takes place. It 
 is not a matter of much practical moment whether or 
 not earth be thrown into the dry catch after the excreta, 
 because the arrangement ensures that offensiveness is 
 reduced to a minimum. 
 
 If earth be used this humification will go on in the 
 catch itself, and the longer such a catch is used the better 
 it will act, always provided that moderate dryness and free 
 access of air are ensured. 
 
 I speak with great confidence as to the success of this 
 arrangement, and with an experience of some years’ stand- 
 ing. With a dry catch of this kind used, let us suppose, 
 for the lowest class of property and with daily removal of 
 the excreta, the balk and weight of the excreta are reduced 
 
40 
 
 THE DWELLING HOUSE 
 
 to a minimum ; there is no sloppiness or putrefaction. 
 Collection and transport are easy, and the work is, with 
 suitable tools, not repulsive. If we adopt the estimate of 
 Parkes, that the solid excreta average for both sexes and 
 all ages not more than 2 \ ounces per diem, then the house- 
 
 Fig. 16. —Section of ‘ Dry-Catch ’ Privy, with Gutter filled with 
 Absorbent Material to absorb Excess of Urine. 
 
 hold of five persons would provide considerably less than 
 1 lb. weight per diem. 
 
 Now a dry catch may in country places be used with 
 the addition of dry earth, and where the householder has 
 a garden he can have no difficulty in managing everything 
 for himself, and must be little better than an idiot if he 
 allows any sanitary authority to rob him of the finest 
 manure the world produces, the excreta of the ‘ paragon of 
 animals,’ and withal the most highly fed. 
 
THE SANITATION OF THE ISOLATED DWELLING 41 
 
 Where the seaiitary authority is responsible for the dis- 
 posal of excrement, I believe it will be found more eco- 
 nomical to carry the excreta to the earth than to take the 
 earth to the excreta. 
 
 If there be cultivable land at hand, and the nearer such 
 land is to the houses the better, I believe the best course to 
 pursue is to bury the excreta daily in superficial furrows, 
 as recommended above. 
 
 If there be no cultivable land at hand, then the excreta 
 would have to be taken to a rough shed (sufficient to keep 
 off the rain) and mixed w T ith earth. The process of humifi- 
 cation would be completed in three months, and the humus 
 thus formed might be used over and over and over again 
 ad infinitum . The gr^at advantage wffiich follows from the 
 scientific use of 4 dry methods ’ is the continuity of the pro- 
 cess.. Nature turns all the excrement to humus, and humus 
 is acknowledged to be the very best purifier of offensive 
 nitrogenous matter which the world affords. The dark 
 humus which is found everywhere, and which provides for 
 all our needs, is nothing but excrement which has 
 suffered a natural transformation brought about by a 
 process which is purely biological. The oftener such humus 
 is used the better it acts, and, further, it slowly increases in 
 bulk. There can be no doubt as to its horticultural value, 
 and if the authority cannot use it, the neighbouring farmers 
 and gardeners will gladly do so. One of the difficulties 
 connected with the dry-earth system is the procuring of 
 earth, but from what I have said it is evident that 
 an initial store of earth sufficient for six months’ use, if 
 judiciously, carefully, and scientifically used, would for ever 
 take away the necessity of providing a fresh store. 
 
 This continuity of action is a most important matter, 
 and one which has been hitherto almost wholly unappre- 
 ciated. This arises from the fact that those who have not 
 
42 
 
 THE DWELLING HOUSE 
 
 carefully studied these dry methods are unable to believe 
 that what I have stated is really true. That it is abso- 
 lutely true I have no doubt whatever. Every sanitary 
 authority should have a garden of its own for the purpose 
 of practically demonstrating the excellent results obtained 
 by using this ‘ dry ’ material as a manure. Such a garden, 
 if properly cultivated, could not fail to be both beautiful 
 and productive, and, if managed on the profit-sharing- 
 principle, would yield at least enough to pay wages. 
 Such a garden should not have the customary notice, ‘ No 
 admittance except on business,’ but it should be the busi- 
 ness of everybody to walk by it or through it while going 
 to and from their daily work, and in so doing receive an 
 object-lesson which would do more to enhance the health 
 and prosperity of the country than any number of Board 
 Schools and Free Libraries. In the last edition of 4 Rural 
 Hygiene 9 I have given some statements as to the financial 
 results of my garden at Andover, which, I think, will be 
 regarded as satisfactory. My experiments point to the fact 
 that 600 square yards are enough for the disposal of the 
 excreta of about 100 persons per annum. 
 
 The ‘ Pail ’ System 
 
 The causes of the ill-success of the pail system appear 
 to me to be in large measure due to the great weight 
 of the pails, and, in consequence of the exceeding foulness 
 of the material, the great distances which they have to be 
 carried. 
 
 By the adoption of the ‘ dry catch ’ the weight of 
 material would be enormously decreased and its daily trans- 
 ference by means of a proper shovel and travelling recep- 
 tacle would be found both easy and economical. 
 
 If the material removed be buried superficially every 
 
‘PAIL’ SYSTEM 
 
 43 
 
 day with a view to cultivation and production, the land to 
 which it is removed cannot be too near to the houses . This 
 may seem a strong assertion, but I make it without any 
 hesitation whatever. Should the necessity ever arise, I feel 
 sure that all the parks and square gardens might be used 
 in the manner I have indicated for sanitary purposes, not 
 only without offence, but with a certain great increase in the 
 productiveness of the ground, always provided that the atmo- 
 sphere be not too foul (as is the case in central London) to 
 permit of horticulture or agriculture in any form. 
 
 If the dry catch be used the material is not sloppy and 
 liable to spill, and thus the great hindrance to its transport 
 is removed. 
 
 Finally, the initial expenses and repairs of pails would 
 no longer fall on the sanitary authority, and the huge cost 
 of lugging about these absurdly clumsy putrefaction boxes 
 would be at an end. 
 
 We have three specimens of municipal pails in the 
 Parkes Museum, and these vary in weight from 40 lbs. 
 to 50 lbs. The 50-lb. pail, which is 18 inches in dia- 
 meter and 15 inches deep, weighs, when filled with water, 
 187± lbs. 
 
 If, by the help of two men, a horse, and a lorry, one has 
 to take, in addition to the excreta, fifty pounds weight of 
 galvanised iron, or wood and iron, a mile each way, the 
 expense becomes huge, and anything like a daily removal is 
 impracticable ; but if one has to transport a pound of solid 
 excrement a few hundred yards only, then the problem is a 
 very different one. 
 
 Any sanitary authority which adopts 4 dry method ’ 
 should endeavour to arrange for a daily removal. I am no 
 advocate of ‘ conservancy,’ but would rather see the imme- 
 diate utilisation of the excreta. It is only by immediate 
 burial that one gets the full manurial value of them. 
 
44 
 
 THE DWELLING HOUSE 
 
 The burial must be done with a view to the cultivation 
 of the land. It must be superficial . The excreta must be 
 merely covered with the earth, no more. Furrows half a 
 spit deep are ample. It is in this way only that one 
 insures the oxidation of the excrement and the protection 
 of the wells. 
 
 It is the almost universal custom to bury night soil 
 deeply, and I could quote many instances in which excreta 
 have been buried three or four feet deep, and have been 
 exhumed some months later unchanged and still foul. If 
 they be buried deeply, the farmer or gardener gets no 
 benefit and the wells are endangered. The farmer, be it 
 remembered, spreads his dung on the surface of the ground, 
 with a maximum exposure to light and air and then ploughs 
 it in ; nothing could be more truly scientific. 
 
 We hear that in India, in spite of the earth system, 
 typhoid is rife, and the opinion is very general there that 
 typhoid spreads through the air. I have never been in 
 India, and am not competent to express any opinion, 
 but I have heard that in some places in India the excreta 
 are deeply buried, and if this be the case, it appears to me 
 that if the ground gets deeply fissured during drought, 
 the torrential rains which follow may very well wash this 
 too deeply buried and unchanged excreta into the water 
 sources. 
 
 If excreta are to be used for agricultural purposes, no 
 chemical antiseptics must on any account whatever be mixed 
 with them. Antiseptics are a source of serious danger to 
 the agriculturist. The best antiseptic for such a purpose 
 is earth. 
 
 In-Door FjArth Closet. 
 
 It has been supposed that the method of excrement 
 disposal which 1 advocate necessitates the compelling of 
 
IN-DOOR EARTH CLOSET 
 
 45 
 
 delicate persons to go out of doors in all weathers. 
 I do not believe that it is necessary to ask delicate persons 
 to run the risk of exposure in houses where dry methods 
 of excrement disposal are employed. If a very small 
 amount of the ingenuity which has been lavished upon 
 water carriage had been devoted to overcoming the diffi- 
 culties which attend the safe and decent management 
 of dry methods, these difficulties would, I believe, have 
 long since disappeared. If architects and builders can be 
 impressed with the necessity , on scientific, moral, sanitary, 
 and economic grounds, of overcoming these difficulties, the 
 thing is done. 
 
 The house which I own at Andover (see fig. 14, b) 
 becoming vacant, I tried the experiment of giving it a dry 
 privy, which should be of such a kind that no lady would 
 object to use it. 
 
 Now I hold that every closet, whether a dry closet or a 
 water closet, should be sequestered from the main structure 
 of a house, and should be approached by a lobby having 
 cross ventilation. Those who in the present day put 
 closets and waste-pipes within the four walls which enclose 
 the living-rooms are not abreast of modern civilisation. 
 The simplest plan for effecting my object in the present 
 case seemed to be to throw an arch across the entrance to 
 the stable yard, to place the ventilated passage on the top 
 of the arch, and the closet on the far side of it, on a level 
 with the first floor, and with a capacious vault or ‘ catch ’ 
 beneath it. (See figs. 17 and 18.) The catch, though larger, 
 is exactly on the same principle as that which has been 
 described, and it has been provided with eight large air 
 bricks, three of which are just below the level of the closet 
 seat, three near the ground level, and two intermediate in 
 position. The bottom of the door of the catch is about an 
 inch above the ground level, and in addition there is an 
 
46 
 
 THE DWELLING HOUSE 
 
 opening for a dust-shoot, protected by a fine grating, so 
 as to insure that only dust and ashes and not cinders or 
 clinkers are thrown into it. There can be no doubt that 
 plenty of fresh air will get access to this receptacle. 
 
 Without special precautions such a closet would be cold 
 and draughty, and I have endeavoured to overcome this 
 difficulty by a specially constructed pan, closed at the 
 bottom by a hinged flap, which opens and shuts auto- 
 matically by means of a counterpoise. (See fig. 19.) 
 
 By means of this specially- devised pan all up-draught 
 
 is prevented ; the stuff drops out of sight, and the urine, 
 owing to the obliquity of the bottom of the pan, runs away 
 instantly. When the closet has been used, some earth is 
 thrown in, and this has the effect of carrying away any 
 paper which may lodge, and of deodorising any soiling 
 of the pan which may have taken place. There are some 
 points connected with this closet-pan and seat which 
 require to be mentioned : — 
 
 1. The seat and accessories are made of the best 
 
IN-DOOR EARTH CLOSET 
 
 47 
 
 polished mahogany, because I am very strongly of opinion 
 that smartness leads to cleanliness. 
 
 2. The seat is only 14 inches above the ground, which 
 
 Fig. 1 . — Section through Chamber Floor E.C. and Dry Catch. 
 
 is some 4 inches less than is customary. Closet seats are, 
 as a rule, too high, and the low seat, with the position 
 it necessitates, has certain physiological advantages, among 
 
48 
 
 THE DWELLING HOUSE 
 
 which may he mentioned the fact that the dejecta fall 
 vertically downwards. It has one disadvantage, viz., that 
 elderly people find a difficulty in rising ; but this objection 
 is easily overcome by fixing a handle in the wall, so that 
 
 4NS«2 9 6 3 .O I 2 FEET 
 
 I — i — 1 — i — I ! 1 
 
 Fig. 19. — Section of Pan for Dry Closets. 
 
 the arms may assist the feeble legs in the act of resuming 
 the erect position. 
 
 It will be observed that the back part of the pan is 3 inches 
 beyond the rim of the seat and is nearly vertical, while the 
 front part is set only 1 inch beyond the rim of the seat, and 
 runs obliquely from above down and from before back. 
 
DRY METHODS WITH URINE 
 
 49 
 
 The object of this is to still farther lessen the chance of the 
 soiling of the back of the pan. The lower opening is 
 slightly oblique, so that urine shall flow away instantly. 
 
 The supply of earth for this closet is kept in a box 
 alongside the seat, and this box is filled from the outside 
 by means of a hopper so arranged thai the man who brings 
 a fresh supply of earth cannot see or be seen by any chance 
 occupant of the closet. The supply of earth h very large, 
 being sufficient for a month or more, and there is no traffic 
 through the house either with earth or excrement. This, 
 again, is an important trifle. 
 
 The pans hitherto constructed on this pattern have 
 been made of japanned iron. They have not to bear any 
 weight or strain, and may be made very light. Enamelled 
 iron or copper seem to me to be the best materials, but I 
 have no doubt they could be effectually contrived in earthen- 
 ware. The pans have been made for me by Messrs. Eighton, 
 376 Euston Eoad. The pattern is registered. 
 
 Dry Method of Treating Urine 
 
 Most of us must have remarked, either in London 
 or some other centre of population, how little annoy- 
 ance arises from cabstands. One must know of cab 
 ranks where dozens of horses stand for hours daily from 
 year’s end to year’s end, and where tons of dung and 
 thousands of gallons of urine are spilled upon the same 
 spot and practically without annoyance. I do not mean to 
 say that occasionally one may not get a strongly am- 
 moniacal whiff from such a spot when the weather is hot 
 and muggy, but it is notorious that they are seldom foul, 
 and that on passing them we are never prompted to hold 
 the nose and quicken our pace. 
 
 The condition of a cabstand is in strong contrast with 
 
 E 
 
50 
 
 THE DWELLING HOUSE 
 
 the average urinal with an ordinary water supply. Such 
 places are always pervaded with a sickening odour, and the 
 mere addition of practically an unlimited amount of water 
 is insufficient to keep this smell of decomposing urine (than 
 which nothing is more offensive) in abeyance. 
 
 It is hardly too much to say that water urinals are 
 always offensive, and that even in clubs and similar smart 
 places the tablet of camphor, which is intended to assert itself 
 over the head of the other smells, is not always successful. 
 
 It may, I think, be said that water urinals are never 
 sweet except in those rare instances in which they are 
 constantly wiped perfectly clean by an attendant. The 
 decomposition of urine is due to micro-organisms, and it is 
 well-known that if urine be passed into an impure vessel, 
 its decomposition takes place with great rapidity, especially 
 if the temperature be moderately high. All vessels in- 
 tended for the reception of urine require a thorough washing 
 and cleansing every day. The form of 4 bottle ’ which is 
 habitually used for bed- ridden patients is most difficult to 
 clean, and is a very undesirable apparatus. If water urinals 
 be provided with ‘traps’ in which urine, or urine and water, 
 is allowed to stagnate, such traps must be permanently 
 foul and become a source of annoyance if not of danger. 
 
 If urine be allowed to filter through absorbent material, 
 the effect produced upon it is as remarkable as it is 
 interesting. I have experimented with a variety of absorb- 
 ent materials during the last six years, and now propose 
 to shortly set forth the results, some of which have been 
 previously published in ‘Essays on Rural Hygiene’ (2nd 
 ed. : Longmans, 1894). The vessels used have been of 
 conical form, tapering from one foot in diameter at the upper 
 and wider end to an opening large enough to admit a big 
 quill at the lower end (fig. 20.) The length of these vessels 
 is 30 inches, and they are supported on a metal tripod. 
 
DRY METHODS WITH URINE 
 
 51 
 
 Some of the vessels have been made of metal — galvanised 
 iron — and others have been made of flannel. 
 
 The first experiments were made with ordinary garden 
 earth, and they were conducted for me by Dr. Wells, 
 of Brondesbury. These, and nearly ad the subsequent 
 experiments, were made in 
 the same way, viz., by add- 
 ing day by day what may 
 be called a natural chance 
 quantity of urine, varying in 
 amount from about a quarter 
 of a pint to two pints in the 
 day. In these experiments, 
 when fresh earth was used, 
 the filtrate was always of 
 lower specific gravity than 
 the urine added, notwith- 
 standing the considerable 
 evaporation which must have 
 taken place from the surface 
 of the filter. The total solids 
 of the urine averaged 4*44 
 per cent., of which 3*45 were 
 organic and 0*99 inorganic, 
 while the total solids of the 
 filtrate were 1*78 per cent., of 
 which 1*07 were organic and 
 0 71 inorganic. How much 
 of the organic and inorganic matters in the filtrate came irom 
 the mould it is not possible to say. The urea was probably 
 all reduced, as the hypobromite method gave a percentage 
 of only 015 in the filtrate, a quantity which may be dis- 
 regarded in the face of the fact that the hypobromite 
 method acts upon nitrogenous bodies other than urea. 
 
 Fig. 20. - Urine Filter. 
 
THE DWELLING HOUSE 
 
 52 
 
 The filtrate was rather deeply pigmented, but the pigment 
 was submitted to spectroscopic examination by Dr. McMunn, 
 of Wolverhampton, and pronounced by him to be not of 
 urinary origin. Further— and this is most important — the 
 filtrate could be evaporated to dryness without offensive 
 odour, and showed no tendency whatever to putrefy when 
 left for months in an ordinary bottle. 
 
 In short, the filtrate, although derived from urine, had 
 none of the qualities of that fluid. The earth in the filter 
 when stirred was distinctly ammoniacal, so that the pre- 
 sence of ammonia could be detected by the nose when held 
 quite close to it, but at no time was there any foulness. 
 
 When the same earth, after some months of rest, was 
 used a second time for the filtration of urine, the same 
 results were obtained, with the exception that the filtrate 
 was of higher specific gravity than the urine added, and 
 the mineral residue of the filtrate was doulb that of the 
 urine. This was caused by the solution of nitrates and 
 other soluble salts which were formed in the earth from 
 the residue of the first instalment of urine, but the filtrate 
 had not the properties of urine. It contained no urea, 
 could be evaporated to dryness without offence, and showed 
 no tendency to putrefy. 
 
 In the same way, I have used deal sawdust instead of 
 earth, and the following is the result of an analysis made 
 for me by Dr. Kenwood in the Hygienic Laboratory at 
 University College. 
 
 July 25, 1895. 
 
 Parts per 1,000. 
 
 Reaction 
 
 S.Gf. 
 
 Solids 
 
 Urea 
 
 so 3 
 
 p 2 o 5 
 
 Cl 
 
 1 Faintly acid . . 
 
 1020 
 
 44*20 
 
 23-8 
 
 1-38 
 
 2-39 
 
 4-08 
 
 2 Alkaline . . . 
 
 1-034 
 
 127*9 
 
 Nil (all reduced) 
 
 8-30 
 
 13-41 
 
 38-00 
 
 1 (1) Fresh urine. 2 (2) Urine after filtration through sawdust. 
 
DRY METHODS WITH URINE 
 
 53 
 
 4 Physical Characters. — (1) Pale yellow, clear, with a 
 slight opaque zone from mucus, normal urine odour. 
 
 4 (2) Dark mahogany-brown colour — markedly opaque 
 and somewhat turbid. A peculiar woody (resinous) odour, 
 faintly ammoniacal. 
 
 4 The 44 two ammonias ” cannot be estimated by 
 Wanklyn’s process in the fresh urine, where there is so 
 much urea, but in the filtrate they amount to — 
 
 0-032 Free and saline) _ 
 
 0*0016 Organic j ^ er ’ 
 
 I have kept two test-tubes half filled with (1) and (2), 
 tightly corked, in the warm cupboard of the laboratory 
 for the past three weeks ; the sample of fresh urine has 
 become offensive, but that of the filtered urine is per- 
 fectly sweet, and rather pleasant to smell/ 
 
 The filtrates from sawdust were a very dark brown 
 colour, like 4 stout ’ or 4 porter,’ and these have been evapo- 
 rated to dryness without offence, and have shown no ten- 
 dency to putrefy. 
 
 Experiments conducted in the same way with peat 
 have yielded a filtrate almost identical in appearance to the 
 sawdust filtrate, inoffensive on evaporation and not putres- 
 cible. The filtrates from peat and sawdust were always 
 of higher specific gravity than the urine added. 
 
 In order to ascertain how much urine could be got rid 
 of by evaporation, I tried the experiment of using a flannel 
 bag filled with sawdust or peat, and I found that with regard 
 to one of these experiments (the bag being hung under a 
 shed in the open between June 15 and July 20, 1895), 
 only 81 ounces of filtrate having the qualities above given 
 were obtained from 729 ounces of urine added to the 
 filter. In this case 648 ounces of urine (over 40 lbs. 
 weight) disappeared. In another experiment carried on in 
 
54 
 
 THE DWELLING HOUSE 
 
 my room at University College I added (between May 9 
 and July 26) 626 ounces of urine, and obtained only 
 54 ounces of filtrate, so that in this case 572 ounces 
 (nearly 36 lbs. weight) of urine had disappeared. 
 
 As far as my experiments have as yet gone, I have not 
 discovered the limit of sawdust for dealing satisfactorily 
 with urine. Thus in 1894 I filtered during May, June, 
 and July, 39 lbs. weight of urine through 6 lbs. of saw- 
 dust in a flannel bag, and neither filtrate nor sawdust was 
 in the least offensive. In the same months in 1895 I 
 passed an additional 41 lbs. weight of urine through the 
 same sawdust in the same bag, and practically with the 
 same result. In 1896 I added over 30 lbs. weight of urine 
 to the same sawdust, but as the flannel bag had become 
 too rotten to hold together, I was obliged to have recourse 
 to the metal filter-vessel. The early filtrate obtained in 
 1896 had a specific gravity of 1*061, but, like its predeces- 
 sors, could be evaporated to dryness without offence, and 
 the sawdust was not in the least malodorous, although it 
 was distinctly (as it always has been in these experiments) 
 ammoniacal. 
 
 One of the most interesting experiments w 7 as that in 
 which the filtering material consisted of crumpled paper 
 in a flannel bag. The paper used was such as is familiar 
 to every one, and was derived from old Bradshaw’s Guides, 
 the leaves of which were torn out and crumpled up in the 
 hand before being put into the bag. This paper, like most 
 paper used for printing, is sized and not very absorbent. 
 At the end of a week a considerable quantity of filtrate 
 had been obtained, and both filter and filtrate became 
 excessively foul and malodorous, so that it was unpleasantly 
 obtrusive, even when one stood several yards from it. The 
 foul filtrate was returned to the filter, and no fresh urine 
 was added for a time. This was done on October 15, and 
 
DRY METHODS WITH URINE 
 
 DO 
 
 on October 21 all had become sweet, and four ounces of a 
 perfectly sweet and faintly acid filtrate were obtained ! 
 The filter never became foul after this date. Between 
 October 21 and November 25, 1894, 484 ounces of urine 
 were added, and 54£ ounces of filtrate were obtained. 
 Between November 25, 1894, and January 6, 1895, the 
 filter rested ; then, between January 6 and March 81 urine 
 was added only occasionally, so that the total only amounted 
 to 560 ounces (35 lbs. weight). Three and a half pounds 
 weight of filtrate were obtained. The filtrate was more 
 ammoniacal than that obtained from sawdust, earth, or 
 peat, but it never has shown any tendency to putrefy. The 
 paper became blackish, and was riddled with fungi, and 
 ultimately was scarcely distinguishable from garden mould. 
 
 Thus I have shown that these absorbent materials 
 exercise a strangely purifying power upon urine, and its 
 behaviour with these bodies is very different to what is 
 observed when urine is mixed with water. 
 
 Now for the practical application. I am not going to 
 advocate that all houses in cities should be fitted with 
 absorbent urinals, but it will occur to many that there are 
 circumstances when such urinals may be very useful. 
 
 They are admirably suited for use on race-courses, 
 cricket and football grounds, and other places where 
 people congregate occasionally. On my advice they have 
 been placed on two cricket grounds near London, and 
 have given great satisfaction ; they have been used also in 
 the engineers’ yard attached to the Twickenham Station 
 of the London and South-Western Railway, w 7 hieh h 
 visited by a large number of men (averaging perhaps 150) 
 every day, and the South-Western Railway have fitted 
 them up at one of their country stations. 
 
 Again, in country houses a urinal for gentlemen placed 
 in some accessible but secluded spot, and formed of a 
 
THE DWELLING HOUSE 
 
 basket or barrel of convenient height, filled with peat 
 or sawdust, will be found both economical and inoffensive. 
 In the garden of a little cottage I have such a urinal, con- 
 sisting of a small barrel filled with peat, which has been in 
 use for nearly eighteen months, and which has never been 
 changed, and is yet perfectly free from offensive odour. 
 It is only when the top layers are removed that the nose 
 perceives an ammoniacal odour, and then only when placed 
 almost in contact with the peat. 
 
 I am accustomed to advise that such urinals for public 
 use should be in the form of troughs made of basket-work 
 or hurdling, or of wood panelled with perforated zinc, the 
 trough to be triangular in section, with apex downwards, 
 3 feet 6 inches wide at the upper part, and 2 feet 4 inches 
 in depth. 
 
 The shape of the trough and the material of which it 
 is made facilitate evaporation. Such a trough should be 
 under cover to prevent the access of rain, and it is obvious 
 that with a width of 3 feet 6 inches it might be used from 
 either side, provided a match-board screen were placed 
 vertically along the centre (see fig. 21). 
 
 Allowing 2 feet of length for every 6 place,’ it follows, 
 there being a 6 place ’ on either side, that each foot of 
 length would afford one place. 
 
 It might be necessary to allow the wicker-work trough 
 to have an open gutter beneath it, but it is only exception- 
 ally that any effluent would be afforded. 
 
 If such a trough is in constant use the sawdust 
 must be turned over and stirred occasionally, and if this 
 be done it will never be foul, and the sawdust can 
 be used for surprisingly long periods of time without 
 emptying. 
 
 If sufficient sawdust, or peat, or dry earth be provided 
 for a double charge, so that one charge may be drying in a 
 
DRY URINAL 
 
 57 
 
 shed while the other is in use, my belief is that this might 
 be used for indefinite periods. 
 
 A final question, and one of very great importance, is 
 the ultimate destination of the absorbent material. 
 
 Sawdust has a very bad reputation with agriculturists, 
 who assert that when used in large quantities it grows 
 fungi and poisons the land. If fresh sawdust be used, and 
 if it be employed in relatively large quantities, and especi- 
 
 Elelvation. 
 
 Fig. 21 — Dry Urinal. 
 
 ally if it be buried too deeply, I can well understand that 
 it would prove prejudicial to crops. 
 
 I can positively assert, however, that deal sawdust or 
 peat, after being soaked with urine, shows no disposition 
 whatever to become mouldy. I have never seen mould 
 upon deal sawdust, but I have seen it upon oak sawdust. 
 
 My experiments further show that when sawdust or 
 peat has been used as a top-dressing good crops have 
 followed, whether on grass or garden ground. The cricket 
 clubs which have, in accordance wfith my advice, put up dry 
 catch closets and dry urinals have used the products as a top- 
 
58 
 
 THE DWELLING HOUSE 
 
 dressing at the end of the season, and with the result that 
 their wicket pitches have been the envy of their neighbours. 
 
 Chemists tell us that urine is of high manurial value 
 because of the large amount of nitrogen which it con- 
 tains. This is doubtless true, but we all know that the 
 immediate effect of pure urine is fatal to herbage. Whether 
 this be due to the heat of the fresh urine or the salts, I do 
 not know, but I fancy the latter. In the same way we 
 know that a sprinkling of salt, or salt and water, kills 
 weeds ; but we are told that salt is a bad weed killer, because 
 it ultimately acts as a manure, and causes increased growth. 
 Now urine does the same thing. 
 
 The farmer who uses the urine and dung of his animals 
 mixed with absorbent material (generally straw), and 
 ultimately places it on the land as a top-dressing, gets 
 nothing but good from it. 
 
 The practices I advocate are exactly analogous to those 
 which have been used by agriculturists in every age, and 
 with the best results. I am merely advocating a return 
 to customs w 7 hich have been tried again and again and 
 have never been found wanting. 
 
 In the e Journal of the Royal Agricultural Society ’ 
 (vol. vii., part iv., December 1896) I find a statement 
 (p. 631), that in the delta of the Nile a compost of earth 
 and cattle urine is generally used as a manure. 
 
 ‘ Owing to the lack of wood, the people are compelled, as 
 in India, to use the solid droppings of their cattle as fuel, but 
 they conserve the urine on a very ingenious system. 
 Loose earth, shifted and renewed from time to time, is 
 used as a covering for the stable floor, and earth is so much 
 in demand for this purpose that the irrigation officers can 
 hardly prevent the people from carrying away the canal 
 banks/ Analyses show from 1*25 to 2*5 per cent, in 
 equivalent of nitrate of soda. It is obvious, however, that 
 
HOUSING OF ANIMALS 
 
 59 
 
 a chemical analysis gives but a poor idea of the value of 
 the compost. It is applied at the rate of eight tons to the 
 acre for growing sugar and maize. 
 
 Housing of Animals 
 
 In country places and in connection with country houses 
 provision has to be made for the proper housing of animals. 
 
 Speaking broadly, there can be no doubt that the more 
 fresh air we give our animals (the more they are in the 
 open and the less they are under cover) the better. 
 
 Sheep are rarely housed, unless- it be wuth a view to their 
 getting prizes for being in a condition of diseased obesity. 
 
 On Mr. Stephens’s farm at Cholderton one may see not 
 only sheep, but herds of cattle and numerous brood mares 
 and foals, all in the rudest health, notwithstanding that 
 they never go within doors from year’s end to year’s end. 
 
 It is the same with poultry. If they are to be kept 
 healthy they must be confined indoors as little as possible. 
 ‘Who,’ says Cobbett, ‘ can get up as early as the birds?’ 
 and it must be remembered that birds are out nearly an 
 hour before sunrise all the year round. If poultry be locked 
 up, wfith a view to forcing egg-production by keeping them 
 warm, it is probable that they will become tuberculous. 
 
 Sir Frederick Fitzwygram, in his exhaustive treatise on 
 the Horse, is very careful to insist on the perfect ventilation 
 of stables, and tells us of certain London cab stables 
 where the health of the horses became excellent after the 
 doors and windows w 7 ere removed. 
 
 In the construction of stables, Sir Frederick Fitz- 
 wygram insists on the danger of underground drains, and 
 advises that the drainage of a stable shall be by open gutters 
 only, and that these gutters shall lead to gullies removed 
 many yards from the stable door. This is rational common 
 
60 
 
 THE DWELLING HOUSE 
 
 sense, and must be applied not only to stables, but to human 
 habitations also. 
 
 Trapped gullies are only miniature cesspools, and the 
 presence of such contrivances within stables or cow-houses 
 means that the animals are breathing the gases of putre- 
 faction whenever they are within doors. 
 
 It is a question whether, in such places, we do not 
 often go to a huge expense in order to do things wrongly. 
 
 1 call to mind three cow-houses which I visited in the 
 autumn of 1895. One was at a very old-fashioned manor- 
 house near Alresford, Hants, and was a high-pitched, 
 thatched, barn-like building, which had been used for cows 
 ‘ time out of mind.’ There was an open door at either 
 end ; the floor of the stalls was of beaten earth, and the 
 middle passage between the stalls was of flint pitching. 
 The stalls had a very slight slope from head to tail, and 
 there was no drain of any kind, and no water-tap for the 
 adulteration of the milk or the 'swilling down’ of the 
 building. The dung was removed every morning with 
 shovel and besom, and, if necessary, some earth was 
 thrown upon the floor of the stalls. This house was frag- 
 rant, and filled with the sweet breath of kine and the aroma 
 of good upland hay. There was no suggestion or suspicion 
 of foulness. The urine in this case must have soaked 
 away to a great extent into the earth and between the 
 pitching, and had done so in this place, perhaps, for cen- 
 turies. 
 
 The other two cow-houses were of a different order 
 One was at an establishment devoted to giving technical 
 instruction in dairying, and the other belonged to a milk- 
 man in a country town. Both had cost much money, w T ith 
 impermeable bricked floors, water-taps for swilling down, 
 and drains within the building for carrying away the valu- 
 able dung and urine. They both were damp, with water 
 
WELLS 
 
 61 
 
 lying between and in the grooves of the bricks, and both 
 had a sickening smell of putrefaction. Neither of these 
 two last cow-houses were desirable places in which to collect 
 milk. I have little doubt that the Bacterium coli, which 
 lives in water, was very abundant in both of them. 
 
 Water (unless it be boiling hot and used with abundance 
 of soap and a scrubbing-brush) is entirely out of place in 
 cow-houses, dairies, and butchers' shops. 
 
 Putrefaction is easily attained by swilling with cold 
 water. Beal cleanliness is unattainable in this way. 
 
 The dung and urine of all domestic animals is invalu- 
 able for the farm and garden, and it all ought to be care- 
 fully preserved. I feel that the best way of doing so would 
 be to allow the stalls of stables, cow-houses, piggeries, &c., 
 to have a very gentle slope to a gutter or trough filled with 
 absorbent material, such as earth or peat moss, and pro- 
 tected by a grating. This trough would be cleaned out 
 whenever it became in the least offensive, and thus the 
 whole of the urine would be saved for the farm. 
 
 I have not given a special figure, but a reference to figs. 
 29 and 30, on pp. 87, 88, will show the reader what is meant. 
 
 It needs hardly to be said that all animal houses must 
 be kept scrupulously clean. There must be no accumula- 
 tions of dung, and all such ordure must be removed daily. 
 The besom and shovel and wheelbarrow are the only proper 
 tools for doing this. 
 
 If ‘ water-carried sewage ’ be introduced on the farm the 
 ruin of the farmer is more certain than it is at present. 
 
 Construction of Wells 
 
 It is admitted that humus is one of the best filtering 
 materials for water, and that water from a river full of 
 living organisms is to a large extent freed from them by 
 
62 
 
 THE DWELLING HOUSE 
 
 filtering through a few feet of the humus on its banks. In 
 the past few years Professor E. Frankland has shown that 
 water of singular microbial purity has been obtained from 
 the gravel beds which in places flank the Thames. Such 
 water, one must suppose, is obtained from ground water 
 which has fallen upon the earth, has filtered through it, 
 and is slowly flowing towards the river. The purifying 
 agent in these cases is mainly the living humus which 
 lies upon the surface, although the subsoil cannot be 
 without some effect. These facts must alter our attitude 
 towards surface wells, and must teach us what to a great 
 extent has been admitted — that the purity of surface 
 wells must depend more upon the mode of construction 
 and the surroundings of the well than upon its depth. 
 Wells are polluted by foulness which has reached the sub- 
 soil without being subjected to the purifying influence of 
 the humus ; and there are many facts which go to show that 
 if foul w T ater gets to the under side of the humus without 
 going through it its purification in the subsoil is far from 
 certain. The Lausen epidemic, the Worthing epidemic, 
 and the pollution of the deep well sunk in the sandstone at 
 Liverpool, seem to show us that percolation through a mile 
 of underground strata entails no certain purification, and 
 that wells 80 ft. or 400 ft. deep are not safe if fissures allow 
 the contents of cesspools, leaking under pressure, to trickle 
 into them. The almost universal condemnation of surface 
 wells and their frequent pollution are mainly due to the fact 
 that we take our filthy and dangerous liquids through the 
 humus in pipes, and thus ensure at great expense that they 
 cannot be subjected to purification by it. If these under- 
 ground pipes leak, the mischief caused by pollution of wells 
 may be very far-reaching. It is very probable that foul 
 water continuously thrown on the same spot of ground may 
 in time work its way to a well and thus pollute it. Such 
 
WELLS 
 
 63 
 
 ground, which is constantly soaked, be it remembered, is 
 never tilled, because tillage is impossible. For ground to 
 be tillable it is essential that reasonable breathing-time 
 should be allowed. I am not altogether sure (although I 
 hardly dare utter such a heresy) that a properly constructed 
 surface well in a selected situation may not prove to be one 
 of the safest sources for water, because it can be inspected 
 with perfect ease, and the fact of accidental leakage into it 
 would become apparent. In this connection it may be well 
 to describe in full detail the well which I have sunk in my 
 garden at Andover, a garden which is rather handsomely 
 manured with human excreta. The well is placed in the 
 very centre of the garden (see fig. 14, p. Bfi, w) at the 
 intersection of two paths — a broad green path and a 
 narrow asphalted path. This situation was chosen for 
 two reasons : (1) that it was as far as possible removed 
 from any accidental pollution from the sewer in the 
 street ; and (2) that in the centre of the garden it would 
 theoretically run the greatest chance of faecal contamina- 
 tion from the manure urea. As the well was sunk solely 
 for experimental purposes this was essential. The garden 
 is on a river-bank and very slightly raised above the 
 level of the water. The well is only some 5 ft. deep, 
 and the water stands at a level (which varies very 
 slightly) of about 3 ft. 6 in. from the bottom. The well is 
 lined throughout from the very bottom to a point some 
 15 in. above the ground with large concrete sewer-pipes 
 2ft. 3 in. in diameter, and these pipes have been carefully 
 cemented at their junctions. Outside the pipes a circle of 
 cement concrete about 4 in. thick has been run in. It will 
 thus be evident, the sides being perfectly protected, that no 
 water can possibly enter this well except through the bottom, 
 all contamination by lateral soakage through the walls being 
 rendered impossible. The well is surrounded by an asphalte 
 
64 
 
 THE DWELLING HOUSE 
 
 path about 3 ft. wide and slightly sloping away from it, and 
 it is encircled by a clipped privet hedge about 5 ft. high, 
 except at those points where the circle of privet is cut by 
 the paths. There is a closely fitting cover of oak, which has 
 an outer casing of lead, and thus all contamination from 
 above is prevented. The water is drawn off through a 
 2-in. leaden pipe which passes through the outer concrete 
 and the concrete lining pipe, the cut passage for the pipe 
 being carefully closed with cement. The pump is behind 
 the privet hedge, and is provided with a sink and waste pipe 
 which takes the overflow some twenty or thirty yards to a 
 neighbouring stream. In this way the constant dripping of 
 water in the neighbourhood of the well is prevented ; for I 
 am very much alive to the dangers attending a constant 
 water-drip, which might be able in time to worm its way 
 through soil and concrete into the well itself. I regard this 
 question of the overflow as one of great importance which is 
 too often neglected. Figs. 22 and 23 show this well in sec- 
 tion and plan. The nearest point to the well upon which 
 any mammal deposit of excreta is likely to be made is on the 
 far side of the privet hedge, and the distance of this point 
 from the bottom of the well is 7 ft. All water which finds 
 its w T ay into the well must have passed through at least 
 6 ft. or 7 ft. of earth, and, of course, the great bulk of the 
 water has passed through a far greater length. Three 
 chemical analyses of this water, one by Professor Frankland 
 and two by Dr. Kenwood, testify to its organic purity, and 
 three bacteriological investigations have given similar indi- 
 cations of purity. A bacteriological examination of the 
 water from the river Anton and the well water, made on 
 April 11, 1895, gave 1,133 growths per cubic centimetre for 
 the river and only 7*5 for the well. Of course there may 
 be a dangerous microbe among this small number, but, on 
 the whole, I think the best guarantee of the purity of the 
 
WELLS 
 
 65 
 
 water is the condition of the well, which after four years is 
 as clean on the bottom and sides as it was the day it was 
 made. There has been no appreciable increase of sediment 
 on the bottom, and the pebbles are as plainly visible as they 
 
 Fig. 22. — Plan of Well, showing its Relation to Paths and Hedge. 
 
 ever were. The well is for experimental purposes mainly, 
 but water for garden use is drawn from it, and during 
 the severe frost of 1895-6 my gardener and some of his 
 neighbours were entirely dependent upon it for household 
 purposes. I seldom go into my garden without drinking 
 
 Fig. 23 Section of Well, showing Concrete Lining and 
 
 Position of Pump. 
 
 some of the water, which is clear and delicious, and my 
 visitors seldom escape without drinking some also. I 
 think the well is a very safe one. It must be mentioned, 
 however, that after very excessive amounts of rain, such 
 as occur occasionally, when the water comes down in a 
 
 F 
 
66 
 
 THE DWELLING HOUSE 
 
 perfect deluge and lies for hours in big pools upon the 
 ground, the water in the well becomes turbid. My belief 
 is that under these circumstances the fine sediment on 
 the bottom is driven upwards by the suddenly increased 
 pressure of the water outside ; and I have no reason to 
 think that after these storms there has been any actual 
 increase of sediment, the stones at the bottom remaining 
 as visible as ever. I have never been able to make a 
 bacteriological examination after one of these floods, but 
 hope to be able to do so. 
 
 The question whether such a very shallow well becomes 
 dangerous after a flood is a most important one. It is 
 clearly understood that with my well there is no possibility 
 of flood water entering at any point except through the 
 bottom. It must be recognised that in times of flood with 
 a drowned humus the power of purification may be lessened. 
 On the other hand, my experience leads me to say that it is 
 very difficult (if it be possible at all) to wash feces out of 
 well-tilled humus by any rain which we get in this country. 
 In the autumn of 1894, in the south of England, we had very 
 severe floods, and I was able to note that the humification 
 of feces in my garden was, as a consequence, very much 
 delayed. Faecal matter was visible on turning up the soil 
 for nearly three months after it had been deposited, and 
 the masses of fecal matter were enclosed in crusts of humus 
 which had been rendered airless and clay-like by the 
 excessive amount of water. This naked-eye test seemed to 
 show that the well had not been endangered, for there 
 were the feces, and most certainly they had not been washed 
 downwards. When the pores of the soil had been opened 
 by frost the humification of the fecal matter went forward 
 as usual. This experience seems to enforce what I have 
 said before — that a drowned humus cannot deal with dung. 
 That floods may be dangerous to surface wells we all know, 
 
WELLS 
 
 67 
 
 but it will be recognised that the conditions and circum- 
 stances of my well at Andover are distinctly different from 
 those of the wells mentioned in the following extract, which 
 were filled with flood water by leakage through their tops 
 and sides. 
 
 In the Twenty-third Annual Report of the Local Govern- 
 ment Board (1898-94) reference is made by Dr. Thorne 
 Thorne to certain investigations on outbreaks of typhoid 
 fever in certain riverside populations in Yorkshire and 
 Lincolnshire. These investigations by Dr. Bruce Low 
 seem to prove conclusively that the fsecally polluted water 
 of the Rye and the Trent had infected with typhoid fever a 
 certain proportion of the inhabitants who consumed the 
 raw river water. Dr. Thorne Thorne goes on to say : 
 ‘ Incidentally it transpired during the course of this 
 inquiry that the town of Malton had an altogether excep- 
 tional history in so far as enteric fever and diarrhoea in 
 fatal form are concerned. Situated on the Derwent, four 
 miles below the confluence of the Rye with that river, 
 Malton was found to derive its water-supply from the Lady 
 Well, sunk to a depth of 14 feet in the middle oolite rock, 
 and occupying some low-lying land close to the river bank. 
 Into this well river- water gained access as soon as the 
 Derwent rose above a given point, the amount of river-water 
 reaching the well varying from mere leakage through holes 
 and crevices in the banks to complete submersion of the Lady 
 Well by the swollen stream. Gradually it had come to be 
 noted that the outbreaks of fever and of diarrhoea followed 
 on seasons of flood in the Derwent, a river which was 
 referred to locally in 1890 as containing “ the sewage of ail 
 the towns and villages situated near the Rye and its 
 numerous tributaries.’ 
 
 In country places where surface wells are the only 
 
 F 2 
 
68 
 
 THE DWELLING HOUSE 
 
 available source of water, I strongly recommend that they 
 be made on the pattern which I have been describing. 
 
 It is the top of the soil which can break up and 
 assimilate organic matter ; the subsoil has no such power. 
 It is a common mistake to bury deeply any organic matter 
 which seems to us to be particularly offensive. In this 
 way we ensure its preservation and endanger the wells. 
 The safety of our wells is directly proportionate to the thick- 
 ness of the humus, and to place organic matter below the 
 humus is like throwing the dog’s bone beneath the kennel 
 instead of into it. The inefficiency of deep burial hardly 
 requires to be mentioned. Bodies buried deep in the sub- 
 soil last for years, while those which are placed in the 
 living humus are rapidly destroyed. 
 
 I should like to mention that when my well was dug 
 there was found beneath a turf path and about three feet 
 below the surface a large quantity of dead leaves which had 
 probably been deposited in a pit at some long antecedent 
 date. They had undergone scarcely any decomposition 
 although they had been in that position very many years. 
 Again, when engaged in pulling down a cottage my man 
 unearthed an old privy some four feet below the surface. 
 In this privy unmistakable faecal matter was recognisable. 
 Neither he nor I nor any of the neighbours had any know- 
 ledge of any such privy having been in use of late years, 
 and my belief is that these recognisable excreta had been 
 deposited at least half a century ago. Who shall say that 
 these excreta did not still contain spores of all the ills that 
 flesh is heir to ? Under natural conditions all dead organic 
 matter falls upon the surface of the ground, and nature is 
 a very sure guide. 
 
69 
 
 CHAPTER III 
 
 SLOP-WATER 
 
 It is often stated that to deal with excremental matters 
 separately from the slop-water is no advantage either from 
 a pecuniary or sanitary point of view, because : 
 
 1. Slop- water is as foul as sewage composed of excre- 
 
 ment and slops. 
 
 2. A system of sewers is necessary for the slop-water, 
 
 and it is not easier to treat slop-water alone than 
 it is to treat a mixture of slops and excrement. 
 
 The following tables, from the ‘ Report of the Royal 
 Commission on Rivers Pollution in 1868,’ are given by most 
 sanitarians to show that the difference in degrees of im- 
 purity between a water-closeted town and a non-water- 
 c-loseted town is very slight. 
 
 Average Composition of Sewage 
 In Parts per 100,000 
 
 Description 
 
 Total 
 
 Solid 
 
 Matters 
 
 in 
 
 Solution 
 
 Or- 
 
 ganic 
 
 Car- 
 
 bon 
 
 Or- 
 
 ganic 
 
 Nitro- 
 
 gen 
 
 Am- 
 
 monia 
 
 Total 
 
 Com- 
 
 bined 
 
 /Nitro- 
 
 gen 
 
 Chlorine 
 
 Suspended Matters 
 
 Mineral 
 
 Organic 
 
 Total 
 
 Midden Towns . 
 
 82-4 
 
 4-181 
 
 1-975 
 
 5-435 
 
 6-451 
 
 11-51 1 
 
 17*81 
 
 21-30 
 
 39*11 
 
 Water - Closet 
 
 
 
 
 
 
 1 
 
 1 
 
 
 
 
 Towns . 
 
 72-2 
 
 4-696 
 
 2-205 
 
 6-703 
 
 7-728 
 
 10-66 
 
 24-18 
 
 20-51 
 
 44-69 
 
 In Grains per Gallon 
 
 Midden Towns . 
 
 57-68 
 
 • 2-926 
 
 1-382 
 
 3-804 
 
 4-515 
 
 8-078 
 
 12-467 
 
 14-910 
 
 27-377 
 
 Water - Closet 
 
 
 
 
 
 
 
 
 
 
 Towns . 
 
 50-54 
 
 3*287 
 
 1-543 
 
 4-692 
 
 5-410 
 
 7*462 
 
 16-926 
 
 14-357 
 
 31*283 ! 
 ! 
 
70 
 
 THE DWELLING HOUSE 
 
 This table being not unfrequently quoted in support of 
 the contention that slops alone = slops + excrement, I may 
 be excused if I examine it somewhat critically. 
 
 I will take the table in grains per gallon and simplify it 
 somewhat. 
 
 Grains per Gallon 
 
 Description 
 
 Total 
 Solids in 
 Solution 
 
 Suspended 
 
 Matter 
 
 Total 
 Solids in 
 Solution 
 and Sus- 
 pension 
 
 Organic 
 
 Carbon 
 
 Am- 
 
 monia 
 
 Total 
 
 Com- 
 
 bined 
 
 Nitrogen 
 
 Chlorine 
 
 Mineral 
 
 Organic 
 
 Midden Towns . 
 
 57-68 
 
 12*467 
 
 14*910 
 
 85*057 
 
 2*926 
 
 3*804 
 
 4-515 
 
 8*078 
 
 Water - Closet 
 
 
 
 
 
 
 
 
 
 Towns . 
 
 50*54 
 
 16*926 
 
 14*357 
 
 81*823 
 
 3*287 
 
 4-692 
 
 5*410 
 
 7*462 
 
 We shall all of us be ready to grant that the addition 
 of excremental matters must be something extra added to 
 the sewage, and that such extra matter must be either in sus- 
 pension or solution. The fact, therefore, that the total solid 
 and suspended matters is less by 3^ grains in the water- 
 closet towns than in the midden towns can only be ac- 
 counted for by the enormous dilutions of the excremental 
 matters in the sewage. Notwithstanding this dilution we 
 find that the water-closet town sewage contains 20 per cent, 
 more combined nitrogen than midden town sewage, 23 per 
 cent, more ammonia, and, what is very remarkable, 35 per 
 cent, more suspended mineral matter. 
 
 This excess of mineral matter in suspension could only 
 be caused by the precipitation of mineral matters by the 
 ammonia and sulphuretted hydrogen formed by decompo- 
 sition of the albuminous and other organic matter. This 
 excess of mineral matter in suspension must therefore be 
 taken as a measure of the enormously increased putrefac- 
 tion in w 7 ater-closet sewage, a putrefaction probably to a 
 great extent brought about by the millions of microbes 
 
SLOP-WATER 
 
 71 
 
 which are provided from the human intestines with the 
 excrement, and we must therefore assume that the increase 
 of mineral matter in suspension is an indication that a 
 large quantity of foul putrefactive gases has been given off 
 into the streets and houses of water-closet towns. 
 
 This table, therefore, seems to me to conclusively de- 
 monstrate that the sewage of water-closet towns is far more 
 bulky and far more filthy and dangerous than the sewage 
 of midden towns. 
 
 Sewage is not to be regarded too absolutely from its 
 chemical side. We must use our senses, inclusive of our 
 common sense, in coming to a conclusion, and we must 
 not pin our faith on analyses alone. When I am told 
 that it is of little use to deal with solid excreta, because 
 the liquid household slops alone are as foul and difficult to 
 treat as the complete mixture, I confess I am incredulous. 
 
 When I see the housemaid’s pail filled with three 
 gallons of soapy water and perhaps a pint of urine, am I to 
 believe that the addition thereto of five ounces of solid 
 excrement, a second half pint of urine, and a square foot of 
 paper, will make no difference to its foulness and cause no 
 increase of difficulty in its purification ? Cr eclat Judceus 
 Apella ! Such a statement is manifestly absurd. 
 
 Again, we must remember that it is the solid excreta 
 which constitute not only the foulest but the most dan- 
 gerous ingredient of sewage, the only one which has 
 caused widespread epidemics again and again, the one 
 which has hung a load of debt round the neck of every 
 municipality in the country. 
 
 The other ingredients of household slops, unlike the 
 faeces, are little liable to contain pathogenic microbes. 
 The urine of a healthy man is, as we all know, sterile 
 when passed. In diseased conditions it may occasionally 
 possess infective power, but this is a speculation rather 
 
72 
 
 THE DWELLING HOUSE 
 
 than a practical fact acknowledged by the sanitarian. A 
 large proportion of cooking- water has been boiled, and is 
 therefore sterile, and the same may be said of the water in 
 which our linen has been washed. Household slops, there- 
 fore, are not liable to be really infective. 
 
 They are nitrogenous, and consequently, if allowed to 
 stagnate by mismanagement, they become very foul from 
 decomposition, but that they are capable of producing 
 epidemics has not yet been proved. Between excrement 
 and slop-water there is this difference, that solid excreta 
 are foul-smelling ab initio , but slop-water (if we except the 
 smell of water in which cabbage has been boiled) only 
 becomes foul if it is mismanaged. 
 
 In places which are not overcrowded a great deal has 
 been done when the wholesome treatment of the solid 
 excreta has been arranged for, and I feel that to neglect 
 the doctrine that ‘ half a loaf is better than no bread,’ and 
 to discourage people from dealing w 7 ith solid excreta, be- 
 cause they do not see their w r a.y quite clearly for the 
 disposal of slops, is most dangerous. 
 
 One thing is certain, viz., that if the solid excreta are 
 dealt with by dry methods the liquid sewage will be ‘z5 
 per cent, less bulky than otherwise would be the case. 
 
 I feel sure that if, in our anxiety to prevent the 
 pollution of rivers, we fail to appreciate the biological 
 differences between excrement and slop-water w T e shall 
 make a mistake, which in the end will be no real advantage 
 to the streams. If, therefore, villages and places where the 
 population is sparse make serious efforts to deal with, 
 excreta, they should have at least some breathing-time 
 allowed before the fish in their streams are deprived of 
 the luxuries which they doubtless obtain from kitchen slops. 
 
 When fa 3 cal matters are mixed with the slops, the 
 mixture is so offensive that we are compelled to place it at 
 
SLOP-WATER 
 
 73 
 
 once beyond the reach of the nose or eye, and the presence 
 of sticky faeces and large quantities of paper makes any 
 attempt at filtration practically impossible. Domestic 
 slop-water when fresh is not offensive, and is very rarely 
 dangerous; and by attention to certain details it can be 
 easily dealt with. 
 
 Domestic slop-water consists of : 
 
 1. The waste from kitchen and pantry sinks, which 
 often contains dissolved albuminous matter, food particles, 
 dissolved and suspended fat, a considerable amount of 
 coffee grounds and tea leaves, and sundry odds and ends, 
 the result of house-cleaning, such as fluff, bits of string, 
 little scraps of paper and rags, fibres from brooms and 
 brushes, &c. These materials are very apt to accumulate, 
 and to block drains ; and if this form of slop- water is to 
 be effectually dealt with, it is essential that the suspended 
 matter be strained out. The purposes which the kitchen 
 and pantry sinks subserve require, according to Nofcter 
 and Firth, about 8*75 gallons of water per head per diem ; 
 and allowing for evaporation, the slop-water must be less 
 in quantity, so that if we say that these slops average 24 
 gallons per diem for a household of 7 persons, w r e shall be 
 not far from right. 
 
 2. Bedroom slops, consisting of soapy water and urine. 
 Allowing for a daily sponge bath, these amount to about 
 five gallons per head per diem, or thirty-five gallons for a 
 household of seven persons. The suspended matters in 
 these slops (soapsuds chiefly) are in such a fine state of 
 division that they easily filter. They may contain waste 
 matches, a few hairs, a small amount of fluff from towels, 
 and an occasional bit of paper. 
 
 8. The water from fixed baths amounts to about thirty 
 gallons per bath per diem, and in a household of seven 
 would not probably amount to more than sixty gallons a 
 
74 
 
 THE DWELLING HOUSE 
 
 day. It is so clean that it ought not to occasion any 
 trouble. 
 
 Assuming the clothes-washing is not done at home we 
 should have fifty-nine gallons per household of seven 
 per diem without fixed baths, and 119 gallons with fixed 
 baths ; and if the washing be done at home, then three 
 gallons per head per diem must be added, or twenty-one 
 gallons for a household of seven, giving a maximum of 
 140 gallons per diem for a household of seven. 
 
 Fifty-nine gallons per diem would put upon an acre of 
 land the equivalent of an inch of rain (22,624 gallons) in 
 384 days, and the equivalent of an inch of rain on a 
 quarter of an acre in 96 days. 
 
 One hundred and forty gallons per diem w 7 ould be the 
 equivalent of an extra inch of rain on an acre in 162 days. 
 
 These amounts are trivial, and if the water be supplied 
 from a private well in the grounds it is evident that, allow- 
 ing for evaporation, me should pump from the subsoil 
 rather more than me return to the surface. Again, it must 
 be remembered that the house w 7 ith the greatest amount of 
 slops has, as a rule, the largest curtilage. A mansion con- 
 taining tw 7 enty persons with unlimited baths, laundry, and 
 stables would not probably give more than 40 gallons per 
 head, or 800 gallons a day, which is a trivial amount when 
 considered in connection with a park of 20 or perhaps 200 
 and more acres. 
 
 It is necessary to insist that the amount of slop-water 
 to be dealt with in isolated houses is usually trivial in 
 proportion to the land available for its purification. Tidy 
 was of opinion that, employing intermittent downward 
 filtration for the purification of previously precipitated crude 
 sewage, an acre might be sufficient for 7,000 persons. 
 This would give y-oVo - acre > or a b° u t 44 square feet, for a 
 household of seven. At this rate my consulting room in 
 
SLOP-WATER 
 
 75 
 
 London, which measures 24 x 18 = 482 square feet, would be 
 an area large enough for nearly 70 persons. I think the 
 estimate is too small ; but even if one multiplies it by ten it 
 is evident that the amount of land necessary for treating 
 the domestic slop-water of a house is much smaller than 
 might be supposed. 
 
 In places where unlimited water is obtained' by merely 
 turning a tap these estimates are very liable to be exceeded, 
 especially when those who turn a tap on are too forgetful 
 or lazy to turn it off. 
 
 I feel certain that anyone who experiments on this 
 matter as I have done will be simply astounded at the small 
 amount of ground which is necessary. 
 
 Critics of the plans which I have advocated, and am 
 now about to advocate, sometimes hint that the whole 
 curtilage of one’s house must be unwholesomely sloppy. 
 
 Such a statement shows a complete ignorance of the 
 whole subject. 
 
 Few, if any, of the writers of hygienic text-books seem 
 to have really studied the life-history of slop -water, and 
 it is matter for regret that in some of these books the 
 chapters devoted to domestic hygiene deal more with 
 patents than with principles, and are illustrated more by 
 woodcuts culled from tradesmen’s catalogues than by any 
 practical knowledge possessed by the writer. 
 
 Principles of Slop-Drainage 
 
 If domestic slop water is to be dealt with successfully it 
 is necessary — 
 
 1. That all waste pipes terminate ivell above the level of 
 the ground. 
 
 This is a point too much neglected by architects, who 
 are very prone to carefully put all waste pipes below 
 
76 
 
 THE DWELLING HOUSE 
 
 ground level, so that any purification of slops without 
 pumping is impossible. 
 
 Allowing a fall of, say, 1 in 10, it is evident that for 
 every foot above ground at which a waste pipe terminates it 
 is possible to deliver the waste on to the surface of the ground 
 at 10 feet from the house. Thus the bedroom sink waste 
 at a height of 10 feet above ground level might be made, if 
 so desired, to deliver its waste 100 feet from the house. It 
 is often necessary to take the waste pipes from the first 
 floor over the path surrounding the house. This is easily 
 accomplished without causing any unsightliness by placing 
 an arch over the path. Such arches may be of galvanised 
 iron for a cottage, or of masonry for a mansion, and are 
 soon hidden by creepers. 
 
 Figs. 24 and 25 illustrate how this principle may be 
 carried out ; in the one case by a rustic arch costing a few 
 shillings, and in the other case by a porch and arcading 
 of a more ambitious description. Fig. 24 is from a photo- 
 graph of an arch in actual use. Fig. 25 has been furnished 
 by Mr. Cutler. 
 
 When pipes are provided with a rapid fall there is little 
 tendency for water to freeze in them, but in severe climates 
 it might be necessary to pack the pipes. 
 
 The waste pipes of kitchen and pantry sinks are, in 
 London, almost always below ground level, it being the 
 custom to place the kitchen and offices in an underground 
 basement ; and I have known London architects who have 
 provided country houses with similar abominations, so 
 that the sewage of a basement has to be lifted before it can 
 be properly treated. If this evil is to be avoided, it is 
 essential that the waste pipes of kitchen and pantry sinks 
 terminate at least two feet above ground level. This is a 
 minimum, and if a greater fall can be obtained, so much the 
 better. Kitchen and pantry waste is full of dissolved and 
 
SLOP-WATER 
 
 77 
 
 Fig. 25. — Use of Arch for getting Waste Water clear of House. 
 
 only should the waste pipe have a fixed and immovable 
 strainer below the plug, but a sink basket should be used, 
 
 suspended matter, and a careless cook will throw down the 
 sink enough food to keep a pig or a dozen fowls. This 
 
 Fig. 24. — Rustic Arch. 
 
 waste is very prone to become offensive, and it is advisable 
 that it be thoroughly strained before flowing away. Not 
 
78 
 
 THE DWELLING HOUSE 
 
 and the waste should be still farther strained in a manner 
 to be presently described. 
 
 2. No stagnation must anywhere he permitted along the 
 line of slop-drainage . 
 
 Experimenting upon this point, I have found that stag- 
 nant slops become, as a rule, offensive within 24 hours, even 
 when exposed to the air. Thus I tried the experiment of 
 filtering bedroom slops through a trough filled with stones 
 and provided in the middle of its length with a diaphragm 
 reaching from the top to within an inch of the bottom, 
 and having the outlet only an inch or so below the level of 
 the inlet. This caused stagnation and great foulness, 
 which disappeared immediately the outlet was placed at the 
 lowest level, and stagnation became impossible. Soapy water 
 mixed with urine soon becomes foul if allowed to stagnate 
 in traps, but it has never in my experience been foul if 
 poured upon the earth and allowed to soak away. With a 
 good fall and with the outlets of pipes freely exposed to 
 the air, traps are not necessary, and as all forms of traps 
 are but miniature cesspools, this is a great gain. A trap is 
 never possible in an outside metal pipe because of the fear 
 of frost. The abolition of traps is not only necessary, but 
 a very great gain indeed. 
 
 8. Slop-ivater should run in open gutters , and when it has 
 reached a certain distance from the house it should 
 be allowed to soak aivay as it runs , and take the line 
 of natural drainage of the locality . 
 
 This may be effected by means of 
 
 Filtration Gutters 
 
 The gutters which I have used, and which have been 
 found to answer in a manner which has far exceeded my ex- 
 pectations, are constructed as follows : — 
 
FILTRATION GUTTERS 
 
 79 
 
 A trench 2 feet deep and 18 inches wide, and of a 
 length varying with the circumstances, is dug, and filled up 
 with porous material, such as builders’ rubbish, old 
 crockery, and tins, stones, &c., &c., to within a few inches of 
 the surface, and upon this rubbish, previously rammed, walls 
 of concrete or honeycomb brickwork are formed, provided 
 with a ledge sufficiently wide to support a perforated tile, the 
 perforations being big enough to admit a large sized knitting- 
 needle, say | in. in diameter. The porous rubbish reaches 
 to within an inch of the under surface of the tile, and the 
 sides are planted. The 
 gutter may, if neces- 
 sary, be protected by a 
 grating. 
 
 Or the gutter may 
 with great advantage be 
 placed upon a bank with 
 gradually sloping sides. 
 
 In both cases the 
 sides of the gutter 
 should be planted with 
 quick-growing shrubs, and it will soon become orna- 
 mental. Such a slop-gutter on a raised and planted bank 
 would form a most excellent boundary fence. These 
 gutters are shown in figs. 26 and 27. The perforated tile 
 which forms the floor of this gutter is a most important 
 part of it, because it allows the gutter to be cleared of dead 
 leaves and other rubbish, which inevitably fall into it, and 
 it protects the porous material from getting clogged. It 
 breaks the force of the water and prevents the downpour 
 from the pipes from ploughing up the rubble, which is a 
 most important matter. I have used various things for 
 forming the floors of these gutters, and have found nothing 
 better than the perforated tiles which are used for forming 
 
80 
 
 THE DWELLING HOUSE 
 
 the floors of malt kilns. I have no doubt that the gutter 
 could be made perfectly well in galvanised iron. What 
 lengths of such gutters should be provided ? To answer 
 this question I can only give my own experiences. 
 
 Two years ago I constructed such a gutter for a girls’ 
 school where there are between BO and 40 day scholars and 
 boarders. 1 dug out my trench leading into a natural 
 rivulet, and I formed a gutter 40 feet long. I do not think 
 
 Elevation oe Brickwork. Section. 
 
 the slops in this case have ever travelled as much as six 
 feet, and there is no evidence that a drop of slop-water has 
 ever touched the rivulet. The privets have grown, but the 
 gutter has never been foul, and when the tiles have been 
 taken up the porous rubbish beneath has been found per- 
 fectly sweet, and there has been no sloppiness at the sides. 
 
 A similar gutter on a bank was provided for a six- 
 roomed house, and the slop-water has never travelled to 
 
FILTRATION GUTTERS 
 
 81 
 
 the end, or anywhere near it, notwithstanding a consider- 
 able fall. 
 
 The water of a fixed bath has run for nine years into 
 a gutter 20 feet long, and at times as much as 120 gallons 
 a day has flowed into it, but the water is never visible two 
 minutes after the waste has ceased to flow ; there has been 
 no foulness of any kind, and the only effect has been to 
 make the shrubs grow. 
 
 The bedroom slops of a country mansion with twenty- 
 three inhabitants w 7 ere taken, eighteen months ago, into a 
 plantation, and the only result has been that the limes have 
 thrown up suckers, but there has been neither sloppiness 
 nor foulness. 
 
 The bedroom slops of a cottage with five inhabitants 
 have run for five or six years along a gutter 12 feet long, 
 at the foot of a privet hedge, and there has been neither 
 sloppiness nor foulness, except when, as stated above, I 
 produced stagnation. 
 
 4. When it is feasible , it is advisable to alloiv different 
 varieties of slops to flow in separate gutters . 
 
 The waste of fixed baths is almost clean, containing 
 nothing but a little soap at most ; bedroom waste contains 
 soap and urine, but no solid particles of any size to give 
 trouble, except a stray bit of paper, or an old match, or a 
 few hairs, and some fluff from towels, which will all be 
 caught upon the perforated tiles, and can be swept up 
 occasionally. 
 
 The waste from kitchen and pantry sinks needs careful 
 straining and filtering before it is allowed to flow into an 
 open gutter. I have mentioned the necessity of providing 
 strainers and a sink-basket, and I now proceed to describe 
 the slop-filter which is advisable for the kitchen sink (fig. 28). 
 
 G 
 
82 
 
 THE DWELLING HOUSE 
 
 The waste-pipe of the sink must terminate 2 feet or 2 feet 
 6 inches above the ground level, and be provided with a 
 reversible nozzle delivering over a filtering vessel made of 
 concrete or iron. This filter is in duplicate, and is pro- 
 vided with a diaphragm reaching to within an inch of the 
 bottom. Each half of the vessel measures 1 foot by 
 1 foot 6 inches, and is 2 feet 6 inches deep, and has a 
 capacity of 3'75 cubic feet. The outflow is immediately 
 
 Plan 
 
 Fig. 28. — Kitchen Sink with Duplicated Outside Filter. 
 
 beneath the diaphragm, and empties into the open gutter. 
 Each half of the filter is filled with stones varying in size 
 from a hazel-nut to a walnut, and the W'aste is allowed to 
 flow through one half of the filter, and then, when that half 
 gets foul, the nozzle is reversed, and the second half is 
 brought into use, and the half first used can be cleaned 
 out. The filter must be provided with a fine copper 
 strainer, and if the slops be carefully strained the filter will 
 not get foul for months ; but if lumps of fat and slabs of 
 
INTERMITTENT FILTRATION 
 
 83 
 
 cabbage-leaves be allowed to get into the filter, it soon gets 
 foul, as does the abomination known as a fat-trap. 
 
 The method of purifying sewage by ‘ intermittent down- 
 ward filtration ’ is well understood, and the methods advo- 
 cated here are merely modifications of what has been done in 
 this country, and also by the Massachusetts Board of Health. 
 
 What is meant by ‘ intermittent downward filtration ’ ? 
 How frequent are the intermissions ? 
 
 The intermissions usually recommended are ‘ sewage 
 for six hours and rest for twenty-four hours,’ but my belief 
 is that the purifying action of the filter-bed ceases directly 
 the filter is filled and water-logged. The intermissions 
 must be perpetual. The supply of slop- water in a private 
 house is essentially intermittent, and this perpetual inter- 
 mission is the secret of the success of the methods I have 
 indicated. Between nine at night and seven in the 
 morning — ten hours out of every twenty-four — the flow of 
 slop- water is usually nil. Between 8 a.m. and 11 a.m. is 
 the time of the bulkiest flow, but even this intermits. A 
 housemaid’s pail with its three or four gallons will come 
 once in ten or fifteen minutes, so that the filter is always 
 being emptied, and as the water drains off the fresh air 
 follows it. The water of a fixed bath is practically clean, 
 and gives the filtration gutter a vigorous stir, which does 
 nothing but good. The domestic intermissions are in- 
 valuable. When sewage is collected in a tank and is then 
 allowed to flow ivithout intermission for six hours at a stretch, 
 it is doubtful if the greatest purifying power is obtained 
 from the filter. 
 
 Bain-Water. 
 
 Another point of great importance is the bestowal of 
 rain-water. The usual method is to conduct the rain- 
 water from the eaves by means of pipes which open directly 
 into an underground sewer or empty over a gully which 
 
84 
 
 THE DWELLING HOUSE 
 
 runs into an underground sewer. This underground sewer 
 conducts the rain-water either to a main sewer or cesspool, 
 and the important fact to be borne in mind is that the 
 length of underground pipes, whose main function is to 
 conduct rain-water, are nothing but prolongations of sewers 
 or cesspools which conduct the gases of putrefaction to 
 many points round the dwelling, either at the ground level 
 or the roof level. 
 
 There can be no reason why rain-water pipes should 
 not end in a 4 shoe,’ and discharge over open gutters which 
 might flow to a gully, if absolutely necessary, at a distance 
 from the house. The practice of taking rain-water direct 
 into underground drains is a great cause of damp walls. 
 A year or so ago the rain-water pipes of a country house 
 w-ell known to the author, which ran direct apparently 
 into the underground drain, were examined. In every 
 case the underground drain was broken and leaky, and in 
 some places completely choked by the roots of plants and 
 trees, while the rain-water got away as it could, and kept 
 the foundations of the walls perpetually soaked. 
 
 In the London house, with its cave-dwelling basement 
 and narrow area, it is inevitable that the rain-water must 
 flow to an underground sewer more or less directly, but 
 there is no reason why this Cockney necessity should be 
 adopted in the country. It is obviously advisable to 
 conduct rain-water clear of the walls and foundations. 
 The media3val gargoyle was useful in this way, and I think 
 I am right in stating that the ‘ flying buttress ’ was occa- 
 sionally made to serve the purpose of a water-gutter with 
 the same object. 
 
 Refuse. 
 
 It has been said that classification is the basis of all 
 science, and it most certainly is the basis of the scientific 
 disposal of refuse. Refuse matter is most varied in its 
 
CLASSIFICATION OF REFUSE 
 
 85 
 
 nature, and the items of which it is composed — excrement, 
 rags, bones, paper, straw, sawdust, and other packing ma- 
 terials, cinders and ashes, old crockery, broken glass, old 
 metal, &c. — all demand a different method of treatment. 
 
 When I see the grimy gentlemen in fan-tailed hats 
 engaged in the marvellous operation of climbing over 
 spiked railings with the object of filling a huge lumbering 
 cart with a mixture of some or all of the things mentioned 
 above, I feel that they are occupied in a bit of wilful mis- 
 chief, and are merely increasing the dangers and difficulties 
 of that sorting which is inevitable. In cities house refuse 
 should be collected every day, and the sorting should be 
 done at once by the collector, with the intelligent co-opera- 
 tion of the householder. Things dissimilar in nature 
 should never be mixed. The first division is into putrescible 
 and non-putrescible, and the former should be sent forth- 
 with to the farmer to be dug into the ground. The non- 
 putrescible refuse — glass, crockery, cinder, ash, metal— if 
 sorted and temporarily stored in bins, would probably pay 
 the cost of its collection and removal, and might perhaps 
 yield a slight return. A great deal of the non-putrescible 
 refuse might be of use to the sanitary authority on the 
 spot for making foundations for paths and roads, or for 
 scattering on the streets in slippery or frosty weather. 
 Ash (not cinder) beneath the gravel on a garden path gives 
 in time a firmness and stability which are remarkable. 
 Whether it would work in with the macadam in road- 
 making, and cause a similar improvement in the road, I do 
 not know. It is difficult to understand why it should not 
 do so. Non-putrescible refuse is not a danger to health, 
 and it is certain that a great deal of it might be used for 
 various purposes by the sanitary authority. 
 
 This immediate sorting is only possible when such 
 materials are collected every day and the bulk is small. 
 
86 
 
 THE DWELLING HOUSE 
 
 It seems to me that much of our municipal scavenging 
 is too magnificent, and that it is often inefficient in pro- 
 portion to its magnificence. The nimble boys who collect 
 the street droppings and store them in bins which contain 
 nothing but the valuable and marketable manure are 
 the type of what is good. The showy Clydesdale slowly 
 dragging the most lumbering cart conceivable tilled with 
 an unmarketable mixture is the type of what is bad. 
 
 Farmers are shy of taking London sweepings, because, 
 as one told me, ‘ they send such stuff? All organic refuse 
 is good for the land, but the farmer wants it in a form 
 which does not hinder tillage. Pieces of oil-cloth, hamper 
 lids, dead dogs and cats, and old tin canisters, are a 
 nuisance to the farmer, and a very slight admixture of 
 such things spoils the practical value (a different thing to 
 theoretical value) of the manure which is mixed with 
 them. 
 
 The sanitarian who loses sight of classification, and 
 who, in his eagerness for a big scheme, is neglectful of 
 details, has not mastered the elements of his trade. 
 
 The only rational treatment for excremental matters is 
 immediate superficial burial, with a view to the production 
 of crops, as detailed in ‘ Rural Hygiene.’ It is to be hoped 
 that, with this object in view, some municipality will pur- 
 chase a tract of land and endeavour to give the poor an 
 object-lesson on the right use of refuse. If convenient 
 access to such a farm by means of canal, river, or railway 
 siding could be obtained, it would make little difference 
 whether it was two or twenty miles from the town, but the 
 nearer the land is to the houses the better. Such a farm 
 must be hand-tilled, and, if skilfully hand-tilled, would 
 certainly produce as much food as a market-garden. It 
 would employ an enormous amount of labour, and would 
 at least pay its labour bill. I am not advocating that such 
 
TOWN DWELLINGS 
 
 87 
 
 a farm should be used as a playground for the semi- 
 criminal, semi-imbecile, and generally incompetent class 
 who go to form the ‘ unemployed ’ ; for the trade of agri- 
 culture, to be successful, demands both skill and energy. 
 The ‘ unemployed ’ should be set to stone-breaking, street 
 
 10 
 
 K 
 
 9 
 
 T 
 
 o 
 
 ■H 
 
 20 FEET 
 
 Fig. 29. — Arrangement for Small Tenements. 
 
 sweeping, dung-collecting, road picking and ramming, and 
 scavenging generally, under the eye of foremen in town, 
 and then, if found worthy, they might be exported to the 
 farm. 
 
 Figs. 29 and 30 are intended to show the plan and section 
 
88 
 
 THE DWELLING HOUSE 
 
 of a group of the smallest town tenements, with a scaven- 
 ger’s alley between them and the three gutters, two closed 
 at both ends, to be filled with absorbent material to col- 
 lect the urine, and one to be filled with non-absorbent 
 material to filter and aerate the slop-water, which should 
 always flow in open channels when practicable. The 
 ‘ scavenger’s alley ’ should be protected by gates. It is 
 thought that the excrement would be primarily collected in 
 comparatively small vessels, like garden water-tanks upon 
 wheels. The excrement having been allowed to drain before 
 
 Fig. 30. — Section A-A. 
 
 collection, and being in a semi-dry, sticky condition, would 
 have no tendency to slop about during a journey, and in a 
 covered vessel such as I have described might be sent any 
 distance without danger or offence. Arrived at the farm 
 the tank would be transferred to a second pair of wheels, 
 and by being tilted would easily deposit its contents in a 
 furrow previously made in the ground with a spade. The 
 tank should be dried and lime-whitened and returned to 
 the town, and three days after the deposit of the excrement 
 in the ground, plants of the cabbage order should be 
 
DRY REFUSE 
 
 89 
 
 dibbled in. Cabbages and their allies are the only plants 
 which really flourish in the fresh material ; but after the 
 cabbage crop has been harvested any garden crop may be 
 grown, and it will be found that the fertility of ground 
 treated as I have suggested is very great and very per- 
 sistent. 
 
 The best method of treating kitchen waste and putres- 
 cible refuse, such as cabbage leaves and the trimmings of 
 vegetables, &c., is to throw all together into a heap enclosed 
 by a circle of wire netting. In the course of a few months 
 complete humification will take place. 
 
90 
 
 THE DWELLING HOUSE 
 
 CHAPTER IV 
 
 OVERCROWDING, ITS CAUSES AND EFFECTS 
 
 I have been at some pains to demonstrate the dangers 
 and inconveniences which are inseparable from houses 
 built, as are the majority of town houses, upon an area 
 which is wholly insufficient when considered in relation to 
 their cubic contents. 
 
 Feeling, as I do, that the question of space round the 
 dwelling is of the greatest importance — so important that 
 every other sanitary regulation sinks into insignificance 
 when compared with it — I have endeavoured to show 
 how detached houses may, to their great advantage, be 
 independent of the public sewers, and equally independent, 
 if their owner choose, of public water supplies ; and this 
 I have done in the hope that in country places, and places 
 which are developing, the precious boon of living in a 
 detached house may be recognised. 
 
 While I am not slow to admit that water under pres- 
 sure is a great advantage if it be wisely used, I have pointed 
 out persistently for some years that our present system of 
 water- carried sewage gives a ‘ fatal facility ’ to the over- 
 crowding of houses, and has made life, of a sort, physically 
 possible under conditions of overcrowding which have never 
 been equalled in the history of the world. 
 
 In China and the East generally, be it remembered, the 
 large population lives upon one plane. It has been left to 
 
BUILDING ESTATES 
 
 91 
 
 Europe and America to try the experiment of piling the 
 city populations in heaps, of housing them in many-storeyed 
 buildings, some of which (in America) are fifty times the 
 height of a man. 
 
 The facilities for overcrowding which are afforded by 
 big schemes of water-supply and sewerage are now well 
 understood, and have caused the formation of ‘ Building 
 Societies ’ throughout the country. A large number of 
 these societies during the past few years have been proved 
 to have been dishonestly managed, and have involved wide- 
 spread financial disaster amongst the poor and thrifty. 
 
 The mode of proceeding of these societies is to buy up, 
 on the outskirts of towns having a system of sewers and 
 a common water-supply, plots of land abutting on roads 
 which have been sewered at the expense of the rate- 
 payers. 
 
 These plots are then sold to purchasers who pay 10 per 
 cent, deposit for possession, and pay the rest of the 
 purchase money in monthly or quarterly instalments for a 
 term of years, 10 or 15, as the case may be, with 5 per cent, 
 interest. Thus the artisan, having paid a most exorbitant 
 price for a plot of ground, starts in life with a mortgage 
 round his neck, and probably finds, should anything inter- 
 fere with the regular payment of instalments, that he has 
 a hard-faced usurer to deal with, who merely concealed his 
 identity behind the title of ‘ Company, Limited.’ 
 
 The accompanying diagram (fig. 31) gives a good idea of 
 the development of a district subsequent to sewering. It 
 has been copied from the prospectus of a Building Society. 
 aaa is an old road having houses on the north side only ; 
 b b b is an old road with houses on the south side only, 
 i.e ., seven dwelling houses in a course of more than half a 
 mile. 
 
 The space between aaa and bbb was, until a few months 
 
92 THE DWELLING HOUSE 
 
 ago, a market garden full of fruit trees, and about nine 
 acres in extent. 
 
 A few years ago a a a and b b b were sewered at the 
 expense of the ratepayers, and very soon afterwards this 
 market garden was bought by a ‘ Building Society ’ and 
 converted into a ‘ building estate.’ 
 
 It is obviously a very ‘ eligible ’ estate, for there is a 
 Bailway (B.), with a Station (S.) , a Post and Telegraph 
 Office (P.O.), a Church (Ch.), and two Public Houses (P.H.). 
 None of the elements of modern civilisation are wanting. 
 After the sewering of roads a a a and bbb, the District 
 
BUILDING ESTATES 
 
 93 
 
 Council, in a fit of zealous extravagance, destroyed the 
 gravel paths at the side of b, and put a 12 by 6 inch kerb, 
 and laid half a mile of granolithic pavement for the benefit 
 of the aforesaid seven houses. 
 
 When the Building Society issued its prospectus the 
 plots abutting on the old roads a a a and bbb were sold 
 at once, and the reason is obvious, viz., that the roads are 
 ready made and sewered ; and a note with regard to road 
 bbb says, 4 This road is a highway maintainable by the local 
 authorities, who will provide a proper footway in front of the 
 plots in due course.’ The ratepayers as a whole are to 
 provide pavements for the speculative builder in this 
 particular instance, and it is evident that the owners of the 
 plot and the Local Council had come to an agreement in the 
 matter. The houses abutting on the new roads, z z z, will, 
 in addition to the purchase money for the land, be charged 
 3s. per foot frontage for sewers, and 4 also such a proportion 
 as their surveyor shall assess of the expense of repairing 
 and maintaining the road or roads, until the same shall be 
 handed over to the local authorities.’ On an adjoining- 
 property the cost of 4 making up ’ a private road was 
 estimated at 12s. per foot run, so that the cost would amount 
 to between 101. and 11Z. for a plot having a frontage of 
 18 feet, and might form a ruinous charge on some of the 
 corner plots. 
 
 The ground will accommodate 177 plots, and the plots 
 facing the old roads fetched 3i. a foot. Of these there is 
 room for fifty-nine, having a frontage of 20 feet each, so that 
 the price paid for these at 60Z. per plot would be over 3,500L; 
 and if the remaining 118 plots fetched 40J. each (4,720Z.), the 
 total price realised for this 9 acres would be over 8,000L, in 
 addition to the charge for sewerage and road-making. 
 
 When, moreover, it is remembered that the society may 
 possibly hold a mortgage on every plot and every house, for 
 
94 
 
 THE DWELLING HOUSE 
 
 which they get 5 per cent, and excellent security, it will 
 be admitted that running a ‘ Building Society 5 is a tolerably 
 profitable business. 
 
 If all these plots are sold there will be a population of 
 over 1,200 persons on 9 acres of ground, and the ratepayers 
 will be at the charge not only of educating the children, but 
 of providing hospitals for the segregation of infectious 
 diseases, allotments, free libraries, open spaces, and additions 
 to the sewerage works for dealing with the sewage of 1,200 
 persons. 
 
 When a ‘ progressive ’ municipality sets to work to 
 4 develop ’ its district (a speculative and hazardous process, 
 which it should leave to private enterprise), the ratepayer 
 scon begins to see that a great diversity of interests has to 
 be served. 
 
 The little shopkeeper (and it is of this class that 
 Boards and Councils are largely composed) wants the 
 greatest number of people on the smallest space ; and he 
 sees that in proportion as the dwelling has an insufficient 
 curtilage, so are its inhabitants wholly and entirely de- 
 pendent on the shop. 
 
 The person with a fixed income who settles in a district 
 wishes the district to remain picturesque, rural, and quiet, 
 and, above all, he desires that the ‘ rates ’ may be kept 
 down. He naturally objects to be taxed for the sewering 
 of country roads in order that the fields may be covered 
 with courts and alleys of jerry-built houses, and equally he 
 objects to be taxed in order that every railway station in 
 the country may display a large invitation to trippers to 
 invade his solitude and make his life a burden. 
 
 All sanitarians are agreed that mortality and density 
 of populations are directly proportional. The following 
 figures, taken from Table B (p. xlvii.) of the decennial 
 supplement of the Registrar-Genergl (1895), show this very 
 
OVERCROWDING, ITS CAUSES AND EFFECTS 
 
 95 
 
 clearly, as does also the diagram of the mortality figures for 
 London (p. 144). 
 
 Persons to a square mile 
 138 
 187 
 307 
 662 
 1,803 
 3,299 
 4,295 
 19,584 
 
 Death-rate (corrected) 
 . 12-70 
 
 . 14-48 
 
 . 16-47 
 . 18-55 
 
 . 20-43 
 . 22-30 
 . 24-51 
 . 33-00 
 
 The corrected death-rate for ‘ Urban England,’ as given 
 by the same authority, is 22*82, as against 16*95 for ‘ Rural 
 England.’ 
 
 To form a just estimate of the comparative healthiness 
 or unhealthiness of a great city like London is no easy 
 matter. The composition of the population is, especially in 
 tiie central parts, so abnormal in regard to age and sex that 
 unless corrections be made for this abnormality any 
 comparison of London with other places is futile. Such 
 corrections are now made by the Registrar-General. 
 
 It is probable that in no city are the annual variations of 
 population greater than in London. The population of 
 June (the height of the season) and the population of 
 September (when ‘ everybody is out of town ’) must be very 
 different. In September the rich go to the country, the 
 shopkeepers go to the seaside, and the poorest of the poor 
 go hop-picking. The School Board attendances for the first 
 week of September show a deficit of 80,700 children, or 11*1 
 per cent., figures which clearly demonstrate that the autumn 
 exodus is not limited to the wealthy classes. 
 
 It is at this season that we see paragraphs in the paper 
 to the effect that the death-rate of some London parish 
 for the Michaelmas quarter reached an incredibly low figure, 
 and we are asked to infer that the population, thanks to 
 the wise policy pursued by the vestry, is fast making for 
 
98 
 
 THE DWELLING HOUSE 
 
 immortality. Of course such statements are not worth 
 the paper they are written on, because there are no data 
 as to population, and the period chosen is so short as to be 
 valueless. 
 
 In estimating the death-rates of different sanitary areas 
 of London it has been customary for the last six years to 
 distribute the deaths occurring in institutions to the districts 
 to which the deceased ‘ belonged/ and to exclude entirely 
 the deaths of persons belonging to districts outside registra- 
 tion London ; in this way about 1*5 per cent, of the deaths 
 occurring in registration London may be excluded. This 
 manoeuvre helps to diminish the London death-rate, but, as 
 no account is taken of sick people who leave London to die 
 elsewhere, it is manifestly an unjustifiable thing to do. 
 
 If the strangers who die in London institutions are to 
 be excluded, it is a question whether all strangers merely 
 sojourning in London ought not to be excluded from the 
 estimate of population. Again, a man comes from the 
 country and is knocked down by a vehicle in the street and 
 dies in a London hospital ; or during a sojourn in London he 
 gets caught in a London fog and dies of bronchitis ; or he 
 6 catches ’ influenza, or pneumonia, or diphtheria in London 
 and dies. Surely the deaths of these three ought to be 
 credited to London in all fairness. It is a very dangerous 
 thing to ‘ cook ’ statistics, and we do not get much nearer 
 the truth by doing so. 
 
 The best indication, probably, as to whether the condi- 
 tions of life in any locality are healthy or the reverse is the 
 infant mortality ; in this way we exclude the fallacies due to 
 abnormal age distribution, because we compare identical 
 age periods; and the proportion of the sexes among 
 children is practically the same everywhere. We exclude 
 also the influences of occupation. By studying the 
 mortality of children under five we are studying the influ- 
 
OVERCROWDING, ITS CAUSES AND EFFECTS 97 
 
 cnce of the home and home surroundings on the incidence 
 of disease, which is particularly what we wish to do. 
 
 In the decennial supplement of the Registrar- General 
 published in 1896, Dr. Tatham gives a table (Table II. p. 
 lxxxii. et seq .) of the ‘annual death-rate per million living 
 among children under five years of age, from all causes and 
 from several causes, 1881-90.’ This valuable table ought to 
 be most widely studied. Being based upon statistics of ten 
 years intervening between the censuses of 1881 and 1891, 
 the estimates of population have a maximum of reliability, 
 because we are relieved of the errors inseparable from 
 statistics referring only to short periods of time. 
 
 It is constantly stated that London is the healthiest 
 city in the world, a statement which, if true, must make us 
 very sorry for the other cities. In Dr. Tatham’s table, 
 alluded to above, he first deals with counties. 
 
 We find that the death-rate of children under five from 
 all causes in England was 56,825 per million ; that the 
 highest death-rate among children was in Lancashire 
 (72,795), and the next highest was in the county of London 
 (68,164). The lowest death-rate was in the county of 
 Dorset (35,651). 
 
 
 All 
 
 causes 
 
 Small- 
 
 pox 
 
 Measles 
 
 1 
 
 Scarlet- 
 
 fever 
 
 1 
 
 Diphtheria J 
 
 Whooping 
 
 Cough 
 
 Fever 
 
 Diarrhoea 
 
 Tuberculous 
 
 Disease 
 
 j Respiratory 
 1 Disease 
 1 
 
 Lancashire 
 
 72,795' 
 
 37 
 
 5,053' 2,454 
 
 706 
 
 3,805 
 
 285 
 
 6,461 
 
 5,364 
 
 17,037 
 
 London 
 
 68,164 240 
 
 4,743 1,780 
 
 l,37l! 5,342 
 
 165 
 
 5,444 
 
 6,581 
 
 16,021 
 
 Hampshire 
 
 42,222 
 
 10 
 
 2,005| 
 
 505 
 
 939 
 
 ! 2,508: 280 
 
 2.783 
 
 3,299 
 
 9,011 
 
 Dorsetshire 
 
 35,651 
 
 4 
 
 1,748 
 
 488 
 
 493 
 
 j l,815j 62 
 
 1,305 
 
 2,401 
 
 9,390 
 
 I have also thrown in Hampshire, because not only is 
 it my own county, but it Jis a mixed county, largely rural, 
 but also containing the big towns of Southampton and 
 Portsmouth. 
 
 H 
 
98 
 
 THE DWELLING HOUSE 
 
 Looking at these four in tabular form, we see that in 
 Lancashire the mortality from measles, scarlet fever, fever, 
 diarrhoea, and respiratory disease was greater than in 
 London ; and in London the mortality from small-pox, 
 diphtheria, whooping cough, and tuberculous disease was 
 greater than in Lancashire. 
 
 In Hampshire and Dorsetshire the mortality was very 
 much less from every cause than in either Lancashire or 
 London. 
 
 It is important to point out that the deaths of children 
 from tuberculous disease are greater in London than in any 
 other county, and that the deaths from tuberculous and 
 respiratory diseases combined are greater in London than 
 in Lancashire. 
 
 We have seen that the mortality of children under five 
 averaged for the whole of London 68,164 in the decennium 
 1881-90, while that for England and Wales was 56,825, or, 
 omitting the last three figures, let us say they were 68 
 and 57. 
 
 Examining the various registration districts more closely, 
 we find that the child mortality was less than the average 
 for England and Wales in four London districts only, viz., 
 Lewisham (44), Hampstead (48), Woolwich (51), and Wands- 
 worth (56), districts which are all on the outskirts of the 
 place we call London. Certain other districts had a child 
 mortality less than the average of London as a whole, viz., 
 Camberwell (59), Hackney (60), Islington (61), Paddington 
 and Kensington ^63), Greenwich (63), St. Pancras (66), 
 Fulham, Poplar, and Lambeth (67). 
 
 All the other districts had a child mortality greater than 
 the average of London, viz., Mile End (69), St. George’s, 
 Hanover Square (71), Westminster (72), Chelsea and St. 
 Olave’s (73), Marylebone (75), Bethnal Green (76), Shore- 
 ditch (78), St. Saviour’s (79), St. Giles’s (80), Holborn (82), 
 
OVERCROWDING, ITS CAUSES AND EFFECTS 99 
 
 Whitechapel (85), St. George’s in the East (87), the City 
 (90), Stepney (99) and the Strand (109). 
 
 With the exception of the City, Stepney, and the Strand, 
 there are only two registration districts in the whole country 
 which have a child mortality over 90, viz., Manchester (98) 
 and Liverpool (114). To Liverpool therefore belongs the 
 distinction of being the most unwholesome place for little 
 children in the whole country, and the 4 Strand,’ which con- 
 stitutes the very centre of London, comes next. 
 
 Let us examine these figures more closely, and let us 
 throw the child mortality of Liverpool and the Strand into 
 tabular form, and contrast them with the registration 
 district of Andover, in Hampshire, a district which I select 
 for reasons which will appear later. 
 
 
 All 
 
 causes 
 
 Small- 
 
 pox 
 
 Measles 
 
 Scarlet- 
 
 fever 
 
 Diphtheria 
 
 Whooping 
 
 Cough 
 
 & 
 
 & 
 
 Diarrhoea 
 
 Tuberculous 
 
 Disease 
 
 ' 
 
 i Respiratory 
 Disease 
 
 Liverpool 
 
 114,253 
 
 1 29 
 
 9,492 
 
 2,966 
 
 852 
 
 5,894 
 
 483 
 
 9,818 
 
 7,138 
 
 26,080 
 
 Strand 
 
 109,596 
 
 38 
 
 6,626 
 
 1,828 
 
 4,760 
 
 5,359 
 
 76 
 
 7,692 
 
 11,881 
 
 30,122 
 
 Andover 
 
 32,280 
 
 0 
 
 1,227 
 
 307 
 
 225 
 
 2,505 
 
 153 
 
 1,074 
 
 2,096 
 
 7,209 
 
 From this table it appears that the mortality from 
 measles, scarlet-fever, and diarrhoea was greater in Liver- 
 pool than in the Strand ; but that the other diseases 
 scheduled were more fatal in the Strand than in Liver- 
 pool. 
 
 We have previously pointed out that the deaths of chil- 
 dren from tuberculous and respiratory diseases are greater 
 in London than in any other county, and now we find that 
 the death-rate of children from these two classes of diseases 
 amounted in the 4 Strand ’ to 42,003, far and away the 
 highest figure in the country, Liverpool coming second with 
 33,218. The death-rate of children from the same causes 
 
 H 2 
 
100 
 
 TIIE DWELLING HOUSE 
 
 in Andover was only 9,805, considerably less than a quarter 
 of the Strand death-rate. 
 
 Thanks to vaccination and the purity of the water-supply 
 the mortality in the Strand from small-pox and fever is very 
 small, but the mortality of children from the acute air-borne 
 contagia (measles, whooping cough, scarlet-fever, and diph- 
 theria), and still more from the chronic air-borne contagia, 
 is fearful to contemplate. 
 
 The big mortality from tuberculous disease forces upon 
 us the reflection that a large number of children who 
 become tuberculous in the ‘ Strand ’ do not die within the 
 age limits with which we are concerned, but drop off later 
 in life after years of invalidism and suffering. We have 
 seen that children under five are decimated yearly in the 
 Strand. How many more are crippled for life ? 
 
 The deaths of children under one year of age per 1,000 
 births is a safe criterion of the health conditions of a 
 locality. This figure for the ten years 1881-90 was, for the 
 whole of England and Wales, 142. In London, we find that 
 in five districts (Hampstead 117, Lewisham 121, Woolwich 
 124, Hackney 137, and Wandsworth 141) this mortality 
 was below the average of the whole country, while in the 
 remaining twenty-five districts it was above the average. 
 
 In Paddington, Islington, Camberwell, Lambeth, Green- 
 wich, Mile End, Poplar, and Marylebone, it was above 142 
 and under 150. In St. Pancras, Kensington, St. George’s 
 (Hanover Square) , St. Giles’s, Bethnal Green, and St. Olave’s, 
 it was above 150 and under 160 ; in Chelsea, Fulham, West- 
 minster, Holborn, Shoreditch, and St. Saviour’s, it was over 
 160 and under 170. The City w T as 171, Whitechapel 173, 
 St. George’ s-in-the-East 182, Stepney 196, the Strand 226. 
 
 To show what this figure of 226 — the infant mortality of 
 the Strand — means, I will give the infant mortality of 
 some of the worst towns in Lancashire : in Liverpool 219, 
 
OVERCROWDING, ITS CAUSES AND EFFECTS 101 
 
 Wigan 161, Bolton 168, Salford 188, Manchester 198, 
 Ashton-under-Lyne 178, Oldham 169, Rochdale 145, 
 Burnley 184, Blackburn 178, Preston 208. On the other 
 hand, one may say that the infant mortality of Andover, 
 which has just adopted a great part of the London Building 
 Act, with the approval of the Local Government Board, was 
 (for the ten years 1881-90) 91, or 28 per cent, less than 
 the best of the London districts, and nearly 60 per cent 
 better than the Strand. 
 
 Glancing at the other Hampshire districts, one may 
 note that in the New Forest the infant mortality was as low 
 as 80, and that it was only in Portsea Island (189), 
 Alverstoke (123), and Southampton (135) that even the 
 lowest of the metropolitan figures were approached. It is 
 interesting to note that even the worst districts in Hamp- 
 shire are below 7 the average of the whole kingdom in the 
 matter of infant mortality. 
 
 The Strand 
 
 I have previously alluded to the high mortality of the 
 Strand registration district, and my remarks on one occa- 
 sion were contemptuously dismissed, w 7 ith the criticism that 
 it was unfair to judge of the state of London by the health 
 of the slums. 
 
 It becomes necessary therefore to say that the Strand 
 registration district includes the Temple, St. Clement 
 Danes, the Precinct of the Savoy, St. Mnry-le-Strand, 
 St. Paul, Covent Garden, and St. Martin’s in the Fields. 
 
 Its southern boundary extends from the Temple Stairs 
 to Whitehall Court, along the Thames Embankment. From 
 Whitehall Court, the western boundary runs through the 
 4 Horse Guards ’ and through the middle of Buckingham 
 Palace to the top of Constitution Hill. It includes the 
 
102 
 
 THE D WELLING HOUSE 
 
 whole of the Green Park, but none of the houses abutting 
 on it, with the exception, I believe, of Stafford House. 
 From Stafford House the northern boundary runs south of 
 Pall Mall, and includes Clarence House, St. James’s Palace, 
 the War Office, Marlborough House, and Carlton House 
 Terrace. Thence the boundary runs up the Haymarket, 
 along the north side of Leicester Square and Long Acre to 
 Drury Lane and by Sardinia Street and the south side of 
 Lincoln’s Inn Fields to Chancery Lane, the south end of 
 which constitutes its eastern boundary. 
 
 This district includes parts of four royal palaces and 
 also Somerset House, Horse Guards, Admiralty, War 
 Office, National Gallery, and National Portrait Gallery. 
 In it are to be found five churches (Temple, St. Clement, 
 St. Mary, St. Martin, St. Paul, Covent Garden), Exeter 
 Hall, and more than twenty of the largest and best known 
 theatres and music-halls. The Constitutional and National 
 Liberal Clubs are within its boundaries, and its numerous 
 huge hotels are famous throughout the world. 
 
 The worst parts of the district are in the north-east, 
 but one must mention that it does not include the Seven 
 Dials or the north half of Drury Lano. Clare Market, the 
 south end of Drury Lane, Drury Court and Bedfordbury, are 
 the slums of the Strand registration district. It is not a 
 poor district. The percentage of persons 4 in poverty ’ in 
 London as a v 7 hole is given by Mr. Charles Booth as 30*7, 
 while that for the Strand is only 23*9. 
 
 Many of the labourers employed in Covent Garden 
 Market and in the theatres earn very good wages, but Mr. 
 Booth specially mentions the fact that in some of the lowest 
 districts house rent is very dear. Wages is a relative term, 
 and the potential prosperity of a person is only to be deter- 
 mined by subtracting from the earnings the cost of the 
 necessaries of life, inclusive of house rent. 
 
OVERCROWDING, ITS CAUSES AND EFFECTS 103 
 
 It is obvious, however, that the prime necessary of life 
 (fresh air) is not to be had in the Strand at any price. 
 
 It may be well to add that the Strand sanitary area 
 is not co-terminous with the Strand registration district , 
 which we have been considering. The chief difference is 
 that the former includes St. Anne’s, Soho, and excludes St. 
 Martin’s in the Fields. 
 
 This district of the ‘ Strand,’ which I have chosen 
 because it is the most unhealthy district in London, and in 
 some respects the worst in the whole country, is, so to say, 
 the pulpit from which the British have preached sanitation 
 to the whole world. In it we find the offices of the Registrar- 
 General and the London County Council ; the Temple, 
 where Sanitary Bills are drafted, and the Law Courts, 
 where the sanitary law is administered ; the Royal College 
 of Physicians ; the Examination Hall where candidates for 
 diplomas of Public Health and Medicine are examined, and 
 also the offices of the ‘ Lancet ’ and the ‘ British Medical 
 Journal.’ The Royal College of Surgeons, the Local Govern- 
 ment Board and Imperial Parliament, if not within, are 
 only just outside its limits. 
 
 It is doubtful if any district in London or any other city 
 is better provided with open spaces than the Strand. Si. 
 James’s Park and the Green Park are both partly within 
 its limits. It has the Embankment and the Thames to 
 the south, the Temple Gardens to the east, Lincoln’s Inn 
 Fields to the north-east, and Trafalgar Square in the 
 centre. It is wonderfully provided with what are miscalled 
 ‘ lungs,’ but it is evident that lungs are of little good if the 
 blood only circulates in them occasionally on a Sunday. It 
 is well to bear this fact in mind, because our municipal 
 governors sometimes talk as if the provision of ‘ open spaces ’ 
 at exorbitant and extravagant cost could compensate 
 for overcrowding in the dwelling, with a lack of light and 
 air therein. 
 
104 
 
 THE DWELLING HOUSE 
 
 It is in the Strand, more than in any other district, that 
 houses have been built of great height and enormous cubic 
 capacity without any curtilage whatever. I have attended 
 ‘ banquets ’ at more than one hostelry in this district where 
 150 or 200 persons have been fed in a room having no 
 outside windows of any kind, and where, late in the evening, 
 the guests have been provided with a little fresh (!) air by 
 opening glass partitions communicating with a huge 4 coffee- 
 room ’ or table d’hote room. These rooms are made by 
 enclosing what ought to be open courts in the centre of 
 these huge hotels, and their utilisation is only possible 
 because of the perfection to which the science of artificial 
 illumination has been brought. There can be no health 
 without daylight, and sunlight, and fresh air, but the electric 
 light is good enough to make money by. 
 
 To a greater or less extent, throughout London the height 
 of the houses has been gradually raised, and the available 
 curtilage has been built upon. This is seen in the dwell- 
 ings of the rich, and there is no doubt that the conditions 
 which lead to overcrowding are all intensified in the poorer 
 quarters. 
 
 Building Regulations 
 
 Part Y. of the London Building Act, 1894, provides for 
 open spaces about buildings and height of building. 
 
 It provides, in the case of new houses in new streets, for 
 an open space in the rear, exclusively belonging to such 
 building, of at least 150 square feet, free from erections 
 except w.c. and ashpit. Where the ground storey is not in- 
 habited, this open space may be provided at a height of 
 16 feet above the level of the pavement. The open space 
 must extend the entire width of the building and have a 
 depth of 10 feet at least. 
 
 A diagonal line drawn from the rear of the open space 
 
BUILDING KEGULATIONS 
 
 105 
 
 on the pavement level, and inclining towards the building 
 at an angle of 63°*5, shall clear the top of such building 
 save chimneys, dormers, gables, &c. This means that the 
 house may be at all levels twice as high as the space is 
 deep. 
 
 When a house abuts at the rear on a street or permanent 
 open space,’ then no private open space or curtilage need 
 be provided. 
 
 ‘ Nothing in this section shall apply to houses abutting 
 in the rear on the river Thames, or on a public park, or on 
 an ‘ open space ’ of not less than 80 feet in depth which is 
 dedicated to the public, or the maintenance of which as an 
 open space is secured permanently or to the satisfaction of 
 the Council by covenant or otherwise.’ 
 
 In new streets less than 50 feet wide no house may 
 be erected having a height greater than the width of the 
 street. 
 
 No house may be more than 80 feet high without the 
 special permission of the Council. 
 
 These regulations, from the point of view of health, are 
 as bad as can be, because they put a premium, so to say, on 
 buildings of enormous cubic capacity. We have seen that 
 the provisions as to private curtilage are limited to a back 
 yard 10 feet deep, but in the case of houses abutting on two 
 streets, front and back, or abutting on a street and ‘ open 
 space ’ 80 feet deep, these restrictions are dispensed with. 
 
 If an open space, acquired and maintained at enormous 
 cost, is to be an excuse for surrounding it with huge blocks 
 of 4 flats ’ 80 feet high, it is not difficult to see that their 
 effect on the public health will be mischievous rather than 
 .beneficial. There is no advantage in looking out on an open 
 space through a closed window, and the great problem in 
 London is how to manage that young childrei#under school 
 age are to breathe the external air which is essential to their 
 
106 
 
 THE DWELLING HOUSE 
 
 proper development. In the country the perambulator is 
 pushed into the garden, and through the open door the 
 mother at her work can have an eye upon her children. 
 But for a family occupying a set of rooms in a ‘ model 
 dwelling,’ when the father is gone to work, the elder children 
 at school, and the mother busy, there is nothing for it but 
 to allow the children to breathe the air of the living-rooms, 
 fouled from many sources. These children seldom breathe 
 external air, and never breathe really fresh air. When they 
 are a little older, they fluctuate between crowded two-storeyed 
 schools, a fetid home, and an ‘ open space ’ (perhaps 80 feet 
 wide and surrounded by houses 80 feet high !). Is it to be 
 wondered at that the even tenor of their way is interrupted 
 by diphtheria and scarlet fever, or that 22 per cent, die 
 without ever keeping a birthday, and that children under 
 five are more than decimated annually ? 
 
 One must rejoice to think that in new houses (mostly) 
 on the outskirts the little child will have a back yard to play 
 in, having an area of at least 150 square feet (with deduc- 
 tions for the permitted erections). 
 
 The little child in the ‘ Strand ’ will enjoy no such luxury, 
 and how it is to get any fresh air before it is old enough to 
 play in the fearfully crowded and dangerous streets is a 
 mystery. 
 
 ‘ Thou art so full of misery 
 Were it not better not to be ? * 
 
 These regulations of the London Building Act seem to 
 point to the fact that ‘ betterment ’ really means overcrowding 
 in houses of enormous cubic capacity. 
 
 I shall be told, and rightly, that the horrible over- 
 crowding of houses in the centre of London is caused by 
 the high price of building land, and that it cannot be pre- 
 vented. Further, I shall be told that, in spite of the over- 
 crowding and general unsanitary conditions, rents are 
 
1 MODEL ’ BY-LAWS 
 
 107 
 
 increasing. This is also true as regards some districts, 
 but, as I have said before, there is no relation between 
 hygiene and money-getting. But there is no reason why 
 we should deceive ourselves as to the results of overcrowding. 
 They are set forth with absolute plainness by the Registrar- 
 General, and we must be thankful that we have an official 
 statistician who is above local considerations, and who 
 does not feel himself called upon to keep unpleasant facts 
 in the background. There is yet one Balaam among the 
 prophets. 
 
 I have for years combated the oft-repeated statements 
 as to the 4 healthiness ’ of London, not because I expect 
 that London will alter its way, but because rural places 
 and the Colonies should not blindly follow the lead of 
 London, in the belief that they are following a good 
 sanitary model, and that disastrous consequences will not 
 inevitably follow upon a reckless overcrowding of houses. 
 
 The prime object of overcrowding was for safety. 
 Cities were originally walled fortresses, and people crowded 
 into them for protection, and were killed by epidemics 
 instead of by their enemies. Modern sanitation favours 
 overcrowding, and this it is which makes it so popular, for 
 overcrowding favours money-getting. 
 
 When sewer pipes and water pipes are laid throughout 
 a district it becomes possible (but not till then) to build 
 houses without curtilage, except a 10-foot back yard. 
 
 If, therefore, rural places are reckless enough to per- 
 petrate a 4 sewage scheme,’ it becomes very necessary to 
 check the overcrowding of houses. 
 
 4 Model ’ (!) By-laws 
 
 I am sorry to say that the Local Government Board 
 does not appear to be sensible of this necessity. 
 
 My reason for this statement is (to quote an example 
 
108 
 
 THE DWELLING HOUSE 
 
 within my own knowledge) that the Local Government 
 Board a little more than a year ago sanctioned the adoption 
 of ‘ model ? (!) by-laws by the borough of Andover, and on 
 examining these by-laws, which cover 69 closely printed 
 large octavo pages, and comprise hundreds of sections and 
 sub-sections, the bulk of which must be quite incomprehen- 
 sible to the Town Council, I find that as regards buildings 
 many of the clauses are practically identical with those of 
 the London Building Act. 
 
 The Local Government Board does not seem to recognise 
 that circumstances alter cases, and that the regulations 
 which may be beneficial in the crowded and filthy slums of 
 a great city, may be mischievous in a village or country 
 town. Andover is an exceedingly healthy little town, as 
 the table on p. 99 will show, and in it there must be very 
 few, if any, houses more than 50 feet high, and the great 
 majority of the houses and cottages have large yards or 
 gardens. 
 
 And yet the Local Government Board sanctions re- 
 gulations for this town which permit the erection of dwell- 
 ing houses a hundred feet high ! with a backyard 25 feet deep ! ! 
 and it further allows the adoption of the minimum of 150 
 square feet of back yard for dwelling houses. 
 
 In illustration of this, reference may be made to figs. 32, 
 33, 34, which are borrowed from Knight’s ‘ Model By-laws,’ 
 published under the authority of the Local Government 
 Board. Fig. 32 shows the ‘ model ’ open space for a 
 cottage, fig. 33 for a house up to 25 feet high, and fig. 
 34 the maximum which is necessary, even though the 
 house be 100 feet high or more. 
 
 These regulations may be good in London, but when 
 such regulations are printed in the by-laws of rural places 
 they become dangerous and wicked suggestions, which one 
 fears the local builders will not be slow to adopt, especially 
 
4 MODEL ’ BY-LAWS 
 
 109 
 
 if the town be sewered throughout, which happily as yet is 
 not the case. 
 
 These elaborate building regulations as applied to 
 
 Fig. 34. 
 
110 
 
 THE DWELLING HOUSE 
 
 country places are absurd. I do not say that in the case 
 of houses abutting on the streets and which touch other 
 houses some control by the local authority is not necessary, 
 or that the local authority is not to exercise supervision 
 as to the manner of making connections of houses with 
 sewers, water pipes, and gas pipes. 
 
 But it is clear that all harassing regulations are out of 
 place when they are applied to isolated dwellings which are 
 wholly detached and separated by a moderate interval (say 
 a distance equal to the height) from the boundaries of 
 other premises. The man who builds a detached house 
 ought to be encouraged, and not worried, and the insurance 
 offices and the owner may be left to see that the construction 
 of the house is good enough. 
 
 These by-laws contain a prohibition of overhanging 
 storeys (in the old English fashion), which may be reason- 
 able enough in crowded streets, but are unreasonable and 
 silly when applied to isolated dwellings. A friend of mine 
 had a fancy to build a house of this kind in the middle of 
 three acres of land which he bought in Hertfordshire, and 
 after he had been at the expense of getting out his plans, 
 &c., he found that such a building was against the by-laws . 
 However, he discovered means to ‘ square ’ the local jacks- 
 in-office, and his very pretty house was built, and is a 
 decided ornament to the district. 
 
 These by-laws are an expense to ratepayers, and they 
 increase the cost of buildings. Elaborate plans and descrip- 
 tions have to be furnished, and the buildings have to be 
 inspected at various periods of their construction, and, of 
 course, all variations of plan which may appear necessary 
 in the course of construction must also be submitted and 
 4 passed ’ by the local authority. It may happen that there 
 are members of the local council who understand the 
 technicalities of the building trade ; but even if this be the 
 
‘ MODEL’ BY-LAWS 
 
 111 
 
 case, it is manifestly unjust that the plans of a builder who 
 is outside the council should be submitted to and judged 
 by a competitor who happens to be inside. As a rule, the 
 council is completely in the hands of the local surveyor, and 
 the local surveyor exercises despotic power over all building 
 operations. 
 
 This leads us to ask the question, ‘ What is a surveyor ? ’ 
 Lawyers and doctors have to be 4 legally qualified,’ and the 
 ratepayers have some guarantee that the town clerk and 
 medical officer of health know something of their business. 
 But it is difficult to get a similar guarantee with regard to 
 that terrible despot, the surveyor to the local board. 
 
 Whether the surveyor be learned or ignorant in the 
 matters which he undertakes to survey must always be a 
 matter of doubt, but it is evident that a person who exer- 
 cises such arbitrary power ought on no account to be 
 allowed to practise his profession for his private gain. 
 Human um est errare. We must not expect an impossible 
 standard of morality in any man, and no surveyor ought 
 to be placed in the invidious position of sitting in judgment 
 on his own plans, 
 
 These arbitrary by-laws must tend to check building 
 operations, and to hinder the development of the art of the 
 architect and the science of the builder. The restrictions 
 are another instance of 
 
 ‘ Art made tongue-tied by authority, 
 
 And Folly, doctor-like, controlling skill ; * 
 
 and I feel certain that, in the interests of the public health, 
 builders of isolated dwellings ought to be allowed to escape 
 from the despotism which is so dear to modern democracy. 
 
 Everything which tends to encourage the provision of 
 adequate space round dwellings is a great gain. 
 
 Such by-laws as I have quoted, when applied to country 
 
112 
 
 THE DWELLING? HOUSE 
 
 places, and when no exceptions such as I have indicated 
 are made, are a downright incentive to overcrowding, and 
 mischievous in the highest degree. 
 
 The Cost of the Dwelling 
 
 Everything which increases the cost of the dwelling 
 must tend to increase overcrowding. 
 
 The London rents are enormous; the artisan pays 7 s. 
 or 8s. for accommodation which he could get in a village 
 for Is. 6 d., and in a country town for 2 s. 6 d. 
 
 The rich man pays his 200L, 3Q0L, or more for a house 
 (without a square inch of curtilage) which out of London 
 would fetch 40 1. or 50 1. at most. 
 
 In London it happens, probably, more often than else- 
 where that people pay in house-rent a sum which is an 
 excessive proportion of their income, and their finances feel 
 the strain of slight increments to the cost of the dwelling, 
 and they are often driven to take lodgers or 4 paying-guests ’ ; 
 or people apparently well off give up their houses and take 
 a 4 flat/ in which the crowding is excessive. 
 
 This kind of thing goes on among the well-to-do classes, 
 and certainly to a greater extent among the poor. 
 
 When we consider the charges, other than rent, in 
 London as compared with country houses, we must never 
 forget that, rents being three or more times as high in 
 London as elsewhere, the rating in the pound ought to be 
 multiplied by three or four before we can compare London 
 rates with country rates. 
 
 Or we must take some other basis of comparison, 
 such as the area occupied or the cubic contents, A 
 house which I lived in in London for twenty-five 
 years occupies an area of 18 by 72 feet, or 1,296 square 
 feet, or 144 square yards. 
 
COST OF THE DWELLING 
 
 113 
 
 The rent was originally 180 Z., which was raised to 200 Z. 
 when the lease was renewed in 1892 ; i.e . the rent was 
 originally 1Z. 5s. per square yard, and is now 1Z. 8s. per 
 square yard. ‘ The rateable value ’ has been gradually 
 pushed up from 150Z. to 184Z., and the gross value has lately 
 been set down at 220Z., or 10 per cent, more than the rent 
 (because the tenant undertakes to do the repairs). 
 
 The changes other than rent have been as follows : — - 
 
 
 1873 
 
 1893 
 
 Income Tax 
 Inhabited House Duty 
 
 :} 
 
 £ 
 
 9 
 
 s. 
 
 15 
 
 d. 
 
 0 
 
 £ 
 
 14 
 
 18 
 
 d. 
 
 4 
 
 Parochial Bates . 
 
 
 30 
 
 0 
 
 0 
 
 55 
 
 19 
 
 4 
 
 Water .... 
 
 • 
 
 G 
 
 8 
 
 0 
 
 7 
 
 10 
 
 6 
 
 Total . . * 
 
 c 
 
 46 
 
 3 
 
 0 
 
 78 
 
 8 
 
 2 
 
 Rent .... 
 
 • 
 
 180 
 
 0 
 
 0 
 
 200 
 
 0 
 
 0 
 
 Grand total . 
 
 • 
 
 226 
 
 3 
 
 0 
 
 278 
 
 8 
 
 2 
 
 Thus it will be seen that the cost of this house 
 (which has not been enlarged in any way) has been 
 increased by 28 per cent. The rent has increased 11 per 
 cent., or 20Z. a year. The rates have increased by nearly 
 87 per cent., or very nearly 26Z. a year. 
 
 The imperial taxes have increased nearly 53 per cent., 
 or 51. 3 s. 4d. per year, and the water by nearly 18 per cent., 
 or 1Z. 2 s. 6d. per year. It will be noted that while 
 the tenant in this case submitted to an increase of 11 per 
 cent., the charges over which the tenant has practically no 
 control have increased in a much higher ratio, and now 
 amount to 78Z. 8s. 2<7., or more than 10s. 6d. per square 
 yard of occupied land, the total cost of the house being 
 1Z. 18s. Qd. per square yard, or, including repairs, more 
 than 2Z. per square yard. 
 
 The total obligatory charges (rent, rates, taxes, and 
 
 i 
 
114 
 
 THE DWELLING HOUSE 
 
 water), which in 1878 were 22 6L, had risen in 1896 to 278Z. 
 In the same time the interest on 100Z. invested in Consols 
 has fallen from 3 l. 5s. to 2 l. 10s. 
 
 In 1893 a sum of 7,000L invested in Consols would 
 have paid the obligatory charges on this house. In 1896 
 these charges could only be met by a sum of 11,00QZ. 
 invested in Consols. 
 
 Looked at in this way, the cost of the dwelling has 
 risen 57 per cent, in 28 years, the size of the dwelling 
 remaining con st ant . 
 
 The charge for water has been included because no 
 house is habitable without it, and in this case the tenant 
 cannot sink a well, because the house is totally without 
 curtilage of any kind, and the rain-water having fallen 
 through the London air is so foully dirty as to be unusable. 
 
 The householders of London rightly view with alarm 
 the rapid increase of the sum levied for rates. This sum 
 has increased at the rate of more than 3 per cent, per 
 annum during the twenty-five years I lived in the 
 house I have been describing, and now amounts to rather 
 more than 7s. 6d. per square yard occupied. The average 
 householder is naturally nervous and apprehensive ; he is 
 getting unwilling to take a house for a long term, and is 
 squeezing his household into ‘ flats,’ in which (as the land- 
 lord pays the rates) the yearly expenditure on house 
 accommodation is fairly calculable. The attractiveness of 
 the flat is further enhanced by short-term leases, so . that, 
 should illness or a financial mishap befall him, he will be 
 less heavily weighted than would be the case if he were the 
 owner of a long, unmarketable lease. 
 
 I think we may take it for granted that if the well-to-do 
 classes are showing a tendency to overcrowd, this tendency 
 will be found to get progressively more intense as we 
 descend in the social scale. The well-to-do occupiers of 
 
REMEDIES FOR OVERCROWDING 
 
 115 
 
 flats have to be content with what may be called ‘ rather 
 close quarters/ but their servants are often squeezed into 
 rooms scarcely bigger than cupboards. It is not conceiv- 
 able that those w T ho are in a dependent position will have 
 better accommodation than those whom they serve. 
 
 Remedies for Overcrowding 
 
 The final question is, What can be done to prevent over- 
 crowding of houses and of persons in the house ? 
 
 I freely admit that very little can be done in big towns, 
 and people must be left to judge for themselves as to 
 whether they will allow their children to run the extra risk 
 of death, crippling disease, or defective development, in- 
 separable from life in a crowded city. The statistics of 
 the Registrar-General (i.e. the Annual Summary and the 
 Decennial Supplement) show clearly what these risks are, 
 but it is necessary to add that some of the local statistics 
 manifest at times an undue desire to minimise the mortality 
 of the district from which they emanate. 
 
 A great metropolitan city like London, concerning 
 which we are educated from our cradles to utter big boasts, 
 exercises an enormous influence on public opinion, but it is 
 perfectly clear that she is a dangerous model to follow in 
 the matter of house-construction. 
 
 I call to mind the case of a great London builder who 
 bought a country mansion in a park. He was a very able 
 man, but when he carried out some alterations and ad- 
 ditions to his new house he found it impossible to cast away 
 his town-bred ideas, and accordingly built underground 
 kitchens and coal cellars, and had the coals put into his 
 cellar through a plate in the pavement just outside the 
 drawing-room window. He had been so long accustomed 
 to build houses with a minimum of area, that when he had 
 
116 
 
 THE DWELLING HOUSE 
 
 an unlimited space at his disposal he failed to utilise or 
 appreciate the advantages of such a boon. 
 
 Country places should be careful to avoid the adoption, 
 as by-laws, of regulations originally framed with the idea 
 of mitigating the horrors of the London slums. With 
 regard to these regulations, it must be remembered that 
 ‘ the trail of the Cockney is over them all/ and it has been 
 shown that regulations, especially as to space round 
 dwellings, which may be beneficial in the Seven Dials 
 become mischievous suggestions when printed and circu- 
 lated as the by-lav 7 s of a country district. It seems 
 almost incredible that the Local Government Board should 
 sanction the adoption of some of these by-laws by country 
 communities. 
 
 The exigencies of space in London have led to the 
 construction of underground offices, with the result that at 
 least a tenth of the inhabitants of modern London are 
 cave-dwellers ; and in the by-la w t s from which I have 
 quoted I find no attempt to penalise, or in any way to 
 restrict, the perpetration of similar barbarities in the 
 country. 
 
 If there be underground ‘ offices/ the drains of the 
 house will leave it at a level of some 10 feet below the 
 ground level, and the public sewer must be at least 11 
 feet underground, and the laying of sewers at such a depth 
 is relatively expensive. As there are extra charges for 
 high level water service, ought there not to be similar extra 
 charges for low 7 level drain service ? 
 
 The great blot on modern sanitary legislation is the 
 entire absence of any encouragement for the sanitary well- 
 doers. 
 
 Sanitary legislation is founded on a basis of mis- 
 chievous lop-sided socialism, in which the sanitary well doer 
 is heavily taxed for the support of the jerry-builder, and is 
 
REMEDIES EOR OVERCROWDING 
 
 117 
 
 called upon to pay for all the shortcomings of the negligent 
 and filthy. 
 
 Encouragement ought to be given to the man who 
 builds a house with ample curtilage ; and if such house be 
 removed from all other dwellings by a distance equal to its 
 height, he ought to be freed from the restrictions of harass- 
 ing by-laws, and the despotic control of district surveyors 
 whose credentials are often of the flimsiest, and whose 
 ideas are stereotyped. 
 
 The idea which was prevalent a few years ago, that open 
 spaces should be taxed at 4 site value ’ is, one must hope, 
 dead. Its obviously mischievous tendency needs no com- 
 ment. 
 
 The only equitable basis for calculating the rateable 
 value of a house for sanitary purposes is the cubic capacity, 
 because, as a broad rule, the bigger the house the greater 
 is the amount of work which it throws upon streets and 
 sewers. The ‘ grounds ’ or f curtilage ’ of a house ought to 
 be very leniently taxed, although one must admit that 
 streets and pavements ought to be paid for in proportion to 
 house and ground frontage. 
 
 If a man spend money in beautifying his house without 
 enlarging it, this ought not to entail an increase in rateable 
 value for sanitary purposes. Such beautifyings are good 
 for trade in a proper sense, and ought not in the interests 
 of the community to be checked. 
 
 The rich man who has a fancy for a fine house has 
 already had his income handsomely taxed, and it seems 
 scarcely just or wise that he should be further directly taxed 
 for spending his income. 
 
 Horses if of similar dimensions used to be equally taxed, 
 and no distinction was made between the ‘ Thoroughbred ’ 
 and the ‘ Screw,’ which was quite equitable, because the 
 owner of the former had already paid income tax. 
 
118 
 
 THE DWELLING HOUSE 
 
 I have been at some pains to point out that in country 
 or semi-rural districts, where it is possible to give a house a 
 decent curtilage or small garden, it is easy for a house- 
 holder to make the sanitation of his dwelling quite inde- 
 pendent of the local authority. In fact, the householder is 
 able if he be so minded to make his sanitation complete, and 
 to finish, on his own premises and to his own profit, that 
 6 circulation of organic matter ’ which is a law of Nature, 
 and the only true basis upon which the science of sanita- 
 tion can possibly stand firm. 
 
 The householder can do piecemeal what no public 
 authority has ever succeeded in doing wholesale, albeit that 
 millions of money have been wasted in silly attempts. 
 
 Why should not the householder be encouraged ? One 
 method of encouragement would be to allow him to pay for 
 water by meter, if he be so minded, exactly as he pays for 
 gas. Such a measure as this would effectually solve the 
 water difficulty everywhere. 
 
 On referring to p. 113 it will be seen that in 1873 I paid 
 6Z. 8s. per annum for water. As there were no fixed baths 
 and washing was not done at home, I reckon the water 
 consumption was not more than seventeen gallons per head 
 per diem. 
 
 In 1873 my household averaged nine persons, so that 
 the yearly consumption of water was not more than 
 9 x 17 x 365 = 55,845 gallons (say 56,000), which, at 6Z. 8s., 
 means about 2s. 3 d. per 1,000 gallons. 
 
 In 1896 I reckon that my household averaged four and 
 a half persons, and that the yearly consumption of water 
 was 28,000 gallons, which, at 7 L 10s. 6fL, means very nearly 
 5s. 6 d. per 1,000. Suppose that this house stood in the 
 country, and that it were possible to adopt dry methods of 
 sanitation, this would reduce the water consumption by 
 about one-third, say to 12 gallons per head, or 19,000 
 
WATEE BY METEE 
 
 119 
 
 gallons a year for the household of 1896. At a shilling per 
 1,000 gallons, which I believe is a fair price, the water bill 
 would fall to 19s. 
 
 At a shilling per 1,000 gallons, twelve gallons per diem, 
 or 4,380 gallons per year, would cost 4s. 4d. per head, or a 
 penny per head per week. If in a country place the rain- 
 water were stored the annual cost for water would be still 
 less. 
 
 It may be well to add the twelve gallons per diem 
 allows for a daily sponge bath, and that on this quantity 
 of water absolute domestic and personal cleanliness can be 
 maintained. An excess of water is a pure luxury, and it 
 should be remembered that sewage difficulties are largely 
 proportionate to the amount of w 7 ater which has to be dealt 
 with. 
 
 The supply of water by meter would effectually check 
 waste, which no by-laws and regulations can effect ; and if 
 the water mains were frozen, the water companies, very 
 properly, would be the chief losers, and the householder 
 would not be called upon to pay for that which he had 
 never been supplied with. 
 
 In the matter of water ‘enough is as good as a feast,’ 
 and it is idle to imagine that the public health will be im- 
 proved by a reckless extravagance in this or any other 
 direction. 
 
 Finally, is it not possible to consider the sanitary well- 
 doer in the matter of sewerage rates ? As it is, the house- 
 holder who perfects and completes the sanitation of his 
 house on his own premises, very possibly pays more than 
 he who throw 7 s the whole of the trouble and expense on the 
 public authority. 
 
 He who takes trouble in this matter is regarded as a 
 fool by the majority, who say, ‘ He has got to pay rates ; why 
 should he bother/ 
 
120 
 
 THE DWELLING HOUSE 
 
 That the burden of public authorities and the pollution 
 of rivers would be very much lessened by the recognition 
 of the well-doer, there can be no doubt. 
 
 In considering the rating of a house for sewerage works 
 it is clear that every sink, w.c., bath or gully discharging 
 its contents into a public sewer ought to be charged, and 
 such charge should be progressive ; thus, if 5s. were paid for 
 one such discharge hole, Is. Gd. should be paid for the second, 
 10*5. for the third, 12*5. 6 d x for the fourth, and so on. In 
 this way a cottage with one kitchen sink only would pay 5s., 
 but a mansion with, say, 10 sinks, baths, and w.c., would 
 pay 81. 2 s. 6 d. Such charges are analogous to the charges 
 made by water companies, which are higher for the better 
 class of house. If this or something like this were done, 
 the fixed charges on the house would produce a considerable 
 sum, which would go far towards paying the municipal bills 
 for scavenging and sewering. The balance would have 
 to be raised by a rate on the buildings themselves, which 
 rate should be in proportion to the cubic contents of the 
 buildings, without reference to their curtilage, because 
 large curtilage tends to improve the public health more than 
 all the clauses of all the sanitary Acts that ever were 
 devised. 
 
 The cubic contents should alone be considered in making 
 assessments for rates. If a man spend money in making 
 his house more wholesome without increasing its size, and 
 thereby increases its value, it is clearly not in the interests 
 of the public health that he should be fined by the sanitary 
 authority for so doing. Nevertheless this is done daily. 
 
 That a man should pay for so much water as he uses 
 and for no more, and that he should pay the municipality 
 for personal services directly in proportion to those services, 
 seem to be two propositions so simple and so equitable, and 
 so absolutely fundamental for all just dealing, that one 
 
CUBIC CONTENTS IN RELATION TO RATES 
 
 121 
 
 cannot be surprised at the trouble which follows the neglect 
 of them. 
 
 Great as are the sanitary evils connected with over- 
 crowding, it is probable that the moral and social harm which 
 results from it is infinitely more important ; and yet we 
 find that our modern socialistic legislation does everything 
 to encourage and nothing to discourage this greatest of 
 sanitary and social ills. 
 
 It is strange that the cubic contents of a building should 
 be a factor which is rigorously excluded from consideration 
 when rating and building regulations are being considered. 
 It seems to the writer to be obvious that it is by far the most 
 important factor, and one which cannot be neglected if our 
 municipal regulations are to have any permanence. The 
 Metropolitan Building Act we have seen puts a premium on 
 large buildings, by abolishing all restrictions as to curtilage, 
 provided the building runs from street to street or from 
 street to ‘ open space/ and never considers the enormous 
 dangers of these large buildings in relation to epidemic 
 disease and fire. 
 
 Every country place would do well to enact that— 
 
 (1) The height of a house shall in no case be greater than 
 the width of the street upon which it abuts. 
 
 (2) Every house shall have a minimum private curtilage 
 upon the ground level, and entirely free from buildings 
 which shall equal the cubic contents of the house divided 
 by 50. 
 
 In the second paragraph I have chosen 50 for my 
 divisor, because the average width of a street and the 
 average height of the four-storeyed house are not far from 
 50 feet. 
 
 Let us take the case of an ordinary four-storeyed 
 house (with no basement) having an area of 20 x 50 and 
 
122 
 
 THE DWELLING HOUSE 
 
 50 feet high. Then the curtilage would be -P. x ^ x 
 
 = 1,000 ; i.e., the house must have a curtilage exactly equal 
 to the area occupied by the building — a back yard probably, 
 50 feet deep and 20 feet wide. If in addition to the four 
 storeys there be a basement of 12,500 cubic feet, then an 
 additional 250 square feet of curtilage would be required, 
 and the builder who is tempted to overcrowd would be 
 constantly checked by the price he has to pay for his 
 obligatory curtilage. 
 
 The high price of building land is largely due to there 
 being practically no restriction as to the cubic contents 
 permissible on a certain area. 
 
 If we take the smaller two-storeyed cottages, having a 
 width of 15 feet, a depth of 25, and a height of 20 feet, then 
 
 the curtilage would be X ^° = 150, which is the 
 
 50 
 
 minimum of the ‘ model ’ by-laws. If the builder put a 
 basement to this cottage of 3,750 cubic feet, he would have 
 to provide additional 75 square feet of curtilage, and thus a 
 check would be put upon underground dwellings and high 
 buildings which obstruct the light and air. On the other 
 hand, there need be no restrictions on the height or cubic 
 contents of any building provided its curtilage be ample. 
 
 If it were possible for the first house considered to have 
 a height of 100 feet in addition to its basement, then, the 
 cubic contents being 112,500 feet, the curtilage would have 
 to be 2,250 square feet, and the house and curtilage com- 
 bined would occupy some 3,250 square feet, or rather less 
 than y 1 ^ of an acre. 
 
 It is probable that a comprehensive rule of this kind 
 would satisfactorily keep builder and site speculator in 
 order, while it placed a minimum of restriction on the 
 originality and fancy of architect and builder. 
 
OVERCROWDING— FINAL CONCLUSIONS 
 
 123 
 
 Builders of houses wholly detached from other houses 
 or boundaries by a distance equal to the height of the 
 house should be allowed to escape altogether from the 
 harassing ‘ model ’ by-laws and the tyranny of the sur- 
 veyor, 
 
 I would say finally — 
 
 1. That overcrowding is the greatest of all sanitary evils, 
 and far and away the greatest of all moral eviis. 
 
 2. That whatever increases the cost of the dwelling 
 inevitably increases overcrowding. 
 
 3. That overcrowding is facilitated by modern methods 
 of sanitation. 
 
 4. That, unless the crowding of houses be prevented, 
 great schemes of sewerage and water-supply will eventually 
 make the health of a district worse instead of better. 
 
 5. That ‘ open spaces’ and public gardens do not com- 
 pensate for the lack of light and air in the dwelling or 
 of curtilage around it. 
 
 What one may call municipal luxuries are not 
 permissible if they permanently increase the cost of the 
 dwelling. 
 
 If such luxuries be self-supporting they may be permis- 
 sible, but it is clear to my mind that, as a rule, they should 
 be left to be provided by private munificence or voluntary 
 public subscription. They ought never to be paid for out 
 of the rates. 
 
 The avowed policy of many municipalities is to practise 
 a maximum of extravagance, in the belief that such extra- 
 vagance benefits the poor, and these vicarious philanthropists 
 receive a willing support from those who are directly 
 interested in such schemes. 
 
 6. That if great schemes for sewerage, or water supply, or 
 the provision of open spaces, be effected by loans which 
 increase the rates for long terms, and thereby permanently 
 
124 
 
 THE DWELLING HOUSE 
 
 increase the cost of the dwelling, they will inevitably lead to 
 a deterioration in the public health and morals. Some of 
 these schemes facilitate overcrowding, while increased rates , 
 by raising the cost of the dwelling, compel it. 
 
 7. Municipal ostentation is wholly indefensible. To 
 build palatial offices costing a million and more of money, 
 and thereby saddle the ratepayers with another loan, is 
 indefensible. To buy a cocked hat for the mayor out of 
 the rates (as did a less ambitious municipality) is equally 
 indefensible, and serves no useful purpose except to raise a 
 laugh. 
 
 We have been long accustomed to hear that our chief 
 sanitary necessity in this world is pure water. This would 
 be quite true if we were fish. But it is obvious that the 
 purity of the air we breathe is of far greater importance than 
 the purity of the water we drink, seeing that we must take 
 a draught of air about twenty times a minute, while many 
 of us do not take a draught of raw water from week’s end to 
 week’s end. 
 
 If the huge death-rate of the Strand were due to impure 
 water, we may be sure that there would be no lack of 
 discussion thereupon ; but as it is due to overcrowding, and 
 the filthiness of the air consequent upon overcrowding, we 
 hear nothing about it. To make any serious attempt to check 
 overcrowding would interfere with trade, and therefore it is 
 considered silly and futile to discuss such a matter. Any 
 man who supposes that considerations of hygiene will be 
 allowed to interfere with trade, is, I think, deceived. At 
 all events, I have no such belief. 
 
 My sole object in discussing these matters is to warn 
 country places against blindly following the lead of London 
 in sanitary matters. 
 
125 
 
 CHAPTER Y 
 
 THE CIRCULATION OF ORGANIC MATTER 
 
 It is quite impossible to define ‘ organic matter,’ or to 
 indicate the line, if there be any, between organic and 
 inorganic. 
 
 Organic matter is the material of which living things 
 are made. When a chemist analyses anything which is 
 the product of life, whether vegetable or animal, he often 
 speaks of his incombustible residue or ash as 4 inorganic 
 matter,’ but this is clearly an arbitrary use of the term, for 
 this incombustible residue has formed an indispensable 
 part of one living thing, and may in due time be incor- 
 porated with other living things as something which they 
 cannot do without. 
 
 It may well be that everything of which we have 
 knowledge (even including the igneous rocks) has at one 
 time or another formed part of a living organism, and it is 
 certain that a large proportion of the commoner chemical 
 elements may form a part, more or less indispensable, of 
 the bodies and framework of plants or animals. 
 
 Oxygen, hydrogen, nitrogen, carbon, chlorine, sulphur, 
 phosphorus, iron, sodium, potassium and calcium seem to 
 be indispensable to almost every living thing. Many more 
 of the elements are constantly found in some organisms, 
 
 1 Discourse delivered at the Royal Institution of Great Britain, Friday, 
 April 24, 1896. 
 
126 
 
 THE DWELLING HOUSE 
 
 while others, such as lead, mercury, silver, &c., may be 
 temporarily incorporated with living bodies. 
 
 We shall deal mainly with those elements which are 
 pre-eminently mobile, which are constantly changing and 
 exchanging, combining and separating, and which are 
 readily combustible. For practical purposes one might, in- 
 deed, use the terms 4 organic ’ and 4 combustible ’ to signify 
 the same thing. 
 
 With regard to solid matter, the power of readily 
 circulating implies a readiness of combustibility, but it 
 ;nust be remembered that there is no hard line between 
 combustible and incombustible. This is a matter of tem- 
 perature, and many things which are incombustible here 
 are said to be blazing in the sun. 
 
 The combustion of organic matter may take place 
 slowly, or with moderate rapidity, or with explosive violence. 
 
 When we burn coal, which is a vegetable product, we 
 find that the carbon and hydrogen escape as carbonic acid 
 and water, accompanied by nitrogen, sulphuric acid, and 
 volatile hydrocarbons. The residue consists mainly of 
 silica and alumina, which are removed from the furnace in 
 the form of clinker and ash. The water ultimately returns 
 to the earth in the form of rain or dew ; the carbonic acid 
 is ultimately absorbed by green plants, and, by stimulating 
 the growth of these, helps to furnish us with more 
 combustible material ; while the residue is almost a waste 
 product. Thus, in this example we find that the carbon 
 and watery vapour readily 4 circulate,’ while the residue can 
 only do so after a long interval of time, and is practically 
 lost. The volatile hydrocarbons and sulphuric acid, being 
 poisonous to herbage, are a source of practical loss rather 
 than gain. 
 
 Let us take next the case of an animal, which is really 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 127 
 
 a living furnace, browsing in a field ; as it browses we may 
 often see the breath, which is the smoke of this furnace, laden 
 with carbonic acid and water, escaping from its mouth and 
 nostrils, and it is probable that the green leaves of the 
 herbage absorb this carbonic acid almost as soon as it 
 escapes, and, appropriating the carbon, return oxygen to 
 the animal to help its respiration and combustion. The 
 animal as it eats continues to grow and increase in bulk 
 and value, whereas the artificial furnace in which the coal 
 is burnt tends steadily to wear out and decrease in value. 
 As it browses and grows, the droppings of the animal 
 nourish the herbage which here and there, by patches 
 of more vigorous growth and deeper green, afford sure 
 evidence of the value of these waste products. 
 
 In this arrangement there is no waste, for both the 
 animal and the herbage, by a process of mutual exchange 
 and the circulation of organic matter, increase in value. 
 
 Net only is there no waste, but, strange as it may seem, 
 there is a positive gain, with no loss whatever. The 
 furnace and the fuel are both increased ! This increase 
 can only be apparent, and not real, for it is well known 
 that although we may alter the form of matter, we can add 
 nothing to and subtract nothing from the sum total of the 
 world. 
 
 One would say that this apparent increase is due to the 
 stimulating effect of the excreta upon the soil, which 
 enables us to draw something extra from that inexhaustible 
 storehouse of plant-food and water, and enables the animal 
 to use these materials, instead of allowing them to drain to 
 the springs, and so find their way to the sea. We know 
 that a far greater proportion of the rainfall percolates 
 through barren soil than through soil bearing crops. If 
 this be so, there is a practical increase of the land at the 
 expense of the water. 
 
128 
 
 THE DWELLING HOUSE 
 
 Again, we must remember that our knowledge of the 
 sources of the gases of the atmosphere is not complete. It 
 may be that all the oxygen of the air is furnished by the 
 green leaves of plants, and all the carbonic acid by pro- 
 cesses of respiration and combustion, but we are by no means 
 sure of this. Of the sources of the atmospheric nitrogen 
 we know nothing. Now it is certain that much of the 
 carbon of the atmosphere is appropriated by the plants, and 
 much of the oxygen by the animals. If among the herbage 
 there be plants of clover, it is now certain that much of 
 the atmospheric nitrogen will be drawn into the soil to 
 nourish these plants and generally to increase their fertility. 
 Whether the return of oxygen, carbon, and nitrogen is, in 
 the long run, equal to the intake we cannot tell. 
 
 When, however, we ponder upon the gradual increase 
 of vegetable soil or humus with which the bare rocks have 
 been clothed in the course of ages, it is almost impossible 
 not to come to the conclusion that the humus, and with it the 
 fertility of the soil, has steadily increased at the expense 
 of the sea on the one hand, and, possibly, of the atmosphere 
 on the other. To put the matter in the form of question 
 and in other terms, 4 Does the Lithosphere increase at the 
 expense of the AtmosjAiere and the Hydrosphere ? ’ Does 
 the land increase at the expense of sea and air ? Be this 
 as it may, it seems certain that by scrupulous return to the 
 soil of all that comes out of it the resources of Nature are 
 made increasingly available for the benefit of man. 
 
 When organic matter is mixed with water, a process of 
 putrefaction and fermentation is started, and the organic 
 matter, instead of undergoing oxidation, is reduced, and 
 among the commoner products of this process are ammonia 
 with sulphuretted hydrogen and marsh-gas, which are both 
 combustible. These processes furnish us with other com- 
 
TIIE CIRCULATION OF ORGANIC MATTER 
 
 129 
 
 bustible matters, among the commonest of which are the 
 alcohols, the familiar products of fermentation. 
 
 It is interesting to note the tendency of organic matter, 
 when mixed with water, to give rise to explosive and com- 
 bustible products. Explosions in cesspools and sewers have 
 occurred many times. When wet hay is stored in stack it 
 catches fire. When we stir the mud at the bottom of a pond 
 or river, bubbles of combustible marsh-gas rise to the 
 surface. The coal measures are due to the storing under 
 water of semi- aquatic plants which have been preserved by 
 being silted up, and we know that coal is full of olefiant gas, 
 marsh-gas, sulphuretted hydrogen and carbon monoxide, 
 which are all combustible, and that the carbonaceous resi- 
 due, charged with volatile and combustible hydrocarbons, 
 forms the chief fuel of the civilised world. Peat is formed 
 in ways analogous to that of coal, and the so-called mineral 
 oils are certainly the products of organic matter which has 
 been silted up. 
 
 These subterranean stores of combustibles, all of organic 
 origin, are, as we know, prodigious in quantity. Nobody can 
 predict the time which it will take to exhaust the coal 
 measures of the world, and we know for a fact that the 
 sacred fires of Baku on the Caspian, fed by subterranean 
 reservoirs of naphtha, have been burning for centuries. 
 
 When we see the end of a tin of ‘ preserved meat ’ 
 bulged, we know that the gas-forming organisms have been 
 at work within, and when the bed of the lower reaches of 
 the Mississippi rises as a small mud mountain, spluttering 
 with carburetted hydrogen, we know that analogous forces 
 have been in operation. It seems, indeed, to be a law of 
 Nature that the ultimate destiny of organic matter is to 
 ‘ circulate/ and that if it does not do so quietly, as in the 
 ordinary processes of nutrition in plants and animals, it 
 
 n 
 
130 
 
 THE DWELLING HOUSE 
 
 merely bides its time, and ultimately attains its end with 
 more or less destructive violence. 
 
 Nitre (nitrate of potash or nitrate of soda) is an organic 
 product, and sulphur is an essential constituent of all or 
 nearly all organisms. Of the three ingredients of gun- 
 powder, two (charcoal and saltpetre) are, it is certain, of 
 exclusively organic origin, and the third, sulphur, may be 
 so also. 
 
 All the common combustibles with which we are fami- 
 liar are certainly of organic origin, and one is almost forced 
 to the conclusion that in this world life must have preceded 
 combustion. If we are to explain what has been by what 
 is, such a conclusion is irresistible. Are we quite sure that 
 volcanoes, which are seldom far from the sea, are not fed by 
 old deposits of organic matter which has collected in the 
 primeval ocean, and, like the more recent coal measures, 
 have been silted up ? 
 
 What has been the destiny of the protoplasm of the 
 countless animals and plants which are found in geologic 
 strata? What part have ancient microbes had in the 
 formation and disruption of the successive layers of which 
 this earth is formed? These are questions which force 
 themselves upon the mind, but which I will not attempt 
 to answer. This biological view of the cosmogony which 
 subjects the world, equally with all that is upon it, to 
 the laws of development, evolution, and decay, does not, I 
 believe, present so many difficulties as might at first sight 
 appear. 
 
 Omne vivum ex vivo is a law of Nature, and all organic 
 bodies spring from organic antecedents. Organic matter 
 is our capital in this world, and the more frequently we 
 can turn it over, and the more quickly and efficiently 
 we can make it circulate, the more frequent will be our 
 
TIIE CIRCULATION OF ORGANIC MATTER 
 
 131 
 
 dividends. If we burn organic matter we may get a good 
 dividend of energy, but nothing further is to be expected. 
 The construction of the furnace involves an outlay of capital, 
 which steadily diminishes as the furnace wears out by 
 frequent use. If we burn organic matter merely to be rid 
 of it, we spend our money for the sole purpose of dissipating 
 our capital. The function of fire is to destroy and sterilise. 
 
 If we mix organic matter with large quantities of water, 
 we have to encounter all the evils and annoyance of 
 putrefaction, and if, when so mixed, we send it to the sea, 
 we have no material gain of any kind. We spend our 
 money for the purpose of dissipating our capital. 
 
 We may place the water containing the organic matter 
 upon the land, and in tropical countries this is done, with 
 excellent effect, for the production of rice, a semi -aquatic 
 plant, which, according to Professor Georgeson, Professor 
 of Agriculture in the Imperial University of Tokio, is said 
 to prefer its nitrogen in the form of ammonia. The same 
 authority states that nitrification does not take place under 
 water, and careful experiments carried out at Tokio show 
 that sulphate of ammonia is a much better manure for 
 irrigated rice than nitrate of soda. 
 
 In our damp climate sewage farming has proved a 
 dismal failure, and the difficulties seem to increase with the 
 quantity of water which has to be dealt with. Excess of 
 water drowns the humus, and nitrification cannot go on in 
 a soil the pores of which are closed by excess of moisture. 
 
 The living earth, teeming with aerobic microbes, must 
 be allowed to breathe. It needs for this purpose a certain 
 amount (about BO per cent.) of moisture ; but it stands 
 drowning no better than a man does, and if it be drowned, 
 agricultural failure is inevitable. 
 
 If we carefully return to the upper layers of the humus, 
 in which air and microbes exist in plenty, the residue of 
 
 K 2 
 
132 
 
 TI1E DWELLING HOUSE 
 
 everything which we extract from it, we inevitably increase 
 the thickness of the humus and its fertility. Our capital 
 increases, and our dividends increase and recur with a 
 frequency which depends upon the climate. 
 
 With thrifty and high cultivation it may, indeed, prove 
 profitable to compensate defects of climate by the use of 
 glass and artificial heat. 
 
 The part played in the economy of Nature by fungi and 
 bacteria — the new learning of the last half-century — is an 
 addition to human knowledge which is destined to revolu- 
 tionise our views of many natural phenomena. It has 
 already exercised enormous propulsive power on human 
 thought, and has stimulated our imagination scarcely less 
 than when, to use the words of Froude, 4 the firm earth 
 itself, unfixed from its foundations, was seen to be but a 
 small atom in the awful vastness of the universe.’ 
 
 This knowledge has provided us with a new wCrld, peopled 
 with organisms in numbers which, like the distances of the 
 astronomers and the periods of the geologists, are really 
 unthinkable by the human mind. Their variety also, both 
 in form and function, is, for practical purposes, infinite. 
 
 When, with the help of the many inventions of the 
 optician and the dyer, we catch a glimpse of things which a 
 few years ba.ck were ‘undreamt of in our philosophy,’ and 
 when we reflect that these organisms are certainly the off- 
 spring of ‘ necessity , 5 and are probably mere indications of 
 infinities beyond, we cannot be too thankful for the flood of 
 light which these discoveries have shed upon the enormity 
 of human ignorance. 
 
 The lower animals and the lower vegetable organisms 
 (fungi and bacteria) co-operate in a remarkable way in the 
 circulation of organic matter. 
 
 In the autumn the gardener, with a view to what is 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 133 
 
 called ‘ leaf mould,’ sweeps the dead leaves into a heap, where 
 they are exposed to air and rain. This heap when thus 
 treated gets hot, and last autumn I found that the tempera- 
 ture of such a heap had risen in the course of a week or so to 
 104° F., and remained at a temperature considerably above 
 that of the surrounding air during the whole winter. On 
 turning it over after a month or so one found in it a large 
 number of earthworms and endless fungoid growths visible 
 to the naked eye, and one felt sure that it was swarming 
 with countless millions of bacteria, invisible except to the 
 highest powers of the microscope. In the beginning of 
 March this heap, much reduced in size, was spread loosely 
 over a patch of ground w T hich was previously dug. If one 
 examined that ground to-day one would scarcely recognise 
 the structure of leaves, and in a few weeks more it will have 
 become nothing but ordinary garden mould, and anything 
 planted in it will grow with vigour. This is a familiar 
 everyday fact. 
 
 We know also that noisome filth spread over a field by 
 the farmer in the autumn or winter loses its offensiveness 
 in a few days, and by the spring neither our eyes nor noses 
 give us any clue to the cause of the fertility of the field 
 which is covered with ordinary ‘ mould.’ This process of 
 ‘ humification ’ is largely due to earthworms and other earth 
 dwellers, which pass the earth repeatedly through their 
 bodies, and in doing so reduce it to a very fine powder. I 
 have examined worm castings picked off a lawn, and which, 
 after being slowly dried, have been gently sifted through 
 muslin. Those who have never examined a worm casting 
 in this way will be interested to know of what an im- 
 palpable dust the greater part is composed, and will also 
 note the considerable size of the pieces of flint and grit 
 which the animal has used in its living mill, and which have 
 been separated by the muslin sieve. 
 
134 
 
 THE DWELLING LIOUSE 
 
 These castings are full of microbes, and those who will 
 take the trouble to scatter the smallest conceivable pinch of 
 this impalpable dust upon a sterilised potato, after the 
 manner and with all the precautions familiar to bacteriolo- 
 gists, will obtain an abundant and varied growth of bacteria 
 and moulds, which will completely baffle their powers of 
 enumeration and discrimination. 
 
 The greatest hindrance in the bacterial examination of 
 the soil is this embarras de richesses, which makes the isola- 
 tion of different species a matter of extreme difficulty. 
 
 The bacteria exist in the soil in countless millions, but 
 it must be remembered that they get fewer as we go deeper. 
 The first few inches of the soil are, in the matter of bacterial 
 richness, worth all the rest, and at a depth of five or six feet 
 they appear to be almost non-existent. The practical lesson 
 which we have to lay to heart in applying this knowledge is 
 that the upper layers of the soil are the potent layers in 
 bringing about the circulation of organic matters, and that 
 if we wish to hasten this process we must be careful to place 
 our organic refuse near the surface, and not to bury it 
 deeply, a process by which the circulation is inevitably 
 delayed or practically prevented. If we bury it deeply we 
 not only get no good, but we may get harm by poisoning 
 our wells and springs. 
 
 It is the same with organic liquids. If these be poured 
 on the surface, the ‘ living earth ’ (i.e. the humus stuffed 
 with animal and microbial life) purges them of their organic 
 matter, and transmits a relatively pure liquid to the deeper 
 layers. If they be taken to the barren subsoil direct, as in 
 underground sewers and cesspools, they escape the purifying 
 action of air and aerobic organisms, and inevitably poison 
 the -water. Filthy liquids accumulating in cesspools and 
 leaking under pressure to our wmils have cost us health and 
 money incalculable. 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 135 
 
 Liquids poured upon the surface cannot, owing to the 
 crumby nature of the humus, exert any appreciable hydraulic 
 pressure. This is a fact of huge importance in the practical 
 management of organic refuse. 
 
 All effete organic matter instantly becomes the prey of 
 animals and plants. The dead body of an animal teems 
 with life — Le roi est mart , vive le roi. M. Megnin, a 
 skilled entomologist and a member of the French Academy 
 of Medicine, has made a study, which is full of gruesome 
 interest, of the living machinery which makes away with the 
 bodies of animals not buried but exposed to the air and 
 protected from beasts of prey. 
 
 M. Megnin shows that the destruction of the animal is 
 accomplished in no haphazard fashion, but that successive 
 squadrons of insects are attracted by the successive stages 
 of putrefaction. 
 
 The first squadron which arrives, sometimes before death 
 and always before putrefaction, consists entirely of dipterous 
 insects, house-flies and their relative, the blow-fly. 
 
 The next squadron are also diptera, and are said to be 
 attracted by the commencing odour of decomposition. 
 These squadrons use the carcase as a procreant cradle, and 
 thus ensure the nourishment of the larvae so soon as they 
 are hatched. Amongst these flesh-seeking flies there are said 
 to be specialists which prefer the flesh of particular animals. 
 
 The third squadron is attracted when the fat begins to 
 undergo an acid fermentation. These consist of coleoptera 
 and lepidoptera, beetles and butterflies, and among them is 
 Dermestes Lardarius, the Bacon Beetle. 
 
 When the fats become cheesy the diptera reappear, and 
 among them is Pyophila Casei , the fly which breeds jumpers 
 in cheese, which is accompanied by a beetle, whose larva? 
 are connoisseurs in rancidity. 
 
136 
 
 THE DWELLING HOUSE 
 
 When the carcase becomes ammoniacal, black, and slimy, 
 it is visited by a fifth squadron of flies and beetles. 
 
 And these are succeeded by the sixth squadron, con- 
 sisting of acari or mites, whose function it is to dry up the 
 moisture and reduce the carcase to a mummy-like condition . 
 
 The dried carcase proves attractive to the seventh 
 squadron, consisting of beetles and moths, some of which 
 are the familiar pests of the housewife, the furrier, and the 
 keepers of museums. These animals gnaw the softer parts, 
 such as ligaments, and leave nothing but a fine powder 
 behind them, which is in fact their dung. 
 
 The last and eighth squadron consists solely of beetles, 
 which clean up the debris, in the shape of dung, shells, 
 pupa cases, &c., of the seven squadrons which have preceded 
 them. 
 
 M. Megnin, being an entomologist and not a bacterio- 
 logist, deals exclusively with the insects concerned in making 
 away with a carcase, but it is evident that bacteria work 
 hand in hand with them. 
 
 There are many other instances which may be quoted 
 of the co-operation of fungi with other organisms, and it is 
 only of late years that we have appreciated the fact of 
 symbiosis , or the living together of two organisms for the 
 mutual benefit of each. This fact was first pointed out in 
 so-called lichens, which are now shown to be complex bodies 
 consisting of a fungus and an alga, living in symbiotic com- 
 munity for the mutual benefit of each. 
 
 It was next shown that the papilionaceous leguminosse 
 are unable to flourish without certain bacterial nodules which 
 grow upon their roots, and by the instrumentality of which 
 they can appropriate the nitrogen of the air, and thus the 
 fact, familiar for centuries, that the leguminosae leave the 
 ground in a state of great fertility, while they are singularly 
 independent of nitrogenous manures, has been explained. 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 137 
 
 But if the plants themselves are independent of dung, it 
 is not so, apparently, with the symbiotic nodules, which seem 
 to flourish far more vigorously in rich garden ground than 
 they do in comparatively poor farm land. Thus Sir John 
 Lawes has grown clover in a rich old garden for forty-two 
 years, and has had luxuriant crops every year. 
 
 According to my own observation on the scarlet runner 
 bean these nodules are more plentiful upon the roots which 
 grow superficially than upon those which run deeply. 
 
 Symbiosis is observable in many plants other than the 
 leguminosae, and it is certain that many of our big forest 
 trees depend for their nourishment upon fungi which grow 
 upon their roots. 
 
 All animals appear to be symbiotic, for we all carry 
 about millions of microbes, which must fairly be regarded 
 as junior partners in our economy, and which we cannot do 
 without. The microbe which has been chiefly studied — 
 the Bacterium Cali commune — appears to be essential for 
 certain digestive processes which go on in the intestines 
 while we live ; and when we die, this microbe is active in 
 starting the dead body upon that cycle of events which is 
 one form of the ‘ Circulation of Organic Matter.’ 
 
 Now it is certain that the dung of all animals swarms 
 with bacteria and allied organisms when it leaves the 
 intestines, and it seems highly probable that excrement 
 carries with it the biological machinery which is necessary 
 for its dissolution and ultimate humification. 
 
 My friend, Mr. George Murray, F.R.S., the keeper of the 
 Botanical Department of the British Museum, whose learn- 
 ing in funp-ology is well known, has kindly furnished me 
 with an elaborate list of 139 genera of fungi which flourish 
 on excrement. 
 
 Of these 139 genera, Mr. Murray has tabulated no less 
 
138 
 
 THE DWELLING HOUSE 
 
 than 628 species which are known to flourish on excre- 
 ment. 
 
 Of the 628 species, 226 have been found on the dung of 
 more than one genus of animals, but no less than 402 
 species of fungi are peculiar to the excrement of only one 
 genus of animals. 
 
 Of these 402 species of fungi, 91 are peculiar to the 
 dung of the ox ; 78 to the horse ; 68 to the hare and rabbit ; 
 80 to the dog ; 25 to the sheep ; 28 to birds ; 21 to man ; 
 16 to the mouse; 9 to the deer; 7 to the pig;. 7 to the 
 wolf; and 22 to other animals. 
 
 This search for fungi in excrement is necessarily incom- 
 plete. In Mr. Murray’s list it is evident that the greatest 
 number of species has been found in the dung of animals 
 which are domesticated and common, and which offer 
 facilities to the fungologist. The numbers are startling, 
 but when we consider that the dung of every living thing 
 which crawls or burrows, or swims or flies, has properties 
 which are peculiar to it, and which fit it to become the 
 nidus of some peculiar fungoid or bacterial growth, the part 
 played by fungi in the distribution and circulation of 
 organic matter cannot be over-estimated. 
 
 The facts which have been recounted, and which seem 
 to show that fungi and bacteria are necessary for the growth 
 and development of even the highest plants and animals, 
 and that fungi and animals are equally necessary for 
 the dissolution of organic matter, point to the conclu- 
 sion that the correlation of the biological forces in this 
 world is no less exact than the correlation of the physical 
 forces. The uniform composition of the atmosphere, except 
 under special and local conditions, is a fact which tends in 
 the same direction. 
 
 While it is impossible to over-estimate the debt which 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 139 
 
 agriculture owes to chemistry, we have, nevertheless, learnt 
 from the bacteriologist that there are biological problems 
 underlying the question of fertility, and that a mere 
 chemical estimation of tbe constituents of organic manure 
 is insufficient, by itself, to fix its manurial value. It is by 
 the agency of bacteria that organic matter is changed into 
 nitrates and other soluble salts, which are absorbed by the 
 roots of plants and serve to nourish them. This change 
 only takes place provided the temperature and moisture 
 are suitable and the ground be properly tilled. Drought 
 and frost arrest the change, and excess of moisture, by 
 closing the pores of the soil, does the same thing. 
 
 Organic manures are 
 
 economical in the long run, 
 because if the weather is 
 adverse they bide their 
 time until the advent of 
 ‘ fine growing weather.’ If 
 one season prove unfavour- 
 able, a large amount of the 
 organic matter remains in 
 the soil to nourish the next 
 crop. This is not the case 
 when soluble chemical 
 manures are use l. 
 
 That it is necessary to 
 put dung upon the ground 
 if we are to maintain the 
 fertility of the soil has been 
 the experience of all peoples 
 in every age. 
 
 I will now allude to a diagram (fig. 85) which represents 
 by a curve the yearly produce of barley, in bushels per acre, 
 grown continuously on the same plots of ground for forty 
 
140 
 
 THE DWELLING HOUSE 
 
 years, but with this difference, that one plot (represented 
 by the upper curve) received 14 tons per annum per acre 
 of farmyard manure, while the other, represented by the 
 lower curve, has been unmanured continuously. This 
 diagram has been constructed from figures given by Sir 
 John Lawes and Sir Henry Gilbert in the ‘ Transactions 
 of the Highland and Agricultural Society of Scotland’ for 
 1895. I have replaced fractions by the nearest whole figure. 
 The fluctuations of both these curves are very great, and it 
 will be noticed that they are exactly parallel to each other. 
 This teaches us that weather is the most important factor in 
 agricultural success, and shows the extreme danger to the 
 farmer of ‘ placing all his eggs in one basket, 7 as has been 
 done by the so-called farmers of the Far West, who have 
 attempted to grow wheat only by the process of scratching 
 the prairie, without returning any dung to the soil, and many 
 of whom have been financially swamped by the first bad 
 season. 
 
 Taking the average of the forty years, it will be found 
 that the produce of the manured land averaged 49 bushels 
 per acre per annum, while the unmanured land gave only 
 164 bushels. 
 
 I might have added to the diagram a third curve 
 showing the produce of that plot of ground which, of all 
 those manured with artificials, gave the highest yield. 
 The yield of this plot for the whole forty years averaged 
 46 bushels, or only 3 bushels short of the average yield of 
 the plot treated with farmyard manure. If, however, we 
 take the average yield of the three plots for each of the 
 four decades comprising the forty years, the value of the 
 organic matter becomes very manifest. Thus the yield for 
 each decade was with 
 
 Farmyard dung 
 
 . 44-9 
 
 51*5 
 
 50-0 
 
 51-6 
 
 Artificial manure 
 
 . 48-7 
 
 49*4 
 
 42*8 
 
 41 -5 
 
 Unmanured 
 
 . 22-2 
 
 17-5 
 
 13*7 
 
 12*0 
 
THE CIRCULATION OF ORGANIC MATTER 
 
 111 
 
 It will be observed that the yield from artificial manur- 
 ing only exceeded the yield from the farmyard plot in the 
 first decade, when it showed an excess of 3*8 bushels. In 
 the other three decades it was deficient by 2*1, 7*2, and 
 10*1 bushels. 
 
 The deficiency of the unmanured plot in each decade, as 
 compared with the farmyard plot, was 22*7, 34*0, 37’3, and 
 39*0. 
 
 These figures are very convincing, and as practical 
 agriculturists seem to be now agreed that farming is 
 hopeless without an adequate amount of live-stock to furnish 
 dung, no more need be said upon this head. 
 
 But is there no danger in using organic refuse, which 
 may be infective and dangerous, as an application to the 
 land ? To this I should say emphatically 4 No/ provided it 
 be put in the upper layers of the soil, and the soil be tilled. 
 Our organic refuse, when allowed to putrefy in water, and 
 to trickle under pressure to our wells, or run direct into 
 our sources of drinking-water, has turned millions of 
 pounds into the pockets of members of my profession, 
 but when rationally used as a top-dressing for the well- 
 tilled soil it has never, that I am aware of, produced any 
 harm. 
 
 I have tried to investigate this matter. Some five 
 years ago I constructed a well five feet deep in the 
 middle of a garden which is plentifully manured with 
 all that is most loathsome to our senses. This well is 
 lined to the very bottom with concrete pipes, further pro- 
 tected by an external coating of concrete ; the junctions 
 of the pipes are securely closed by cement, and there is a 
 good parapet and efficient cover (see page 65 and figs. 22 
 and 23). 
 
 Now no water can possibly enter the well, except 
 
142 
 
 THE DWELLING HOUSE 
 
 through the bottom. The water in it is clear and bright, 
 and since its construction no mud has collected on the 
 bottom. The sides of the pipes also remain absolutely 
 clean, so much so that when, in 1895, I showed this well to 
 a party of scientific friends, some of them dropped a hint 
 that it had possibly been scrubbed in honour of their visit. 
 This, however, was not the case. 
 
 The water from this well has been examined three 
 times chemically, with the result that it has been pro- 
 nounced free from organic impurities, and three bacterio- 
 logical examinations have been made, with the result of 
 showing a bacterial purity which is quite exceptional. 
 The last examination was made by Dr. Cartwright Wood in 
 November 1895, and showed a very high degree of bac- 
 terial purity. The water was specially examined by Dr. 
 Wood for the presence of Bacterium Coli commune , but 
 with negative results. Dr. W T ood writes : ‘ The results are 
 exceedingly satisfactory, and I must admit surprised me 
 very much/ A surface- well on this pattern has lately been 
 constructed in a village near Andover, and the results, as 
 far as the appearance of the well and water is concerned, 
 seem to be entirely satisfactory. 
 
 W 7 hen people live crowded together in cities, the diffi- 
 culties connected with the cleaning of the houses are very 
 great. After the invention of the steam-engine it was 
 found possible to supply even the top floors of the highest 
 houses with an ample supply of water. We accordingly 
 abolished the scavenger, and adopted a complete system 
 of water-carried sewage. In this way our houses have been 
 cleansed, and our rivers and surface-wells have been fouled, 
 and it is difficult to say whether at present there be a 
 balance of advantage or disadvantage. We have had 
 epidemics of cholera and of typhoid, and it is almost 
 
OVEKCKOWDING 
 
 143 
 
 certain that there is no one here present but has suffered 
 in some way or other from the drains.’ 
 
 The greatest drawback of this system is the fact that it 
 encourages overcrowding of houses on inadequate areas, 
 and, unfortunately, it is this fact which has rendered the 
 system so popular. With water under pressure there is no 
 need to provide houses with any back-door or back-yard, 
 and there is no inconvenience in having excessively high 
 buildings. The speculative builder, who has been relieved 
 of all responsibilities in connection with sewage and water 
 supply, has abundantly used his opportunities, and the 
 happy ground-landlord has sold his land at large prices per 
 square foot. We are shutting out the light and air more 
 and more from our cities, and the crowding in the streets 
 is making locomotion in them difficult. This overcrowding 
 is a serious matter, and I will show what it means in 
 London by means of a table and diagrammatic plan of the 
 sanitary areas of London, with the mortality figures in 
 the years 1892 and 1893, as calculated by Mr. Shirley 
 Murphy, after due correction for abnormalities of age and 
 sex distribution. 
 
 This table and plan (p. 144) shows at a glance that the 
 mortality of London as a whole (taken as 1,000) is 14 
 or 15 per cent, higher than that of England and Wales, 
 and that while some of the outlying districts, such as Hamp- 
 stead, Lewisham, and Plumstead, have a mortality below 
 that of England and Wales, the areas near the centre of 
 London are all considerably above it; and some, such as 
 the Strand, Holborn, St. George’s-in-the-East, and White- 
 chapel, have a mortality as high as that of the worst manu- 
 facturing towns. 
 
 The danger of overcrowding is well shown by the 
 explosive outburst of small-pox in Marylebone in 1894. 
 
 Fig. 86 represents part of the Asylums Board Map, in 
 
(Figures m small type snow tne population ot tne (sanitary Areas; 
 
 England and Wales =860 1893 London (entire) =1000 
 
 OO 9 H <fl OD N 
 
 e- c- 00 00 00 C 3 CO 
 
 <J^ (X (?< C<I (N 5 >) CO 
 
 'I 
 
 ■s r 
 
 p< co . m w 
 
 m® 
 
 k bio rj -rt a> v, be * 
 
 S & Ot! > M O E rH 
 
 3 
 
 43 43 -3 43 43 * 43 ° £ 
 
 OoaSoQQQOQonHHC/J 
 
 r lOlOHHCOH «o 
 P ’~ l "M 00 i— < CV5 CO Tl 
 HHrfHIMIN (M CM 
 
 p ^ ^ ?p co ip cm co op 
 
 S q Tfi t(h i‘ra in to i> cb o 
 
 1-1 C* CM CM CM CM CM CM CM 
 
 S fra « 
 
 
 . ® " O 
 
 44 o 
 
 I I o na a > . 
 
 O CftOOCOTtiCOOOCMCO 
 v. r-> hnionoocooo 
 ng OOOOOOn-irH 
 
 pCO o^po^^Hippoa) 
 £ • CMCMCMrocb>cbcbeb 
 cmcmcmcmcmcmcmcm 
 
 ©3 
 
 03 
 
 42 02 
 
 -M R 
 *R P 
 
 R? rH -r-i 
 
 * P^O 1 
 
 ■§ »j- sjjjp 
 
 s ■sS go/^R 
 
 O^OkO^+i^ 
 
 hJ o pH Ph m m r 
 
 00 CM r— I 1C 00 CO 00 
 
 05 H IM CO mm O CD 
 00 03 OJ 05 C 5 ffi 05 © 
 
 b- 05 f-l CM b- op 03 
 05 05 o o o o o 
 H H CM CM CM CM CM 
 
 £ £ 
 
 SR® 
 
 !-P o k d 
 
 ’ jp * a * 
 
 02 bcR Ci o m 43 o d 
 
 g£ M-g I J 
 
 £agg.S^S »9 
 
 cd < p!^c 5 '^ 4505 l _ 2 R 
 
 &. b- b- CO oo o 
 — io t>- co oo 
 
 p >b> £> oo Q 5 
 
 ® > 
 
 g S 
 
 R O 
 o be 
 
 f- 0 ) 
 
 £ .2 ^ fr 5 r° I £ 
 
 R 2 « c « rt 
 
 ! B ^ hc 5 5 «i 
 
 ; R * S rt ’2 .cq 1 
 
OVERCROWDING 
 
 which each case of notified small-pox is shown by a black 
 dot. This map shows that the outbreak was limited 
 to two spots, one in Portland Town and one round 
 
146 
 
 THE DWELLING HOUSE 
 
 Nightingale Street, Edgware Road, where the density of 
 population, according to Mr. Charles Booth, is over 300 
 persons to the acre. 
 
 Other maps published by the Asylums Board show that 
 whereas the air-borne contagium, diphtheria, was confined 
 more or less to the crowded districts, enteric fever, which is a 
 water-borne contagium, was evenly spread over the whole 
 parish. It need hardly be said that the enforcement of 
 vaccination, notification, and isolation, is important in pro- 
 portion to the density of population. The working of the 
 sanitary laws is a great expense to the ratepayers. I find 
 it stated, for instance, in the report of the Asylums Board, 
 that for the removal of the 260 small-pox patients from 
 Marylebone the ambulances travelled nearly twenty miles 
 for each patient, and collectively 5,200 miles, or about the 
 distance from here to Bombay. Overcrowding is not cheap, 
 and I find, by a reference to the report of St. Marylebone, 
 that whereas in 1871 that parish, of about 1,500 acres, 
 and with a diminishing population, could be ‘ run ’ for 
 about 660Z. a day, it now costs about 1,100L per day. 
 It is right to add that the parish has no control over a 
 great part of the expenditure, but, nevertheless, 440L per 
 diem is a fair sum to place upon the shrine of progressive 
 municipalism. 
 
 If infectious disease occurs in our houses we have only 
 to notify, and the parish does the rest. We have put a 
 premium on fever, and the lucky man whose house is 
 visited by a mild scarlatina is rewarded by having his 
 family maintained for six weeks at the public expense, 
 and his whitewashing done by the parish. If, on the 
 return of a child from the hospital, another child catches 
 the disease, he can recover damages. 
 
 The Asylums Board is probably the most pauperising 
 institution ever conceived, but we are such cowards in the 
 
LOCAL TAXATION 
 
 147 
 
 presence of disease that financial and moral considerations 
 have but little weight, provided the unclean be removed. 
 
 Another great drawback to the water-carriage Syscem of 
 sewage is the increasing difficulty with regard to water 
 supply. Our needs per head per diem in the matter of 
 water have gradually increased to something like forty 
 gallons, which many experts consider to be none too much. 
 In London the air is so foul that rain-water is valueless for 
 domestic use, and the water of the surface wells is too 
 poisonous to drink, because we have neglected what I 
 believe to be the most important of the principles of sanita- 
 tion, viz. the keeping of organic refuse, whether solid or 
 liquid, on the surface. The humus is the most perfect 
 purifier and the best of filters, in virtue of its physical con- 
 ditions and the life that is in it. We deliberately take our 
 filth to the under side of the filter, and then complain 
 because our surface wells are foul. The water companies 
 are masters of the situation. Water is not paid for, as a rule, 
 in proportion to the quantity used, because Parliament in its 
 wisdom has decided that thriftiness in the use of water is 
 wicked. The grossly overburdened ratepayer is now prick- 
 ing up his ears to listen to the prattle about Welsh water 
 schemes at the cost of 38,000,000?., and is congratulating 
 himself that he is only a leaseholder, and that his bondage 
 is terminable in seven, fourteen, or twenty-one years at 
 most. Water carriage, in which the carrier is some sixty 
 times more heavy and twenty times more bulky than the 
 thing to be carried, is economically ridiculous (except in 
 places where Nature has provided enormous quantities of 
 water), and involves everyplace where it is tried in ruinous 
 debt. Let us take an illustration. 
 
 A suburban district having 27,000 persons on 7,000 
 acres of land, or a population of less than four to the acre, 
 mainly engaged in market gardening, has in the last ten 
 
148 
 
 THE DWELLING HOUSE 
 
 years borrowed 106,442L for sewerage works. The only 
 visible result to the inhabitants is that even country roads, 
 with houses at ^-mile or -^-mile intervals, have been dotted 
 with foul- smelling manholes. 
 
 In 1894-5 the sum of 18,534L 14s. Id. was raised from 
 rates, and of this there was spent 6.518Z. IBs. 1 Od. for in- 
 terest and repayment of sewerage loans, and2,542Z. 3s. 11 d. 
 for current expenses in connection with sewage. If to 
 this be added one-third of the establishment charges (say 
 700L), we reach a total of 9,860 L, or more than half the 
 sum received from rates. 
 
 The provision and maintenance of all the patent 
 domestic gimcracks which water carriage involves, to- 
 gether with the necessarily increased bills for water paid by 
 the householder, would probably double that sum, and we 
 shall not be far wrong in saying that these 27,000 persons 
 are spending 20,000L a year for the purpose of throwing 
 their capital into the Thames. 
 
 This doubling of rates has most seriously crippled the 
 chief industry of the district, and the market gardeners feel 
 severely the heavy extra charges which they are called upon 
 to pay. These gentlemen, by putting much of the offal 
 of great towns to its proper use, and converting it into food 
 and wages for the poor, are doing a great work, but they 
 are in a fair way of being ruined by the silly recklessness of 
 our local governors. 
 
 On December 3, 1895, a writer in The Times pointed 
 out that in 1895, as compared with 1890, 633,000 acres of 
 land were either out of cultivation or had been converted 
 into ‘permanent pasture/ a term which implies a minimum 
 cultivation. Of these lands there were in Essex over 31,000 
 acres, in Kent nearly 30,000, in Surrey 15,000, in Sussex 
 29,000, in Berks 20,000, in Bucks 11,500, Herts 7,600, 
 Middlesex 5,500. 
 
LOCAL TAXATION 
 
 149 
 
 It is a noteworthy fact that in the eight counties 
 nearest London, which provides for them an insatiable 
 market, nearly 150,000 acres of land should have glided 
 out of cultivation in the last five years. It is impossible 
 not to believe that the local rates in places near London 
 are the last straw upon the back of the agriculturist, who 
 is ruinously taxed in order that his land may be starved. 
 To show what suburban agriculturists have to bear in the 
 way of local taxation I will quote from my little book, 
 4 Essays on Rural Hygiene,’ 1 a few figures showing what is 
 paid by a gentleman who farms 200 acres of land, of which 
 15 are grass : 
 
 The social problems of the present day are many and 
 complicated, and all of us have heard of 4 Distressed 
 Agriculture,’ 4 Pauperism,’ 4 The Aged Poor,’ and the 4 Un- 
 employed.’ 
 
 The agriculturist, who is being burdensomely taxed in 
 order that his land may be starved, now has part of his 
 rates paid for him out of the Imperial Exchequer. No 
 one who knows the straits he is in wall grudge him this 
 relief. But the paying of local charges out of Imperial 
 taxes has the inevitable result of making our 4 Local Boards ’ 
 more and more extravagant, because they have the spend- 
 ing without the trouble of raising money. 
 
 The reform most needed in the interest of agricul- 
 turists and others is to put an effectual check upon the 
 
 1 Essays on Rural Hygiene , 2nd ed. 1894. Longmans. 
 
 Income Tax (at 0>d.) 
 Land Tax 
 Poor Pate 
 Burial Bate 
 District Bate . 
 
 Tithe (considered low) ■> 
 
 £ s. d. 
 
 47 4 9 
 24 16 8| 
 123 C 5 
 19 18 8 
 83 1 11 
 
 15 11 4 
 
 £313 8 9§ 
 
THE DWELLING HOUSE 
 
 ir>o 
 
 extravagance and ostentation of Local Boards and District 
 Councils, and to see that they spend no more money in any 
 one year than they can raise in their districts. These 
 bodies are now obliged to submit their accounts to a proper 
 audit and to publish them, and it is hoped that the rate- 
 payer will subject them to close criticism. 
 
 The policy of allowing persons who are elected for three 
 years to raise loans and plunge a district into debt for a 
 period of thirty years without one iota of personal responsi- 
 bility is obviously dangerous. To allow reckless borrowing 
 for the construction of works which are a source of expense 
 and waste, and never of profit, would be called madness 
 in private life. 
 
 Doubtless a seat on a Council which borrows money in 
 lots of 100,000Z. at a time affords a delightful amusement 
 to the idle man, the busybody, the faddist, the philan- 
 thropist with a mission for fumbling in other persons’ pockets, 
 and the prophet who is ever anxious to borrow in order to 
 provide for the future of which he is ignorant. Your, 
 prophet is the most dangerous of these persons, and instances 
 will occur to the minds of most of us of municipalities 
 which have been half ruined by over-sanguine persons 
 endowed with speculative minds and persuasive tongues. 
 The risk run by these persons is so small, be it remem- 
 bered, that if an aggrieved ratepayer makes them defendants 
 in an action, they enjoy the unique privilege of paying part 
 of their costs and damages out of the successful plaintiff’s 
 pockets. 
 
 Most of the local borrowing in this country has been for 
 works of sewerage, and although such works are financially 
 ruinous, we are told that we get a dividend of ‘ Health.’ 
 This, however, is not true, and nobody could expect health 
 to emerge from a system of which putrefaction and over- 
 crowding are the chief characteristics. 
 
THE CIRCULATION OE ORGANIC MATTER 151 
 
 The application of organic matter to well-tilled soil 
 leads to positive gain and definite increase. The soil is the 
 only permanent source of wealth in this world. And we 
 are all of us absolutely dependent upon it for existence and 
 happiness. The soil, if properly tilled, provides health as 
 well as wealth, and be it remembered that in proportion to 
 its productiveness so is the need of labour ; and further, 
 be it remembered that long after the eye is too dim and 
 the hand too slow to keep time with steam machinery, 
 the physical powers are amply sufficient for the cultivation 
 of the land. 
 
 Many of our pressing social problems are inextricably 
 linked with our duty to the soil, and any country in which 
 the fertility of the soil does not increase cannot be rightly 
 regarded as really in the van of civilisation and scientific 
 progress. We are probably the wealthiest country on 
 the globe, because for some time past we have been the 
 hub of the entire financial world. Our success in one direc- 
 tion is no excuse for neglecting the more certain sources 
 of wealth, and it is to be hoped that it will soon be regarded 
 as evidence of neglect of our moral obligations to allow the 
 land to drift out of cultivation. 
 
152 
 
 THE DWELLING HOUSE 
 
 CHAPTER YI 
 
 THE SOIL IN ITS DELATION TO DISEASE AND SANITATION 1 
 
 In dealing with the relation of the earth to disease it 
 behoves us to move with caution, and we shall do well at 
 the outset to admit that there is very little knowledge of 
 the subject which can be regarded as certain. We are in 
 the land of conjectures, surmises, and plausible hypotheses, 
 which perhaps are leading on to certain knowledge, but it 
 will be necessary to check the dicta of the laboratories by 
 experience gained outside of them. Such has always been 
 the admirable custom in this country, where the labours of 
 the pure scientist have been checked by that truly excellent 
 staff of workers, the medical inspectors of the Local Govern- 
 ment Board, to whom the world at large is more deeply 
 indebted that perhaps it is aware. Before we blame the 
 earth for causing us harm we must be sure that the facts, 
 or alleged facts, of the bacteriologist are supported by the 
 experience of the practical epidemiologist. Science un- 
 checked by practice v T ill certainly lead us astray in the 
 future, as it has done in the past, and just as a ‘ lie which is 
 half a truth is ever the blackest of lies/ so a new scientific 
 fact imperfectly understood has potentialities for evil which 
 are unbounded. 
 
 If we set aside for the present the question of malaria, 
 
 1 Delivered before the Nottingham Medico-Chirurgical Society on 
 Oct. 30, 1895. 
 
SOIL IN RELATION TO DISEASE AND SANITATION 153 
 
 which is undoubtedly primarily connected with certain soils, 
 we have very little evidence that any other disease of prac- 
 tical importance is primarily connected with the soil. There 
 appear to be two microbes which are present with tolerable 
 constancy in the upper layers of the soil, and which, when 
 applied to a raw surface or injected hypodermically, may 
 cause tetanus and malignant oedema ; but as yet we are 
 without any evidence that either of these diseases can be 
 caused by drinking water which has percolated through the 
 soil, or can rise as a miasm from the soil. They concern 
 the surgeon mainly, and from the point of view of epi- 
 demiology are unimportant. 
 
 Phthisis, or rather death from phthisis, which is not 
 quite the same thing, is said to be more prevalent on damp 
 soils than on dry ones, and it has further been said that 
 the death-rate from this disease has been reduced in 
 certain towns by sewerage. This statement is not univer- 
 sally accepted, and even if it be true it does not necessarily 
 inculpate the soil because damp soils are cold, and patients 
 with phthisis or any chronic lung trouble are very intole- 
 rant of cold and damp. It is very generally recognised 
 that phthisis is prevalent in proportion to overcrowding, 
 and that it is conveyed by tuberculous milk or meat seems 
 to be certain as the result of recent experimental work. 
 Any charge against the soil itself is as yet not proven. 
 
 Diphtheria has been said to be prevalent on certain 
 soils, but this assertion is now discredited, and we recognise 
 that the great cause of its spread is overcrowding. Its 
 habitat, if it has any, outside the animal body is not yet 
 known. 
 
 Anthrax, which is due to a spore-bearing organism, can 
 certainly be conveyed to animals browsing on grass soiled 
 by the dung or blood of infected animals. The bacilli seem 
 to die in the carcase of a dead animal within three days 
 
154 
 
 THE DWELLING HOESE 
 
 after death ; and as, for spore formation, the free access of 
 air and a temperature of 70° F. are necessary, it is not 
 likely that this goes on in the earth. Pasteur’s assertion 
 that anthrax spores may be brought to the surface by 
 earthworms is discredited by Koch and others. Man, I 
 believe, has never been infected with anthrax except by 
 direct inoculation or, as in the wool-sorter, by inhaling 
 spores from infected wool or hides. Clearly, animals should 
 not be allowed to browse in an infected field, and such 
 fields should, w 7 here possible, be ploughed up and converted 
 from pasture into arable land. The danger of burying 
 animals dead of anthrax is considered unworthy of credence 
 by those eminent veterinary authorities, Professor Brown 
 and Professor McFadyean, and the latter has shown that 
 the process of putrefaction is fatal to the virulence of the 
 tissues of the dead animal when these are inoculated into 
 other animals or administered by the mouth. 
 
 Enteric fever and cholera bear a close resemblance to 
 each other in their mode of spread, and they are both 
 recognised in this country as mainly, if not entirely, water- 
 borne diseases. Whether this be absolutely the case in 
 the tropics I will not pause to discuss, because I am ignorant 
 of the conditions of tropical life ; but it is known that at 
 present the water-borne theory, as against the air-borne 
 theory, is receiving more and more support in India. That 
 these diseases are produced in most cases by the direct 
 infection of water by the excreta of infected patients is in 
 Europe very generally acknowledged. The cholera epi- 
 demics of 1848, 1854, and 1866, and the more recent 
 epidemic at Hamburg, strongly support the water-borne 
 theory of cholera, and the enteric fever epidemics which 
 afford similar evidence in this country have been so numer- 
 ous that it is unnecessary to particularise. The spread of 
 both these diseases seems to be favoured by conditions of 
 
SOIL IN RELATION TO DISEASE AND SANITATION 155 
 
 filth and overcrowding, and the existence of a filthy and 
 sodden condition of the soil has been often spoken of in 
 connection with them. Nevertheless, there have been very 
 few outbreaks of enteric fever in which the fact that cess- 
 pools, sewers, or underground middens have been in direct 
 communication with the sources of water has not been 
 detected. If, as seems highly probable, typhoid fever may 
 be conveyed by sewer air, there is nolhing improbable in 
 the suggestion that it can be conveyed by the air of privies 
 or middens in which feces are allowed to putrefy. That 
 typhoid fever poison can lurk in properly-tilled ground 
 seems very unlikely, and I am not aware that such a thing 
 has ever been suggested. Pettenkofer’s statement, that 
 epidemics of typhoid fever and cholera follow depressions of 
 the ground water may be true for Munich, but it has not been 
 materially supported in this country ; and, in Budapest, 
 Fodor has found that these diseases are more prevalent 
 when the ground water is high. The variations of level 
 in the ground water depend upon such a number of meteoro- 
 logical and other conditions, and give rise to so many and 
 different effects, that even if Pettenkofer’s statement be 
 accepted it would not necessarily point to the earth as the 
 natural habitat of the typhoid fever poison. Professor 
 Lane Notter, in his summing up of this ground-water 
 question, says 1 ; ‘ It must, however, be borne in mind that 
 it is not the ground itself which is the cause of the disease, 
 but the impurities in the soil which the varying level of the 
 ground water helps to set in action.’ Now, no organic 
 impurity can possibly reach the soil from the subsoil, 
 which is purely inorganic. Any organic impurity which 
 reaches the ground water must, therefore, come from above, 
 and is due in the vast majority of cases to our mismanage- 
 
 1 Parkes’ Hygiene, 8th edition, p. 10. 
 
156 
 
 THE DWELLING HOUSE 
 
 ment of organic refuse. Dr. Sims Woodhead 1 says that 
 4 the deeper layers of the earth are frequently almost entirely 
 free from micro-organisms, just as is the ground water' 
 Of course if the soil of a city be porous, and if there be a 
 subterranean network of sewers interspersed with cesspools, 
 this would (in the high probability that an average proportion 
 of these contrivances leak) constitute a very great danger, 
 but we must not blame the earth because we mismanage 
 it. The earth, be it remembered, is our sole permanent 
 source of wealth, and we must not needlessly quarrel with 
 our bread-and-butter. 
 
 This world would not be habitable were it not for the 
 humus with which its bare rocks are clothed. The humus 
 is the living covering of the skeleton, and its formation has 
 taken ages. The primitive bare rock which has been 
 ‘ weathered ’ by the changing seasons gets clothed with a 
 growth of lichen. This thin but rough covering entangles 
 stray particles, and thus by its own decay affords a nidus 
 for a stronger growth. This stronger growth, by chemical 
 action and physical force, works further into the rock, on 
 which the soaking rains and rending frosts have an increas- 
 ing effect, and thus, partly by the disruption of the inorganic 
 rock, and partly by the increase in ever-growing quantities 
 of vegetable decay, the humus rises, as it were, ‘ on step- 
 ping-stones of its dead self’ until it is able to afford 
 footing and nourishment for the stately forest tree, and its 
 fertility finally becomes sufficient to attract the attention of 
 the husbandman. This humus, the loose, mainly organic 
 covering of the rocks, is formed, as we have seen, by 
 crumbling rocks from below and by the constant additions 
 of dead organic matter which are deposited upon the surface. 
 These additions of organic matter, be they in the form of 
 dead animals, dead leaves, dung, or what not, become 
 1 Bacteria and their Products , p. 394. Walter Scott, 1891. 
 
SOIL IN RELATION TO DISEASE AND SANITATION 157 
 
 humified, and thus the stock of humus tends steadily to 
 increase. The greater the stock of humus the greater the 
 fertility, and the greater the fertility the greater will be the 
 amount of dead organic matter to increase the stockof humus. 
 The conversion of the dead organic matter into humus is 
 a biological process, and is caused by the animals which 
 live in the humus, and is perfected by the growth of fungi. 
 On this account I ventured some years ago to speak of the 
 humus as the ‘ Living Earth,’ and I take it that no more im- 
 portant addition has ever been made to the stockof human 
 knowledge than the recognition that the humus teems with 
 life, and that its fertility and healthiness depend entirely 
 upon biological processes. If the humus be sterilised, either 
 by heat or antiseptics, it becomes absolutely barren. It was 
 at one time supposed that the fertility of the soil depended 
 mainly upon the process of nitrification, whereby nitro- 
 genous organic matter is converted into soluble nitrates 
 wdrich are absorbed by the roots of plants, and there can be 
 no doubt that these nitrifying organisms are most important. 
 The causes of the fertility of the soil are probably far more 
 complex than we suppose, and I think it may be said that 
 we are as yet only upon the threshold of our knowledge 
 with regard to them. 
 
 The phenomenon of ‘ symbiosis/ or the living together 
 of chlorophyll-bearing plants with those which have no 
 chlorophyll in so-called symbiotic community, where each 
 partner works for its fellow’s good as well as its own, is far 
 more common than was supposed. Originally demonstrated 
 in so-called lichens, which really consist of symbioses of 
 fungi and algae, it was next shown in the papilionaceous 
 leguminosae, whose nourishment appears to be largely depen- 
 dent upon so-called bacterial nodules which grow upon their 
 roots, and, according to my observations, more upon the 
 superficial roots than those which run more deeply. In 
 
]58 
 
 THE DWELLING HOUSE 
 
 Oliver’s edition of Kernel’s ‘ Natural History of Plants ’ 1 will 
 be found an account of symbioses between fungi and big 
 flowering plants in which ‘ the division of labour consists 
 in the fungus mycelium providing the green-leaved 
 phanerogam w r ith water and food-stuffs from the ground, 
 whilst receiving in return from its partner such organic 
 compounds as have been produced in the green leaves.’ 
 ‘ The union of two partners always takes place underground, 
 the absorbent roots of the phanerogam being woven over 
 by the filaments of a mycelium. ... As the root grows 
 onward the mycelium grows with it, accompanying it like 
 a shadow. . . . The ultimate ramifications of roots of 
 trees 100 years old and the suction roots of year-old seed- 
 lings are woven by the mycelial filaments in precisely the 
 same manner.’ It is stated that many plants only flourish 
 in symbiotic community, and in this fact lies the explana- 
 tion of the readiness of some plants to grow and flourish 
 from cuttings put in sand, or from seedlings grown in 
 nutritive solutions, while others, in the absence of the 
 necessary fungi encircling their roots, cannot be made to 
 strike root or flourish in this way. When it is stated 
 that to the latter class belong oaks, beeches, firs, willows, 
 poplars, rhododendrons, and heaths, the importance of 
 symbiosis in this world will be readily understood. Now 
 w r e know why it is that the gardener prizes leaf-mould in 
 spite of its being comparatively poor in nitrogen as com- 
 pared with guano. Leaf-mould is full of fungi, and in it the 
 plant readily establishes its requisite symbiosis. 
 
 This great and astounding fact of symbiosis, of which we 
 have only recently had cognisance, will serve to enforce the 
 steadily growing opinion that the sphere of the chemist is 
 in all living processes strictly limited. In estimating the 
 value of artificial manures the chemist’s dictum is of the 
 
 1 Vol. i., p. 249. 
 
SOIL IN RELATION TO DISEASE AND SANITATION 159 
 
 greatest value, but his analysis when used to gauge the 
 value of the living humus may be entirely misleading. 
 The chemist has told us again and again that the quantity 
 of nitrogen in humus and in earth-closet soil is, as com- 
 pared with many artificial manures, comparatively small, 
 and therefore the mistake has been made of regarding 
 human faeces and the product of earth closets as of small 
 manurial value. I believe that such a statement is most 
 misleading, and on this point I claim to speak with no 
 inconsiderable experience. For the past ten years I have 
 cultivated a garden of about an acre and a quarter in 
 extent in which the only manure used has been the 
 excremental and other refuse of some twenty cottages 
 with about 100 inhabitants. In August 1895 I invited 
 a party of the British Medical Association to view that 
 garden, and I think that none of my guests on that occa- 
 sion will refuse to admit that the garden was as full of 
 crops of one kind and another as a garden could well 
 be. Dr. Yoelcker, the chemist of the Boyal Agricultural 
 Society, w T hom I had the honour of numbering among my 
 guests on that occasion, told me that he had never seen a 
 piece of ground more fully stocked, and he very kindly 
 went carefully round the garden with me to see if his ex- 
 perienced eye could detect any sign of sickness in the soil. 
 I have never detected any such signs, and neither could he. 
 The garden affords no evidence of being overdone with 
 manure, and my belief is that it would take a great deal 
 more. This ten years’ experience has convinced me that 
 human faeces constitute a manure of the greatest value, all 
 analyses to the contrary notwithstanding. The probable 
 explanation lies in the fact that the microbes extruded with 
 the faeces are of great value in developing the fertility of the 
 humus. 
 
 Many recent experiences in sanitation and in medicine 
 
ir;o 
 
 THE DWELLING HOUSE 
 
 force upon us the conclusion that the value of chemical 
 analysis in biological questions is not final. Water which 
 has been found to contain the bacillus of typhoid fever has 
 passed the tests of the chemist, and there can be little doubt 
 that in the past many samples of wholesome water have 
 been condemned for containing the products, in the form 
 of nitrates, of oxidised organic matter. Again, the action 
 of toxins and antitoxins is quite beyond the reach of the 
 chemist, and the marvellous results which have been 
 obtained by administering thyroid extract teach us that in 
 dietetics there is something which the chemist cannot 
 gauge. Eaw thyroid and cooked thyroid would give the 
 same results on analysis, but how different is the physio- 
 logical result ! How different is the action of the carefully 
 dried stomach of the calf in the form of rennet or pepsin 
 as compared with a dish of tripe ! These facts must force 
 upon us the speculation that the same thing may produce 
 very different effects according to the temperature to which 
 it may have been artificially raised by drying under a 
 vacuum or by cooking, and must drive us to the conclusion 
 that although it may be advisable under certain circum- 
 stances to boil our milk or our water, it is possible that 
 the act of cooking may change, we know not to what 
 degree, the physiological action of the milk or water which 
 has been thus treated. My experience tells me that the 
 chemists are wrong when they say that human excreta are of 
 small manurial value. Their analyses are doubtless right, 
 but their conclusions are erroneous and very dangerously 
 misleading. In this statement I should be supported by the 
 whole of the ‘Far Eastern ’ nations. 
 
 The ultimate manurial value of urine is doubtless very 
 great, although when pure or nearly pure it is very deadly 
 to herbage. The only satisfactory way of using urine as a 
 manure is to imitate the farmer, by mixing it with an 
 
SOIL IN RELATION TO DISEASE AND SANITATION 161 
 
 absorbent material, such as straw, sawdust, peat, earth, 
 paper, cotton waste, wool waste, &c., placing it upon the 
 surface of the ground and digging or ploughing it in. 
 
 The best evidence that the humus is alive is the fact that 
 it breathes. The fungi which are destitute of chlorophyll 
 absorb oxygen and give off carbonic acid, in this respect 
 resembling animals and differing from the chlorophyll- 
 bearing plants. The most easily obtained evidence of this 
 is the fact that decaying refuse generates heat, a fact which 
 is easily ascertained by using a thermometer. Thus I have 
 at present in the garden of my cottage in the Thames Valley 
 a heap of privet leaves intermixed with a quantity of fine 
 twigs which give it great porosity and serve to admit a 
 large quantity of air. On the morning of October 21 the 
 temperature of the air was 89° F., and the temperature of 
 the heap of leaves was 57° (18° more than the air). On 
 October 22 there was a heavy cold rain with a cold easterly 
 wind. On the morning of October 28 the temperature of 
 the air was 40° and the temperature of the heap of leaves 
 was 56°. On the night of October 28-24 there was (for 
 the time of year) a very severe frost. My heap of leaves 
 on the morning of the 24th was solidified on the surface by 
 the frost, but the temperature of the interior was 53° while 
 that of the air was 30° (an increase of 23° over the air). 
 This heap, it should be stated, is only a small heap, and 
 would all go into a big wheelbarrow. On the morning of 
 October 24, after taking the temperature of this heap, I 
 turned it over with a fork, putting the frozen top in the 
 centre and altering the position of the constituents of the 
 heap. A quarter of an hour later the temperature of the 
 heap was found to be 32°, and at seven in the evening it 
 was still at freezing-point, or only just above it. The night 
 of October 24-25 was again very frosty, as many as 12° of 
 frost having been registered at a house close by. At eight 
 
162 
 
 THE DWELLING HOUSE 
 
 in the morning of the 25tli, however, my heap of leaves 
 showed a temperature of 40°, having risen 8° during this 
 very cold night, and being 20° above the minimum cold re- 
 corded in the night. At 7 p.m. on the 25th the tempera- 
 ture of the heap was 42°, and the next morning, after a third 
 very cold and frosty night, it had risen to 45°. The rise of 
 temperature here was clearly due to the respiration of living 
 things, and could not have been in any degree caused by 
 absorption of sun heat. (Since the above was written 
 autumn has come upon us, and the fallen leaves have been 
 collected into a big heap. On November 15 the tempera- 
 ture of this heap was found to be 62° F., and a week later 
 (November 22) had risen to 104° F. !) The fact that the 
 humification of organic matter generates heat is a fact 
 which is of enormous practical value to the gardener and 
 farmer. The market gardens round London, which produce 
 astounding crops and assimilate an enormous quantity of 
 dung, are in a sense extended and mild hotbeds. One hopes 
 that those who are advocating the burning of organic refuse 
 will pause to think, however necessary such a process may 
 r be under certain circumstances, how great is the dispersion 
 of energy which such a process involves and how much heat 
 is lost which might otherwise be used for the stimulation of 
 germination and growth in seeds and plants. One hopes 
 also that those who would condemn as foul the humus 
 which contains a large amount of carbonic acid will 
 remember that this gas may only be an evidence of perfectly 
 healthy and vigorous action. The important fact that the 
 tillers of the soil are the most long-lived of all the labouring 
 classes is one which must never be lost sight of. 
 
 That the humus breathes and generates an enormous 
 quantity of carbonic acid precisely as an animal does is 
 a fact which the agriculturist must ever bear in mind. 
 Many of the operations of the farm have for their object the 
 
SOIL IN RELATION TO DISEASE AND SANITATION 163 
 
 loosening of the soil and the admission of air to enable the 
 respiratory processes to go on. Every farmer will tell you 
 that the earlier he can get upon the ground to hoe his 
 turnips the better will be the crop (other things being equal), 
 and every farmer knows the advantage of thorough tillage. 
 If the respiration of the humus is an important fact, it 
 becomes very important indeed not to drown it. It stands 
 drowning no better than a man does, but, like a man, it 
 requires a requisite amount, but not too much, to drink. 
 There can be no doubt that the failure, which is almost 
 general, of so-called sewage farming arises through the 
 drowning of the humus ; and it must be borne in mind that 
 sewage water consists to a very considerable extent of water 
 which has been boiled, or is hard, deep w T ell water, and has 
 not the valuable quality of rain-water of containing some 
 2*5 volumes per cent, of atmospheric air dissolved in it. 
 There can be little doubt that the great trouble to the 
 sewage farmer is the excess of water which drowns the 
 humus. When three or four ounces of excrement are 
 mixed with 1,200 times their weight of water they run small 
 chance of humification, and one must fear that the 
 difficulties of the sewage farmer (financial or agricultural, 
 or both) must increase with the magnificence and extrava- 
 gance of the water-supply of the town the sanitary interests 
 of which the sewage farm is intended to subserve. The evil 
 effects of too much water have come before me lately in two 
 very striking examples. While going over the experimental 
 farm belonging to Mr. H. C. Stephens, M.P., at Cholderton, 
 on Salisbury Plain, this autumn (which I did in company 
 with a large number of practical agriculturists), there were 
 here and there noticeable in the middle of fields having a 
 uniform quality of soil, and which had been treated in 
 identical fashions, certain large patches over which the 
 growth of turnips, as compared with the rest of the fields, 
 
164 
 
 THE DWELLING HOUSE 
 
 was very defective. The explanation offered was that on 
 these patches the animals had been folded in wet weather, 
 that the dung had been trodden into the ground, and the 
 soil had been hardened and consolidated by the trampling 
 of the beasts. Under such conditions (air not being ade- 
 quately admitted to the pores of the soil) the humification 
 of the dung had been hindered and the crops stunted in 
 consequence. This was a fact new to me, who am only an 
 amateur agriculturist ; but I may state that it was unani- 
 mously and unreservedly accepted as an adequate explana- 
 tion by all the farmers present, who seemed to be perfectly 
 familiar with the consequences of folding cattle in the 
 wet. On the other hand, the most fertile patch of the 
 whole farm was where the cattle had been folded for a fort- 
 night continuously on the same spot during the severe frost 
 of last winter, and had been fed upon food which was 
 necessarily brought to them on that spot. The ground 
 being as hard as iron could not be more consolidated by 
 trampling, and with the advent of the thaw there was a 
 general disruption of soil and dung, and humification went 
 on rapidly in earth of which the pores had been opened by 
 the beneficent effects of a deep frost, and which had received 
 an amount of dung which was exceptionally great. 
 
 Another experience was a visit to a sewage farm belong- 
 ing to a town in which brewing is the staple industry. 
 This farm was large (nearly twice as big as at one time was 
 considered necessary) and was composed of a very porous, 
 gravelly soil in a high situation. The manager was an able 
 man, and one felt that if success was to be obtained it was 
 here. But the amount of water pumped on to this ground 
 was exceptionally great, amounting at times to as much as 
 150 gallons per head of population per diem. The result 
 can be imagined. The humus was drowned, and large 
 tracts of the farm were as wet as a marsh, bore no crops, 
 
SOIL IN RELATION TO DISEASE AND SANITATION 165 
 
 and never could be made to bear any under such conditions. 
 As soon as it had been saturated it was ploughed up and 
 saturated again, there being no time (let alone other con- 
 siderations) to grow crops in face of the huge volumes of 
 water which had to be dealt with. Those parts of the farm 
 which were under cultivation grew enormous quantities of 
 water-grass, a noxious weed, and altogether the agricultural 
 aspects of this estate were as gloomy as could well be. As 
 for the effluent, it was thick and turbid, and stunk like a 
 dirty brewery. It was impossible to believe that the effluent 
 had been rendered safe for discharge into a river, and its 
 cost must have approached that of the beer which was sold 
 in the adjoining town. The amount of water seemed to be 
 the trouble here, and clearly the first duty of the munici- 
 pality would be to divert directly into the river all the storm 
 water and all the water which was used in enormous quan- 
 tities for refrigerating purposes, and which, being perfectly 
 wholesome, might go into the stream direct. A visit to 
 the pumping-station of this municipality was most unplea- 
 sant for the nostrils, and left upon me the impression that 
 the Local Government Board would do well to insist that 
 all sewage committees should have a board-room at the 
 pumping-station and another at the farm, and should be 
 allowed to deliberate in no other place. The humification 
 of excrement in the presence of such an overpowering- 
 amount of w r ater is impossible, and I believe that munici- 
 palities which are now busy diverting storm water will have 
 to go further and deal with excreta, domestic slop-water, 
 and manufacturers’ effluents on different and separate 
 systems. I confess I should like to see water-closets dealt 
 with on an independent system by a vacuum principle such 
 as is advocated by Shone and Liernur. Manufacturers’ 
 refuse, which is liable to contain chemicals and antiseptics, 
 is so likely to kill the humus by poison as well as by drown- 
 
166 
 
 THE DWELLING HOUSE 
 
 mg that it seems impossible to deal with it on any one 
 system, and it is to be hoped that with the advance of 
 chemistry it may be increasingly possible to turn manu- 
 facturing effluents to profitable account. 
 
 It is now more than ten years ago since I first deliber- 
 ately drew attention to the shortcomings of modern sanitary 
 methods, and pointed out that the safe disposal of organic 
 refuse was a question of which the biologist, rather than 
 the engineer or chemist, would give us the solution. It is a 
 hopeful sign of the times that engineers are now recog- 
 nising this fact, thanks mainly to the teaching of the 
 Board of Health in Massachusetts. The purification of 
 sewage is wrought by the presence of living organisms on 
 the filters ; and for the due filtration of drinking-water it 
 is now admitted that the filtering material must have a 
 coating of living slime. These are facts which are now all 
 but universally admitted. 
 
 Our go-ahead municipalities, formed on democratic lines, 
 are more ostentatious than the worst of Homan emperors. 
 The London County Council wished at one time to give 
 750,000/. for a site for its house! The central ideas of 
 modern municipalism are the raising of loans and the 
 sweating of the ratepayer. It must be remembered that 
 there is no relation between magnificence and real efficiency. 
 For example, in a town which I sometimes visit I am 
 always interested by a stately pageant consisting of a huge 
 conveyance weighing at least half a ton and looking like a 
 cross between a railway truck and a hearse. This is drawn 
 by a horse weighing 15 or 16 cwt., and this horse is guarded 
 by two men weighing, perhaps, 12 st. apiece. Inside the 
 hearse are eighteen huge pails weighing 40 lb. each, and 
 inside the pails are the weekly excreta of ninety people, 
 which should, if properly managed, certainly not weigh 
 more than 200 lb or 300 lb. In short, there are about 
 
SOIL IN RELATION TO DISEASE AND SANITATION 167 
 
 BO cwt. of gear for the removal of at most 3 cwt. of 
 material. This cumbrous array works, it need hardly be 
 said, at a funereal pace, and there can be no doubt that a lad 
 with a hand-truck coming every day would do the work far 
 more rapidly, efficiently, and cheaply. 
 
 It must be borne in mind that the fertility of the soil 
 should bear a certain proportion to the density of popula- 
 tion, and that the ability of land to support its population 
 ought steadily to increase, especially if the population enjoys 
 the blessings of free trade. I may perhaps best illustrate 
 my meaning by referring again to the visit which I paid 
 to the farm of Mr. H. C. Stephens, M.P. The down 
 lands which comprise this district consist of a very few 
 inches of humus overlying chalk, the herbage is scanty, 
 and the population of animals (in relation to acreage) 
 necessarily very small. One of the difficulties which the 
 farmer has had to encounter in this district is the obtaining 
 of sufficient water for his stock, and perhaps the most 
 important work which Mr. Stephens has done is to sink a 
 deep well in the chalk. This well, worked by a wind engine 
 and provided with storage reservoirs, gives a supply of 
 water which may be regarded as unlimited. With good 
 water-supply, ample area, and the possibility of importing 
 food which the neighbouring railway affords, it became 
 possible to maintain a very large number of sheep, oxen, 
 and horses for farm and breeding purposes. The animals 
 are all folded, and the whole of their dung is returned to 
 the soil, and the effect produced by this large addition of 
 organic matter cannot fail to strike the visitor, who finds in 
 spots where the herbage was previously so thin as to 
 approach barrenness that he now has to wade lmee-deep 
 through a thick felt of grass. All over the farm the effect 
 of adding this organic matter to the soil, is everywhere 
 apparent, and it is certain that the need of imported food- 
 
16S 
 
 THE DWELLING HOUSE 
 
 stuffs for the animals must diminish in proportion to the 
 increase of fertility of the farm. This estate on Salisbury 
 Plain realises, in fact, the utopia of which I have spoken in 
 ‘ Kural Hygiene ’ 1 — i.e ., a place where there are water- 
 pipes but no sewer pipes. The indispensable water has by 
 skilful but comparatively simple engineering been brought 
 within easy reach of the human and animal population, but 
 the organic excrements and other refuse, instead of being 
 washed away into a neighbouring valley to poison the in- 
 habitants there, are retained upon the soil to provide extra 
 herbage, extra meat, extra work, and extra wages, with 
 increased contentment and no loss of health. The increased 
 fertility of the soil must have the effect of counteracting 
 poverty and diminishing that charge upon the land known 
 as the Poor-rate, and as for sanitary rates, the very essence 
 of the progress I have been describing consists in the fact 
 that there are none to pay. When the members of the 
 local council in this utopia have mended the roads and 
 paid for the school they may return with a clear conscience 
 to their own business, instead of meddling with that of other 
 people. 
 
 The fact that the potential increase of the fertility of 
 the soil is to a certain extent proportioned to the increase of 
 population is a political and economical fact of fundamental 
 importance. The fertility of the soil of a country which 
 imports millions of tons of food ought steadily to increase, 
 and I believe that but for counteracting circumstances free 
 trade ought to have benefited the farmer equally with all 
 other classes of the community. If the enormous quantity 
 of excremental and refuse matters due to free trade had been 
 placed upon the land to increase the national stock of humus 
 the fertility of the soil must have increased proportionately, 
 and the fall in prices due to the competition of imported food 
 1 Essays on Rural Hygiene , 2nd edition. Longmans, 1894. 
 
SOIL IN RELATION TO DISEASE AND SANITATION 169 
 
 would have been proportionately counteracted. If on the 
 farm at Cholderton which I have been describing the well 
 water had been used for washing all the excrement of the 
 animals into the nearest river there could have been no in- 
 crease of fertility of the soil, and the animals must have been 
 dependent upon imported cake and other food-stuffs to a 
 degree which would never vary, instead of, as at present, 
 tending steadily to get less. Among the nostrums which have 
 been suggested for the relief of agricultural distress are ‘light 
 railways/ but as imports and exports are apt to balance 
 themselves, one would fear that the light railway, for every 
 truss of hay or sack of corn which it conveys to the nearest 
 junction, will bring back a frozen carcase of meat or its 
 equivalent. If, however, these light railways (and the 
 existing railways) can bring the refuse of the towns on to 
 the land to increase the agricultural capital in the form of 
 humus, the farmers will certainly have more to sell and our 
 need of imported food (per head of population) will tend 
 steadily to get less. Until — if I may use the expression — 
 we make some serious effort to leave our imported 4 cake ’ 
 upon the land in a form in which it can be advantageously 
 utilised, our needs for importation will never get less, and 
 our state of scare as to the sufficiency of our Navy will get 
 steadily worse as the population increases. It is very bad 
 policy for railways to charge exorbitant rates for the con- 
 veyance of dung, because the less dung they import the less 
 will be the export of produce on the return journey. It is 
 impossible to doubt that the man who increases the fertility 
 of the soil of a country deserves well of that country and 
 should be encouraged 1 y the State and his fellow-country- 
 men. Professor Otis Mason of Washington has gone so far 
 as to say : 4 The form of law which does not decrease the 
 amount of taxation proportionally to the yield per acre is 
 not in the line of progress.’ And again : 4 Any law which 
 
170 
 
 THE DWELLING HOUSE 
 
 punishes a man with taxation for preventing waste, re- 
 cuperating worn acres, or developing the latent resources of 
 nature, is wicked.’ There can be no doubt that taxation 
 presses very hardly upon agriculturists, especially those 
 whose land happens to be within the boundary of a ‘ progres- 
 sive ’ corporation. I have mentioned (p. 149) a friend who 
 farms 200 acres of land (of which fifteen are grass) in the 
 Thames Valley who pays more than 300/. a year in imperial 
 and local taxes. This is due to the fact that he is under the 
 heel of a ‘ progressive ’ board, which, finding it can borrow 
 money at 3 per cent., is making full use of its powers and 
 is fast converting a pretty village into something scarcely 
 distinguishable from Houndsditch. 
 
 We may now profitably turn to the consideration of 
 Malaria, a disease which is undoubtedly connected with the 
 soil and which has its habitat in the soil of certain places. 
 Malaria requires for its development decaying organic 
 matter, a high or moderately high temperature, and 
 usually an excess of moisture. Tropical marshes are the 
 elected seats of malaria, but not the exclusive seats, for it 
 is known that certain rocks and arid plains, as well as the 
 sandy estuaries of rivers, are liable to be malarious. The 
 one thing which all, or almost all, malarious districts have 
 in common is the fact that they are barren, or nearly so, 
 uncultivated, and in many cases uncultivable. Malaria is 
 rare in England, but once it was common, and we must 
 not forget that James I. and Cromwell are both of them 
 said to have been victims of this disease, which was rife in 
 London in their time, especially in the Essex marshes and 
 on the south side of the Thames, in Lambeth Marsh and 
 the adjoining districts. An undrained country is unculti- 
 vable, and it has been found that drainage followed by 
 cultivation has in this country enormously lessened the 
 amount of malarious disease. Cultivation of land finishes 
 
SOIL IN RELATION TO DISEASE AND SANITATION 171 
 
 the work begun by artificial drainage. The soil is dried 
 and aerated by tillage, and the organic matter, when the 
 humus is no longer drowned, is oxidised, and goes to 
 nourish plants and trees, which effect an upward drainage 
 no less important than the downward drainage, while 
 the oxygen exhaled by the green leaves cannot but benefit 
 the air of the locality. If we wish to keep clear of malaria 
 in this country we must till the soil and so nourish the 
 humus that its produce may be sufficiently valuable to bear 
 the expense of any artificial drainage which it may be 
 necessary to maintain. If the land of this country goes 
 out of cultivation, as in places it seems to be doing, I see no 
 reason why we or our successors should not witness a re- 
 crudescence of malarious disease in localities which are 
 prone to develop it. 
 
 It wiJl not be unprofitable in this connection to consider 
 the history of the Eoman Campagna. It is generally 
 admitted that the Eoman Campagna was not always the 
 desolate waste which it ultimately became. It was prone 
 to malaria, doubtless, but this was kept in check by the 
 large farming population. It is not conceivable that in 
 days when locomotion was slow a city could have attained 
 the proportions and importance of Eome if it had been 
 situated in the middle of a sterile and malarious plain. 
 The neglect of agriculture began in the Augustan age, when 
 Eome was at the zenith of her power, and it is worthy of 
 note that Maecenas is credited with having incited Yirgil 
 to write the ‘ Georgies 5 in order to direct, by this fascinating 
 method, the attention of the Eoman people to the neglected 
 joys of agriculture. With the acquisition of fertile districts 
 in Africa and elsewhere, not only did the need for home- 
 grown commodities decrease, but it is probable that the 
 profits of home farming decreased also. Corn was im- 
 ported in enormous quantities, while the expenses connected 
 
172 
 
 THE DWELLING HOUSE 
 
 with the defence of the Empire led to such a merciless taxa- 
 tion of the landholder that in self-defence he was obliged 
 to allow his land to go out of cultivation, and thus escape 
 from the brutal exactions of the tax-gatherer. According 
 to Gibbon, within sixty years of the death of Constantine 
 320,000 acres of the district of Campania had become 
 barren. Further, there can be no doubt that the Cloaca 
 Maxima and other cloacae sent to the Tiber much, if not all, 
 of the organic refuse which should have been returned to 
 the land. Finally, there can be little doubt that the extrava- 
 gant water supply of ancient Home must have had the 
 effect of causing neglect of local wells, and as the water of 
 the aqueducts was supplied to places in the Campagna as 
 well as to Home itself, the discontinuance of pumping must 
 have helped to leave moisture in the soil at the same time 
 that an extra supply from a distance was giving an additional 
 quantity to it. As these great works of engineering did 
 away with the necessity of manual labour, and as the 
 barren land stood in no need of husbandmen, it is not to be 
 wondered at that the problem of the unemployed grew 
 urgent in Home. We hear that in the later days of the 
 Empire the masses congregated at the baths or waited 
 whole days at the doors of the amphitheatre while they 
 were fed with doles of bread or corn supplied from the 
 public granaries. With a dense idle population and with 
 barren and unwholesome surroundings the amenities of 
 Home as an imperial residence declined, and on this account 
 it was probably that Diocletian seldom visited it ; and one 
 cannot but think that the social and sanitary conditions of 
 the capital were among the causes which led Constantine 
 to abandon it in favour of his new city on the Bosphorus. 
 Finally, one is not surprised to hear that when Alaric took 
 the city in the beginning of the fifth century he did so, not 
 by direct assault, but by seizing the huge granaries and 
 
SOIL IN RELATION TO DISEASE AND SANITATION 173 
 
 magazines at the Port of Ostia, and then offering to the 
 unhappy Romans the choice of surrender or starvation. 
 We are often asked to admire the Roman aqueducts, and 
 Rome is not infrequently held up to us as a model to be 
 copied. I fear we are copying her only too exactly, and I 
 fear that equally with Rome we shall find out the futility 
 of a brutal and reckless expenditure mainly directed towards 
 the starvation of the soil and a senseless struggle with con- 
 ditions imposed on us by Nature. I have heard it suggested 
 that the cultivation of the soil of England is of no import- 
 ance, that our islands are destined for residential and 
 manufacturing purposes only, and that our sustenance is 
 to depend entirely upon 4 big-bellied argosies 9 bearing all 
 the treasures of more fertile climes. But the cultivation of 
 the soil and the nurturing of the humus have important 
 bearings upon questions other than food supply, and if we 
 continue to starve the humus and to convey our filth 
 beneath it instead of upon it, I fear that the cost of living 
 in this country is likely to increase, while the pleasures of 
 existence will diminish. 
 
 The moral of all that I have been saying is to the effect 
 that to nourish the humus and to till it are the inexorable 
 duty of the sanitarian. This simple duty is the key to 
 plentiful food and a good supply of wholesome water. 
 Nature is relentless, and will sooner or later destroy those 
 who neglect to follow her inexorable laws. We used to say 
 that 4 the weakest ’ (morally, physically, and mentally) 
 4 must go to the wall.’ Now we use the expression 4 sur- 
 vival of the fittest 5 to express the same idea. Nature does 
 not relent, but man, in his commendable efforts towards 
 philanthropy, endeavours to relent, and hence the principle 
 underlying much modern sanitary work is the attempt to 
 bring about the survival of the unfittest. If I may judge 
 from the criticisms to which at one time and another the 
 
174 
 
 THE DWELLING HOUSE 
 
 ideas which I have put forward have been subjected, I may 
 conclude that the principles advocated are considered right, 
 but that the lowest classes of our population are not to be 
 trusted to safeguard to any extent the wholesomeness of 
 their homes. Therefore we are all asked to come down to 
 the level of the dirtiest and most careless, and our sanitary 
 methods (in which there is too much of Hercules and too 
 little of Minerva) do not admit of any encouragement being 
 given to those living within a municipal boundary who may 
 be so circumstanced that they can adopt the principles I 
 have advocated. No ! we must all be tarred with the same 
 brush, and no quarter is given to those who refuse to allow 
 the municipality to be put to the trouble and expense of 
 robbing them of stuff which they find invaluable on their 
 own land. In Hampshire I have spent a considerable sum 
 of money in freeing the river from some pollution and 
 saving trouble to the town. Incidentally, I have improved 
 the value of a house, and, of course, the rates of that house 
 have been raised. Such a fact is a most effectual check 
 upon the vast majority of those who might wish to imitate 
 what they may approve of in principle, and I feel assured 
 that no real advance in sanitation will be made until there 
 is an equitable adjustment of sanitary rates and we have 
 the right, if we desire it, to pay for water by meter. That 
 water should be paid for according to rateable value, and 
 that the rating authority and the water authority should 
 be identical, seems to me to be an arrangement which fjhe 
 ratepayer will possibly find irksome. The greatest of sani- 
 tary troubles in the present day is overcrowding, and this 
 trouble is greatly fostered by our methods of sanitation. 
 And yet we find responsible persons suggesting that open 
 spaces should be taxed at ‘ site value,’ while at the same 
 time they are willing to spend any amount of millions in 
 bringing water from Wales because they think that eventu- 
 
SOIL IN RELATION TO DISEASE AND SANITATION 175 
 
 ally their dangerously dense population will have a density 
 twice as great. We shall some day recognise the futility of 
 fighting against Nature. It is the engineer’s business to 
 overcome natural obstacles, and we of the medical profession 
 cannot but have the greatest admiration for the many dis- 
 tinguished members of that sister profession which, by its 
 skill and daring, has in countless ways assisted the develop- 
 ment of our commerce and manufactures. They have, 
 indeed, ‘ expelled Nature with a pitchfork,’ but it behoves 
 us to remember the rest of the quotation. We must dis- 
 tinguish also between brilliancy of achievement and the 
 end attained. We all of us admire the brilliant men who 
 made the Thames Tunnel, built the ‘ Great Eastern ’ steam- 
 ship, and gave us the luxury of the broad-gauge railway ; 
 but it is doubtful if the original shareholders in those 
 enterprises would participate in our enthusiasm. Money 
 will accomplish nearly anything in the engineering way, 
 and it is not the engineer’s business to consider the finan- 
 cial side of the question. I have always had a shrewd 
 suspicion that Archimedes was possibly less admired by 
 the Syracusan ratepayer than by the rest of the world, and 
 I have often pondered whether, had he lived in these 
 days, and had made his famous request of Sos* 7 rov o-tw, the 
 Local Government Board would have sanctioned the issuing 
 of a Syracusan 3 per cent, stock to provide the fulcrum for 
 which he asked. 
 
 I frequently meet friends who say, * I’ve been reading 
 that article of yours about the earth,’ and so forth, and then, 
 after patting one on the back and being charmingly com- 
 plimentary, they generally end by asserting that, after all, 
 the convenienceof the water-closet more than counteracts its 
 disadvantages. The fascinations of this winsome apparatus 
 seem unconquerable, and one is bound to confess that — 
 provided the machine be of a good pattern and well made ; 
 
176 
 
 THE DWELLING HOUSE 
 
 provided the plumber who sets it has knowledge and a 
 conscience ; provided those who use it do not try its consti- 
 tution with brickbats and old boots ; provided there is not 
 a frost ; and provided there is not a drought — it does sweep 
 out of the Cockney’s house material of the use of which he is 
 ignorant, and for which he has no market. All the diffi- 
 culties and dangers of the water-closet are on the far side 
 of the trap, and do not trouble the householder. I feel 
 inclined to paraphrase the words which King Lear used to 
 something equally fascinating and, as he found, equally 
 treacherous : — 
 
 * But to the syphon do the gods inherit, 
 
 Beneath is all the fiends’. 
 
 Give me an ounce of civet, good apothecary, 
 
 To sweeten my imagination.’ 
 
 As a champion of individual liberty, I would say that those 
 who in country places wish for water-closets should pay for 
 them, and those who, for conscience’ sake, do not pollute 
 the rivers or starve the soil should not be taxed to pay for 
 the misdeeds of those who do. 
 
INDEX 
 
 Andover, garden at, 37, 159 
 — well at, 63 
 Animals, housing of, 59 
 Anthrax, 153 
 Aspect of dwelling, 13 
 
 Bacterium coli commune, 142 
 Bedroom windows, 21 
 Building regulations, 104 
 — societies, 91 
 Bungalow facing south, IS 
 
 Cellarage window, 28 
 Cellars, 27 
 
 Cholderton experimental farm, 163, 
 167 
 
 Cholera, 154 
 
 Circulation of organic matter, the, 
 125 
 
 Classification of refuse, 84 
 Construction of wells, 61 
 Corridors, the ventilation of, 9 
 Cost of the dwelling, the, 112 
 
 Defects in planning, 1 
 Diphtheria, 153 
 Dry catch privy, 39 
 
 — method of treating urine, 49 
 
 — methods, 32, 49 
 
 — refuse, 89 
 
 — urinals, 55 
 
 Earth-closets, indoor, 44 
 Enteric fever, 154 
 
 Fauna of death, the, 135 
 Filtration gutters, 78 
 — , intermittent, 83 
 Flora of excrements, the, 137 
 
 Garden at Andover, 37, 159 
 Generation of heat by decaying 
 refuse, 161 
 
 Hospital construction, 9, 10 
 Hotel bedrooms, 19 
 House, the typical London, 3 
 Houses, damp, 26 
 Housing of animals, 59 
 Humification, 33 
 
 Indoor earth -closets, 44 
 Isolated dwelling, sanitation of the, 
 32, 41 
 
 Larders, 30 
 
 Local taxation, 147 
 
 London house, the typical, 3 
 
 — mortality, 144 
 
 Malaria, 170 
 
 Marylebone small-pox outbreak, the 
 143 
 
 4 Model ’ by-laws, 107 
 Mortality, London, 144 
 
 Overcrowding, 90 
 
 — final conclusions, 123 
 
 — remedies for, 115 
 
 N 
 
178 
 
 THE DWELLING HOUSE 
 
 Pail system, the, 42 
 Phthisis, 153 
 Planning, defects in, 1 
 Practical sanitation, 34 
 Principles of slop-drainage, 75 
 Putrescible fluids, 23 
 
 Slop-water, 69 
 
 Soil, the, in relation to disease and 
 sanitation, 153 
 Strand, the, 101 
 Symbiosis, 136, 157 
 
 Kates, cubic contents in relation to, 
 120 
 
 Taxation, local, 147 
 Town dwellings, 87 
 
 Rating, 119 
 
 Refuse, classification of, 84 
 — dry, 89 
 
 Roman Campagna, 171 
 Rome, ancient, 171 
 
 Urinals, dry, 55 
 
 Urine, dry method of treating, 49 
 
 Rooms, living, 18 
 
 Ventilation of corridors, the, 9 
 
 Sanitation, practical, 34 
 — of the isolated dwelling, the, 
 32, 41 
 
 Sewage farms, 164 
 
 Slop -drainage, principles of, 75 
 
 Warming, 16 
 Water by meter, 118 
 Wells, construction of, 61, 141 
 Window, bedroom, 21 
 i — cellarage, 28 
 
 
 PRINTED BY 
 
 SPOTTISWOODE AND CO., NEW- STREET SQUARE 
 LONDON 
 
. ,\ •• v, V > v •( o' . v-t or r ; 
 
 I)- 
 
 
 . • . „• •• I ' <S ; . . . t ; 
 
 - •' ; ' : : V 
 
 . 'i-V. 
 
 
 
 
 '• ■ --n . ^ •• • ■ ■ - \'.- M ■■■■ <i> 
 
 ,0.V 
 
 
 0i 
 
 
 m- y \-y‘ 
 
 
 
 
 
 : Ov v 
 
 : •; v ^> v v 
 
 -K 
 
 
 
 S£ 
 
 - 
 
 
 ;'00r'# 
 
 
 A 
 
 
 
 
 
 ... • > » * V ■ : 
 
 
 
 
 
 y *m$ 3-^ 
 
 ,sl 
 
 
 
 ■; )'.??' 
 
 ^ . ' - ■ :; 4-m - 
 
 ’Stsk&x y , :.■■ yyjj-;- 
 
 
 ■ ' : ■ ■ : 
 
 ' ' ' ■ . v ' 
 
 > *■ ■: . 0 : ■■ ■'■ ■ . 
 < : ;)> . ■ ... . . ■ , -i:.' .yy , r r>y . - • 
 
 v- - - ' ■ ■ -■ ■ ; ' - *y , :■• o V . • <■•■' ’ ; + ■ y- 
 
 / ■ : ,,i ■ . 0 O'. y&WtS &■££ 
 
 
 
 ■ - '-o-o W'-- . ' • r '. l^\-'vMv 
 
 ■..• . . • , . ,: • v- . 0 . 
 
 ifM '.-.. O'. 
 
 1 v/. . '0".‘ ■ ■ / M,ir 
 
 . ?. '• • , ‘ ' ■ . ■ ... V, . ■ , : ?■. . 
 
 ";00.; OO'-. ■ '0'0:O. 0. ‘.v-/, 
 
 h< • : ‘ . ■ ■' , ( . 
 
GETTY CENTER LIBRARY