*;m /-u^Q.^ - L >i*. '-?5^ J^*iri ^t^iiitfft-^Ri x^ 1 - 1 -i-ifT-, ^3V'W \ I\ LIB R.ARY OF THE UNIVERSITY Of ILLINOIS 630.7 Ufck no. 61-84 ' ;^m ZrVy MRff.-i '"'v" ft} ^$ii^tf$ {&& 3*%^ TLJA /9L*i ^ , ^/ t-y^l'f 'V- X i mWJfa ^ FI rJ-:- r^w/C. V J.i > ^rH^^fex-m'5 J?..J*B /: ^> / W V^i\ ]> ^ NON CIRC^PFFN 5rW ^F 8 * - UNIVERSITY OF ILLINOIS Agricultural Experiment Station. URBANA, JUNE, 1902. BULLETIN NO. 74. STANDARD MILK AND CREAM BY WILBER J. FRASER, ASSISTANT PROFESSOR IN DAIRY HUSBANDRY COLLEGE OF AGRICULTURE AND CHIEF IN DEPARTMENT OF DAIRY HUSBANDRY, AGRICULTURAL EXPERIMENT STATION. SUMMARY. Half of the milk produced in Illinois is sold by weight or meas- ure without regard to its composition or food value. Milk containing- a high per cent, of fat is not only worth more for food but it costs more to produce than milk containg a low per cent., of fat and its price should be governed by its food values and not by its bulk. By standard milk and cream is meant that which has been brought to a certain known composition, thus establishing a true basis for valuation. 283 284 BULLLETIN NO. 74. [June, Nearly all milk used for direct consumption is sold by measure alone regardless of its food value. Frequently one quart of milk contains twice the food value of another yet both sell for the same price. No other commodity is bought and sold with such disregard of its food value. All milk should be sold according to its compo- sition, and milk intended for direct consumption should be stand- ardized, not only that its exact composition may be know but also that definite commercial grades of milk may be established with corresponding values. Since fat in milk is the most variable constitutent, the other solids remaining fairly constant, standardizing is a comparatively simple matter. All that is necessary is to add or remove a certain amount of butter-fat. A law requiring the standardization of milk and cream sold for direct consumption would result in justice to both seller and buyer. Such a system would be no more difficult to control than the present one of minimum limits. Milk for direct consumption should not only have a standard of values but of cleanliness as well and should be produced under rigid inspection. No subject is of more consequence to the people from the stand- point of both economy and health, than that milk should be pro- duced under rigid inspection laws. Such a system would be of as much advantage to the better class of dairymen as to the consumer. The Department of Dairy Husbandry, of the University of Illi- nois Agricultural Experiment Station, in an investigation of the dairy conditions of the state, finds that in nearly all cities, at the condensing factories and many creameries, milk is sold by measure or weight and almost entirely without reference to its composition or food value. It is safe to say that half of the milk produced in the state is sold in this way. Only five cities besides Chicago have any system of milk inspection whatever, or pay any official atten- tion to the composition of the milk sold, and the only requirement in these cities is that milk must contain at least three percent, fat and twelve per cent, total solids. The result is that milk varying greatly in composition is sold for the same price. IQ02.] STANDARD MILK AND CREAM. 2 8 5 an H n KB 286 BULLETIN NO. 74. [June, THE COMPOSITION OF MILK The average composition of milk may be fairly represented by the following- : PER CENT. Water 87 . 50 Total solids 12 . 50 Casein and albumen 3.30 Butter- fat 3.50 Milk sugar 5 .00 Ash 70 The solids not fat are fairly constant but the fat is exceeding- ly variable. The fat in milk from different cows frequently varies from three per cent, to seven per cent, and greater differences than these are occasionally found. The chief causes are breed, individ- uality and length of time from freshening. The variations in the composition of milk are clearly shown in Bulletin 51 of this Sta- tion, published in May, 1898, and it is upon these variations in composition that the food value of milk entirely depends. THE FOOD VALUE OF MILK. Milk furnishes all the constituents necessary to nourish the body, keep it in repair, and furnish warmth and energy for work. A quart of average milk will furnish about the same amount of nutrition as three-fourths of a pound of meat ; and if its true food value were fully appreciated, milk would be used much more freely than it now is, to the advantage of both the health and economical sustenance of the people, Each person consumes an average of twenty-five and a half gallons of milk in a year, or an ordinary tumblerful each day. Although this is one of the great dairy coun- tries of the world we do not consume more than one-third the amount of milk per capita that is used in some European countries. This is doubtless due to the failure of Americans to appreciate its food value. In this country it is generally used as a condiment in tea or coffee, on berries and fruit, or for a beverage when drunk at all and not as a regular article of food as are bread, meat, and po- tatoes. Many who understand that milk varies in composition think that its food value is based entirely upon the amount of butter-fat which it contains. While it is true that the fat in milk is a very important factor, it is also true that skim milk containing little or no fat has yet a high food value. Skim milk has practically the same composition as whole milk, with the exception of the butter- fat which has been removed in the cream, and for supplying the body with albuminoids alone is worth exactly the same, quart IQ02] STANDARD MILK AND CREAM. 287 for quart, as whole milk. Since the albuminoids are lacking- in the diet of many people, especially those who do not eat meat freely, skim milk would be a valuable and economical adjunct to their food. For the purpose of furnishing- the body with en- ergy skim milk is worth one-half as much as whole milk contain- ing- 4 per cent, butter- fat. The objection may be raised that skim milk is not palatable, and while this is true to a certain extent, yet milk containing a small amount of fat makes an excellent drink and can be freely used to advantag-e, especially in cooking 1 . The following- table shows the food value of milk compared with beef : TABLE i. AMOUNT OF THE DIFFERENT INGREDIENTS AND FUEL VALUE IN 25 CENTS WORTH OF WHOLE MILK, SKIM MILK, AND ROUND BEEF STEAK. (Estimated prices whole milk, containing 3 per cent, fat, 5 cents a quart ; skim milk, 2.8 cents a quart ; round steak 12^' cents a po..nd.) Amount. Protein.lb. Fat, Ib. Carbohy- drates, Ib. En'gy value, calories. Whole milk ; qt. .^60 .^21; 542 ^066 Skim milk 8.0 qt. .6z>7 .010 .066 ^ooo Beef steak 2 Ib. .360 .240 1682 From the above table it is seen that equal values of whole milk and beef steak contain practically the same amount of protein and that skim milk contains nearly twice as much, while the energ-y value of 25 cents worth of either whole or skim milk is nearly twice that of beef steak. In other words the energ-y value of 13^ cents worth of milk is equal to 25 cents worth of round beef steak. Yet people invariably consider milk as something- of a luxury and think they are economizing- by restricting- its use as much as possible, al- though they buy meat freely considering- it one of the necessities of life. They fail- entirely to realize that the elements needed to nourish the body may be obtained from milk more cheaply than from meat, and that milk takes the place of other foods, thus di- minishing- the quantity of other nutrients needed. It is for this reason the quantity of milk consumed in this country is not so great as economy would warrant, considering- its food value. NEED OF STANDARDS IN THE SALE OF MILK. In the aggregate an enormous amount of milk is consumed for it is used daily by nearly all classes of people regardless of their station in life; and, since it forms an economical factor in their 288 BULLETIN NO. 74. [June, sustenauce, a correct basis of sale is important. To show the in- justice of the present system of selling- milk even in a city where a standard is required the following' extract and tables are taken from circular No. 13 of this Station, upon "The Milk Supply of Chicago," by Miss Jane Adams of Hull House, Chicag-o, and Dr. H. S. Grindley of the Chemical Department of the University of Illinois. The purpose of this investigation was to obtain definite information concern- ing the costs and the varations in the chemical composition or quality of the milk furnished to consumers in the city of Chicago. So far the milk supply of two dis- tricts of the city has been studied. Hull House is situated in one of the most densely populated of the "West Side" districts. The district is inhabited largely by immigrants representing nearly every nation in Europe, who do not readily see the point of difference between "amount of food" and the mere bulk or weight of the purchased article, and whose economic condition is such that apparent cheapness is nearly always a determing factor in their choice of food. The Lewis Institute, on the other hand, is situated in a district of Chicago which contains for the most part the homes of people in fairly comfortable cir- cumstances. The residents are chiefly business and professional men and em- ployes of the better paid callings. This being the case it was expected that the intelligence and standard of material comfort of the community would, in the main lead to a choice of mi!k of a fairly good quality. COLLECTING SAMPLES OF MILK FOR ANALYSIS. The samples represent as nearly as possible the milk actually supplied to the consumers. Samples were not taken from every dealer, but it is believed that the number taken represents the milk supply of the districts studied. In every case the samples were purchased either directly from the delivery wagons on their routes or from the shops of retailers. They were bought as if intended for personal consumption. They represent, therefore, milk as delivered to consum- ers. The analyses of the samples were made immediately upon their receipt in the laboratory. In the analyses made in the winter of 1896-97 only the fat and total solids were determined. In the samples analyzed during the spring of 1898, the total solids, fat and casein were determined in all but a few cases whe re the content of fat was three and one-half per cent or more. The composition of the various samples of milk is shown in the following tables. 1902.] STANDARD MILK AND CREAM. 289 TABLE 2. Composition of samples of milk collected by Hull House during the winter 1896-97.* 3 CO * * H co 3 _ ft ^rl 3 CO C (U H *2 _ '"ti en O CO 3 2- 3 3 w o> o_ 5T fu % 3 3 ^^ *~^ o ^T w O Q] ^"E -I 1% O f"*" ft CL. a rT~2- i _, n ~ ' f- n CL. to 3 n" 0) ?* -i n> B9 Cents. Per Cent. PerCt Per Cent. Cents. Per Cent. PerCt Per Cent. I 5 9.06 1.30 7-76 51 4 11.98 2.80 9.18 2 5 13-42 5.00 8.42 52 5 12.56 3-30 9.26 t3 3 10.25 i .00 9.25 53 4 12.85 3 80 9-05 T4 3 10.75 2.00 8-75 54 5 11.15 3.60 7-55 5 4 12.55 3-50 9.05 55 5 15.16 7.50 7.66 6 5 12.90 4.OO 8.90 56 4 11.36 2.00 8.76 7 5 14.26 6.00 8.26 57 4 12. 19 3.20 8.99 8 5 9.19 2. CO 7.19 58 4 II .24 2.90 8-34 t9 2 8.40 0.05 8-35 59 3 11.84 3.10 8-74 fio 6.70 I.OO 5.70 60 4 13-14 4.50 8.64 n 4 12.30 3.40 8.90 61 4 9.46 1.30 8.16 tl2 3 7.80 0.60 7.20 62 2 II .02 2. IO 8.92 '3 4 8-75 2. 2O 6-55 63 5 8.80 1.50 7-30 H 5 6.24 2.00 4.24 64 3 10.88 2.3O 8.58 4 H-39 2. 10 9.29 65 4 9.42 1. 60 7.82 fi6 3 10.25 I .OO 9.25 66 3 9-53 0.50 9-03 ,- I7 3 9-35 0.50 8.85 1*7 3 10. 12 I .OO 9.12 18 3 9-55 1.20 8-35 68 6 13.70 6.00 7.70 IQ 6 n .98 2.90 9.08 69 5 11.25 2.50 8.75 20 3 12.75 3-50 9-25 70 5 II .OO 3-00 8.60 21 6 14.02 6. 20 7.82 71 2 11.95 3-50 8.45 22 4 13-64 4.00 9.64 72 5 II .50 2.OO 9.50 23 5 9.76 1.70 8.06 73 3 9.62 2. 2O 7-42 2 4 5 12.36 2.90 9-46 74 5 14.20 6.00 8.20 25 5 12.30 3.00 9-30 75 5 II .21 1.90 9.31 26 5 11.85 2.70 9.15 76 5 14.80 6.50 8.30 27 5 14.68 6.40 8,28 77 5 I4.2O 6.00 8.20 28 4 8.70 I .00 7-70 78 5 12.05 4.00 8.05 29 5 11.02 2.20 8.82 79 6 I3-50 5.00 8.50 30 5 11.84 2.0O 8-94 80 4 I3-I5 4-5 8.65 31 5 13.88 4.2O 9.68 81 5 12.67 4.00 8.67 32 5 11.50 2.6b 8.00 82 6 I4.IO 5-70 8.40 33 5 13.82 5-00 8.82 83 5 II .OO 2.50 8.50 34 5 13.15 4. 10 9.05 84 5 10.54 1.70 8.84 35 5 I2.5O 3 oo 9.50 85 5 10.87 2.50 8.37 36 3 11.47 2. 10 9-37 86 5 11.25 2.50 8.75 37 5 11.78 2.80 8.98 87 5 n-73 3-40 8-33 38 5 16.28 8.20 8.08 88 3 14.20 6.00 8.20 t39 2 9.89 0.80 9.09 89 4 11.31 3-70 7.61 40 4 n-93 3-40 8-53 90 4 10.05 i .00 9.05 5 10.51 I.OO 9.51 91 4 12.80 4.00 8.80 42 17.85 9.50 8.35 92 4 11.68 2.80 8.88 43 4 13-98 4.20 9.78 93 5 II .00 2.50 8.50 44 5 3.90 9-27 94 5 11.81 2.80 9.01 45 4 12.27 2.80 9-47 95 4 10.26 2.30 7.96 46 4 12.25 3.20 9.05 96 4 11.45 3-90 8.45 47 4 ii .04 1. 80 9.24 97 4 11.48 2.90 8.58 48 4 12.44 3-40 9.04 98 6 13.50 5.20 8.30 49 5 12.58 3-70 8.88- 99 4 11.83 3-40 8.43 50 3 12.01 3.20 8.81 IOO 4 13-04 4.20 8.84 Average 11.74 3-i8 8-54 * The samples for the analyses g-iven in this table were collected by a resident of Hull House and analyzed by Dr. Elizabeth Cooke, of the Lewis Institute, t Sold as skim milk. J Mixed meaning- mixed whole and skim milk. Sold as cream. 290 BULLETIN NO. 74. [June, TABLE 3. Composition of samples of milk collected by Hull House during the spring of 1808.* ~ ^ H in J C/2 H-I 00 t> 3 V o c_ cr O 3 S3 c c cr n S3 1*2. s ^ w 5 o! r* t/1 c % 33 c/> 0,fT> p- o 2L *! 9 3 ~ C Q, (/> c w v M D 09 3 CLO S 51 BO n r/ g 0. sr o n^* _"t C/l r" " ~i a> J* Per Cent/Per Cent. PerCt. Per Ct. Per Cent. Per Ct. PerCt. PerCt. IOI II.Sl 3.25 8.56 3.00 151 11.85 2. JO 9.15 3-30 IO2 11.52 2-35 9.17 3-50 152 ii .70 3-05 8.65 3-17 103 11.14 2.60 8.54 3.00 153 10.94 2. 2O 8.74 3-29 104 12.15 3-40 8-75 3-19 154 10.13 I. 10 9-03 3.46 105 12.15 3-25 8.90 3-28 155 ii .03 2.60 8-43 3-41 106 5.02 K6 ii . c.6 2.85 8.71 3.08 107 II. IO J 2.00 9. io 3-44 J 157 e 11.69 J 2-75 8.94 J 3-75 108 II .62 2.80 8.82 3-37 I 5 8 15.41 7.00 8.41 3-24 IOQ C..OO I CQ 1 1 .33 2. en 8.78 ^.20 V no -J ^-r 4.4=; ? V 160 *J J I I . W J./ 2 CX3 8.6^ J-"T. 3. 16 III 11.45 t T-_) 2-75 8.70 3-34 161 J*J 12.05 m *y*- f 3-40 **J 8.65 J 3-19 112 11.41 3.20 8.21 3-i6 162 11.84 4.IO 7-74 2.86 "3 n.68 3-30 8.38 3.21 163 12.26 3.25 9.01 3-31 114 ^.6; 1 6l ii .70 2.85 8.85 3. n IJ5 J-"D ^.65 *** 165 / IO.QI ** * ^ J 2 c;o ;" 8.41 J */ ^.07 3 116 12.08 o j 3-35 8^73 3-22 J 166 v* 12. 18 3 w 3.35 8.83 J ' 3-32 117 10.40 167 12.04 ^.60 8.44 3. io / 118 H-73 3-28 8'45 3-44 / 1 68 11.46 j v^ 2.95 8.51 / V 3-31 119 12. 02 3-25 8-77 3-34 169 9.88 O.OO 8.98 3-42 120 11.56 3.00 8.56 3.22 170 12.76 4.05 8.6( 3-34 121 11.54 2.75 8-79 3-23 171 12.47 4.00 8.47 3-25 122 10.85 2. 2O 8.65 3-25 172 12.57 3-70 8.87 3-44 123 13.18 3-35 8.83 3-29 173 I7-I3 9.20 7-93 3-17 124 9-75 0.50 9.25 3-35 174 ii .01 1. 90 9.11 3-50 125 11.65 3.00 8.65 3-i6 175 18.44 9-95 8.49 3-J3 126 11.96 3-25 8.71 3-27 176 12.06 2.0O 9.16 3-50 127 1 1. 08 3-35 8-73 3-34 177 12.70 4-25 8.45 3-31 128 10.70 1.40 9-30 3-49 178 12.68 3.85 8.83 3-25 129 9.52 0.60 8.92 3-07 179 12. OI 3.10 8.91 3-53 130 11.07 2-55 8.52 3-19 180 II .9! 3-15 8.76 3-3 131 9.62 1. 00 8.62 3-20 181 9.22 0.75 8.47 3.02 H2 4.80 182 12. l8 7.2C 8. oi 3.52 *J m i =;o 183 Q Z.'l O.OO * " J 8 61 Jf J 3.22 J J IS4 J 3 3.80 ~o 184 V - J J v - V^ IO S8 2 2C, V . - J 8 K ^.26 JT^ 135 11.15 O ' ~ 2.30 8. '85 3-35 A V^. 18 5 -> f 3 11.57 2.6o O J 8-97 J 3-44 I 3 6 11.57 2.30 9.27 3-29 1 86 II. II 2. 2O 8.91 3-3i 137 n.68 2.70 8.98 3-29 187 11.83 3.OO 8.83 3-47 138 II. OI 1.70 9-3i 3-3 1 88 10.75 2. -15 8.30 2.92 139 11.65 2.75 8.90 3-3 189 12.79 3.60 0.19 3.|8 I4O 10.88 1.65 9-23 3-33 190 9-83 2.13 7-70 2.62 141 10.95 2.25 8.70 2.99 191 10.86 2.85 8.01 2.81 142 11.18 1.85 9-33 3-40 192 ii. ii 2.60 8.51 3-02 H3 10.38 0.80 9-58 3.56 193 12.86 3-95 8.91 2.95 144 11.75 2-35 9.40 194 11.17 2.18 8.99 3-07 145 ii . ii 2.30 8.80 3-21 195 10.33 1-45 8.88 3.12 146 9.87 i-45 8.42 3-52 196 ii. 13 2.60 8-53 3-M 147 12. 10 3.20 8.00 3-34 -197 13.06 4. -io 8.96 3-21 148 12.66 3-95 8.71 198 i, -.63 2.83 8.80 3.36 149 11.77 2.45 9.32 3-63 199 '3.85 4-48 9-37 3.58 150 9-79 o . 70 i 9 . 09 3-54 200 11-43 2-45 8.98 3-32 Average ii .61 3.04 8.77 3.27 f The analysis of these samples of milk was made by H. S. Grindley L. Sammis of the Department of Chemistry of the University of Illinois. and J. 1 9 02.] STANDARD MILK AND CREAM. 29 r Table 4. Composition of samples of milk collected by Lewis Institute during the winter of 1896-7.* 1 1 ITS 2 rro *! Ig 1* -3 3 SH "1 Ig si 52 o f o> IE BJ T Q^ sri m -l -1 O Cfl P "* t/3 ,-t n> "* n Cents. PerCent Pr. Ct.;PerCent Cents. PerCent Pr. Ct. PerCent |20I 6 ii. 8 3-2 8.6 244 6 10.8 2-3 8.5 202 6 ii. 6 2.9 8-7 245 6 9-5 2-5 7.0 203 5 11.4 2.8 8.6 246 6 10.6 2.4 8.2 2O4 6 13-3 4-8 8-5 247 5 II. 2 3- 1 8.1 205 6 ii. 7 3-4 8-3 248 5 12.0 3-5 8-5 206 6 ii. 7 3-4 8-3 249 6 II .O 2-5 8-5 207 6 11.5 3-0 8-5 250 5 IO.4 2.0 8.4 208 6 14.9 6.4 8.5 "251 6 10.5 2.2 8-3 209 6 ii. 8 3-6 8.2 +252 5 ii. 8 2.8 9.0 2IO 6 14.8 6.4 8-4 253 6 9.8 1.6 8.2 211 6 II. 2 3-0 8.2 254 5 n. 6 3-0 8.6 212 6 II-5 3-4 8.1 255 5 10.4 2.4 8.0 213 6 14-3 6.2 8.1 256 5 11.7 2-5 9.2 214 6 12.9 4-4 8.5 257 5 10.9 2.0 8.9 215 6 11,7 3-2 8-5 258 5 11.9 3-5 8.4 216 6 ii-3 3-2 8.1 259 5 n. 6 2.8 8.8 217 6 ii. 8 8.7 260 5 n-5 3-0 8.5 218 6 11.5 3-0 8-5 261 5 II. 2 2.9 8-3 219 7 13.0 3-4 9.6 262 5 10.4 1.8 8.6 2 2O 6 3-0 8-7 263 5 II.5 2-7 8.8 221 6 12. 3-3 8.7 264 1 5 ii-3 3.0 8-3 222 6 ii. 6 2.8 8.8 265 5 n. 4 2.9 8.5 223 6 13. i 4.2 B.g 266 5 H-3 3-2 8.1 224 6 II .2 2.6 8.6 267 5 11.5 3.8 7-7 225 6 10.8 2.2 8.6 268 5 II .2 2.9 8-3 226 7 12.9 4-4 8-5 269 5 II .2 8.2 227 7 ii. 8 3-4 8.4 270 6 10.5 2. I 8-4 228 5 10.8 2.2 8.6 271 5 12.4 4.6 7-8 229 6 n. i 2-7 8.4 272 6 II.5 3-4 8.1 23O 5 II .2 3-0 8.2 273 6 3-7 8.2 231 6 II.5 3-2 8-3 274 6 12. I 3-5 8.6 232 7 12.8 4-6 8.2 275 5 II .O 2.2 8.8 233 6 II .2 2.8 8.4 2 76 5 ii. 7 3-0 8.7 234 6 II. 2.4 8.6 277 5 2.7 8.6 235 6 11. 2.7 8-3 278 5 10.6 2.2 8.4 236 6 10.5 2-9 7.6 279 5 H-5 2. 9 8.6 237 6 II . I 3-0 8.1 280 5 H-3 2.6 8.7 6 11. $ 3-3 8.2 281 5 10.9 2.0 8.9 239 5 ii. S 8.4 282 : 5 ii. 6 2.8 8.8 240 b 10.6 2.6 8.0 283 ; 5 12.2 2.8 9-4 241 6 11.6 3-2 8-4 284 : 5 II .2 1.8 . 9-4 242 6 II-3 3-2 8.1 285 5 12. 3-3 8-7 243 6 10.4 2.2 8.2 Average 1 1 . 53 < 3 . 08 8.30 "The milk for the analy si < tfiven in this table wa> col ected and analyzed by Dr. Eliza- beth Cooke, of the ewis Institute. tin samples 201 to 2^1 thi price of the milk when delivered is (riven. + n samples 2~i2 to 285 the price of the milk when not delivered is given. Taking", as a basis of comparison, milk containing 1 3 per cent, fat and 9 per cent, solids not fat, the required standard for milk sold in Chicag-o, as worth 5 cents a quart, sample No. 14 is worth 2.8 cents and sample No. 38 is worth 8.4 cents, therefore, 1 quart 2Q2 BULLETIN NO. 74. [ June, IQ02.] STANDARD MILK AND CREAM. 2Q3 of No. 38 is worth 3 quarts of No. 14 on the basis of total energy value. Again, on the same basis, the average value of Nos. 1, 14, and 63, is 3.2 cents, while the average value of Nos. 38, 55 and 76 is 7.9 cents, therefore the better samples are worth 2}^ times as much as the poorer, yet this milk all sold for the same price, 5 cents a quart. Selling milk by measure alone is unjust to the producer as well as to the consumer. It would be as reasonable to expect to purchase three pounds of round steak for the price of one as to buy milk of the composition of No. 38 and No. 14 at the same price a quart. While the fallacy of this system is apparent to a few, the majority of people seem to think that milk is milk and that one quart is worth as much as another, so long as it is still sweet. The reason for this is partly a lack of knowledge as to what constitutes good milk and partly because milk is an opaque liquid and it is difficult to judge of its composition or food value simply by appear- ance. For this reason many unscrupulous milk dealers dilute their milk with water or remove a portion of the cream. State legislatures and city councils have attempted to over- come this difficulty by passing laws and ordinances making it un- lawful to change the composition of milk. Where these laws were enforced they stopped the dilution of milk to a great extent but did not tend to compel milk dealers to sell milk of any known compo- sition or on the basis of its food value. The next attempt to remedy the difficulty was to have a cer- tain standard below which it was unlawful to sell milk. Most of the states and some cities passed laws to this effect. These stand- ards seldom require more than 3 per cent, fat and 12 per cent, total solids. The city or state standards, even where they exist, have not reached the difficulty as it makes the sale of milk coming direct from some individual cows, that give milk low in fat, unlawful while it is good wholesome milk and a perfectly legitimate product when sold at its proper price. But what is even worse, this sys- tem prevents the man who produces rich milk from getting the price he should according to its food value and cost of production. Milk containing a high per cent, of fat is not only worth more for food but it costs more to produce than milk containing a low per cent, of fat and the price should be governed by its composition and food value and not by its bulk. Before there was a ready means of determining the composi- tion of milk these difficulties could not well be overcome and pro- viding city standards of composition was about all that could be done at that time ; but since the invention of the Babcock test, by 294 BULLETIN NO. 74, {June, Dr. Babcock of the Wisconsin Agricultural Experiment Station, the conditions are changed, for by the Babcock test and lactometer and at but slight trouble or expense it is now a simple matter to determine accurately the amount of fat and solids not fat in any milk. STANDARDIZING MILK AND CREAM. Since fat in milk is the most variable constituent, the other solids remaining 1 fairly constant, standardizing milk is a compara- tively simple matter. All that is necessary is to add or remove a certain amount of butter-fat, which is easily done by means of the centrifugal separator or by letting the cream rise by gravity. While it is true that milk from individual cows varies somewhat from day to pay, the mixed milk of a herd that is milked at regu- lar times each day will be practically constant for that herd, because all of the cows will not test high or low on the same day. By testing the milk of a herd occasionally the per cent, of fat in the milk may be known at all times with reasonable accuracy to- gether with the amount of skim milk that should be added or removed to bring it to the proper standard. If the separator does good work and the amount of milk handled is small so that it does not warrant testing every day it may be run very close to the desired per cent, of fat by testing once a week, so as to be sure that it is up to the required standard. Where the quantity of milk handled is large it is more economical 4o run tests frequently and keep the fat at exactly the desired per cent. Even if the per cent, of fat varies but slightly it makes a great difference in profit in the course of the year in a large business. If 1,000 gallons of milk are sold daily at the price given in Table 5 and the per cent, of fat in the milk is 4.5 when only 4 per cent, milk is required, the loss to the one selling the milk would be 1^ cents a gallon or $15 a day, this in a year would amount to $5,475. The only apparatus necessary to standardize milk is a cream separator and a Babcock milk test. Surely no dairyman who has a business of any consequence can afford to be without these ma- chines. For dairymen handling but a small amount of milk the same results may be accomplished by setting the milk for a time and skimming off the cream. In this case all that is necessary is a Babcock test which may be obtained from any milk supply house for four dollars. In this work skim milk containing practically no fat must be added or removed. If the skim milk used contains fat, proper allowance must be made according to the amount of fat contained or the results will obviously be different. Water cannot 1902.] STANDARD MILK AND CREAM. 2 95 be used to dilute the milk or the per cent, of solids not fat will be reduced. As the per cent, of casein, milk sugar, and mineral matter are practically the same in milk containing- different amounts of but- ter-fat these are not considered in the following- table. From this table it will be seen that a law compelling- a man to standardize the milk and cream he sells would result in justice to both producer and consumer. All dairymen would then receive the legitimate price for their product according- to its food value and cost of pro- duction and would not be selling- 6 per cent milk in competition with 3 per cent, milk and for the same price per quart. TABLE 5. RELATIVE VALUE PER QUART AND NUMBER OF QUARTS IN A DOLLAR'S WORTH OF MILK OR CREAM OF THE FOLLOWING COMPOSITION AS TO FAT, COMPUTED ACCORDING TO THE FOOD VALUE OF 3 PER CENT MILK AT 5 CENTS A QUART. X3 -o M n> ^/ ""i H *t o 13 ^0 JU P T3 |O w O O> C hfl 0.0, O sT* ^ '. ',n &^* S J^ O ntr ^ r* 3 ft V C r-f. u ft ju ^* n " w * S o "1 C M n " ^ . ft * &J O M o H 3 M O. I 2.8 35-7 17 15-5 6-4 I 3.5 28.6 18 I6. 3 6.1 2 4-2 23.8 19 17- L -9 3 5- 20. 20 17-7 5.6 4 5-7 17-5 21 18..; 5-4 5 6-5 15-4 22 19.2 5-2 6 7.2 13-9 23 20. 5- 7 8. 12.5 24 20.7 4.8 8 8.7 11.5 25 21.5 4.6 9 9-5 10.5 26 22.2 4-5 10 IO.2 9.8 27 23- 4-3 ii II. 9- 28 23-7 4.2 12 ii. 7 8.5 2 9 24-5 4.1 13 12.5 8. 30 25.2 4- 14 13.2 7-6 31 26. 3-8 iq 14- 7 ' J 32 26.7 3-7 16 14-7 6.8 The objection may be raised that this system would be more difficult to control and would require more inspection than a single minimum standard but upon careful consideration it will be seen to be no more complicated. Every milkman should be compelled to have brass figures soldered on the outside of his can, if delivering milk in bulk, showing the per cent, of fat contained in the milk in that can. This system would prevent the man who was selling milk low in fat from evading the law by simply putting a " skim tag " on his can when the inspector appeared. In selling bottled 296 BULLETIN NO. 74. {June, igo2 milk the per cent, of fat in the milk should either be blown into the bottle or stamped upon the pulp cap. This system would be of great advantage to the consumer as he would know the rich- ness of the milk he was purchasing- and not be paying- for 6 per cent, milk when he was receiving- only 3 per cent. It would also allow him to obtain milk of whatever richness he desired and could afford. If this system were in practice it would not compel the shipper who produces the milk to standardize it but he would sell it by test to the city dealer or milk depot where it would be standardized. The shipper ag-ain would not be pooling- his milk but would receive a price according- to its food value and the cost of production. Milk for direct consumption should not only be standard in composition, which is of economic importance, but it should be standard in cleanliness as well as this affects the health of the community. Much milk is produced under such unsanitary condi- tions that it is unfit for food. Any milk that shows a sediment on the bottom of a transparent vessel upon standing- one hour, is not fit for human food. All milk for direct consumption should be produced under rig-id inspection, requiring 1 that the udders be washed before milking- and that the cows be kept clean and the barn in a sanitary condition ; also that the cans and utensils be thoroughly washed and sterilized after each using-. Any system which insures milk of standard value and free from contamination will, of course, add somewhat to its cost but it will also add to its value for use by healthy people and it is of the utmost importance that invalids and infants have such milk. Such a system is of advantage not only to the consumer but to the better class of dairymen as well for it puts a value upon their painstaking care ; indeed they need it as a protection from un- scrupulous and careless competitors. It is of disadvantage only to the slovenly dairymen who are always a menace to the public health. A bulletin giving definite information in regard to the details of standardizing milk and cream is issued in connection with this, and one on sanitary milk will be published in the near future. f ** *^r^ IP ' if^l ' / *^JP" > ^Xm ^^. ^ "'it ^** * : 1 V UNIVERSITY OF ILLINOIS- .-, 711 fin ,