BY A. P. BRYANT, \ Of the Office of Experiment Stations. V ■ — - ' Reprint from Yearbook of Department of agriculture for 1898. 19630 1 *> I f CONTENTS. Pagf* Introduction 439 Method of making dietary studies 440 Number of dietary studies made 442 Similarity of food consumption among people living under similar condi- tions 442 Differences in food consumption among people of different occupations 443 Effect of change of location on the dietary 443 Dietary studies in farmers’ families 444 Dietary studies among Mexicans and negroes 445 Animal and vegetable foods in dietaries 446 Some effects of different combinations of food on dietary 447 Desirability of considering nutritive value in the purchase of food 448 Importance of avoiding waste of food 449 Summary of American dietary studies 450 Ways in which the results of dietary studies may be used 451 ii SOME RESULTS OF DIETARY STUDIES IN THE UNITED STATES. By A. P. Bryant, Of the Office of Experiment Stations. INTRODUCTION. The results of numerous experiments in the feeding of domestic animals made at the agricultural experiment stations and elsewhere have been widely disseminated among the farmers. They are not so familiar with the fact that similar investigations on the food and nutrition of man have been made in this country and abroad. The problems relating to the nutrition of man are in some respects more complex and difficult of solution than those relating to the feeding of animals. The general principles on which the investigations are based are, however, the same in both cases, and it has been found that advance in the methods of investigation of the food of man or in the knowledge of the principles of human nutrition has been of great advantage in the studies on the feeding of animals, and vice versa. For example, the results of studies of the chemical composi- tion of cereals can be utilized in investigations on the nutrition of both men and animals. Recently an improved form of apparatus called a respiration calorimeter has been devised in connection with studies on the nutrition of man, in which the Department of Agricul- ture is engaged. With the aid of this apparatus the knowledge of the effects of food on the nourishment of the human body and in the production of the energy necessary to the performance of different "amounts and kinds of work is being advanced. But it is believed that a similar apparatus will be equally useful in the study of the same problems as related to the feeding of different kinds of domestic ■animals, and therefore the Department has taken steps in cooperation with one of the experiment stations to have this improved respiration calorimeter adapted to use in experiments with animals. It will then be seen that studies on the nutrition of man are important not only as aiding in the improvement of the food habits of the people, but also as contributing to better methods for the feeding of farm animals. In 1886 the Massachusetts Bureau of Statistics of Labor, under the direction of its chief, Hon. C. D. Wright, began an investigation into the actual food consumption of factory operatives, mechanics, and other people with moderate incomes. The statistics from this inves- tigation were sent to Prof. W. O. Atwater, at Wesleyan University, 439 440 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. under whose direction and supervision the results were put in form for comparison with the results of similar studies elsewhere. At the same time similar work was being done by Professor Atwater in the vicinity of Middletown, Conn., with the assistance of students in the university. With the cooperation of Mr. Wright as chief of the Massachusetts Bureau of Statistics of Labor and later of the United States Department of Labor with Professor Atwater as director of the Storrs (Conn.) Agricultural Experiment Station, the enterprise became well established, so that in 1894, at the suggestion of the Sec- retary of Agriculture, Congress made an appropriation to be applied to the study of the food and nutrition of man, which has since been continued. The supervision of this work was assigned to the Office of Experiment Stations, and Professor Atwater was made the special agent in charge. In carrying out its plans the Department of Agri- culture has had the cooperation not only of Wesleyan University and the Storrs station, but also of a large number of colleges, experi- ment stations, and social settlements in various parts of the country. In this way a considerable amount of accurate data regarding the nutritive value and relative cost of the diet used by people of differ- ent occupations in this country has been obtained. METHOD OF MAKING DIETARY STUDIES. The part of these investigations which has to do more particularly with the actual food consumption of people may be described as a study of dietaries. The method employed in these experiments is, in brief, as follows: A certain family is found who is willing to allow such a study to be carried on. J ust before the beginning of the study an inventory of the amounts and kinds of food materials on hand is made. Everything edible is weighed, and, in many instances, the beverages, condiments, etc. , such as coffee, tea, spices, salt, and vinegar, are also weighed. During the study all food materials, as they are purchased, are weighed and their weight added to the amount of the same materials on hand at the beginning of the study. The cost of the food is also taken * into account. The study continues for a certain period (a week, ten days, or even a month) and at the end another inventory is taken of the weights of all food materials on hand. The weight of any material t on hand at the beginning added to that purchased during the study, less the amount in the house at the close, gives the weight of that mate- rial actually used as food during the dietary study. Not all the nutri- ents in the food purchased are necessarily consumed. There is a certain amount of table and kitchen waste which, in accurate studies, must be recorded and the amount of nutrients therein determined and deducted from those in the food purchased. A careful record is kept of the attendance of the different members of the family at each meal and of any visitors who may be present. In this way a record is obtained of the age, sex, and occupation of SOME RESULTS OF DIETARY STUDIES. 441 the different members of the family, the number of meals taken by each, and the total nutrients consumed by the family. Of course, the different members of the family will not eat the same amount of food. Not only will the individuals of the same age and sex vary, but women will, as a rule, eat less than men, and young children less than women. Using the best available data, certain factors have been deduced which represent more or less accurately the proportional amount of food different persons will, on the average, consume as compared with an adult man at ordinary manual labor. Thus, it is estimated that a man with severe manual labor will need about 1.2 times as much as the average man at ordinary labor, such as is performed by the car- penter, machinist, mill workman, etc. A moderately active woman will eat about 0. 8 as much as her husband who is at work at some active employment. A man sitting at a desk all day, a bookkeeper, for example, also requires only about 0.8 as much as the carpenter or plumber who is at moderately active manual labor. Children at different ages require from 0.3 to 0.8 as much as the average man. By use of these factors the total number of meals eaten by the dif- ferent persons is calculated to the equivalent number of meals for one man. Dividing this latter quantity by the number of meals per day, usually three, the equivalent number of days for one man is obtained. From actual analyses of samples of the different food materials used or from the average composition of these food materials the actual nutrients in the food eaten are computed, and the results divided by the equivalent number of days for one man give the nutrients per man per day. The object of such studies as those just described is to determine the kinds, amounts, and relative cost of food materials and of nutri- ents consumed by different classes of people under different condi- tions of age, sex, health, occupation, and environment. It will be noticed that a distinction is made between food materials and nutri- , ents. The term “food materials” is used to designate the different articles of food as they are purchased. The term “nutrients ” refers to the particular ingredients in the food materials which serve to v nourish the body. These ingredients are chiefly protein, fats, and carbohydrates. Protein (nitrogenous material) is required to build and repair the tissues of the body, to make blood, muscle, bone, and brain, and incidentally to furnish energy. Familiar examples of pro- tein are found in lean meat, white of egg, casein (curd) of milk, and gluten of wheat. Fats and carbolij'drates are to the body what coal is to the engine. They are consumed in the body to yield heat, to keep the body warm, and to furnish the power required for the inter- nal and external work of the body. Familiar examples of fats are fat of meat, butter, and olive oil. Familiar examples of carbohydrates are starch of flour and potatoes, sugar, and cellulose or woody fiber. 442 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. The’ most convenient way of measuring energy is in terms of heat. The amount of energy furnished by a pound of a given food material, or in the total food consumed by a family, is conveniently measured in calories, just as the weight of the protein consumed is measured in grams or pounds. A calorie is, in round numbers, the amount of heat required to raise the temperature of 1 pound of water 4° F. NUMBER OF DIETARY STUDIES MADE. The total number of dietary studies made in this country and else- where is large, numbering many hundred. Of these, over 200 have been made by the Department of Agriculture in cooperation with colleges, experiment stations, etc., as previously mentioned. Many of these studies have been conducted with the utmost care and thoroughness. They are, however, still too limited in number and variety to furnish all the information needed about the habits of the people of different occupations and incomes in different parts of the country regarding the purchase and use of food. Nevertheless the work is sufficient to warrant some general conclusions, and it will doubtless be pos- sible to formulate scientific laws of nutrition as the data accumulate from these and other investigations on the food and nutrition of man. SIMILARITY OF FOOD CONSUMPTION AMONG PEOPLE LIVING UNDER SIMILAR CONDITIONS. In the following paragraphs some of the results thus far obtained through the studies of dietaries are briefly noted. It is interesting to learn that families in about the same financial condition and per- forming equivalent amounts of work do not, on the average, differ materially in their food consumption. Of course, individual families may differ to a considerable extent from the average, and if we had the individual dietaries of the members of the family we would doubt- less find there were still greater fluctuations. For example, in nine dietary studies made among families of carpenters, machinists, etc., in Connecticut, the protein in the food actually consumed varied from 99 to 119 grams, averaging 106 grams, and the energy or fuel value * from 2,965 to 3,670 calories, averaging 3,420 calories. In three stud- ies among mechanics in Tennessee the protein varied from 95 to 110 grams, averaging 101 grams, and the energy from 2,820 to 4,090 calo-* ries, averaging 3,660 calories. The food actually consumed by a tin- smith in Indiana contained 90 grams of protein and 3,285 calories of energy, and that of a skilled mill workman in New Jersey 100 grams of protein and 3,435 calories of energy. The average of all the mechanics’ families studied, 14 in number, showed 103 grams of pro- tein and 3,465 calories of energy in the food per man per day. It is probable that if sufficient data of the food consumption of individu- als were available, it would be found that persons of the same age and sex and performing about the same amount of manual labor SOME RESULTS OF DIETARY STUDIES. 443 would, on the average, consume food containing approximately the same amount of protein and energy. A notable exception to this statement is found among the negroes of the South, as shown by the studies made at Tuskegee, Ala. The negroes consume large quan- tities of bacon and corn meal, both deficient in protein, so that their daily diet is deficient in tissue-building material while furnishing about the same amount of energy as the average workingman else- where has in his food. A similar deficiency may exist in the dietary of many white people of limited means in the South, especially in the mountain regions, where their diet is quite similar to that of the negro. DIFFERENCES IN FOOD CONSUMPTION AMONG PEOPLE OF DIFFERENT OCCUPATIONS. It has been shown that people at hard work consume considerably more food than people engaged in sedentary occupations. As illus- trations of this fact, several dietary studies may be cited. The first was of a builder’s family in New York City. The husband was a very large and strong man, who, it was said, could perform the work of about two ordinary men. His wife was also large and active. The average food consumed per man per day by this family contained 195 grams of protein and 5,955 calories of energy. In the family of a blacksmith residing in Middletown, Conn., the food consumption per man per day amounted to 100 grams of protein and 3,640 calories of energy, and that in a carpenter’s family in the same place to 101 grams of protein and 3,365 calories of energy. The family of a teacher in Lafayette, Ind. , having a comparatively small amount of muscular exercise, consumed food furnishing 106 grams of protein and 2,780 calories of energy per man per day. These examples illus- trate the difference in food consumption by people with different amounts of labor. EFFECT OF CHANGE OF LOCATION ON THE DIETARY. As a result of dietary studies carried on among families of foreign birth or parentage in Chicago, it was found that they continued to a considerable extent the dietary habits learned in their native coun- tries. All the different nationalities quite generally patronized * markets kept by their own countrymen and purchased the kind of food materials to which they had been accustomed. The Italian families cling to the use of macaroni and oils, wines, and cheese, because they were accustomed to them in Italy. They use little milk, and have little idea of the value of American vegetables. Macaroni, which forms one of their chief articles of food, is now made in this country and forms a nutritious and fairly inexpensive article of diet. The oil, wine, and cheese are largely imported, and lienee much more expensive here than in Italy. They seem to be actually in dread of American foods, instead’ of taking pains to adapt their 444 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. tastes to foods which are easily and cheaply secured. Among the families of Russian Jews it was noticed that the orthodox class held firmly to the ecclesiastical laws governing the mode of slaughter of animals for food, and that even among the unorthodox few had over- come their antipathy to pork, and this article of diet appears to be very little used among them. It was found, however, that extended residence in this country gradually produced changes in the food con- sumption, so that the families born in this country of foreign parents did not seem to differ materially in their food purchases from other native Americans in the same region. DIETARY STUDIES IN FARMERS’ FAMILIES. A dietary study was made of a farmer’s family in Vermont. It was in winter, and the family lived at such distance from available mar- kets that it was not always convenient to obtain fresh meats; conse- quently the amount of such food used was small as compared with that found in the ordinary dietary. The vegetable foods were largely those produced on the farm. Large amounts of flour, corn meal, potatoes, beans, and onions were used, together with crackers, sugar, and molasses. The total protein in the food amounted to only 69 grams and the energy to 2,960 calories per man per day. A dietary study of this same family in the summer, when all were engaged in rather active exercise and the markets were perhaps more accessible, showed not only an increased food consumption but a larger propor- tion of meats. The food consumed per man per day then furnished 89 grams of protein and 3,300 calories of energy. In general, it may be said that, as compared with corresponding studies of people with a moderate amount of work living in towns and cities, the diet fur- nished an excess of fuel ingredients (carbohydrates and fat) in pro- portion to tissue-building material (protein). The average of ten dietary studies among farmers’ families, chiefly in Connecticut, shows that the daily food furnished 97 grams of protein and 3,915 calories of energy per man ; rather less protein and more energy than have * been found in the average food consumption of the carpenter, machin- ist, and blacksmith. This same difference is found in the diet of the farmer as compared with professional men. The teacher living in a / large town or city consumes on the whole rather more meat and less flour and vegetables than his friend on the farm. This difference in food habits is largely due to difference in the opportunities for the purchase of food. People living in towns have a much wider range of choice than those in the country, especial^ as regards meats. On the other hand, owing to the abundance of vegetables, grains, and other farm products, and the difficulty of obtaining fresh meats in convenient quantities, the farmer’s diet is apt to be deficient in nitrog- enous foods as compared with the food consumption of other classes of people. Whether this is a disadvantage physiologically, is a SOME RESULTS OF DIETARY STUDIES. 445 question that can not be definitely answered at the present time. It would seem that a larger proportion of protein would be desirable. This deficiency could be readily made up by consuming more eggs, milk, and cheese. DIETARY STUDIES AMONG MEXICANS AND NEGROES. Another illustration of the fact that the most available food supply usually determines the dietary habits is afforded by dietary studies made in New Mexico and in the Black Belt of Alabama. It was found that Mexicans living on the ranges of New Mexico consumed very little meat, and that the food consisted almost entirely of flour, corn, chili pepper, and legumes raised at home. The average food consumption of four families residing in this region showed 94 grams of protein and 3,550 calories of energy, results agreeing very closely with those obtained in studies of the Eastern farmer, although the cost of the food in the case of the Mexicans was much smaller, amounting to but 7 cents per man per day. The negro in the South is accustomed to living upon a very simple and inexpensive diet, con- sisting of food materials which will keep almost indefinitely in a warm climate without deteriorating. The diet is largely made up of bacon and corn meal, and the amount of protein furnished is very small com- pared with the energy. In this case there can be no doubt that the diet is one-sided. It is interesting to note that in negro families who had come more or less under the influence of such educational institutions as those at Tuskegee, Ala., and Hampton, Va., the diet became more or less modified. To illustrate, a family which may be regarded as typical, living on a plantation in Alabama and coming in no way under edu- cational influences, had a diet consisting of fresh pork, bacon, butter- milk, corn meal, and sugar. This diet furnished 52 grams of protein and 3,235 calories of energy per man per day. Not very far away there lived another family, two of the members of which had come * under the influence of the Tuskegee Institute. The diet here con- sisted of bacon, eggs, milk, butter, wheat flour, corn meal, sugar, and molasses. The food per man per day furnished 92 grams of protein vand 3,270 calories of energy, or nearly twice as much protein and the same energy as was obtained by the preceding family. In the out- skirts of Tuskegee lived a colored carpenter who had learned his trade at the institute and was quite skillful. His diet contained beef round, mutton leg, bacon, lard, chicken, eggs, butter, milk, wheat flour, corn meal, rolled oats, sugar, molasses, evaporated apples, and strawberries, a diet as varied as is found in many families in comfortable circumstances in other regions. The food furnished 97 grams of protein and 4,060 calories of energy per man per day. These results show more energj" than is usually found in the food consumed by persons at moderate labor. The protein compares quite closely 446 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. with that found in the diet of the average mechanics’ families. The larger amount of energy is due perhaps to the fact that more muscular work was performed. ANIMAL AND VEGETABLE FOODS IN DIETARIES. Different food materials differ widely in the kinds, proportions, and amounts of nutrient ingredients they contain. It is customary to group these materials into two general classes, animal and vegetable foods. The animal foods, such as beef, veal, mutton, pork, fish, poul- try, eggs, cheese, etc., contain, as a rule, little or no carbohydrates. Exceptions to this rule are chiefly found in milk and products manu- factured from milk. With the exception of butter, lard, and all but the leaner cuts of pork, animal foods are essentially a source of pro- tein rather than energy. In such materials as veal, young chickens, and fish there is almost no fat, protein being practically the only nutritive ingredient. The presence of animal food in the diet is due not only to custom and desire for variety, but also to the fact that with most people it is one of the most important sources of protein or tissue-forming material. At the same time animal foods are more expensive than a large number of the vegetable food materials. Among vegetable foods we usually distinguish between cereals and their manufactured products, sugars, starches and the like, vegeta- bles, and fruits. Of these subclasses the cereals are most important. The cereal foods (corn, wheat, barley, buckwheat, etc. ) and their manufactured products (flours, bread, crackers, etc.) not only fur- nish a very large proportion of the actual nutrients in the ordinary diet, but furnish these nutrients most economically. Ten cents expended for wheat flour or corn meal will purchase a much larger amount of nutriment than if expended for any other food material, unless it be dried beans and peas. With the exception of a few of the more common vegetables, such as potatoes, turnips, beets, and onions, the green vegetables and fruits, such as cabbage, lettuce, squash, string beans, tomatoes, apples, oranges, bananas, strawberries, etc., contain a comparatively small proportion of actual nutrients. Their value in many cases lies . not so much in the actual amount of nutrients they contain as in the variety and palatableness they give the diet, and in the organic** acids and the mineral matters they contain. When used in con- siderable amounts they largely increase the cost of the food while adding comparatively little to the actual nutritive value of the diet. As an illustration of this latter statement, the case of a skilled mill workman in New Jersey may be cited. The number of meals taken by the different members of this family during the study was equiv- alent to one man one hundred and twenty-seven days, or practically ' four months. During this time $2.16 was expended for oranges and $3 for celery, making a total of $5.16 for these two articles, which SOME RESULTS OF DIETARY STUDIES. 447 between them furnished 150 grams of protein and 6,445 calories of energy. During the same time $5.16 was also expended for cereal foods and sugars, and 3,375 grams of protein and 184,185 calories of energy were obtained, or about twenty-five times the amount fur- nished by the oranges and celery. The amount expended for vege- tables and fruits aside from the oranges and celery amounted to $5.75 and furnished 1,909 grams of protein and 58,000 calories of energy, or, in round numbers, ten times as much as was obtained in the oranges and celery. SOME EFFECTS OF DIFFERENT COMBINATIONS OF FOOD ON DIETARY. Results of dietary studies show T a great difference in the kinds of cereal foods, meats, vegetables, and fruits purchased by different families, so that one family may obtain more nutrients for the same money or the same amount of nutrients for less money as compared with some neighbor. Dietary studies were carried on in the families of a teacher and of a tinner living in Lafayette, Ind. , during the spring of 1895. An examination of- the details of the two studies shows that the teacher obtained per man per day 75 grams of protein and 1,425 calories of energy at a cost of 12 cents; the tinner, 62 grams of protein and 1,640 calories of energy at a cost of 13 cents. In other words, the actual nutritive value of the diet was not notably different in either case. The proportion of beef, veal, eggs, etc., in the two diets was, however, quite different. The teacher’s family used large amounts of beef, round and shoulder, and some loin steak, which was purchased at a low price. The tinner’s family used rather less beef, but the cuts that were used were, on the whole, more expensive. The {eacher’s family used more veal, which was relatively costly; less eggs, more than twice as much milk, and less butter than the tinner’s family. On the whole, the former got a little more protein and a little less energy than the latter in the animal foods purchased. However, the great difference in the two dietaries lies in the kinds f of cereal foods purchased. The teacher’s family had homemade bread find cakes, while the tinner’s family bought bakers’ bread and occa- sionally cakes. The former obtained his bread at about half the cost (M> the latter, even when a reasonable allowance is made for the cost >of all the ingredients in the bread and the heat required to bake it. The teacher’s family used more cereals and less vegetables and fruits than the tinner’s family. In these ways the former family obtained in their vegetable foods 36 grams of protein and 1,485 calories of energy for 6 cents per man per day, while the latter spent more than twice the amount (13 cents) per man per day and obtained 44 grams of protein and 2,200 calories of energy. In other words, the teacher obtained for 18 cents as much protein and nearly as much energy as did the tinner for 26 cents. 448 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. DESIRABILITY OF CONSIDERING NUTRITIVE VALUE IN THE PURCHASE OF FOOD. The circumstances of some families are such that they can afford the higher-priced meats and the costlier vegetables and fruits, while other families have to calculate closely in order to make both ends meet. The man with an income of $5,000 a year can pay 25 or 30 cents a pound for his steak and buy large amounts of celery, oranges, etc., but the man with an income of $500 a year can ill afford such expenditures. In such cases it is frequently of the greatest impor- tance that the purchases of food shall be guided rather by the amount of nutrients they will furnish than by their palatability or bulk. It has been found that the inexpensive foods are often as nutritious as the costly; in fact, cost is not regulated by nutritive value. Skill in preparing food will render many inexpensive articles very appetizing while the most expensive articles are often ruined by poor cooking. Examples of the effects of the lack of knowledge of the value of different food materials for nutriment w r ere shown in some results obtained in the study of dietaries among families in New York City. In one instance a family depending more or less of the time upon charity consumed food furnishing 40 per cent more protein and 16 per cent more energy than is found in the average diet of the mechanic with an income of $2 to $3 a day. In another case the total income of the f amity, consisting of the father, mother, and five daughters, the oldest 21 years of age, was about $24 a week, but through carelessness and ignorance they were insufficiently nourished. At the time of the study they were obtaining 85 grams of protein and 2,235 calories of energy per man per day. The diet was afterwards changed for the better, and a few months later the family had greatly improved in health. Nine cents a day is a very small allowance for a man at moderate w T ork, and yet several instances have been observed in connection with the dietary studies made in this country in which the food per man per day has been purchased for this sum or less. A family living^ in New York City may be cited. The daily food of this family fur v nished but 54 grams of protein and 1,500 calories of energy, less than half the protein and energy found on an average in the diet of a maif* in more comfortable circumstances. Even with this small suni the family might have fared much better had the mother know r n more about the nutritive value of the different foods. For instance, they might have used more wheat flour and less cake. As a matter of fact, a mill workman’s family in Pittsburg, for the same sum, obtained 77 grams of protein and 2,440 calories of energy per man per day. In other words, they obtained 50 per cent more nutrients for the same money and the diet seemed equally palatable. Similar cuts of meat w r ere bought more cheaply and other cuts w r ere selected which cost but half the price per pound that was paid by the New York family. SOME RESULTS OF DIETARY STUDIES. 449 All vegetable foods were purchased by the Pittsburg family at a smaller price per pound. Stale bread was also purchased for 2.5 cent s per pound that actually furnished more nutriment, pound per pound, than the fresh bread purchased by the New York family at 4 cents. The results of a considerable number of dietary studies made among families with very limited incomes in different parts of the country indicate that through ignorance of the real nutritive and pecuniary value of different food materials either more is spent for food than can well be afforded or the family is insufficiently nourished on the sum expended. Often a considerable sum is wasted by purchasing food in very small quantities. Many people have the impression that milk is an expensive food. In some instances this is undoubtedly true. At other times its intro- duction into the diet in larger amounts than customary may actually serve to lessen the cost of food. In a series of dietary studies made' at the Maine State College the experiment was tried of allowing a free consumption of milk, of substituting milk for other foods, and finally of reducing the amount allowed each man. It was found that the cost of the diet was slightly greater when the milk supply was limited, and that the unlimited use of milk actually made the cost of the diet a trifle less. The amount of other foods was reduced as the amount of milk was more liberal. It should be said that these changes were not marked enough to render the diet unpalatable in any case. IMPORTANCE OF AVOIDING WASTE OF FOOD. In all that has been said thus far the term food consumption has been used. The food actually consumed is usually less than the food purchased, owing to waste in the kitchen and on the table. By the term waste is not meant the inedible portions of the food materials, such as bone, tendon, vegetable parings, etc., unless these are very large in proportion, but those portions of the food, which though edible, are thrown away. The actual amount of such waste varies greatly in different families. In some cases investigated it has amounted to practically nothing, and in other cases it has been nearly pne-fifth of the total food purchased. Generally speaking, the amount *>f waste has been found to be greatest in those families who can best afford it. This is not always the case, however, and occasionally an unusually large proportion of waste has been observed in the diet of those who can least afford it. This is illustrated in the diet of the family in New York City previously referred to. As stated, they had only about one-half the amount of nutrients found in the average diet of the man at moderate work, and yet nearly 6 per cent of the total food purchased was wasted. The average waste found in fourteen mechanics’ families in such circumstances that they were not neces- sarily restricted in their choice and use of food, amounted to 6 per cent of the total nutrients purchased; that in professional men’s 450 YEARBOOK OF THE DEPARTMENT OF AGRICULTURE. families to a little over 3 per cent. It is of interest to note that, while the professional man was paying 28 cents per day for his food and the mechanic 19 cents, the former only wasted half as much as the latter. SUMMARY OF AMERICAN DIETARY STUDIES. In the following table the results of the more important dietary studies which have been referred to in the preceding pages are sum- marized : Comparison of the average food consumption of people of different occupations or in different conditions of life. [Per man per day.] Cost. Pro- tein. Fat. Carbo- drates. Fuel value. Cents. Grams. Grams. Grams. Calories. I 1 .. 101 136 483 3,655 97 130 467 3,515 L... 110 161 425 3,690 2 19 103 150 402 3,465 L_._ 108 132 429 3,435 3 28 % 104 125 423 3,325 L_ 130 187 519 4,390 107 148 459 3,690 [ . 113 156 463 3,810 103 138 436 3,500 [ 103 119 356 2,950 19 101 116 344 2,905 4 96 98 414 3,005 15 93 95 407 2,915 81 98 311 2,525 11 80 95 308 2,485 121 148 534 4,055 19 120 147 534 4,0454 5 9 67 134 453 3 , 375 ' 5 _ 16 103 111 391 3,060 [ 5 22 118 158 345 3,365 , 5 .. 19 120 101 406 3,095 5 -- 12 115 101 360 2, 885 Families studied. Average of ten farmers’ families'! in Vermont, Connecticut, andL, . y -T-T , FOOd New York J Average of fourteen mechanics’ ^ families in Connecticut, New Jer- f Foo( j sey, Tennessee, and Indiana ) Average of fourteen professional] men’s families in Connecticut, (Food Pennsylvania, Indiana, and Illi- (Food nois j Average of fifteen college clubs i n ]p 00( j Maine, Connecticut, Tennessee, ?_ .... . Food and Missouri Food Average of above fifty-three studies^^^ Average of twelve laborers’ families^ Food in New York City JFood Average of eleven poor families in. Food New York City JFood Average of two laborers’ families,! Food very poor, in Pittsburg, Pa J Food Average of two laborers’ families,!^ ^ more comfortable circumstances, L, , m Pittsburg, Pa J Average of twelve negro families in, Alabama j Food Average of four Italian families in. Chicago, 111 } Food Average of five French Canadian. families in Chicago, 111 |Food Average of four families of Russian. Jews in Chicago, 111 |Food Average of eight Bohemian families, in Chicago, 111 } Food purchased eaten eaten eaten purchased . eaten purchased eaten purchased eaten. eaten, purchased eaten. purchased . eaten. purchased ! purchased 1 2 3 * 5 .. 1 Including all food raised on the farm. 2 Average in nine studies. 3 Average in five studies. * Including some of the families in preceding average. 5 Waste not represented. SOME RESULTS OF DIETARY STUDIES. 451 WAYS IN WHICH THE RESULTS OF DIETARY STUDIES MAY BE USED. Some of the more important and more noticeable results of dietary a studies have been noted in the preceding paragraphs. How can these results, be applied to the benefit of the individual, the class, or the human race ? There are many ways in which this can be done. Per- w haps one of the most important of these is in instruction concerning the nutritive value of the different food materials and their pecuniary economy. People should be taught how to improve their diet by the economical purchase of those materials best adapted to their physical needs. It will be found that by exercising care in the purchase and preparation of food a palatable and relatively inexpensive diet may often be obtained. Much is already being done along this line in many of the large cities, where the cost of many food materials must always be relatively large. When the true character of the different kinds of food materials is more thoroughly understood diet will almost of necessity become more rational. With the advance of knowledge as to the physical requirements of the body it will become possible to establish stand- ards which shall indicate the approximate amount of the different nutrients required. By this it is not to be understood that any defi- nite rules for the consumption of food can be laid down, but simply that it will be possible to furnish a reliable guide for the purchase and use of foods. The proper nourishment of the inmates of institutions where large numbers must be fed, such as schools, reformatories, prisons, and hospitals, is a subject that is attracting no little attention at the pres- ent time. In several instances studies have been made of the actual food consumption in such institutions, and at the present time an extended study of the food requirements of the insane is being car- ried on by one of the States. In many instances dietary studies have been made in schools, college clubs, etc., and the information obtained has been of much use. That such studies have been found to have a practical value and that the interest in them is widespread is shown ly the fact that a considerable number have been undertaken by instructors and others interested, aside from those carried on by the department of Agriculture. When it so happens that large bodies of men are to be fed, as in the case of armies, or where the transportation of large amounts of food is difficult, the results obtained from dietary studies and similar investigations are of the utmost advantage in the selection of the food ration. It also becomes possible to select condensed rations which for emergencies shall furnish within the smallest space suffi- cient food for sustenance. These are some of the more important uses that can be made of the results of dietary studies and similar investigations. They are suffi- cient to show the advantage to be obtained from extended research 452 YEARBOOK OF THE DEPART in this direction. At present only a beginning has been made, but every year adds to the data obtained. In general, the object of dietary studies is not to limit the amount or variety of food to be used by the people, but rather to discover ways and means in which their dietaries may be improved and the available food supply be most economically used to maintain the body in good health and to make it an efficient instrument for the different forms of labor required by our complex civilization. It is not the purpose of food chemists to prescribe weighed amounts of different foods as a physician prescribes medicines, but rather to show the actual nutritive value of different food materials and their relative economy as sources of nutrients, leaving the application of the knowledge to individuals. Although dietary standards are sug- gested, it is not necessary that the food each day should contain exactly the kind and amounts of the different nutrients required by the standards. A slight deficiency one day will be made good by an excess the next, the body serving as a storehouse for reserve mate- rial. Experience has, however, shown that the body is best nourished when through long periods the food approximates the requirements of the so-called standards. Individual requirements and individual peculiarities will always affect the choice of foods. In the purchase of other things their value for the purpose for which they are intended is considered as well as their cost. Without doubt the same principle may be advantageously applied to the purchase of food. By the exercise of a wise economy, based on a knowledge of the real nutri- tive value of foods, a more satisfactory diet can be obtained for a less sum than is at present expended in many cases, or the cost of the diet may be diminished without lessening its nutritive value.