Milch Cows and Dairy Farming / Comprising the Breeds, Breeding, and Management, in Health and Disease, of Dairy and Other Stock, the Selection of Milch Cows, with a Full Explanation of Guenon's Method; The Culture of Forage Plants, and the Production of Milk, Butter, and Cheese: Embodying the Most Recent Improvements, and Adapted to Farming in the United States and British Provinces. With a Treatise upon the Dairy Husbandry of Holland; To Which Is Added Horsfall's System of Dairy Management

APPENDIX .

The following is Mr. Thomas Horsfall’s statement, referred to on page 138, with the omission of a few passages, relating to matters not immediately connected with the dairy. It is entitled

THE MANAGEMENT OF DAIRY CATTLE.

On entering upon a description of my treatment of cows for dairy purposes, it seems pertinent that I should give some explanation of the motives and considerations which influence my conduct in this branch of my farm operations.

I have found it stated, on authority deserving attention, that store cattle of a fair size, and without other occupation, maintain their weight and condition for a length of time, when supplied daily with one hundred and twenty pounds of Swedish turnips and a small portion of straw. The experience of the district of Craven, in Yorkshire, where meadow hay is the staple food during winter, shows that such cattle maintain their condition on one and a half stone, or twenty-one pounds, of meadow hay each per day. These respective quantities of turnips and of hay correspond very closely in their nutritive properties; they contain a very similar amount of albuminous matter, starch, sugar, etc., and also of phosphoric acid. Of oil—an important element, especially for the purpose of which I am treating—the stated supply of meadow hay contains more than that of turnips. If we supply cows in milk, of average size, with the kind and quantity of food above mentioned, they will lose perceptibly in condition. This is easily explained when we find their milk rich in substances which serve for their support when in store condition, and which are shown to be diverted in the secretion of milk.

In the neighborhood of towns where the dairy produce is disposed of in new milk, and where the aim of dairymen is to produce the greatest quantity, too frequently with but little regard to quality, it is their common practice to purchase incalving cows. They pay great attention to the condition of the cow; they will tell you, by the high comparative price they pay for animals well stored with flesh and fat, that condition is as valuable for them as it is for the butcher; they look upon these stores as materials which serve their purpose; they supply food more adapted to induce quantity than quality, and pay but little regard to the maintenance of the condition of the animal. With such treatment, the cow loses in condition during the process of milking, and when no longer profitable is sold to purchasers in farming districts where food is cheaper, to be fattened or otherwise replenished for the use of the dairy keeper. We thus find a disposition in the cow to apply the aliment of her food to her milk, rather than to lay on flesh or fat; for not only are the elements of her food diverted to this purpose, but, to all appearance, her accumulated stores of flesh and fat are drawn upon, and converted into components of milk, cheese, or butter.

As I am differently circumstanced,—a considerable portion of my dairy produce being intended for butter, for which poor milk is not adapted,—and as I fatten not only my own cows, but purchase others to fatten in addition, I have endeavored to devise food for my milch cows adapted to their maintenance and improvement, and with this view I have paid attention to the composition of milk. From several analyses I have selected one by Haidler, which I find in publications of repute. Taking a full yield of milk, four gallons per day, which will weigh upwards of forty pounds, this analysis assigns to it of dry material 5.20, of which the proportion, with sufficient accuracy for my purpose, consists of

Pure caseine,	2.00	pounds.
Butter,	1.25	“
Sugar,	1.75	“
Phosphate of lime,	.09	“
Chloride of potassium,
Other mineral ingredients,	.11	“
	5.20	“

It appeared an object of importance, and one which called for my particular attention, to afford an ample supply of the elements of food suited to the maintenance and likewise to the produce of the animal; and that, if I omitted to effect this, the result would be imperfect and unsatisfactory. By the use of ordinary farm produce only, I could not hope to accomplish my purpose. Turnips are objectionable on account of their flavor; and I seek to avoid them as food for dairy purposes. I use cabbages, kohl rabi, and mangold wurzel, yet only in moderate quantities. Of meadow hay it would require, beyond the amount necessary for the maintenance of the cow, an addition of fully twenty pounds for the supply of caseine in a full yield of milk (sixteen quarts); forty pounds for the supply of oil for the butter, whilst nine pounds seem adequate for that of the phosphoric acid. You cannot, then, induce a cow to consume the quantity of hay requisite for her maintenance, and for a full yield of milk of the quality instanced. Though it is a subject of controversy whether butter is wholly derived from vegetable oil, yet the peculiar adaptation of this oil to the purpose will, I think, be admitted. I had, therefore, to seek assistance from what are usually termed artificial feeding substances, and to select such as are rich in albumen, oil, and phosphoric acid; and I was bound also to pay regard to their comparative cost, with a view to profit, which, when farming is followed as a business, is a necessary, and in any circumstances an agreeable accompaniment.

I think it will be found that substances peculiarly rich in nitrogenous or other elements have a higher value for special than for general purposes, and that the employment of materials characterized by peculiar properties for the attainment of special objects has not yet gained the attention to which it is entitled.

I have omitted all reference to the beat-supplying elements—starch, sugar, etc. As the materials commonly used as food for cattle contain sufficient of these to effect this object, under exposure to some degree of cold, I have a right to calculate on a less consumption of them as fuel, and consequently a greater surplus for deposit as sugar, and probably also as fat, in consequence of my stalls being kept during winter at a temperature of nearly sixty degrees.

The means used to carry out his objects are stated on page 138.

As several of these materials—rape-cake, shorts, bean-straw, etc.—are not commonly used as food, I may be allowed some observations on their properties. Bean-straw uncooked is dry and unpalatable. By the process of steaming, it becomes soft and pulpy, emits an agreeable odor, and imparts flavor and relish to the mess. For my information and guidance I obtained an analysis of bean-straw of my own growth, on strong and high-conditioned land; it was cut on the short side of ripeness, but yielding a plump bean. The analysis by Professor Way shows a percentage of

Moisture,	14.47
Albuminous mater,	16.38
Oil or fatty matter,	2.23
Woody fibre,	25.84
Starch, gum, etc.,	31.63
Mineral matters,	9.45
Total	100.00

In albuminous matter, which is especially valuable for milch cows, it has nearly double the proportion contained in meadow hay. Bran also undergoes a great improvement in its flavor by steaming, and it is probably improved in its convertibility as food. It contains about fourteen per cent. of albumen, and is peculiarly rich in phosphoric acid, nearly three per cent. of its whole substance being of this material. The properties of rape-cake are well known: the published analyses give it a large proportion (nearly thirty per cent.) of albumen; it is rich in phosphates, and also in oil. This is of the unctuous class of vegetable oils, and it is to this property that I call particular attention. Chemistry will assign to this material, which has hitherto been comparatively neglected for feeding, a first place for the purpose of which I am treating. If objection should occur on account of its flavor, I have no difficulty in stating that by the preparation I have described I have quite overcome this. I can easily persuade my cattle (of which sixty to eighty pass through my stalls in a year), without exception, to eat the requisite quantity. Nor is the flavor of the cake in the least perceptible in the milk or butter.

During May, my cows are turned out on a rich pasture near the homestead; towards evening they are again housed for the night, when they are supplied with a mess of the steamed mixture and a little hay each morning and evening. During June, when the grasses are better grown, mown grass is given to them instead of hay, and they are also allowed two feeds of steamed mixture. This treatment is continued till October, when they are again wholly housed.

The results which I now proceed to relate are derived from observations made with the view of enabling me to understand and regulate my own proceedings.

Gain or Loss of Condition ascertained by weighing Cattle Periodically.

—For some years back I have regularly weighed my feeding stock, a practice from which I am enabled to ascertain their doings with greater accuracy than I could previously. In January, 1854, I commenced weighing my milch cows. It has been shown, by what I have premised, that no accurate estimate can be formed of the effect of the food on the production of milk, without ascertaining its effect on the condition of the cows. I have continued the practice once a month, almost without omission, up to this date. The weighings take place early in the morning, and before the cows are supplied with food. The weights are registered, and the length of time (fifteen months) during which I have observed this practice enables me to speak with confidence of the results.

The cows in full milk, yielding twelve to sixteen quarts each per day, vary but little; some losing, others gaining, slightly; the balance in the month’s weighing of this class being rather to gain. It is common for a cow to continue a yield from six to eight months before she gives below twelve quarts per day, at which time she has usually, if not invariably, gained weight.

The cows giving less than twelve quarts and down to five quarts per day are found, when free from ailment, to gain, without exception. This gain, with an average yield of nearly eight quarts per day, is at the rate of seven pounds to eight pounds per week each.

My cows in calf I weigh only in the incipient stages; but they gain perceptibly in condition, and consequently in value. They are milked till within four weeks to five weeks previous to calving. I give the weights of three of these, and also of one heifer, which calved in March, 1855:

No.		1854.				1855.				Gain.
			cwt.	qr.	lbs.		cwt.	qr.	lbs.	lbs.
1	Bought and weighed,	July.	10	1	20	April.	11	3	0	148
2	Bought and weighed,	“	8	2	10	“	10	2	0	214
3	Bought and weighed,	“	8	2	0	“	10	0	0	184
4	Heifer, which calved also in March, 1855, weighed	“	7	0	0	“	9	3	0	300

These observations extend over lengthened periods, on the same animals, of from thirty to upwards of fifty weeks. A cow, free from calf, and intended for fattening, continues to give milk from ten months to a year after calving, and is then in a forward state of fatness requiring but a few weeks to finish her for sale to the butchers.

It will thus appear that my endeavors to provide food adapted to the maintenance and improvement of my milch cows have been attended with success.

On examining the composition of the ordinary food which I have described, straw, roots, and hay, it appears to contain the nutritive properties which are found adequate to the maintenance of the animal, whereas the yield of milk has to be provided for by a supply of extra food; the rape-cake, bran, and bean-meal, which I give, will supply the albumen for the caseine; it is somewhat deficient in oil for the butter, whilst it will supply in excess the phosphate of lime for a full yield of milk. If I take the class of cows giving less than twelve quarts per day, and take also into account a gain of flesh of seven to nine pounds per week, though I reduce the quantity of extra food by giving less of the bean-meal, yet the supply will be more in proportion than with a full yield; the surplus of nitrogen and phosphoric acid, or phosphate of lime, will go to enrich the manure.

I cannot here omit to remark on the satisfaction I derive from the effects of this treatment on the fertility of the land in my occupation. My rich pastures are not tending to impoverishment, but to increased fertility; their improvement in condition is apparent. A cow in full milk, giving sixteen quarts per day, of the quality analyzed by Haidlen, requires, beyond the food necessary for her maintenance, six to eight pounds per day of substances containing thirty or twenty-five per cent. of protein. A cow giving on the average eight quarts per day, with which she gains seven to nine pounds per week, requires four to five pounds per day of substances rich in protein, beyond the food which is necessary for her maintenance. Experience of fattening gives two pounds per day, or fourteen pounds per week, as what can be attained on an average, and for a length of time. If we considered half a pound per day as fat, which is not more than probable, there will be one and a half pounds for flesh, which, reckoned as dry material, will be about one third of a pound, which is assimilated in increase of fibrin, and represents only one and one third to two pounds of substances rich in protein, beyond what is required for her maintenance.

If we examine the effects on the fertility of the land, my milch cows, when on rich pasture, and averaging a yield of nine quarts per day, and reckoning one cow to each acre, will carry off in twenty weeks twenty-five pounds of nitrogen, equal to thirty of ammonia. The same quantity of milk will carry off seven pounds of phosphate of lime in twenty weeks from each acre.

A fattening animal, gaining flesh at the rate I have described, will carry off about one third of the nitrogen (equal to about ten pounds of ammonia) abstracted by the milch cow, whilst if full grown it will restore the whole of the phosphate.

It is worthy of remark that experience shows that rich pastures, used for fattening, fully maintain their fertility through a long series of years, whilst those used for dairy cows require periodical dressings to preserve their fertility.

If these computations be at all accurate, they tend to show that too little attention has been given to the supply of substances rich in nitrogenous compounds in the food of our milch cows, whilst we have laid too much stress on this property in food for fattening cattle. They tend also to the inference that in the effects on the fertility of our pastures used for dairy purposes we derive advantage not only from the phosphate of lime, but also from the gelatine of bones used as manure.

On comparing the results from my milch cows fed in summer on rich pasture, and treated at the same time with the extra food I have described, with the results when on winter food, and whilst wholly housed, taking into account both the yield of milk and the gain of weight, I find those from stall-feeding full equal to those from depasture. The cows which I buy as strippers, for fattening, giving little milk, from neighboring farmers who use ordinary food, such as turnips with straw or hay, when they come under my treatment increase their yield of milk, until after a week or two they give two quarts per day more than when they came, and that too of a much richer quality.

Richness of Milk and Cream.

—I sometimes observe, in the weekly publications which come under my notice, accounts of cows giving large quantities of butter. These are usually, however, extraordinary instances, and not accompanied with other statistical information requisite to their being taken as a guide; and it seldom happens that any allusion is made to the effects of the food on the condition of the animals, without which no accurate estimate can be arrived at. On looking over several treatises to which I have access, I find the following statistics on dairy produce: Mr. Morton, in his “CyclopÆdia of Agriculture,” p. 621, gives the results of the practice of a Mr. Young, an extensive dairy-keeper in Scotland. The yield of milk per cow is stated at six hundred and eighty gallons per year; he obtains from sixteen quarts of milk twenty ounces of butter, or for the year two hundred and twenty-seven pounds per cow; from one gallon of cream three pounds of butter, or twelve ounces per quart (wine measure). Mr. Young is described as a high feeder; linseed is his chief auxiliary food for milch cows. Professor Johnston (“Elements of Agricultural Chemistry”) gives the proportion of butter from milk at one and a half ounces per quart, or from sixteen quarts twenty-four ounces, being the produce of four cows of different breeds,—Alderney, Devon, and Ayrshire,—on pasture, and in the height of the summer season. On other four cows of the Ayrshire breed he gives the proportion of butter from sixteen quarts as sixteen ounces, being one ounce per quart. These cows were likewise on pasture. The same author states the yield of butter as one fourth of the weight of cream, or about ten ounces per quart. Mr. Rowlandson (“Journal of the Royal Agricultural Society,” vol. xiii., p. 38) gives the produce of 20,110 quarts of milk churned by hand as 1109 pounds of butter, being at the rate of fully 14 ounces per 16 quarts of milk; and from 23,156 quarts of milk 1525 pounds of butter, being from 16 quarts nearly 16³/₄ ounces of butter. The same author states that the yield of butter derived from five churnings, of 15 quarts of cream each, is somewhat less than 8 ounces per quart of cream. Dr. Muspratt, in his work on the “Chemistry of Arts and Manufactures,” which is in the course of publication, gives the yield of butter from a cow per year in Holstein and Lunenburg at 100 pounds, in England at 160 pounds to 180 pounds. The average of butter from a cow in England is stated to be eight or nine ounces per day, which, on a yield of eight to nine quarts, is one ounce per quart, or for sixteen quarts sixteen ounces. The quantity of butter derived from cream is stated as one fourth, which is equal to about nine ounces per quart. The richest cream of which I find any record is that brought to the Royal Society’s meeting during the month of July, for the churns which compete for the prize. On referring to the proceedings of several meetings, I find that fourteen ounces per quart of cream is accounted a good yield.

I have frequently tested the yield of butter from a given quantity of my milk. My dairy produce is partly disposed of in new milk, partly in butter and old milk, so that it became a matter of business to ascertain by which mode it gave the best return. I may here remark that my dairy practice has been throughout on high feeding, though it has undergone several modifications. The mode of ascertaining the average yield of butter from milk has been to measure the milk on the churning-day, after the cream has been skimmed off, then to measure the cream, and having, by adding together the two measurements, ascertained the whole quantity of milk (including the cream), to compare it with that of the butter obtained. This I consider a more accurate method than measuring the new milk, as there is a considerable escape of gas, and consequent subsidence, whilst it is cooling. The results have varied from twenty-four to twenty-seven and a quarter ounces from sixteen quarts of milk. I therefore assume in my calculation sixteen quarts of milk as yielding a roll (twenty-five ounces) of butter.

As I have at times a considerable number of cows bought as strippers, and fattened as they are milked, which remain sometimes in my stalls eight or nine months, and yield towards the close but five quarts per day, I am not enabled to state with accuracy and from ascertained data the average yield per year of my cows kept for dairy purposes solely. However, from what occurs at grass-time, when the yield is not increased, and also from the effects of my treatment on cows which I buy, giving a small quantity, I am fully persuaded that my treatment induces a good yield of milk.

As the yield of butter from a given quantity of cream is not of such particular consequence, I have not given equal attention to ascertain their relative proportions. I have a recollection of having tested this on a former occasion, when I found fourteen to sixteen ounces per quart, but cannot call to mind under what treatment this took place.

On questioning my dairy-woman, in December, 1854, as to the proportion of cream and butter, she reported nearly one roll of twenty-five ounces of butter to one quart of cream. I looked upon this as a mistake. On its accuracy being persisted in, the next churning was carefully observed, with a like proportion. My dairy cows averaged then a low range of milk as to quantity—about eight quarts each per day. Six of them, in a forward state of fatness, were intended to be dried for finishing off in January; but, owing to the scarcity and consequent dearness of calving cows, I kept them on in milk till I could purchase cows to replace them, and it was not till February that I had an opportunity of doing so. I then bought four cows within a few days of calving; they were but in inferior condition, and yielded largely of milk. Towards the close of February and March, four of my own dairy cows, in full condition, likewise calved. During March, three of the six which had continued from December, and were milked nearly up to the day of sale, were selected by the butcher as fit for his purpose. Each churning throughout was carefully observed, with a similar result, varying but little from twenty-five ounces of butter per quart of cream; on Monday, April 30, sixteen quarts of cream having yielded sixteen rolls (of twenty-five ounces each) of butter. Though I use artificial means of raising the temperature of my dairy, by the application of hot water during cold weather, yet, my service-pipes being frozen in February, I was unable to keep up the temperature, and it fell to forty-five degrees. Still my cream, though slightly affected, was peculiarly rich, yielding twenty-two ounces of butter per quart. Throughout April the produce of milk from my fifteen dairy cows averaged full one hundred and sixty quarts per day.

My cows are bought in the neighboring markets with a view to their usefulness and profitableness. The breeds of this district have a considerable admixture of the short-horn, which is not noted for the richness of its milk. It will be remarked that during the time these observations have been continued on the proportion of butter from cream, more than half of my cows have been changed.

Having satisfied myself that the peculiar richness of my cream was due mainly to the treatment of my cows which I have sought to describe, it occurred to me that I ought not to keep it to myself, inasmuch as these results of my dairy practice not only afforded matter of interest to the farmer, but were fit subjects for the investigation of the physiologist and the chemist. Though my pretensions to acquirements in their instructions are but slender, they are such as enable me to acknowledge benefit in seeking to regulate my proceedings by their rules.

In taking off the cream I use an ordinary shallow skimmer of tin perforated with holes, through which any milk gathered in skimming escapes. It requires care to clear the cream; and even with this some streakiness is observable on the surface of the skimmed milk. The milk-bowls are of glazed brown earthen ware, common in this district. They stand on a base of six to eight inches, and expand at the surface to nearly twice that width. Four to five quarts are contained in each bowl, the depth being four to five inches at the centre. The churn I use is a small wooden one, worked by hand, on what I believe to be the American principle. I have forwarded to Professor Way a small sample of butter for analysis; fifteen quarts of cream were taken out of the cream-jar, and churned at three times in equal portions:

The first five	quarts	of	cream	gave	127		ounces	of	butter.
Second five	“	“	“	“	125		“	“	“
Third five	“	“	“	“	120	¹/₂	“	“	“
					372	¹/₂
Equal to 24³/₄ ounces per quart.

At a subsequent churning of fourteen quarts of cream,

The first seven gave 7 rolls, or	175	ounces	of	butter.
Second seven gave 7 rolls 2 oz., or	177	“	“	“
	352
Equal to 25¹/₇ ounces per quart.

On testing the comparative yield of butter and of butter-milk, I find seventy per cent. of butter to thirty per cent. of butter-milk, thus reversing the proportions given in the publications to which I have referred. An analysis of my butter by Professor Way gives:

Pure fat or oil,	82.70
Caseine or curd,	2.45
Water, with a little salt,	14.85
Total,	100.00

The only analyses of this material which I find in the publications in my hand are two by Professor Way, “Journal,” vol. xi., p. 735, “On butter by the common and by the Devonshire method;” the result in one hundred parts being:

	Raw.	Scalded.
Pure butter,	79.72	79.12
Caseine, &c.,	3.38	3.37
Water,	16.90	17.51
Total,	100.00	100.00

The foregoing observation of dairy results was continued up to grass time in 1855. In April and May the use of artificial means was discontinued, without diminution in the yield of butter or richness of cream, the natural temperature being sufficient to maintain that of my dairy at 54° to 56°.

I now proceed to describe the appearances since that time. In the summer season, whilst my cows were grazing in the open pastures during the day and housed during the night, being supplied with a limited quantity of the steamed food each morning and evening, a marked change occurred in the quality of the milk and cream; the quantity of the latter somewhat increased, but, instead of twenty-five ounces of butter per quart of cream, my summer cream yielded only sixteen ounces per quart.

I would not be understood to attribute this variation in quality to the change of food only. It is commonly observed by dairy-keepers that milk, during the warm months of summer, is less rich in butter, owing probably to the greater restlessness of the cows, from being teased by flies, etc. I am by no means sure that, if turning out during the warm months be at all advisable, it would not be preferable that this should take place during the night instead of during the day time. Towards the close of September, when the temperature had become much cooler, and the cows were supplied with a much larger quantity of the steamed food, results appeared very similar to those which I had observed and described from December to May, 1855. During the month of November the quality was tested with the following result:

From two hundred and fifty-two quarts of old milk were taken twenty-one quarts of cream, of which twenty were churned, and produced four hundred and sixty-eight ounces of butter, which shows:

27.50	ounces	of	butter	from	16 quarts of new milk.
23.40	“	“	“	“	each quart of cream.

During May, 1856, my cows being on open pasture during the day were supplied with two full feeds of the steamed mixture, together with a supply of green rape-plant each morning and evening.

The result was that from three hundred and twenty-four quarts of old milk twenty-three quarts of cream were skimmed, of which twenty-two were churned, and produced five hundred and fifteen ounces of butter, which shows:

24	ounces	of	butter	from	16 quarts of new milk.
22.41	“	“	“	“	each quart of cream.

There is, doubtless, some standard of food adapted to the constitution and purposes of animals, combining with bulk a due proportion of elements of respiration, such as sugar, starch, &c., together with those of nutrition, namely, nitrogenous compounds, phosphates, and other minerals; nor can we omit oil or fat-forming substances; for, however we may be disposed to leave to philosophy the discussion as to whether sugar, starch, &c., are convertible into fat, yet I think I shall not offend the teacher of agricultural chemistry by stating that the more closely the elements of food resemble those in the animal and its product, the more efficacious will such food be for the particular purpose for which it is used.

Sugar, starch, &c., vary very considerably in form and proportion from vegetable oils, which closely resemble animal fats.

When we consider that plants have a two-fold function to perform,—namely, to serve as food for animals, and also for the reproduction of the like plants,—and that, after having undergone the process of digestion, they retain only one half or one third of their value as manure, the importance of affording a due but not excessive supply of each element of food essential to the wants and purposes of the animal will be evident. If we fall short, the result will be imperfect; if we supply in excess, it will entail waste and loss.

Linseed and rape-cake resemble each other very closely in chemical composition; the latter is chiefly used for manure, and its price ranges usually about half that of linseed-cake. In substances poorer in nitrogen, and with more of starch, gum, oil, &c., the disparity in value as food and as manure will be proportionately greater.

During the present season, Mr. Mendelsohn, of Berlin, and Mr. Gausange, who is tenant of a large royal domain near Frankfort on the Oder, on which he keeps about one hundred and fifty dairy cows, have been my visitors. These gentlemen have collected statistics in dairy countries through which they have travelled. I learned from them that in Mecklenburg, Prussia, Holland, &c., fourteen quarts of milk yield, on the average, one pound of butter; in rare instances twelve quarts are found to yield one pound. Both attach great importance to the regulation of the temperature. Mr. Mendelsohn tells me that the milk from cows fed on draff (distillers’ refuse) requires a higher temperature to induce its yield of butter than that from cows supplied with other food.

On inquiry in my own neighborhood, I find it is computed that each quart at a milking represents one pound of butter per week. Thus, a cow which gives four quarts at each milking will yield in butter four pounds per week, or from fifty-six quarts sixty-four ounces of butter, or from fourteen quarts of milk one pound of butter. Taking the winter produce alone, it is lower than this; the cream from my neighbors’ cows, who use common food, hay, straw, and oats, somewhat resembles milk in consistence, and requires three to four hours, sometimes more, in churning. On one occasion, a neighboring dairy-woman sent to borrow my churn, being unable to make butter with her own; I did not inquire the result. If she had sent her cow, I could in the course of a week have insured her cream which would make butter in half an hour. These dairy people usually churn during winter in their kitchen, or other room with a fire. Each of them states that from bean or oat meal used during winter as an auxiliary food they derive a greater quantity of butter, whilst those who have tried linseed-oil have perceived no benefit from it.

My own cream during the winter season is of the consistence of paste, or thick treacle. When the jar is full, a rod of two feet long will, when dipped into the cream to half its length, stand erect. If I take out a teacupful in the evening, and let it stand till next morning, a penny-piece laid on its surface will not sink; on taking it off, I find the under side partially spotted with cream. The churnings are performed in a room without fire, at a temperature in winter of forty-three to forty-five degrees, and occupy one half to three quarters of an hour.

Several who have adopted my system have reported similar effects—an increase in the quantity with a complete change as to richness of quality. I select from these Mr. John Simpson, a tenant farmer residing at Ripley, in Yorkshire, who, at my request, stated to the committee of the Wharfdale Agricultural Society that he and a neighbor of his, being inconvenienced from a deficient yield of milk, had agreed to try my mode of feeding, and provided themselves with a steaming apparatus. This change of treatment took place in February, 1855. I quote his words:

“In about five days I noticed a great change in my milk; the cows yielded two quarts each, per day, more; but what surprised me most was the change in the quality. Instead of poor winter cream and butter, they assumed the appearance and character of rich summer produce. It only required twenty minutes for churning, instead of two to three hours; there was also a considerable increase in the quantity of butter, of which, however, I did not take any particular notice. My neighbor’s cow gave three quarts per day in addition, and her milk was so changed in appearance that the consumers to whom he sold it became quite anxious to know the cause.”

My dairy is but six feet wide by fifteen long and twelve high. At one end (to the north) is a trellis window; at the other, an inner door, which opens into the kitchen. There is another door near to this, which opens into the churning-room, having also a northern aspect; both doors are near the south end of the dairy. Along each side, and the north end, two shelves of wood are fixed to the wall, the one fifteen inches above the other; two feet higher is another shelf somewhat narrower, but of like length, which is covered with charcoal, whose properties as a deodorizer are sufficiently established. The lower shelves being two feet three inches wide, the interval or passage between is only one foot six inches. On each tier of shelves is a shallow wooden cistern, lined with thin sheet-lead, having a rim at the edges three inches high. These cisterns incline downwards slightly towards the window, and contain water to the depth of three inches. At the end nearest the kitchen each tier of cisterns is supplied with two taps, one for cold water in summer, the other with hot for winter use. At the end next the north window is a plug or hollow tube, with holes perforated at such an elevation as to take the water before it flows over the cistern.

During the summer the door towards the kitchen is closed, and an additional door is fixed against it, with an interval between well packed with straw; a curtain of stout calico hangs before the trellis window, which is dipped in salt water, and kept wet during the whole day by cold water spirted over it from a gutta-percha tube. On the milk being brought in, it is emptied into bowls. Some time after these bowls (of which a description is given in a former part of this) have been placed on the cistern, the cold-water taps are turned till the water rises through the perforated tube, and flows through a waste pipe into the sewer. The taps are then closed, so as to allow a slight trickling of water, which continues through the day. By these means I reduce the temperature, as compared with that outside the window, by twenty degrees. I am thus enabled to allow the milk to stand till the cream has risen, and keep the skimmed milk sweet, for which I obtain one penny per quart.

Having heard complaints during very hot weather of skimmed milk, which had left my dairy perfectly sweet, being affected so as to curdle in cooking on being carried into the village, I caused covers of thick calico (the best of our fabrics for retaining moisture) to be made; these are dipped in salt water, and then drawn over the whole of the tin milk-cans. The contrivance is quite successful, and is in great favor with the consumers. I have not heard a single complaint since I adopted it.

Finding my butter rather soft in hot weather, I uncovered a draw-well which I had not used since I introduced water-works for the supply of the village and my own premises. On lowering a thermometer down the well to a depth of twenty-eight feet, I found it indicated a temperature of forty-three degrees—that on the surface being seventy degrees. I first let down the butter, which was somewhat improved, but afterwards the cream. For this purpose I procured a movable windlass with a rope of the required length; the cream-jar is placed in a basket two feet four inches deep, suspended on the rope, and let down the evening previous to churning. It is drawn up early next morning, and immediately churned. By this means the churning occupies about the same time as in winter, and the butter is of like consistence.

The advantage I derive from this is such that, rather than be without it, I should prefer sinking a well for the purpose of reaching a like temperature.

When winter approaches, the open trellis window to the north is closed, an additional shutter being fixed outside, and the interval between this and an inner shutter closely packed with straw, to prevent the access of air and cold; the door to the kitchen is at the same time unclosed to admit warmth. Before the milk is brought from the cow-house, the dairymaid washes the bowls well with hot water, the effect of which is to take off the chill, but not to warm them. The milk is brought in as milked, and is passed through a sile into the bowls, which are then placed on the cistern. A thermometer, with its bulb immersed in the milk, denotes a temperature of about ninety degrees. The hot water is applied immediately, at a temperature of one hundred degrees or upwards, and continues to flow for about five minutes, when the supply is exhausted. The bowls being of thick earthen ware,—a slow conductor,—this does not heighten the temperature of the milk. The cooling, however, is thereby retarded, as I find the milk, after standing four hours, maintains a temperature of sixty degrees. This application of hot water is renewed at each milking to the new milk, but not repeated to the same after it has cooled. The temperature of the dairy is momentarily increased to above 60°, but speedily subsides, the average temperature being 52° to 56°.

It will be observed that the churnings in summer and winter occupy half an hour or upwards. By increasing the temperature of the cream I could easily churn in half the time, but I should thereby injure the quality of the butter. When the butter has come and gathered into a mass, it is taken, together with the butter-milk, out of the churn, which is rinsed with water; the butter is then placed again in the churn with a quantity of cold spring water, in which salt has been dissolved, at the rate of one ounce per quart of cream; after a few minutes’ churning, the butter is again taken out; the water in which it has been washed assumes a whitish appearance. By this process the salt is equally diffused through the butter, which requires little manipulation, and is freed from a portion of caseous matter. A recent analysis of my butter shows only 1.07 instead of 2.45 per cent. of caseine, as before. That it ranks as choice may be inferred when I state that my purchaser willingly gives me a penny per roll more than the highest price in Otley market, and complains that I do not supply him with a greater quantity.

In this dairy of the small dimensions I have described, my produce of butter reaches at times sixty to seventy pounds per week. Though the size may appear inconveniently small, yet I beg to remark on the greater facility of regulating the temperature of a small in comparison with a large dairy. This difficulty will be found greater in summer than in winter, as it is far easier to heighten than depress the temperature.

I have cooked or steamed my food for several years. It will be observed that I blend bean-straw, bran, and malt-combs, as flavoring materials, with oat or other straw and rape-cake; the effect of steaming is to volatilize the essential oils, in which the flavor resides, and diffuse them through the mess. The odor arising from it resembles that observed from the process of malting; this imparts relish to the mess, and induces the cattle to eat it greedily; in addition to which, I am disposed to think that it renders the food more easy of digestion and assimilation. I use this process with advantage for fattening, when I am deficient in roots. With the same mixed straw and oat-shells, three to four pounds each of rape-cake, and half a pound of linseed-oil, but without roots, I have fattened more than thirty heifers and cows free from milk, from March up to the early part of May; their gain has averaged fully fourteen pounds each per week,—a result I could not have looked for from the same materials, if uncooked. This process seems to have the effect of rendering linseed-oil less of a laxative, but cannot drive off any portion of the fattening oils, to volatilize which requires a very high temperature. My experience of the benefits of steaming is such that if I were deprived of it I could not continue to feed with satisfaction.

I have weighed my fattening cattle for a number of years, and my milch cows for more than two years. This practice enables me at once to detect any deficiency in the performance of the animals; it gives also a stimulus to the feeders, who attend at the weighings, and who are desirous that the cattle intrusted to their care should bear a comparison with their rivals. Another obvious advantage is in avoiding all cavils respecting the weight by my purchasers, who, having satisfied themselves as to the quality of the animal, now ask and obtain the most recent weighing. The usual computation for a well-fed but not over fat beast is, live to dead weight, as 21 to 12, or 100 to 59¹/₇ with such modifications as suggest themselves by appearances.

Though many discussions have taken place on the fattening of cattle, the not less important branch of dairy treatment has hitherto been comparatively neglected. I therefore venture to call attention to considerations which have arisen from observations in my own practice affecting the chemistry and physiology, or, in other words, the science of feeding. That I am seeking aid from its guidance will be apparent, and I have no hesitation in admitting that, beyond the satisfaction from the better understanding of my business, I have latterly derived more benefit or profit from examination of the chemical composition of materials of food than from the treatment or feeding experiments of others which have come under my notice. So persuaded am I of the advantage of this, that I do not feel satisfied to continue the use of any material, with the composition of which I am not acquainted, without resorting to the society’s laboratory for an analysis.

To one leading feature of my practice I attach the greatest importance—the maintenance of the condition of my cows giving a large yield of milk. I am enabled, by the addition of bean-meal in proportion to the greater yield of milk, to avert the loss of condition in those giving sixteen to eighteen quarts per day; whilst on those giving a less yield, and in health, I invariably effect an improvement.

When we take into consideration the disposition of a cow to apply her food rather to her milk than to her maintenance and improvement, it seems fair to infer that the milk of a cow gaining flesh will not be deficient either in caseine or butter.

I have already alluded to the efficiency of bean-meal in increasing the quantity of butter: I learn, also, from observant dairymen who milk their own cows and carry their butter to market, that their baskets are never so well filled as when their cows feed on green clover, which, as dry material, is nearly as rich in albumen as beaus. I am also told, by those who have used green rape-plant, that it produces milk rich in butter. From this we may infer that albuminous matter is the most essential element in the food of the milch cow, and that any deficiency in the supply of this will be attended with loss of condition, and a consequent diminution in the quality of her milk.

I am clearly of opinion that you can increase the proportion of butter in milk more than that of caseine, or other solid parts. From several, who have adopted my treatment, I learn that on substituting rape-cake for beans they perceive an increased richness in their milk. Mr. T. Garnett, of Clitheroe, who has used bean-meal largely as an auxiliary food for milch cows during the winter season, tells me that when rape-cake is substituted, his dairymaid, without being informed, perceives the change from the increased richness of the milk. Mr. Garnett has also used linseed-cake in like quantity; still his dairy people prefer rape-cake.

Mr. Whelon, of Lancaster, who keeps two milch cows for his own use, to which he gave bean-meal and bran as auxiliaries, has recently substituted rape-cake[4] for bean-meal; he informs me that in a week he saw a change in the richness of milk, with an increase of butter.

[4] The analysis of cotton-seed cake, in comparison with rape and linseed cake, in a former chapter of this work, will show the comparative value of that as food for milch cows.

The vegetable oils are of two distinct classes: the drying or setting represented by linseed, the unctuous represented by rape-oil. They consist of two proximate elements, margarine and oleine; in all probability they will vary in their proportion of these, but in what degree I have not been able to ascertain. Though the agricultural chemists make no distinction, as far as I am aware, between these two classes of oils, the practitioners in medicine use them for distinct purposes. Cod-liver oil has been long used for pulmonary complaints; latterly, olive, almond, and rape oils are being employed as substitutes. These are all of the unctuous class of oils. Mr. Rhind, the intelligent medical practitioner of this village, called my attention to some experiments by Dr. Leared, published in the Medical Times, July 21st, 1855, with oleine alone, freed from margarine, which showed marked superiority in the effect; and I now learn from Mr. Rhind that he is at present using with success the pure oleine, prepared by Messrs. Price & Co., from cocoa-nut oil, one of the unctuous class. That linseed and others of the drying oils are used in medicine for a very different purpose, it seems unnecessary to state.

The oleine of oil is known to be more easy of consumption and more available for respiration than margarine—a property to which its use in medicine may be attributable. If we examine the animal fats, tallow, suet, and other fat, they are almost wholly of the solid class, stearine or margarine, closely resembling or identical with the margarine in plants; whilst butter is composed of oleine and margarine, combining both the proximate elements found in vegetable oils.

It seems worthy of remark that a cow can yield a far greater weight of butter than she can store up in solid fat; numerous instances occur where a cow gives off two pounds of butter per day, or fourteen pounds per week, whilst half that quantity will probably rarely be laid on in fat. If you allow a cow to gain sixteen pounds per week, and reckon seven for fat, there will only remain nine pounds for flesh, or, deducting the moisture, scarcely three pounds (2.97) per week, equal to .42, or less than half a pound per day, of dry fibrin.

The analyses of butter show a very varying proportion of oleine and margarine fats: summer butter usually contains of oleine sixty and margarine forty per cent., whilst in winter butter these proportions are reversed, being forty of oleine to sixty of margarine. By ordinary treatment the quantity of butter during winter is markedly inferior. The common materials for dairy cows in winter are straw with turnips or mangel, hay alone, or hay with mangel. If we examine these materials, we find them deficient in oil, or in starch, sugar, etc. If a cow consume two stones or twenty-eight pounds of hay a day, which is probably more than she can be induced to eat on an average, it will be equal in dry material to more than one hundred pounds of young grass, which will also satisfy a cow. That one hundred pounds of young grass will yield more butter, will scarcely admit of a doubt. The twenty-eight pounds of hay will be equal in albuminous matter and in oil to the one hundred pounds of grass; but in the element of starch, sugar, etc., there is a marked difference. During the growth of the plant, the starch and sugar are converted into woody fibre, in which form they are scarcely digestible or available for respiration. It seems, then, not improbable that, when a cow is supplied with hay only, she will consume some portion of the oleine oil for respiration, and yield a less quantity of butter poorer in oleine.

If you assume summer butter to contain of oleine,	60	per	cent.
If you assume summer butter to contain of margarine,	40	“	“
	100	“	“
If the cow consume of the oleine,	36	“	“
The quantity of butter will be reduced from 100 to	64	“	“
And the proportions will then be, of oleine,	40	“	“
And the proportions will then be, of margarine,	60	“	“
	100	“	“

If you supply turnips or mangel with hay, the cow will consume less of hay; you thereby substitute a material richer in sugar, etc., and poorer in oil. Each of these materials, in the quantity a cow can consume, is deficient in the supply of albumen necessary to keep up the condition of an animal giving a full yield of milk. To effect this, recourse must be had to artificial or concentrated substances of food, rich in albuminous matter.

It can scarcely be expected, nor is it desirable, that practical farmers should apply themselves to the attainment of proficiency in the art of chemical investigations; this is more properly the occupation of the professor of science. The following simple experiment, however, seems worth mentioning. On several occasions, during winter, I procured samples of butter from my next neighbor. On placing these, with a like quantity of my own, in juxtaposition before the fire, my butter melted with far greater rapidity—by no means an unsafe test of a greater proportion of oleine.

The chemical investigation of our natural and other grasses has hitherto scarcely had the attention which it deserves. The most valuable information on this subject is in the paper by Professor Way, on the nutritive and fattening properties of the grasses, in vol. xiv., p. 171, of the Royal Agricultural Society’s Journal. These grasses were nearly all analyzed at the flowering time, a stage at which no occupier of grass-land would expect so favorable a result in fattening. We much prefer pastures with young grass not more than a few inches high, sufficient to afford a good bite. With a view to satisfy myself as to the difference of composition of the like grasses at different stages of growth, I sent to Professor Way a specimen of the first crop of hay, cut in the end of June, when the grass was in the early stage of flowering, and one of aftermath, cut towards the close of September, from the same meadow, the analyses of which I give:

HAY, FIRST CROP.		AFTERMATH HAY
Moisture,	12.02	Moisture,	11.87
Albuminous matter,	9.24	Oil and fatty matter,	6.84
Oil and fatty matter,	2.68	Albuminous matter,	9.84
Starch, gum, sugar,	39.75	Starch, gum, sugar,	42.25
Woody fibre,	27.41	Woody fibre,	19.77
Mineral matter,	8.90	Mineral matter,	9.43
	100.00		100.00

A comparison between these will show a much greater percentage of woody fibre,—27.41 in the first crop to 19.77 in the aftermath. The most remarkable difference, however, is in the proportion of oil, being 2.68 in the first crop to 6.84 in the aftermath.

On inquiry from an observing tenant of a small dairy farm of mine, who has frequently used aftermath hay, I learn that, as compared with the first crop, he finds it induces a greater yield of milk, but attended with some impoverishment in the condition of the cow, and that he uses it without addition of turnips or other roots, which he gives when using hay of the first crop—an answer quite in accordance with what might be expected from its chemical composition.

It is likewise to be presumed that the quickness of growth will materially affect the composition of grasses, as well as of other vegetables. Your gardener will tell you that if radishes are slow in growth they will be tough and woody; that asparagus melts in eating, like butter, and salad is crisp when grown quickly. The same effect will, I apprehend, be found in grasses of slow growth: they will contain more of woody fibre, with less of starch or sugar. The quality of butter grown on poor pastures is characterized by greater solidity than on rich feeding pastures. The cows, having to travel over more space, require a greater supply of the elements of respiration, whilst the grasses grown on these poor pastures contain, in all probability, less of these in a digestible form available for respiration. The like result seems probable as from common winter treatment—a produce of butter less in quantity, and containing a greater proportion of margarine, and a less of oleine.

It is well known that pastures vary greatly in their butter-producing properties; there is, however, as far as I am aware, no satisfactory explanation of this. If you watch cows on depasture, you observe them select their own food; if you supply cows in stall alike with food, they will also select for themselves. I give rape-cake as a mixture to all, and induce them to eat the requisite quantity; yet some will select the rape-cake first, and eat it up clean, whilst others rather neglect it till towards the close of their meal, and then leave pieces in the trough. Two Alderneys,—the only cows of the kind I have as yet had,—whose butter-producing qualities are well known, are particularly fond of rape-cake, and never leave a morsel. May not these animals be prompted by their instinct to select such food as is best suited to their wants and propensities? If so, it seems of the greatest importance that the dairyman should be informed of the properties of food most suitable for his purpose, especially whilst in a stall, where they have little opportunity of selecting.

It appears worth the attention of our society to make inquiries as to the localities which are known as producing milk peculiarly rich in butter. When travelling in Germany, I well recollect being treated with peculiarly rich milk, cream, and butter, on my tour between Dresden and Toplitz, at the station or resting-place on the chaussÉe or turnpike-road, before you descend a very steep incline to the valley in which Toplitz is situated. I travelled this way after an interval of several years, when the same treat was again offered. It was given as a rarity, and can only be accounted for by the peculiar adaptation of the herbage of the country for the production of butter.

Comparison of different methods of Feeding Dairy Cows.

—Being desirous of comparing the result of my method of feeding dairy cows with the system usually practised in this locality, it occurred to me that, as my cows had been accustomed to savory steamed food, a change to ordinary food would be attended with less favorable results than if they had been previously treated in the common mode; and that, under these circumstances, it would be better to institute comparisons with two near neighbors, Mr. Smith and Mr. Pawson, whose practice and results I had the opportunity of inspecting.

Mr. Smith’s cow was of rather small frame, but noted for her usefulness as a good milker. At the time of calving her third calf; about the 12th of November, she was in good condition, and gave, soon after, seventeen quarts of milk per day. Her owner states that in the first three weeks (up to the time this comparison was begun) her condition sensibly diminished—a result which I apprehend will be invariable with cows giving this quantity of milk when fed on meadow hay only, with which Mr. Smith’s cow was supplied ad libitum, and of which she consumed twenty-eight pounds per day. Mr. Pawson’s was a nice heifer, three years old at the time of calving her first calf, October 6th, in more than ordinary condition, and gave about sixteen quarts per day. Her owner states that on the first of January her condition was much diminished. This is corroborated by Mr. Myers, a dealer in the village, who tells me that, previous to her calving, he was desirous of purchasing her, and would have given from seventeen pounds ten shillings to eighteen pounds, and describes her as being at that time full of beef. Her weight on the first of January, 7 cwt. 2 qrs., bespeaks her condition as much lowered.

During the month of October, and till late in November, she was turned out in the daytime to graze on aftermath, and housed during the night, where she was supplied with turnips. From the close of November till the first week in February, her food consisted of

Meadow hay of inferior quality,	18	lbs.	per	day.
Swedish turnips,	45	“	“	“
Ground oats,	9	“	“	“

After this the ground oats were discontinued, and meadow hay of good quality was given ad libitum, with forty-five pounds of turnips.

For comparison I selected a cow of my own, which calved about the 8th of October, and gave soon after eighteen quarts of milk per day; she was also of small size. At the time of calving her condition was somewhat higher than that of Mr. Smith’s. When the experiment was begun, on the first of January, no perceivable difference was found in the yield of milk of Mr. Smith’s cow and my own, each giving fifteen and a half quarts per day.

The following table gives the dates of calving of the three cows, together with their weights and yield of milk at the commencement and termination of the experiment:

When calved.		January 1.					March 6.
	Yield at calving.	Weight.			Yield.		Weight.			Yield.
	Quarts.	Cwt.	qrs.	lbs.	Qts.		Cwt.	qrs.	lbs.	Qts.
Mr. Smith’s—Nov. 12.	17	8	3	0	15	¹/₂	8	0	0	9	¹/₂
Mr. Pawson’s—Oct. 6.	16	7	2	0	12		7	1	0	6	¹/₄
My own—Oct. 8.	18	9	3	0	15	¹/₂	10	1	0	12	¹/₂

Mr. Smith’s cow lost in weight in nine weeks 84 pounds, being 9¹/₃ pounds per week, with an average yield of 12¹/₂ quarts per day. Mr. Pawson’s lost 28 pounds. This loss, together with the diminished yield of milk, occurred almost wholly after the oats had been withdrawn; her weight on the 6th of February being still 7 cwt. 2 qrs., and her yield of milk 11 quarts per day.

My cow has gained in the nine weeks 56 lbs., being 6¹/₄ pounds per week, with an average yield of 14 quarts, the diminution being regular. January 1st, 15¹/₂; Feb. 4th, 14; March 4th, 12¹/₂; making an average yield of 14 quarts per day. The whole loss and gain of weight will be in flesh and fat, the cows having kept up their consumption of food and their bulk.

The weekly account of profit and loss will stand as follows:

	s.	d.		s.	d.
Mr. Smith’s cow, average yield fer 9 weeks, 12¹/₂ quarts per day, at 2d. per quart,				14	7
Deduct loss in flesh, 9¹/₃ lbs., at 6d.,				4	8
				9	11
Cost of 14 stones hay, at 6d. per stone,				7	0
Profit,				2	11
Mr. Pawson’s cow, average during the first five weeks, 11¹/₂ quarts per day, at 2d. per quart,				13	5
Cost of 9 stones inferior hay (at 4d. per stone), per week,	3	0
Cost of 63 lbs. ground oats, 4s. 8d.; turnips, 1s. 6d.,	6	2		9	2
Profit,				4	3
My cow, average yield for 9 weeks, 14 quarts per day, at 2d. per quart,				16	4
Gain of flesh, 6¹/₄ lbs per week, at 6d.,				3	1	¹/₂
				19	5	¹/₂
Cost of food:
Hay, 63 lbs., at 6d. per stone; straw and shells of oats, 1s. 3d.; mangel, 1s.,	4	6	¹/₂
Rape-cake, 35 lbs.; bran, 10¹/₂ lbs.; malt-combs, 10¹/₂ lbs.; bean-meal, 10¹/₂ lbs.,	4	0	¹/₂	8	7
Profit,				10	10	¹/₂

The richer quality of the manure will probably compensate for the extra labor, cooking, and attention bestowed upon my cow.

With a view of extending the comparison, give particulars of the whole of my cows the weights of which were registered on the 8th of October, and which were still on hand, free from calf, and in a state admitting of comparison. These were bought at a neighboring market in but moderate condition, and were young, having had two or three calves each. A cow in full condition attains her maximum yield in a week or so after calving; whilst those in lower condition continue, by my treatment, to increase their quantity up to about a month after calving.

TABLE.
No.	Calved.		Greatest yield per day.	October 8 Weight.			February 4.				March 4.				Computed average per day during					Gain, Oct. 8 to Feb. 4.	Gain in weight per week.
No.	Calved.		Greatest yield per day.	October 8 Weight.			Weight.			Yield per day.	Weight.			Yield per day.	Computed average per day during					Gain, Oct. 8 to Feb. 4.	Gain in weight per week.
			Quarts.	Cwt.	qrs.	lbs.	Cwt.	qrs.	lbs.	Qts.	Cwt.	qrs.	lbs.	Quarts.	Weeks.			Qts.		Lbs.	Lbs.
1.	July	28.	12	9	2	0	10	0	0	8	10	1	0	8	29		—	10		84	4
2.	Aug.	25.	18	10	0	0	11	1	0	14	11	1	0	14	27		—	16		140	6	³/₄
4.	July	28.	18	8	2	0	10	1	0	15	10	0	0	15	31		—	15		168	8
6.	Sept.	8.	16	10	2	0	10	2	0	14	10	3	0	14	25		—	15		28	1	¹/₃
7.	Sept.	8.	16	10	2	0	11	0	0	10	11	0	0	10	25		—	13		56	2	²/₃
11.	Aug.	25.	16	9	1	0	9	2	0	11	9	2	0	11	27		—	13	¹/₂	28	1	¹/₃
Average,			16							12				12	27	¹/₃	—	14

TABLE.
No.	Calved.		Greatest yield per day.	October 8 Weight.			February 4.				March 4.
No.	Calved.		Greatest yield per day.	October 8 Weight.			Weight.			Yield per day.	Weight.			Yield per day.
			Quarts.	Cwt.	qrs.	lbs.	Cwt.	qrs.	lbs.	Qts.	Cwt.	qrs.	lbs.	Quarts.
1.	July	28.	12	9	2	0	10	0	0	8	10	1	0	8
2.	Aug.	25.	18	10	0	0	11	1	0	14	11	1	0	14
4.	July	28.	18	8	2	0	10	1	0	15	10	0	0	15
6.	Sept.	8.	16	10	2	0	10	2	0	14	10	3	0	14
7.	Sept.	8.	16	10	2	0	11	0	0	10	11	0	0	10
11.	Aug.	25.	16	9	1	0	9	2	0	11	9	2	0	11
Average,			16							12				12

No.	Computed average per day during					Gain, Oct. 8 to Feb. 4.	Gain in weight per week.
	Weeks.			Qts.		Lbs.	Lbs.
1.	29		—	10		84	4
2.	27		—	16		140	6	³/₄
4.	31		—	15		168	8
6.	25		—	15		28	1	¹/₃
7.	25		—	13		56	2	²/₃
11.	27		—	13	¹/₂	28	1	¹/₃
Average,	27	¹/₃	—	14

My cows, during the period under consideration, were treated as follows: During August and September they were on open pasture by day and housed by night; evening and morning they were supplied with mown grass, and two feeds of steamed mixture. Towards the close of September green rape was substituted for the mown grass, with the same allowance of steamed mixture; from the 8th of October, when they were wholly housed, they were supplied with steamed food ad libitum three times per day. After each meal ten to twelve pounds of green rape-plant were given, and nine pounds of hay per day till November; from that time steamed food with cabbages or kohl rabi till the early part or February, when mangold wurzel was substituted. It will be observed that I give hay and roots in limited quantities, and the steamed food ad libitum. I prefer this to apportioning the cake and other concentrated food in equal quantities to each, as this steamed mixture contains more of the elements essential to milk, and each cow is thus at liberty to satisfy her requirements with it. Nos. 2 and 4, which have given the greatest quantity of milk, have eaten more than their share; whilst No. 1, which has given the least milk, has scarcely eaten more than half the quantity of steamed mixture consumed by 2 or 4. The yield of milk and the live weights on the 4th of February and the 4th of March scarcely vary. During February thirty-four pounds of mangold were substituted for kohl rabi; with this change the cows became mere relaxed. My experience in weighing, extending over several years, has shown me that when animals, from change of food, become more relaxed or more costive, their weighings in the former state denote less, whilst in the latter they denote more, than their actual gain in condition. I have known instances in which a month’s weighing, accompanied by relaxation, has shown no gain, whilst, with restored consistency, the gain doubled.

I now proceed to examine the materials of food, their composition, and the probable changes they undergo in the animal economy.

Quantity and description of food supplied to six cows during twenty-seven and a third weeks, and its composition in proximate elements and minerals.

	Per day.	Total weight of food given.	Cost per ton.			Total cost.			Weight of food when dried.	Al- bumen.	Starch.	Oil.	Fibre.	Min- erals.
	lbs.	lbs.	£	s.	d.	£	s.	d.	lbs.	lbs.	lbs.	lbs.	lbs.	lbs.
Meadow hay,	56	10,715	4	0	0	19	2	9	9,420	990	4,257	287	2,933	953
Rape-cake,	30	5,740	6	10	0	16	12	0	5,456	1,803	2,177	611	494	171
Malt-combs,	9	1,722	5	9	0	4	3	0	1,660	411	791	51	320	88
Bran,	9	1,722	6	10	0	5	0	0	1,500	246	800	96	258	100
Beans,	9	1,722	9	6	8	7	3	6	1,500	464	774	34	176	53
Green food,	204	39,032	0	10	0	8	14	6	5,740	862	3,074	115	1,148	541
Oat-straw,	50	9,566	1	15	0	7	9	0	8,407	287	3,066	100	4,526	428
Bean-straw,	12	2,296	1	15	0	7	16	0	1,964	376	725	51	594	217
Total,	379	72,515				70	0	9	35,647	5,439	15,664	1,345	10,449	2,551
										= Nitrogen 888 lbs.

ANALYSIS OF MILK BY HAIDLEN.

Water,	873.
Butter,	30.
Caseine,	48.2
Milk sugar,	43.9
Phosphate of lime,	2.31
Magnesia,	.42
Iron,	.07
Chloride of potassium,	1.44
Sodium and Soda,	.66
	1000.00

Production of milk by 6 cows, average 14 quarts per day each, for 27¹/₃ weeks = 16,072 quarts, which at 41 oz. per quart = 41,184 lbs.

						lbs.
When dry or free from moisture,						5230
Butter in 16,072 quarts, at 30 per 1000					=	1235
Caseine in 16,072 quarts, at 48.2 per 1000,					=	1977
Sugar of milk,					=	1804
Minerals.	-	Phosphate of lime,	99	-	=	214
Minerals.	-	Other,	115	-	=	214
						5230

Gain of weight 500 lbs., of which I compute	300	lbs. as fat.
	200	lbs. as flesh.
	500

Nitrogen,		316	lbs.
Phosphate of lime,		99
Phosphoric acid,	=	45	.50
Cost of food per cow per week,8s. 6¹/₂d.
When the yield of milk is less, the cost of food is reduced to 7s. 8d. per week.

				s.	d.
Gross	return	in	milk,	16	4
“	“	“	weight,	1	6
“	“	“	manure,	2	8
				20	6

ANALYSIS OF EXCREMENT BY PROFESSOR WAY.

	Per cent.
Moisture,	84.85
Phosphoric acid,	.39
Potash,	.58
Soda,	.22
Other substances,	13.96
	100.

Nitrogen,	.41
Ammonia,	.49

Manure, 88 lbs. per cow per day.
	For	6	cows	per day 528 lbs. = 3696 lbs. per week.
	“	“	“	for 27¹/₃ weeks 101,028 lbs., containing of
				Nitrogen,	414	lbs.
				Phosphoric acid,	393
				Potash,	585

Nitrogen incorporated in food,		888	lbs.
Caseine,	316.
Fibrin,	7.35
Manure,	414.
Balance consumed in perspiration,	150.65
	888.00
The materials of food are shown to have cost £70 0s 9d.

	£.	s.	d.	£.	s.	d.
Gross value 16,072 quarts of milk, at 2d. per quart,				133	18	8
Gain of weight 500 lbs., at 6d. per lb.,				12	10	0
Nitrogen in manure 414 lbs. = Ammonia 494 lbs., at 6d.,	12	7	0
Phosphoric acid 393 lbs., at 1¹/₂d. per lb.,	2	9	1
Potash 585 lbs., at 3d. per lb.,	7	6	3
				22	2	4
£				168	11	0

	s.	d.
Manure per cow per day 88 lbs., per week 616 lbs.
Containing ammonia 3 lbs.,	1	6
Phosphoric acid 2.40 lbs.,	0	3	¹/₂
Potash 3.57 lbs.,	0	10	¹/₂
Value of a cow’s excrement, per week,	2	8

The analyses of the chief ingredients of my own produce, or such extra materials as I usually purchase, have been made by Professor Way; for other materials I have had recourse to a very useful compilation by Mr. Hemming (vol. xiii., p. 449, of the Society’s Journal), and to Morton’s “CyclopÆdia of Agriculture.” The analysis of straw is that of oat-straw; that of green food is derived from the analysis of rape-plant, cabbages, and kohl rabi. During February and March I have been using wheat and barley straw with marigold, and, as these materials contain less oil, I give in the steamed food three ounces of linseed-oil per day to each animal. For the composition of milk I adopt that by Haidlen, whose method of analysis is reputed to be the most accurate, the proportion of butter in my milk being this season very similar to that given by him.

It will be observed that this is the gross return for twenty-seven and one third weeks from the time of calving, from which will have to be deducted expense of attendance, etc.

	£.	s.	d.
The materials used for food are found to have cost	70	0	9

The value of these materials as manure consists of 888 lbs. nitrogen = 1061 lbs. ammonia, at 6d.,	26	10	6
Phosphoric acid and potash,	9	15	4
Value of food if employed as manure,	£36	5	10

The 16,072 quarts of milk, at 2d. per quart for new milk, at which price it enters largely into consumption as food for man, amount to

£133

	£.	s.	d.
The nitrogen in the milk 316 lbs. = ammonia 378 lbs., at 6d. per lb.,	9	9	0
Phosphoric acid in ditto. 45¹/₂ lbs., at 1¹/₂d. per lb.,	0	5	8
				£9	14	8

From these statements it will be seen that materials used as food for cattle represent double the value they would do if used for manure, whilst that portion converted into food fitted for the use of man represents a value thirteen to fourteen times greater than it would as manure.

It then appears clear that it is for the feeder’s profit to use his produce as much as possible as food for cattle, with the view to convert it with the utmost economy into food for man, and thus increase rather than enrich his manure-heap.

The calculation of caseine in milk is based upon the supposition that my milk is equal in its proportion of that element to that analyzed by Haidlen. Several analyses by other chemists show a less percentage, 4 to 4.50. As my cows are adequately supplied with albuminous matter, I have a right to presume on their milk being rich in caseine.

The loss of nitrogen by perspiration, 150.65 lbs., is nearly 17 per cent. Boussingault found a loss of 13.50 of nitrogen in a cow giving milk.

	£.	s.	d.
The abstraction of nitrogen in the milk is computed at 316 lbs., value,	9	9	0
The abstraction of phosphoric acid in the milk is computed at 48¹/₂ lbs.,	0	5	8

Either the rape-cake or bran alone suffices for the restoration of the phosphoric acid.

The amount of phosphoric acid in the manure is 393 pounds, being about sixteen per cent. of the whole ash or mineral matter. The ash of meadow hay contains about 14 per cent., that of rape-cake 30 per cent., bran 50 per cent., malt-combs 25 per cent., and turnips, &c., 10 per cent. of phosphoric acid.

The amount of potash in the excrement is 616 pounds, being about 25 per cent. of the whole ash or mineral matter. The ash of meadow hay contains about 20 per cent.; rape-cake, 21 per cent.; malt-combs, 37 per cent.; turnips (various), 44 per cent.; from which it may be inferred that the sample of excrement sent to Professor Way for analysis did not contain more than a fair proportion of these ingredients.

To ascertain the quantity of excrement, the contents of the tanks into which the cows had dropped their solid and liquid excrement during five weeks were weighed, and found to be 500 cwt. 2 qrs. 0 lbs, from 18 cows, being 88 lbs. per cow per day. The sample for analysis was taken from that which the cows had deposited within the preceding 24 hours. This was collected in the mud-cart, well blended, and sent off quite fresh.

It is sufficiently proved, by the experience of this district, that 20 pounds of meadow hay suffice for the maintenance of a cow of fair size in store condition; a like result is stated to be obtained from 120 pounds of turnips per day. The six cows will have then required, during the 27¹/₃ weeks, for their maintenance, only

Per day.		Weeks.	Total Weight.			Albumi- nous mat.	Oil.	Starch, &c.
lbs.			lbs.			lbs.	lbs.	lbs.
120	of hay or for	27¹/₃	22,960	containing	of	2127	616	9130
150	of turnips, or for	27¹/₃	137,760	“	“	2295	306	9100

They will further have required adequate food—

	Albuminous matter, fibrin, and caseine.	Oil and butter.	Starch and sugar of milk.
For the production of	2,116	1,235	1,894
And for maintenance by turnips,	2,295	306	9,100
	4,411	1,541	10,994
The food supplied is computed to have contained	5,459	1,345	15,664

I omit the minerals, which are observed to be in excess of the requirements.

For the maintenance of a fair-sized cow, for one day, in a normal state, the following elements seem adequate:

				Albu- men.	Oil.	Starch, &c.	Lime.	Mineral ingredients. Phosphoric acid.
In 20	lbs.	of	hay,	1.85	.536	7.95	.90	1.11
In 120	“	“	turnips,	1.98	.26	7.82	.97	1.9

When cows are in milk, there occurs a much greater activity of the functions; they eat and drink more, evacuate more excrement, and, in all probability, spend considerably more food in respiration. Whilst the 17.60 lbs. per day dry matter in 20 lbs. of hay are found adequate for the maintenance of a cow in a store state, the six cows in milk have eaten on the average 21.37 lbs. solid matter per day during the 27¹/₃ weeks. When I have fattened cattle together with a number of milch cows of similar size, which gave on an average eight quarts of milk per day, the whole being fed with moist steamed food, and receiving the same allowance of green food, I have found the fattening cattle refuse water, whilst the milch cows on the average drank upwards of 40 pounds per day of water given separately. The eight quarts of milk contain only about 17.58 lbs. of water; still, in several analyses of excrement, I have noticed little difference in the percentage of moisture in that from the fattening animals as compared with that from cows giving milk.

These facts would seem to show that upwards of 20 lbs. more water were given off from the lungs and pores of the skin of a milking than of a fattening animal.

The excrement of the six milch cows, 88 lbs. per day on the average, is found to contain of nitrogen 36, equal to that in 2.25 lbs. of albumen; whilst 1.85 of albumen in the 20 lbs. of hay is found adequate for maintenance.

On comparing the supply of the food to the six milch cows with their requirements and production, there seems an excess in the albuminous matter, a deficiency in the oil for the fat and butter, an excess in the starch, &c. Taking, however, the increased activity of the animal functions, and consequent consumption of food by the milch cow, I am not encouraged to lower my standard of food. That it has sufficed is abundantly proved, as each of the six cows under observation has gained in condition during 27¹/₃ weeks.

My observations on nutrition tend to the conclusion that if you supply animals with starch, sugar, &c., to satisfy their requirements for respiration, you enable them to convert the oil of their food into butter or fat to such extent as their particular organism is fitted for effecting it.

On the 12th of March I purchased Mr. Smith’s cow (see p. 392) for twelve pounds ten shillings, being more than her market value, for the purpose of trying her on my food; her yield of milk had then diminished to 8 quarts per day. On the 31st of March, four weeks from the former weighing, and nineteen days after being treated with my food, her yield of milk had increased to 9¹/₂ quarts per day, and her weight to 8 cwt. 1 qr., being 28 lbs. increase.

Mr. Pawson’s cow, which was continued on the same food, namely, meadow hay ad libitum, and a more limited supply of turnips, reduced her yield of milk to less than 5 quarts per day, without alteration in her weight.

My cow first placed on trial with those of Mr. Smith and Mr. Pawson gave a yield of milk of 12 quarts per day, and gained 28 lbs. in the four weeks, her weight on the 31st of March being 10 cwt. 2 qrs.

The weight and the yield of milk of the six, on the 31st of March, were:

				March 4.			Yield of milk per day.		March 31.			Yield of milk per day.		Gain in 4 weeks.
				cwt.	qr.	lbs.	quarts.		cwt.	qr.	lbs.	quarts.		lbs.
Weight	of	No.	1.	10	0	26	8		10	3	0	8	.9	58
“	“	“	2.	11	1	0	14		11	3	0	14	.9	56
“	“	“	4.	10	0	0	14	¹/₂	10	1	0	13		28
“	“	“	6.	10	3	0	14		11	2	0	12		84
“	“	“	7.	11	0	0	10		11	3	0	10		84
“	“	“	11.	9	2	0	11		10	1	0	12		84

On referring to the previous weighing, there was little or no gain from Feb. 4th to March 4th, the cows being at that time in a somewhat more relaxed state. During March they wholly regained their consistency. The gain shown in the weighing, March 31, by the six cows, appears therefore unusually great. It should, however, be computed as made during the eight weeks from Feb. 4th to March 31, being with an average yield of nearly 12 quarts (11.66) per day each, at the rate of 8¹/₆ lbs. each per week on the average.

No. 11, it will be observed, is stated as giving more milk on the 31st than on the 4th of March. It occasionally happens that cows drop their yield of milk for a day or two, and then regain it, especially when in use. The whole of these six cows were kept free from calf till February, when Nos. 2 and 4 were sent to bull. I had some hesitation in regard to No. 4, from her having suffered from pleuro. Her milk, tested by a lactometer, denoted a less than average proportion of cream; still, in quantity, and keeping up its yield for a length of time, being of more than ordinary capability; I decided to retain her.

Nos. 1 and 7, which are giving respectively 8 and 10 quarts per day, are in a state of fatness; they will probably be sold in June as prime fat, when their yield of milk will probably be 6 and 8 quarts per day each. They may be expected to fetch twenty pounds to twenty-three pounds. No. 6 is also in a state of forwardness. No. 11, which suffered considerably from pleuro, is in comparatively lower condition.

During the season from the close of October to the close of January, I avoid purchasing near-calving cows, which are then unusually dear, my replenishments being made with cows giving a low range of milk, and intended for fattening. I find them more profitable than those which are quite dry. The present season I had additional grounds for abstaining from buying high-priced cows, from the recent presence of pleuro.

On the 2d of March I had occasion to purchase a calving cow, which was reported to have calved on the 28th of February. Her weight on the 4th of March was 9 cwt. 1 qr. I supplied her with 35 lbs. of mangold, and hay ad libitum., of which she ate 22 lbs. per day. The greatest yield she attained was somewhat more than 13 quarts per day. On the 31st of March her weight was 9 cwt., being a loss of 28 lbs. in four weeks. Her yield of milk had diminished to 11¹/₄ quarts per day. A week after this her milk, during six days, was kept apart, and averaged 10 quarts per day; being at first rather more, at the close rather less, than this. The cream produced from these 10 quarts was 9 pints, the butter 63 oz. The butter from each quart of cream was 14 oz. The proportion of butter to milk was 63 oz. from 60 quarts—rather more than 1 oz. per quart.

An equal quantity of milk from a cow (calved Oct. 8th) treated with steamed food, and set apart for comparison, gave less than 7 pints of cream, which produced 79 oz. of butter.

In quality and agreeableness the butter from steamed food and cake was decidedly superior to that from hay and mangold.

Mr. Stansfeld, of Chertsey, has supplied me with the following interesting particulars of two Alderney cows which were treated as follows:

From Dec. 1st to Jan 15th, with Swedes and meadow hay.

From Jan. 15th to Feb. 17th, pulped and fermented Swedes, meadow hay, and 3 lbs. rape-cake, 2 lbs. bean-meal, 2 lbs. bran, 2 lbs. malt-combs.

From Feb. 17th to May 1st, 5 lbs. rape-cake, 2 lbs. bran, 2 lbs. malt-combs.

Results:

December 1st to January 15th, yield of butter from each quart of cream, 10³/₄ oz.

January 15th to February 17th, yield of butter from each quart of cream, 14 oz.

February 17th to May 1st, yield of butter from each quart of cream, 18²/₃ oz.

The yield of butter in proportion to milk, Dec. 1st to Jan. 15th, is described as unsatisfactory.

The yield of butter in proportion to milk, Feb. 17th to May, as 2 oz. per quart, which is their maximum proportion.

Soon after calving the two cows gave 18 quarts of milk per day; on the 15th of May, 15 quarts per day.

Mr. Stansfeld has completely satisfied himself that by the process of fermentation the turnip loses its disagreeable taste, and that his butter is of excellent quality.

If I take the supply of turnips, 120 lbs. per day, as requisite for the maintenance only of the cow, the nutritive elements will be:

	Albu- men.	Oil.	Starch and sugar.
	1.79	.264	7.92
Reckoning the oil as used for respiration, and computing it in proportion of 5 to 2 as compared with starch =			.66
			8.58

The food supplied to the cow consists of:

	Lbs.	Water.		Dry.	Albu- men.	Oil.	Starch and sugar.	Fibre.	Min- erals.	Phos- phoric acid.
Hay,	22	2	¹/₄	19.36	2.03	.59	8.74	6.05	1.95	.30
Stored mangold,	35	28	.0	7.	1.05	..	4.20	1.05	.70	.05
				26.36	3.08	.59	12.94	7.10	2.65	.35

			oz.
The 13 quarts of milk yielded of butter,			13.60
Deduct for moisture, &c.,			2.28
			11.32
Butter in the skimmed milk estimated as			.68
			12.00	oz.
12 ounces of pure oil in the butter are ³/₄ lb.=			.75
		lb.
The oil in the food,		.59
The starch and sugar,	12.94
Used for animal respiration,	8.58
		4.36

There appears, then, in this supply of food, .59 lbs. oil and 4.36 lbs. starch for the production of .75 in the butter from 13 quarts per day, the cow’s greatest yield. At the time the milk was tested, aftermath hay was substituted for first-crop hay, in equal quantity. This, it will be observed, is decidedly richer in oil. Her produce had lessened to 10 quarts per day; her production of butter was 10.50 oz. per day, or of pure oil about 9 oz.; for the supply of oil the aftermath hay alone would be much more than adequate.

On examining the adequacy of the food for the supply of albumen for the caseine,

	lbs.
I find this to be,	3.08
I assume that in 120 lbs. of turnips, as required for maintenance, in a normal state,	1.98
	1.10

Which, according to Haidlen’s analysis, will be adequate to the supply of 8.60 quarts per day. The supply of mineral substances is in excess.

The cow, under this treatment, gave,

Soon after calving, fully	13		quarts	per	day.
Five weeks after calving,	11	¹/₄	“	“	“
In less than 8 weeks after calving,	9		“	“	“

And with this there occurred also a loss of weight.

We find this cow supplied with food amply rich in every element suited to her wants and purposes, with the exception of the nitrogenous principle only, lowering her condition, and likewise her yield of milk, till it approaches a quantity for which her food enables her to supply a due proportion of caseine.

About the 20th of April, the cow’s yield being reduced to 9 quarts per day, her food was changed to steamed mixture. Soon after this her yield increased to 11 quarts per day. Her weight, April 28th, 9 cwt.; May 16th, 9 cwt. 14 lbs. yield of milk, 11 quarts.

I now introduce the dairy statistics of Mr. Alcock, of Aireville, Skipton, who has for some time been practising my method of treatment, with such modifications as are suited to his circumstances.

During the winter season, Mr. Alcock’s food consisted of mangold, of which he gave 20 lbs. per day to each, uncooked, together with steamed food ad libitum, consisting of wheat and bean straw, and shells of oats.

Carob bean and Indian meal, for each,	3		lbs.	per	day
Bran and malt-combs,	1		“	“	“
Bean-meal,	3	¹/₂	“	“	“
Rape-cake,[5]	3		“	“	“
Of extra food,	11	¹/₄

[5] The rape-cake used by Mr. Alcock was of foreign manufacture, evidently rich in oil, but containing mustard, and on this account supplied in less proportion.

From March 19, when his store of mangold was exhausted, he increased his supply of Indian meal to 4 lbs. per day, and omitted the carob bean.

During the month of January, Mr. Alcock obtained from 759 quarts of milk 1323 oz. of butter, being from each 16 quarts 26⁵/₈ oz.; during February and March, from 7368 quarts of milk 12,453 oz. of butter, or from each 16 quarts fully 27 oz.: so that rather less than 9¹/₂ quarts of milk have produced 16 oz. of butter. The average produce from each quart of cream was 20¹/₂ oz.

Mr. Alcock fattens his cows whilst giving milk, and sells them whilst giving 4 to 6 quarts per day. He quite agrees with me that it is far more profitable to buy far-milked cows for fattening; and obtains, from a change to his food, 2 to 3 quarts per day more than the cow had given previously.

Though Mr. Alcock’s cream is not so rich as what I have described on pp. 377 and 378, it is more than ordinarily so. His mode of separating his milk from his cream differs from my own, his milk being set up in leaden vessels, from which, on the cream being formed, the old milk is drawn, by taking a plug from a hollow tube, with perforated holes in the centre of the vessel. To this difference I am disposed in some degree to attribute the less richness of Mr. Alcock’s cream. On examining, the cream with a spoon, after the dairy-keeper had drawn off the milk, I observed some portion of milk, which would have escaped through my perforated skimmer.

Mr. Alcock’s proportion of butter from milk, which is the matter of practical importance, is greater than what I have shown on a preceding page, being from each 16 quarts of milk 27 oz. of butter.

Quality of Butter.

—In January, 1857, samples of about 56 oz. each, of butter of my own, and also of Mr. Alcock’s, were sent to the laboratory of Messrs. Price & Co.’s candle-works, at Belmont.

My butter was found to consist of (taking the pure fat only),

Hard fat, mostly margarine, fusible at 950°,	45.9
Liquid, or oleine,	54.1
	100.0

Mr. Alcock’s,

Hard fat, mostly margarine, fusible at 10°,	36.0
Liquid, or oleine,	64.0
	100.0

For these analyses of butter the agricultural public is indebted to the good offices of Mr. George Wilson, director of Messrs. Price & Co.’s manufactory. It will be observed that Mr. Alcock’s milk is richer in butter and that his butter is also richer in proportion of oleine to margarine than my own.

Professor Thompson (“Elements of Agricultural Chemistry,” 6th edition, p. 317) states that winter butter consists more of solid, and summer more of liquid or oleine fat.

An analysis of butter made in Vosges gives:

	Summer.	Winter.
Solid or margarine fat,	40	65
Liquid (or oleine) fat,	60	35
	100	100

In Lehmann’s “Physiological Chemistry” (Leipsic edition, vol. ii., p. 329), an analysis of butter by Bromus gives:

Margarine,	68
Oleine,	30
Special butter-oil,	2
	100

It will be observed that my butter may be classed as summer butter, and that Mr. Alcock’s is the richest in the proportion of oleine. Both were produced in the month of January.

These results are important, and completely establish the conclusion I had previously formed, that the quantity and quality of butter depend essentially on the food and treatment; and that by suitable means you can produce as much and as rich butter in winter as in summer.

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