The following features constitute, I trow,The beau ideal of a short-horn cow:—Frame massive, round, deep-barrell'd, and straight-back'd;Hind quarters level, lengthy, and well pack'd;Thighs wide, flesh'd inwards, plumb almost to hock;Twist deep, conjoining thighs in one square block;Loin broad and flat, thick flesh'd, and free from dip;Back ribs "well home," arch'd even with the hip;Hips flush with back, soft-cushion'd, not too wide;Flanks full and deep, well forward on the side;Fore ribs well-flesh'd, and rounded like a drum;Fore flanks that even with the elbow come;Crop "barrell'd" flush with shoulders and with side;Girth large and round—not deep alone, but wide;Shoulders sloped back, thick cover'd wide at chine;Points snug, well-flesh'd, to dew-lap tapering fine;Neck vein fill'd up to well-clothed shoulder-point;Arm full above, turn'd in at elbow-joint;Legs short and straight, fine boned 'neath hock and knee;Belly cylindrical, from drooping free;Chest wide between the legs, with downward sweep;Brisket round, massive, prominent, and deep;Neck fine at head, fast thickening towards its base;Head small, scope wide, fine muzzle and dish'd face;Eyes prominent and bright, yet soft and mild;Horns waxy, clear, of medium size, unfiled;Tail fine, neat hung, rectangular with back;Hide soft, substantial, yielding, but not slack;Hair furry, fine, thick set, of colour smart;Udder well forward, with teats wide apart.These points proportion'd well delight the eyeOf grazier, dairyman, and passer-by;And these to more fastidious minds conveyAppearance stylish, feminine, and gay.
The following features constitute, I trow,The beau ideal of a short-horn cow:—Frame massive, round, deep-barrell'd, and straight-back'd;Hind quarters level, lengthy, and well pack'd;Thighs wide, flesh'd inwards, plumb almost to hock;Twist deep, conjoining thighs in one square block;Loin broad and flat, thick flesh'd, and free from dip;Back ribs "well home," arch'd even with the hip;Hips flush with back, soft-cushion'd, not too wide;Flanks full and deep, well forward on the side;Fore ribs well-flesh'd, and rounded like a drum;Fore flanks that even with the elbow come;Crop "barrell'd" flush with shoulders and with side;Girth large and round—not deep alone, but wide;Shoulders sloped back, thick cover'd wide at chine;Points snug, well-flesh'd, to dew-lap tapering fine;Neck vein fill'd up to well-clothed shoulder-point;Arm full above, turn'd in at elbow-joint;Legs short and straight, fine boned 'neath hock and knee;Belly cylindrical, from drooping free;Chest wide between the legs, with downward sweep;Brisket round, massive, prominent, and deep;Neck fine at head, fast thickening towards its base;Head small, scope wide, fine muzzle and dish'd face;Eyes prominent and bright, yet soft and mild;Horns waxy, clear, of medium size, unfiled;Tail fine, neat hung, rectangular with back;Hide soft, substantial, yielding, but not slack;Hair furry, fine, thick set, of colour smart;Udder well forward, with teats wide apart.These points proportion'd well delight the eyeOf grazier, dairyman, and passer-by;And these to more fastidious minds conveyAppearance stylish, feminine, and gay.
The following features constitute, I trow,
The beau ideal of a short-horn cow:—
Frame massive, round, deep-barrell'd, and straight-back'd;
Hind quarters level, lengthy, and well pack'd;
Thighs wide, flesh'd inwards, plumb almost to hock;
Twist deep, conjoining thighs in one square block;
Loin broad and flat, thick flesh'd, and free from dip;
Back ribs "well home," arch'd even with the hip;
Hips flush with back, soft-cushion'd, not too wide;
Flanks full and deep, well forward on the side;
Fore ribs well-flesh'd, and rounded like a drum;
Fore flanks that even with the elbow come;
Crop "barrell'd" flush with shoulders and with side;
Girth large and round—not deep alone, but wide;
Shoulders sloped back, thick cover'd wide at chine;
Points snug, well-flesh'd, to dew-lap tapering fine;
Neck vein fill'd up to well-clothed shoulder-point;
Arm full above, turn'd in at elbow-joint;
Legs short and straight, fine boned 'neath hock and knee;
Belly cylindrical, from drooping free;
Chest wide between the legs, with downward sweep;
Brisket round, massive, prominent, and deep;
Neck fine at head, fast thickening towards its base;
Head small, scope wide, fine muzzle and dish'd face;
Eyes prominent and bright, yet soft and mild;
Horns waxy, clear, of medium size, unfiled;
Tail fine, neat hung, rectangular with back;
Hide soft, substantial, yielding, but not slack;
Hair furry, fine, thick set, of colour smart;
Udder well forward, with teats wide apart.
These points proportion'd well delight the eye
Of grazier, dairyman, and passer-by;
And these to more fastidious minds convey
Appearance stylish, feminine, and gay.
Breeds of the Ox.—The Shorthorned cattle are now generally regarded as the most valuable breed in these countries. They are the descendants of a short-horned breed of cattle which existed for centuries in the north-east of England. They were not held in much estimation, their flesh being coarse; but the cows of this breed yielded abundance of milk. In the eighteenth centurythis breed, it is said, was greatly improved by a large infusion of blood from Dutch Shorthorns: but it is very doubtful that any such event took place, for during that period the importation of cattle into Great Britain was prohibited by very stringent laws. The present race of Shorthorns owe most of their valuable qualities to the brothers, Charles and Robert Colling, of the county of Durham. The former was the more successful breeder, and established the celebrated breed of Ketton Shorthorns. His whole process appears to have consisted in the careful selection of parents, and in "close" breeding. He must, however, have been an admirable judge of the good points of the ox, for beginning with animals not worth more on an average than £10 each, he produced in less than a quarter of a century a stock worth on the average £150 each. The most famous bull of Charles Colling's was Comet. The sale of this animal realised the handsome sum of 1,000 guineas. The bull Hubback is said by many writers to have been the great improver of Shorthorn blood. He was bought by Robert Colling for the trifling sum of £8; but although this animal was kept by both Collings for three years, there is good reason to believe that they made but little use of him. It would appear, indeed, that to the cows first used by the Collings—Lady Maynard, and young Strawberry—many of the good qualities of this breed are traceable. Shorthorns are now to be found in almost every part of the United Kingdom, capable of maintaining heavy stock. In Ireland the breed has been greatly improved, and it is gradually supplanting most of the other varieties.
Shorthorn males have a short, wide head, covered very often with short curly hair; the muzzle is taper; the ear rather long and narrow; the eye large, and bright, and mild. The shape is symmetrical, the carcass deep, the back level, ribs spreading out widely, and the limbs fine. The color is a mixture of red and white, sometimes a rich roan. The females are not so large in the head, which tapers more, and the neck is much thinner.
TheDevonsare not so large as the Shorthorns. Their shape is symmetrical; fine head, horns of medium size, often tapering gracefully; rich red or orange red color; fore-quarters rather oblique. The meat of this breed is much esteemed: they yield excellent milk, but in rather limited quantity; and the bullocks answer the plough much better than many other kinds do. These animals arrive early at maturity.
TheHerefordsare a rather small-boned breed; their horns are medium sized, straight or slightly curved upwards; their color is dark red; neat shoulders, thin thighs, and wide sirloin. They fatten well, but are not generally kept on dairy farms. In many respects they resemble the Devons.
TheAyrshireshave a tapering head, fine neck, and large, bony, but not coarse carcass; flat ribs; short and rather ugly horns; their skin is soft, and covered with hair, which is usually red and white in spots. The Ayrshire cows are invaluable for dairy purposes.
ThePolled Angus,Polled Aberdeens, andPolled Gallowaysare very large cattle, with big heads, unfurnished with horns. Their color is in general a decided black, but occasionally it exhibits a mixture of black and white. Their flesh is in general not of the best quality, but some of their crosses with Shorthorns yield excellent meat, and at an early age, too.
TheKyloesare a breed peculiar to the Highlands of Scotland. They are rather rough, but very picturesque animals, covered with long, shaggy hair. Their horns are rather long, and curve upwards. Their hair is differently colored—red, yellow, dun, and black, the latter being the prevailing hue. No variety of the ox yields a sweeter meat than the Kyloes, and other mountain breeds of these countries. The animals, however, arrive slowly to maturity, and in this respect there is great room for improvement. These mountain-bred animals are now transferred in large numbers to lowland tillage farms, where the fattening processis more expeditiously performed. There are excellent crosses between Shorthorn bulls and Highland cows.
Longhorned Cattleare rapidly advancing towards extinction. At one time they were the chief breed kept by most farmers. In general they may be regarded as an inferior variety, being slow feeders, and producing rather coarse beef. They are, however, capable of great improvement, as instanced in the case of Bakewell's celebrated Longhorn herds.
TheKerrysare a diminutive breed, peculiar to Ireland. They have small heads, fine necks, fine horns of medium length, and curved upwards near their summits. They have a soft skin; the hair is generally black, interspersed with a few white streaks; sometimes their color is red, and occasionally brown. They are a very hardy race, being indigenous to mountains. Their flesh is very good, more especially if the animals have been kept on fattening food. The Kerrys are good milch cows.
TheAlderneysare a small race of oxen with deer-like faces. They exhibit various shades of red, white, brown, and roan. No cows yield better milk, or larger quantities of that fluid.
Sheep.—The different breeds of sheep are classified under three heads—viz.,Long-woolled,Short-woolled, andMiddle-woolled.
TheLeicesteris, perhaps, the most celebrated breed of sheep reared in these countries. It was immensely improved by Bakewell about a century ago, and the breed is often termed the Dishley, after the name of Bakewell's residence. This sheep has a wide, clean head, broad forehead, fine eyes, long, thin ears, thick neck, round body, deep chest, straight, broad back, high ribs, and muscular thighs. The wool is long, very thick, and fine. At from fifteen to eighteen months old, the Leicester weighs from 25 to 30 lbs. per quarter; but a fat animal often weighs from 38 to 40 lbs. per quarter. The fleece weighs from 6 to 8 lbs. This breed is well adapted for Ireland. It is reared on very poor land: but in order tomaintain its good quality, this sheep requires abundance of food, and also good shelter during the winter.
TheLincolnis distinguished for its large bones and strong muscles. Originally a gaunt and ugly animal, it has of late years been much improved. Indeed, the prices lately realised by Lincoln sheep are extremely high. The Lincoln has a long, white face, long body, and thick legs. The wool is long, thick, and moderately fine. The flesh of the Lincoln is lean, owing to its great muscular development. At fifteen months old it yields about 30 lbs. weight per quarter. It is said that a Lincoln wether has attained the weight of 304½ lbs. The average weight of the wool of a hogget is 9½ lbs.
TheCotswoldbreed arose in the Cotswold hills, in Gloucestershire. In this variety the skeleton is large, the chest capacious, the back broad and straight, and the ribs well arched. It has good quarters, and a finely-arched neck. It is distinguished by a large tuft of wool—"fore-top," on the forehead. It fattens early, and produces about 25 lbs. per quarter when fifteen months old, and 40 lbs. when two years old. The wool is rather coarse; its yield is about 8 lbs.
TheCheviothas a long body, long face, long legs, and long ears. The chest projects slightly, and is rather narrow. The forehead is bare of wool; the legs and face are white, sometimes approaching to a dun shade. Weight from 70 to 80 lbs.; weight of fleece, from 3 to 4 lbs. The wool is of excellent quality, and is used largely in the manufacture of tweeds. The Cheviot is a mountain sheep, and, as might be expected, its flesh is well flavored. There are several crosses of the Cheviot with the Leicester, the Southdown, and the Shropshire.
TheSouthdownis generally regarded as the best breed for wool reared in these countries. It is indigenous to the chalk hills of Kent, Sussex, Hampshire, and Dorsetshire. It has a small head; its back is broad and straight; the ribs spring out at nearly right angles from the vertebræ. It is rather light in the fore-quarters, and full in the hind quarters.Its chest is pretty deep; its face and legs are grey or brown. The wool of the Southdown is short, and extremely fine; the fleece weighs about 3 lbs. This sheep arrives early at maturity. It weighs at 15 months old about 80 lbs. The flesh is very well flavored.
The Shropshireis said to combine in itself the good qualities of the Southdown, the Cotswold, and the Leicester. It resembles the Southdown more than any other breed, having the same grey, or brownish grey hue, and a similar shape. It is, however, larger than the Southdown, and yields a larger quantity of wool. This breed is becoming a great favorite in both England and Ireland.
TheBlack-Facedsheep is peculiar to Scotland. It is equipped with horns, has a bold long face, and possesses a tuft of wool on its forehead; its limbs are strong, and its body is somewhat long. The wool of this breed is very coarse, the fleece weighs about 3½ lbs. The average weight of this sheep is 75 lbs., the quality of the mutton is excellent, but it is long before it becomes matured. There are several other breeds of the sheep, but they are of far less importance than those which I have described.
Breeds of the Pig.—There are several breeds of this useful animal, of which those known asBerkshireandYorkshireappear to be the greatest favorites. The Berkshire is black or dusky brown, very rarely reddish brown. It has a very small head. Its sides are extremely deep, and its legs very short. There are several sub-varieties of the Yorkshire. This breed is white, has a compact body, and very broad sides. The head is very small, somewhat like that of the Berkshire. Both Berkshire and Yorkshire pigs attain to the enormous weight of 1,000 lbs. The old Irish "racer" pig is the least profitable kind to keep, but fortunately it is, as a pure breed, nearly extinct.
Breeds of the Horse.—There are a great many breeds of horses. The Shetland pony is so small, that many specimens are no larger than a Newfoundland dog; on the other hand, Clydesdale horses sometimes attain to almost elephantine proportions.There is a wide difference between the bull-like Suffolk Punch and the greyhound-likeracer. The English and Irish racer is said to owe its origin to a cross between the old English light-legged breed and the Arabian. The most valuable kind of carriage horse is the joint product of the draught-horse and the racer. The dray-horse of these countries has a large share of Flemish blood in him. The best horses for agricultural purposes are unquestionably theClydesdaleand theSuffolk Punch. The latter is perhaps to be preferred in most instances, especially on light lands. Very light and feeble horses are the most expensive variety on almost any kind of farm; for whilst they consume nearly as much food as the most powerful animals, and are therefore nearly as costly, they are incapable of effectively performing their work. A large proportion of the farm horses used by the small farmers of Ireland are totally unsuited for tillage purposes. On the other hand, there is no need to employ horses equal in size to the ponderous creatures that draw brewers' carts. Moderate sized horses, with well rounded, compact bodies, and muscular but not too heavy limbs, are the kind best adapted for farm purposes. In Ireland, where there are not fewer than 600,000 horses, a considerable infusion of blood from Clydesdales and Suffolk Punches is much required.
Hunters and Racers.—There is a strong tendency in the human mind to look with a regretful feeling to the past, and to compare it to the disadvantage of the present. It is a general belief with most people that the old time was the best time; that the seasons were more genial formerly; that provisions were cheaper and more abundant; that men were taller, and stouter, and healthier; that, in a word, everything was better in the days of yore than it is now, and that degeneracy and effeteness are the prevailing characteristics of our age. Philosophers, statists, and political economists tell us that all this regret for the "good old time" is mis-spent sympathy; for that we are in every respect superior—in physique, health, morals, and wealth—to our ancestors. Onthe whole, I rather incline myself to this comfortable philosophy; but we must admit that we have not progressed in all things since the times of our fathers.
In a work entitled "A Comparative View of the Form and Character of the English Racer and Saddle Horse during the Last and Present Centuries," published by Hookham, of Old Bond Street, London, it is proved very clearly that the English race-horse has sadly degenerated. The author very properly traces the cause of its decay to the avarice of the turfites: they look upon the noble animal as a mere gambling machine; and they sacrifice all its other qualities to the excessive development of that one which is likely to put money in their pockets. Formerly, gentlemen kept horses for their own sakes—for their admiration and enjoyment of one of the most beautiful, docile, and useful of animals. They were incessant in their efforts to develop into perfection all the really valuable points in the animal; and the result was, that the English and Irish racer of the last century was unmatched for strength, speed, and endurance. Models of this splendid race of horses are seldom to be found at the present time; but there are, perhaps, sporting men living who saw them in the celebrated Mambrino, Sweet Briar, and Sweet William. Those horses possessed compact bodies, capacious lungs, strong loins, large joints, and enormous masses of muscular tissue on the shoulder-blades and arms. They were good weight-carrying hunters as well as racers, and they could carry eight stones over a six miles heat, or twelve stones over a four miles one. The Irish horses, at least, were capable of safely carrying thirteen stones over what would now be considered a very ugly ditch, and could get over a long steeplechase in a style which would astonish the owners of the modern "weeds." Since the distance to be traversed by competing horses has been reduced from the old-fashioned three heats of four miles each to a single run of a mile or two, and also since the weight imposed upon the animals has been reduced to six or seven stones, from ten to twelve, the anatomicalstructure of the race-horse has undergone a remarkable and serious alteration. The back has become very long, the sides flat, the loins weak, the limbs long and very thin; and this alteration in structure has been attended by weakness of constitution and a remarkable tendency to disease. The modern horse has attained to a remarkable degree of rapidity of locomotion, but it has been at the expense of its vigor, endurance, and health; it can run with great velocity for a short distance, but in a four-mile heat, and mounted by a man of average weight, a mediocre horse of the style of the middle of the last century would come to the post long before the winner of the last St. Leger.
The decay of the breed of horses in this country is a serious matter, and the attention of all who are interested in the preservation of this animal should be earnestly and promptly directed towards discovering the means of regeneration. My remarks are directed towards racers and hunters. The quality of speed which they possess has been developed to an extent which is incompatible with the development of equally essential properties. Encouragement should be given to the production of weight-carrying hunters; steeple-chasing should be restored to its old state, when only a powerful horse had a chance of success. The quality of speed should be promoted in the animal up to a certain point; but when the development of this attribute begins to cause a loss of strength and endurance, it is high time to check it. There are a few horses at present which are strong and moderately fast: why should not steeple-chasing be of the kind which would call this style of animal into competition? Only a "weed" can now enter with any probability of success at a race of this kind; and when he has won it, of what use is he as a good hunter? What we want are good, stout, healthy horses, capable of carrying, in good style, twelve stones weight over a rough country; and the object of steeple-chasing should be the production of such a race of horses.
(16) Improved by Leicester blood.
(17) The object of the first breeders of the Leicester was to produce a sheep which would yield a great carcass, and small offal weight. So far as the results of these experiments go, I think the idea of the founder of this breed has been realised.
(18) "Transactions of the Highland and Agricultural Society of Scotland," for July, 1860.
Breeding Cows.—The period of gestation in the cow is about nine months. The earliest time at which it is at all safe to breed from these animals is when they are one year and eight months old. Shorthorns breed early, whilst the mountain varieties are seldom in calf before they are three years old. The practice of very early breeding, though approved of by some extensive rearers of stock, is not to be commended for sound physiological reasons. Cows calve at all times of the year; but the most favorable time is near the end of winter, or in early spring. The cows should at this time be in fair condition—neither too fat nor too lean. Parturition should take place in a roomy, covered place, provided with abundance of clean litter. If such a place be not available, a nice paddock close to the house must answer. After having given birth to the calf, the cow should receive an oatmeal drink, or some warm and nutritious mash, and afterwards be liberally fed. The cow is usually allowed to run dry four or five weeks before calving: this period should not be curtailed; on the contrary, it would be better to extend it to six weeks, so as not to allow her condition to become too poor.
The Wintering of Young Stock.—There are certain localities wherein the rearing of young stock is one of the easiest tasks which devolve upon the farmer. Well-drained and shady fields,yielding abundance of sound herbage, and through which streams ofpurewater unceasingly flow, are just the properlocalefor economically feeding young animals. But there are districts in which those favorable conditions do not exist; yet they are not better adapted to other uses. It is only the feeders of young stock in wet, moory, sandy, or undrained, heavy soils who really have cause for anxiety and incessant watchfulness. In rearing a calf the great object is to cause a rapid and uninterrupted increase in the weight of its body. At first the food of the animal should be furnished solely from the maternal founts; but at an early stage of its existence—about the third or fourth week—other food may wholly, or in part, be substituted for the natural aliment. It is important that no great interval should elapse between the hours of feeding. The digestive apparatus of the young animal is small, and its powers of assimilation are very energetic. The food with which it is supplied should, therefore, be given in moderate quantities, and very frequently. This is, in fact, what takes place when the calf is allowed free access to its dam; for the instant it feels a desire for aliment, the supply is at once available. Of course, there may be objections to this plan on the score of economy; but as a general rule, too much liberality cannot be exercised in feeding growing animals; and there is nothing more certain than that the calf which is illiberally fed will never be developed into a valuable, matured animal. When carefully tended from their birth, comfortably housed in winter, and abundantly supplied with nutritious food, it is sometimes wonderful the rapid progress which young stock make. Mr. Wright mentions a remarkable case of early maturity, which occurred in his own herd. A young steer, one year old, exhibited all the development of an animal twice its age. This bullock had been suckled for three months, whereby it had not only kept its calf-flesh, but gained and retained a step in advance. Its weight when only a year old was no less than 50 stones; and as the price of beef at the time was 8s. 9d. per stone, live weight, the carcass of the animal was worth £21 17s. 6d. Mr.Wright offers this fact as a suggestive one to "those farmers who think of bringing up their calves on old milk, or who would otherwise stint their growth."
Supposing, then, that we have young stock which had been liberally treated when in their "baby" state, how are we to most economically maintain them throughout the winter? In the first place, they should be kept in warm sheds, and well sheltered from both rain and wind. Some authorities contend that exercise is necessary to young stock, and deny that a proper development of the muscles (lean flesh) can take place if they are cooped up like fattening turkeys during the winter. There is some truth in this opinion; and if the animals be designed for breeding or dairy purposes, their freedom of motion should only be partially restrained. On the other hand, if they be intended for an early introduction to the shambles, the less exercise they get the greater will be the profit on their keep. I have known cases where animals were closely housed for seven months, and yet their health did not appear to suffer in the slightest degree. In fact, so predominant are the vegetative functions of the ruminants over their nervous attributes, that the only essential conditions of their existence are adequate supplies of good air and food. That the health of these animals does occasionally suffer when the motions of their bodies are reduced to aminimumis quite true; but in most of these instances the real cause is, not the want of exercise, but the want of pure air. The greatest care should, therefore, be taken in the ventilation of the places where stock, whether old or young, are kept; and no economy of space or heat will compensate for the want of wholesome air. Under the fallacious idea that exposure to cold renders young stock hardy, many farmers turn them out to eat straw in the open fields in frosty weather. Treatment of this kind, instead of being productive of good, almost invariably lays the foundation of disease, which will manifest itself at some stage of the animal's growth. There are a few favored localities, such as those to which I have already alluded, where yearlings may beoccasionally allowed a turn through the fields in winter; but on cold clays, wet moors, and sandy soils the young stock should never be permitted to leave their sheds or courts from the time they are housed till late in the spring.
Young stock are best fed on good meadow hay and turnips, with a moderate supplement of oil-cake; this, however, is expensive feeding in many farms, and a little filling-in may be done with cheaper or more easily obtainable stuffs. A mixture of cut chaff, with pulped mangels, is a good substitute for the more costly hay; and particularly in the case of animals intended for breeding or for the dairy. The roots should be pulped, and allowed to remain until, owing to a slight fermentation, they become warm. This change takes place in from twenty-four hours to sixty hours, according to the temperature; but the fermentation should not be carried farther than the earliest stage. The heated pulp should then be thoroughly mixed with the chaff, and the compound, after an hour or two, will be ready for use. A little chopped hay—no matter if inferior or slightly mildewed—may be substituted for the chaff, and turnips employed instead of the mangels, but the latter are the more desirable roots.
Until lately, the use of oil-cake was confined to fattening animals, but latterly it is freely given to calves, even when they are only a month old; and there is no doubt but that it is a suitable and economical food for store stock. It is, however, sometimes given in excess: from half a pound to two and a half pounds daily will be sufficient for animals under one year; and this addition to their food will be found to exercise a beneficial influence on them when they are placed in stalls for finishing. The experience of several eminent breeders has proved that fattening beasts, which had in their youth a supply of oil-cake, or its equivalent, invariably store up a larger portion of their food than those which had been reared on hay and roots only.
Mr. George Stodart, of Cultercullen, an Aberdeenshire farmer, describes, in theIrish Farmer's Gazette, his method of rearing calves:—
I occupy (says Mr. Stodart) a farm of 380 acres. I usually rear twenty-four calves yearly, and buy in sixteen one-year-olds. I generally breed from cross cows (the same as mentioned above), served by a pure Shorthorn bull. When the calves are dropped I put two calves to suck one cow for six months. In autumn, spring calves are put into the house upon turnips and straw, with about 1 lb. of oil-cake per day to each, until they are put out to grass in spring following, at which time they are one year old. Then, of course, they have grass in summer, and at the approach of winter they are again housed upon turnips and straw, which bring them to be two years old in spring. Now they are sent out to the best grass, and again brought into the house at the beginning of September, and fed on turnips and straw until the end of November or middle of December, when they usually fetch from £25 to £32 a-head. This year (1864), however, they will average £32. a-head. Before selling I give each 3½ lbs. of oil-cake per day for six weeks, and during this time they have swede turnips; at other times yellow. We give as much turnips at all times as they can eat.
Mr. Bowick, in his excellent paper on the rearing of calves, published in the Journal of the Royal Agricultural Society, gives the following information on this subject:—
We consider it desirable to allow the calf to remain with its dam for the first three or four days after calving.
Not much trouble is generally experienced in getting it to take to the pail. We find it better to miss the evening's meal, and next morning a very little attention induces the majority of them to partake of what is set before them. At most the guidance of the fingers may be wanted for the first meal or two.
As regards the quantity of milk which is needful to keep a moderately bred Shorthorn calf in a thriving condition, we have found the following allowance to come pretty near the mark, although the appetite of calves varies, both in individuals and at different times with the same animal:—
1st week with the dam; or 4 quarts per day, at two meals.
2nd to 4th week, 5 to 6 quarts per day, at two meals.
4th to 6th week, 6 to 7 quarts per day, at two meals.
And the quantity need not, during the ensuing six weeks (after which it is weaned), exceed a couple of gallons per day. This implies that the calf is fed upon new milk only, and that no other feeding liquids are employed. But, in addition to the above, the calf will, towards the fourth week, begin to eat a little green hay; and in a week or two later, some sliced roots, or meal, or finely crushed cake, mixed with hay-chaff; and, if really good, creditable beasts are wanted—such as will realise £25 a-head from thebutcher when turned two and a half years old—a little cake or meal in their early days will be found a desirable investment. In fact, we doubt not but 1 lb. of cake per day to the calf will make as much flesh as triple the quantity of cake at any period of after life. As regards meal, if that is given with the chaff, we prefer oatmeal, or barley-meal, or wheaten flour, but not the meal of beans or pease. Others may see it differently, but we believe beans to be too heating for any class of young stock. For roots, the best we know of is the carrot, grated and mixed with the chaff, or sliced thin with a knife and given alone. It is also, of all roots, the one which we find them most fond of, and which they will most readily take to. As soon as they can eat them freely, an immediate reduction in the supply of milk may be made.
In most articles it holds good in the end that "the best is the cheapest." So with the rearing of calves; the best class of food, or that above referred to, is found to give the greatest ultimate satisfaction. But practically the question often is, how to rear good calves with comparatively little new milk, a condition which circumstances often render almost imperative; for where dairy produce, in any other form, is the chief object, the calves stand in a secondary position, and are treated accordingly. But let us ask whether you cannot rear good stock under such circumstances also? We believe that this may be, and often is done. We manage to turn out from twenty-five to thirty calves annually—such as will pass muster anywhere—and never use at any one time more than six gallons of new milk daily. For this purpose, as well as to obtain a regular supply of milk for other purposes, the calves are allowed to come at different periods, extending from October to May. Hence the calf-house has generally a succession of occupants throughout the season; and as one lot are ready to be removed, and placed loose in a small hovel, with yard attached, others fill their places. We begin with new milk from the pail, which is continued for a fortnight after leaving the cow. Then skim-milk—boiled, and allowed to cool to the natural warmth—is substituted to the extent of one-third of the allowance. In another week the new milk is reduced to half, and at the same time, not before, boiled linseed is added to the mess.19As soon as they take freely to this food, the new milk may be replaced with that from the dairy, and the calf is encouraged to indulge in a few sliced carrots and the other dry foods named.
Mr. Murray, of Overstone, thus states the expense ofrearing the calf until it is two years old, when, after the weaning process is completed, it is turned out to grass:—
During the summer they have the run of a grass paddock during the day, but return regularly to their yards at night; the following winter they are kept in larger yards, and which contain a greater number of animals. Their bill of fare for this winter is 2 lbs. of oil-cake, half a bushel of cut roots, with cut chaffad libitum. The chaff has a small quantity of flour or pollard mixed with it, is moistened with water, and the whole mass turned over; this is done the day previous to using it. By this means they eat the chaff with more relish, and moistening it prevents the flour being wasted. They are put to grass the following summer, generally from the 15th to the 20th of May, or as soon as the pastures are in a state to receive them; they remain there on second-rate land till about the end of October, when they are brought home and tied up in the stalls. The daily allowance is then 4 lbs. linseed-cake, 4 lbs. flour—¾ bean, ¼ barley—1 bushel of cut roots with cut chaff; the flour and chaff is mixed as already described. At about the end of December the quantity of cake is increased to 8 lbs., and the flour to 6 lbs.; this they continue to receive till they are sold to the butcher during the months of March and April, when they weigh, on an average, 90 stones of 8 lbs. per bullock, and under two years and six months old. At this season of the year beef generally makes 5s. per stone—we often make 9s.—but taking that as an average would make the value of each beast £22 10s. The cost of keeping to this age will be as follows:—
Shelter of Stock.—The great diminution of temperature, and the falling off in the supply of herbage, that are coincidentwith the close of the autumn, render it necessary to remove our cattle from the open fields, and provide them with some sort of shelter during the winter months and early part of the spring.
The particular period at which this change of quarters takes place of course varies, and is, in fact, altogether dependent upon the character of the season. There are some years in which there is, so to speak, a kind of relapse of the summer, November being bright and warm, instead of, as is usually the case, cold and foggy. In such a year there is some herbage to be picked up until the very end of December. On the other hand, the latter part of October is often very wet, and October frosts are by no means uncommon. Tempestuous, biting winds in November, or torrents of rain, or both, tell severely upon the poor animals in the fields, even where there is abundance of herbage; and hence, should such weather take place at the latter part of October, the true economy would be to remove the animals at once to sheltered places.
Nothing lowers the temperature of the surface so rapidly as a cold wind. Captain Parry, one of the explorers of the Arctic regions, states that his men, when well clothed, suffered no inconvenience on exposure to the low temperature of 55 degrees below zero, provided the air was perfectly calm; but the slightest breeze, when the air was at this temperature, caused the painful sensation produced by intense cold. I could adduce the experience of many practical men in favor of the plan of affording shelter to animals, but more especially to those kept in situations much exposed to winds. Mr. Nesbit relates a case bearing on this point:—A farmer in Dorsetshire put up twenty or thirty sheep, under the protection of a series of upright double hurdles lined with straw, having as a sort of roof, or lean-to, a single hurdle, also lined with straw. A like number of sheep, of the same weight, were fed in the open field, without shelter of any kind. Each set was fed with turnipsad libitum. The result was, thatthose without shelter increased in weight 1 lb. per week for each sheep, whilst those under shelter, although they consumed less food, increased respectively 3 lbs. per week.
As a general rule, the latter part of October, or early in November, is the time for the removal of live stock from the pastures to the shelter of the farmstead. In England and Scotland the transference is seldom delayed after these dates; but in Ireland it is no uncommon thing to see the animals grazing very much later in the year—a circumstance which the lateness and mildness of our climate account for. But whatever the date may be, the importance of such shelter is universally recognised, even by those who most neglect it and are least acquainted with the principles upon which its necessity depends. The more important of these principles have already been explained, but they may be here summarised as follows:—
1. A certain amount of warmth is an indispensable condition for the maintenance of the life of animals.
2. The internal heat of the bodies of animals is supplied by the chemical combination which takes place between the oxygen of the atmospheric air which they inspire and certain of the constituents (carbon and hydrogen) of the food which they consume, or, to speak more accurately, of the tissues of their bodies, which are formed out of their food. It is very much in the same way in which our houses are heated by the burning of coal, turf, or wood in their fire-places, since the heat derived in the latter case is obtained from a similar source as in the former one—namely, by the union of the oxygen of the air with the carbon and hydrogen of the fuel. The only real difference between the two kinds of combustion is, that in respiration the process is conducted with an extreme degree of slowness, whilst in the ordinary fire the combinations take place rapidly, and the heat being evolved in a much shorter time is proportionately the more intense.
3. The temperature of the external parts of the animal body varies with the nature and quantity of the food supplied to it, and also depends upon the state of the weather and the character of the protection afforded to it.
The colder the air, the greater will be the quantity of food required, and the more complete the shelter. In other words, a diminution of temperature, no matter how caused, will necessitate an increased amount of food and more perfect shelter, in order to maintain at the proper degree of heat the fluids of the body. It is only the external parts of the body that become cold: so long as the animal is in health its blood always maintains the same degree of temperature; but in cold weather the blood is subjected to a greater cooling power than it is in warm weather, and this cooling power it can only resist by taxing more extensively the heat-producing resources of the body.
4. Exposure to wet, even in warm weather, will tend to reduce the temperature of the body, since the conversion of water into vapor can only be effected at the expense of heat, which heat must be in great part extracted from the body of the animal itself.
5. No possible increase of food, however nutritious it may be, can suffice to keep up the due warmth and healthy condition of the animal frame in winter, if shelter from cold and rain be not simultaneously effected. On the contrary, an animal well protected from the winter blasts will require much less food than if it were placed in an exposed position. The reason of this is, that the amount of food which an animal exposed to great cold consumes to maintain the temperature of its body would, under opposite conditions, be stored up in the form of permanent "increase"—beef or mutton for the butcher, in fact.
The fat-forming constituents of the food of stock are in no case converted into permanent fat, except when they exceed in quantity the amount required to keep up the internal heat of the animal; but when this is constantly reduced by exposureto a wintry temperature, the food becomes insufficient for even that purpose, no matter how much aliment is given. What, then, must not be the condition of the unfortunate animals whose fate it is to be the property of a farmer who neither shelters them from the weather nor provides them with a sufficient quantity of nourishing food!
Milch Cows.—When dairy-farming is conducted on pure pastures, the cows are altogether dependent upon the grasses; and in winter, the animals suffer much from scarcity of food. This is the very worst system of cow-keeping, but it is prevalent amongst many small farmers in Ireland, and is to be met with even in England and Scotland. I am strongly of opinion that it would be far more economical to keep cows (and other cattle) altogether in the house, and feed them with cut grass, than to allow them to remain out altogether in the field. There are several disadvantages resulting from the depasturing of cows. In the warm weather, the animals are greatly annoyed by the attacks of flies: there is a considerable waste of muscle, caused by the movements of the animals whilst in search of their food; and the excrements of the animals and their footmarks injure a large portion of the grass. It may be somewhat troublesome and expensive to cut the grass, and convey it from the field to the house; but the labor and the cost will be more than repaid by the greatly-increased yield of food. A grass-field, mowed, will produce from 20 to 30 per cent. more food than it would if it were trampled upon and soiled by cattle. Exercise for an hour or two in the cool of the evening, or early in the morning (during the hot weather), will be quite sufficient to keep the animals in health. This may be taken in a field, better in a paddock, best of all in a roomy yard. When cattle are supplied with cut grass, or clover, care should be taken not to give it to them when very wet, for otherwise there is danger of the excessively moist herbage producing thehoove. Neither should large quantities of the green food be given to them—the supply should be "little and often." Should the food be too succulent, the addition of alittle straw will correct its laxative effects. When the stock is about passing from the winter keep to summer food, the transition should be gradual; a well-made compound of straw or hay with grass (natural or artificial) is much relished by cows. A supply of good water is absolutely necessary; but sufficient attention to this important point is seldom given. Cooked food is well adapted for milch cows. Mangels, kohl-rabi, and cabbages are each of them better food than turnips, as the latter is apt to impart a disagreeable flavour to the butter. Three feeds in the day is a sufficient number for cows. The first meal should be early in the morning, and may consist of roots, mixed with straw or hay. Some feeders prefer using dry fodder, or cooked food of some kind, and not raw roots. The second meal is given at mid-day, and the third in the evening. The daily allowance of roots varies from 2 to 8 stones, depending upon the quantities of other foods used. Mr. Horsfall's diet is as follows:—Hay, 9 lbs.; rape-cake, 6 lbs.; malt-combs, 1 lb.; bran, 1 lb.; roots, 28 lbs. These substances are mixed and cooked, and the animals receive them in a warm state. In addition to this food, Mr. Horsfall's cows get bean-meal—a cow in full milk 2 lbs., others from ½ lb. to 1½ lbs.; cost per week per cow, 8s. 7d.20Mr. Alcock, of Skipton, feeds his cows as follows:—Raw mangels, 20 lbs.; carob beans, 3 lbs.; bran and malt-combs, 1¾ lbs.; bean-meal, 3½ lbs.; rape-cake, 3 lbs.; per diem. A steamed mixture of wheat and bean straws and shells of oatsad libitum. Oats, to the extent of 2 or 3 lbs. daily, are an excellent food for cows.
An important point in dairy economics is the feeding of the cows atregularintervals. If the usual time for the feed be allowed to pass, the animals are almost certain to become very uneasy—toworry; and every feeder knows, or ought to know, that a fretting beast will neither fatten nor yield milk satisfactorily. The cow-house ought to be kept as clean aspossible; and the excreta, therefore, should be removed several times a day.
Mr. Harvey, of Glasgow, has probably one of the largest dairies in the world. His cow byres, 56 yards long, and from 12 to 24 feet wide—according as one or two rows of cows are to be accommodated—stand closely packed, the whole surface of the ground being thus covered by a kind of roof. From 900 to 1,000 cows are constantly in milk. They are fed during winter partly on steamed turnips (7 tons being steamed daily in order to give one meal daily to 900 cows), partly on coarse hay, of which, as of straw, they get between 20 and 30 lbs. a day each. They are also fed on draff, of which they receive half a bushel daily each; on Indian corn meal, of which they have 3 lbs. daily each; and on pot-ale, of which they receive three times a day nearly as much as they will consume,i.e., from 6 to 10 gallons daily. During the summer they are let out, a byreful at a time, for half a day to grass, and on coming in receive their spent malt and still liquor, and hay in addition. They are managed, cleaned, and fed by two men to each byre holding about 100 cows. The milking is done three times a day, by women who take charge of 13 cows in full milk, or double that number in half milk, apiece. Between 4 and 5 o'clock a.m. (taking the winter management), the byres are cleaned out, and the cows receive a "big shovelful" of draff apiece, and half their steamed turnips and meal, and a "half stoupful," (probably 2 gallons) of pot-ale. They are milked very early. At 7 they receive their fodder-straw or hay. At 10 they get a "full stoupful" (probably 3 or 4 gallons) of pot-ale. They are milked at noon. At 2 p.m., or thereabouts, they are foddered again, and at 4 p.m. receive the same food as at the morning meal. They are again milked at 5 to 6, cleaned out and left till morning. The average produce is stated to be 2 gallons a day per cow.
Mrs. Scott, of Weekston, Peebles, who keeps one of the best managed dairy farms in the United Kingdom, thus conductsher operations in the winter:—At 6 o'clock in the morning the cows are well wiped or scrubbed, have their bedding removed, and receive each about 4 or 5 lbs. of straw. At 8 o'clock the cows are milked, and Mrs. Scott examines each to ascertain whether or not the milk-maid has left any fluid in the udder—and woe betide the careless maid if her work has been carelessly done! At 10 o'clock a barrowful of turnips is divided amongst three cows, and when these roots are not available, a quantity of peas or bean meal, with a pint of cold water, takes their place. At 1 o'clock the cows are allowed out to be watered, and during their absence from the byre it is thoroughly cleansed and ventilated. When the state of the weather prevents the cows from being turned out, they receive twice a day a handful of oatmeal diffused throughout three pints of water—a handful of salt being given in the first of these drinks. When the cows return to the byre, they receive each about 4 or 5 lbs. of straw, and at 4 or 5 o'clock an evening meal of turnips equal to their morning feed. At 8 o'clock a "windling" of meadow hay is given to each pair of cows, the quantity being always regulated according to the requirements of each cow. The cows upon calving receive, in addition to this allowance of hay, half a pailful of boiled turnips, mixed with a quart of peas or bean-meal. This mess is given in a lukewarm state. Mrs. Scott's system may be thus epitomised: Regularity in feeding; sufficient but not excessive food; regularity in milking; and minute attention to cleanliness and ventilation.
Stall-feeding.—What becomes of the 90 per cent. of the weight of the non-nitrogenous constituents of the food of the sheep, and of the 80 per cent. of that of the nutriment of the pig, which they consume but do not store up? I have already partly answered this question. This portion of the food is chiefly expended in the production of the heat with which the high temperature of the animal's body is maintained. Part of it, no doubt, passes unchanged through its body, either owing to its indigestibility, or to its being given in excess. Thequantity of non-nitrogenous matters consumed by a man is influenced greatly by the temperature of the air which he habitually breathes, and by the nature of the artificial covering of his body; there may be other conditions at present unknown to us, but these are amongst the chief ones. Now, as there is sufficient reason to lead us to believe that the consumption of carbonaceous food by the lower animals is influenced in the same way by the temperature of the medium in which they exist, the question naturally suggests itself, would it not be cheaper to maintain the heat of the animal by burning the carbon of cheap coal or turf outside its body, than by consuming the carbon of costly fat within it? The answer to this question is not so simple as at first sight it appears to be. We must not consider that, because 10 lbs. weight of carbon, as coal, costs but a penny, whilst an equal weight of the same element in starch costs twenty pence, heat may be furnished to a fattening animal twenty times cheaper by the combustion of coal than by that of starch. No doubt the amount of heat evolved by the conversion of a pound-weight of carbon into carbonic acid is the same, whether it be a constituent of starch or of coal; but the application of the heat so produced is less under our control in the latter case. All the heat evolved during the combustion of the starch within the animal's body is made use of; whilst a very large proportion of that developed by the combustion of coal in a furnace cannot in practice be applied to the purpose of heating the animal's body.
It is only the handiwork of the Creator which is perfect, and no machine constructed by the skill of man, for the direction of force, can rival that wondrous heat-producing, force-directing mechanism—the animal organism. According to Dumas, the combustion of about 2½ lbs. of carbon in a steam-engine is required to generate sufficient force to convey a man from the level of the sea to the summit of Mont Blanc; but a man will ascend the mountain in two days, and burn in his mechanism only half a pound of carbon. There is no machinein which heat and force are more completely made available than the animal organism; and were it not—thanks to the influence of antediluvian sunshine—that the carbon of fuel in these countries is so very much cheaper than the carbon of food, there is no doubt but that the cheapest mode of keeping an animal warm would be to allow it to burn its carbon within its body. As the matter stands, however, there is no question as to the advisability of keeping fattening animals in a warm place. If the temperature of the stall be equal to that of the animal's body there will be less food consumed in the increase of its fat; because less of the fat-forming materials will be expended in the production of heat. In this sense, therefore, heat is an equivalent to food, but only within certain limits; because heat is developed in large quantity within the animal body independently of the temperature of the air. There is, therefore, no object to be attained by having the stalls heated beyond 70 or 80 degrees. Indeed, it is to be questioned whether or not stalls artificially heated are ever properly ventilated. If they be not, the health of the animal will suffer, and its appetite—so essential a point in fattening stock—will become impaired. We may conclude—firstly, that animals, when fattening, should be kept at a temperature not under 70 degrees nor above 90 degrees Fahrenheit; secondly, that the mode of heating must be such that there is as little wasteful combustion of fuel as is possible under the circumstances; and, lastly, that no motives of economy of fuel should prevent the feeding places from being thoroughly ventilated.
Stall-feeding is not so extensively carried on in Ireland as it is in Great Britain. There is a general impression that it does not pay in the former country; but if such be the case, it is simply owing to the want of skill on the part of the Irish feeders.
The cattle intended for stall-feeding should be removed (if out) from the field in October, and put into the house, or court, or crib, or hammel, as the case may be. They are fed upon roots, straw, hay, grain, and artificial food. The greatest skill is required in their treatment. It is a nice point to determinewhich foods are the most economical, and also to ascertain in what foods excessive proportions of certain nutritive elements exist. Sufficient food should be given; but any approach to waste should be avoided. Three feeds a day are usually given, and should be supplied at the same hours each day. For about two weeks the animals are furnished with white turnipsad libitum; but after the expiration of that time they receive Swedish turnips, straw, and grain, or oil-cake. Late in the season mangels will replace turnips. Almost every extensive feeder now uses oil-cakes in large quantities; but when oats are low in price, they will in general be found a cheap equivalent for a large proportion of the oil-cake. Different feeders have different dietaries, and the nature of the aliments supplied to fattening stock depends very much upon the market prices of food-stuffs, and the locality in which the feeding-house is situated. The following dietaries are but examples of the methods of feeding adopted in different districts and by different persons:—
Mr. McCombie, of Tillyfour, fattens from 300 to 400 beasts annually, and obtained for them in 1861 £35 per head. He never exceeds 4 lbs. of oil-cake per diem, nor 2 lbs. of bruised oats, for each beast. He gives as much turnip and straw as they can consume. He realises £12 per acre in feeding on Aberdeen and Swedish turnips.
"For fatting cattle," says Mr. Edmonds, of Cirencester, "I should recommend two parts hay and one part straw, or in forward animals three parts hay and one part straw cut in chaff. Those of average size will eat somewhere about five bushels per day, with 4 lbs. to 5 lbs. oil-cake, and half a peck of mixed meal, barley and peas, or beans, and, if cheap, a proportion of wheat also, to be increased to one peck per day in a month or six weeks after they have come to stall, the oil-cake and meal to be boiled in water for half-an-hour or three-quarters, and thrown in the form of rich soup over the chaff, and well mixed, to which add a little salt."
Colonel M'Douall, of Logan, Wigtonshire, gives 3 lbs. ofbean-meal and 3 lbs. of cut straw cooked together, and 84 lbs. of Swedish turnips.
According to the researches of Messrs. Lawes and Gilbert, an ox weighing 1,400 lbs. ought to gain 20 lbs. weekly when fed under cover with 8 lbs. of crushed oil-cake, 13 lbs. of chopped clover hay, and 47 lbs. of turnips. The chemical constituents (in a dried state) of this allowance are as follows:—
Cost of Maintaining Animals.—The animal mechanism, which exhibits the least tendency to fatten, is the most costly to keep in repair, in relation to the work performed by it. If, for example, a sheep store up in its increase one-fifth of its food, then the remaining four-fifths are expended in preserving it alive, and their cost represents, so to speak, the expense of preserving the animal's body in repair. If another sheep store up only one-tenth of its food, then the cost of its maintenance may be said to be double that of the animal which retains the larger proportion of its nutriment in the form of flesh. Of course in both cases the value of the manure will to a great extent compensate for the cost of the food expended in merely keeping the animal alive; but that does not affect the proposition, that the less food expended by an animal in carrying on its vital functions the more valuable is it as a "meat-manufacturing machine." From the moment it is brought into the world until it is "ripe" for the shambles, an animal should steadily increase in weight: every week that it does not store up a portion of its food in permanent increase is the loss of a week's food to the feeder; for all the fodder consumed during that time by the animal is, so to speak, devoted to its own private purposes. Sheep overcrowded on pastures, milch cows on "short commons," calves kept on bulky innutritious food, are all so many sources of positive loss to the feeder—and as many proofs that he who aspires tobe a successful producer of meat, must, in one respect at least, be a devout believer in the doctrine of Progressive Development.
Cooking and Bruising Food.—The cooking, or the otherwise preparing, of the food of the domesticated animals is a subject which until recently was completely ignored by the vast majority of stock feeders. It is now, however, beginning to attract a fair amount of attention; and no doubt ere long the best modes of treating the food of cattle will be discovered.
As might be expected from our limited experience of the subject, there exists considerable difference of opinion relative to the proper method of cooking cattle food; and there are many very extensive feeders who object to the plan altogether, and contend that as the food of the inferior animals is naturally supplied to them in a raw condition, it would be quite unnatural to give it to them in a cooked state.
Whatever difference of opinion there may be with regard to the propriety of cooking the food of stock, we believe there ought not to be a doubt as to the desirability of mechanically treating the harder kinds of feeding stuff. It is quite evident that a horse fed upon hard grains of oats and wiry fibres of uncut hay or straw must expend no inconsiderable proportion of his motive power in the process of mastication. After a hard day's work of eight or ten hours he has before him the laborious task of reducing to a pulp from 12 lbs. to 20 lbs. weight of exceedingly hard and tough vegetable matter; and as this operation is carried on during the hours which should be devoted to rest, the repose of the animal is to some extent interfered with. Indeed, it not unfrequently happens that a horse, after a hard day's work, is too tired to chew his food properly; he consequently bolts his oats, a large proportion of which, as a matter of course, passes unchanged through the animal's body.
In order to render fully effective the motive power of the horse, it is absolutely necessary to pay attention to the condition, as well as to the quantity and quality of his nutriment. The force wasted by a horse in the comminution of his food, when composed of whole oats and uncut hay and straw, cannot,at the lowest estimate, be less than that which he expends in an hour of ordinary work, such as, for example, in ploughing. The preparation of his food by means of water or steam power, or even by animal motive power, would economise by at least 50 per cent. the labor expended in its mastication; and this would be equivalent to nearly half a day's work in each week, and, consequently, a clear gain of so much labor to the owner of the animal. In the present time of water-power and steam-power corn-mills, one man is able to grind the flour necessary for the support of several thousand men; in early ages the labor of one person in the grinding of wheat served but to supply the wants of twenty others. In both cases machinery was employed for reducing the grain to flour; but in the one case, the mechanisms employed were more than a hundred times more effective than in the other. But even the most imperfect flour mill is by far a more economical system of comminuting corn than the jaws of animals; and if every man were obliged, as the horse is, to grind his corn by means of his teeth alone, he would find his powers for the performance of other kinds of labor considerably lessened.
It has been urged as an objection to the use of bruised oats by horses, that they exercise in that state a laxative influence upon the animal's bowels. I doubt very much that such is frequently the case, when the animal is fed only upon oats and hay and straw; but even if the oats produce such an effect, the addition of a small proportion of beans—the binding properties of which are well known—will obviate the disadvantage.
The desirability of mechanically acting upon soft food is not so apparent as the necessity for the bruising of oats is. Roots are so easily masticable that if they are rendered more so there is danger of their being so hastily swallowed as to escape thorough insalivation, which is so necessary to ensure perfect digestion. To guard against this danger, perhaps the best way would be to give pulped mangels and turnips mixed with cut straw; a mixture which could not easily be bolted. Mr. Charles Lawrence, of Cirencester, who is a great advocatefor the cooking of food, and has frequently published his experience of the benefits derivable therefrom, thus describes his method of combining pulped roots with dry fodder:—
We find that, taking a score of bullocks together fattening, they consume per head per diem three bushels of chaff, mixed with just half a cwt. of pulped roots, exclusive of cakes of corn; that is to say, rather more than two bushels of chaff are mixed with the roots, and given at two feeds, morning and evening, and the remainder is given with the cake, &c., at the middle-day feed, thus:—We use the steaming apparatus of Stanley, of Peterborough, consisting of a boiler in the centre, in which the steam is generated, and which is connected by a pipe on the left hand with a large galvanised iron receptacle for steaming food for pigs, and on the right with a large wooden tub, lined with copper, in which the cake, mixed with water, is made into a thick soup. Adjoining this is a slate tank, of sufficient size to contain one feed for the entire lot of bullocks feeding. Into this tank is laid chaff with a three-grained fork, and pressed down firmly; and this process is repeated until the slate tank is full, when it is covered down for an hour or two before feeding time. The soup is then found entirely absorbed by the chaff, which has become softened and prepared for ready digestion.
Mr. Wright, near Dunbar, gives the following account of an experiment with pulped roots and straw and oil-cake. It appears to prove the superiority of mixed foods over the same foods consumed separately:—
Two lots of year-old cattle were fed; the one in the usual way—sliced turnips and straw,ad libitum—the others with the minced turnips, mixed with cut straw. The first lot consumed daily 84 lbs. sliced turnips, 1 lb. oil-cake, 1 lb. rape-cake, ½ lb. bean-meal, broken small and mixed with a little salt, and what straw they liked. The second lot ate, each, daily, 50 lbs. minced turnips, 1 lb. oil-cake, 1 lb. rape-cake, ½ lb. bean-meal, and a little salt, the whole being mixed with double the bulk of cut straw or wheat chaff. In spring, the lot of cattle which had the mixed food were in good condition, and equally well grown as others, though they had consumed in five months two tons less of roots apiece. The reporter does not advise the mincing process to be commenced when cattle are very forward in condition, as any change of food requires a certain time to accustom the animals to it, and in the meantime fat cattle are apt to fall off in condition. It ought to be begun when they are young and lean.
Mr. Duckham, of Baysham Court, Ross, Herefordshire, says:—
The advantages of pulping roots for cattle are—1st, Economy of food; for the roots being pulped and mixed with the chaff, either from threshing or cut hay or straw, the whole is consumed without waste, the animals not being able to separate the chaff from the pulped roots, as is the case when the roots are merely sliced by the common cutter, neither do they waste the fodder as when given without being cut.
2. The use of ordinary hay or straw. After being mixed with the pulp for about twelve hours, fermentation commences, and this soon renders the most mouldy hay palatable, and animals eat with avidity that which they would otherwise reject. This fermentation softens the straw, makes it more palatable, and puts it in a state to assimilate more readily with the other food. In this respect I think the pulper of great value, particularly upon corn farms where large crops of straw are grown, and where there is a limited acreage of pasture, as by its use the pastures may be grazed, the expensive process of haymaking reduced, and, consequently, an increased number of cattle kept. I keep one-third more, giving the young stock a small quantity of oil-cake, which I mix with the chaff, &c.
3. Choking is utterly impossible, and I have only had one case of hoove in three years, and that occurred when the mixture had not fermented.
4. There is an advantage in mixing the meal with the chaff and pulped roots for fattening animals, as thereby they cannot separate it, and the moisture from the fermentation softens the meal and ensures its thorough digestion, whereas, when given in a dry state without any mixture, frequently a great portion passes away in the manure.
On the value of the process for a grazing farm with but a small quantity of plough-land, Mr. Corner, of Woodlands, Holford, Bridgewater, thus speaks:—
My plan is, first commencing with the grazing beasts, to cut about an equal quantity of hay and straw and mix with a sufficient quantity of roots (mostly mangel) to well moisten the chaff; and as the beasts advance in condition, I lessen the straw and increase the hay, and in their further progress I mix—in addition to all hay, chaff, and roots—from 6 to 10 lb. per day to each bullock of barley and bean-meal, according to its size—and I have them large sometimes. I sold last week for the London market a lot of Devon oxen of very prime quality, averaging in weight upwards of 100 stone imperial each.
For my horses, cows, yearlings, and oxen—the latter to be kept in a thriving condition, and turned to grass, and kept through the summer for Christmas, 1860—I cut nearly all straw, with a very small quantity of hay, and this the offal of the rick. These also have as many pulped roots as will moisten the chaff, except the horses, and to them I give, along with bruised oats, just enough roots to keep their bowels in a proper condition.To the two or three-year-old beasts I give some long straw and a part chaff, and the offal (if any) of the food of the above lots of stock.
My farm is but a small one—under 200 acres. My predecessor always mowed nearly all the pastures for hay, which is about half the farm, and with this scarcely ever grazed any beasts, and kept but very few sheep. Since my occupation I scarcely ever exceed ten acres of meadow with one field of seeds for hay. I keep from 250 to 300 large-size Leicester sheep, and graze from 20 to 25 large-size beasts a year, with other breeding stock in proportion.
I consider the pulping of roots is better for fatting pigs than anything else. My plan is to have a large two-hogshead vat as near the pulping machine as possible, so as to fill it with a malt shovel as it comes from the machine; at the same time I keep a lad sprinkling meal (either barley or Indian corn) with the roots; and this is all done in fifteen or twenty minutes. It is then ready for use, to be carried to the pigs in the stalls alongside the fatting beasts. I never could fatten a pig with profit until I used pulped roots.
Although the practice of cooking food has been advocated by several eminent feeders, it has been condemned by others. Mr. Lawes is not favorable to the cooking of food unless when it is scarce. The results of Colonel M'Douall's experiments go to prove that cattle can be more economically kept upon a mixture of raw and cooked foods than upon either raw or cooked fodder given separately. One meal of cooked food and two feeds of raw turnips gave better results than three feeds of raw turnips; whilst two cooked feeds and a raw one resulted in a loss.