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BEEF PRODUCTION

BY

HERBERT W. MUMFORD

PROFESSOR OF ANIMAL HUSBANDRY, UNIVERSITY OF ILLINOIS, AND CHIEF
IN ANIMAL HUSBANDRY AGRICULTURAL EXPERIMENT STATION.
FORMERLY PROFESSOR OF AGRICULTURE, MICHIGAN
AGRICULTURAL COLLEGE.

“Beef is the imperial flesh jood of the race.” —KERRICcK

URBANA, ILLINOIS
PUBLISHED BY THE AUTHOR
1907

LIBRARY of CONGRESS
Two Copies Received

MAY 23 1907
Cepyright Entry

od Ged,
LASS a — XAXC,, No.

Ib6E 94%

COPY B.

Ny

CopPpyRIGHT, 1907
BY
HERBERT W. MUMFORD

Ohe Lakeside iPress
R. R. DONNELLEY & SONS COMPANY
CHICAGO

CONTENTS

PART I.—FATTENING CATTLE FOR THE MARKET

CHAPTER

aoe &

i:

AU

IV.

Ae

Wel
ALE.
VIII.

The Relation. af Cattle » Feeding to Soil Fer-
tility ;

General She eee in Buying Feeding
Cattle .

The Various Grades of Feeding Cattle ee.
cribed .

Incidental Expenses in, ake Cattle reine
Business; Freight and Commission; Labor

Some Business Phases of Cattle Feeding —
Relation of Cost of Feeds to Profits; Re-
lation of Initial Weights of Feeding
Cattle to Profits on Finished Beef; Rela-
tion of Cost Price of Various Grades of
Feeding Cattle to Profits

Wintering Stockers and Feeders

Getting Cattle on Feed

Feeds used for Fattening Cattle —Their
Preparation and Use; Corn; Cottonseed
Meal; Ground Linseed Cake or Oil Meal;
Oats; Molasses; Roughages; cere Hay
and Mingling with Grain

Baby Beef

Selecting Cattle for, and the Possibilities of
the Short Feed

Making Christmas Beef

Care of Cattle on Feed — Quietness; Number
of Times to Feed; Number of Cattle To-
gether; Salting; Dehorning Stockers and
Feeders, How and Why

3

PAGE

9:

14

21

30

3”
46
49

53
76

82°
86

92

4 CONTENTS

XITI. Length of the Feeding Period
XIV. Feeding Cattle for the Home Market

XV. Kind and Care of Pastures for Beef Produc-
tion; Fattening Cattle on Grass

XVI. Hogs in the Feed Lot
XVII. Fitting Steers for Exhibition

XVIII. Advantageous Seasons for Marketing Vari-
ous Grades of Cattle; Demand for Prime
Cattle; Demand for Baby Beef; Demand
for Export Cattle other than at Christmas;
Demand for Common Cattle .

XIX. Marketable Condition— When is a See
| Ready for Market; eee Cattle for
Shipment

XX. Lice; Mange; Riera: Bamps
Blackleg; Texas Fever .

XXI. Equipment for Cattle Feeding — Buildings
and Shelter; Feed Bunks; The Paved Lot,
How to Make and Use It; The Self-feeder,
hor to Make and Use ie

. 100
. 102

. LOA
tal
« like

121

124

130

143

PART II.— BREEDING BEEF CATTLE FOR THE

MARKET

XXII. Breeding for Beef; Selection and Use of
Bulls; Management of the Bull; Care and
Management of the Herd; When to Have
Calves Dropped; Age to Breed Heifers;
Summer Feeding; Winter ous of Beef
Breeding Cows

XXIII. Cost of Rearing Calves Allowed to Nee
their Dams .

XXIV. The Dual Purpose Cow dad Beef Pdeten

XXV. Skim Milk Calves; How to Raise a Skim
Milk Calf. ; :

. 158

sal

176

. Lse

CONTENTS 5

PART II.— ELEMENTARY PRINCIPLES OF STOCK
FEEDING

General Discussion; Composition of Food-Stuffs;
Digestion and Growth. . 186

Compounding of Rations; Feeding Standards for
Beef Cattle; Computing a “Balanced Ration’ 193

PREFACE

The magnitude and importance of the production
of beef as a factor in American agriculture are not gen-
erally appreciated. The presentation of a book devoted
solely to a discussion of the problems of the beef pro-
ducer is an attempt to give adequate recognition to the
industry.

In ‘‘Beef Production” the attempt is made to pre-
sent in the most direct manner certain facts of great
~ economic importance to American beef producers.
Much of the information given is based upon extensive
feeding experiments conducted by the author at the
Illinois Experiment Station. The arrangement of mat-
ter is designed to suit the demands both of the actual
cattle feeder and of the student; to serve both as a
ready reference guide — a text adapted to the progres-
sive pedagogic presentation of the subject in the class-
room and a treatise conveniently arranged in logical
order for the general reader interested in the subject.
The writer fully appreciates that the work is not as
complete and comprehensive as it might be made; it is
presented, however, with the thought that it will con-
tribute to the literature, especially on the economic side,
of beef production. It is hoped that it will serve to
make beef production more profitable. The writer
wishes to gratefully acknowledge the valuable sugges-
tions and assistance given in the preparation of this
book by his associate, Mr. L. D. Hall.

HERBERT W. MUMFORD.

Urspana, I11., January, 1907.

BEEF PRODUCTION

PART LI.
FATTENING CATTLE FOR THE MARKET

CHAPTER, 1.

THE RELATION OF CATTLE FEEDING TO SOIL
FERTILITY

More extensive operations in cattle feeding can con-
sistently be urged upon farmers in general from the
standpoint of maintaining or improving the fertility of
the soil. It may be argued that other classes of live-
stock, horses, sheep, and hogs, may be fed with greater
profit. This may be granted where conditions are
especially favorable to these interests, but it must be
admitted that it is difficult, if not indeed impracticable,
to keep sufficient hogs to furnish the desired amount
of fertilizer. Then, again, cattle consume certain by-
products of the farm that are difficult to convert into
pork or bacon, mutton, or horse flesh. The feeding of
cattle with hogs as an adjunct seems a logical solution
to the conversion of farm products into cash meat prod-
ucts, furnishing at the same time a valuable machine -
for the manufacture of farm yard manure. Cattle
feeding does not necessarily mean the exclusion of other
classes of live stock on the farm.

The animal husbandry department of the Illinois
Experiment Station has repeatedly stated in its bulle-
tins that it believes that the manure produced by fat-
tening steers will balance the expense of labor in caring

9

10 BEEF PRODUCTION

for the cattle. This, we believe, is true, yet such a state-
ment is not sufficiently definite to meet the requirements
of this discussion. The writer appreciates how ex-
tremely difficult it is to determine the agricultural
value of farm yard manure, but there is, fortunately,
sufficient data at hand to throw some light on this intri-
cate problem.

Director Charles E. Thorne of the Ohio Station has
published the most valuable data concerning the use
and value of farm manures of which the writer has
knowledge. In this connection the reader’s attention
is called to Circular 54 of the Ohio Station at Wooster,
from which many of the facts used in this paper are
quoted. From unpublished records at the Ohio Station,
Director Thorne writes me that the average daily pro-
duction of manure for a thousand pound steer (records
secured from weighing the manure from 106 steers for
an average period of five months) amounted to forty
pounds in one instance and forty-six pounds in the other.
Seven pounds of these amounts was straw used for bed-
ding. In other words, the normal production of manure
from a thousand pound steer varied from three to four
tons for a feeding period of six months. The same au-
thority states that ‘‘a ton of average mixed farm manure,
as taken from open barn yards, may be expected to con-
tain nine pounds of nitrogen, ten pounds of potassium,
and three or four of phosphorus.” Professor Thorne
states that ‘when properly cared for and properly bal-
anced, the nitrogen, phosphorus, and potassium in such
manure are as effective, pound for pound, as those in
the best fertilizing chemicals.” And again: “As the
cereal crops approach maturity there is a partial sep-
aration of their chemical constituents, the nitrogen
and phosphorus accumulating in the grain until about
three fourths of that held by the entire plant is found
there, while the straw or stover contains the major por-
tion of the potassium. Hence, when the grain is sold
it carries away from the farm an undue proportion of

VALUE OF MANURE 11

phosphorus and nitrogen, and there will in time result
a deficiency of these elements in the soil as compared
with potassium unless the supply of this also is reduced
by the selling of hay and straw, or of leafy plants, such
as tobacco. If mixed farming be practiced, including
the growing and fattening of live stock, most of the
potassium will be retained on the farm; but there will
still be a heavy loss of phosphorus in that carried away
in the bones of animals grown on the farm.” It might
be added in this latter instance that the older and more
mature the animals fed the less will be this loss of phos-
phorus. This indicates that many soils under average
conditicns require more phosphorus in proportion to
nitrogen and potassium than that contained in manure.
In other words, to make farm yard manure well bal-
anced, phosphorus in some form should be added to it.
This is done by the use of acid phosphate, steamed bone
meal, or finely ground phosphate rock.

MANURE TESTS IN OHIO

At the Ohio Station under Professor Thorne’s direc-
tion tests of farm yard manure have been running for
nine years, in which it was used in different rotations,
both alone and in combination with some carrier of
phosphorus and other elements. Eight tons of manure
per acre was the standard application. The average
yearly increase per acre of this one-.application in a
three-year rotation of corn, wheat, and clover was for
the untreated manure 14.70 bushels of corn and 744
pounds of stover, a money value of $7, figuring the corn
at 40 cents per bushel and the stover at $3 per ton.
For the wheat following the corn the increase for the
untreated manure was 8.36 bushels of wheat and 897
pounds of straw, representing a money value of $7.58,
figuring wheat at 80 cents per bushel and straw at $2
per ton. For the clover following the wheat the increase
in yield for the manured plot was at the rate of 686

12 BEEF PRODUCTION

pounds, representing a money value of $2.74, figuring
the hay at $8 per ton.

Summarizing, then, we may say that the applica-
tion of eight tons of farm yard manure increased the
crops of corn, wheat, and clover in rotation represent-
ing a money value of $17.32, or $2.17 per ton. This
value was determined for yard manure that had lain in
the open through the winter. The value of stall manure
that had been kept under cover during the time it was
accumulating until a short time before application was
$23.61 for the eight-ton application, or $2.95 per ton.

WHAT AN ILLINOIS AUTHORITY SAYS

Dr. C. G. Hopkins of the Illinois Station 1s authority
for the statement that the value of farm yard manure
comes not only from the elements of plant food which
it may contain, but also and sometimes chiefly that
the decaying organic matter of the manure liberates
quantities of plant food already in the soil and adds
humus, which may or may not, according to the
character and previous treatment of the soil, add con-
siderably to its value. By balancing the stall manure
by the addition of a carrier of phosphorus the value of
the eight tons of such manure was increased $12.20, or
$1.53 per ton, and this after deducting the cost of the
material used for balancing the same. Adding this to
the untreated stall manure we have $2.95 plus $1.53,
which equals $4.48 as the possible net agricultural value
of the phosphated farm manure as applied to the soil
at the Wooster Experiment Station, where the soil is
a sandy clay loam. It should be clearly understood
that more than one-third of this value is due to the
addition of phosphorus, and it may be stated that prac-
tically the same increase was made whether the phos-
phorus was applied as acid phosphate, costing 30 cents,
or as finely ground natural rock phosphate, costing 16
cents, to the ton of manure. The power of farm manure
to liberate mineral plant food from the soil applies with

VALUE OF MANURE 13

equal or greater force to the liberation of phosphorus
from the insoluble rock phosphate when applied in con-
nection with manure.

When we remember that the production of manure
of the 1000 pound steer for a six-months’ feeding period
varies from three to four tons, we can appreciate what a
factor farm yard manure may become in increasing the
revenues of the farm and that profits and losses in cat-
tle feeding should not stop with a consideration of the
cost of cattle and feed and their selling price.

CHAPTER II.

GENERAL CONSIDERATIONS IN BUYING FEED-
ING CATTLE

There is always that first consideration as to whether —
or not the farmer should buy cattle to feed. This
is a very important question, and the correct answer to
it depends upon so many factors that it will seldom be
answered twice alike. One thing is certain, it is always
wise to be conservative in considering cattle feeding
propositions. In general it would seem good practice
not to buy cattle to feed unless the larger part of the
corn and roughage necessary for finishing are available
from products grown on the farm. Profits in cattle-
feeding, while not always denied to the man who is
obliged to purchase corn, other concentrates, and rough-
ages, are necessarily smaller than to the feeder who
produces his feeds, provided, of course, the same methods
and intelligence obtain in each instance. This is the
chief advantage of the corn-belt cattle feeder over his
less fortunate brother farmer outside the corn-belt. As
to the amount of corn and roughage required to finish
a steer, much depends upon the supplementary feeds
and the kind and quality of roughage used with corn.
The age and condition of the feeding cattle and the
method of feeding also have a direct bearing upon the
amount required.

Taking, however, an. average instance, namely, the
finishing of a 2-year-old or older steer of the choice
grade weighing 1000 pounds, fattened in six months
from purchase, when the ration is corn and a good qual-
ity of clover or alfalfa hay, 55 to 66 bushels of corn and
one ton of hay will be required. If the corn is supple-
mented with some nitrogenous supplement, like oil meal

14

BUYING FEEDING CATTLE 15

or cottonseed meal, slightly less corn will be needed.
If other roughages than clover and alfalfa aie used,
such as corn stover and straw, then less clover will be
required. If cattle are on grass the acreage required
will depend upon the extent to which grain is fed and
the quality of the grass. Knowing approximately the
amount of feed produced that is available for feeding
cattle, the feeder is thus in a position to know about
how many cattle he can feed advantageously.
inmeerceard to the number the cattle feeder
should feed, the writer wishes to emphasize the fact
that cattle feeding is a business that lends itself most
advantageously to extensive practice and methods. In
other words, the cattle feeder who does not feed at least
a carload is greatly handicapped when it comes to sell-
ing — so much so that we do not advise the finishing
of cattle in less than car lots. This same thought car-
ried a little further means that the cattle feeder who 1s
in a position to feed even more than one carload has a
distinct advantage over the one-carload feeder. As a
rule, he saves on freight, labor, and purchased feeds.
Further than this, he has an opportunity to more evenly
grade his cattle to the advantage of the more timid and
smaller cattle in the feed lot. Again, some cattle finish
more quickly than others, and the extensive feeder has
the opportunity to select a load of this kind and market

them as soon as they are ready. The one-load feeder

is likely to have one or more steers that are not finished,
a few that may be considerably fatter than the majority,
enough so, at least, to make the load look uneven, and,
as a result, sell unsatisfactoriy.

Successful beef production usually comes as a reward
to those who have made a close study of the business
and have pursued it sufficiently long to render them keen
to take advantage of every favorable opportunity that
presents itself, whether it be drought or flood, for buying
to advantage. They aim to buy when, for whatever
reason, they can get the best quality for the least money.

16 BEEF PRODUCTION

They frequently buy something a little different from
their choice because of circumstances that render another
erade or condition of cattle manifestly cheaper. No
two seasons are precisely alike, hence the successful
cattle feeder is resourceful and far-seeing.

In addition to the question of soil fertility already
discussed, the conditions most likely to influence farm-
ers to feed cattle are: large crops commonly used in
finishing cattle, especially when the cash market for such
products rules low; high prices for fat cattle; low prices
prevailing for stockers and feeders; and the prosperity
of neighboring cattle feeders.

In some ways, all of these are treacherous guides to
follow. If abundant crops are followed by correspond-
ingly cheap corn and roughage, cheap gains are assured
where these feeds are administered by intelligent hands.
Cheap feeds, however, have a tendency to create an
abnormal demand for stock and feeding cattle as a re-
sult of which, prices for such stock are apt to rise — at
times above a point where the cattle feeder can afford
tohandle them. Notwithstanding this fact, more cattle
are put on feed at such times than usual, and, because
of the cheap feed, there is a tendency for feeders to hold
longer and make them better.

The inevitable result of an abundant supply of well
finished beeves is to cheapen them, so that when feeds
are abundant and relatively cheap the cattle feeder
must guard against buying them at prohibitive prices,
and with the feeling that prices at such times are more
likely to go lower than higher. Whether or not pre-
vailing low prices for stockers and feeders should be
a potent influence in determining ‘the extent of cattle
feeding operations will depend largely upon the general
status of the cattle industry, business conditions, and
probable price of feeds.

Of all the hazardous guides followed by the prospect-
ive cattle feeder, that of the prosperity of a neighbor
feeder is most hazardous. Farmers unaccustomed to

BUYING FEEDING CATTLE 7

fattening cattle have seen a neighbor make money in the
business for three or four consecutive years and conclude
that they too can do likewise. Quite often the next
year and the next prove unfavorable for the cattle feeder,
and the beginner, confronted with this obstacle in ad-
dition to his lack of experience, loses considerable money
that he ean ill afford to lose. Many well-informed cattle-
men make it a rule to feed a certain number of cattle
each year without much regard to changing conditions.
This seems the safer rule, provided conditions are not
such as to make it possible to know at the outset that
the business can not be engaged in without loss. Cer-
tain it is that such a policy is far wiser than one which
involves going in and out of the business with an effort
to follow market and other conditions.

WHEN, WHERE, AND HOW TO MAKE PURCHASES OF
FEEDING CATTLE

If we were able to make a definite statement as to
when, where, and how to buy feeding cattle that
could be followed in all seasons and under all conditions,
we know the information would be of inestimable value
to the cattle feeders of the country. Experienced cattle
feeders understand, however, that such statements, if
made at all, would need to be qualified by many excep-
tions. No attempt will be made to give rules for the
guidance of buyers of feeding cattle, but rather some of
the more important factors affecting these questions
will be discussed sufficiently to make it possible for the
individual to come to an intelligent decision in these
matters after becoming thoroughly familiar with local
and market conditions.

WHEN TO BUY

The best time to buy is when the cattle can be bought
the cheapest, all things considered. ‘This is easily said,
but it is, indeed, difficult to know for any certain season
When that time will come. A reasonably favorable

18 BEEF PRODUCTION

time may be allowed to pass by the cattle feeder be-
cause he believes there will come a better time. Then,
too, the majority feel that they must buy about a cer-
tain time in order to use economically available pastur-
age or roughage. ‘The most common practice is to buy
feeding cattle in the fall and early winter. It is believed
that two-thirds of the feeding cattle are purchased dur-
ing the fall and early winter months. This fact has
come about naturally enough. Breeders of feeding
cattle usually unload before winter sets in. If the sea-
son has been favorable, rendering pasturage abundant,
and if winter does not set in until late, liberal arrivals
of feeding cattle are likely to be late in reaching the
feeding cattle markets. On the other hand, if a general
drought or other unfavorable conditions prevail, it will
cause a liberal marketing of cattle, which generally
results in cheaper values for thin stock. Besides the
cheapness of feeding cattle at seasons when cattle are
plentiful, there is that other important advantage of
being able to select more uniform feeders. There is, of
course, the seeming necessity of purchasing feeding cattle
in the fall or early winter if a large amount of roughage
is to be used for the maintenance of cattle and the
production of beef. Practically all those who do not
buy their feeding cattle in the fall buy in the spring.
The market at this season is usually higher, but where
cheap roughage and good winter quarters are not avail-
able it is usually better practice to pay the extra prices
in the spring than to attempt to winter such cattle
under unfavorable conditions that are sure to render
the practice unprofitable.

WHERE TO BUY

The answer to this question will depend largely upon
the locality in which the cattle are to be fed and the ex-
tent to which the feeder is engaged in the business. Ex-
tensive cattle feeders, and by this we refer to those who

BUYING FEEDING CATTLE 19

feed 100 or more cattle at a time, prefer the market or
range as a source of supply. ‘There are obvious reasons
for doing so. As arule, it is impossible to get together
locally a large number of well-bred feeding cattle that
are uniform in age, type and condition. Buying on the
range or in the market frequently effects a saving of
time. By taking advantage of a glut in the mar-
ket or a lack of demand, the large cattle feeder is able
to buy cheaper than he could in the country, as it 1s gen-
erally true that country prices do not fluctuate to the
same extent as do market values. Good practice in
beef production cannot, however, be established by
assuming that abnormal conditions which will be favor-
able to the beef producer will always occur. Where
local buying, either for the large or small feeder, is
possible, it has distinct advantages, among which are a
saving on freight, shrinkage, commission, and other
expenses incident to buying; the breeding and normal
condition of the cattle may be better determined, no
bruising or gaunting incident to shipping, and finally,
no acclimatization is necessary.

HOW “LO BUM

It is assumed tiat the buyer in quest of feeding cat-
tle knows what he wishes and approximately what he
ought to pay for it. In case the source of his supply
must come from the market it is wise to get in commu-
nication with some good live-stock commission company
considerably in advance of the time the cattle are need-
ed. Commission companies do not know, nor do they
assume to know, everything. They do have oppor-
tunities of getting information on a wide range of
subjects that are of utmost importance to cattle °
feeders. The permanency and success of their busi-
ness depend upon the thoroughness with which they
gather, interpret and dispense this information for the
benefit of those whom they serve. They are not always
able to tell from a feeder’s description just what kind of

20 BEEF PRODUCTION

cattle he wishes to buy, hence a visit to the market by
the feeder and a trip of inspection around the yards
with the feeder buyer is advised in order to familiarize
him with just the kind of cattle wanted. It is best,
where possible, to aid in the selection of the cattle to be
purchased, but when it comes to buying, the commission
company can be of great help, because their daily con-
tact with the work makes them quicker and more
accurate in their judgment of values, weights and condi-
tion. They are frequently able to save many times
their commission by being able to buy cheaper.

Good market reports with ably edited comments on
the general crop and market conditions should be fre-
quent visitors in every cattle feeder’s home, and these
should be carefully studied.

CHAPTER III.

THE VARIOUS GRADES OF FEEDING CATTLE
DESCRIBED

The ability to select stockers and feeders intelligent-
ly is one of the first and most important lessons for the
stockman to learn. Profits in steer feeding come not
so much from skill in feeding and management as from
intelligent buying and selling. The possibility of profit
resulting from an increase during the fattening period
of the value per pound of the initial weight of the an-
imal is as great as is that resulting from the method em-
ployed in the feeding and managment. It is seldom
possible to produce at a profit gains which do not in-
crease the value per pound of the animal. Hence the
importance of intelligent buying, or the selection of
feeders and stockers of good quality.

FANCY SELECTED FEEDERS

Relatively, very few of this grade of stockers and feed-
ers find their way to market. Breeders in any of the
cattle feeding sections fortunate enough to own thinnish
steers of such quality usually hold them until finished
as prime bullocks, or sell them at home to feeders at
good, strong prices, avoiding the expenses incident to
shipping. Fancy selected feeders must not only possess
the characteristics of choice feeders, but they must be
uniform in color, give unmistakable evidence of being
high grades of some one of the beef breeds, and they are
almost invariably better fleshed than feeders of the good
to choice grades. Fancy selected stockers and feeders
are to the stocker and feeder class what prime steers are
to the beef cattle class — the best grade within the class
— and practically above adverse criticism.

21

22 BEEF PRODUCTION

CHOICE FEEDERS

Steers of this grade will, like those of the fancy se-
lected grade, under proper management, develop into
choice and prime steers. It would seem wise, therefore,
to consider in detail their desirable characteristics.

It may be said, then, that we demand in choice

Fig. 1. Fancy Selected Feeder.

stockers and feeders, first, the ability to finish as choice
or prime steers; and second, the ability to make econom-
ical gains in flesh and fat. As far as our present knowl-
edge of the matter goes, we look for indications of these
tendencies in the form, quality, and constitution.

1. Form—The general form should be low-set,
deep, broad, and compact, rather than high up, gaunt,
narrow and loosely made. Stockers and feeders should
be low-set, or on short legs, because animals of this con-
formation are almost invariably good feeders and ca-
pable of early maturity. They should be deep, broad

CHOICE FEEDERS 23

and compact, because this conformation indicates good
constitution, capacity for growth and for producing
ultimately a relatively high percentage of the most val-
uable cuts. Select feeders with broad, flat backs and
long, level rumps. They should possess straight top
and underlines which should be nearly parallel; should
be low at the flanks, thus forming what we have spoken
of above as good depth, for the barrel of stockers and
feeders as well as dairy cows should be roomy. An
animal which is too paunchy, however, is objectionable
to the butcher.

Secure as much-smoothness of outline as is consistent
with low flesh, being especially careful to avoid too great
prominence in hips, tailhead, and shoulders. Avoid
rough, coarse heads with small eyes set in the side of the
head. Short, broad heads and short, thick necks in-
dicate strong tendencies toward beef making. A large,
prominent, and mild eye is to be desired. The mild eye
denotes that the animal has a quiet disposition, which
all feeders know is so desirable in a steer intended for
the feed lot. The lower jaw should be heavily coated
with muscle; the muzzle, lips, and mouth should be
large but not coarse.

2. Quality — It is well to distinguish between what
might be called (a) general quality and (b) handling
quality. |

(a) General quality. By general quality is meant
general refinement of external conformation as seen in
the head, horn, bone, compactness and smoothness of
outline. General quality is affected by nothing so
much as by breeding; in fact, the two are very closely
associated. Good quality is seldom found in a plainly
bred steer, but is generally characteristic of a well
bred animal. The desirability of general quality can-
not be too strongly emphasized. While it is a charac-
teristic that involves many points and is difficult to
describe, its presence or absence is quickly discerned
by the trained eye of the intelligent buyer. It is this

24 BEEF PRODUCTION

characteristic in the stockers and feeders more than
any other that we depend upon as indicating that the
animal has within it the possibility of making a prime
steer.

(b) Handling quality. Good handling quality in-
dicates that the possessor is a good feeder. It shows
that the animal is in good health or thrifty and capable

Fig. 2. Choice Feeder.

of beginning to gain as soon as an abundance of food is
supplied. We speak of cattle as possessing good
handling quality when the skin is mellow and loose.
A thick, mossy coat of hair of medium fineness and a
moderately thick skin are also desirable. |

3. Constitution —The points indicative of good
constitution have practically been covered under Porm.
Good constitution is indicated by a wide, deep chest, by
fullness in the heart-girth, depth and breadth of body,
and good handling quality. While we want refinement
of form and bone, otherwise spoken of as general quality,

CHOICE FEEDERS 25

we do not want that refinement carried to the point of
delicacy. Too much refinement means delicacy or a
lack of constitution, and no animal lacking in constitu-
tion should find its way into the feed lot.

In the interest of uniformity in the finished product
it should be observed that high-grade Herefords can
usually be put on the market in the fewest number of
days of full feed but suffer most from carrying beyond
the point of ripeness; that Shorthorns and Aberdeen-
Angus grades, while a little slower to mature, are in
fully as strong demand in the market as are grade Here-
fords; and that Aberdeen-Angus and Galloways may
be carried longer on full feed than other breeds of beef
eattle without indications of bunches or rolls of fat,
which are so strongly discriminated against in our mar-
kets.

After all that may be said, however, as to breed,
the important consideration is to see that the steer
should be a high grade of some one of the beef breeds
and that the selection of the individual should receive
more attention than the selection of the breed.

The question of age should not be overlooked. A
thrifty young steer of good weight and in good flesh is
to be preferred to an older, stunted steer. It should be
said, however, that a stunted steer of any age or weight
is a profit spoiler in the feed lot. Uniformity in color
of feeders is desirable, but the mistake should not be
made of getting uniformity in color at the expense of
more important characteristics. It is possible to secure
good colors, reds and blacks, in steers of very poor
quality and containing very little beef blood. If it is a
question of choosing between a combination of good
quality and correct conformation, and good colors —
take the quality and conformation, and let some other
party have the colors. The writer has sometimes thought
that it is a disadvantage rather than otherwise that
most registered beef bulls are so prepotent in transmit-
ting their color markings. A one-eighth blood Here-

26 BEEF PRODUCTION

ford may have Hereford markings, or a one-eighth
blood Angus the color and polled characteristic of the
pure Angus and have but little beef character.

Only those most familiar with market conditions
realize what an almost insignificant proportion of well
bred fat cattle reach our markets. The bulk of offerings
are made up of common rough, medium, and good grades

Fig. 3. Good Feeder.

of fat cattle, and these must necessarily come from low-
erade feeding cattle, such as the inferior, common,
medium, and good grades, assuming that the better
grades of feeding cattle, the choice and fancy selected,
previously described, finish into choice and prime steers,

GOOD FEEDERS

Good feeders possess only to a limited degree the
beef, blood, the thrift, and the conformation of choice or
selected feeders. It is not difficult to criticise them as

MEDIUM FEEDERS 27

somewhat lacking in the most desirable characteristics
of ideal feeders. ‘They may be too long in the leg, too
narrow on the back, and either too light or too heavy
in the bone. Frequently feeders so graded have a
‘tendency to be a little rough and coarse. It is generally
true, however, that steers of this grade kept in the feed
lot until ripe or finished will, in such condition, grade at

Fig. 4. Medium Feeder.

least as high as good beeves, while it is not at all im-
possible for them to become choice enough in condition
to grade as choice bullocks.

MEDIUM FEEDERS

Medium feeders are only average as to quality and
thrift. They are usually of lighter weight than the good,
choice, and selected grades. They generally possess a
fair amount of beef blood, enough so that their color is
not objectionable. Their general appearance, so far as
it indicates their quality and thrift, is rather against

28 | BEEF PRODUCTION

them, indicating that no matter how judiciously they
may be handled it will be the exceptional steer among
them that will develop into anything better than a
medium or possibly a good bullock. It is seldom
good practice to finish this grade of feeders. (By
finish we mean thick fat, such as is required in
prime steers.)

Fig. 5. Common Feeder.

COMMON FEEDERS

A common feeder is decidedly deficient in quality.
When the word common is correctly applied to a grade
of cattle the reader should at once know that that grade
of cattle is noticeably deficient in quality; it usually
also indicates a lack of desirable conformation and flesh.
In speaking of feeders it indicates that such feeders are
common in quality, common in conformation, and com-
mon in condition. Like medium feeders, it seldom
pays to attempt to finish them.

INFERIOR FEEDING CATTLE 29

INFERIOR FEEDERS

It would seem that a feeder of a lower grade than
common might more properly be relegated to the level
of a canner than be permitted the dignity of the name
inferior feeder. As long, however, as there is sufficient
demand for inferior feeders they cannot consistently
be omitted from quotations of the live-stock market.

Fig. 6. Inferior Feeder.

Such feeders are rough and angular, largely devoid of
natural flesh, and possessing the conformation of dairy
rather than beef-bredanimals. In the feedlot they areslow
feeders and do not make satisfactory bullocks when fat.

Within all the grades of feeding cattle there are good
feeders and indifferent ones, the proportion of good ones
being largest in the better grades, while the proportion of
indifferent ones is large among the lower grades. This
suggests that in selecting feeding cattle, no matter of
what grade, great care should be exercised in selecting
only such as give evidence of good constitutions and
feeding qualities.

CHAR in E anys

INCIDENTAL EXPENSES IN -THE CATTLE
FEEDING BUSINESS

FREIGHT AND COMMISSIONS

In discussing the margins between buying and selling
prices per hundredweight necessary to insure the cattle
feeder against loss, freight, commission, and stockyards
charges are important factors — indeed larger factors
than they are ordinarily thought to be. The variability
of freights to and from different sections of the country
complicates considerably any attempt to make a treat-
ment of the subject generally applicable. It is believed,
however, by varying the freight rates and other variable
items, an approximation of the importance of these
factors in a given instance may be quite accurately
determined. The following data have been arranged
by Mr. L. D. Hall of the Animal Husbandry Depart-
ment, University of Illinois.

In November, 1903, the Illinois Experiment Station
bought on the Chicago market 130 choice feeding steers
weighing 1006 pounds, at an average cost of $4.267 per
hundredweight. The freight rate to Champaign (128
miles from Chicago) on stock cattle is 7.7 cents per
hundredweight, being three fourths of the fat cattle
rate. The shrinkage per steer, from market to feed lot,
was 53.4 pounds. The steers were fed six months and
gained 480 pounds, feed lot weights, at a cost of 7.23
cents per pound (not crediting pork produced) on a
basis of 35 cent corn, $8.00 clover hay, and $24.00 ln-
seed oil meal.

When shipped to Chicago in June they shrunk 22.5
pounds per steer, weighed when sold, 1410 pounds
average, stood the experiment station at $5.79 per

30

INCIDENTAL EXPENSES 31

hundredweight and sold for $6.10. In this case the
margin between cost and selling price at market neces-
sary to balance accounts was $1.52, or $1.01 margin be-
tween initial and final cost in the feed lot. In. other
words, about one-third of the cost per hundredweight of
taking a feeder home, fattening, and returning him to
market consists of freight, shrinkage, commission, and
stockyards charges. These figures do not include hogs,
labor, nor manure, which items are treated separately.

As stated, the average cost per hundredweight of
the 130 steers was $4.267 in Chicago. The average cost
at feed lots, just as they came from the cars, was $4.654,
including freight, commission, feed, and shrinkage. It
therefore cost $0.387 per hundredweight to get these
cattle home. Of this expense, $0.257 per hundredweight
was caused by shrinkage in weight, $0.0817 by freight
(including $2.00 per car terminal charges), $0.0438 by
commission and $0.004 by feed bills.

In order to determine the influence of freight rates
in calculating the above balance accounts we may use
a series of freight rates in calculating the above margins,
using in each case a stocker rate equal to 75 per cent of
the rate of fat cattle. In that way we find that the
margins necessary to balance accounts are as follows:

Freight rates Market margins Feed lot margins
$0.10 bl 252
Oel5 1.60 1.00
0.20 1.68 .98
OZ i byw APs 97

These figures show that a difference of five cents in
the freight rate on fat cattle involves a corresponding
difference of about eight cents in the margin necessary
to come out even.

It is assumed in the above calculations that the
shrinkage in shipment to market is the same in each
instance, viz., 22.5 pounds per steer. If the actual
transaction described above be used as a basis, and
various amounts of shrinkage assumed, we may de-

32 BEEF PRODUCTION —

termine the effect of that factor on the margin necessary
to pay out, thus:

Shrinkage, pounds Margins

15.0 $1.49
Des lea
ASLO) 38
50.0 1.64
75.0 165)

This shows that 25 pounds shrinkage per steer
corresponds very closely to eleven cents per hundred-
weight in margin required to break even. That is,
every additional 25 pounds in average shrink means a
loss of eleven cents per hundredweight on the cattle.

It is desirable in making estimates on a feeding oper-
ation to approximate these incidental expenses as
closely as possible. The following figures are interesting
as showing the weights on which freight is paid, com-
pared with the weight of feeders when bought at market
and their weight on arrival at the feed lots before filling.
These are from records of feeding steers bought in Chicago
by the Illinois Experiment Station.

Weight in| Freight | Weight of

Lot No. pounds at| weight feeders at

market charged feed lots

A Gola Tae eR ore ae amey res ae Aine? | 23,900 | 24,800 | 22,470
Pt ee VEG cage et os a: 17,450 22,000 | 16,660
Rien Cae BN oar oe Pe NR lt eae Rea 21,260 | 22,000 | 20,080
AR Oe oe Fe ean 24,190 | 24,100 | 22,885
Sy Bye MRE A once AR A Nats 25,020 | 24,800 | 23,560

Gg Ceri ie Par ete ey ee 25,130 | 25,000 | 23,900

Where cars are loaded above the minimum weight,
and of course they should be, the weight on which freight
charges is based is ordinarily very near the weight of
feeders as purchased. This is shown in the above table.
In the case of fat steers shipped to market, the following
figures show the weights of a representative carload
shipped from the Illinois Station:

LABOR AS A FACTOR 33

Weight fat steers at feed lot before ship-

ment, (yarded 12 hours) .:....+..... 25,750 pounds
Weight fat steers at market nextday ..... 25,280 pounds
Weight charged on freight bill........... 25,500 pounds

In the latter case we find that the freight charge
was based on a weight about midway between the home
and market weights.

It is important to remember that the expenses here
discussed are a much larger factor in proportion to the
investment in feeding lighter cattle than in heavy ones.
Where the gain is put on at less cost than it sells for, the
buying and marketing expenses are of greater importance
and may equal or exceed the entire margin necessary to
balance accounts.

At first thought it would seem that the higher the
price paid for the feeders the less important would be
the freight and stockyard charges in the operation, but
such is not the case. For example, if in the above
transaction the feeders had cost $3 instead of $4.267
the proportion of the margin required to come out even
due to buying, shipping, and selling expenses would
have been 27.6 per cent instead of 33 per cent; and if
they had cost $5 per hundredweight, the proportion
would have been 39 per cent.

LABOR AS A FACTOR IN CATTLE FEEDING

It has not been the custom in experiment station
bulletins to make any definite statement as to the im-
portance of the expense item of labor as compared with
other necessary disbursements. A consideration of the
subject of labor has usually been dispatched with some
such statement as, “No charge is made for labor in
caring for the steers or for bedding; neither is any value
assigned to the manure made by them. It is believed
that the agricultural value of the manure intelligently
preserved and distributed would be sufficient to balance
the cost of the bedding and labor involved.” Labor,
like many other factors in beef production, is variable.

34 BEEF PRODUCTION

The fact that it is a variable factor does not make a
fairly accurate determination of it in any given instance
impossible. If, however, we grant the fact that it is a
variable factor it seems but reasonable to grant that the
statement, that the fertilizer produced by the cattle
_balances the labor, is not, at best, a very accurate or
exact one. The summer fattening of cattle on grass is
economical of labor as compared with winter feeding in
the dry lot. The self-feeder lessens labor, whether used
in summer or winter. In feeding large numbers of
cattle, labor can be economized to much better advantage
than in feeding small numbers. Stall fattening or stable
feeding as compared with open shed sheltering involves
a large amount of labor. Again, the relative location of
feed, water supply, and cattle and the conveniences for
getting the feed to the cattle are all important factors.

In this discussion the writer has charged to the cost
of the feed the expense of its preparation. That is,
where corn is reduced to meal the expense of reducing
the corn to meal is charged to the meal and not to the
labor involved in feeding the cattle. Likewise chafing
hay, where practiced, may be, and is here, added to the
price of the hay. In this way the labor involved in
distributing the feed to the cattle is the item under con-
sideration.

Experimental evidence relative to this subject is
wanting; in fact, records of labor involved in the feeding
of experimental cattle would be of little value, as the
feeding of cattle in small lots and the recording of
accurate weights of cattle and feed entail a large amount
of labor that is in ordinary practice eliminated. For
the purpose of securing a definite basis from which to
work, we may assume what has been repeatedly accom-
plished in practice, that one man and team, or their
equivalent, can care for and feed 200 cattle together
with the hogs following. This includes not only feeding
the grain, but also hauling hay or other roughage to
the feed lot from nearby stacks or mows, providing

LABOR AS A FACTOR 30

bedding, attending to water, and looking after the wants
of steers affected with injuries, lump-jaw, lice, and itch.
With this assumption as a basis the following statement
is possible:

Man, 6 mo. at $40 (wages $25, board $15) ...... . $240.00
Team and wagon, 6 mo. at $40 (maintenance

HOMO) Sie Se ae) Ld des 3 240.00

Moraiecost labor 6 MO............-..- Sane $480.00

SP MIeWRWERISNCCI 6.5 5 ccs be taislnees Cees ee ee 2.40

Suppose, again, that we are feeding two carloads of
steers in such a way that a man and team can do the
necessary work in two hours daily in connection with
morning and evening chores. If we charge this time at
25 cents per hour, it amounts in six months to $90 for,
say, 40 cattle, or $2.25 per head. If the arrangements
are such that the same outlay for labor will accomplish
the feeding of 60 steers, the cost per head will be $1.50,
and if but 30 head require the same labor, then the cost
will be $3 per steer. These figures enable us to name
the approximate labor bill in common winter feeding as
from $2 to $2.50 per steer, and it is understood of course
that, other conditions being equal, the greatest efficiency
of labor can be obtained in feeding large numbers of
cattle. In comparing these statements with the returns
from hogs, we may turn to the results of some feeding
experiments. In one case where 53 pigs followed 130
steers in ten different lots, the return in pork at $5 per
ewt. varied from 31.5 cents to $5.57 per steer, the aver-
age being $2.48. In another test, with pigs following
meal fed steers, the conclusion was reached that, properly
managed, the pig may return a credit of approximately
$2.00 toeach steer fed. The pigs in another ex-
periment, involving 200 steers fed 94 days, made gains,
which, calculated at $5 per cwt., amounted to $1.20 per
steer, which may be considered the equivalent of twice
that amount for a six-months’ period. In still another
test where 250 steers were used the pigs yielded a net

36 BEEF PRODUCTION

return of $3.12 per steer on the same basis as above.
On the whole, then, it appears that the practice of con-
sidering the items of labor and pork about equal is
generally not far wrong. It is also quite a general saying
that the manure produced offsets the labor. We have
shown in a previous chapter that from $9 to $18 per
steer has been realized from the manure produced where
the increase in crop yield is taken into account. The
figures here presented indicate clearly that no general
rule should be blindly followed. Such calculations as
those above outlined are easily made for each proposition
as it arises, so that guesswork may be almost eliminated
and a very close approximation reached of what may
reasonably be expected.

It is always a problem to what extent to move the
cattle about in order to save moving feed, and, on the
other hand, how far one may go profitably in moving
feed to avoid moving the cattle. The best results,
measured by gains and finish, require that the cattle
be kept in their accustomed place and given every care
regardless of labor. Moving cattle to a strange place
is a certain handicap to them. The greatest economy
of labor, on the other hand, is secured by taking the
cattle to the feed rather than by carrying the feed to the
cattle. Just where the line is to be drawn between these
conflicting factors cannot be determined except in each
case separately. Just here lies the great advantage of
fattening on grass, especially where the self-feeder is
used.

CHAPTER WV:
SOME BUSINESS PHASES OF CATTLE FEEDING

RELATION OF COST OF FEEDS TO PROFITS IN
CATTLE FEEDING

In attempting to estimate the probable number of
cattle that will be fed during any given season and the
probable profit or loss to the cattle feeder, there is no
factor that is more frequently mentioned than that of
the cost of feeds. From this we may assume that this
factor, if not the most important one affecting profits
in cattle feeding, is certainly one of great importance
and one that should be thoroughly understood by every
man engaged in the business of finishing cattle for the
market. Live stock journals begin as early as July
and August to anticipate the probable size of the corn
crop, the probable demand for the same, and the bear-
ing of these factors on the cost of corn to the cattle
feeders of the country.

The cattle feeder is inclined to wait until he can form
some intelligent opinion as to what the market value
of corn will be before he decides to what extent he will
engage in the cattle feeding enterprise. This is well,
for, other things being equal, the cost of feeds deter-
mines the cost of gains and the cost of making gains has
a very direct bearing upon profits and losses in cattle
feeding.

A discussion of this subject upon the basis of feeding
the steers a simple ration like broken ear corn and clover
hay will be most helpful. At the Illinois Experiment
Station the writer fed a carload of choice well-bred
two-year-old Shorthorn feeding cattle from November to
June, or in other words, during a six-months’ winter
feeding period on broken ear corn and clover hay.

37

38 BEEF PRODUCTION

These cattle weighed approximately 1000 pounds at
the beginning and made an average daily gain per
steer for the six months of slightly over two pounds.
To be exact, the total gain per steer was 386.27 pounds.
Just enough hogs followed the steers to consume the
whole corn in the droppings of the steers to advantage.
No additional feed of any kind was supplied for the
hogs. In this way it was determined that 74.13 pounds
gain on hogs was made per steer fed. It took 57.73
bushels of corn and approximately .8 of a ton of
clover hay to secure the above gain on steer and pig.
It is probable that the gains made per unit of feed
were larger than those usually secured by corn-belt
cattle feeders. Stated in terms of beef and pork per
bushel of corn fed it would be 6.69 pounds beef and
1.29 pounds pork per bushel of corn fed. With these
figures as a basis, we may assume that it would be
fair for purposes of this discussion to consider that
6 pounds of beef and 1.14 pounds of pork (75
pounds per steer in six months) may be made from
a bushel of broken ear corn supplemented with clover
hay where the corn is fed to well-bred two-year-old
feeding cattle with hogs following them to consume
the waste. It should be stated that the cattle fed
were not what would be called fully finished, as they
sold in the market for $5.95, when the top of the market
was $6.15 per hundredweight. Had these cattle been
full fed for a longer time (they were full fed only about
one hundred and twenty days) the total and average
daily gains would probably have been larger.

The writer believes it would not have been difficult
to have secured an average daily gain of 2.2 pounds per
steer, or 396 pounds in one hundred and eighty days.

We have then sufficient data as to gains and feed
required to produce gains to discuss intelligently the
subject of relation of the cost of these feeds to profits
in cattle feeding. To avoid misunderstanding let us
repeat that we assume that each steer involved in this

BUSINESS PHASES 39

discussion makes an average daily gain of 2.2 pounds,
or 396 pounds for a six-months’ winter feeding period,
that 75 pounds of pork are made from the droppings
of the steer, that 6 pounds of beef and 1.14 pounds
of pork are made from each bushel of corn fed, supple-
mented with clover hay. On this basis it would
require about 66 bushels of corn, supplemented with
one ton of clover hay to secure the gains recorded for
the whole time.

Granting that we are dealing with a choice 1000-
lb. feeder that is worth $4.50 per hundredweight in
the feed lot, the following financial statement might
be made up:

DISBURSEMENTS, EXHIBIT A

One 1000-lb. choice feeder at $4.50 per cwt....... $45.00
66 bushels corn at 30c. per bushel................ 19.80
Wmenaneclover hay at $o... 6.66 ea ee ee ee 5.00

LCUSU COS Dae aig he eee $69.80

The above “total cost’’ does not, of course include
interest on investment or labor, and to simplify the
discussion it is assumed that the cattle are sold at home,
thus doing away with marketing expenses.

For the first statement 30-cent corn and $5 hay is
taken as about the minimum prices that could be figured
even from the viewpoint of the cattle feeder who pro-
duced his feeds. If the choice, well-bred feeding steer
cost $4.50 per hundredweight in the feed lot and the
purchaser gets what he pays for and properly finishes
the steer, he ought to expect $1.25 per hundredweight
more for the steer at home in the feed lot than cost price
delivered in the feed lot.

RECEIPTS, EXHIBIT A
One 1396-lb. choice to prime steer at $5.75 per ewt. $80.27

memounds pork at $5 per Gwt.......-....2.-.-0- oto
Mer meceNpis oy a a es Be aes $84.02
Moralkexemencijures.....< eaek e e eae eae 69.80

Profit per steer on basis of 30c. corn and $5 hay. .$14.22

4() BEEF PRODUCTION

The following table, figured out in the same manner,
shows the effect of price of feeds on possible profits:

EXHIBIT B
Assumed price] Assumed | Disturse-| geegints | Brome ner | Newest
per bu. hay per ton credited
$0.30 $5.00 | $69.00 | $84.02 | $14.22 $0 .053
.30 C2501? WOs60)| S42 02 8.42 .068
.40 10.00 | 81.40] 84.02 2.62 .082

00 10.00 | 88.00} 84.02 | —3.98* 099
.60 LOZOOF | 392700) 5347029 0na3s> sales

* These figures represent losses.

This table does not mean that profits in cattle feeaing
are impossible when corn is worth over 40 cents per
bushel, with clover hay at $10 per ton. It does mean,
however, that with the conditions stated that a larger
at-home margin between buying and selling price than
$1.25 per hundredweight is required to make the
enterprise profitable.

RELATION OF INITIAL WEIGHTS OF FEEDING CATTLE
TO PROFITS ON FINISHED BEEF

The initial weight of feeding cattle has a direct
bearing upon possible profits in cattle feeding. In
practice it is difficult to secure examples where differences
in initial weight of feeding cattle selected for the feed
lot are the only differences. In other words, it is not
likely that a 750-lb. feeding steer will be of the same
age, thrift, condition, quality, and price as a 1050-lb.
steer. In most instances, differences other than differ-
ences in initial weight would also have a direct bearing
upon the feeding qualities and possibilities of feeding
cattle. In order, however, to make clear the principle
involved in variations in initial weight of feeding cattle
it will be necessary to assume that we are dealing with
this factor only. Perhaps the best way to consider this

BUSINESS PHASES 41

question is to compare two financial statements, one on
the basis of starting with the 800-lb. feeder, and the
other a 1000-lb. feeding steer. Assuming that the total
gains and cost of gains would be the same in either case,
the statement would be something as follows:

One 800-lb. choice feeding steer at $4.50 per ewt ... .$36.00

66 bushels corn at $0.40 per bushel............... 26.40
Onevon clover hay at $7.50 per ton.....+........... 7.50
Total disbursements...... wee ere OOOO)
Credit 75 pounds pork at $5 per fee in Ue ee oe
Net cost of steer at time of marketing.......... $66.15

Granting that the 800-lb. feeder would gain 405
pounds in a six-months’ feeding period, during which
time each steer received 66 bushels of corn and one ton
of hay, the steer, when finished and ready for the mar-
ket, would weigh 1205 pounds. According to the state-
ment of expenditures made above, this 1205-lb. steer
would have cost at time of marketing $66.15, and in
order that the cattle feeder should come out even, that
is, neither make nor lose by the enterprise, the steer
would have to net approximately $5.49 per ewt. in the
feed lots at home. Since it was assumed that the steer
cost $4.50 per hundredweight this would mean a $.99
margin between buying and selling price. For sake of
comparison, let us now assume that we buy a 1000-lb.
feeding steer, of the same quality, for finishing:

One 1000-lb choice feeding steer at $4.50 per ewt ..$45.00

66 bushels corn at $.40 per bushel................ 26.40
Oneycon clover hay at $7.50 per'ton ............. 7.50
Total disbursements...... SEs area eT OOO
Credit 75 pounds pork at $5 per ‘owt. Ce MOD
Net cost of steer at time of marketing.......... $75.15

Starting with a 1000-lb. steer that gains 405 pounds
in six months, a 1405-lb. steer is produced, which to

42 BEEF, PRODUCTION

meet above disbursements, would have to sell for
about $5.34, or 84 cents per hundredweight above cost.
Putting it in another way, it might be said that other
things being equal a 1000-lb. feeding steer can be finished
on a 15-cent smaller margin than a steer weighing but
800 pounds at the start. The reader should bear in
mind that in making these financial statements the
writer has adopted for demonstrating this and other
phases of the cattle-finishing business one of the simplest
methods of feeding calculated to produce cheap gains,
and where cheap gains prevail as has been shown, the
necessary margin between buying and selling price is
reduced to the minimum. The labor involved and
interest on investment is not charged, nor is any credit
given for fertilizer produced.

Perhaps the importance of this factor would be more
quickly seen if the first-named example were taken, viz.,
a comparison of the 800 and 1000-lb. feeding steers.
Suppose when the cattle are marketed a $1.50 per hun-
dredweight margin over cost price is secured in each
instance, then the total value of the (800 plus 405 equals
1205-lb.) steer would be $72.30. The net cost. of
this steer, including feed, less value of pork product, was
$66.15. This would leave a profit per steer of $6.15.
In case of the 1000 plus 405 equals 1405-lb. steer,
the value at marketing time would be $84.80. The net
cost was $75.15, leaving a profit per steer of $9.15; this
item alone then showing a difference in profit of $3 per
steer.

The following table shows the effect of differ-
ences in initial weight of feeding cattle from 700 to 1200
pounds:

BUSINESS PHASES 43

Initial Weight of Feeding 700 800 900 1000 1100 1200
Cattle lbs. lbs. lbs. lbs. lbs. lbs.

Initial cost of steer at

$4.50 percwt........ $3 1.50) $36.00; $40.50|$45 00) $49 50) $54.00
Net cost of feed (total

cost less $3.75 for pork)| 30.15] 30.15} 30.15} 30.15] 30.15} 30.15
Final cost of fat steer per

CW 25 00a eee 5.60} 5.49} 5.41) 5.35) 5.29) 5.25
Margin required between

buying and selling price,

home or feed-lot values

amd weights .......... 1.079) .989} .914| .849) .792| .746
Difference in cents in

margin necessary be-

tween each weight ....| 0.00) 8.95) 7.58] 6.51] 5.64; 4.62
Total difference in cents

between 700 lb. and

each larger weight....| 0.00} 8.95) 16.53] 23.04] 28.68] 33.30

COST PRICE OF VARIOUS GRADES OF FEEDING
CATTLE IN RELATION TO PROFITS

In determining what quality of cattle will be most
profitable to feed, there is one consideration not gener-
ally understood. A brief statement of the principle
involved is likely to be questioned. The principle re-
ferred to is as follows: The lower the price at which
feeding cattle are purchased, whether because of pre-
vailing low prices for feeders, or because of the low
erade of the cattle, the larger must be the margin be-
tween the buying and selling price in order to secure
protection against loss. As suggested, this principle
applies not only to the purchase of feeders of various
market grades at prices differing materially, but to the
purchase of feeders of the same grade at different prices.

The following table shows to what extent this
principle operates:

44 BEEF PRODUCTION

Me- Com- | Infe-
dium mon rlor

Market Grades of Feeders Petey Choice | Good

Assumed cost per cwt in

teedvlotsna. ier nee $4.50 | $4.15 | $3.€0 | $3.45 | $3.10 | $2.75
Total cost of 1000-lb.

feeder at above prices. .| 45.00 | 41.50 | 38.00 | 34.50 | 31.00 | 27.50
Net cost of feed, or cost of

feeds for finishing, less

value of pork produced 30.15 | 30.15 | 30.15 | 30.15 | 30.15 | 30.15
Total net cost of sieer at

IMATKEUINS “sere ee ee 795.15 | 71.65 | 68.15 | 64.65 | 61.15 | 57.65
Weight of steer at time of
marketing, lbs. . .| 1405 | 1405 | 1405 | 1405 | 1405 | 1405

What steer must sell for

per ewt. at home to

insure cattle feeder

AgaNIStlOSSHee et ae $9.35 | $5.10 | $4.85 | $4.60 | $4.35 | $4.10
Necessary margin above

cost price to insure

AGEN MOSS. 0 6600 00 « sex) |) SH 1 OS) )| GS TAS Bs

It is obvious that the writer could not determine a
set of values that would obtain in all markets and in all
seasons. ‘The assumed values are sufficiently close to
average feed lot conditions to render them valuable for
illustrating an important principle. It is assumed that
the steers of the various grades make the same gains in
a given time on a given amount of feed. As a matter
of fact, the better grades will eat more and gain more
rapidly than the commoner grades. However, if there
was only the one varying factor and that the cost per
hundredweight of the feeders the principle enunciated
would hold.

That there should be a difference in margin required
between buying and selling price to come out even of
590 cents per hundredweight in this instance and ap-
proximately 30 cents per hundredweight where all vary-
ing factors are taken into consideration would scarcely
be realized by the casual observer.

The reader is cautioned, however, not to misinter-
pret the principle. It clearly shows that a greater
margin is necessary with the cheaper cattle. The

BUSINESS PHASES 45

writer does not presume to discuss at this time as to
whether or not margins sufficiently large to balance or
more than balance the requirement are likely to follow
the finishing of low-grade steers to render their fattening
a more profitable enterprise than the feeding of the
better grades. In general, however, the extreme differ-
ences between the various grades of feeding cattle tend
to become less marked as the feeding process goes on.
That is to say, the differences in quality between the
various grades of feeding cattle are more pronounced
than differences between the various grades of beet or
fat cattle.

Buying feeding cattle is almost the first, if not the
first, step to be taken in cattle feeding. The amateur
cattle feeder seldom appreciates the importance of this
factor in determining ultimate profits. The veteran
feeder has learned by costly experience that unless he
buys his feeding cattle right, that is, unless he gets good
value for his money, all possible hope for profit has been
destroyed before the real work of finishing begins. If
the beginner appreciates the importance of right buying
he-seldom possesses adequate knowledge of the relative
and absolute values of the various grades of feeding
cattle.

Olsbeleihitle, WIL.
WINTERING STOCKERS AND FEEDERS

The writer is unable to present any statistics indi-
cating the percentage of cattle purchased for feeding
purposes that are simply ‘‘wintered”’ principally upon
roughage with a view of finishing subsequently on grass.
It is generally known, however, that a large majority
of the cattle purchased for fattening are purchased in
the fall and early winter months, and more than half
of these are bought with a view of wintering them as
cheaply as possible and then fattening on grass. The
reasons for this system of management are not far to
seek.

On the average corn-belt farm there are stalk fields
and straw stacks from which little if any revenue is
secured unless used in wintering cattle. In other sec-
tions straw, clover-hay and other roughages do not find
a ready cash market, and because of this some other
disposition is made of them. Wintering cattle for sub-
sequent fattening on grass seems to be the most popular
channel through which to convert these feeds into cash.
Summer fattening is usually more profitable than winter
fattening and is much more generally practiced. Those
in possession of good pasturage wish to make the best
use of it and consequently do not feed liberally of corn
or other concentrates during the winter months. In
this connection it may be stated that, as a general prop-
osition, the more cattle gain on concentrated feeds in
winter the less they will gain on grass in the summer.
That is to say, if corn is fed liberally during the winter
months, the cattle will not make as large gains when
turned to grass as they would were they wintered largely
on roughage and not the best of roughage at that. Dif-

46

WINTERING FEEDERS 47

ferent systems of management should undoubtedly be
recommended for cattle varying in age and quality.
The wintering of calves and yearlings intended for baby
beef will be considered in a subsequent chapter. This
narrows the subject in hand to the wintering of yearlings,
two-year-olds, and older feeding cattle that are to be
finished on grass In summer.

ROUGHING STEERS AN ART

Experienced cattle feeders will concede that it is one
of the fine points of the cattle feeding business to know
just how well to winter such cattle. Local conditions
as to the extent, nature, and value of pasture lands deter-
mine to a large extent what is good practice in any par-
ticular instance. Where abundant pasturage of the
best quality is available on cheap lands, feeding cattle
may very properly be wintered largely on roughage with-
out any effort on the part of the cattle feeder to secure
large gains. But if pasturage is limited and the value
of such pasture lands is great, then some combination
of feeds well calculated to produce satisfactory gains
should be used.

The writer believes that there is a growing tendency
over a large part of the corn-belt, where these conditions
prevail, to feed cattle more liberally than formerly and
that this tendency is in harmony with good practice. It
is rarely economy to carry stockers or feeders a consid-
erable time on a mere maintenance allowance, even
though the subsequent gain on grass be thereby
increased.

As bearing on this general subject of wintering feed-
ing cattle some interesting records of the Missouri station
are quoted. The results in feeding all the roughage
of various kinds that yearling steers would eat with
corn In varying quantities produced the following results
in three successive years:

48 BEEF PRODUCTION

Pounds | Av. daily

; : : Pounds shelledcorn| gain per

Kinds of Roughage Date of Trial ae oe per steer steer in
INGO INS occ bo ese 1899-1900) 16.7 4 .65
Timothy..../-<.... 1901 15.4 6 1.00
Timothy a. .) cs 1901-2 | 16.9 6 ey
Cloversic. ian ee 1901 17.9 6 2.00
Clovermicnce Sane 1901-2 19.0 6 1.92
Cow-pea 1899-1900 | 19.0 + 1.54
Millet 1901 I28 6 ol
PN Tea ened ett ee 1901-2 16.9 6 1.63

These records graphically show the value of clover,
alfalfa, and cow-pea hay as compared with other rough-
ages when used as a supplement to corn for wintering
cattle. It would seem from the experiments quoted
that from 4 to 6 pounds of shelled corn per steer per
day fed in conjunction with all the good clover, alfalfa,
or cow-pea hay the steers will eat makes an ideal feed
for wintering feeding cattle and that the use of timothy
and millet hay will be followed by unsatisfactory results.
The writer does not forget that the larger winter gains
will undoubtedly make the gains on grass in summer
somewhat less, but it should be remembered that these
gains were made on a ration a large percentage of which
was roughage. These records are valuable as further
indicating the amounts of the various roughages such
cattle will consume when fed all they will take.

CHEME WE: OVE
GETTING CATTLE ON FEED

It not infrequently happens that steers intended for
the feed lot are left to roam about the stalk fields longer
than it is profitable to do so. Feeding cattle should
be taken from stalk fields and pastures before they
cease thriving under such management. How the steers
should be handled subsequently will depend largely
upon the age, grade, and condition of the steers, when
they are to be marketed, and the most available feeds.

The majority of cattle coming from pastures a d
stalk fields will not be finished for market in less than
150 days, while many of them will be carried through
the winter on rough feed as cheaply as possible and
turned to grass in the spring at a time when they are
practically on full feed.

The cattle which are to be marketed after being
turned to grass in the spring should be handled differ-
ently from those that are to be sold earlier. (See chap-
ter XV., Fattening Cattle on Grass.)

PLANS VARY SOMEWHAT

Those who are familiar with cattle feeding practice
know that there is much difference of opinion as to the
length of time which should be employed in getting cat-
tle on full feed. The majority of cattle feeders, I believe,
practice a system of feeding which involves the getting
of the cattle on full feed in from ten days as the mini-
mum to thirty days as the maximum length of time.
The minority take what appears to be a more rational
view of this question and use from thirty days at the
least to sixty days at most for getting cattle on feed.
Both methods have their advantages and disadvan-

49

50 BEEF PRODUCTION

tages, which at present must be stated more as opinion
than as a result of deductions from actual experiments
covering a comparison of these methods, although at
the Illinois Station both these systems have been tested,
and there is an experiment now in progress at the station
referred to inquiring into this very question. First, it
should be said that both methods are followed with vary-
ing success. Cattle may be put on full feed in from
fifteen to thirty days without apparent injury. The
advantage of this method is a saving of time or a short-
ening of the feeding period. It contributes to larger
gains during the first part of the feeding period, and,
taking the whole feeding period together, it is believed
to induce a larger consumption of concentrates and a
consequent smaller proportion of roughages. With this
system of feeding the gains grow smaller and more ex-
pensive during the latter part of the feeding period,
provided the same extends five months or more of full
feeding and provided aged rather than young cattle are
involved.
AS TO SHORT-FED CATTLE

In dealing with short-fed cattle, getting cattle on
full feed in fifteen to twenty days is undoubtedly
advisable, but if cattle are to be in the feed lot six months ~
they can be given a very satisfactory marketable finish
where thirty to forty-five days of that time are employed
in getting them on full feed. The advantages of this
method are: The ration is at first made up of such
bulk as to permit the steers eating all they wish without
any danger of getting the cattle off feed or deranging
the digestive organs. The grain ration is so gradually
increased that the steers become accustomed to hand-
ling a heavier and more highly concentrated ration. This
method is safer in the hands of the novice. Gains are
not so large during the first part of the feeding period as
they are where cattle are put on feed more rapidly, but
they are still economical as viewed from the standpoint
of feed consumed to produce this gain. As the feed is

STARTING CATTLE ol

increased slowly and regularly the gains increase with
the extent and concentration of the ration until the
gains during the last sixty days of a six-months’ feeding
period are just as large and frequently as economical as
at other periods during the fattening process. Steers
so handled can be more safely carried beyond the time
planned to market them in case occasion seems to war-
rant such holding than they can where started more
quickly.
THE AIM OF THE FEEDER

Where thirty days to six weeks are employed in
getting cattle on full feed the cattle so handled very
seldom consume the large amounts of corn and other
concentrates reported by cattle feeders who practice
getting cattle on feed more rapidly. The gains made per
unit of feed consumed are no less than with the quick
feed method even though a larger proportion of the
ration consists of roughage. The end and aim of the
cattle finishing process is, I take it, to get marketable
finish at the least cost, considering cost of feeds used and
interest on investment. Economical gains contribute
very largely in bringing about this result and are, in
fact, a more important factor than a little extra time,
which may be required by getting cattle on feed in a
more rational manner. With good alfalfa or clover
hay used as roughage it istundoubtedly better practice
to get cattle on full feed more slowly than where corn
stover, timothy hay, or straw constitute the roughage.

VALUE OF SUPPLEMENTAL FEEDS

If for any reason it is desirable to get cattle on feed
quickly, the supplementing of corn with some nitrogen-
ous concentrate, like ground linseed cake (oil meal),
gluten, or cottonseed meal is recommended. Granting
that not less than thirty days are to be used in getting
cattle on full feed, the writer would feed the cattle all
the clover or alfalfa hay they would eat up without
waste and in addition start with two pounds of corn per

52 BEEF PRODUCTION

steer per day, increasing the corn at the rate of one
pound per steer per day until each steer receives ten
pounds of corn per day. This ration of corn should be
continued for three days and then another increase of one
pound made. From this point on an increase of one
pound per steer per day every third day will bring the
cattle up to seventeen pounds of corn each per day in
thirty days. By continuing this rate of increase for
fifteen days longer the steers will be getting twenty-two
pounds each per day. If oil meal or other nitrogenous
concentrates are used at the rate of about three pounds
per 1000-lb. steer per day, this ration will prove quite
satisfactory. When the cattle begin to get about twelve
to fifteen pounds of corn per steer per day they will
not require or relish as much roughage, and at the end of
thirty days should not be given to exceed twelve pounds
clover or alfalfa per 1000-lb. steer per day. As the feed-
ing period progresses the amount of roughage fed should
constitute about one-fourth of the ration by weight.

eve aie WINDE

FEEDS FOR FATTENING CATTLE; THEIR
PREPARATION AND USE

CORN

That corn is and will be fed more largely than any
other feed is admitted, hence the knowledge of how it
ean be used most profitably is information that every
cattle feeder should possess. Corn is fed in many forms,
such as fodder or shock corn, cornmeal and corn and
cob meal, and the feeding of corn in each of these
forms is advocated as the most profitable practice by a
considerable number of cattle feeders. In some in-
stances good and sufficient reasons are given for their
choice, while in other instances statements are made
which are not borne out by experimental data on the
subject. It is undoubtedly true that corn is not fed
most profitably in any one particular form under all
circumstances and conditions.

A study of this subject involves the following con-
siderations:

1. The efficiency of corn for making beef alone when
fed in different forms.

2. Its efficiency for making beef and pork.

3. The labor involved in preparing and feeding it to
cattle.

4. The age of the cattle to be fed.

5. The season of the year.

Unfortunately, experimental evidence is lacking on
some of these points. However, we wish to introduce
at this point some experimental data gathered by the
Illinois Experiment Station in feeding 130 choice
two-year-old feeding cattle during a six-months’ winter
feeding period, leaving other points of interest to sub-

53

54 BEEF PRODUCTION

sequent pages. In the experiment referred to corn in
its various forms was supplemented with oil meal or
gluten meal and clover hay. So, in interpreting the
records of this test, it should be borne in mind that
with each bushel of corn the concentrates and clover
hay mentioned were fed.

POUNDS GAIN ON STEERS AND STEERS AND
HOGS PER BUSHEL (SHELLED BASIS)
SUPPLEMENTED CORN FED

Pounds of |Pounds of

Horm in whichicorn Piiteaeaealfed| tag fedeee, | eee een epee

Mi ASENE, per bu. corn bu. corn bu. corn | hogs per

fed bu. corn fed
Silage, cornmeal.| 10.121 24.6817 | 7.93 8.04
JDENe GON 5 hace bc 9.996 27.241 C92 9.06
Cogmmesl= sae 9:878 29.698 8.02 8.39
Corn and cob meal 9.979 PAL OILS} 7.88 8.21

Shock corn, ear

COMM kA eran 4.549% 22, 04a) 6-4 I U2
Shelled corn ....| 10.120 30:502 B02 8.74

* Oil meal fed during the latter part of feeding period only.
+ The roughage accompanying the corn was fed in these lots in
addition to the clover hay.

From the accompanying table it will be seen that
from the standpoint of beef produced per bushel of
corn fed in the various forms, silage and cornmeal were
most efficient.

The results of this experiment indicate that the mere
matter of grinding shelled or ear corn does not make it
materially more efficient than broken ear corn for beef
production, but either cornmeal, corn and cob meal,
or broken ear corn were considerably more efficient than
shelled corn for beef production. That ear corn should
be found more efficient for beef production than corn-
meal or corn and cob meal is contrary to common belief,
but this experiment was conducted on such a large

PREPARATION OF FEEDS 50

scale and in such a careful manner that the results of it
are more dependable than opinions or beliefs. The
great importance of the data in the last column of the
table should not be lost sight of. In sections of the
country where beef production is a leading enterprise
the hog is looked upon as an economic factor and there-
fore practically indispensable. The amount of gain
that is made by hogs following steers variously fed is
therefore one of the deciding factors as to the form
in which corn may be most profitably fed to cattle.
By referring to the table it will be noted that the most
beef and pork combined was made where corn was fed
in the form of broken ear corn, shelled corn coming next,
with cornmeal third. The slight difference between
the final results with cornmeal and corn and cob meal
leads the writer to believe that they are practically
equal in feeding value — that is to say, when cattle are
handled as these were with plenty of good roughage
and the corn supplemented with some nitrogenous
concentrate, a bushel of ear corn (70 pounds), fourteen
pounds of which is cob, when ground into corn and cob
meal is not materially more valuable for cattle feeding
than fifty-six pounds of cornmeal.

The experienced cattle feeder knows that simply
the statement that one ration will produce more beef or
more combined beef and pork than another does not
necessarily decide that its use will be followed with
greater profit. The question of cost of preparing and
feeding the same must be taken into account. ‘This
will be considered next.

PREPARATION OF FEED

In the experiment referred to the feeds used were
prepared at the University cattle feeding plant. Both
the corn and the corn and cob meal were finely ground.
The shock (fodder) corn and silage used were grown in
the same field on the University farm, and the plots
reserved for use were selected with the greatest care, that

56 BEEF PRODUCTION

the quality and proportion of grain to stover should be
the same in each instance. Of the total crop 56.6 per
cent was grain and 43.4 per cent stover.

Taking into account depreciation in machinery
by wear and the actual labor involved, the records
show that it cost the following amounts to prepare the
feeds used:

| Per ton
Sloe limecC Orn G35, ee ee es ee eee $ .34
(Crna Maes Cua HO COMMING. su oy ee owe ese ee 1.20
Grinding ear corn for corn and eob meal........... 1.44

With corn at 35c. per bushe]—

Broken ear COrn COSte ge $10 20
Shelled corte. ye eleva kee car ee arr re eee 12.48
Cornmeal. oe eee 13.34
Cormande cow med (oi. se ee ee 11.44
Shock corn, including cost of hauling to feed lots... 5.40
Silage, including cost of putting up....... Di seeene 2.75

Good average daily gains were made with corn fed
in all the various forms, although shelled corn and shock
corn did not equal other forms. The average daily
gain per steer for the six-months’ feeding period was as
follows: Silage and cornmeal, 2.34 pounds; broken ear
corn, 2.33 pounds; cornmeal, 2.38 pounds; corn and
cob meal, 2.82 pounds; shock corn, 2.08 pounds; and
for shelled corn, 1.99 pounds.

The lots fed corn in various forms were fed for the
same length of time and marketed in Chicago on the
same day, at which time they were sold at the following
prices per cwt.: Silage and cornmeal lot, $6.10; broken
ear corn, $6.15; cornmeal, $6.15; corn and cob meal,
$6.10; shock corn, $6.05; and the shelled corn lot for
$6.05. The feeding cattle at the beginning of the test
cost $4.53 per ewt. in the feed lots and graded as choice.

To illustrate what an important item the labor
element is in the preparation of cattle feeds it may be
stated that the net cost of a pound of gain on the steers
was in each instance as follows: Silage and cornmeal

PREPARATION OF FEEDS 57

- lot, $0.076; broken ear corn $0.067; cornmeal, $0.075;
corn and cob meal, $0.078; shock or fodder corn, $0.065;
and in the shelled corn lot, $0.075. Thus it will be
seen that the cost of a pound of gain is directly influenced
by the amount of labor that is expended in the prep-
aration of the corn for feeding. The net profit per
steer in feeding these cattle corn in its various forms and
at varying prices follows:

Price of Feeds

Sonn. $.35 | $ 40 | $.50

Chore! 2 ee $5.00 | $7.50 | $10.00
Form in which corn was fed Net profit per steer

Silage and cornmeal..........| $6.57 | $2.17 |-*$4.840

bnekenvear COrm.:....-.-......|- 12.07 To4 boon)

Wonmmene 2... el a oiae: 8.45 3.66 —3.750

Cocnama cob meal..:......... 6.61 OV —9).150

Shock or todder corn.......... 11.46 “OL aie

BisclleG@eCOEM....:........ 2... 7.95 3.14 —1.270
* —. [Indicates a loss.

The results of this experiment clearly indicate that
simple methods, or, in other words, cattle feeding prac-
tice involving but a small amount of labor requires con-
siderably smaller margins than do more complicated
methods involving a large labor element.

The results of this experiment are so striking that it
appears that the grinding of corn for feeding choice
two-year-old steers during the winter season is not war-
ranted. 2
The feeding of silage in moderate quantities is not
necessarily conducive to heavy shrinkage in shipping or
small percentages of dressed beef. The reader is cau-
tioned not to conclude that since the feeding of silage
was not followed with as large profits as the feeding of
several other rations, that it has no place in beef pro-

58 BEEF PRODUCTION

duction. Its use in growing young cattle and as a part
of the ration of the breeding herd promises well in the
hands of the experienced feeder.

Since the profits in feeding shock or fodder corn and
ear corn are approximately the same, the writer is in-
clined to favor the feeding of ear corn in preference to
fodder corn, because in feeding shock corn one is some-
times obliged to get on the land when it is too wet.
This statement applies especially to seasons of the year
when bad weather is likely to prevail.

This suggests that there may be a season of the year
when shock corn can be fed to greater advantage than dur-
ing mid and late winter. It is doubtful whether there
is a More profitable way to feed corn than in the form of
shock or fodder corn, if it 1s fed during the fall season.

While the results of this experiment show that it
does not pay to grind corn for winter feeding, it should
not be assumed that it does not pay to grind corn for
cattle that are being fattened in the summer on grass.
In some instances, too, young cattle are not able to handle
the ear corn to advantage. Some of the modern im-
proved varieties of corn are so compact and hard that
cattle have difficulty in masticating it. Whether or not
the cattle feeder should use cornmeal or corn and cob
meal is largely a matter of convenience, what roughage
is used, how the corn part of the ration is supplemented
with other concentrates, and perhaps the season during
which it is used.

Unless higher prices for fat cattle, or lower prices
for stock cattle, or both, prevail than in conditions here
recorded, the possibilities of profit with corn at 40 cents
per bushel, for example, and clover nay at $10.00 per
ton are very small indeed.

THE USE OF COTTONSEED MEAL, GROUND LINSEED
CAKE OR OIL MEAL, OATS, AND MOLASSES

It has been demonstrated to the satisfaction of the
writer that in fattening cattle where corn comprises
the bulk of the ration it pays to supplement it with

SUPPLEMENTARY FEEDS 59

some nitrogenous feed either concentrate or roughage.
Cottonseed meal, ground linseed cake or oil meal, and
gluten meal are among the most common nitrogenous
concentrates, while alfalfa, clover, and cow-pea hay are
nitrogenous roughages. Whether or not it will pay to
buy nitrogenous concentrates where good clover or
alfalfa hay is available depends upon the age of the cattle
to be fed, the price of corn, and the price of cotton seed
meal, oil meal, or some other available nitrogenous
concentrate.
AN ILLINOIS FEEDING EXPERIMENT

During the winter season of 1903-1904 the Illinois
Experiment Station fed one carload of two-year-old
choice feeding cattle on broken ear corn and clover
hay and another carload of cattle of the same age and
gerade on broken ear corn, clover hay, gluten meal, and
oil meal (pea size ground linseed cake). These cattle
were fed for a six-months’ feeding period and were well
finished at time of sale. Feeds were charged at the

following prices: Deston:
Ear corn, 35c. per bushel, broken ear corn.......... $10.20
Oil meal (ground linseed cake, pea size)........... 24.00
ESD. WIG Ae Re ee eee ae Ree ae 29.00
SEE LDA uae plo se ae See ee een 8.00

With a ration of broken ear corn and clover hay re-
sults were as follows:
Average daily gain per steer in pounds (186 days).. 2.08

Pounds pork per steer made by hogs following...... 62.60
Pounds gain on steers per bushel corn fed.......... 6.69
Pounds gain on steers and pigs per bushel corn fed . *7.98
Net cost of 1 pound gain on steers ................ $.059
Cost per cwt. of feeders in feed lot................. $4.53
Value per cwt. when marketed...............5.-..: $5.95
Net profit per steer, corn 35c., clover hay $8 per ton.

Gains in pork credited at $5 per cwt........... 9.84
Net profit per steer, corn.40c., clover hay $10..... [5.08

*With each bushel of corn fed in this lot there was an average of
approximately ten pounds of oil meal or gluten meal fed in addition
to the corn, which of course was not the case where corn was not
supplemented with a nitrogenous concentrate.

60 BEEF PRODUCTION

With broken ear corn, gluten meal, oil meal and
clover hay:
Average daily gain per steer in pounds (186 days) .. 2.383

Pounds pork per steer made by hogs following...... 74.13
Pounds gain on steers per bushel corn fed......... 7.92
Pounds gain on steers and pigs per bushel corn fed. 9.06
Neticost of 1 poundseamion sheencn eae eae $.067
Cost per cwt: of feeders m feed lot.. ° 7.23.02... ace $4.53
Value per cwit- when marketed] =, oe ee $6.15
Net profit per steer, corn 35c., clover hay $8 per ton,
Gains in pork credited at $5 per cwt............ 9.75
Net profit per steer, corn 40c., clover hay $10.00.... 5.36

By referring to the table it will be seen that the steers
getting the oil meal and gluten meal made larger daily
gains throughout the feeding period than did those that
received only broken ear corn and clover hay. This
result usually follows such practice because the supple-
menting of corn with a palatable nitrogenous concentrate
undoubtedly stimulates the appetite and increases the
capacity of the animal for consuming to advantage large
quantities of concentrates. This system of feeding is to
be recommended, therefore, where the securing of a
quick finish is of more consequence than the somewhat
increased cost of the gains.

GAINS MADE BY HOGS

It has frequently been stated that better gains are
secured on hogs following steers fed on corn supplemented
with oil meal than where it is not so supplemented.
It is possible that in the above statement reference was
made to the cattle not fed a nitrogenous roughage such
as clover hay. This test at any rate points to the con-
clusion that where corn is supplemented with both
a nitrogenous concentrate and a nitrogenous roughage
the hogs make smaller gains than where supplemented
with clover hay only. This is as it should be, for if it
is true, as is pretty clearly shown by a comparison of the
pounds of beef made per bushel of corn fed, that the
supplementing of corn with the concentrated feeds used

SUPPLEMENTARY FEEDS 61

in this test increases the efficiency of corn for making
beef, there must of necessity be less of the corn in the
droppings of the steers for producing gains on the pigs.
It is not probable that the pigs get much benefit from
the undigested portion of these concentrated feeds,
especially where whole corn is fed.

A comparison of the cost of gains will bring out
- forcibly the point that the most efficient rations are not
necessarily the most economical producers of gains.
Notwithstanding the fact that the cattle receiving the
oil meal and gluten meal were enough better finished to
sell in the open market for 20 cents per hundredweight
more than the ones getting corn as the only concentrate,
a comparison of the relative profit indicates that with
feeds at the prices named it matters but little so far as
visible profits are concerned whether or not the cattle
feeder uses these nitrogenous feeds for two-year-old cattle
for winter feeding. In the financial statements given
no charge has been made for interest on investment in
cattle, hogs, and equipment, or for labor required, nor
are the cattle and hogs credited with any fertilizer pro-
duced. It should not be overlooked, however, that
while in actual visible returns one ration appears about
as good as another, as a matter of fact the manure
from the oil meal or gluten meal fed steers would be con-
siderably more valuable than that from the steers fed
corn only. The cost of gains looks low, and it is low
only because corn is charged at the rate of 35 cents per
bushel.

The question of the use of these supplementary feeds
where clover, alfalfa, or cow-pea hay is not available
will be considered next.

NITROGENOUS CONCENTRATES

It frequently happens that the cattle feeder does
not have alfalfa or clover hay to use as roughage in
fattening cattle and must depend upon timothy hay,
corn stover, or straw. Jn such instances it becomes a

62 BEEF PRODUCTION

pertinent question whether or not it will pay to purchase
nitrogenous concentrated feeds such as oil meal, cotton-
seed meal, or gluten meal to add to the ration in order to
partially or wholly balance it. In presenting the results
of the following test the writer believes that conclusive
evidence is available that it does pay. This test was
conducted at the Illinois Experiment Station during the
winter of 1902-1908. During this time prices for feeds
and cattle were extremely high, and in order to make this
test illustrate the principle involved in this discussion
the prices of cattle and feeds are reduced to as nearly a
normal basis as it is possible to make them. ‘The cattle
used were grade Shorthorns, but of a rather low grade.
On the market they graded from medium to good feeders,
weighing about 970 pounds each. Ordinarily such feed-
ers can be secured in the fall of the year for $3.80 per
hundredweight delivered in the feed lots. The cattle
used in this test were here figured at this price. Feeds
used were charged at the following prices:

Shelled corn, 35 cents per bushel; gluten meal,
$29.00 per ton; timothy hay, $10.00 per ton; and corn
stover at $4.00 per ton. There were twelve steers in
each lot, one of which was fed a ration of shelled corn,
timothy hay, and corn stover; the other, shelled corn,
gluten meal, timothy hay, and corn stover. From this
it will be seen that no nitrogenous roughage like clover
hay was used. The results were as follows:

FINANCIAL STATEMENT
Lot 1. Corn, timothy hay, and corn stover.

DISBURSEMENTS
To 12 steers, 11,610 pounds at $3.80 per cwt ......$441.18
To 225.7 bushels corn at 35c. per bushel.......... 78.99
To 7.59 tons corn and cob meal at $11.44 per ton.. 86.83
To .41 ton cornmeal at $13.34 per ton ........... 5.47
To 5.37 tons timothy hay at $10.00 per ton ....... 53.70
To 3.17 tons corn stover at $4.00 per ton ......... 12.68

Expense of feeding in holding last week.......... 13.57

SUPPLEMENTARY FEEDS 63

Freight, Champaign to Chicago, commission for sell-

mead OLMer Expenses... .. .. oe bie alae ree 30.00

Morale cisoursements: (2. 62... ose ee ss Pes $722.42
RECEIPTS

12 steers,-14,063.04 pounds at $5.35 per cwt ...... $752.37

482 pounds pork at $5.00 per cwt ............... 24.10

Total receipt:. . oa . $776.47

Total Hebursemoetiis, $722, 49: Bron on ay lve steers,
$54.05; profit per steer, $4. 50.

Lot 2. Corn, gluten meal, timothy hay, corn stover.

DISBURSEMENTS

To 12 steers, 11,702 pounds at $3.80 per cwt...... $444.68
To 138.27 bushels corn at 35c. per bushel ......... 48.39
To .64 ton cornmeal at $13.34 per ton ............ 8.54
To 6.62 tons corn and cob meal at $11.44 per ton . 75.75
To 2.09 tons gluten meal at $29.00 per ton ....... 60.61
To 5.96 tons timothy hay at $10.00 per ton ....... 59.60
To 8.18 tons corn stover-at $4.00 per ton ......... 12:72
Expense of feeding in holding last week........... Oya: 42

Freight, Champaign to Chicago, commission for
sellme and other expenses....:............... 30.00
atonralecispurseMentss +... sc... ee. so. . -$155169

RECEIPTS

12 steers, 14,880 pounds at $5.80 per cwt ........ . $863.04
422, pounds pork at $5.00 per cwt ............... 2110
SOHCCEIDUS: 0): ote ac enn eos eo. se P8844

Total disbursements, $755.69; profit on twelve steers,
$128.45; profit per steer, $10.70.

The foregoing financial statement clearly shows that
in this test where corn was fed with timothy hay and
corn stover there was a marked advantage in the feeding
of gluten meal. Similar results would have followed the
use of oil meal or cottonseed meal in the ration. The
results are so striking that it leaves little doubt as to the
advisability of purchasing these concentrated feeds
where alfalfa, clover hay, or cow-pea hay are not avail-
able as a supplement to corn for cattle feeding.

64 BEEF PRODUCTION

AMOUNT TO FEED

Where oil meal or cottonseed meal is to be fed there
are several questions arising which should be briefly
considered. How much of these commercial concen-
trates should be fed per animal per day, and how rapidly
should steers be worked up to the amount to be fed?
Experience has demonstrated that if one wishes to get
the largest net profit from feeding these feeds a minimum
rather than a maximum amount should be used, that is,
the feeding of two to three pounds per steer per day is
likely to be followed with larger net profits than the
feeding of five or more pounds per steer per day with
feeds at normal prices. The amount that can be fed to
advantage will, of course, vary with the composition
of the remainder of the ration. For example, if alfalfa
and clover hay are used as roughage and the feeding of
these concentrates is largely a matter of. increasing the
value of the manure, then the maximum amount fed
should not exceed three pounds per day per 1000 pounds
live weight of cattle, and it is even possible that the
most profitable returns are secured by feeding even
smaller amounts. Where timothy hay, corn stover, or
straw is used for roughage and corn for the concentrated
part of the ration, this three pounds becomes the mini-
mum amount of oil meal, cottonseed meal, or gluten
meal to be fed daily per 1000 pounds live weight of
cattle. When corn is high in price and these feeds
reasonable, as much as four pounds may be fed to ad-
vantage. These amounts are suggested for two-year-old
or older cattle. For calves or yearlings one pound per
1000 pounds live weight of cattle more than that stated
for older cattle will be found a good rule to follow.
Cattle should be started on these feeds at the rate of one-
fourth pound per day per animal, increasing them at
the rate of one-eighth pound per day until the cattle
receive the required amount.

SUPPLEMENTARY FEEDS 65

HOGS FOLLOWING STEERS FED COTTONSEED MEAL

Much has been said concerning the danger to hogs
following steers fed on cottonseed meal. Undoubtedly
this danger has been greatly exaggerated. The writer
has yet to learn of a single instance of injury to hogs
following steers fed cottonseed meal in the amounts
recommended above, where reasonable care was exer- .
cised in not allowing the pigs access to the meal before
it passed through the cattle.

SUMMER FATTENING

While cottonseed meal furnishes an excellent supple-
ment to the corn plant for winter fattening of steers it
can be used to greater advantage as a supplement to
corn in fattening cattle on grass. As to palatability,
oil meal comes first, then cottonseed meal and gluten
meal in the order named. If whole corn is to be sup-
plemented, either the pea or nut size of ground linseed
cake or the nut size of cottonseed cake should be used;
especially in summer are these sizes recommended,
because there is less waste from high winds. The highest
erades or best brands of these feeds are advised. Cattle
feeders are frequently urged to purchase low-grade
concentrated feeds, the inducement of a lower price
being the alluring argument that frequently accomplishes
the end sought. The observation of the writer has been
that in most instances the purchaser of such grades is
distinctly the loser.

AT WHAT STAGE TO FEED

The question is frequently asked, where these
concentrated feeds are to be fed only a part of the time,
at what stage of the fattening process can they be used
to the best advantage? The commonly accepted prac-
tice of the best feeders counts for much, and their almost
universal practice is to use it during the last sixty days
prior to marketing. This method has much to com-
mend it, as it improves the appetite at a time when

66 BEEF PRODUCTION

it needs quickening, and when it is good practice to
feed a heavy ration of highly concentrated feeds. It
gives a finish to the hair and skin that attracts buyers.
An experiment is needed to determine whether or not
these same ends would be reached and time saved in the
fattening by feeding the oil meal or cottonseed meal
during the first rather than the last part of the feeding
period; and, again, whether the meal to be fed during
the last sixty days would not accomplish more if dis-
tributed in smaller daily rations throughout the whole
of the feeding period. The writer has observed that
there is a very marked difference in the way cattle
getting oil meal and those that do not, go on feed. Those
getting corn only seem to start much more slowly than
those getting some nitrogenous concentrates from the
beginning.
OATS IN CATTLE FEEDING

Oats are an excellent food for fattening cattle when
the price will permit their use, but their feeding value,
pound for pound, is no higher than that of corn, hence
they can not be used extensively when higher in price
per pound than corn. Being rather bulky, they are good
to mix with cornmeal in the absence of the cob or other
bulky material. They are not as fattening as corn and
should be used as a supplement to rather than a substi-
tute for corn. They make an excellent food for growing
stock. Oats are valued very highly by a large number
of cattle feeders to supplement corn in starting calves
intended for finishing as baby beeves.

MOLASSES

Molasses is strictly a carbonaceous food, belonging
in the same class as corn-and similar feeds. It has come
to be regarded as a valuable feed for fattening cattle,
especially in the sugar-producing regions of the country
where it is obtained cheaply as a by-product from the
manufacture of sugar. In the manufacture of sugar it
is impossible to get all the sugar to crystallize out of

MOLASSES 67

the cane or beet juice, and this sugar, together with
other organic matter contained mainly in the form of
proteids, gives the refuse molasses its value as a stock
food. ‘The protein, however, is in a very small propor-
tion as compared with the sugar or carbohydrates.
This refuse is obtainable in the sugar belt for from
six to ten cents a gallon of about twelve pounds.

For fattening cattle molasses has as much or more
value as an appetizer than as an actual food. When
sprinkled over grain or hay it causes a larger consump-
tion of feed, and not only this, but feeders claim that it
is an aid to digestion. Although at present there is
not much data at hand on the subject, this claim seems
to be substantiated by experimental evidence. An
experiment conducted by the Texas Station in 1903
shows that when molasses at the rate of two-fifths of a
gallon per steer per day was added to a ration of cotton-
seed meal and cottonseed hulls, the cattle not only
made a greater daily gain per head, but the gains were
made cheaper. (Texas Bulletin 76.)

A bulletin on the subject has been published by
Professors John A. Craig and F. R. Marshall of the
Texas Station, which gives the results of feeding
molasses to two-year-old steers being finished for mar-
ket. The average grain ration consisted of 14 pounds
of cottonseed meal and corn chop, one part of the
former to two parts of the latter, and the average
roughage consumed was 1214 pounds of cottonseed hulls
per day. ‘To this was added molasses at the rate of a
little over 3 quarts per steer per day. The cattle thus
fed made an average daily gain of 1.71 pounds against
1.27 pounds with a similar lot similarly fed, but without
the molasses. The cost per pound gain was 10.05 cents
with the lot receiving molasses against 11.3 cents with
the lot receiving no molasses. The low rate of gain and
high cost per pound is due to the fact that the steers
had been long fed and were nearly fat when the experi-
ment began.

68 BEEF PRODUCTION

The bulletin referred to states that the most common
method of feeding molasses is to carry it out in buckets
and mix with the feed in the bunks. In the tests at
the station the molasses was mixed with an equal
volume of water and poured over the mixed grains and
hulls, the whole then being thoroughly stirred. A
common practice is to take a spraying outfit, the barrel
being filled with an equal volume of water and molasses,
and drive through the feed lot, spraying on the mixed
feed in the bunks such an amount of the mixture as is
to be fed. According to statements made by the Massa-
chusetts Station, the residuum molasses from Porto
Rico is being offered for sale in New England at 13 cents
a gallon of 12 pounds. The molasses contains 24 to 28
per cent of water, 3 per cent of nitrogenous matter,
and 7 to 8 per cent ash, the remainder being sugar and
allied substances. “It will probably be shown to con-
tain some 1200 pounds of digestible organic matter in
a ton, against 1500 pounds in a ton of cornmeal. On
this basis alone it would have, pound for pound, 80
per cent of the nutritive value of corn. Its value will
probably be enhanced over this figure, because of its
other desirable qualities.”

A good appetizer is made of ground alfalfa hay
mixed with molasses. Mr. T. B. Hord, Central City,
Nebraska, claims that such a mixture fed at the rate of
two pounds per day increased the consumption of corn
from three to six pounds per day per steer.

ROUGHAGE IN CATTLE FEEDING

ALFALFA AND CLOVER HAY COMPARED WITH
OTHER ROUGHAGE

It is generally known that alfalfa and clover hay are
superior roughages for cattle. The writer is inclined to
believe that the extent of this superiority is not as
generally appreciated as it should be, else more alfalfa
and clover and less timothy and other grasses would be
grown for feeding purposes. The writer has been

ROUGHAGE FOR CATTLE 69

unable to find any published data concerning the rela-
tive value of alfalfa and clover hay when used with corn
for fattening cattle. Cattle feeders who have had ex-
perience in feeding both are, however, practically
unanimous in their belief that alfalfa is the better rough-
age of the two. One factor which materially contributes
to this fact is that alfalfa contains 11 pounds protein in
each 100 pounds hay, while red clover contains only
6.8 pounds. Another fact to be reckoned with is that
alfalfa is not as much damaged by storms during the
curing process as is clover. Wheat bran contains but
12.2 pounds protein per hundredweight and, as far as
its content of protein goes, is but little more valuable
for feeding purposes than is alfalfa. Timothy hay ccn-
tains 2.8, corn stover 1.7, and oat straw but 1.2 pounds
protein per hundredweight. Thus it will be seen that
as far as we are able to judge from the chemical composi-
tion of these feeds they are not well suited to supple-
ment corn, which contains 7.8 pounds protein per
hundredweight. Experience and experiment both cor-
roborate the chemists’ claims.

TEST MADE AT THE ILLINOIS STATION

In an experiment at the Illinois Experiment Station,
some important facts bearing directly upon this subject
were brought out. Clover hay was compared with
timothy hay and corn stover when used with corn for
fattening two-year-old cattle. It took 7.68 pounds corn
and 4.82 pounds clover hay to produce 1 pound of beef
in the clover hay fed lot, as compared with 9.87 pounds
corn and 5.88 pounds timothy hay and corn stover
combined. Or, taking into consideration the meat
(both beef and pork) produced, the figures stand as
follows: 6.75 pounds corn per pound gain on steers and
pigs combined in the clover hay lot, as against 8.47
pounds in the timothy hay and corn stover lot. There
were twelve steers in each lot, and they were fed eighteen
weeks. In the clover hay lot $272.08 worth of feed

70 BEEF PRODUCTION

(figured at normal prices, 35 cents for corn and $8 for
clover hay)» produced a gain of 3605 pounds (Chicago
weight) on the steers and 542 pounds on the hogs, while
in the timothy hay and corn stover lot $251.24 worth
of feed produced only 2498 pounds gain on steers and
482 pounds on the hogs.

The records of this experiment clearly show the rela-
tively greater efficiency of the corn and clover hay ration
as compared with the corn, timothy hay, and corn stover
ration for beef production. That the advantages of the
former were due entirely to the nature of the roughage
fed is probable since corn was the concentrate used in
both instances. Notwithstanding the fact that the
corn and clover hay ration was more effective for beef
production, it appeared also to be very favorable to pork
production, as much more pork was produced by the
pigs following this lot of steers and more pork per pound
erain fed to the steers than where timothy hay and corn
stover made up the roughage part of the ration.

CLOVER HAY AND CORN MAKE GOOD GAINS

As would be expected from a comparison of the gains
made in the two lots, the steers in the lot making the
largest gains were more nearly finished than the others.
That is to say, the lot fed on corn and clover hay sold
for 30 cents per hundredweight more than the lot fed
on corn, timothy hay, and corn stover. The shrinkage in
shipping from Champaign to Chicago per steer in the for-
mer lot was but 35 pounds to the latter’s 41. With corn
at 35 cents per bushel, clover hay at $8 per ton, timothy
hay at $10, and corn stover at $4, the profit per
steer in feeding the rations discussed above was for the
corn and clover hay lot, $11.89; for the corn, timothy
hay, and corn stover lot, $4.50. This should be sufficient
argument to encourage the growing of clover or alfalfa
for cattle feeding purposes. The two-year-old cattle
used in this test contained considerable Shorthorn blood,
but would not grade above medium to good and ordi-

CLOVER HAY AND CORN al

narily could be purchased in the fall of the year for
$3.80 per hundredweight delivered in the feed lot and
would sell in the condition in which these were marketed
at from $5.35 to $5.65 per hundredweight on the
Chicago market.

At the Missouri Experiment Statiou 157.5 bushels
of corn and 2540 pounds of timothy hay made a gain
of 789 pounds in 105 days on four steers, or an average
daily gain of 1.97 pounds. Each bushel of corn in th:s
case made a gain of 5 pounds.

One hundred and seventy-six busnels of corn, 2475
pounds of clover, and 868 pounds of corn stover made a
gain of 1140 pounds in the same time, or an average
daily gain of 2.85 pounds. Here a bushel of corn aver-
aged to produce 6.74 pounds of gain in weight.

One hundred and sixty-nine bushels of corn, 2967
pounds of clover, and 1139 pounds of wheat straw pro-
duced a total gain of 1073 pounds, or 2.68 pounds per
day. A bushel of corn made with this combination 6.08
pounds of gain. These results apply with even greater
force to calves than to yearlings and two-year-old cattle.

CORN STOVER

In both composition and digestibility corn stover
closely resembles timothy hay, and the edible portion
of the stover has a nutritive value fully equal to that
of timothy. The Illinois Experiment Station (Bulletin
58) found the digestion co-efhicients for the various
nutrients in corn stover to be as follows: dry matter,
08.2 per cent; ash, 22.5 per cent; protein, 37.4 per cent;
fat, 55.2 per cent; fiber, 70.3 per cent; carbohydrate
extract, 60.6 per cent. These are averages of results
obtained from feeding four steers for a period of ten
days.

In the system of handling the corn crop practiced
throughout the corn-belt, namely, that of husking from
_the stalk and using the stalk fields for pasturing cattle
in the winter, considerable of the feeding value of the
crop is wasted.

72 BEEF PRODUCTION

Corn stover may be used to the best advantage when
fed to stock cattle, sheep, or horses. It 1s not a desir-
able feed for beef production, especially when fed in
connection with corn, which is a highly carbonaceous
ration in itself. It may be advantageously used to
supplement an inadequate supply of better roughage,
such as clover or alfalfa hay.

CHAFFING HAY AND MINGLING WITH GRAIN

It is held by some cattle feeders that by cutting the
hay into short lengths and mixing it with the grain, more
thorough mastication and digestion are secured with
less liability of digestive derangements and more eco-
nomical use of feed. Experiments, however, do not
sustain this theory. At the Illinois Experiment Station
four lots of choice 1000-lb. feeders of fifteen head in
each lot were fed six months in a dry feed lot from
December to June as follows:

Lot 4, cornmeal, linseed oil meal, gluten meal, and
clover hay.

Lot 5, cornmeal, linseed oil meal, gluten meal, and
chaffed clover hay mingled with the grain.

Lot 6, corn and cob meal, gluten meal, oil meal, and
clover hay.

Lot 7, corn and cob meal, gluten meal, oil meal, and
chaffed clover hay mingled with the grain.

The chaffing of the clover hay was done by running
it through an ensilage cutter. The actual cost of chaff-
ing was $1.00 per ton, which included labor, and wear
and depreciation of machinery. The results are sum-
marized as follows:

Total gain | Gain per | Pork made | Dry matter Suk
Lot No. | per steer, |steer perday,| per steer, per pound rofit per
lb. lb. lb. gain on steer
steers, lb.

ee OO ee’ \ nr ,

4 442.86 2.38 20.66 10.43 bo .99
5) 434.14 2.33 20.02 LO. 1 4.50
6 432.03 2.32 18.00 WISTS 4.34
a 2.45

455.94 24.00 ot 5.78

CHAFFING HAY 73

The feeding of chaffed hay with cornmeal seems
adverse to large gains as compared with feeding clover
hay in the ordinary way. In feeding chaffed hay with
corn and cob meal the effect seems to be favorable to
the use of chaffed hay for securing rapid gains. These
differences, however, are so slight that it is safe to say
that the mere chaffing of the hay and mingling it with
the grain has but little, if any, influence on securing
rapid gains.

The chaffing of hay and mingling it with the con-
centrates in the form of meals did not add materially
to their efficiency for beef production, although by this
system of feeding there is less likelihood of getting the
steers off feed or of their scouring.

The Kansas Experiment Station conducted a similar
experiment, the results of which were not markedly
favorable to chaffing and mingling, but they were more
favorable to this practice than were those of the Illinois
test.

Professor Henry says in ‘‘Feeds and Feeding,” that
in the case of hard-worked horses it is advisable to
chaff the hay and mix it with the grain and moisten
the whole mass. This puts it in shape to be quickly
masticated and swallowed, and has a longer time to
remain in the stomach for digestion than would be
possible where long dry hay is fed. But in the case of
fattening cattle and farm stock in general, which have
ample time for mastication, there is little or no advan-
tage in chaffing hay or straw.

It is quite probable that the chaffing of hay and
mingling it with the grain in proper proportion is con-
ducive to a smoother and more attractive finish on the
cattle.

FOR GETTING CATTLE ON FEED QUICKLY

Although there seems to be but slight advantage in
chafing hay and mingling it with grain for cattle fed
for the ordinary fattening period, when the mixed hay

74 BEEF PRODUCTION

and grain ration is fed through the self feeder to cattle
that are to be fed for a short period only, such cattle
can be put on full feed much quicker and at a less risk
than when fed in the ordinary way. ‘This has been
well illustrated in an experiment conducted at the Ih-
nois Experiment Station. A number of good to choice
fleshy three-year-old feeders were selected and divided
into two lots of fourteen each, and fed for a period of
89 days. Lot 1 was fed corn meal, oil meal, and clover
hay by the ordinary method of hand feeding. Lot 2
was fed on the same feed-stuffs, but the clover hay was
cut into two-inch lengths and mingled with the grain
and the mixture was fed through a self feeder, to which
the cattle had access at all times. The full grain ration
was reached by gradually increasing the proportion of
concentrates to roughage. Both lots were given all
the grain they would consume without causing diges-
tive disorders and getting them off fed. The entire
feeding period was divided into six periods of two
weeks each. The proportion of concentrates to rough-
age for the different periods is shown by the following
table:

Periods Average
ao 1 D) 3 4 5 6 | 89 days
1 11:1.64 11-067 11 - 0:72 1-0.55 | 1° 0:43) 1-034) 1. olen
aL eG |e OLEn |e OS Sil O28 dl OSS) 1s 0.55

There was quite a marked difference between the
two lots in the time required to reach full feed, the total
amount of feed consumed, the proportion of concen-
trates to roughage, and the rate and cost of gains, the
difference in every case being in favor of Lot 2. The
maximum concentrate consumption was reached in the
fourth period in the case of Lot 2, while with Lot 1 it was
not reached until the fifth period, showing that Lot 2
was on full feed about two weeks sooner than Lot 1.
There was a larger total consumption of feed in Lot 2

CHAFFING HAY 75

than in Lot 1, especially of concentrates, the average
daily grain ration of Lot 1 was 21.97 pounds, against
24.64 pounds in Lot 2. The average daily consumption
of roughage was .67 of a pound greater in Lot | than in
Lot 2, but as the digestible nutrients were more expen-
sive in the form of roughage than in the form of con-
centrates, it is probable that this larger proportion of
roughage would work as a handicap in the cost of gains
for the lot. Lot 2 made larger and more economical
gains than Lot 1. The average daily gain for Lot 1 was
2.984 pounds, at a cost of $0.0753 per pound against
the average daily gain of 3.326 pounds at a cost of
$0.0749 per pound by Lot 2. The profit per steer in
Lot 1 was $1.288 and $3.403 in Lot 2.

These figures show that by chaffing the hay and
mingling it with the grain and feeding through a self
feeder, the cattle were put on full-feed sooner, consumed
a larger amount of feed, and made larger and more
economical gains than when fed in the ordinary way.
Although such marked results may not be obtained in
all cases, this experiment was carried on under natural
conditions and there is no reason why it should show
results especially favorable to chaffing.

CEEAP ANI 1xe
BABY BEEF

The demand for baby beef is strong and increasing.
With this increasing demand of our markets for this
class of beef there is a general movement among cattle
feeders, and more especially among those who have
limited experience, toward the feeding of younger cattle.

. We do not mean by this that
only the inexperienced are tak-
ing up the production of baby
beef. It is but natural that
cattle feeders of wide experi-
ence should be inclined to con-
tinue to follow those methods which they have found
profitable and accept slowly new methods and ideas
of cattle feeding. On the other hand so much has
been said and written concerning the advantages of
producing baby beef that the beginner arrives at the
conclusion that it is the only profitable branch of beef
production.

There are many things to be thought of, however,
before the cattle feeder rushes blindly into the feeding
of calves and yearlings with a view of finishing them as
baby beeves. The majority of fat cattle falling within
this classification are from one to two years of age and
welgh from 800 to 1100 pounds. Such cattle can
only be produced from well-bred calves and yearlings.
Whether or not the finishing of such cattle will prove
profitable will depend upon a number of conditions,
chief among which are the breeding and individual
excellence of the feeding cattle used, their cost, the way
they are fed, and the condition of the market at the time
they are sold,

76

BABY BEEF 77
MUST BE WELL-BRED YOUNGSTERS

Other things being equal, the younger the cattle the
longer it will take to mature them for market. Well-
bred feeding cattle can be matured for market at a
much younger age than the plainer kinds. One thing
is certain, baby beef must be made with young cattle.
Only well-bred ones will mature sufficiently early to
satisfactorily meet market requirements. It should be
borne in mind, too, that, provided care has been exer-

Fig. 7. The right quality with which to produce baby beef.

cised in the selection of feeding calves or yearlings
with which to make baby beef, the period of full
feeding must of necessity be considerably longer than
with older cattle.

It is necessary to exercise greater care in the selection
of feeding cattle intended for ripening into baby beef
than older cattle for the reasons already stated and for
the additional reason that the younger an animal is
and the more milk fat it possesses, the less it shows
its lack of quality or breeding. By the time a steer is
two years old one can tell quite accurately how such
steers will feed out. Itisamuch more hazardous propo-

78 BEEF PRODUCTION

sition with the calf. We have fed calves that were
selected with the greatest care as to breeding, age, and
uniformity and still found that they lacked much in
uniformity at the finish.

In a general way it may be said that to fatten young
animals profitably they must be good, they must be full
fed for a considerable time, and they must be made fat.
This means that ‘tops’ must be bought or bred.
Those who have had experience know that as soon as
the cattle feeder goes to “topping” droves of cattle he
operates at a disadvantage. A premium is usually
demanded for this grade. The cattle feeder should
know what he can afford to pay and not give too much
heed to the oft-repeated statement that good calves
cannot be bought too high. One way of becoming
thoroughly convinced that this is not true is to try it.

SPREAD IN PRICES NARROWER

The original weight of the calf is small, hence in the
production of baby beef the cattle feeder cannot depend
for his profit upon the advance in value per hundred
weight upon the original weight. In any event the
spread between the buying and selling price of calves
is not as great as with older cattle. We have known of
a number of instances in which calves were purchased
by the head and sold fat by the hundredweight where
the selling price was no greater than the buying price
per hundredweight. If any considerable profit is
made in such instances it must necessarily be due to
exceedingly cheap gains. The possibility of securing
cheaper gains on young cattle than on older ones is an
established fact, yet the writer has strong reasons for
beheving that this difference has been greatly ex-
aggerated.

Profitable baby beef production requires experience,
judgment, and skill of a high order. It is a mistake for
the inexperienced to dip heavily into this enterprise.

The most successful operators try to avoid losing

BABY BEEF 79

the calf or milk fat or bloom of the young calf. This
is not an easy thing to do. Usually considerable shrink-
age occurs, especially where calves have not been ac-
customed to eating grain before being weaned. Where
considerable shrinkage in condition occurs it is difficult
and expensive to regain, not only so, but it materially
lengthens the time required to mature them. The
calf will not profitably consume so much rough feed as
older cattle. Experienced cattle feeders understand

Fig. 8. High class “baby beef” bred and fed by D. R. Perry
& Son, Sanford, Ill.

that the older the steer the coarser and commoner the
feed that can be given him. The older steer may be
purchased in thin flesh and yet matured in six months
of feeding; the calf or yearling not so. The calf should
be in good condition when purchased and should be so
fed as to keep him gaining until finished for the market.

ROUGHAGE INCREASES FEEDING CAPACITY~*

At the beginning the calf should be encouraged to
consume considerable quantities of roughage. This
will have a tendency to increase the capacity of the calf

80 BEEF PRODUCTION —

for handling large quantities of more concentrated feeds
later on. It is assumed that calves require and will be
provided with desirable roughage such as clover, or
alfalfa hay, or silage during the winter months and
abundant pasture during the summer. Calves should
be fed corn together with some nitrogenous concentrate
like oil meal or cottonseed meal during the winter.
Corn may be fed to calves in the form of shelled corn,
crushed corn, or sliced. With plenty of hogs to follow,

Fig. 8A. Baby beeves possessing desirable quality and finish.
Fed by Hon. Humphrey Janes, Washington Court House, Ohio.

the writer believes that these forms will be found more
profitable than cornmeal or corn and cob meal. If
oats are cheap and more readily available than oil meal
or cottonseed meal they may be substituted. Oats are
one of the very best of feeds with which to start calves,
and with cottonseed and linseed meals at almost prohibi-
tive prices, they, with alfalfa or clover hay as roughage,
are likely to prove the best supplement to corn for full
feeding. When turned to grass the grain ration may
in some instances be gradually decreased as the grass
improves. Whether or not the feeding of grain should
be altogether dispensed with for a short time while the
calves are on grass will depend upon the grass and upon

BABY BEEF 81

the time at the disposal of the cattle feeder for finishing
them. Ordinarily the grain ration should not be
entirely discontinued, no matter how good the grass.
It can be slightly reduced for a few weeks and then as
the grass begins to fail it should be increased until the
calves are getting ail they will take.

LIBERAL FEEDING IS NECESSARY

The tendency with calves and yearlings is to grow
rather than fatten. The aim of the cattle feeder produc-
ing baby beef should be to have them fatten as they
grow. ‘This can only be accomplished by liberal feeding.
The most common mistake among baby beef producers
is to market before fat enough. It is extremely difficult
to get calves and yearlings too fat for market require-
ments. If heifer calves are fed instead of steers they
will mature more quickly and should be marketed earlier.
Ordinarily the younger prime heifers are at the time of
marketing, the less discrimination in price there will be
between them and steers.

We advise vaccination to prevent blackleg, and if
calves have not been vac-
cinated before purchase they —
should be as soon after as ga
possible. Good vaccine and ( g@
intelligent use are practically Fees
a specific preventive of black- fies
leg.

It is seldom practicable to get spring calves ready
for baby beef market before July of the second
summer. More frequently they are not marketed
until October, November, or December, when they are
approximately eighteen months of age.

CHAPTER X.
SELECTING CATTLE FOR, AND THE POSSI-
BILITIES OF, THE SHORT FEED

Undoubtedly the system of feeding cattle a relatively
short time, making it possible to handle several different
droves a year is becoming more popular. In addition
to the advantage of being able to handle more droves
each year is the possibility of avoiding the long and
necessarily expensive fattening periods. On the other
hand the disadvantages of such a system are not want-
ing, chief among which are the impossibility of
making finished beeves of a high grade, the difficulty
of securing suitable stock, and a growing and marked
tendency among buyers to strongly discriminate against
short-fed cattle. In reality there are two kinds of short
feeds, viz., (a) buying noticeably thin fleshed cattle
with considerable age, shipping them to the country, and
returning them to market in about ninety days after
liberal grain feeding. This is a practice commonly
spoken of as “warming up.” ‘This system deals very
largely with cattle of low grade or those plain in quality.
(b) The purchase of fleshy cattle of strong weights that
have been shipped to market, for one reason or another
in a half fat condition. Cattle that are good enough
so that packers buy them for slaughtering purposes,
not bidding them high, as they are not fat enough to suit
the trade demanding choice beef for which those demand-
ing it are willing to pay top prices. Those who have
made the greatest success of this method of feeding
have had unusual facilities for buying and marketing.
Skilled feeding is necessarily an important feature of
the business, but after all is said, the success of the enter-
prise must rest largely in judicious and timely buy-

82

THE SHORT FEED 83

ing and marketing. Cattle feeders who do not have
these advantages would better leave this branch of the
business to those who have.

Commonly, about one-third of the margin per hun-
dredweight necessary to balance accounts in case of
feeding cattle bought on the market and returned to be
sold there after fattening, is due to freights, commissions,
and stock yards charges. Hence the shorter the fatten-
ing period, the larger is the relative importance of these
buying and marketing expenses. Thus it is not diffi-
cult to see that the difference in distance from the mar-
ket, causing differences in freight rates, may properly
affect the nature of cattle feeding practice advisable.
It should be obvious that nearness to market should be
favorable to a system of short feeding. Perhaps the
factor of greatest importance in selecting cattle for this
purpose, assuming whatever purchased to be worth the
price paid, is to get cattle that have as much age as
possible. Cattle under two years old should seldom if
_ever be selected for short feeding purposes, and three-
year-olds are to be preferred to younger cattle. If the
eattle are purchased with a view of ‘‘warming them up,”
a decided lack of flesh, providing they are thrifty, is to
be desired, while if purchased with a view of making
a good to choice grade of beef, fleshy feeders or cattle
that some other feeder has “warmed up” should be
purchased. In both instances, but more especially in
the latter, as good quality or breeding in the steers
should be secured as is available at right prices. Weight,
always an important factor in buying feeding cattle, is
especially important in buying cattle for a short feed.

HOW TO FEED

No matter what method of getting cattle on feed is
advisable where cattle are to be fed for a considerable
time, for short feeds they must be put on feed quickly |
and fed on a heavy, highly concentrated ration. Else-
where it has been stated that the safest and most satis-

84 BEEF PRODUCTION

factory method of getting cattle on feed quickly is to
chaff the hay and mingle it with the grain. This is not
always practicable, but where at all possible it is to be
advised.

POSSIBILITIES OF THE SHORT FEED

The possibilities of the short feed have been demon-
strated by an experiment conducted at the Illinois
Experiment Station. Thirty-four good to choice fleshy
threc-year-old steers were purchased on the Chicago
market August 22 and taken to the University of Illhi-
nois, where they were fed until November 25, a period
of eighty-nine days. On the basis of weights taken
after their arrival at Champaign after being shipped
from and before being shipped back to Chicago, the
steers made an average daily gain of 3.15 pounds for
the eighty-nine days. The average feed per steer per day
was: corn meal, 20.28 pounds; oil meal, 3.02 pounds;
and clover hay 13.11 pounds.

The steers cost $4.25 per hundredweight on the Chi-
cago market, and, taking into consideration the freight
to Champaign, shrink, commission, and feed, the cost in
the feed lot at the beginning of the experiment was
$4.45 per hundredweight. The financial result of the
experiment is shown by the following statement:

DISBURSEMENTS

Ro Cattle:
34 steers, 36,490 lb. at $4.25 per ewt. $1550.82
COMMISSION es see oe eee 20.00
Freight. . is. De tGE SSA ESS
Feed prior to experiment. . Fh ge Od et) 4.00

——_—§— $1616.70

To Feed:
30.698 tons cornmeal at $13.699.... $420.53
A589 tons oll mealean 525.0025...) 128200
LOM s tons clover haysan Se O0na. a Sle)

9.661 tons clover hay chopped at

GOS OG a kai fe teskaties ee sent 86.95

fe FBS

THE SHORT FEED SO

To Marketing:
Freight Champaign to Chicago, com-

mdissiom, teed, and yardage .......... 4. . 76.88
Motalvexpenditures +) 4c. os. 5 oo ee ee $2410.96.
RECEIPTS
34 steers, 44,650 Ib. at $5.60 per ewt.$2500. 40
465 lb. pork at $5.00 per cwt....... 23.25
BiorAlereCelUSe 26ers core eck. bebe oh $2023.60
GOONS ShCENS. oy ls Deo. a a Ze 69

This shows a profit of $112.69 with corn at 30 cents
per bushel and other food-stuffs as charged in the
account. No account was taken of labor and interest
on money invested, or fertility produced.

CUP IIIS XL
MAKING CHRISTMAS BEEF

The fattening of cattle with especial reference to
their fitness for Christmas market requirements has
become a speciality among quite a large number of
cattle feeders. While the demand for Christmas beef
is limited it has thus far been sufficiently extensive to
absorb the supply offered and that at good prices. The
prices paid in the leading markets fcr prime Christmas
beef look attractive to the average beef producer who
is not very closely in touch with market conditions.
These prices frequently tempt men to feed cattle for
this particular market that are not at all suited for the
trade. The good prices are only paid for the prime
cattle and to make prime cattle requires careful atten-
tion to every detail of the enterprise, including the selec-
tion of the feeding cattle to be finished and the fattening
of them. It requires skill of a high order to produce
cattle that are good enough in quality and condition to
attract buyers during the holiday season. ‘The produc-
tion of such cattle is by no means an easy or sure way
to secure profits in the cattle feeding business. It
requires choice to fancy quality in feeding cattle to begin
with, and it is but seldom that such cattle can be pur-
chased except at a premium. Then, frequently, it is
desirable in order to secure the highest finish to feed
some nitrogenous commercial feeds which are relatively
high priced, and lastly, in order to secure the high finish
demanded requires an extended feeding period. The
experienced cattle feeder recognizes at once that the
factors enumerated above each increase materially the
cost of production. This increased cost amounts to
considerable when all these factors are combined,

86

CHRISTMAS BEEF 87

The so-called Christmas market for such cattle is
made by three classes of buyers. Buyers for local
slaughter, as, for example, in the Chicago market the
packers; order buyers for shipment to other cities;
and exporters. The proper time to market Christmas
cattle is from about November 23 to December 15.
Between these dates buyers for local slaughter, shipment,
and export are on the market until their orders are filled.
Exporters who buy for the foreign holiday trade usuaily

Fig. 9. Prime standing rib of Christmas quality.

buy most of their cattle from November 25 to 27, al-
though these dates may vary a little one way or the other,
depending upon the days of the week on which export
boats sail for foreign ports. Ordinarily, exporters
take from one-fourth to one-third of the total supply of
Christmas cattle offered on the Chicago market. The
larger proportion of holiday beef is exported alive, and
for this purpose cattle possessing fancy quality and
thick fat, weighing from 1300 to 1500 pounds are
wanted. From 1300 to 1400 pounds is the popular
weight, although they use some prime 1100 to 1200
pound cattle for that trade and a few weighing as much

88 BEEF PRODUCTION

as 1600 pounds. For the New York and Eastern holi-
day trade, the first ten days of December, especially
from the fifth to the eighth, is considered a favorable
time to market; for the Chicago city trade and nearby
cities and towns, from December 10 to 15.

New York, Boston, and some other Eastern cities use
more heavy good weight cattle than the Western cities.
They also use a good proportion of yearlings and light
weights, and the light and medium weight prime cattle

Fig. 10. A high-class porterhouse steak. An expensive cut,
but good

seem to be gettung more popular every year. It has been
intimated that the supply is not as large as it would be
if it were not a difficult matter to produce prime Christ-
mas bullocks. The accompanying illustrations will
vive the reader an idea of the quality or grade demanded
by discriminating buyers of Christmas beef, the grade
of cattle which produce it, and lastly the kind of feeding
cattle it is necessary to select if one expects to achieve
success in the production of Christmas beef.

Figure 9 shows a standing rib (from which are cut
prime of rib roasts). Here the distribution of fat and
lean is ideal, showing sufficient richness without much
waste. Figure 10, the porterhouse steak, is at best an
expensive cut, but where the fat is as abundant as

89

BEEF

CHRISTMAS

‘Jooq SRUNYSIIYY) voNpo

Id 07 yoy YA Ayyenb yyst

90 BEEF PRODUCTION

shown here it is extremely so, although it is a high class
sample of a Christmas porterhouse steak.

The prime steers which are slaughtered to supply
the demand for this grade of beef are invariably well
bred. No dairy-bred or scrub steer need apply. They
will receive no consideration. By ‘well bred” we mean
steers which contain a high percentage of the blood of
some of the improved beef breeds like the Aberdeen-An-
cus, Shorthorn, Hereford, Galloway, or Polled Durham.
Nor is the possession of beef blood in abundance a pass-
port to this exclusive class Beef blood in abundance
they must have, but it must be accompanied with the
characteristics associated with highest excellence of
such grades.

Figure 11 illustrates the quality and the individual
excellence necessary in feeding cattle suitable for the
production of Christmas beef. With quality similar to
this to start with and thorough familiarity of the cattle
feeding problem, the farmer is equipped with the
essentials for producing Christmas beef. Whether
or not such production will result in profit will depend
upon the cost of the feeding cattle and feeds used,
the skill of the feeder, and the state of the market at
the time they go forward to market. It should be em-
phasized that the making of Christmas cattle 1s a costly
business and not at all well calculated to yield large
profits if indeed any at all to the novice. It is a busi-
ness that is hazardous at best and a goodly portion of
those who follow it do so from a spirit of rivalry or pride.
Those who make it pay are experienced cattle feeders of
long standing.

Figure 12 shows satisfactory prime quality and con-
dition in cattle for the Christmas market.

al
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MAS BEE

CHRIST

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CARE OF CATTLE ON FEED

The care of cattle on feed is an important factor.
By care we refer to a number of little details which are
not ordinarily included in discussing methods of feeding,
rations, or equipment. These include among other
things, regularity in feeding, quietness, number of times
a day to feed, the number of cattle to be fed together,
and salting. In feeding it should be remembered that
fattening cattle soon become accustomed to looking for
their feed at certain hours in the day, and if it is not
supplied at the regular time the cattle become uneasy
and worry. It is unnecessary to say that this cause
for worry among cattle should be avoided. As soon as
the fattening process begins, the cattle should be fed at
certain hours and in the same way. This time cannot
be varied fifteen minutes without some detriment to
the cattle. The extent of mjury will depend upon the
frequency and extent of irregularities.

IMPORTANCE OF QUIETNESS

The quietness of manner of the feeder is also an im-
yortant consideration. The even-tempered attendant
who is quiet in manner and movement invariably proves
more satisfactory than the erratic, bustling, noisy one.
The cattle soon learn to have confidence in the former
and welcome his coming among them, while they are
always suspicious of the latter, never feeling quite at
ease when he is in sight. Under the management of
the former, the cattle become tame and quiet, even
though:more or less wild at the outset; while under the
latter, wild cattle become wilder and tame cattle become
timid. The writer has observed a wide difference in

92

CARE OF CATTLE 93

practice among feeders as to their manner of approach-
ing fattening steers. Some are brusque in manner, rush-
ing up to the steers and scaring them up quickly, while
other (and I am bound to say more successful) feeders
approach the cattle with the greatest care and consid-
eration, getting the cattle up, if at all, as quietly as pos-
sible. Pastures for cattle in quiet, secluded places are
more valuable for fattening cattle than are those adja-
cent to public roads or adjoining pastures where horses
or breeding cattle run.

A FLY PREVENTIVE

Flies are a great drawback to successful summer
feeding. Fattening cattle may be partially protected
from them by furnishing the cattle with a cool, dark
shed to run in during the heat of the day, the doorway
to which is provided with strips of burlap hung at the
top of the doorway and extending low enough to strike
the backs of the cattle as they pass into the shed. The
painting of these sheds white is reeommended by some
practical feeders as one means of making them more
cool than they would be were the exterior painted red,
or some other dark color, or not painted at all.

GROOMING

Grooming of fattening cattle is a practice of doubtful
advisability. It has been practiced only to a limited
extent, and then usually with show cattle. To the
writer’s knowledge, some cattle feeders advocate and
practice, with apparently good results, the tacking up
of grooming cards in convenient places about the feed
lot where the cattle perform their own grooming in a
more or less crude fashion. It is only necessary for the
cattle feeder to tack up a few of these cards to become
convinced that the cattle will use and enjoy them.

NUMBER OF TIMES A DAY TO FEED

The majority of cattle feeders prefer feeding their
cattle grain and roughage twice a day in winter and

94 BEEF PRODUCTION |

grain once a day in summer. Feeding once a day in
summer is practiced largely as a matter of convenience
and not because it is believed to be better for the cattle.
For the most part the same reasons that make it desir-
able to feed grain twice a day in winter apply in summer
with equal force.

NUMBER OF CATTLE TOGETHER

As to the number of cattle that should be run together
in the same feed lot, it may be said that the common
practice is to run them in droves of approximately 100,
where large numbers are fed. There 1s no doubt, how-
ever, that except for convenience in caring for the cattle,
smaller droves would be advisable. If the rule were
made not to feed over fifty in a lot, it would be a good
one, and then see that each lot of fifty is carefully as-
sorted as to age, grade, and weight.

SALTING OF FATTENING CATTLE

There are those who claim that the salting of cattle
is not only unnecessary, but positively detrimental to
fattening cattle. Such claims are based upon evidence
that is scarcely conclusive enough to warrant the aban-
donment of the use of salt in cattle feeding until the
matter has received most careful confirmation by experi-
mental demonstration. The writer believes, with the
majority of cattle feeders, that salt is desirable and a
helpful aid to appetite and digestion. It may be fed in
small quantities at regular intervals, or provided in boxes
to which the cattle have access at all times. We prefer
the latter method, as it at once disposes of the question
of the proper amount to feed. If the cattle can help
themselves at will, and are never permitted to be with-
out it, they will seldom take too much. We have used
rock salt with satisfactory results, both for winter and
summer feeding, but prefer the loose salt, especially for
winter use, and advise placing the salt boxes under cover
where at all possible.

DEHORNING 95

A CONDITION POWDER

It frequently happens that an occasional steer or
heifer gets out of condition and needs something in the
nature of a tonic to tone up the system. The following
has been found useful in such instances:

Mix thoroughly
4 lbs. sulphate of iron,
4 lbs. sulphur,
2 lbs. phosphate of lime,
2 Ibs. pulverized anise.
Dose: One tablespoonful in a small bran mash
twice daily.

DEHORNING STOCKERS AND FEEDERS —
HOW AND WHY

The advantages of hornless stockers and feeders are
obvious and are coming to be more and more recognized
by breeders and feeders, as well as by buyers of cattle
for slaughter. The advantages from the feeder’s stand-
point are economy of space in the feed lot and also in
shipping, and possibly a higher price for the finished
product.

Hornless cattle require much less room in the sheds
and feed lots than those bearing horns, and there is no
danger from goring each other with the horns. There
is also a saving of room at the feed racks, as hornless
eattle will crowd around a feed rack as close as they
ean stand, while those with horns require much more
space, and even then there is danger of injury due to
crowding for the feed. There is an economy when it
comes to shipping, as more hornless cattle can be put
into a car than can those bearing horns.

In a lot of feeders there are always a few timid ones,
and these are driven around and kept away from the
feed by the stronger ones, and, as a consequence, these
animals make small gains. With hornless cattle much
of this trouble is avoided.

Other things being equal, the buyer or butcher has

96 BEEF PRODUCTION

a preference for hornless cattle. Horned cattle always
bruise each other more or less and when they are shipped
long distances this bruising may be done to such an
extent as to quite materially affect their selling price.
Bruises on an animal usually show on the dressed car-
cass and detract somewhat from its value, and every
puncture in the hide caused by a horn makes it less val-
uable for tanning. The shrinkage in weight during
shipment is less with hornless than with horned cattle,
as they are quieter. Hornless cattle are especially pre-
ferred for Eastern shipment and for export, but quite
often even local butchers make a discrimination in their
favor.

Since hornless cattle are more valuable to the buyer
and butcher, they should command a higher price for
the feeder. However, the difference in the price paid
is usually not large. The claim is sometimes made that
the presence of horns on an animal means a reduction of
fifty cents per hundredweight in the market price, but
this statement is overdrawn. A difference of ten to
twenty-five cents per hundredweight is frequently made.
This is especially true with cattle common in quality.

METHODS OF DEHORNING

The two methods of dehorning, usually practiced
are, (1) the removal of the horns after they have reached
their growth, by means of a saw or clippers, and (2) the
prevention of the growth of the horn while the animal
is yet young, by the application of a chemical.

In the early history of dehorning the instrument
commonly used was a sharp saw, quite often a common
hand saw. The animal was placed in a strong stanchion,
a halter placed on the head and the nose drawn up.
With the head of the animal in this position the horns
could be quickly removed. The operation caused more
or less excitement to the animal, and a great deal of
pain. About 1890, clippers made especially for the
purpose began to gradually replace the saw. By this

DEHORNING 97

method the animal need not be secured except to be
tied to a post with a strong halter. The clippers first
used crushed the horn-core, leaving a wound that took
a long time to heal, but with the modern clippers this
crushing is largely done away with.

There is very little choice between the use of the
saw and clippers in regard to the quality of the work
done. The use of the saw requires a longer time and
causes greater pain. By the use of the clippers the
operation is done much more quickly and is all over
with before the animal has a chance to struggle. When
the clippers are used the blood vessels supplying the
horn are cut off smoother than with the saw, conse-
quently bleeding does not stop as quickly. Where
either the saw or clippers are used it is necessary to get
one-eighth to one-fourth of an inch below the point
where the horn and skin grow together to prevent
further growth. Unless this precaution is taken, the
horn is likely to continue to grow, giving an unsightly
appearance to the head.

The operation should not be performed either during
fly time or cold weather, the best time being in the fall
after the flies have gone and before cold weather sets in.
When the horn is cut off the frontal sinus is opened,
and during cold weather the air drawn in at each in-
spiration is likely to cause catarrh and give rise to serious
trouble. If done in fly time the cavity frequently
becomes fly-blown and filled with maggots, which pre-
vents its healing and causes great agony to the animal.
The operation should be performed on a pleasant day
when the animals can be turned out after the work of
dehorning is completed. It is well to have on hand
some bandages, pine tar, and absorbents to check the
flow of blood.

The easiest, cheapest, most successful, and least pain-
ful method of dehorning is by the application of a
caustic while the an'mals are young. Although this
causes some pain, it is merely a burning sensation which

98 BEEF PRODUCTION |

does not last more than an hour at the outside, causes
no nervous shock, and there is every reason to believe
that it is much less than the pain caused by the use
of the saw or clippers. By the use of this method there
is no set-back to the animal, as the calves never miss a
feed and there is no danger of the loss of a single animal.
Another advantage of this method is that it leaves a
much neater head than when the horns are taken off
after they reach their growth, leaving the head resem-
bling a natural poll rather than with a square top.

The substance used is caustic potash or caustic soda
which comes in sticks about the size of a lead pencil,
and can be procured at almost any drug store. When
not in use the sticks should be kept in a closely stop-
pered bottle, as they will absorb water from the air and
vo into solution. It is claimed that this method is
successful after the horn is an inch or more in length,
but the best time to apply it is after the calf is about
a week or two old, or just as soon as the button or young
horn can be felt with the finger. The best method of
application is to clip the hair from around the young
horn with a pair of scissors, wet the stick of caustic
potash (not with the tongue), and rub it vigorously on
the skin over the horn. This requires but a few minutes
and can be done by one man. A brown scab will form
which will come off in about a month or six weeks,
leaving a smooth, clean poll. To protect the hand, the
stick of caustic should be wrapped with paper, leaving
one end exposed. Do not get it too wet or it will run
down over the side of the head, making a needless sore,
and may get into the eye. In making the application,
rub in thoroughly, as many failures have been caused
by insufficient rubbing.

Since this method has come into general use, a num-
ber of patent dehorners have appeared on the market.
These are nothing more than saturated solutions of
caustic soda or potash and are sold at many times the
price at which it can be purchased in sticks at the drug

DEHORNING oe

store, and are no more and often not nearly so effective
as the stick form. The cost of the stick form is so
small as to render the cost almost inappreciable. Where
large numbers of cattle are to be dehorned the cheapest
method is undoubtedly the use of the clippers and they
may be advantageously used at any time after the horn
is well started. There are some dehorning clippers, too,
especially designed for young calves. Dehorning while
the animal is still young is to be encouraged.

: arp
Le WU Sa

CEEAP A Hix Xone

LENGTH OF THE FEEDING PERIOD

WHAT SHOULD BE THE LENGTH OF THE FEEDING
PERIOD ?

If this question were to be put to sheep and lamb
feeders there would be but little difference of opinion.
Experienced mutton producers look upon ten to fourteen
weeks as about the proper length of time to feed. Horse
feeders think one hundred days a desirable period for
fattening heavy horses for market. The length of the
cattle fattening period is extremely variable, ranging
from ninety days to twelve months, and either of these
periods or any time between these limits, may be con-
sidered good practice under certain conditions. If, for
example, six to eight months old calves were purchased
with a view of exhibiting at a fat stock show a year
hence, it would be necessary to get the calves on full
feed as quickly as it would be safe, and continue full
feeding up to show time. In case of ‘‘warmed up” or
fleshy feeders possessing considerable age they can be
put in marketable form in from ninety to one hundred
and twenty days.

FACTORS AFFECTING LENGTH OF FATTENING PERIOD

The principal factors affecting the length of the feed-
ing period are, method of feeding, grade, condition, and
age of feeding cattle used.

Method of Feeding: Where it is desired to feed a
large proportion of roughage to grain to feeding cattle,
the fattening process is slow. On the other hand the
feeding of large proportions of grain to roughage, or, in
other words, the feeding of a highly concentrated ration
usually shortens the fattening period. Forced feeding

100

FATTENING PERIOD 101

on highly concentrated rations required for quick finish
is, of course, more hazardous than the longer feeding
period with the more bulky ration. A compromise be-
tween the two somewhat radical methods has been
practiced with excellent results. This compromise
method is as follows: For winter fattening 1000-
lb. feeders in a six-months’ period, use thirty to sixty
days for getting cattle to full grain ration, allowing
free access to all the roughage the cattle will take at
the beginning and gradually decreasing the amount of
roughage as the grain is increased. With two and
three-year-old cattle that are finished on grass, 120
days of full feeding are usually sufficient to put such
cattle in satisfactory marketable condition after they
have been carried sixty to ninety days on light grain
rations.

Grade and condition of feeding cattle used: The
quality or breeding of the cattle has a direct bearing
upon the proper length of the fattening period.
Common cattle of the lower grades and plainer sorts
are not susceptible to the same high finish that can be
given well-bred cattle, hence it is useless to feed them
for it. Low grade feeders finish quicker than those of
high grade at same weights and in same condition,
because they are older.

Age of feeding cattle used: In ordinary practice it
takes three to four months to finish mature feeders;
five to seven months, two-year-olds; eight to ten months
for yearlings, and ten to eighteen months for calves.

CELLAR TEE: Xo:
FEEDING CATTLE FOR THE HOME MARKET

Feeding cattle for the home market might be com-
pared in some ways with breeding horses with a view
of producing horses which are best adapted for farm
work. It isa relatively easy matter to satisfy the farm
horse market as well as the local meat market require-
ments for fat cattle. It is not so easy to produce, at a
profit, farm horses for the farmer’s use or fat cattle for
the local butcher. The main reason is that the horses
classed as farm horses and the butcher cattle are abun-
dant and not of the better grades, hence they are usually
low-priced. The farmer does not believe that it is a
business proposition for him to pay long prices for horses
to be used by poor teamsters for farm work. The local
butchers in small cities know that they can not charge
for their cuts of meat what would be necessary to secure
a profit if they were to buy the best grades of cattle.

The most popular cattle for the local butcher are
fairly well fattened young heifers, weighing from 700 to
1000 pounds. These can be purchased cheaper than
steers and make very satisfactory beef. The supply of
such heifers is not sufficient to meet the demands of the
class of trade that uses them, but this does not mean
that the short supply will cause materially higher prices,
as the local butcher has established a very narrow range
of prices. If the supply of heifers becomes inadequate
or their price too high he buys cows or plain steers.

The cattle feeder, therefore, who plans to feed cattle
for the local market and make any profit must expect
to handle heifers, young cows, and a low grade of steers.
These must be purchased as feeders at low prices, fat-
tened as economically as possible, and sold before they

102

HOME MARKET 103

reach a degree of fatness beyond that desired by the
locai dealer in fresh meats. That is to say, the local
butcher who supplies the trade in small cities, and, for
that matter, the bulk of the trade in large cities, cannot
handle to advantage cattle that have been fattened to
a high finish. Such cattle carry too much waste fat. Of
course, no consumer, rich or poor, wishes to pay for
waste fat. On the other hand but relatively few under-
stand that the highest quality of beef is impossible with-
out considerable quantities of waste fat. The wealthy
consumer demands a choice grade of beef. To get it he
is obliged to pay for some waste fat, which is sometimes
delivered, but more often remains at the market.
Selling cattle to the local butcher is most often
resorted to with a few odd cattle by large cattle feeders
who wish to cull them before shipment, or by small cattle
feeders who have but a few to sell. When we observe,
however, that according to the best figures obtainable,
nearly one-half the cattle slaughtered in the country
are slaughtered by local butchers or at small markets,
the importance of this branch of the industry is evident.

(Garfield Report.)

ClsDAP ISI, 20,

KIND AND CARE OF PASTURES FOR BEEF
PRODUCTION

There are two general systems in vogue for furnish-
ing pasture for cattle — (a) permanent pastures and (b)
pastures used in a rotation.

PERMANENT PASTURES

There are some decided advantages in using a system
of permanent pastures for cattle. It simplifies the mat-
ter of fences, water supply, shade, and feed bunks.
It does away with the expense of reseeding. Another
advantage is that such a pasture properly managed is
never a complete failure. It may be short on account
of adverse climatic conditions, but it may always be
relied upon to furnish some pasture. Again, the per-
manent pasture properly managed may be profitably
used in prolonging the pasturing season. Undoubtedly
these advantages have largely contributed in making
bluegrass the favorite kind of pasture among cattle
feeders in the corn-belt. Of the replies received in
answer to questions sent out by the Llmois Experiment
Station to a large number of cattle feeders, 55 per cent
use bluegrass, 25 per cent timothy, 15 per cent clover,
and 5 per cent some one or more of the following:
Red-top, rye, cow-peas, and orchard grass.

PASTURE IN ROTATION

It is undoubtedly true that there are fewer bluegrass
pastures in sections of the country where cattle feeding
is a leading industry, than there were formerly, their
place being taken either by a continuous crop-growing
system or pasture in rotation. There are some ad-

104

CARE OF PASTURES 105

vantages in this system. It gives a much better oppor-
tunity to evenly distribute on all parts of the farm the
fertilizer produced by the cattle. Some have abandoned
permanent bluegrass pastures, substituting in their
stead pastures of mixed grasses in rotation, believing
that by the latter method more grass is produced and the
general interests of the farm better subserved. For
example, in ‘‘Practical Farming and Gardening,” David
Rankin of Missouri, known everywhere among cattle-

A shed in the pasture for shade where there are no trees.

men, states unqualifiedly that he has abandoned the
permanent bluegrass pastures for pastures of clover and
timothy in rotation.

Whether a man should choose one system or the
- other will depend upon the location of the farm and
whether or not portions of it are unsuited for growing
crops and are well adapted for permanent pastures.
Where on such locations a bluegrass sod can be secured
and maintained perhaps no other excels it for general
cattle feeding purposes. With proper attention such
pastures improve with age. Timothy is not as rich in
nutrients. The clovers and alfalfa pastures are admira-
bly adapted to cattle feeding, except the tendency
they possess for causing bloat, which must be carefully

106 BEEF PRODUCTION

cvuarded against. In case of alfalfa this factor is suifi-
ciently important to render its general use for pasture
questionable. No comprehensive experimental work
has been conducted relative to the comparative values
of different kinds of pastures for grazing or fattening
cattle. In the absence of such data we can only say
that from the cattle feeder’s standpoint the best pasture
for a particular locality and type of soil is that which will
produce the largest average yield of beef per acre. The
extent to which summer and winter feeding are prac-
ticed has a bearing on this subject as well as the kind of ~
cattle handled and the labor available.

MANAGEMENT OF PASTURES

There is a number of considerations in connection
with the care and management of pastures that should
receive careful attention. Many pastures that are now
supporting but one animal to two acres might be made
to support twice the number with judicious management
along the following lines: First be persistent in securing
a good stand. ‘The writer has traveled over many pas-
tures that do not possess more than half a stand of
erass, and it is obvious that such pastures cannot pro-
duce a maximum yield. Second, keep down noxious
weeds. Weeds seldom exterminate themselves, but
subsequently spread so rapidly that they take possession
of the land to the exclusion of useful piants. Pastures
should be gone over once or twice a year to remove weeds,
and this should be done before they ripen their seeds.
The drainage of pastures is frequently neglected because
fields for pastures are usually selected on portions of
the farm where the drainage is so imperfect that grain
crops cannot be successfully grown. It should not be
lost sight of, however, that not only the largest crops,
but also the best and sweetest grass is grown on well-
drained soil. Where land set aside for permanent pas-
ture lacks fertility, a thorough top dressing of farm man-
ure will show almost immediate returns. If the pasture

CATTLE ON GRASS 107

is to remain permanent for a series of years it will be
profitable to add to the farmyard manure phosphorus
in some form in which it will become slowly available.
Bluegrass pastures of long standing or imperfect stand
are greatly improved by thoroughly disking, after which
some clover and timothy and possibly some bluegrass
may be sown. A given acreage of pasture will furnish
more feed if divided into medium-sized fields than it
will if left in one large pasture.

One of the principal points to be observed in the
management of pastures is not to overstock them.
Cattle require luxuriant, not closely cropped, grass and
if they are furnished with a continuous and abundant
supply of the former they will make satisfactory gains
at low cost.

FATTENING CATTLE ON GRASS

To advise what is good practice in fattening cattle
on grass one must know whether or not the cattle feeder
wishes to sell “grass fat’’ or corn fed cattle, at what
time the cattle are to be marketed, and in what way
they have been wintered.

To get satisfactory results from fattening cattle on
grass alone the cattle used should be wintered very large-
ly on roughage, for if they have acquired the habit of
depending very largely upon a highly concentrated or
grain ration for their nourishment they will shrink heav-
ily when grain is withheld. If, however, cattle are to
be fleshy enough to sell for killmg purposes they must
be in good, thrifty, and even fleshy condition. Cattle
so conditioned for the market are seldom, if ever, fat
enough to successfully compete in the market with corn-
fed cattle, and unless land is cheap and corn high in
price this practice seldom proves to be the most profit-
able one. Gains are undoubtedly cheaper than where
corn or other concentrates are fed, but the lower price
which must be accepted for such cattle usually more
than counterbalances this advantage. That is to say

108 BEEF PRODUCTION

it is usually good practice to feed corn to cattle turned
to grass when the cattle feeder anticipates selling them
in the large markets for slaughtering purposes. Where
pasturage is abundant on cheap lands within easy access
of any of our large cattle markets a good rental may
be secured on the land by purchasing thin cattle at the
opening of the pasturing season and running them on
pasture without grain as long as pasture remains good,
or until a favorable market renders an earlier sale ad-
visable. In a majority of instances such cattle are sold
to local cattle feeders or returned to the market to be
sold for reshipment to the country as stockers or feeders.

MANAGEMENT DEPENDS ON CONDITIONS

If an attempt is made to fatten cattle with grain
on grass their management will depend upon their age,
condition, quality, and the time of marketing them.
If they are young cattle, either calves or yearlings, and
it is intended to market them during the pasturing
season or before it 1s necessary to remove them from
the pasture to dry lot, they will need to be grained
continuously from the time they are turned to grass
until marketed. With older cattle well wintered the
question of management is largely one of whether the
cattle feeder plans to market during early, mid, or late
summer. If early — that is, by June 15 — the writer is
strongly of the opinion that the cattle would better
never be turned to grass, but finished in the dry lot.
Such cattle are usually so far advanced in flesh at the
season for turning to grass that if they are turned to
grass the shrinkage is too great to make the method
practicable. If the cattle are to be marketed about the
middle of July it is then necessary to have the cattle
on full feed when they are turned to grass and continue
the same until marketed. By marketing by July 15
the hottest weather of summer is avoided, which is usual-
ly attended with myriads of pestiferous flies, which are
extremely annoying to cattle and which materially

CATTLE ON GBASS 109

lessen the gains during this period. In changing from
dry lot to pasture there are some questions arising that
should receive attention. For example, “Is it better
practice to turn fattening cattle to grass early or late
in the spring?” The answer to this will depend upon
the character of the grass and condition of the cattle.
If there is a good quantity of old bluegrass left from
the preceding season it is good practice to turn cattle
to grass early, whereas, if all the grass 1s a fresh growth,
severe scouring will likely follow such practice. Where
pastures are eaten close the preceding fall, the grass
should be allowed to get a good stand and get some
substance before the cattle are turned on them.

HOW TO TURN ON -GRASS

If at all practicable, it is wise to turn cattle to grass
for only an hour the first day during the middle of the
day after the cattle have filled on their regular feed. On
the following day the cattle can be left on grass for a
longer time and on each succeeding day until they are
allowed to spend their entire time on the fields. This
method occasions considerable trouble and is unneces-
sary unless the cattle are quite fleshy. By many it
is believed, and this belief is shared by the writer, that
rather more pasturage for the season is secured by let-
ting the grass get a good start in the spring.

Corn may be nearly all, or in some instances all, the
concentrate used. This will depend upon the age of
the cattle, the kind of pasture, and how soon it is desired
to finish the cattle. The younger the cattle, the more
advisable is it to feed some concentrate rich in protein
as a supplement to corn. Both oil meal and cottonseed
meal are extensively used for this purpose. If it is de-
sirable to finish older cattle in the shortest possible time,
those feeds may be fed to advantage. If the pasture
is made up quite largely of clover or alfalfa there is less
need of these feeds than where cattle are run on blue-
grass. The prevailing impression among cattle feeders

110 BEEF PRODUCTION

is that the practice of turning cattle to market before
the hottest months to avoid heat and flies is increasing.
Corn may be fed in the form of broken ear corn, shelled,
eorn and cob meal, or cornmeal. Where shelled corn
is fed it has been found good practice to soak it for twelve
hours before feeding, great care being exercised to pre-
vent souring either before or after being placed before
the steers. In whatever form the corn is fed, hogs
should be provided to follow the steers. More hogs
may be used to advantage behind steers fattening in
summer on grain and grass than in winter in the dry lot,
first because the hogs get a portion of their feed from
the grass, and, second, the hogs are not required to wade
about in mud to pick over the droppings.

START ON NEW CORN IN SEPTEMBER

If the cattle feeder wishes to carry the cattle through
the summer without grain, fattening them off on the
new corn, it will be advisable to start with the new corn
some time in September, depending upon the location
and season and increasing very gradually until the cattle
are getting all they will eat. Thirty days is the mini-
mum of time for getting cattle on feed in this way. If
the grass 1s good the cattle will soon begin to leave more
of the stalk than should be wasted. In this event only
such amounts of the shock corn should be fed as will
be economically eaten by the cattle, substituting snap-
ped corn for a part of the shock corn. Grass fat cattle
handled in this manner for ninety days will be in good
marketable finish, especially if the corn 1s supplemented
with oil meal or cottonseed meal.

CREA Wives evil.
HOGS) IN THE ERED LOT

The hog is reckoned by cattle feeders as a most im-
portant factor in cattle feeding operations and his defi-
nite relation to this industry is a matter of much impor-
tance. The facts and suggestions used in this discus-
sion are based upon accurate data gathered by experi-
ment and inquiry by the Illinois Experiment Station.
The subject may be well divided as follows:

1. Kind of hog best suited for following cattle in
feed lot and pasture.

2. Method of determining the best number to use.

3. What may be done to increase the efficiency
of the pig?

4. Results which may reasonably be expected.

First, as to the kind of hog best suited for following
cattle in the feed lot and pasture. It is seldom good
practice to use pigs under six months of age because of
the danger of injury in running about among the cattle,
and further, the feed which they get from the droppings
is not calculated to produce growth on the pigs. Brood
Sows are sometimes used to follow cattle. This practice
may be followed with good results when fattening cattle
are on grass, especially if the pasture furnishes clover or
alfalfa pasturage for hogs as well as for cattle. But allow-
ing brood sows to follow fattening cattle which are rather
closely yarded in winter, and especially where no sepa-
rate shelter is provided for the sows, is a practice to be
discouraged. The kind of hogs that have proved to
be best for following cattle are young thrifty shoats
weighing about one hundred pounds each. These
should be in thinnish flesh and of an active, strong
boned type or breed.

etl:

112 BEEF PRODUCTION

Second, as to method of determining the best num-
ber to use. This is, perhaps, the most important factor
in connection with the problem and yet one that has
hitherto received but little consideration. The first
point to consider is whether or not other feed than
that in the droppings is to be given the hogs. If so,
this largely simplifies the question. Judging from a
large number of inquiries on this subject at least eighty
per cent of the cattle feeders give hogs following fat-
tening cattle feed in addition to that secured from the
droppings of the steers. It is thought that this practice
is common because it does away with the necessity of
closely watching the pigs and droppings to see that just
enough and not too many hogs are provided and the
number of hogs which the cattle feeder wishes to fatten
is in excess of what would be required to consume the
undigested portions of the feed given the steers. This
being the case it 1s usually much more convenient to
run all the fattening hogs about the farm with the fatten-
ing cattle. The fact that the fattening of hogs has been
more generally foliowed with profit than the fattening
of cattle has also had its influence upon the somewhat
general adoption of this method. The writer is not
familiar with any experimental data upon the subject
as to whether or not greater returns are secured from
the droppings alone where pigs are restricted to them
or where fed additional feed. At the Illinois Experi-
ment Station an effort has been made in each of the
extensive cattle feeding experiments to determine the
relation of the hog following the steer to the general
proposition of cattle feeding. In each instance the
number of hogs following the steers was regulated in
such a way that they would thrive on the droppings
alone. Some of the more important facts brought out
in these experiments are that there is very little hog
feed in the droppings of steers fed silage. Silage is
usually supplemented with corn in some other form and
in such instances the approximate amount of available

HOGS FOLLOWING CATTLE 113

hog feed in the droppings should be determined upon
the basis of this supplementary corn fed and the form in
which it is fed, exclusive of that contained in the silage.
Some cattle feeders feed rather more corn to cattle than
they will clean up, throwing out the rejected portions
to the hogs. ‘This method increases the number of hogs
that may profitably be run after cattle, but in the ex-
periments referred to the hogs following the cattle did
not have this advantage. In one experiment ten shoats
were found to be about the right number to follow
twenty-five steer calves fed on a light “wintering ration”’
of shock corn, whole oats, and clover hay. These shoats
made a gain of 587 pounds in 88 days. During the
same season in another winter feeding experiment where
thirty-six two-year-olds and older steers were being fat-
tened for the market, during the time shelled corn was
fed, twenty-one hogs followed, and, when changed to meal
twelve hogs only were used. These steers were fed in
three lots, each lot getting a different ration. The hogs
following the twelve steers fed corn and clover hay
made 3.78 pounds per 100 pounds of shelled corn fed
and .616 of a pound per 100 pounds ground corn when
they were changed toa meal ration. The hogs in the lot
getting corn, corn stover, and timothy hay made 3.665
pounds gain per 100 pounds shelled corn fed the steers,
while they made only .594 of a pound gain per 100
pounds ground corn fed. The data illustrate two im-
portant facts; first, that the gains on hogs following
meal-fed steers are inconsiderable as compared with
similar gains where the steers are getting whole corn,
and second, that a nitrogenous roughage fed to the
steers seems to favor, if only to a slight degree, large
gains on hogs following steers so fed.

The following table furnishes some _ valuable
data which were secured from records kept on the feed-
ing of 1380 steers at the Illinois Experiment Station in
ten different lots:

114 BEEF PRODUCTION
eee. of
Pork made} 1©€@ 8!ven
Lot Form in which corn Pigs per alee fork hoe
No. steer = mee 3 noe following,
hogs val-
ued at $5
per cwt.
1 | Silage and corn-
Wea se. isos ee 0.10 6.30 94
| \DBYP COIO,. > s6 256 ¢ 0.53 62.60 9.70
3 | Ear corn (without
nitrogenous
concentrates). .| 0.53. | 74.13 14.05
A eCormeameal a ye 0.27 20.66 3.00
5 | Corn meal (hay
Chatived) eas. 0.27 20.02 2.86
6 | Cornand cob meal] 0.27 18.00 2.60
7 | Cornandcob meal
(hay chaffed)..| 0.27 24.00 3.04
8 | Shock corn and
CariCOLMuni ee 0.60 73.50 12.72
9 | Shelled corn (mud
lO) ee ee ies Onn 85.80 12.86
10 | Shelled corn..... On | AMO 16.67

* Computed on basis of ear corn in silage and shock corn.

This valuable table throws much light, not only on
the question of the factors determining the number of
hogs to use, but upon the other questions in the analysis
of our subject, viz.: (3) ‘What may be done to increase
the efficiency of the pig?” and (4) “Results which may
reasonably be expected.”

CHAPTER XVII.
FITTING STEERS FOR EXHIBITION

The selection of animals to be fitted for exhibition
purposes is obviously the first essential. It goes with-
out saying that they should be the best individuals in
the herd. Animals that will respond properly to fitting
and develop into smooth, thick fleshed beasts should
be selected. The head should be broad between the
eyes, short from eye to nose, nostrils and mouth large,
indicating great feed consuming capacity, eyes bright,
yet placid, indicating a quiet disposition, legs short,
body broad and deep, back and underline straight, tail-
head broad and smooth with the tail well set on. Style
and quality are essential points. Quality is to be looked
for especially in the hair and bone.

Care should be taken to select animals having all
the advantage of age that is possible. For senior calf
and yearling classes, animals dropped in September and
October should be selected, while for junior classes,
January and February born. For calf classes the se-
lection is usually made when the calves are from three
weeks to a month old, as the ones nearest perfect at that
time are usually the ones that will make the best fin-
ished animals. In selecting the calf, breeding should
not be overlooked, for as are the sire and dam, so, to
a greater or less extent, will be their offspring.

After the selection has been made, the next impor-
tant thing will be the feeding and management during
the growing period. Success in this will depend largely
upon three things: the comfort of the animals, a variety
of good feeds, and the skill of the feeder.

The calf should be allowed to nurse the dam as long
as possible, as there is no other feed that will keep a

115

116 BEEF PRODUCTION

calf growing like the mother’s milk. In _ pleasant
weather they should run out on pasture where they can
get plenty of fresh air and sunshine, but care should
be taken that they do not get too much exposure during
storms. They should not be permitted to lie down in
cold, damp places where they are apt to catch cold.
When the winter comes on, the calves should be housed
in roomy pens with plenty of air and sunshine, and pro-
vided with a dry bed. During good weather they
should be allowed the run of a sheltered lot provided
with good water. At the age of from six to eight weeks
they should be gradually started on a grain ration con-
sisting of equal parts of shelled corn, whole oats, and
bran, with all the clean clover or alfalfa hay they will
clean up.

At an early age the calves should be familiarized with
erooming. ‘This not only keeps the coat in a better con-
dition, but also gets the animals used to handling, which
will save a great deal of time and trouble later on.

In the spring the calves should be put on grass, at
first only for an hour or so during the middle of the day,
and later on should be turned into the grass lot at night.
This change to grass may be a period of little gain, but
the grass cools their system and prepares them for the
heavy feeding which is to follow. During the hot sum-
mer months they should be allowed to run in the pas-
ture at night, but through the heat of the day they
should be protected from the heat and flies by being
kept in a cool, well ventilated stable. Some feeders
further protect them from flies by keeping them blank-
eted, and by darkening the stables as much as possible
without interfermg with ventilation.

When the animal is to be shown in the fall, there is a
difference of opinion as to how soon it should be taken
off the pasture, but it should certainly be taken in before
the middle of the summer. This period between the
time of removing from pasture until the time of the
show, and especially during the last six weeks, is a time

FITTING SHOW STEERS 117

in which especial care should be taken, and one which
ealls for all the skill the feeder possesses. During this
time it is necessary to put on the proper amount and
quality of flesh, and the finish and bloom necessary to
make a prize-winner.

Probably the most important consideration during
this latter period of preparation is the feeding. Some
succulent food for its laxative and appetizing effect
should be given, but care should be taken not to give
so much of such feeds as to detract from the consistency
of the flesh. Roots or corn silage serve well for this
purpose. The grain ration should consist of ground
oats, corn, and bran, with a little oil meal, but an excess
of corn should be avoided, as smoothness of finish rather
than excess of tallow is desired. For roughage, a good
quality of bright clover or alfalfa hay should be fed. A
variety of feeds is very desirable and everything should
be done to tempt the appetite, but sudden or violent
changes are very disastrous. If an animal shows a ten-
dency to be paunchy, limit the amount of roughage
given. An important consideration in feeding cattle
for show is regularity. The custom is to feed three or
four times a day and water about twice, and this should
be done at the same time of day, as the cattle soon be-
come able to know when feed time comes and will be up
and looking for their feed with very great precision.
They should be fed in loose feed boxes that can be taken
out, thoroughly cleaned, and occasionally scalded. In
order to restore a jaded appetite, the novice 1s frequently
tempted to resort to a tonic, such as iron or some patent
stock food which he sees so widely advertised; and al-
though these things may have their place, this place
certainly is not in the hands of an experienced feeder
in fitting cattle for the show ring. The proper handling
of a steer with a dull appetite is to withhold all feeds for
a time and then give him a fill of grass. It is better to
avoid a poor appetite by careful feeding than to
attempt to cure it by means of some nostrum.

118 BEEF PRODUCTION

During the latter part of the feeding period, progress
depends on nothing more than on content. The animal
that eats its fill of any suitable ration that suits the pal-
ate and then lies down in peace and quiet to ruminate
will make good gains. Rumination is best performed
when, for the time being, all the animal’s energy is
given to this one thing, and hence is best performed
while lying down.

When stabled, the animals shell be well bedded
with fresh, bright straw. The animals should be led from
the stall twice daily and all droppings and wet straw
removed and fresh straw put in. Attention should
also be paid to ventilation. An abundance of fresh
air should be provided, but the barn kept free from
draughts. When the barn is well provided with win-
dows it is a good plan to remove them and cover the
openings with burlap. or fattening purposes, a dark-
ened stable is preferred to one with too much light.

As the show approaches they should be trained
to stand squarely on their feet, with heads up, so as
to appear to the best advantage.

A good coat of hair should, if possible, be secured.
It has been said that this depends not so much upon
what is put on the hair as what is put inside the animal,
aided somewhat by what is kept off the hair. Groom-
ing should be commenced some weeks before the show,
and for this purpose nothing should be used but a good
bristle brush, aided by a flannel cloth or chamois skin.
The steel curry combs and steel brushes are not in favor.
A good use for the curry comb is to comb out the
bristle brush. Some feeders prefer to keep the animals
blanketed for six months before the show, never letting
the coats see the light of day. This, however, is not
thought necessary or even advisable by most feeders. If
the animals are kept in a darkened stable, blankets are
unnecessary except during the last few days. The coat
can be greatly improved by a weekly washing with soft
water and a good toilet soap, but never use hard water,

FITTING SHOW STEERS 119

laundry soap, or washing powders. Some recommend
giving the animals a daily wetting with soft water and
a spray pump. The one great thing that is lable to
play havoe with a coat of hair is founder, and especially
grain founder. It cannot be detected until after the
harm is done and naked spots appear all over the animal.
Cattle just going onto full feed are especially liable to
this.

In fitting the horns, thoroughly remove the dead
outer coat or covering. First use a sharp, heavy rasp,
and finish up with a jackknife and finally with emery
paper. Cover the horns with sweet-oil and allow a few
hours to dry in, then smear them with paste made of
sweet-oil and tripoli. Polish thoroughly with a wide
strap or woolen bandage, and repolish with a strip of
chamois skin and any good polishing powder. The
strap should be wound once around the horn and the
powder dusted under it, and friction enough obtained
to melt the surface of the horn.

Attention should be given to the hoofs. Where a
steer is kept in a deeply bedded stall, the hoof is not
subjected to friction and grows out long and unshapely,
and as there is no moisture present the walls become dry
and contract and the feet become feverish. The former
defect can be remedied by trimming the hoofs back at
frequent intervals, and the latter by making a clay
puddle through which the animal should be led several
times each day.

With a considerable number of cattle to ship, a large
furniture or vehicle car will be found best suited to the
exhibitor’s needs; with a smaller number to ship, an
ordinary box-car with small doors in the end will be
found very satisfactory. The sides of the car may be
padded with burlap to prevent bruising. In loading
the cattle they should always be tied to the side of the
ear and shipped “side to.” It is not desirable to have
them ride ‘‘end to” as they will be thrown forward

120 BEEF PRODUCTION

against their horns or backwards so as to pull on the
halter rope.

An animal should not be tied by the nose ring. Neck
ropes would better be too light than too heavy, as it is
better to have the rope than the animal’s neck broken
from an excessive jerk. Put enough straw under the
animal to insure an easy ride; this should be about
~ eighteen inches. Send along enough helpers to prop-
erly care for the cattle.

Securing “bloom” or just that desirable condition
or stage of fatness that is most acceptable to the judge
is, perhaps, the finest point of the art of fitting cattle
for show, and the ability to bring out animals in a little
better condition than others are able to do, is what char-
acterizes some herdsmen as peculiarly skillful. There
is, practically speaking, no danger of getting the calf or
yearling too fat or “overdone,” while with the two-
year-old, such a condition is not uncommon. By fol-
lowing the suggestions given above, however, this danger
will be reduced to the minimum. While the calf or
yearling is seldom too fat to show as a calf or yearling,
they may be made too fat to carry on successfully with
a view of making them acceptable show animals a year
later.

CHAPTER. XVIII.

ADVANTAGEOUS SEASONS FOR MARKETING
VARIOUS GRADES OF CATTLE

No attempt will be made to enlighten the cattle feeder
as to when he may look for a good market or a “‘slump.”’
The writer recognizes the fact that the best time to
market cattle is when the highest market price may be
secured, but the practical finisher of cattle understands
that one cannot engage in the cattle feeding business
and expect to strike the good market every time his
stock is ready for the market. There are some general
considerations, however, which should be fully under-
stood. The knowledge of these facts and the formula-
tion of cattle feeding practice accordingly will save the
novice a large amount of needless loss.

DEMAND FOR PRIME CATTLE

There is usually a good demand every month in the
year for both light and heavy weight, strictly prime
cattle, for the high-class beef trade of the country; that
is, such as is used by the wealthier families and high-
grade hotels, and restaurants. Because of its use there
is not an unlimited demand for such beef, and, if prime
cattle, from which this grade of beef is cut, are offered in
excess of requirements, prices seek a lower level. Prices
for such cattle on the hoof are regulated from month to
month, according to the supply. During the Christmas
season such cattle are required in large numbers as has
been said in Chapter XI.: “From November 23 to De-
cember 15 buyers for local slaughter, shipment, and
export are on the market until their orders are filled.
Exporters who buy for the foreign holiday trade usually
buy most of their cattle from November 25 to 27,

121

122 BEEF PRODUCTION

although these dates may vary a little one way or the
other, depending upon the days the export boats sail
for foreign ports. Ordinarily, exporters take from one-
fourth to one-third of the total supply of Christmas
cattle for both dead and live export. The larger pro-
portion of holiday beef is exported alive, and for this
purpose cattle possessing fancy quality and thick fat,
weighing from 1300 to 1500 pounds are wanted. From
1300 to 1400 pounds is a popular weight, although they
use some prime 1100 to 1200-lb. cattle for that trade
and a few weighing as much as 1600 pounds. For
the New York and Eastern holiday trade, the first ten
days of December, particularly from the 5th to the 8th,
is considered a good time to market. For the Chicago
city trade and nearby cities and towns, from Decem-
ber 10 to 15; New York, Boston, and some other
Eastern cities use more heavy or good weight cattle
than the Western cities. They also use a good propor-
tion of yearlings, and light weights, and the lght
and medium weight prime cattle seem to be getting
more popular each year.”

DEMAND FOR BABY BEEF

Outside of the Christmas market, during which there
is the demand for baby beeves indicated, there is not
much preference as to the most favorable season for
marketing such cattle. There is a good demand the
year around and prices depend upon the supply from
month to month. If there is any preference it would be
during the hot weather months. From 800 to 1000
pounds is a popular weight for yearlings and 1100 to
1300 pounds for two-year-olds. Some buyers prefer a
weight of from 1000 to 1100 pounds, and then again
there 1s a good demand for 600 to 800-lb. steers and
heifers. There are not as many two-year-olds as
yearlings used. ‘There is no discrimination against 600
to 700-lb. baby beeves, if prime. Jt cannot be too
strongly emphasized, however, that baby beef to sell high

WHEN TO MARKET 123

must be prime in quality and finish. Hundreds of young
cattle are annually shipped to the market that bring
prices which disappoint the feeder, and most frequently
because he has not made them fat enough. Taking the
year around the prices for baby beeves of quality and
finish will average well with those of older and heavier
cattle of same quality and condition.

DEMAND FOR EXPORT CATTLE OTHER THAN AT
CHRISTMAS

The most profitable time generally for feeders to
market export cattle at the Western markets (barring
Christmas time for that grade of export cattle) is winter,
spring, and early summer months. The reasons are
that during the late summer and fall months Canada
usually markets a good many grass cattle; also they use
more or less of the Northwest range cattle for export
trade, both dead and alive. Of course, the extent of
this latter depends upon the condition or fat of the
range cattle. As to the activity of the demand during
the different months or seasons of the year, that depends
to a considerable extent upon the foreign market and
their supply of cattle. Some years Canada has a heavy
supply of exports; then again it is moderate. The
dressed beef trade of the Argentine is increasing materi-
ally, and this is all having its effect upon the demand
for export cattle from this country.

DEMAND FOR COMMON CATTLE

Such cattle are usually best marketed from March
1 to June 1. They could not, however, be said to be
“out of season’’ any time from January 1 to July 1.
After July 1 they come in competition with the cheap
Western range cattle.

CHAPTER XIX.

MARKETABLE CONDITION. PREPARING
CATTLE FOR SHIPMENT

WHEN IS A STEER READY FOR MARKET?

If this question were put to the buyers of any of the
packing companies they would instinctively answer,
“When fat, or in a condition popularly spoken of as fin-
ished.’ Their answer to the question would be entirely
from their standpoint and not from the standpoint of
the cattle feeder. It is undoubtedly true that one of
the commonest faults among market cattle is lack of
condition, and this fault is most common with cattle
fed by beginners. However, even experienced cattle
feeders frequently ship cattle to market that, to fully
ripen, would require full feeding for sixty, and, in some
instances, as many as ninety days. Clearly, therefore,
experienced cattle feeders must believe that they get
larger net returns by so handling cattle, or they would
have long ago discontinued the practice. The writer
appreciates the fact that it takes the highest finish to
bring top prices, but at the same time it must be borne
in mind that a steer must be something more than fat
or ripe to sell as prime.

If experienced cattle feeders were asked to express
an opinion as to when a steer is ready for market, they
would almost universally agree that he is ready for
market, or, at any rate, should be shipped to market at
a time when he will net the feeder the greatest profit.
This is an extremely difficult matter to figure out, for
the condition of fat cattle that will net the feeder the
largest profit may not be, and often is not, the con-
dition that will bring the top price for any given grade
or quality of cattle. Another factor that plays an im-

124

MARKETABLE CONDITION 125

portant part is the general supply and demand of the
market at a given time. A degree of condition that
might yield the largest profit at one time with a strong
and high market might not be the condition for greatest
profit when the cattle market 1s weak and low. This
whole question cannot be intelligently answered without
an intimate knowledge of at least the following factors:

1. Age of cattle.

2. Quality or breeding of cattle.

3. Condition of market.

4. The relative cost of putting cattle in prime condi-
tion as compared with the cost of merely warming them
up and also of the so-called half-fat condition.

These points are not capable of other than the most
general treatment.

As regards age, it may be said that it is extremely
difficult to get a steer under two years of age too fat to
suit the trade, and within certain reasonable limits such a
young steer, if well bred, may usually be put in prime
condition profitably, providing market prices and cost of
feeds and feeders are such that there is profit in handling
that kind of cattle at all. With the three or four-year-
old steer the situation is entirely changed. The process
of feeding a steer of such an age, until he is prime in con-
dition is an expensive job and will not usually pay
unless such animal is well bred. This suggests that as
a general proposition, cattle of the commoner grades
(speaking now only of their quality or breeding) do not
require or acquire as high a finish as the better bred ones.
The degree of finish which should be aimed at in any
particular instance will depend upon the condition of
the market and the cost of feeds. Obviously when feed
is high and fat cattle are low, the securing of high finish
is usually attended with loss, whereas if both feed and
cattle are low there might be a possibility of profit
following the securing of high finish. If cattle are high
and feed high, providing feeders have been purchased
at a reasonable price and the quality is good, it usually

126 BEEF PRODUCTION

pays to feed until choice to prime condition is secured.
A more intimate and accurate knowledge of most
of these factors is in the possession of progressive live
stock commission companies, and the cattle feeder who
does not keep in close touch with such is not likely to
form as wise conclusions without their help, although
the cattle feeder must needs do some hard thinking for
himself.

In conclusion, we do not wish it inferred that the
writer leans to the opinion that it generally pays best
to stop short of prime condition. We have inferred
that at times it does and at other times it does not. In
case prime condition seems desirable, the following sug-
gestions as to how to judge it may be helpful:

Fullness at base of tongue, fullness or a roll of fat in
front of point of shoulder, a full twist; a large, mellow
cod; a low, full, thick flank that stands out and rolls
visibly as the animal walks; fullness and smoothness at
rump and tail-head indicate that degree of fatness which
is essential to the highest quality in beef. These points,
which are to be judged by sight rather than by touch,
are the ones most depended upon by buyers at the yards.

Figure 13 illustrates a steer in a half-fat and prime
condition

PREPARING CATTLE FOR SHIPMENT

There are shippers who, by divers practices, have se-
cured an abnormal fill at the market, or, in other words,
have been successful in making their cattle weigh more
than they should by inducing them to drink an unusual
amount of water when they reach the market. It should
not be forgotten that there are past masters of the
“filline’”’ process at all our leading markets, and many
of them operate outside the fat cattle division, too..The
trained eye of the buyer of fat cattle is always on the
lookout for cattle that have filled unusually well, and
when he sets the price on such he is sure to discriminate
against them in value per hundredweight, as he knows

MARKETABLE CONDITION 127

Fig. 13. The same steer in a half-fat and prime condition.

128 BEEF PRODUCTION

there will be a heavy shrinkage when slaughtered. Any
practice which tends toward securing an abnormal fill
on cattle at the yards is neither a legitimate practice
nor is it likely, in the long run, to prove a paying propo-
sition from the standpoint of the shipper. On the other
hand, it is a well-known fact that unless some precau-
tions are taken before shipment, the cattle are apt to
scour and shrink abnormally. The shipper is justified
therefore, in using legitimate methods of preventing
scours, not only to avoid an abnormal shrinkage, but also
to prevent the cattle arriving at the market in a filthy
condition, which, from the standpoint of the buyer,
would not add to their attractiveness.

MANAGEMENT IS LARGEST FACTOR

It may have been inferred from what has been said
that the principal point to be observed in shipping cattle
without too much shrinkage is following some peculiar
method of feeding, but the writer believes that the larg-
est factor is the management of the cattle — that is, they
should be so quietly handled that they do not become
excited or heated. If possible, driving should be done
in the cool of the morning or evening. ‘There are some
feeds, which, if the cattle have access to them prior to
shipment, will be more likely to cause scours than others.
These are shelled corn, cornmeal, oil meal, silage, clover
hay, alfalfa, cow-pea hay, and grass. Cattle that are fat-
tened on grass and grain during the early part of the
season may well be yarded for a day or two before ship-
ment and fed timothy hay and a considerably reduced
erain ration.

Fat cattle shipped from the dry lot, if receiving clover
or alfalfa for roughage, should be changed to timothy
hay at least twenty-four hours before shipment. No
full grain ration should be given after twelve hours be-
fore shipment, although it is advisable at times, and
especially if the cattle have been fattened on shelled corn
or meal, to add a liberal amount of oats or bran to the

SHIPPING CATTLE 129

feed. Water should be withheld for six hours before
shipment.

BED CAR WELL AND DO NOT OVERLOAD

If, in addition to the above precautions, care is
taken to bed the car well and not overload, the cattle
should arrive on the market fresh and clean and will
fill normally, which, it is unnecessary to say, should be
the object of the shipper. Cattle so shipped should
make honest weights for the producer and buyer and
healthy meat for the consumer.

It is obvious that the management of cattle before
shipment will necessarily vary considerably not only
because of differences in their condition, and the rations
upon which they have been fed, but also the distance
from market and the time they will be on the road, and
whether it is necessary to unload and feed enroute.
Some of the suggestions offered will apply only to the
preparation of cattle for shipment where they are not
to be on the road to exceed twelve hours.

CEA PAN he. 2Oxe

LICE, MANGE, RINGWORM, LUMP-JAW,
BLACKLEG, AND TEXAS FEVER!

Cattle Mange (Texas Itch, Cattle Scab, or Range
Itch) is a skin disease affecting cattle only, and is caused
by a minute animal parasite Psoroptes communes very
closely related to the mite that causes scab in sheep.
It is not known that the sheep mite ever infest cattle,
nor will the cattle mite injure sheep. The mite is very
small, barely visible to the naked eye. It can very read-
ily be detected by scraping the surface of the skin with
a sharp instrument and allow the substance scraped off
to remain five to ten hours in a clean, wide-mouthed bot-
tle. White specks will appear on the surface of the
glass, which, on examination with a lens, show the de-
tails of the parasite.

Cattle mange appears to be more troublesome dur-
ing the late fall and winter than at any other time of
the year, and usually disappears in the spring when the
cattle are turned out on pasture. Cattle of all ages may
become affected, but it seems to be more pronounced
in yearlings and bulls; on bulls perhaps, because they
come in contact with more animals and are more liable
to become infected.

The first symptoms noticed are intense itching of
the skin, usually in the region of the neck and shoulders,
and shedding of the hair on the neck and withers. In
ageravated cases the irritation may extend all over the
body, but the most prominent points where the disease

1The information here presented on Lice and Mange is taken
from Bulletin of the Agricultural Experiment Station of Nebraska,

vol. XIV., Article IV.; on Ringworm from Report of Bureau of
Animal Industry, Diseases of Cattle.

130

LICE AND MANGE 131

first appears are the base of the tail, the neck, withers,
and shoulders. The skin becomes thickened and very
dry in places, the hair dropping off, leaving large bald
patches of thickened and callous skin. As the disease
progresses, there is an intense itching, and the animal will
be seen rubbing itself against fences, posts, buildings,
etc., sometimes causing large bleeding scratches and
sores. Anime.sin the advanced stages of the disease eat
very little, and spend the most of their time in rubbing.
The disease spreads very rapidly throughout a herd, and
appears in from four to six weeks after exposure. It
spreads by direct contact of diseased with healthy animals,
and railroad cars, stock-yards, mangers, sheds, posts,
chutes, and fences may also be sources of infection.

The method of treatment advised is the application
by spraying or dipping, using a liquid that will kill the
parasites. In small herds the liquid may -be applied
by means of a swab, brush, or spray pump, but even on
a small scale it is expensive and impracticable, and is
very likely not to be thoroughly done, as it is hard to
get the liquid into all the wrinkles and folds by this
method. The best plan is to dip in a properly con-
structed dipping vat, and this method is coming to be
the one most used especially in the great grazing sections,
where cooperative dipping plants are operated.

There are numerous dips on the market, and no
doubt they all have their merits, but the ones found
to be most effective are the coal tar preparations, such
as Chloro-naphtholeum and Zenoleum. These should
be used in a 31% or 4 per cent solution, the latter being
preferred. In mixing the dips, soft water should be
used, and if this cannot be obtained, add to the hard
water sufficient washing powder or soda to soften it,
otherwise the preparations will not thoroughly mix with
the water.

Great care should be taken to make the dipping
thorough. A simple plunge in and out is not sufficient;
the cattle should be immersed from one to three minutes.

132 BEEF PRODUCTION

Previous to the dipping, the scales should be loosened
up with a brush or broom to allow the mixture to thor-
oughly penetrate the diseased areas. See that the head
and all parts of the body are immersed. After cattle
are dipped they should not be allowed to go back to
infested pastures or stables, or be allowed to mix with
infected cattle, as they would thus become reinfected
and all the benefits of the dipping would be lost.

In order to make the operation a success, the dipping
should be repeated within ten days to kill the parasites
that have hatched out since the last dipping, before
they have time to lay their eggs.

Pregnant cows and heifers should not be dipped
after they are more than three or four months advanced,
and even previous to that time care should be taken to
avoid crowding in the chutes.

It is best to dip twice in the fall and twice in the
spring, at intervals of ten days. The dipping usually
costs from five to eight cents per head.

LICE

The two most common kinds of lice found on eattle
are the long-nosed ox louse and the short-nosea ox
louse. The methods of eradication are the same as for
mange.

RINGWORM

There are two kinds of ringworm, Tinea tonsuraus
and Tinea favosa. Tinea tonsuraus is caused by a
minute fungus which affects the hair and the epidermic
layer of the skin. It forms circular patches on the body
where the hair falls off and the skin becomes slightly
inflamed, followed by the formation of scaly, brittle
crusts. After the patches become incrusted they have
a Silvery gray appearance, and are confined mostly to
the head and neck. It is a very common disease among
young cattle in the winter and spring. It is highly
contagious, being readily transmitted from one animal

RINGWORM 133

to another, and is communicable to man. The disease
is attended with more or less itching.

Tinea javosa is caused by another fungus which
affects the hair follicle and the cuticle surrounding it.
Small crusts form which increase in size and thickness
and then become elevated at their margin, forming a
cup-shaped scab, which gives the disease its distinctive
character. The crusts are of a pale sulphur-yellow
color at first and grow darker with age. The disease
has a peculiar odor, resembling that of mice or musty
straw. It may be communicated to cattle by man,
mice, cats, etc., all of which are subject to the disease.

The treatment of either form of the disease is to
remove all crusts by washing with soap and water, then
apply acetic acid, sulphur ointment, tincture of iodine,
or nitrate of mercury ointment, once a day. Disinfect
the stables and whitewash them to destroy the spores
scattered by the crusts.

LUMP-JAW (ACTINOMYCOSIS)!

This disease is caused by a vegetable organism, sup-
posed to be a fungus, known as actinomyces. The
fungus is composed of minute, radiating, club-shaped
particles, hence it is known as “ray fungus.”” The parts
of the animal commonly affected are the bones of the
upper and lower jaws, and the soft tissue between the
two branches of the lower jaw, although it sometimes
affects the lungs and other internal organs. The disease
is characterized by peculiar enlargements around the
head, or other parts affected. These enlargements
develop in time from the size of a hen’s egg up to that
of a man’s head.

The natural habitat of the fungus causing the disease
is supposed to be on forage grown on low, wet ground,
and especially on the awns of barley. As the animal
masticates such forage, abrasions of the soft tissues of the

1The information here presented is taken mainly from Reynolds’
Veterinary Studies.

134 BEEF PRODUCTION

mouth are made, which serve as channels of entrance
for the fungus. It may also be introduced in other
ways, as decayed teeth or the shedding of milk teeth.

Although the matter has received quite a good deal
of attention, not much has been done in the way of
prevention. The disease does not spread directly from
one animal to another, but when the tumors reach their
erowth they break open on the outside and discharge
a yellowish substance which is full of the ray fungi.
An animal with such a discharging abscess would, of
course, infect food in mangers, feed troughs, and grass
in the pasture and thus offer an excellent opportunity
for infection of other animals. Animals with discharging
abscesses should be killed or confined away from other
animals. Pastures in which cases of lump-jJaw seem
to develop rather commonly should be placed under
cultivation. :

The two most common methods of cure are (1) to cut
out the tumor, and (2) the iodide of potassium treatment.
The cutting method is very effective in the early stages
of development, but should be undertaken only by a
trained veterinarian on account of the proximity to
large blood vessels. Dr. M. H. Reynolds, B.S. A., D.
V.M., M. D., professor of veterinary medicine, Univer-
sity of Minnesota, outlines the potassium iodide method
as follows:

Give by means of the mouth, either as a drench or
dissolved in the drinking water. The daily dose is
about one-fourth dram per hundred pounds live weight.
“This dose is given daily until the animal seems to get
off feed and discharges freely from the eyes and nose,
indicating something of a catarrhal disturbance of these
mucous membranes. These conditions indicate that
the treatment should be discontinued for three or four
days. During this period a mild cathartic of epsom
salts should be given, about one pound to 1000 pounds
live weight. This should be dissolved in water and
given as a drench. The iodide treatment may then be

BLACKLEG 135

continued for another period of six to ten days when
it may be necessary to discontinue again and give another
‘dose of epsom salts. Treatment should be continued
until the tumor is reduced to about one-third of its
original size; it may then be discontinued.”

The statement has been made that one animal in
every 1600 or 1700 cattle that go to the Chicago market
has lump-jaw. The government inspection rule relative
to the disease reads as follows:

‘‘Actinomycosis, or lump-jaw: First, if the carcass
is in a well nourished condition and there is no evidence
upon post-mortem examination that the disease has
extended from a primary area of infection in the head,
the carcass may be passed; but the head, including the
tongue shall be condemned. Second, if the carcass is
in a well nourished condition and the disease has ex-
tended beyond the primary area of infection, the dis-
position shall be made in accordance with the regulations
relating to tuberculosis.”’

BLACKLEG!

Blackleg, blackquarter, quarter-ill, or symptomatic
anthrax is a rapidly fatal infectious disease of young
cattle which was formerly regarded as being the same as
anthrax, but recent investigations have definitely
proved that they are entirely different diseases. It is
caused by a minute rod-like bacillus which lives only
in the absence of oxygen, as in the ground or in the tis-
sues of animals. It enters the animal body by means of
abrasions of the skin or of the mucous membrane lining
of the mouth, throat, and other portions.of the digestive
tract. Foreign writers state that the disease is found
among sheep and goats, but in this country it rarely,
if ever, affects any animals except cattle. The disease
may attack suckling calves, but is most likely to oc-

‘The information here presented is taken from the Report on
the Diseases of Cattle of the Bureau of Animal Industrv, Bulletin

122 of the Kansas, and Bulletin 75 of the Virginia Experiment
Stations.

136 BEEF PRODUCTION

cur in calves between six and eighteen months of age.
It is not very common after two years of age and very
rare after three, but occasionally occurs in aged animals.

The symptoms of the disease appear from one to
three days after infection has taken place, and are char-
acterized by a loss of appetite and rumination (chewing
the cud), dullness, and a high fever, the temperature
rising as high as 107°F. The disease is invariably
accompanied by a tumor or swelling on one or more of
the limbs, which causes lameness or stiffness. Some-
times the animal is stiff in the neck, all over, or in one
side of the body. These tumors or swellings under the
skin are the most important characteristic of the disease,
usually appearing a few hours after the constitutional
symptoms described above, but sometimes appearing
before. The tumors may appear on the thighs, neck,
shoulder, breast, flanks, or rump, but never below the
knee or hock joints. At first these tumors are small,
but they rapidly increase in size and become less painful,
and in a few hours the circulation is arrested and the
part becomes cold and painless. When stroked or
handled, a peculiar crackling sound is heard under the
skin due to gas formed as the bacteria multiply. When
cut into, a frothy, dark-red, disagreeably smelling fluid
is discharged.

The animal invariably dies in from one to three days,
death being preceded by increasing weakness, difficult
breathing, and occasional attacks of violent convulsions.
After death the affected muscles look as if badly bruised
and filled with thick, dark blood and gases. ‘The muscle
tissue is soft and easily torn. The features which dis-
tinguish the disease from anthrax are the unchanged
spleen and the ready clotting of the blood. In anthrax
the spleen is very much enlarged, the blood tarry,
coagulating freely. The anthrax carbuncles and swell-
ings differ from the blackleg swellings in not containing
gas, In being hard and solid, and in causing death less
rapidly,

BLACKLEG 137

Thus far no effective remedy has been discovered.
Certain drugs seem to have been beneficial in a few
cases, but a thorough trial has proved them valueless.
Some recommend making long incisions in the swellings
and allowing the fluid to escape and then washing the
parts several times daily with an antiseptic solution.
This treatment has not proved effective, and affords an
excellent opportunity for the spread of the disease to
other animals, as this fluid is full of the germs. Pre-
ventive rather than curative measures should be em-
ployed. The disease seems to be more common on wet,
swampy pastures than on those that are more dry.
When the disease appears in a herd, all healthy animals
should be removed from the pasture and the affected
ones allowed to remain. The disease is not directly com-
municable from one animal to another, but the fluid
which may escape from the affected parts of diseased
animals will pollute fodder, forage, ete. The bodies of
dead animals should be burned to prevent the dissemin-
ation of the germs by dogs, crows, buzzards, and other
scavengers. The burning should be done where the
animal dies, as dragging or hauling from one place to
another only serves to spread the disease germs. The
body should not be opened, as this permits the escape
of the germs. The pasture and other infected areas
should be freed from the germs by allowing the grass to |
grow up and when dry burn it off and cultivate the land
for one season.

The best method of prevention is by means of vac-
cination with virus which has been prepared from the
meat of the affected parts of diseased animals. This
vaccine is now prepared and sent out by the Bureau of
Animal Industry and various State Agricultural Experi-
ment Stations. As the methods of administering differ
with the sample, and full directions accompany all that
is sent out, there is no need of going into details of the
method of application.

138 BEEF PRODUCTION

TEXAS FEVER?

It is not the purpose of the author to discuss the
question of Texas fever from the standpoint of the
Southern cattle raiser, but merely to give some of the
precautions necessary to pervent its introduction into
our great corn-belt and beef producing region.

The Texas fever, otherwise known as tick fever,
splenic fever, or Southern cattle fever, is caused by a
microscopic parasite Piroplasma bigeminum and the
intermediate stage of the development of this parasite
takes place in the cattle tick Boophilus annulatus,
making this tick the indirect but absolutely essential
factor in the natural production of the disease. Above
the latitude where the cattle tick is destroyed by the
cold of winter the disease can be thoroughly controlled
by keeping Southern tick-infested cattle from passing
through the country during certain seasons.

The Department of Agriculture has enacted sanitary
regulations for the control of cattle shipments from the
infected districts. The purpose of these regulations is
to prevent the transportation of cattle ticks from in-
fested areas to those that are not infested, either upon
cattle or in stock cars or other conveyer, during the
season of the year when infection is possible.

The quarantine line (the line south of which the
fever exists), as determined in 1905, starts in Virginia,
on the Atlantic Coast, and passes in a westerly direction
through Virginia, North Carolina, Georgia, Tennessee,
and a small portion of Kentucky, along the northern
border of Arkansas and Indian Territory, thence
through Oklahoma and Texas to the Rio Grande and
the Mexican border, whence it passes along the southern
boundary of New Mexico and Arizona and across the
central portion of California to the Pacific Coast.
Each year districts are being freed from the cattle tick

1The information here presented is taken from Louisiana Bul-

letin No. 82; Farmers’ Bulletin No. 261; Bulletin No. 78, Bureau
of Animal Industry. :

TEXAS FEVER 139

and the boundary line graduaily pushed farther south.

Cattle from the quarantined district may be shipped
- out without inspection between November 1 and January
31, inclusive (the open season), without restrictions
other than may be enforced by local regulations at the
point of destination. At the present time no cattle
shall go out of quarantine, except for immediate slaugh-
ter, during the period between the dates February 1,
and October 31 (the closed period). These cattle must
be slaughtered within two weeks after arrival at their
destination, and the regulations of the Secretary of
Agriculture concerning their handling and movement
shall be enforced. The following is an abstract of the
regulations in force May 1, 1905:

“Cattle coming from the infected districts during
the closed season can not be driven, but must be con-
veyed in cars or boats placarded, ‘Southern cattle,’ and
bills of lading, way bills, and conductors’ manifests shall
have this information written upon them. When the
cattle are unloaded for feeding, watering, or other pur-
poses, they must be placed in pens reserved for such
animals only, in which native stock is not allowed, and
a large sign with the words ‘Quarantine pens’ or ‘Quar-
antine yards’ must be conspicuously placed on all such
inclosures. On unloading at their destination, only the
chutes, pens, and alleyways reserved for Southern cattle
shall be used. Before the cars or boats are again used
their entire interior must be thoroughly washed with
water, after the removal of all litter and manure, and
then disinfected with a mixture of 1144 pounds of lime
and 14 pound of 100 per cent carbolic acid to each
gallon of water, or with a solution made by dissolving
4 ounces of cloride of lime to each gallon of water.
All chutes, alleyways, and pens used enroute and at
destination, but not reserved for the exclusive use of
Southern cattle shall be so disinfected. Where animals
are yarded adjacent to animals from above the line, at

140 BEEF PRODUCTION

least a ten-foot space not occupied by cattle must be
left between, on each side of which shall be a tight board
fence not less than five feet high.”

In spite of all precautions that can be taken, there
are occasional outbreaks of the disease north of the
quarantine line. When such an outbreak occurs there
are several ways of freeing the cattle of ticks: (1) pick-
ing or brushing them off; (2) smearing or spraying the
animals with a disinfecting solution; (3) dipping the
“ticky’’ animals in a vat containing a solution capable
of killing the animals and not injuring the cattle; (4)
the “soiling system.”

Picking or scraping off the ticks.—This is a laborious
undertaking but may be quite effective on a small herd,
if care is taken to go over all parts of the animal fre-
quented by the ticks, especially under the belly, around
the tail, and on the inside of the legs. They should be
scraped off with a dull knife or curry comb and burned.
The cattle should be gone over at least three times a
week during the tick season and should be frequently
examined later to see that none are missed.

Smearing or spraying with a disinfecting solution.—
In small herds, smearing the cattle with a mixture of
one gallon of kerosene, one gallon of cottonseed oil, and
one pound of sulphur, or with a mixture of equal parts of
cottonseed oil and crude petroleum, or with Beaumont
crude oil alone has proved efficacious when applied to
the skin two or three times a week during the tick sea-
son. Where a large number of animals are to be treated,
but not sufficient to make it advisable to construct a
dipping vat, spraying the infected animals gives very
good results if thoroughly done. Spray with Beaumont
crude oil or a five per cent solution of any standard coal
tar dip applied with a foree-pump.

Dipping in a vat.— The Bureau of Animal Industry
has been experimenting for a number of years on the
subject of dips, and the most successful one found is
Beaumont crude oil, obtained from certain Texas wells.

TEXAS FEVER 141

This is very successful in killing the ticks and at the
same time does not materially injure the cattle, and has
been found superior to any of the dips tested. After
dipping, the animals should not be unduly exposed to
the hot sun or driven long distances, but should be given
plenty of good food and water. Dipping should not be
done till after the cattle have shed their winter coats.
The method usually adopted in dipping cattle is to
construct a narrow swimming tank with a chute at one
end for the entrance of the cattle, and a sloping exit
and a dripping floor at the other.

The ‘soiling method.” — This method of freeing the
cattle of ticks is based upon a knowledge of the life
history of the ticks. The time required for the female
tick to lay eggs and the latter to hatch, in other words,
the time spent on the ground, is rarely less than three
weeks, and the time required for the seed ticks to molt
and mature, or the time spent on the cattle is usually
from twenty to forty-five days. When the cattle are
to be freed from ticks, they should be kept in a small
tick-free enclosure for three weeks, when many of the
ticks will have fallen off. They should then be removed
and placed in a similar enclosure for another three
weeks, and to make sure of the job, they should
remain two weeks in a third enclosure. By this time
the youngest ticks that were on the cattle at the start
will have matured and dropped off, and as the animals
are removed from each pen before they could possibly
have become reinfected with seed ticks that natch from
the eggs of the females that fell off, they are now tick
free. The same pens cannot be used repeatedly for
this purpose without thorough disinfection. Care should
be taken that hay fed the animals in these pens is from
non-infested fields.

Morgan, of the Louisiana Station, has outlined what
is known as the ‘feed-lot”’ method of ridding cattle
and pastures of ticks during a single summer. In this
method a portion of ground is set apart, one-half of

142 BEEF PRODUCTION

which is sufficiently large to accommodate the number
of cattle on hand. The area selected should be conveni-
ent to plenty of feed and water. Surround and divide
the lot with a double fence, leaving a space of eight to
ten feet. As the ticks can crawl only a short distance,
there is thus no danger of their getting from one side to
the other or outside of the inclosure. Feed the cattle
for twenty days on one side, then remove them to the
other side for fifteen or twenty days longer. By this
time every tick will have dropped and the cattle can
then be placed on tick-free pastures. After the animals
are removed the feed-lots should be immediately plowed
and thoroughly cultivated, and their edges completely
sprayed with crude petroleum, zenoleum solutions, or
other substances destructive to tick life. By this
method entire farms may be cleaned in a single summer
of not exceeding four months.

OEUAPA yee:
EQUIPMENT FOR CATTLE FEEDING

Figure 14 is taken from a photograph of a very
satisfactory open shed and feed storage building. The
shelter consists of a building twenty by twenty-six feet,
twenty-foot posts, with two wings each twenty by thirty
feet. This makes a shelter twenty by eighty feet.
The upper floor of the middle portion is used for the
storage of feed, which is fed out into the bunks below.
Another bin ten by twenty feet occupies the lower
floor of the main building, which is used for the storage
of corn. The yards and shelter are designed to accom-
modate about fifty cattle. The paved lot adjoining is
twenty-four by eighty feet, the bricks are laid flat on
six inches of gravel, the latter being packed by the tramp-
ing of horses until a solid surface was secured. Cement
wash was applied after the bricks were laid. The curb-
ing consists of curb-stones eighteen inches wide and
three inches thick set edgewise into the ground. Ad-
joing the paved lot is a yard containing about one-
. half acre in which the hay rack is located and where the
cattle are allowed to remain a large part of the time.

FEED-BUNK WITH PLATFORMS FOR MUDDY LOT

The floors are made by placing five white oak
sixteen-foot two-by-fours on edge, and laying a floor
on them of two-inch plank cut in six-foot lengths, making
a floor six by sixteen feet. The two-by-fours are
beveled at each end like sled runners, and a hole bored
in the end of the middle plank for aclevis so that the
floor can be dragged around.

The bunk should be constructed of oak, as it is the
most durable and the cheapest in the end. The bed

143

144 BEEF PRODUCTION

or box should be made of 2 x 6 inch stuff, the sides and
bottom 16 feet long and the ends 3 feet wide. This
makes a box the inside dimensions of which are 3 feet
by 15 feet 4 inches (3’x 15’ 4’’) and 4 inches deep. The
six posts should be 4” x 4” and 2’ 6” high, and beveled
off at the top so as to shed water and prevent the sharp

Fig. 14. Open shed and feed storage combined. In use by E. E.
Chester, Champaign Co., II.

corners injuring the cattle. The cross ties under the
feed box should be 1’’ x 6’, and long enough to reach
across. The ties running lengthwise, instead of being
crossed as shown in the accompanying cut should be
2'’ x 6” x 16’, extending straight along the side of the
bunk.

After the bunk is made it should be turned over and
two-by-fours nailed to the bottom of the posts, allowing
them to project six inches past the sides of the post on
each side. The floors should then be placed in pos*tion,

THE PAVED LOT 145

about three feet apart, and the bunk set upon them.
The bunk is secured to the floors by boring a hole through
the two-by-four on the bottom of the posts and on
through the floor, and dropping in an old bolt, which
prevents the bunk and floors from being pushed out of
place. Three bunks of the dimensions given will be
enough to accommodate fifty cattle. The bunks
should be arranged inarow. ‘Thisisa great convenience
in feeding, and cattle so fed are not running from one
bunk to another, dropping feed as they go. These
floors keep the feeder and the cattle out of the mud, and
all droppings or waste feed fall upon them and the hogs
have a chance to get it before it 1s lost in the mud.

Pak PAVED LOT; HOW TO MAKE AND USE IT

The question of feed lot conditions has not received
the consideration at the hands of cattle feeders that its
importance merits. Perhaps the most neglected fac-
tor is the surface of the yards or lots in which cattle are
fed during the winter months. The importance of this
subject is emphasized by the statement of a prominent
cattle buyer at a leading market, who said, ‘You
ean tell the farmers and feeders of this country that in
feeding cattle there is nothing more certain than that
dirty hides from allowing cattle to wallow in mud or
manure is sure to make a big loss, no matter how well
bred or well fed the cattle may be. I visited the farm
of a man who has fed market toppers and international
prize winners, who allowed his cattle to stand in manure
knee deep. Nevertheless, cattle with manure-covered
hides will have to sell 10 to 15 cents and sometimes 25
cents per hundredweight less than those with clean
hides.” The same authority stated that with yards in
which the steers could be kept clean, gains could be put
on with much less feed than where the cattle were com-
pelled to wade about in the mud. The Illinois Experi-
ment Station has conducted some experiments which
furnish some data on these twoimportant points. First,

146 BEEF PRODUCTION

as to the relative selling qualities of cattle kept clean and
those fed in muddy lots. In the six months extending
from Nov. 28, 1908, to June 1, 1904, the Experiment
Station referred to fed a carload of choice 2-year-old
steers on a paved lot and another carload of the same
erade of steers in an ordinary mud lot. Of course both
lots were fed the same ration, and all conditions, save the
matter of the surface of the feed lot, were the same.
When marketed in Chicago the steers fed in the mud

Fig. 15. Bunk in which to feed grain to cattle, with platform
approach. In use by J. R. Fulkerson, Jerseyville, Il.

lot sold for 10 cents per hundredweight less than those
having access to the paved lot. This was due to their
dirty appearance and not to any inferiority of finish
which they possessed, for strange as it may seem, the
paved lot did not seem to make it possible to make larger
or cheaper gains, considering the steers by themselves.
The pigs following the steers having access to the paved
lot, however, made nearly one pound more of pork per
bushel of corn fed the steers than did those following the
steers fed in the ordinary mud lot. In other words,
while the pork produced by the pigs following the “mud
lot steers” paid for only. 12.86 per cent of the total feed
fed to steers, the pigs following the “‘paved lot steers”’
paid for 16.67 per cent.

THE PAVED LOT 147

There seems to be good reason why the mud lot steers
made as good and as cheap gains as did those in the
paved lots. Those in the mud lot had access at all times
to an open shed, the bedding in which was kept dry at
all times. This shed was large enough for all the steers
in the lot to lie down at the same time. The feed bunk
in which the corn was fed was only about 15 feet from
the shed and the water tank about 20 feet. The weather
was such that the mud lot was not in bad condition any
very large part of the time. It was observed, too, that
the steers in the mud lot spent much more time in the
shed than did the lot of steers having access to the
paved lot of the same size. In other words, the mud lot
steers were not obliged to wade or stand in the mud to
any considerable extent. Steers subjected to a mud
lot with no suitable place to lie down must suffer, and
when a steer is uncomfortable he is not making gain
economically. In the experiment cited where conditions
were as favorable for mud lot cattle feeding as could be
expected, the falling off in pork produced is no incon-
siderable item, amounting to $1.50 per steer, with pork
at $6 per ewt. The writer believes that cattle will not
drink as much water as they require if obliged to wade
through deep mud to get it. The possibility of saving
a large part of the manure by the use of the paved lot
should be a strong argument in its favor. Paving with
brick is not, of course, the only way to keep cattle out
of the mud, but it is one way which gives promise of per-
manency although expensive at the start.

HOW TO PAVE THE FEED LOT

The grade should be established slightly above the
surrounding surface level to prevent any surface water
from flowing onto the pavement. ‘The slope given to the
pavement will depend upon its location in reference to
‘sheds, other lots, and natural or artificial drainage.
The paved lots at the Illinois Experiment Station have
a fall of 1 inch to 6 feet away from the open sheds, There

148 BEEF PRODUCTION

is also a side slope to each lot with a tile at the lowest
corner to carry off surface rain water that falls on the
pavement. As the pavement is frequently cleaned
there is no serious leaching of manure.

After the proper grade had been secured the ground
was covered with 6 inches of gravel, which was rolled
and tamped down solid, covered with 1 inch of fine sand
upon which No. 1 paving brick was laid flat, herring-

278" Oak
For Cure

= = CI ORIicun L4io FLar
ace RAVEL We pe Sine ae a / GE NENT
ROUND

Brick PavemMENT of Feep Lor
A SECTION THROUGH AB GROUND PLAN

Brick - FLAT

Floor of Pavement

Fig. 16.

bone pattern, except in the alley and around the scales,
where they were placed on edge. After being put in
place, the bricks were rolled down even, and upon in-
spection, if any were found to be soft they were replaced
with good ones.

The space between the bricks was filled with a grout
“filler’’ consisting of one part clean, sharp sand and one
part of Portland cement. The cement and sand were
thoroughly mixed dry in tight boxes, then made into
a mortar of the consistency of cream and thoroughly
broomed into the joints. The slushing was repeated
to insure the filling of all cracks or Joints between the

THE SELF-FEEDER 149

bricks. This was done to keep the water from getting
underneath the pavement which, if allowed to enter,
would soften the subgrade or cause the heaving of the
bricks by alternate freezing and thawing.

The cement filler was allowed to set a week before
heavy loads were driven on it, and as the work was
done in summer, the sun’s rays were kept off by means
of a canvas for the first day. A retaining curb of 2x 8
plank, braced by a4 x 4, placed 21% feet in the ground,
was put in at the gates to keep the animals from break-
ing the edge of the brick.

The writer has seen pavement thus constructed that
has been in use for nine years and is still in good
condition.

THE SELF-FEEDER; HOW TO MAKE AND USE IT

The self-feeder, or feeder as it is sometimes called, is
a feed box so arranged that it will hold a considerable
quantity of concentrated feed, a portion of which is ac-
cessible to the cattle at all times.

No records are available touching upon the question
of when and with what class of live stock it was first
used. However, it is no new system of feeding for it
has been in use for a considerable number of years.

The extent to which the self-feeder has been used has
varied much, its use in some localities being quite gen-
eral, and in others scarcely known at all.

HOW TO MAKE A SELF-FEEDER

The plan and construction of the self-feeder will, of
course, depend largely upon the nature of the feed which
is to be fed through it to fattening cattle. In the corn-
belt, and in fact wherever beef cattle are extensively fed
in the United States, corn in some form is the principal
concentrate used. Corn has been successfully fed to
cattle in self-feeders in the following forms: broken
ear, shelled, crushed, corn and cob meal, and corn meal.
As indicated above, it is necessary to make minor alter-

150 BEEF PRODUCTION

ations in the feeder to permit the corn in these various
forms to feed down properly. The essentials of a good
self-feeder are as follows:

Storage for sufficient feed for the cattle having access
to the self-feeder for several days should be provided.
The opening from the storage compartment of the feeder

Fig. 17. A small Self-Feeder.

to the trough should be capable of such adjustment that
the feed should at all times be available to the cattle.
That is to say, it should not be so constructed that the
cattle have access to large quantities of the feed at any
one time, as this occasions considerable waste of feed and
loss of appetite of the cattle by their slobbering and
mussing over it until it is unpalatable. Unless this fea-
ture of the feeder receives careful attention and adjust-
ment the self-feeder will prove more or less unsatisfac-
tory. A construction which makes it necessary for the

THE SELF-FEEDER 151

cattle to work a little to get the feed is desirable. Where
feeds and their preparation are varied from year to year
it is not an easy matter always to have the self-feeder
working in the most satisfactory manner. In a number
of instances it has been necessary for the cattle feeder
to visit his cattle daily to examine the feeder and see
that it is working properly. It may be argued that if in
the use of the self-feeder it becomes necessary to see the
cattle daily the claimed advantage of the use of the self-
feeder as a labor saver is unwarranted. To a certain
extent this is true, but whether the self-feeder is used or
not there is force in the old adage, ‘The eye of the
master fattens his cattle,’’ and the wise cattle feeder will
plan to see his fattening cattle frequently.

TROUGH SHOULD BE LONG

Another desirable feature in the self-feeder which
should be provided for is that the trough out of which
the cattle secure their feed should be sufficiently long
to accommodate, at the same time, practically all
of the cattle having access to it. The dimensions of
the self-feeder should therefore be determined by the
number of cattle to be fed. There is no one type of self-
feeder that is better than all others; indeed the type of
feeder should vary according to where and how it is to
be used. The main thing is to see that the essentials
of a self-feeder, enumerated elsewhere, are observed.
Some cattle feeders have so planned their sheds or barns
that the self-feeder is located along one side or through
the center of such building. Others have made the
self-feeder a part of their storage cribs for corn. The
self-feeder here described will accommodate ten to twelve
cattle weighing from 900 to 1400 pounds each. It is
designed to use in the open field or in the pasture for
summer feeding. It may be placed on posts set in the
eround or it may have a base built as a part of the self-
feeder. There is an advantage in having several small
self-feeders over one large one where a large number of

152 BEEF PRODUCTION

cattle are to be accommodated, viz., the smaller feeders
ean be moved when it becomes muddy about the feeder
and where occasion requires they can, if built strong
enough, be moved from one field to another. The
height of the floor of the feed trough should be from
twenty-four to thirty inches, depending upon the age
and size of the cattle fed.

By referring to the sketch (Figure 17 and 174A), it
will be seen that the outside dimensions of the box for
storage of feed are 12 feet 2 inches long, 5 feet 6 inches
high, and 4 feet 4 inches broad. This box or storage
bin has a capacity of approximately 180 bushels. The
detailed drawing, or sketch, will show the construction
of the hopper bottom, feed troughs, roof, door, ete.
The drawing does not correctly illustrate that the hop-
per bottom of the storage bin lacks four inches of com-
ing out flush with the wall of the bin and that the open-
ing left for feed to feed out of the hopper into feed troughs
is two and one-half inches wide. This width of the
opening and pitch of the bottom of bin should vary with
the kind of feed to be used. That is, if broken corn is
used a much wider opening will be required; if shelled
corn, a narrower one. ‘The opening left in this case was
for feeding meal. Six-inch flooring was used for the
sides and floor. A shingle roof is of course unneces-
sary, but was used in this case, the shingles being laid
four inches to the weather.

BILL OF MATERIAL NECESSARY

The following is a bill of materials necessary to build
the feeder, as illustrated:

Seventeen pieces 2x4, 16 feet; six pieces 2x6, 16 feet;
one plece 2x6, 8 feet; twenty-four pieces 1x4, 16 feet;
two pieces 6x6, 12 feet; thirty pieces 1x6, 12 feet;
one piece 6 x 8, 18 feet; 1700 shingles.

Nails, paint, and labor, together with the materials
itemized, make this feeder cost from $30 to $35, depend-
ing upon the grade and price of materials used. In

153

THE SELF-FEEDER

‘JT ‘sly Ul UMOYS JOps0 7

JJOQ Jo TIeeq ‘“YVLI ‘SI

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154 BEEF PRODUCTION

all that has been said concerning the use and construc-
tion of the self-feeder with fattening cattle, the writer
does not wish to be understood as especially favoring
its use. We do wish to say, however, that where proper-
ly constructed and judiciously used and where for var-
ious reasons its use seems desirable, it may be used to
good advantage. Where its proper use in the economy
of cattle feeding is understood, it is not necessarily a
wasteful or hazardous method of finishing cattle. It
is not, however, a device that can be advantageous-
ly or even safely used by those who are inexperienced
or who fail to familiarize themselves with its limitations.

HOW TO USE THE SELF-FEEDER

It has generally been considered that the chief point
of advantage of this system of feeding is the economiz-
ing of labor. While this item is frequently an impor-
tant one, it is by no means the only advantage following
the use of the self-feeder in fattening cattle. Another
is suggested in a statement of a prominent and success-
ful Illinois cattle feeder, viz.: ‘‘It is more reliable than
a careless man and more economical of labor than even
a careful man.”

WHAT FEEDERS THINK OF IT

A brief consideration of some of the advantages and
disadvantages of its use forms a good basis for discus-
sion of this subject. A few statements representative
of those who name disadvantages of this method of
feeding are quoted below from circular 98 of the Illinois
Experiment Station:

“Tt cannot be safely used to start cattle on feed.”
This is in substance the reply made by several feeders,
most of whom use the self-feeder, but who do not turn
the cattle to it until they are accustomed to a. liberal
grain ration. Bad results following the use of the self-
feeder have invariably occurred where proper care has
not been exercised in getting the cattle on full feed

THE SELF-FEEDER 155

before turning them to the feeder. In the opinion of the
writer the place to use the self-feeder is with long fed
cattle—that is, cattle that have been fed corn liberally
from three to four months.

“Cattle do not eat regularly.”” The following replies
also bear upon this point: “Cattle eat more than they
will assimilate.”’ ‘“‘It is like a man eating at all times;
he soon regrets it.’ ‘Cattle glut themselves.” ‘Cattle
have too much feed at the start; therefore get off feed
more easily.” “‘Had four steers foundered last year.”’

It should be added that with the exception of the
one last mentioned these statements are made by men
who are not using the self-feeder and do not mention
ever having used it.

“Cattle lose their appetite sooner than by hand feed-
me 9 Prefer to have steers get hungry.” “like to
have cattle clean up feed every day.” “Slobber over
corn and do not eat it so well.’’ “Cannot mix oil meal,
bran, etc., to good advantage.” “Cattle need variety
of feed.” ‘To give this I feed in bunks once a day in
addition to self-feeder.”’ ‘Hat less, gain less.” “Cattle
should clean up feed an hour after every feed.”

“The tendency is to neglect cattle.” ‘Cattle are not
watched closely enough.” “Cattle are not so gentle.”
“The best self-feeder is the man who has his money in
the cattle.”

“Cattle waste feed by licking out and slobbering over
it.’ “TI use it when corn is not too high.” ‘Opening
gets clogged, due to damp weather or slobbering of
cattle.’ ‘‘Damp weather causes feed to become lumpy
or stale.”

CATTLE WILL EAT AS THEY REQUIRE

Considering these objections a little more in detail,
it may be said that where a judicious use of the self-
feeder is made cattle will eat as they require. They
may or may not eat regularly, but in our experience
they make their visits to the self-feeder with remarkable

156 BEEF PRODUCTION |

regularity. If, previous to being turned to the self-
feeder, the cattle have been worked up to a maximum
erain ration slowly and gradually, they will not con-
sume an excessive amount of concentrates, and it is
doubted whether under such conditions they will eat so
much that they will fail to assimilate a normal amount
of what they consume. Cattle eating too much and
getting foundered when turned to the self-feeder comes
from attempting to get the cattle on the self-feeder too
quickly.

Cattle will undoubtedly eat more where the self-feeder
is used than where itisnot. They will also usually make
ereater gains in the former than in the latter instance.
Experiments indicate, however, that under the most
favorable circumstances for the use of the self-feeder, it
requires slightly more feed to produce a given gain than
where cattle are intelligently fed at regular intervals
according to the common practice. This difference
under favorable conditions 1s so slight that it could not
be said to be a strong argument against the use of the
self-feeder. The larger consumption of feed and greater
gains undoubtedly tend to shorten the period of profita-
ble full feeding.

Almost all concentrated feeds and mixtures have
been successfully used in self-feeders. Undoubtedly
this system of feeding has appealed strongest to the
careless and indifferent cattle feeders, who are persist-
ently seeking methods that require little effort on their
part, and, as a consequence, many careless cattle feeders
have employed this method and have condemned its
use because they have not understood and heeded its
limitations.

DOES NOT PERMIT OF WASTE

Some of the objections raised may be disposed of
by saying that a properly constructed self-feeder does
not permit the cattle to muss and slobber over any con-
siderable quantity of the feed.

THE SELF-FEEDER 157

Before leaving this subject I wish to call attention
to the possibility of using the self-feeder to advantage
from the start. This may be accomplished by chafing
or cutting the roughage and mingling it with the con-
centrate fed before delivering the feed to the self-feeder.
By mixing a large proportion of roughage with the con-
centrates fed at the beginning, the cattle may be safely
turned to the feeder as soon as they are received from
the market or as soon as they are placed in the feed lot.
As the feeding progresses, the proportion of roughage
should be reduced as the concentrates are increased.
By actual trial this has proved a very good system for
short fed cattle, and, as far as the writer’s knowledge ex-
tends, the very safest method of getting cattle on feed
quickiy. This has been fully explained in a preceding
chapter.

PAR Da:

BREEDING BEEF CATTLE FOR THE MARKET

CHAPTER XXII.
BREEDING FOR BEEF

The percentage of the total number of farmers in the
United States who are specialists has never been deter-
mined, and while there is undoubtedly a tendency toward
increasing this percentage, it is still sufficiently small
to call for comment. Excepting those, of course, who
are making a specialty of producing feeding cattle, there
are very few specialists who breed beef calves. But
among the so-called general farmers there are very few
indeed, who do not breed a few calves each year, which,
if not fattened for market or home consumption by the
producer, ultimately find their way into the hands of
cattle feeders who make a business of fattening or fin-
ishing cattle for the market.

If the question were asked, ‘How general is the in-
terest in breeding beef cattle throughout the United
States?” the answer would be unhesitatingly that in-
terest in this subject is confined to the West and South-
west. More thoughtful consideration of the subject
will, however, reveal some interesting facts.

Cattle from the range country are a conspicuous fac-
tor in our fat cattle and feeding cattle markets; so much
so, indeed, that there is some danger of the native sup-
ples being overlooked. The multitude of men who
produce a few head each furnish a supply, which, in the
ageregate, form a very considerable factor in our leading

158

BREEDING BEEF CATTLE 159

markets. It is true that each small producer has no
identity nor is by himself to be considered an important
factor in the production of the world’s supply of beef,
or, in other words, he or even a large number of such
producers could discontinue their small operations with-
out its producing even a ripple in the market. It is not
from the standpoint of the influence of such individuals
upon the market that this subject is to be discussed, but
rather from the standpoint of these small producers, who,
in the opinion of the writer, will become more, rather
than less, numerous, and hence constitute a more impor-
tant factor in the meat trade. We have shown how a
very large number of farmers are producers of beef cat-
tle, and while a large percentage produce only a few
head each year, those few head must of necessity be
either profitable or unprofitable to them. They must
consume farm products which should be consumed by
cattle which will pay the highest market prices for them.
Well-bred cattle of the beef type only will do this if the
primary object in view is the production of beef. If
combined beef and milk is the object sought, then the
dual purpose type should be selected. It is the purpose
to discuss at this point the question of breeding cattle
where beef production is the primary object, leaving for
a subsequent discussion the question of the dual purpose
cow in her relation to beef production.

SELECTION OF COWS AND HEIFERS

Undoubtedly the selection of the bull to head a herd
is of much greater importance than the selection of the
females composing the herd. However, it has seemed
to the writer that not enough importance is attached to
the selection of the cows. While good steers may result
from mating common cows with a well-bred beef bull,
better ones are secured from well-bred cows, and there
are fewer common steers resulting from such a mating.

If common cows are used, common steers will surely
be bred all too frequently. It should therefore be the

160 BEEF PRODUCTION

policy of the breeder of market beef cattle to use high-
erade cows of some one of the beef breeds. The owners
of herds of scrub or common cows may accomplish this
end either by selling out and purchasing high-grade
females or by grading up from the cows already on hand
by successive crosses of beef bulls of approved merit.
Where the financial circumstances of the breeder will
permit of the former plan it is unquestionably the most
rapid and satisfactory means of arriving at the end
sought. Whether Herefords, Aberdeen-Angus, Short-
horns, Galloways, or Polled Durhams should be selected
will depend upon the breeder’s personal preference and
the conditions which prevail. Good individuals of any
of these breeds if properly mated will give satisfactory
returns. Each breed has its peculiar advantages and
when these are understood and recognized there exist
good arguments in favor of each. The Herefords are
excellent grazers and mature early. The Aberdeen-
Angus produce high quality of beef and are much sought
in our markets as fat cattle. Their hornless character
recommends them to those desiring a polled race. The
Shorthorns nick well with common cattle and other beef
breeds. They are widely distributed, easily available,
and quiet in disposition. Galloways are hardy and pro-
duce high quality of beef. They are hornless. The
Polled Durhams resemble the Shorthorns in appearance
and characteristics and are preferred to Shorthorns by
some because of their being polled. As has been stated,
high grades of any of these breeds will prove satisfactory ;
however, they have characteristic differences in form
and development which render it advisable not to have
the cow stock partly of one breed and partly of another.
In the interest of uniformity all should be grades of the
same breed. It is not so important to select a particular
breed as to secure choice individuals of whatever breed
seems most desirable under the circumstances. The
fact that a cow or heifer is a high grade of some one of
the beef breeds does not in itself insure satisfactory qual-

161

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162 BEEF PRODUCTION

ity. There is a wide difference in individuality between
different animals of the same breed. The matter of
selection of individuals within a breed may thus become
a more important matter than the selection of a breed.
Select as far as possible females which conform to the
standard of excellence of the breed. If this is accom-
plished it will insure a uniformity in type that is highly
desirable. If in addition to this it is possible to select
cows and heifers that are similarly bred, they will be
more likely to produce uniformity in their offspring and
a uniform lot of stockers, feeders, or fat cattle sell for
more than an uneven lot.

There are a few general considerations in selecting
beef cows which should be mentioned, such as form,
quality, and constitution. The main characteristics
to be sought in form are shortness of leg, breadth,
and a general smoothness, good top and underlines, full
flanks, and straight legs. The bone, head, and hair
should indicate quality as opposed to coarseness on the
one hand or delicacy on the other. A good constitution
is evidenced by a broad, deep chest, a good heart girth,
and a lively condition of the coat of hair.

SELECTION AND USE OF BULLS

There is perhaps no other important factor connected
with beef production that is as often disregarded as that
of the selection of bulls to head the herds of grade
cows from which are produced the feeding cattle of the
country. The importance of this item can not be gener-
ally recognized, for, if it were, there would be a strong
demand at good prices for every good pure-bred bull of
the beef breeds that is offered for sale. As it is, there
are many good bulls that breeders are obliged to sell at
prices which render the breeding of pedigreed beef cattle
by no means the most remunerative of enterprises. It
is still true that ‘the bull is half the herd,’ and he may
be more than half the herd if he is a choice individual
backed up by good ancestry. A brief discussion of the

BREEDING BEEF CATTLE 163

importance of the selection of a sire should tend to a
more active demand for the better grades of registered
beef bulls. In the first place, the writer wishes to go
on record as saying that the breeder of feeding cattle,
whether he fattens them himself or sells them to cattle
feeders, can not afford to use a common bull of indis-
criminate breeding. There can be no doubt about that.
Feeding cattle that are well-bred and possess quality
enough to weigh one thousand pounds or better at two
years old are worth all the way from $40 to $50 per head,
depending upon their individual quality and condition.
Such feeding cattle can be and are produced from grade
beef cows mated with choice registered beef bulls. Com-
mon and inferior feeding cattle that are produced from
common cows and scrub or grade bulls frequently attain
an age of three or more years before they reach one thou-
sand pounds in weight. Such feeders at such an age and
weight are worth from $27 to $30 each. The lesson
should be plain that it does not pay to use an inferior
bull that sires the steer that pays the owner but $9 per
year for his keep as against the one that pays $22 to $25
per year. It may be claimed that the fault is not alto-
gether with the bull. We grant that. But suppose the
cows are the same in either case, the well-bred beef bull
will produce feeding cattle which will grade at least two
grades higher than the feeding cattle produced by the
mediocre bull. There is usually about thirty-five cents
per hundredweight difference in price between one grade
of feeding cattle and the next higher. If the well-bred
bull raises the grade of his offspring two grades, he adds
to the value of each animal he sires seventy cents per
hundredweight or to the one thousand pound steer seven
doilars. Properly cared for, a bull shoule sire from forty
to fifty calves in a year. For sake of argument, suppose
we say he sires forty. If he should increase the value
of each of his offspring but $5, a very conservative esti-
mate, he earns at the least $200, with his first crop of
calves. At the present time, there are plenty of regis-

164 BEEF PRODUCTION

tered beef bulls of the various beef breeds that are well
calculated to sire choice to fancy feeding cattle that can
be purchased at from $100 to $200 each. It is no exag-
geration to say that as compared with the use of an
inferior bull the registered beef bull pays for himself the
first year. The most hopeful condition surrounding the
production of beef cattle to-day in the United States is
the supply of choice bulls that can be secured at relatively
low cost. There is, however, in this a danger to the
future of beef cattle interests in this country. Breeders
of choice registered beef bulls can not long afford to sell
the kind that will produce high class beef steers at prices
at which certain beef producers insist upon buying them.

We have inferred that the bull selected should be
pure-bred and that his ancestry should be of the best.
We would insist upon this as the only reasonably sure
way of insuring beef excellence in his offspring. Not
only should a high standard of individual excellence be
demanded in the ancestry of a bull, but attention should
also be given to their records as producers of stock of
high quality. If one is familiar with the methods of the
breeders of the ancestry, the pedigree may also be an
indication of the conditions under which the bull and
his ancestors have been developed. The breeder and
his methods should be taken into consideration as well
as the appearance of the cattle. Many pampered bulls
prove disappointing when put to the actual test of
heading a herd of beef cows. It is always assumed that
a good individual possessing the type and characteristics
of a beef sire should be selected. These points have been
so frequently described that extended notice of them
here is unnecessary. However, there are some points
which should receive especial consideration, viz., con-
stitution, quality, character, and masculinity. These
points while difficult to define are quickly recognized
by the practiced eye of the experienced cattleman.
Some lack of breed, type, or character may be sacrificed
in a steer breeding bull provided their absence is not

BREEDING BEEF CATTLE 165

attended with an absence of qualities which make for
the production of a more profitable feeder’s type.
Calves and yearlings are frequently purchased as sires
because they can usually be purchased for fewer dollars
per head or because their period of usefulness is likely
to be longer, or, perhaps, it may be because the young
bull in full flesh looks better. It is a mistake to discrim-
inate against an aged bull that has proved himself a
valuable sire.

MANAGEMENT OF THE BULL

Breeders differ in their opinion as to whether the
bull should be allowed to run with the cows. The
writer believes it advisable to keep the bull by himself
in a well fenced pasture lot provided with shade and
shelter. If it can be made sufficiently large to furnish
ample pasture for the bull, so much the better. By
keeping the bull confined and breeding the cows as they
come in season it is possible to keep a record of when
the cows will calve. A bull so handled can also serve a
larger number of cows during the year. The number of
cows which a bull should cover in a year will depend
upon his age, condition, and treatment, together with
the distribution of the cows bred to him. The number
should vary from thirty to sixty in a year.

The feed of the herd bull should be nourishing, but
not too concentrated or heating. The best of roughage
in the way of clover hay or alfalfa and silage or roots
should be used. A small percentage of corn with a
large percentage of oats and bran constitutes a satis-
factory ration. The amount to be fed will vary accord-
ing to the age, weight, and condition of the bull as well
as the work required of him. He should be kept in
good, thrifty condition, and if it is found that it requires
an abnormal amount of feed to maintain this condition,
in other words, that the bull is a “hard-keeper,’’ he is
not well calculated to sire cattle possessing good feeding
qualities, and should be replaced.

166 BEEF PRODUCTION

CARE AND MANAGEMENT OF THE HERD

There are numerous details in the care and manage-
ment which are matters of local interest, and these can
not well be considered in this discussion. Such general
questions, however, as the best season to have calves
dropped, the age at which to breed heifers, and the best
age to dispose of females are points worthy of careful
consideration.

WHEN TO HAVE CALVES DROPPED

The consensus of opinion is that, everything con-
sidered, it is best to breed the cows so they will calve
during the spring season. The arguments in favor of this
system are that the cows may be wintered cheaper
when not in milk with calves at foot. They require
less room for shelter, less careful attention from the
attendant, and less protection from the cold. If the
calves are dropped in the fall it is hardly possible to
finish them without carrying through two winters,
whereas, if dropped in the spring, they need not be
wintered but once, being finished at the age of eighteen
to twenty months. If, too, the cattle are marketed at
the ages noted, they will have the benefit of two summers
of grass, whereas when dropped during the fall season,
in order to get the benefit of two seasons of grass, they
must be carried until they are from twenty-four to
twenty-six months of age. On the contrary, it is ar-
geued by some who favor the fall calf, that a better animal
can be produced and developed by this system, because
the cow in the fall is in better physical condition to
deliver her calf after a period of summering on pasture;
that the cow’s flow of milk, which has freshened in the
fall, will be getting limited by the time she goes to grass
and the grass will have a tendency to produce a more
abundant supply for the calf; that the calf at that age
and time is better able to handle pasture grasses to an
advantage than when younger, and to endure heat and
the fly season more easily. There is undoubtedly force

BREEDING BEEF CATTLE 167

in some of these arguments, but the writer believes the
advantages of the spring calf outweigh those of the fall
ealf, with reference to the growing of cattle for beef in
the corn-belt.

BREED CALVES UNIFORM IN AGE

Care should be taken to breed the cows in such a
way that the calves will be as nearly uniform in age as
possible. This will necessitate the weeding out of the
herd cows which persist In coming in season only after
long periods have elapsed after calving. Such cows
are not necessarily shy breeders, but, for the reason
stated, should be discarded. The margin of profit in
breeding beef cattle is so slight that the producer can
not long afford to board the shy breeder.

* The herd should be frequently and carefully culled.
The basis of selection or standard of excellence after
the individuals have been tested should not be alone
their conformity to score card standards of form and
condition, but primarily their records as breeders. It
sometimes happens that some of the plainest looking
cows are the best producers. These should. most
certainly be reserved for future use even though they
are not pleasing to look upon.

AGE TO BREED HEIFERS

The question is often asked, “At what age should
heifers be bred?” Assuming that heifers have been
liberally fed and have attained normal size for their age,
they may very properly be bred at from eighteen to
twenty months of age. In case the heifers are under-
sized and lacking in development and condition, the
breeding may be postponed for another six months. It
ought not to be necessary, however, to keep a heifer
until she is two years of age, or upwards, before breeding.
Undoubtedly, many of the most satisfactory breeding
cows will be found among those that have reached six
to nine years, and in general it is bad practice to discard

168 BEEF PRODUCTION

an especially good breeder at such age simply because
she will deteriorate in value if kept longer. On the
other hand, the necessity of watching every corner to
avoid unnecessary losses leads to the conclusion that
females should be replaced with younger stock before
they have deteriorated materially in value. This usu-
ally means that cows should be sold when in good con-
dition at eight years of age or even younger, but should
by no means be applied to those which have proved
regular and prepotent producers of satisfactory calves.

Male calves should be castrated before the calf has
reached an age of three months, and this may be done
when the calf is less than one week old.

The feeding of a herd of cattle maintained for the
purpose of breeding calves intended for developing into
beef may best be considered under the general divisions
of (a) summer and (6) winter feeding.

SUMMER FEEDING

If pasture is of good quality and abundant the cows
and calves will require but very little attention during
the pasturing season. The calves should be weaned at
from six to eight months of age. If spring calves only
are produced and the cows are provided with an abun-
dance of pasture, there will be no need of supplementing
the pasture with concentrated feeds as far as the cow is
concerned. If, however, pastures are sufficiently short
materially to affect the milk flow of the cow, the pasture
should be supplemented with silage, clover or alfalfa
hay, green forage, or concentrated feeds. The calves
should be taught to eat grain before being weaned to
prevent shrinkage at weaning time.

Cows and calves at pasture should have access at all
times to fresh, pure water, shade, and salt.

The question of winter feeding of breeding cows
requires separate treatment.

BREEDING BEEF CATTLE 169

WINTER FEEDING OF BEEF BREEDING COWS

The kinds and amounts of feeds used in the winter
feeding of beef breeding cows should be governed to a
large extent by the condition of the cows when they go
into winter quarters. The character of the shelter best
adapted for cows will be determined by the condition
of the cows and the feed which they receive.

With the factors mentioned, more or less dependent
upon each other, it is necessary, in order to discuss this
subject intelligently, to assume certain conditions.
These assumed conditions will in most instances be
those which are most commonly met with, or those which
the writer believes to be most characteristic.

It is assumed that the climate and other conditions
necessitate dry lot feeding and some provision for shelter
for five to six months.

The end sought in the feeding and management of a
herd of beef breeding cows is, of course, to maintain
them in such thrift and flesh as will render them best
able to give birth to and suckle well their offspring, with
as small an expenditure of expensive feeds as possible.
That is to say, the cattle raiser, on the one hand, can not
afford to maintain such a herd largely on concentrated
feeds having relatively high market value to insure
desirable condition, nor, on the other hand, can he afford
to so stint the amount or quality of feeds that they are
so emaciated and weak as to give birth to delicate calves,
which they can scarcely nourish on account of their in-
sufficient flow of milk.

Cows used for this purpose should be dehorned or
natural polls, as they can thus be run in large droves
and cared for much more economically than can horned
cows. If dehorned, a considerable number of them will
run together quietly; and if calves are dropped in the
spring, except in the most northern climates, the cows
will require no other shelter than a shed open to the
south. Such cows should go into winter quarters in
good, thrifty condition after weaning their calves. By

170 BEEF PRODUCTION

good, thrifty condition we mean the condition in which
the animal is fleshy but not fat, about as fleshy as they
would be expected to go on grass the following spring.
With this condition to start with, the feeder has simply
to maintain that weight, or better, keep them gaining
slightly, through the season. This gain should always
be slightly more than sufficient to account for the growth
and weight of the foetus.

We would brand as gross mismanagement the prac-
tice of premitting the cows to run down in noticeably
thin flesh, making it necessary to feed lavishly during
part of the season to regain flesh lost during a corres-
ponding season of neglect. The most satisfactory
results in breeding and rearing calves and, we believe,
the most economical system of maintenance of such
herds, involves the keeping of the cows composing the
herd in good, thrifty condition throughout all the year.

The proper feeding of such a herd during the winter
season is frequently looked upon as expensive. This
does not necessarily follow. Such a herd should be
maintained largely upon cheap roughages, some at
least of which are unsalable. The roughages will vary
in different localities, and the varieties used should be
governed very largely by their availability.

Where corn silage is available, it is undoubtedly one
of the very best feeds to use as the principal part of the
winter ration of beef breeding cows. It is neither
necessary nor advisable to feed to such cows all they will
eat, but rather limit the amount to a medium ration of
silaze and supplement it with clover hay and other
roughage such as straw or corn stover. A ration com-
posed of eighteen pounds of silage and four pounds
of clover hay per 1000-lb. cow per day, together with
all the straw the cows will eat, will not only keep
cows from losing in weight during the winter season,
but will cause them to gain at the rate of from one to
one and a quarter pounds per head per day. If silage is
not available, a daily ration of ten pounds of shock corn,

BREEDING BEEF CATTLE tf

four pounds of clover hay, and all the straw the cows
will take will winter them satisfactorily, but not as well
as the silage ration to which we have referred.

Beef breeding cows may be wintered on corn stover
and straw, supplemented with a limited amount (two
pounds per day per thousand pounds live weight) of
clover hay. This ration contains no grain, and, while
cows may be maintained on it at less cost than the pre-
vious rations, it will not prove economical for a series of
years, because the thrift of the animals is not well main-
tained nor their milk flow sustained. A small amount
of grain in the ration is a matter of very great impor-
tance. Wintering in stalk field with access to oat straw
and open shed shelter is a suitable method of wintering,
provided there is sufficient supply of grain in the field
or added to the ration.

CEA Ey xexci:

COST OF REARING CALVES ALLOWED TO
NURSE THEIR DAMS

The question, ‘‘ What does it cost to raise a 450-lb.
calf?’ is one which has been raised a multitude of times
in the minds of the beef producers of this country.
It has been raised in the Hast, in the corn-belt, and on the
range. It requires but a very superficial study of the
subject to become convinced that the cost varies widely
in different sections of the country and under different
systems of management. It is not our purpose to
discuss the cost of range-bred calves, but rather to discuss
what are commonly spoken of as native calves. Nor is
it our purpose at this time to attempt to show the cost
of rearing skim-milk calves, but to confine this discussion
to the cost of raising calves where cows of pronounced
beef breeding are maintained solely for the calves which
they produce, the latter being allowed to nurse the
former. In other words, these beef-breeding cows are
kept for the production and rearing of one calf each
annually.

Before attempting to iten.ize the cost of producing
such calves, it will be well to discuss some of the con-
ditions which affect such a statement. ‘There are three
principal conditions of circumstances which affect the
cost of production of beef calves. They are: First, the
market value of the land. Second, the natural adapta-
biity of the land for cattle raismg. Third, the grade of
calves produced. ‘The first and second items might at
first thought appear to refer to about the same thing, but,
as a matter of fact, they may introduce quite different
conditions. For example, we can understand how some
land valued at $50 per acre would be about as valuable

72

BREEDING BEEF CATTLE 173

per acre for raising beef calves as other land valued at
$100, or even more. In considering the question of the
market value of the land in reference to the cost of pro-
ducing calves, it is, therefore, necessary to know what
makes the land valuable. If it is its exceptional adapta-
bility for the production of beef, all well and good, but
if its high value is due to its location, or its expensive
equipment, these things, which may add greatly to the
market value of the land, also materially add to the
cost of rearing calves. Undoubtedly, there was a time
when the market value of land in the corn-belt appre-
ciated because of its discovered unusual possibilities for
erowing corn, which was almost exclusively used for
live-stock production, and more particularly used for
fattening cattle. In recent years, however, lands in the
corn-belt have not risen in value primarily because of
their ability to raise more corn, to feed more cattle, to
buy more hogs, ete. Cattle feeding has become but an
incident in the corn raising and marketing territory.

As a result of these changing conditions, it 1s ob-
served that cattle production is shifting from the high-
priced corn-belt farms to the cheaper lands of the Hast,
West, North, and South. Especially is this true of the
raising of feeding cattle, a subject of which the present
discussion forms an important part. High-priced corn-
_belt farms have long since ceased to possess advantages
in cattle raising as distinct from cattle fattening.

To intelligently discuss the cost of production of a
beef calf it is necessary to assume that certain conditions
obtain. It must be known, for example, that the land
has a definite market value, upon which valuation it is
reasonable to demand a fair interest. It must be as-
sumed also that the land selected to illustrate the point
in hand must be fairly well adapted for cattle raising.
That is, it must produce satisfactorily a variety of
grasses and clovers for pasture and hay, and corn, oats
or other feeds suitable for the production of cattle. That
is to say, whatever value the land possesses, the value

174 BEEF PRODUCTION

should rest in the land and not in its proximity to some
city, town, or village, or as has been mentioned before,
its value must not consist in expensive improvements
that do not directly aid in cheapening the cost of pro-
ducing cattle.

Suppose, as an example, we assume the land to be
worth $100 per acre and sufficiently fertile and so handled
that it produces a calf to 6 months of age, including the-
keep of the dam, to each two acres. It would seem
reasonable to charge 5 per cent on the investment in
lands and 7 per cent interest on cattle.

Another item which should receive some explanation
is that of the grade of calves produced. It is assumed
that only calves possessing a high percentage of beef
blood are to be produced and that these calves possess
the type and characteristics of well-bred beef calves.
Calves of such breeding and permitted to nurse their
dams should weigh from 400 to 450 pounds at six months |
of age. It is believed that a herd of cows properly
handled should produce 85 per cent of calves annually,
or to produce one calf would require 1.18 cows. Such
cows would be valued at about $40 each. A suitable
bull would cost approximately $150 and serve twenty-
five cows.

With these facts known it is possible to make the
following itemized statement, which is intended to show
the cost of production per calf:

Five per cent interest on investment in two acres of

$100 land and accompanying equipment......... $10.00
Seven per cent interest on investment in 1.18 cows

Bit, BAO! sol, eee ae elie stan cae eek ea eae la)
Seven per cent interest on investment in one twenty-

ith of a°Sl50 bull wa oe eee ee eee 42
Cost of production of winter feed and pasture, exclu-

SiVe Ol aloo ve: Clarces e225. ater ier deer ena: 4.00
Taxes and insurance on land and cattle, including

necessary fencime wepaits. <a nee eee 3.00

Annual depreciation on 1.18 cows at $2.00........ 2.36

BREEDING BEEF CATTLE 175

Exoemraia depreciation on herd bull................ .80
Four per cent mortality on valuation of stock and

VLEET. SULLY 2g opel gee 2 ole

ESOT GIST aw ea a $26.61

If the calf weighs 450 pounds, it has cost approxi-
mately $6.00 per hundredweight. If it does not weigh
that much it has cost more.

Were such calves to be raised on land valued at $50
instead of $100 per acre, which is not impossible, the
cost of each calf could be reduced fully one-fifth. There
are other items of expense which might under favorable
conditions and the best practice be lessened, but the
writer believes the total expense as given is under, rather
than over, what might be expected in average practice.
In the itemized statement no account is taken of the
labor involved in caring for cows or calves, or fertilizer
produced by them.

CHAPTER XXIV.

THE DUAL PURPOSE COW AND BEEF
PRODUCTION

The dual-purpose cow is an established fact. It is
not claimed that the type has reached permanency or
that it has acquired a high degree of excellence. Numer-
ically, from the viewpoint of the breeder of pedigreed
cattle, her race is relatively insignificant.

Speaking in general, she exists on many American
farms as a grade of mixed lineage, but usually showing
a predominance of Shorthorn blood.

In addition to those of Shorthorn lineage, should be
mentioned some very excellent representatives, both
pedigreed and grades, among the Red Polled and Devon
breeds. That the dual-purpose type is of late becoming
more popular is believed by many who are in a position
to feel the pulse of agricultural sentiment. It is not the
purpose of the writer to champion the cause of the dual-
purpose cow. She exists in this country and, judging
from her long-continued popularity in Great Britain,
she will continue to figure as a factor in American cattle-
dom for generations to come. A partial excuse for her
existence, if one is needed,-is that not only she, but her
offspring, have the capacity for making beef. The dual-
purpose cow bears, then, at the present time, and is likely
to for some years to come, a very direct relation to the
beef producing industry of the United States. Bear
in mind that the writer is not trying to force the dual-
purpose type upon an unwilling people. He will not
long hesitate, however, to advocate the general adoption
of the dual-purpose type by the beef producers outside
the range country if thorough investigation. proves this
the most profitable type. Certain it is, that the aban-

176

THE DUAL PURPOSE COW 177

donment of beef cattle breeding and eventually of cattle
feeding over a large area of the States is a problem that
this generation must meet unless some practicable solu-
tion is soon found that will render the business more
financially attractive. Other conditions surrounding
the industry may change in such a way as to relieve the
necessity for change in the type of cattle producing
our beef supplies. Students of the situation do not
anticipate permanent relief from outside sources.

It is because of the repeated statements of exper- —
ienced beef producers and breeders of beef cattle that
the future supply of beef cattle must be bred from cows
that are milked, that the writer deems it essential to
consider briefly the subject of this discussion, leaving
the reader to adapt the facts presented to local condi-
tions.

Some of the pertinent points for consideration are:

1. Can cows be found that will produce an ample
milk flow, ample to throw them into the class of profit-
able dairy cows, and at the same time, when bred to
bulls of beef breeding produce steers that will make,
when properly fattened, a satisfactory grade of beef?

2. What average capacity for production of milk
and butter fat may be reasonably expected of such cows,
and the value of such products?

3. The standard of excellence possible in the steers
bred from such cows and the value of the calves pro-
duced on supplemented skim-milk. |

4. Knowing approximately present possibilities of
production, what is the probable expense including feed
and labor of accomplishing certain dual results?

5. Lastly, what are the possibilities of improvement
in performance and economy of production in dual-pur-
pose types? It does not fall within the purpose of this
discussion to dwell on this latter point. It is a matter
for investigators and breeders to determine. ‘There is,
of course, some limit to the development of the dual
capacity. If that limit has been reached in this country,

178 BEEF PRODUCTION

it must be admitted that it has been reached quickly
and without much concerted action upon the part of any
large number of breeders.

As to the other points raised, there are some things
which should be said. Definite data bearing directly
upon the possibilities of profit in the handling of a dual-
purpose type of cattle are scarce.

1. In the introduction, the writer has declared that
individual animals of the dual-purpose type, the desir-
able characteristics of which are generally understood,
exist.

Performance of grade and registered Shorthorns at
the Michigan Experiment Station, grade Shorthorns at
the Wisconsin Station, and again registered Shorthorns
at the Nebraska Station, to say nothing of numerous
breeders and farmers throughout the country, should
be sufficient to prove the possibility of dairy excellence
in cows of somewhat pronounced beef type.

The Red Polled breed has also made a good account
of itself at experiment stations and in the hands of
farmers and breeders. The Iowa Station, as well as
breeders and farmers, have fattened and marketed steers
from such cows, in some instances the produce of cows
with which satisfactory dairy records have been made,
that have sold well up to the top of the market.
While ‘‘topping the market” is not necessarily an index
of the highest obtainable quality, it usually accom-
panies the sale of bullocks very satisfactory to the
slaughterer.

2. Dairy performance.

The Kansas Station has shown that a herd of grade
cows produced in one year an average of 6288.58 pounds
milk, containing 251.24 pounds butter fat, per cow. The
Michigan Station in Bulletin 166 published the dairy
performance of a herd of twenty-seven grade cows, the
average production of which was 7009 pounds milk,
containing 259.91 pounds butter fat.

The writer is familiar with the type of cows used in

179

THE DUAL PURPOSE COW

‘SIOUTT[] JO APISIOATUA) OY} 4B SMOD SuIpss1q UIOYYLOYG Jo dnois y

180 BEEF PRODUCTION

this latter demonstration test, and they were, with a few
possible exceptions, such as would produce a good to
choice grade of feeding cattle when mated to beef-bred
bulls of merit. Butter fat is commonly worth at least
20 cents per pound and skim-milk 15 cents per hundred-
weight.

3. The Michigan Station has shown that the calf
from such cows may be made to weigh 380 pounds at six
_months of age, when fed upon a ration of skim-milk val-
ued at 20 cents per hundredweight and corn, oats, bran,
and oil meal at prevailing prices used as supplements
to the skim-milk and at a cost of $3.42 per hundred-
weight, not counting labor.

The items of feed and labor, including milking, in
caring for the cow and calf, will vary widely in different
sections. ‘The labor involved would amount approxi-
mately to $25. The feed for the cow twelve months
and the calf six, from $45 to $50.

In the above statements no account is taken of the
fertilizer produced by the cow and calf and this is by
no means an inconsiderable item. Nor is any interest
on the investment charged. It must be admitted that
in the light of available definite experimental data on
the subject under discussion, it is impossible to present
a very satisfactory statement, and it is not claimed that
the one outlined is more than approximately correct.
It will be noted that a very large item in the above ex-
pense account is for labor. This must necessarily be
true when the cows are milked and the calves fed
by hand.

There are those who have settled to their own sat-
isfaction that the dual-purpose cow must yearly become
a more important factor in the beef producing industry.
The writer is investigating the subject.

CHART Bits XOCV.
SKIM-MILK CALVES

THE SKIM-MILK CALF NOT POPULAR

The mere mention of the skim-milk calf in connection
with beef production is sure to call forth a derisive smile
from the majority of western and middle western cattle-
men. To them the skim-milk calf means a stunted,
paper skinned, pot bellied petite bovine; a fit subject
for ridicule, but hardly worth bothering with in the feed
lot. Nor has the western cattleman shot wide of the
mark. The average skim-milk calf is not ‘a thing of
beauty and a joy forever.”’ Notwithstanding these facts
he is with us and his number is very likely to increase.
Not all skim-milk calves are bad. Occasionally a calf
thus reared makes a good account of himself and de-
mands the respect of beef purists. It may be assumed
then that there is a right and a wrong way to rear skim-
milk calves.

NOT ALL BAD

The Nebraska Experiment Station in Bulletin 68
reports the result of an experiment conducted primarily
to show the profit of raising skim-milk calves on separa-
tor milk as compared with that derived from allowing
them to nurse their dams. It is interesting to note the
author’s observations on these calves which are in sub-
stance as follows: At six months of age the calves that
had nursed their dams could be distinguished by their
better coats and rounder forms from those that had
been fed on skim-milk, but at the age of one year this
difference could not be detected, and stockmen un-
familiar with the individuals could not pick out the

181

182 BEEF PRODUCTION

skim-milk calves. The conclusion from this is that by
careful feeding, good steers can be raised on skim-milk
by using ground feed to replace the butter fat.

HOW TO RAISE A SKIM MILK CALF

It is obvious that to secure the best results in raising
a calf by hand we should imitate nature’s method as near
as it is possible. There is a difference of opinion as to
the best time to take the calf away from the cow; some
advocate taking the calf away before it nurses at all,
while others advise allowing the calf to nurse three or
four times. This latter method is advised by the
Nebraska, Michigan, and Kansas Experiment stations,
where experiments with skim-milk calves have received
considerable attention. It is thought that by this
method the calf gets a little better start in the world
and that the nursing is a benefit to the fresh cow.
The only argument in favor of taking the calf away as
soon as practicable after birth and before it nurses is
that if taken away then, the calf can be taught to
drink more readily than after it has had an opportunity
to get its nourishment for a time by nursing from the
udder. It is also thought by some that the cow gives
up her calf at once with less grief than where she has
been permitted to enjoy it for a day or so. The writer
leans to the former method of management; even
though it means more work for the attendant, it is
better for the calf. It 1s possible that a compromise
method advocated by some is better than either men-
tioned. This method is to allow the calf to nurse
once and then remove from the cow. In either in-
stance the calf must receive the first milk of the dam.
It is well to let the calf get hungry after first removing
from the cow, before attempting to feed it from the pail.
If the calf is strong, a fast of twenty-four hours will
bring the desired appetite. The calf should be fed
whole milk for the first three of four weeks and three
times a day. Ifa large calf, two quarts in the morning

SKIM-MILK CALVES 183

and evening and one at noon should be fed; a small caif
should have only three pints in the morning and three
pints in the evening and a quart at noon. It is better to
feed milk immediately after being drawn from the cow.
At the end of the third or fourth week, the substitution
of skim-milk for whole milk may be begun, as also feed-
ing twice instead of three times a day. This should be
brought about very gradually. The first time any sub-
stitution of skim-milk for whole milk is made, let one
half pint of skim-milk replace an equal amount of whole
milk. The next time, feed a pint and so on, making a half
pint additional substitution with each feed. By follow-
ing this method from ten days to two weeks will be
required to get the calf safely accustomed to skim-milk.
A teaspoonful of ground flax mixed in the skim-milk is
excellent. If any tendency to scours occurs, a small
amount of blood flour mixed in the milk will check it.
After the change has been effected, the skim-milk and the
eround flax may be very gradually increased, until at the
age of four months the calf should receive a heaping
tablespoonful of flax meal and five quarts of milk twice
each day. Do not forget that ten to twelve quarts of
skim-milk per day is a full feed for a calf five to six
months of age. When the calf is three to four weeks old,
it should have an opportunity to learn to eat oats, bran,
and corn. Professor Shaw of Michigan recommends the
following mixture for this purpose: Cornmeal 3 parts, oats
3 parts, and bran 1 part, by weight. One part oil meal
should be added to this if no ground flax is fed as sug-
gested above. The calves may be induced to eat this
mixture by dropping a tablespoonful of it into the pail
after the milk is gone. Do not sicken them by feeding
too liberally. They should also be encouraged to take
a little silage and nicely cured clover or alfalfa hay.
As to the amount of concentrates fed, Professor Shaw
says: “In general, about 34 pound concentrates per
100 pounds live weight, varying some, of course, with in-
dividuals.” As a general practice, we strongly advise

184 BEEF PRODUCTION |

against mixing grain with skim-milk for calf feeding.
They should be fed separate as advised with the possible
exception of the small amount of flax meal mentioned.
One essential pot in calf rearing is frequently over-
looked, namely, the supplying of an ample quantity of
fresh clean water within the reach of the calves at
all times. Some use a hog waterer for this purpose.

The following from Professor Haecker of Minnesota
is well worth careful reading:

“It has been the general opinion among farmers that
separator skim-milk was not a strong or nutritious feed
and that a large mess must be given to make up in quan-
tity what they supposed it lacked in quality, and the
result was that calves were overfed, and indigestion
would be produced, which was followed by scours and
bloat.

“Tf directions are strictly followed, the calf will always
act more hungry after taking its meal than it did
before, but it is better thus than to give it a larger
mess and then have a case of scours or bloat on your
hands. Lach calf should be fed by itself out of a clean
tin pail, which should be washed and scalded after
each feeding just as thoroughly and carefully as one
does the milk pails. Place the calves in small
stanchions while they are being fed, so they will not
get into the habit of sucking each other. Have the
little manger in front of them wide enough so an ordi-
nary tin pail, containing the mess of milk, can be set
into it. Have partitions placed in the manger, and
when it has taken the milk, take out the pail, and if
the calf is old enough to eat oats or bran, throw in
about a tablespoonful and it will soon get into the habit
of chewing the oats as soon as it has taken the milk.
For about that time it wants to do something, and
if it is not confined in a stanchion or tied out of reach
of another calf, it will amuse itself by sucking its neigh-
bor’s ears. The bottom of the manger should be a
dressed board about ten inches wide, and should be so

SKIM-MILK CALVES - 185

adjusted that it can be taken out once a week and
scrubbed with hot water and soap;for the manger
must be kept absolutely sweet and clean.’’

Bulletin 97 of the Kansas Station makes this pertinent
observation: ‘‘Finally, remember that the calf is a
baby and give it the kindness and care due every baby.
The better a calf likes you the more it will gain. Pet
it. Keep its pen and yard dry and comfortable;
keep it warm in cold weather and give it cool shade in
summer.”

PART III.

ELEMENTARY PRINCIPLES OF STOCK
FEEDING!

GENERAL DISCUSSION

Familiarity with the science, or the principles govern-
ing the processes, of stock breeding and stock feeding
is highly desirable from the standpoint of the stock raiser.
It is not to be asserted that such knowledge is absolutely
necessary, for it is well known that we have many suc-
cessful stock breeders and stock feeders who know little,
if anything, about the principles of the enterprise to which
they look with confidence for a competency. Success in
farming is dependent more upon a thorough familiarity
with the art or practice than with the science or funda-
mental principles of the business. The art is the practice
of stock feeding. Successful stock feeding practice may
be acquired from personal contact and experience, and
by carefully observing the methods of our most success-
ful feeders. Such experience is acquired, at best, but
slowly, and often at great expense. However, a knowl-
edge of the scientific principles of stock feeding makes
it possible for the inexperienced to learn the art more
quickly, at less expense, and withal more thoroughly.
Fewer mistakes will be made in stock feeding practice
by men who are thoroughly familiar with the principles
of the business than by those ignorant of the same.
Mistakes in feeding practice are more serious now than
formerly, and will become more serious with the lapse
of time, because competition will be keener, land and
food-stuffs more valuable, and labor more expensive.

1 By the author, in ‘“‘ Practical Farming and Gardening.” Rand,
MeNally & Co., Chicago and New York, Publishers.

186

PRINCIPLES OF STOCK FEEDING 187

Professor Brooks of Massachusetts well says: “Some
knowledge of the composition of animal products and
of foods; some knowledge of the laws of nutrition, and
of the facts discovered by scientific men regarding the
most economical production of meat, of fat, of milk,
and work, will help even the best practical feeder. Such
knowledge will not render the exercise of the observing
faculties and of the judgment the less important. It
will rather sharpen the one and broaden the other.”’

Chemistry of Stock Feeding—In an attempt to dis-
cover principles of stock feeding, investigators have
given much attention to the chemical problems, neg-
lecting to some extent, perhaps, the physical and the
physiological factors involved. It is a pardonable over-
sight, since investigations tending to throw light upon
the subject should begin with a study of the chemical
substances necessary for the development of plant and
animal life. The existence of our farm animals is de-
pendent upon plant life. There must, therefore, be
certain elements or compounds in the plant that con-
tribute to the upbuilding of animal tissues.

Of the seventy recognized chemical elements which
in their infinite combinations form all organic and inor-
ganic substances, only fifteen are involved in plant life,
viz., calcium, carbon, chlorine, fluorine, hydrogen, iron,
magnesium, manganese, nitrogen, oxygen, potassium,
phosphorus, silicon, sodium, and sulphur.

In making application of the chemistry of plant and
animal bodies to the subject of stock feeding it is seldom
necessary to deal directly with these elements, but rather
with certain compounds made up through various com-
binations of these elements. These classes of com-
pounds are practically the same in plant and animal
bodies and are usually referred to as ash, crude fiber, fat,
nitrogen-free extract, protein, and water. The per-
centages of crude fiber and nitrogen-free extract are
commonly grouped together and referred to as carbohy-
drates.

188 BEEF PRODUCTION

We reproduce a table from Doctor Jordan’s ‘‘The
Feeding of Animals,”* which will aid the reader to
understand the relation between the chemical elements
and the chemical compounds to which we have referred.

Compounds Elements

( Oxygen
Waternueaor | Hydrogen

Oxygen

Sulphur

Chlorine
Phosphorus
Silicon. Fluorine.
Potassium
Sodium
Caleium
Magnesium
Tron

[
Incombus-
|
|
|
Manganese
|
|
as
a
l

[

|

|

tible or |
Inorganic

Matter... |

|

|

|

l

Carbon

Oxygen

Hydrogen

Nitrogen

Sulphur (generally)
Phosphorus (sometimes)
Tron (in a few cases)

|
|
Combustible |
| oF Gregus
| Matter. .
| |
l

drates and { Oxygen

Carbohy- | Carbon
AUS igere a8 mt Hydrogen

COMPOSITION OF FOOD STUFFS.

It is necessary, first of all, that the stock raiser recog_
nize the fact that the elements with which he fertilizes
his soil will reappear later on, in a measure large or small,
in the bodies of the animals he fits for market. These
elements will have suffered two transformations in the
meantime, being assimilated, first, by the plant, and
second, by the animal. All the undigested portion of
the animal’s food will have been returned to the land as
fertilizer, and all the digested portion as well, except so
much as has been permanently incorporated in the ani-

1 New York: The Macmillan Co.

a

PRINCIPLES OF STOCK FEEDING 189

mal body, supposing, of course, that all the manure,
including the urine, will be returned to theland. In fix-
ing on the crops to be raised and the feeds to be bought,
therefore, the intelligent farmer has in mind (1) avail-
ability for the purpose desired (depending on composi-
tion and digestibility) and (2) fertilizer value.

Water and Dry Matter.—All food-stuffs contain a
considerable proportion of water. The residue is in-
cluded under the general term ‘dry matter.’”’ A proper
ration for a farm animal will contain a quantity of dry
substance which is practically uniform for animals of
the same species, type, age, and condition.

Because water is abundant in plant and animal life,
we should not conclude that it is valueless, but rather,
as in the case of carbohydrates, that it is essential. The
leading functions of water related to animal life are as
a solvent and distributor of other compounds, while it
gives elasticity and firmness as well to animal tissues.
Investigations as to the percentage of water in animal
bodies under normal conditions have shown that usually
more than 50 per cent of the total weight of an animal
is water, the percentage varying with the age, condition,
and species of animal.

Ash and Organic Matter—The dry matter of a food
is subdivided into ash (inorganic, or mineral compon-
ents) and organic matter. The mineral substance is
called “ash” because it alone remains when the organic
matter 1s driven off by burning.

It will be observed that the constituent in plants and
animals containing the greatest number of chemical
elements is ash, and yet ash seldom constitutes more
than one-tenth of the animal, and still less of the plant,

seldom exceeding, in general, one-twentieth. Clover hay
’ contains a relatively high percentage of ash, while corn
yields only a small amount. In the former case there
are about 6.2 pounds, and in the latter 1.5 pounds ash
per hundredweight. While the relative amount of ash
in all food-stuffs is small, it is absolutely necessary to

190 BEEF PRODUCTION

promote both animal and vegetable growth. As a mat-
ter of fact, little attention has been paid to the ash con-
stituents of plants intended for animal food, largely
because there has seemingly been a sufficient supply in
most food-stuffs. Recent investigations reveal the
fact that the ash constituent in food-stuffs is more
closely related to commercial production ‘of animal
products than was formerly supposed.

Protein, Fat, and Carbohydrates.—The organic com-
ponents of feeding stuffs fall into three groups: Pro-
teids, fats, and carbohydrates.

Protein.—The compounds of vegetable and animal
structure containing nitrogen are in general terms called
protein. Compounds of this class vary much in their
nature, composition, and relative feeding value. They
have one thing in common, namely, the possession of
nitrogen. They are, therefore, frequently spoken
of as nitrogenous compounds. The most expensive
constituent in fertilizers is nitrogen; likewise the most
costly food-stuffs are those possessing the highest per-
centage of digestible protein. Whatever other func-
tions protein may have, its chief one is that of a flesh
(lean meat) former.

Carbohydrates.—The carbohydrates are of two kinds,
fiber and nitrogen-free extract. The fiber (composed
principally of cellulose) is the hard, woody framework
of the plant. The portion available for nutrition ap-
pears to be digested in the intestines. Nitrogen-free
extract includes the more easily digested starches,
sugars, and gums. The carbohydrates are the cheapest
food-sources of heat, energy, and fat. Since their func-
tion is the same as that of the digestible fats found in
feeding-stuffs, and since the fats are about 214 times as
effective as the carbohydrates, it is customary for the
sake of simplicity to reckon them together. The fat
content of a feeding-stuff is multiplied by 214 and the
product is added to the amount of carbohydrates present.

Carbon, oxygen, and hydrogen — elements which may

PRINCIPLES OF STOCK FEEDING 191

be derived from air and water — are the only elements
found in the carbohydrates; they are frequently spoken
of as nitrogen-free compounds.

No other class of chemical compounds comprises so
large a part of stock foods as the carbohydrates. In
some cases, as in certain varieties of hay and grain,
they comprise 80 per cent of the dry matter. While
abundant in most food-stuffs, they are nevertheless a
valuable constituent, as being the chief source of energy
and fat.

Fat, or Kther-Extract.—The percentages indicated in
the column headed “Ether Extract”’ in the table follow-
ing include several compounds, mainly, however, fats
that are soluble in ether. The value of the ether-extract
in a given food-stuff depends largely upon its nature.

DIGESTION AND GROWTH

Since only a part is digested, not all the nutrients
in food-stuffs nourish the animal body. We speak of a
given food-stuff as containing a certain number of pounds
of protein per hundredweight. While this knowledge
may in certain instances be useful to the feeder, the
important thing to know is, how much available pro-
tein is present and the character of the feed that con-
tains it.

Conditions Affecting Digestion.—In the processes of
digestion, such portions of the food nutrients as are
digestible are converted into a form which may be readily
taken up by the absorbent vessels of the stomach and
intestines. The undigested portions of food-stuffs are
believed, in certain instances, to serve the purpose of
distending the stomach and intestines. In general, a
much higher percentage of the food nutrients in concen-
trates is digested than in roughages containing a large
amount of crude fiber. Other conditions, also, affect
the relative digestibility of nutrients in food-stuffs:
(1) Certain species of animals, such as cattle, sheep, and
other ruminants, digest a higher percentage of crude

192 BEEF PRODUCTION -

fiber than do others, for example, horses. (2) Not only
is there a difference in classes of animals as to their di-
gestive capacities, but there are differences in animals
of the same class in this regard. In other words, some
animals are more economical producers of animal pro-
ducts than others.

Processes of Digestion and Assimilation.—To be of
any use, the digested food must be assimilated by the
animal. The process of assimilation consists in the
taking up or absorption of digested food particles, which
are conveyed by the blood to every part of the animal.
A general knowledge of where the various food nutrients
are digested is desirable; hence, a brief reference to the
subject seems pertinent.

The changes which take place in food during the
processes of digestion are mainly chemical; but the first
change or process is a mechanical one — that of masti-
cation, the process during which the food is broken or
ground up into fine particles, rendering it more suscep-
tible to the chemical action of various juices with which
the food particles come in contact during its passage
through the alimentary canal. The only food nutrient
that is partially or wholly digested by the action of the
digestive ferments with which the masticated food is
brought in contact in the mouth is a portion of the starch |
constituent of carbohydrates. Whether the amount
digested is large or small depends upon the thorough-
ness of mastication and the length of time the food re-
mains in the mouth. Under ordinary conditions, since
the food remains there but a short time, the amount of
starch digested is small.

The remainder of the digestible starch is digested
mainly in the intestines. In general, then, we may say
that carbohydrates are digested partly in the mouth, but
mainly in the intestines.

The stomach, by the action of the different ferments
in the gastric juice, the digestive agent with which the
food comes in contact in the stomach, digests the greater

PRINCIPLES OF STOCK FEEDING 193

part of the proteids. The remaining digestible proteids
are digested in the intestines. Tats and oils are mainly
digested in the intestines.

COMPOUNDING OF RATIONS

Agricultural investigators can not hope to attain to
mathematically exact results. Food constituents vary
from sample to sample; digestive power varies from
animal to animal. These variations, however, are not
great, and hence not serious as disturbing factors. The
farmer must concern himself with average results to
meet individual conditions and requirements.

TABLE I. AVERAGE DIGESTIBLE NUTRIENTS IN
AMERICAN FEEDING STUFFS

The following table of average digestible nutrients
is reproduced by permission from that valuable work,
“Feeds and Feeding,” by Dean and Director W. A.
Henry, of the Wisconsin Experiment Station.

Digestible nutrients ||Fertilizing constituents
Dry ~ in 100 pounds in 1000 pounds.
Name of feed TOG Carbo- Eth Nit Phos-
itro- :

pounds]Protein ae Saheeee | mene phere Potash

CoNcENTRATES | Lbs. | Lbs. | Lbs. | Lbs. |! Lbs. | Lbs. | Lbs.
Gomme all analyses.) 89.1 | 7-9 | 66:7) 4.3 /18.2| 7.0) 4.0
Went Com... ...- SOMA On MOG ly Bee Orl Oe Oullves cise lb icreiaes
HME Ae OFM... .. 6. 2 S8e7 128.0) 66.2 |" 4-3 1 1658 ae a
Sweet corm.......- IZA SeSu Oona le ico tSsa6 eal ere
Gorm cob.......-- 0) BN Oe 2 OSs IO “Ou, 620
Corn and cob meal] 84.9 | 4.4|60.0| 2.9}14.1}] 5.7] 4.7
Gormmioran ..... .. SOS9T ean 59S L1G | Gas) 12. 6.8
Gluten meal...... Ole Sale seo oon pl Ona0nou oro) no
Germ meal....... SORGR BOM OG Olee ns Gr al 26000 oe OUl = rozO
Starch refuse..... OS leg 584s |) Go) 224) 720) 52
Grano-elusen-._-|.| 9423 | 26:7 | 38.87) 12.4)/49.8 |) 6.1) L.5
Hominy chops....| 88.9 | 7.5 | 55.2] 6.8)16.3| 9.8| 4.9
Glucose meal:..... GUMS SOS aon eso OMe Gai crue a) sete
Susam mele. 5. OR af WS le i Sal Ores |p eee Cee)
aren nccdenweten| ano) coro 2h 2535) 958 | 0.05) 10
Wincanton OL 2 e692.) Me 23 364 79) 50
High-grade flour. .| 87.6 | 8.9 | 62.4 | 0.9|/18.9 | 2.2] 1.5
Mow-erade flour *.| 87.6 | 8.2 | 62.7 | 0.9)/ 23.9 | 5.6) 3.9

194 BEEF PRODUCTION ©

Digestible nutrients ||Fertilizing constituents
Dry in 100 pounds in 1000 pounds

Phos-
phorie |Potash
acid

Name of feed in 100 Carbo-

pounds|Protein| hy-
drates

Ether || Nitro-
extract|} gen

J | |

CONCENTRATES Lbs. | Lbs. | Lbs. | Lbs. || Lbs. | Lbs. | Lbs.

Dark feeding flour] 90.3 | 13.5 | 61.3 | 2.0 || 31.8 | 21.4] 10.9
Wheat bran ....:.| 88.17} 12.2 | 39.2 2.7 || 26.7 | 28.9 | 16.1
Wheat — bran,

spring wheat...| 88.5 | 12.9 | 40.1] 3.4
Wieh eats esbmam,

winter wheat. ..| S80. (| 1223) | Sirol 2 Ose oss) coe
Wheat shorts .. 2.) 88.2) 11272715000) 3784-28) 2) 13h an leeoeo
Wheat middlings | 87.9 |} 12.8 | 58.0 | 3.4] 26.3] 9.5] 6.3
Wheat screenings! 88.4] 9.8 | 51.0 | 2.2 /|24.4]11.7] 8.4
IRIS C iana ne netvenerarnae S854 | 9.9 167.6 | 151) 226) Se 25 oe
Rye bran....c..-.| 88-4} 15 15073) 220) 23.2) 2228s aie
ISHS SIOIMES 465 60040) SOs 00 | WIL) aes IL 671 18/4 |) 256s eset
Barleye cue se SO Sats) 65260)) ah sG) 11ers
Malt sprouts...) S95o5) TORO 3 Seal soe om alone aloes
Brewers’ grains,

wet... i. i020... | 2453"), 329), 9238) le 4S OF | airs eaien ees
Brewers’ grains,

GiIeG ih os saa O18: | 1557 36535) 52154136520 1OeSaiaORe
Oats74 Oa ane. 89-0) 9.2) 47.34) 74.2 || 2076) 8225 aoe
Oatmeal 25.52 55 oS ele ES) 52 SOR 2 hie |e
Oat feed or shorts] 92.3 | 12.5 | 46.9 | 2.8 ]|17.2] 9.1 oe
Oat dust: 4... 2. 293-55 Sh9) 6382455 15 02a On eee eee
Ovni eee OOLG ies 20 I Oe 5.4 24] 2
RIiCee wie wee 87.6|— 458) 72-2) 0535 O58 esa ORS
Ja lvls 54k cos || Oil 1G | 44h. 5 |) O.6)) B.8 1 7 oaclet
IRC ION, oo ecsc5 || OO. ' Hod] 4h | WeB i wo | 2.9 | 2.4
Eice:polishiac. a5. 9050) | 90) |-56 54" || “Gro 957 | 265 | ee
Buckwheat. ......| 87.4) 7.7 149.2) 1.8 14.4 | 4:4) 2a
Buckwheat hulls) S678") 251°) 27299)" O=63|| 4597) 027%) |e
Buckwheat bran. || 89.5 | 7.4 | 30.4] 1.9 || 36.4 | 17.8 | 12.8
Buckwheat shortss() S829.) 21 S3r on) toro) lee oe een ee
Buckwheat mid-

clings. :2.0¢... 4| St. | 22,091 33.4) 5.8 14278) e2ilOs | eivleaee
Sorghum’ seedi.5|-S7s2 | 7.0) |o200 | Sede ASE tse ley eee
Broom-corn seed..| 85.9 Ce AAWASS ON 2 9RLOre 32
ICAVGHE COV MNs5 con as || ee | 7.8) S7 Il 2s (aller Med
Milletcee ae SIESORO 8.9 | 45.0 8324 |) 210). 4! 8.5 3.6

DIGESTIBLE NUTRIENTS

195

Name of feed

CONCENTRATES
Hilax seed. .....

Linseed meal, old

process. .

Linseed meal, new

OEOCESS. ....
Cottonseed _ Reo

Cottonseed meal. .
Cottonseed hulls. .
Cocoanut meat ..
Palm-nut meal. ...
Sunflower seed. ...

Sunflower seed

Peanut meal......
Rape-seed meal...

Peas... : ee
Soja (soy) bean...
Cow-pea. .
Horse bean...
ROUGHAGES
FODDER CORN
Fodder corn,
SHEEN - 5.5. -
Fodder corn,
field-cured...
Corn stover, field-
Gilked. se... ..
FRESH GRASS
Pasture grasses
Gomibxed))ii bs oe
Kentucky blue
grass. .

Timothy, different

stages. . :
Orchard grass,
bloom. .

Red-top, 1 in bloom

Oat fodder..
Rye fodder..
Sorghum. .

Meadow fescue, i in

bloom. .

Digestible nutrients Fertilizing constituents

Dry in 100 pounds in 1000 pounds
in 100 Ph
in 0 OSs-
pounds|Protein ae. ea as meee shee Potash
Lbs. | Lbs. | Lbs. | Lbs. | Lbs. | Lbs. | Lbs.
90.8 | 20.6 | 17.1 | 29.0 || 36.1 | 13.9 | 10.3
O10). || AD .8 |) BAe 7 an OMA ellie Onl lkoeii
89.9 | 28.2 | 40.1 Ze) ||| Dif arsd |) 13.8) |) 1e3,9
SOW | W248 | BO. | UY 6B |) Bil |) WA |) aly
Oil || B74 | 16.9 | la. G79 | 23.8 Sri
88 .9 Oo | Swell 1:7 6.9 8 | O72
O20 | USO | BS .8 1) Os BAS |) GO! 2ZE 0
89.6 | 16.0 | 52.6 9.0 |] 26.9 | 11.0 5.0
O74 5) || MASI | ADetss || 22) 50) || PS | LAP 5.6
OS SM oF UO) IAS NN ya as 1) by a aia 7
(AO) | 4) I) eS O89) I 7H.0 | UB ih | 1S.@
OO | 25.2 |) 23.7 7.5 || 49.6 | 20.0 | 13.0
89.5] 16.8 | 51.8 0.7 | 30.8 8.2 9.9
89.2) || 29.6) 22.3 |) 14.4 153.0 | 18-7 || 19-9
5) 2 |] ISS Ss |) 542 Tegel || aes tel epson Es
5 | Pere | 2s | WZ ||| 4O. 7 |) WO) W429)
20.7 ILO I @ 0.4 Emel LS 3) 3

SOD | et |) Ba.4e NO. eh Woes | AE) 4) ales, (0)
20.0 | 4.8 | LOA | OS Oe Aas 7D
Bo | BO} WS | Oss

SS LA WO) Os) 8S 3 A || 8
20) ile Ee | Oo) 2a Wao eo
Stal, Zell ZI 2 Aa ONGalh a sve Ws de ie
Bio | oO WS) ye LO || AO eh) was
2a 2 le A OPA Saal) Choon lass
Z2ORGH| ONO 222] SORA 23 ORO R pe 2k 3
Os deo UG. Oe!

196 BEEF PRODUCTION

Digestible nutrients Fertilizing constituents

ed in 100 pounds in 1000 pounds

DEK. |S

Name of feed in 100 _ |Carbo-| wher ll Nitro- | 22s:
pounds|Protein} hy- phoric |Potash

gen

drates acid

CONCENTRATES osts | kbosaa) mies: Ihbs. | Lbsts\elaos

Hungarian grass...} 28.9 | 2.0] 16.0 3.9 | TG eons
Green barley......| 21.0 | 1.9 | 10.2 wie | ee
iReas andloatsace. | lO50)| esa aie
Peas and barley..| 16.0 | 1.7] 7.2

Hay.
AUTENONION? 5 5 0 ct0 30 0 86.8] 2.8 | 43.4 | oI4 || 1226 |) Seas eae
Orchard grass.....| 90.1 | 4.9) 42.3 | 1.4) 13.1 |” 4505 ises
Red=topre ree. 91.1 | 4.8 | 46.9) 1.0] 115) Seon aioe
Kentucky blue

STass! |. 4s. Je. | S28 |) 428 | Bd) 22.0) Ie Oi tea O ml ieee
Hungarian grass | 92.3] 4.5; 51.7] 1.3])12.0] 3.5 | 13.0
Mixed grasses.....]| 87.1 | 5.9 | 40.9] 1.214. 1 | 2°77) toto
Rowen |(mixed).- 383.4 | 7-9) | 40.17) 1a 16 Ae ere
Meadow fescue....| 80.0 | 4.2] 43.3) 1.71 9.9 | 4.0) 2130
Soja bean hay ..4./ 88.7 | 10.8 | 38-7) lo 23225)" Gx7aienoRs
Opie cee cise ole) hale |) ase) Pf aXG4e pod | eo ee wae
Marsh or ee

hay.. : 88.4] 2.4] 29.9 | 0.9
tee or swamp

-.( O41 | Be] 4407 4 Ost

White daisy...... S50 | Bos | 4ZOs7 | 32

STRAW
Wheatuge.. 01.2 90.4. | 0.4.1 36.3" |) O24 5.9) | en eoeet
Rye... 92.9 | 0.6 | 40.6 | 0-4 | 406) | 228n aaa
Oatoi. ssl s.0ce- | 90.841 1.2 3826 |- O83 6227) 2a OR mar:
Barley. . 85.8 | 0.7 | 41.2 | 0-6 | i371) Sx0soRs
Wheat chaff. . 85.7 | 0238) 23° 39| 7 Oo) 7e9s Om ieee
Oat chaff. . Ae eB Be O MN Oat sve. I] so. ae
FRESH ‘Listers
Red clover, dif-

ferent stages. ...| 29.2 | 2.9) 14°38 | 0:7 | 5:3) 13 taeG
Alsike, blooms... 2|'25.2)) 227 | last | OF) 4.45) Sivss eee
Crimson clover....; 19.1 | 2.4) 9:1) Oo) 4:3°|) on eee
Alfalfa. ...>°.7... 128.2") 3.9") 12.7 5 0-5) 722) ie oe
Cow-pea....-.:.. (16.4 | 178 | 827120021) 207 |. TeOs aaa
Soja bean.........|,24.9 ) (3.2 | ‘11-0 | O30) 2°90) Ion tome
LEGUME HAY
AND STRAW.
Red clover, med-

TUN, rs so ee Soh 6.8 | 35"8 |, V7 20.7 |) 3238 e220
Red clover, mam-

ONOW Mts bola ods 9 so 78.8 | 5.7 1 32.01 1.9 22.3 |) Soonieoe

DIGESTIBLE NUTRIENTS G7

Fertilizing constituents

Digestible nutrients

Dry in 100 pounds in 1000 pounds
matter, =
Name of feed in 100 Corben : Phos
pounds]Protein| hy- Goh Nie phoric | Potash
drates za = acid

CONCENTRATES [Goss easels |) bss ibs: | bs: | Lbs:

Alsike clover .....| 90.3 8.4 | 42.5 Pont 23 24 Ge 22.3
White clover...... 90.3 | 11.5 | 42.2 Le SalleZieco 09.21 18.1
Crimson clover ...| 90.4 | 10.5 | 34.9] 1.2]/ 20.5] 4.0] 13.1
Pabaliaee =. ......-| 91.6 }.11-0 | 39.6 1.2) 21.9 oe) 1628
Cow-pea......... SOPSU MOSSE oS Ons lolIMOe Sa) baa 47,
Soja bean straw ..| 89.9 2eS200 Os a so AAO. | AS 2
Pea-vine straw....| 86.4] 4.3 | 32.3] 0.8]| 14.3 | 3.5] 10.2

SILAGE
Monnens... :%...| 20.9 0.9 | 11.3 On 2.8 it i Uh
ee res 28504 2201 PSO) VOW. a) acces eee.
Sorghum......... P3nO) |) O61) 14098! 0x2
AVI Zeon oe OM Sant. oLE9
T2580 a eee SOO al OM ae Aaa) SAG
Wow-pert vine......20.7/ 1.5| 8.6| 0.9
Soja bean......... DOO erin Bom sila
Barn-yard millet

undl soja bean ..| 21-0] 1.6| 9.2| 0.7
Corn and_ soja

Reames | 24-0 | 1.6) 13-0) 0.7

Roots AND

TUBERS 2

auaieO. 5...) ws Ze OLOs NGron le sO S| Sas2 ho eZ) AN 6
Beet, common... .| 13.0] 1.2 | 8.8]. 0.1] 2.4] 0.9] 4.4
Beet, sugar... .... 1356) ete | hO 2a) oO ot 2.2 0 4.8
Becemaneel | 9.1) 1.1} 5.4] 0.1] 1.9} 0.9 | 3.8
Hi turnip... .... ORor ON sail Ose aS. [ral Oe | 3.9
Ruta-baga........ ets On Sel | Onze Oo) We2e| 249
CUNO on 11.4] 0.8 7.8 0.2 aby iP Oe®) Hell
ESO D=2 =... +: led ete omlelile Zale 2 ie WS s280n | a4
Artichoke......... 20200 2.05 16.8 0.2 2.6 1.4} 4.7
MISCELLANEOUS
(abbace.......... IS Se eS ee On e4s|| <3.Cull ieee! 4.3
poe 90.0 1° 1-5) 9-8 | 0.3. 3:8 |. 2.5] 5.9
Spuear-beet leaves |:12.0| 1.7) 4.6] 0.2] 4.1] 1.5} 6.2
Pumpkin, field....). 9.1 ION Se Sis tObSE hoe. ieee ert ee Se
Bompiin, earden 119-2) 1.4) 8.3 | O.8}| 1.1 | 1.6) 0.9
Parckhy comirey-=| 1b.6| 1.4) 4.6| 0.2) 4.2] 1.1] 7.5
READCR sc. So es sas 14.0 ISS Pissed! O.2 || 4.5 i530
Evearis. treshe o..c 44.7 | 291) 34:4), Teel... sm eee
Wred blood....... 91.5 | 52.3 a0 Zo sonONi lace Meat
Meat scrap...... | 89.3 | 66.2 Rel seat aL L SO seit. We)

198 BEEF PRODUCTION

Digestible nutrients Fertilizing constituents
Dey in 100 pounds in 1000 pounds
Matter |——
Navane OH esse Fin 110 _ G2] wanes lliseno. || Beas
pounds! Protein Ae _ | extract] gen Phone Potash
CONCENTRATES Lbs. | Lbs: | Lbs. |) Lbs. |) Lbs) |Sibs. bss
Dredish =e 89.2 | 44.1 SOP LOPS 77 on L202 Oh ee
iBeetyoulioain ase LOE ZI AON Or Sail mere 1.4 | OF 25 SORe
Beet molasses. ....| 79.2 | 9.1 | 59.5 0) T4565) ONas sa 6R3
Cow’s milk. . Oo 26 Lokal Bal io] i.e
Cow’s milk, Colo
trum. . 745) 4: | 76 4 | GoG Il FQ.2 6.6 al
Skim- milk, “ prav-
itowvar VO | Ball 4.7 0.8 5.6 2.0 1.9
Skim- milk, ‘oan ‘
fugale ae 9.4 2.9 5 0.3 5.6 2.0 1.9
Buttermilk. . 9.9 3.9 4.0 Tet 4.8 lei 1.6
Whey.. 6.6 0.8 4.7 0.3 1 1.4 1.8

FEEDING STANDARDS FOR FARM ANIMALS
From Henry’s ‘‘Feeds and Feeding.”

“The standards are arranged to meet the require-
ments of beef cattle under normal conditions. The
statements in the standards should not be accepted as
absolute, but rather as data of a helpful nature, to be
varied in practice as circumstances suggest.

“The statements in the column headed ‘Dry Matter,’
should be regarded as approximate only, since the diges-
tive tract of the animal readily adapts itself to varia-
tions of ten per cent or more from the standard of
volume.

“The column headed, ‘Sum of Nutrients,’ combines
the data of the three preceding columns, the ether ex-
tract being multiplied by 2.4 before adding. In the
first column of this division of the table, marked ‘Crude
Fiber = 1,’ all the digestible nutrients are included. In
the second division, marked ‘Crude Fiber = 4%,’ it is
assumed that 30 per cent of the digestible non-nitrogen-
ous nutrients consists of crude fiber, and one-half of this,
or 15 per cent, is deducted. This deduction should be

FEEDING STANDARDS 199

made in the case of rations containing much coarse
forage.

“The standards are for animals of normal size. Those
of small breeds will require somewhat more nutrients,
amounting in some cases to .3 of a pound of nitrogenous
and 1.5 pounds of non-nitrogenous digestible nutrients
daily for 1000 pounds of live weight of animals.

“The different standards given for the same class of
animals according to performance illustrate the manner
and direction in which desirable changes should be made.

“Tn considering the fattening standards the student
should bear in mind that the most rapid fattening is
usually the most economical, so that the standards
given may often be profitably increased.

“The standards for growing animals contemplate
only a moderate amount of exercise; if much is taken,
add 15 per cent — mostly non-nitrogenous nutrients —
to the ration. If no exercise is taken, deduct 15 per
cent from the standard.”

Per day per 1000 pounds live weight. poe
Digestible Nutrients.

8 : Sum of BAS
ANIMAL. 3 2 48 we nutrients. PS
g on 58 Ssh lee ee
> z ac = | Crude Fiber. =
g | £ | &e | ®s |} ———_ 3
FATTENING
CATTLE. Lb. Lb. Lb. Lb Lb. Lb Lb
First period...... 30 DN EO) Oo Ls, 044) LO i, lec
Second period ...| 30 SRO Ao Oneal OR 2 U7 0n soe
Third period ....| 26 QeiattovOnl On| 1Oe4 Wl e2e ll 6.2
GROWING CATTLE.
BEEF BREEDS.
Agein Av.live wt.
months. per ee
s.
a EOE. 23 ARP eS AOele 20) (200M Zio 422
eel, a ss 330. 24 See 2eSe plea el OO ale TOO Aang
6-12 NEO). 29 DARA TSF sl 50) rf awl bye || Airset oO)
HES 2.5 2700).,..|5 24 DD NUS | Oe sr Nie | alas eos
Rt 9502.2 | 24 Se OOM Oe elas) elses 2h 7: 2

eo

200 BEEF PRODUCTION

In examining any ration to ascertain how nearly it
conforms to the standard, and what modifications, if
any, are needful, attention must be paid to three points:

(1) Total amount of dry matter.

(2) Amount of digestible protein.

(3) Amount of digestible carbohydrates.

COMPUTING A “BALANCED RATION.”

By the term “ balanced ration” is meant a ration in
which the digestible protein is in the proper proportion
to the digestible carbohydrates and fats. This relation
varies with the various classes of animals, and in the
same class depends on the age of the animal, whether
the animal is growing, fattening, producing milk, or
working. By means of tables showing the digestible
nutrients contained in feed stuffs and the amounts of
each of the classes of foods required by an animal of
given weight in a certain condition, it 1s possible to com-
pound a ration which is, for that animal, a balanced
ration.

To illustrate the method of balancing a ration, sup-
pose that a steer in the first period of fattening is receiv-
ing a ration consisting of 15 pounds of corn stover and
20 pounds of crushed corn daily. By referring to Table
I. and multiplying the number of pounds of the three
classes of foods (protein, carbohydrates, and ether ex-
tract or fat) in a pound of the food-stuffs that are being
used by the number of pounds that are given the animal,
we will find that the steer is receiving the following
amounts of dry matter, proteids, carbohydrates, and
fats:

Dry ; Carbo-~ Ether
matter. Protein. hydrates. extract.
Corn stover,15 lb. 8.92 0.25 4.86 ie OS

Corn (whole or
crushed)20lb..| 17.82 1c HS) 13.34 0 86
otal ane 26.74 1.88 18.20 0.965
Required by
Standard =2.1> 30200 0) 15.00 0.50

BALANCED RATIONS 201

The figures in the last line show the amounts that
German investigators have found to be necessary for a
1000-lb. steer in the first period of fattening. By
comparing these figures with those in the line above,
which represent the amounts that the animal is actually
getting, it will be seen that he is getting too much car-
bohydrates and fat and not enough dry matter and
protein.

In order to balance up the ration it will be necessary
to substitute some foods that contain less carbohydrates
and more protein. By substituting 15 pounds of clover
hay for the corn stover, and cutting the corn ration
down to 13 pounds, the ration will be composed as fol-
lows:

eae Protein. eee, a
Clover hay, 15lb.} 12.705 ie O2 Deon 0.25
meer IS ib.....| 11.583 02 8.67 0.55

MOA iw C5 - 24.288 2.04 14.04 0.80

It is seen that this ration is lacking in dry matter,
protein, and carbohydrates, and has too much fat. By
adding two pounds of linseed oil meal (old process) we
have the ration as follows:

Dry Carbo- Ether

matter. Protein. hydrates. extract.
Slower hay, 15 1b.) 12.705) 1.02 5a Oe2s
Worms lb......| -11.583 1.02 8.67 0.55
Oilmeal, 2 lb..... 1.816 08 0.65 0.14
sone... 26.10 2.62 14.69 0.94

Although this ration is still somewhat deficient in
dry matter and has an excessive amount of fat, the pro-
tein and carbohydrates are present In amounts approx-
imately as called for by the standard. Little attention
is paid to the fat in a ration for fattening animals, as
there is ordinarily more than is required, the essential
point being to get the protein and carbohydrates in the

202 BEEF PRODUCTION

right proportion. While the ration, as in this case, may
possess sufficient digestible nutrients in proper propor-
tion it may still need revision on account of a lack of
palatability, or the proportion of roughage to concen-
trates may be too large. For the more advanced stages
of fattening, this ration should be revised, so that less
roughage and more concentrates are used.

‘The “Nutritive Ratio” of a food-stuff or a ration is
the relation that exists between the quantity of digestible
protein and the quantity of digestible carbohydrates and
fat which it contains. Thus, if 100 pounds of brewer’s
erains contain 15 pounds of digestible protein and 45
pounds of digestible carbohydrates and fat, the nutri-
tive ratio is expressed thus:

Protein is to Carbohydrates and Fat as 15 is to 45,
or, Protein is to Carbohydrates and Fat as 1 is to 3.

Or, written mathematically, Protein: Carbohydrates
Sy ayG wees ly eos

To find the nutritive ratio, then, of a feeding-stuff —
that is, to find how many pounds or what fraction of a
pound of digestible carbohydrates and fat it contains
for each pound of digestible protein — we divide its
digestible carbohydrates and fat content by its diges-
tible protein content. The medium ratios le between
1 part protein to 5% parts carbohydrates and fat
(1 :5.5) and 1 part protein to 8 parts carbohydrates
and fat (1 : 8.0). If the carbohydrates largely predom-
inate, the ratio is said to be wide; if the proportion of
protein is above the medium, the ratio is said to be nar-
row. Thus, timothy hay, with a nutritive ratio of
1 : 16.6, makes a wide ration; vetch hay (1:3.2) a nar-
row one.

Narrow Nutritive Ratio—The following common and
commercial food-stuffs are relatively high in digestible
protein and low in digestible carbohydrates:

Concentrates.—Wheat bran, linseed oil meal, wheat

1 By the author, in “ Practical Farming and Gardening.” Rand,
MeNally & Co., Chicago.

BALANCED RATIONS 203

middiings, cottonseed meal, gluten meal, pea meal,
cow-peas, and soy beans.

Roughage.—Clover, alfalfa, cow-pea, and vetch hay.

Wide Nutritive Ratio —The following food-stuffs are
relatively high in digestible carbohydrates and low in
digestible protein:

Concentrates.—Rye, corn, cornmeal, and corn and
cob meal.

Roughage.—Timothy, oat, red-top, millet, and Hun-
garian grass hays, and corn stover.

INDEX

Actinomycosis.

Alfalfa hay compared with other roughages
Animal and vegetable matter, composition of
Ash in food-stuffs
Baby beef, considerations in producing

Baby beef, demand for ; ; cee 76,

Balanced rations

Balanced ration, how to compute

Beef cattle bred on the range

Beef cattle bred by farmers

Beef and pork produced from a bushel of corn

Beef, breeding for.

Beef production, dual purpose cattle for

Beef breeding, cows and heifers for.

Beef breeding, selection of individuals for

Beef breeding, selection of a breed for

Beef breeding cows, selection of

Beef breeding bulls, selection and use of .

Beef breeding bulls, points of excellence in good specimens of

Blackleg; cause, symptoms, and treatment ;

Breeding for beef

Breeding herd, care and management of .

Breeding herd, culling of

Breeding cows, summer feeding of

Breeding cows, winter feeding of

Breeding cows, shelter for

Breeding cows, winter feeding of, proper feeds for

Breeding cows, winter feeding of, corn silage for

Breeding cows, winter feeding of, corn stover, straw, and
clover hay for. %.

Bulls, selection and use of for beef breeding

Bulls, points of excellence in good eee for beef breed-
ing :

Bulls, management of

Buying feeding cattle; how, when, and where

Buying feeding cattle, considerations in .

Calves, when to have dropped

Calves, autumn

Calves, spring .

Calves, uniformity of age in

Calves, when to castrate

Calves, cost of rearing on dam

Calves, skim milk, how to raise .

Carbohydrates in food-stuffs .

Carbon in food-stuffs

206 INDEX

Care and management of the herd

Castration, time for .

Cattle feeding, equipment for.

Cattle feeding by farmers, conditions influencing

Cattle feeding, labor involved in.

Cattle feeding, profits in depend on cost of feeds

Cattle feeding, relation of to soil fertility

Chaffing ey and mingling with grain, value of for short-fed
cattle .

Chaffing hay and mingling with grain, value of

Chemistry of stock feeding

Christmas beef, considerations in feeding

Christmas beef, grade of cattle requicdn to produce

Christmas beef, market for

Christmas beef, time to market

Clover hay and corn, gains made on

Clover hay compared wtih other roughages

Clover hay for wintering beef breeding cows

Commercial feeds, feeding of ;

Commission and yardage

Common cattle, demand for .

Composition of ‘animal and vegetable matter

Composition of food-stuffs.

Compounding rations

Computing balanced rations .

Computing the nutritive ratio

Conditions influencing farmers to feed cattle

Condition powder, a .

Corn and clover hay, gains made on

Corn, beef and pork produced per bushel ‘of.

Corn for fattening cattle

Corn for fattening cattle; whole vs. "ground é

Corn for fattening cattle; methods of preparation

Corn stover for wintering beef breeding cattle

Corn stover, methods of handling

Corn stover, value of for beef production

Cost price of various grades of feeding cattle in 1 relation to
profits . ;

Cottonseed meal, feeding of

Cottonseed meal for summer fattening

Cottonseed meal, hogs following steers fed .

Cows and heifers for beef breeding .

Dehorning stockers and feeders .

Digestible nutrients in American feeding stuffs

Digestion and growth ;

Digestion, conditions affecting

Digestion, processes in

Dry matter in food-stuffs

Dual purpose cow for beef production

Dual purpose cow, points for consideration in

Elements concerned in plant growth

INDEX

Equipment for cattle feeding

Ether extract in food-stuffs

Export cattle, demand for

Fat in food-stuffs

Fattening cattle, silage for

Fattening cattle, shock corn for

Fattening cattle, salting of

Fattening cattle on grass

Fattening cattle, when ready for market

Fattening cattle, sheds, shelter and feed lots for .

Feed-bunks, construction of

Feeding period, length of .

Feeding cattle, buying of

Feeding cattle, advantage in large numbers

Feeding cattle, how, when and where to buy

Feeding cattle, description of various grades of

Feeding cattle, care of on feed

Feeding cattle, grooming

Feeding cattle, number of times per day to feed :

Feeding cattle, relation of cost of various grades of to profits
in cattle feeding

Feeding cattle, importance of buying right : 15,

Feeding cattle, relation of initial weights of to profits. on the
finished beef ;

Feeding cattle for the home market

Feeding stuffs, average digestible nutrients in

Feeding standards for beef cattle

Feeders, fancy select.

Feeders, choice

Feeders, good .

Feeders, medium

Feeders, common

Feeders, inferior .

Feed lots, advantages in paving

Feed lots, how to pave

Feeds, relation of cost of to profits i in cattle feeding

Feeds, cost of determines number of cattle to be fed

Fertilizing constituents stored up in grain

Fertilizing constituents carried away by selling grain

Fertilizing constituents saved by stock feeding

Finishing cattle, aim in ; ;

Fitting steers for exhibition

Food-stuffs, composition of

Food-stuffs, water and dry matter i in .

Food-stuffs, ash and organic matter in ;

Food-stuffs, protein, fat and carbohydrates in

Food-stuffs, carbon, Bygone and payeen in

Freight charges

Full feed, getting cattle on

Full feed, value of nitrogenous concentrates in 1 getting cattle
Gis) «. ; ;

208 INDEX

Getting cattle on full feed 49
Grass for fattening cattle 107
Grass, management of cattle on 108
Grass, how to turn cattle on 109
Heifers, age to breed 167
Hogs following fattening cattle . 111
Hogs following fattening cattle, number of touse . 112
Hogs following fattening cattle, gains made by. 38, sue, 114
Hogs following cattle fed on cottonseed meal 65
Home market, feeding cattle for — 102
How to compute balanced rations . 200
‘Hydrogen in food-stuffs 190
Labor a factor in cattle feeding 33
Labor compensated for by manure produced 9, 33
Labor varies with conditions 34
Labor, cost of per steer 3 35
Labor, methods of economy of 35
Length of feeding period 100
Lice, eradication of : 132
Linseed cake or meal for fattening cattle 58
Lump-jaw; cause, Symptoms and treatment 133
Manure, value of 1
Manure, compensation for labor in cattle feeding 9, 33
Manure produced by a 1000-lb steer 10
Manure composition of a ton of from open barnyard. 10
Manure tests at Ohio Station ; 11
Manure, sources of fertility of 12
Manure, balancing of farmyard 12
Manure, value of an important factor in cattle feeding — 13
Mange; cause and treatment 130
Medium ratio : 202
Molasses for fattening cattle 66
Narrow ratio 202
Nitrogenous concentrates; amount to feed 64
Nitrogenous concentrates; at what stage of fattening tofeed 65
Nitrogenous concentrates fed with timothy hay, corn stover

and straw 61
Nitrogenous concentrates, value of in getting steersonfullfeed 51
Number of feeds per day . 93
Number of feeding cate to be fed together 94
Nutritive ratio : 202
Nutritive ratio, how to compute 202
Oats, place of in ration for fattening cattle . 66
Oil meal for fattening cattle : 58
Organic matter in food-stuffs 189
Oxygen in food-stuffs 190
Pastures in rotation 104
Pastures, management of 106
Pastures, permanent 104
Paved feed lots, advantages of 145
Paved feed lots, how to pave 147

INDEX

Phosphorus carried away in bones of animals :
Phosphorus, necessity of addition of to farmyard manure
Plant growth, elements concerned in . ;

Pork produced per steer

Prime cattle, demand for .

Principles of stock feeding, advantage i in a knowledge of
Profit in cattle feeding, relation of cost of feeds to

Profits in cattle feeding, relation of initial weight of cattle to
Profits in cattle feeding, relation of cost of various grades of

feeding cattle to
Protein in food-stuffs
Range bred cattle ,
Rations, compounding of
Rations, balanced
Ratio, nutritive, how to compute
Ratio, medium. :
Ratio, narrow
Ratio, wide
Ringworm
Roughage for feeding cattle; ‘comparison ‘of different kinds
Roughage for wintering cattle :
Roughing steers, art of
Salting fattening cattle
Self-feeder, advantages of
Self-feeder, bill of material necessary for
Self-feeder, how to make
Self- feeder, opinions of feeders concerning
Sheds, shelter and feed lots for ee cattle .
Shipping cattle :
Shrinkage in shipment .
Short-fed cattle
Short feed, possibilities of
Short feed, selection of cattle for
Short feed, value of chaffed hay mingled with erain in the
Silage for fattening cattle : :
Silage for wintering beef breeding cattle .
Skim milk calves , :
Skim milk calves, how to raise ’
Soil fertility, relation of cattle feeding to.
Stockers and feeders, wintering

Stock feeding, advantage of a knowledge of the principles o of .

Stock feeding, chemistry of

Straw for feeding beef cattle

Summer feeding of breeding cows

Texas fever, cause of

Texas fever; remedies and preventive measures
Water in food-stuffs . ; :
Wide ratio

Winter feeding of beef breeding COWS .
Wintering stockers and feeders

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