GIFT OF

DANIEL B. TRACY

CL 1911

UNIVERSITY FARM

I

SOILING
CROPS

AND

THE SILO

How to Cultivate and Harvest the
Crops ; How to Build and Fill the
Silo ; and How to Use Silage

By..

THOMAS SHAW

Professor of Animal Husbandry at the University of Minnesota

Author of

* Public School Agriculture" "Weeds and How to Eradicate Them*
"The Study of Breeds" "Forage Crops Other Than Grasses*0

ILLUSTRATED

New York

ORANGE JUDD COMPANY

UNIVERSITY OF CALIFORNIA

Copyright 1900
by

ORANGE JVDD COMPAJHT

PRINTED IN U. S. A.

TO

THE DAIRYMEN AND FARMERS

OF
THE UNITED STATES

THIS WORK IS
MOST RESPECTFULLY DEDICATED

BY
THE AUTHOR

33/rs"

ACKNOWLEDGEMENTS

The author desires thankfully to acknowledge
the outside sources from which aid was obtained in
the preparation of the book. These include sundry
bulletins issued by certain of the agricultural experi-
ment stations in the United States, also the helpful
work, "A Book on Silage," written by Prof. F. W.
Woll of the University of Wisconsin. The sketches
were nearly all prepared by Mr. Charles P. Taylor of
the University of Minnesota.

TABLE OF CONTENTS

PART ONE

CHAPTER L PAGE.
Soiling Crops 3

CHAPTER II.
Indian Corn or Maize ----••*.*. 19

CHAPTER III.
Sorghum .«•••-•.»*•• 34

CHAPTER IV.
The Non-Saccharine Sorghums --.-••- 51

CHAPTER V.
Plants of the Clover Family -----.•• 68

CHAPTER VI.
Leguminous Plants Other Than Clover ..... 102

CHAPTER VII.
Plants of the Brassica Genus ------•• 139

CHAPTER VIII.
The Common Cereals 168

CHAPTER IX.
Millets --183

CHAPTER X.
Field Roots ............ 195

vii

Viii TABLE OF CONTENTS.

CHAPTER XI.
Miscellaneous Plants -•-••••••• 205

CHAPTER XII.
Succession in Soiling Crops ..-•••••333

PART TWO

CHAPTER I. PAGE.

The History of Siloing ---•••»•- 245

CHAPTER II. 1

The Benefits from Siloing Crops -•••»•- 258

CHAPTER III.
Facts Relating to Silo Construction -•••*•• 269

CHAPTER IV.
Building the Silo 292

CHAPTER V.
Crops Suitable for the Silo -..•••••322

CHAPTER VI.
Filling the Silo -••336

CHAPTER VIL
Feeding Silage •••••••••••350

House

^^

LIST OF ILLUSTRATIONS

FIG. PAGE.

1 The Model Shepherd— Frontispiece.

2 Squaw Corn for Fodder -------- 20

3 Giant Fodder Corn for Soiling ------ 27

4 Early Amber Sorghum --------35

5 Sorghum Grown for Soiling, First Cutting - - 43

6 Red Kafir Corn S3

7 Yellow Milo Maize -------- 55

8 Brown Dhoura - ---------57

9 Jerusalem Corn ---------- 59

10 Alfalfa, Single Plant 87

11 Alfalfa, Grown for Soiling ------ 99

12 The Mummy Field Pea --------103

13 Vetches and Oats for Soiling— Second Cutting - - 115

14 Sheep Pasturing on Soy Beans ------ 120

15 Soy Beans for Soiling -..-.-- 127

16 Sheep Pasturing on Cowpeas ------ 130

17 Cowpeas Grown for Soiling ------ 137

18 A Dwarf Essex Rape Plant ------- 141

19 Dwarf Essex Rape for Soiling ------ 151

20 Cabbage for Soiling --------- 156

21 Oats and Wheat for Spiling or Fodder - - - - 169

22 Oats and Peas for Soiling ------- 178

23 Oats First Pastured, Then Grown for Soiling - - 180

24 German Millet for Soiling ------- 184

25 Hungarian Millet for Soiling ------ 186

26 Sand Vetch -----..---- 219

27 Jerusalem Artichokes -----•-• 227

28 Sunflowers ----......- 229

29 Sheep Barn with Round Silo ------ 294

30 Section of Stave Silo -------- 296

31 Splice of Stave with Iron Tongue - 303

32 Lugs for Hoops ---------- 304

33 Door of Stave Silo --------- 306

34 Sketch Showing Stave Silo with Shute, Ladder and

Hand Cart 307

35 Sketch Showing Stave Silo with Roof and Lugs Prop-

erly Distributed ------••• 309

36 Section of Wall of Rectangular Silo • 310

37 Elephant Fodder Corn -

38 Sorghum for Silage ---•••»•

ix

AUTHOR'S PREFACE

This book is one of a series on agriculture
which the author hopes to be spared to complete. It
is designed more especially to meet the needs of
dairymen when providing green food for their stock,
summer and winter, but it is also intended to be
similarly helpful to all farmers who keep domestic
animals on the arable farm, and it is hoped that the
student also at the agricultural college may be able to
glean from its pages what will be helpful to him
when prosecuting his investigations. Excellent
information on the subject of soiling and also on that
of the silo has been furnished by various authors,
but in a form more or less fragmentary, irregular
and incomplete. It has been the aim of the author
in the present work to cover these subjects with at
least a measurable degree of completeness and
system.

In writing a series of books on agriculture, it Is
not easy to avoid some repetition. In fact, it is
practically impossible to do so. For example, when
one book treats of forage crops other than grasses
and is followed by a second on soiling crops and the
silo, as in the present instance, it will be found that
many of the crops grown for these respective uses
are the same. They are grown on the same kinds of
soils, and the methods of growing them are similar •

xi

xii AUTHOR'S PREFACE.

If each treatise is to be complete in itself, the
methods of growing these respective crops must be
given in both, and this necessitates some repetition.
It has been, and will be, the constant aim of the
author, however, to avoid such repetition to the
greatest possible extent. By combining two or more
separate treatises in one, repetition could be almost
entirely avoided, but the purchaser would then have
to pay for matter in which he might not be interested
in order to obtain that which was of special interest
to him. Of the two plans, the author believes that
he has chosen that which will be more advantageous
to the general public.

University Experiment Farm,

St. Anthony Park, Minn., igoo.

PART ONE

SOILING CROPS

CHAPTER I.

SOILING CROPS.

Soiling crops are those which are sown from
time to time to furnish food for domestic animals,
and which are to be harvested while yet immature
and fed to them in the pasture, the paddock, the feed
lot or the stall. Corn cut and thus fed to animals at
any stage prior to maturity furnishes an illustration
of a soiling food. A soiling food is, therefore,
another name for a green food. It is not necessary
that it shall be fed as soon as harvested, but it is
necessary that it shall be fed in the green form. Corn
preserved in the silo is essentially a soiling food,
inasmuch as it is cut when immature and in that con-
dition is fed to live stock, though it may not be fed
for months after it has been cut, as for instance,
when it has been preserved in the silo, hence the
propriety of combining the subject of soiling crops
and the silo in this treatise.

Soiling crops differ from forage crops in that
the former are harvested and then carried to the
animals which consume them, whereas live stock
gather the latter for themselves; and soiling differ
from fodder crops in their being cut and fed green,
whereas fodder crops are frequently harvested when
mature or approaching maturity and are always
fed to animals in the cured form. People

are disposed to follow rigidly the teachings

4 SOILING CROPS AND THE SILO.

of the: Dictionaries will probably tafe some
exception to these definitions, but the time has
certainly come when more precision must be given
to at least some of the definitions in agriculture, to
prevent confusion of ideas. For instance, the defini-
tion of forage crops given in our best authorities
would make these include soiling crops also. Such
a definition is at variance with common usage, and
surely the popular idea when consistent and legiti-
mate is of higher authority even than that of the
recognized standards.

Adaptation in 'Soiling Crops. — The growing of
soiling crops is chiefly adapted to an intensive
cultivation. It may be better associated with the
tillage of small rather than of large farms and is
better adapted to localities where the population is
crowded and markets are near, as, for instance, in
the neighborhood of large cities. It was to be
expected therefore that the growing of soiling foods
would first receive attention in the east, and so it did.
But the day is coming, and is near, when in one or the
other of its forms it will be most extensively carried
on also in the west, and more especially in those
sections in which dairying prevails.

Soiling is, of course, only necessary on farms
on which live stock are kept more or less numerously.
And even on these it may not be much needed when
pastures are plentiful and succulent during the
greater part of the grazing season. It is more needed
in dry than in moist climates, on poor than on rich
lands, and where milk is sought rather than beef.

Partial and Complete Soiling. — Partial soiling
raeans supplementing the pastures with green food

SOILING CROPS. 5

for a part of the season, as occasion may require.
Such food may be given once a day or oftener,
according to the needs of the animals. The chief
object sought in partial soiling is to keep domestic
animals abundantly supplied with palatable and
nutritious food, when the food from the pastures is
inadequate. And where milk production is involved
it aims to furnish succulent food after the grass pas-
tures have lost much of their succulence, even though
they should still be abundant. Partial soiling is best
adapted to a system of cultivation that is intermediate
between the extensive and intensive systems ; that is
to say, to a system that meets the needs of the average
arable farm. In all countries with summer climates
deficient in moisture it is an essential appendage and
material help to dairying. In no other way can the
dairyman keep up a maximum milk flow at so small
an outlay.

Complete soiling has reference to that system
by which domestic animals are sustained on food fed
to them in the stall, the feed lot, or the paddock dur-
ing all the year. It does not imply that all the food
so fed shall be given to the animals in the green form,
but that green food will usually form a considerable
portion, if not, indeed, the greater part, of the ration.
Complete soiling is adapted to an intensive system
of cultivation ; that is to say, where cultivable lands
are scarce and dear, and from which it is necessary
to obtain a maximum yield while they are being
tilled. Its general adoption in this country where
land is so plentiful, and in which it is relatively so
cheap, is probably remote rather than near, notwith-
standing that it has been practiced in some sections

6 SOILING CROPS AND THE SILO.

of the thickly populated countries of western Europe
for many years.

Benefits from Growing 'Soiling Crops. — The
following are the more important benefits from
growing soiling crops : i, Food supplies are increased
in a marked degree; 2, in various ways the waste
in feeding is lessened; 3, animals are sustained in
better form than where soiling is not practiced; 4,
injury to the land through poaching is prevented ; 5,
a salutary influence is exercised on weed eradication ;
6, a saving in land is effected ; 7, a saving in fertility
is effected ; 8, a saving is also effected in the item of
fencing; 9, animal production is greatly increased;
and, 10, the cost of keeping the family cow is
lessened.

Increase in Food Supplies. — Soiling enables the
farmer to grow more food than he could by any
other system,, Usually the growth of plants is hin-
dered in proportion to the extent to which the plants
are pastured down while yet immature. And crops
that are pastured are further injured by the tramping
of the animals that feed upon them. They are injured
directly by the bruising which they receive from the
hoofs of the animals which feed upon them, and
indirectly by the impaction of the land from pastur-
ing it when not dry enough. These facts are simply
mentioned without taking space to give the reasons.
And since soiling crops are usually cut a little short
of maturity it is more practicable to grow two crops
from the same land, where soiling is practiced, than
where it is not.

The relative increase in food production where
soiling is practiced as compared with pasturage can

SOILING CROPS. 7

not of course be stated otherwise than in the most
approximate manner. It will vary greatly with such
conditions as soil and season. But it will not be
extravagant to say that when animals are soiled all
the year in the one instance, and when they are pas-
tured during the season of pasturage, and are then
wintered on food grown on other land in the other
instance, a given area will sustain at least twice the
number of animals through the year by the former
system than it will by the latter.

Less Waste in Feeding. — When crops are fed
under the soiling system there is less waste than when
pastured or fed in the matured form. This saving
is effected, first, in the absence of injury through
treading as compared with pasture crops ; second, in
the absence of loss in harvesting as compared with
matured crops ; and, third, in the more complete con-
sumption of the food. The injury to pasture crops
through treading has already been referred to.

Soiling crops when judiciously managed are
seldom so injured by the weather as to be rendered
unfit for food. Fodder crops when matured are fre-
quently damaged by rain when being cured. When
thus damaged they lose in palatability, in nutrition,
and also through mold induced by storing when not
yet fully cured.

The more complete consumption of food fed in
the green form as compared with food fed when ripe,
arises chiefly from the greater palatability of the
former. The fodder portion of plants, that is to
say, the stems and leaves, is always better relished by
animals when fed before they are fully matured. For
instance, feed rye to cattle when it has not yet reached

8 SOILING CROPS AND THE SILO.

the earing stage, and it will be eaten with avidity.
Feed it when fully out in head and it will be eaten
indifferently. Feed it when ripe and little else than
the heads will be eaten. Feed the straw after the grain
has been threshed, and it will be consumed by the
animals only when impelled by hunger. Chemists
tell us that fodder plants contain all the food ele-
ments that they will possess at the time the ripening
process begins, that is to say, by the time they have
reached that stage when the stalk begins to assume
a yellow tinge at the ground. They should be fed,
therefore, as soiling food before they pass this stage,
for as soon as they get beyond it there is loss in
palatability. And there is loss in digestibility as the
ripening stage is neared, that is to say, the propor-
tion of the indigestible woody fiber is increased.

On the other hand, when plants are cut when
considerably short of maturity, there is loss from
want of sufficient development. Theoretically, the
most food will be got from plants when they are cut
as soiling food a little short of maturity. In prac-
tice, however, this is impossible, as it would too much
curtail the length of the period for feeding each crop.
But with crops that grow again and again, as with
alfalfa, for instance, there is no loss probably in cut-
ting them as soon as they have made sufficient
growth to justify the expenditure of the labor
involved.

Sustains Animals in Better Form. — By the aid
of soiling food domestic animals can be maintained
in better form than without it. With such aid they
can be maintained in a more even condition, the ani-
mal energy can be more perfectly conserved, and the

SOILING CROPS. P

succulence of the foods usually exercises a whole-
some influence on the health of the stock.

In the absence of soiling foods it is hardly pos-
sible for the farmer to keep his animals through all
the year in what may be termed a well balanced con-
dition. When he depends wholly on pastures during
the summer season these may fail. When they do
his animals suffer proportionately. On the other
hand, if the pastures are superabundant there is
waste. When pastures lose their succulence, the
milk flow from milk-giving animals is proportion-
ately reduced, and no after feeding will wholly
restore it, howsoever suitable it may be. As the
character of the season cannot be foreseen, farmers
are wise who make provision for a possible shortage
in pasture by sowing more or less of one or more
crops to provide soiling food. If the best possible
returns are to be obtained from animals, they
must be well supplied with food every day in the
year. When animals are fed in whole or in part
on soiling foods, they may frequently be kept
nearer at hand than when not so fed, hence
their needs can be more easily met. When
the days are hot they may be more easily
housed. In the time of flies they may be more easily
protected from the same by keeping them in cool,
darkened sheds or stables during the heat of the day.
In hot weather they can be left out in paddocks over
night, and in cold weather they can be housed. Such
attentions have a marked influence in maintaining
an equilibrium of condition.

The use of soiling foods conserves animal energy
by lessening that waste which arises from undue

I
IO SOILING CROPS AND THE SILO.

exertion on the part of animals when gathering their
food. When the dairy cow has to travel far when
seeking food in the pastures, she does so at the
expense of food required to sustain the prolonged
exertion. And when food is thus used to sustain
energy it is very evident that it cannot be used to
make milk. Likewise, when growing cattle have to
travel beytfnd a certain limit in order to get supplies
for the day, they do so at the expense of flesh. And
the same is true of the horse, the sheep and the pig.
Live stock should, of course, be given sufficient exer-
cise to keep them healthy and to give them proper
stamina. Beyond this, exercise means waste of food,
and this waste can be prevented by growing a suffi-
ciency of soiling foods.

Soiling foods, judiciously fed, tend to keep the
animal system in proper tone, hence thus far they
exert a favorable influence on the health of live stock
to which they are fed. In the absence of those foods
it is difficult, if not impossible, to keep the system in
the best of tone during certain periods of the year.
Where soiling foods are not grown there can be no
assurance of succulence in the pastures beyond the
early summer months. Pastures will not sustain an
undiminished milk flow in cows, even when consid-
erably short of the yellow leaf stage. When dry
and crisp they are a less valuable food than well cured
hay, notwithstanding that the food may be abundant.
On such pastures swine will soon lose flesh unless
the pastures are supplemented with other food. By
growing succulent foods in due succession and in
adequate sufficiency they may be made available for
live stock in one form or the other during a large

SOILING CROPS. II

part of the year, if not, indeed, through the whole
year ; hence the beneficial influence which they exert
on the health of the animals may be made continually
operative. But there are other senses in which the
soiling system may become prejudicial to the health
of the animals. These are discussed on Page 18.

Injury Through Poaching. — When the soiling
system is practiced, lands are not injured by poach-
ing, that is, by the treading of the animals when the
hoofs sink below the surface of the land. On all
soils poaching is to some extent harmful, and on clays
it is quite harmful, since impaction follows on the
return of dry weather to the very great injury to the
growth of the grasses. As no person can control
the weather, the farmer who is dependent on pastures
only to provide food for his live stock in the season
of growth must needs allow them to feed upon the
pastures betimes when they will injure them by
treading; and it may be added that close grazing in
very dry weather may seriously injure pastures.
Particularly is this true of pastures in some parts of
the dry west. The farmer without soiling food may
be powerless to prevent such a result.

Influence on Weed Eradication. — The soiling
system may be made to render material aid in eradi-
cating weeds. This arises, first, from the thickness
with which the food may be grown; second, from
the season at which much of it may be sown; and,
third, from the immature period at which it is reaped.

Soiling food may be sown more thickly rela-
tively than if the same plant or plants were sown to
produce a matured crop of seeds. Such sowing
secures more of fineness in the food, and in

12 SOILING CROPS AND THE SILO.

consequence more of palatability. The food thus
grown crowds weeds because of its thickness, and
also hinders their development because of the density
of the shade.

Soiling food may be sown at different seasons
because of the difference in the habits of the plants
thus grown. Several varieties may be sown late.
When these varieties are thus sown, ample time is
given to sprout and in turn to destroy myriads of
weed seeds that may be in the upper section of the
tillable soil. In fact, where such cultivation is what
it ought to be, the ground will be comparatively clean
before the crop is grown or planted.

As soiling foods are cut while yet immature, the
weeds which grow in them have not the same chance
to mature as though the crop had been allowed to
stand until fully ripe. Notably is this true of soil-
ing crops that are sown reasonably early. And when
these are removed early in the season, another soil-
ing crop, or a catch crop of some kind may be made
to follow the first one. This second crop will also
be helpful to the cleaning of the land.

Saving in Land. — Growing soiling foods effects
a great saving in land, as it enables the grower to
raise much more food from a given area. The sav-
ing thus effected is greater relatively in the west and
south than in the east and north. This arises from
the greater relative adaptability of the east and north
to the growing of grass pastures, and from the
greater relative adaptability of the west and south
to the growing of soiling foods. The extent of the
saving will vary with the conditions. But it would
not be extravagant to say that ordinarily where

SOILING CROPS. 13

three acres of grass are required to keep a milch cow
in good form for six months, it would be possible
to grow enough soiling food to keep the same cow
all the year. In some sections of the prairie in the
far west, where cultivated grasses have not been
grown with marked success, the difference would be
even greater. In instances, not a few, it has been
found possible to grow ample supplies of food on one
acre by the soiling system to feed a cow all year.
As the population becomes more dense, and as popu-
lous cities multiply, the saving in land effected by
soiling in either of its forms will increase in impor-
tance, and more in the neighborhood of large cities
than elsewhere.

Saving in Fences. — Growing soiling foods les-
sens the necessity for building fences on farms on
which live stock are kept. A marked saving is thus
effected in labor and money, the extent of the saving
being proportional to the number of animals kept,
to the cost of labor and materials for fencing. Unless,
where the materials for fencing are very cheap, it is
a costly affair, both to build and to maintain fences.
It is seldom that any kind of fence, strong enough
to secure cattle, can be built for less than twenty-five
to fifty cents per rod, when labor and material are
included, and in some instances the outlay would be
much greater. This outlay, or much of it, must
needs be repeated at least every other decade, to say
nothing of the sums paid out from time to time in
repairs. There is also the further objection that on
the strip of land on which the fence stands, weeds
are much prone to grow, unless considerable hand
labor is expended in keeping them down.

14 SOILING CROPS AND THE SILO.

On the other hand, we must not assume that the
soiling system will entirely obviate the necessity for
fences. Theoretically, where complete soiling is
carried on no fencing would be required other than
that used in enclosing the yards and paddocks in
which the animals are to be exercised, or in
which they are to be kept over night in warm
weather. But this idea must not be pressed too far,
for where sufficient stamina in live stock are to be
maintained, animals must have exercise beyond what
they will voluntarily take in small paddocks.

'Saving in Fertility. — The soiling system effects
a great saving in fertility, since it enables the farmer
to make more and better manure than can be obtained
from live stock kept on the pasturing system, and
less of what is thus made is wasted. More manure
is made, first, because the animals are at all times on
full feed, whereas on pasture they are frequently on
short supplies, and, second, because by the soiling
system a greater number of animals can be sustained
on a given area. The manure made is likely to be
more valuable, since along with soiling food greater
quantities of meal, rich in the elements of plant
growth, are usually fed. And there is less waste in
the manure made if properly saved, since its value is
not then impaired by insects and other adverse influ-
ences, as it is when dropped in the field. In many
instances the soiling system will enable the farmer
to more than double the value of the manurial prod-
uct made, as it enables him to more than double the
supplies of food grown.

Increase in 'Animal Production. — Such a system
cannot fail to increase animal production. The

SOILING CROPS. 15

extent of this increase will be in proportion to its
completeness. If it increases the food products 100
per cent, it will also increase the milk or meat pro-
duction more than 100 per cent, since the animals
maintained will be increased proportionately. They
will also be maintained on foods at all times ample
in quantity and of correct adaptation. These influ-
ences will tend to a further increase of production.
The greater outlay involved, however, in securing
this added increase should never be lost sight of.

Sustaining the Family Cow. — In villages, in
suburbs of towns and cities, quite a number of the
inhabitants keep cows. To such people the cow is
a source of untold blessing, because of the utility of
the product which she gives. Oftentimes those peo-
ple are unable to secure adequate pastures. This
difficulty may easily be overcome when the owner of
a cow possesses a small piece of land. He can then
supplement the pastures by growing soiling foods,
and with great advantage to both cow and land.
Where but one cow is kept, a small area will suffice
to supply her needs.

Some Objections to the Soiling System. — To
the soiling system there are some objections. Chief
arnpng these are the following: i, It involves
increased outlay for labor ; 2, it requires more con-
stant attention on the part of the attendants ; 3, it is
not always easy to adjust the food supplies to the
needs of the animals, and, 4, it may, in some instances,
tend to impair the stamina of live stock.

Increased Outlay for Labor. — The soiling sys-
tem cannot be adopted in either of its forms without
a considerable increase in the labor of those who care

16 SOILING CROPS AND THE SILO.

for the live stock so fed. Even in the partial form,
increase in labor is considerable. In the complete
form, it is much greater; and of course increase in
labor involves a corresponding increase in outlay.
The increase in labor arises, first, from the necessity
for cutting the food daily, or at intervals of not more
than two or three days; second, from the necessity
for handling and conveying it to the animals in the
green form; third, from the necessity for feeding
and otherwise caring for the animals from day to
day in the pasture, paddock, shed or stall ; fourth, in
caring for the yards or paddocks and in handling
the manure. From the sum of this labor, however,
in making the comparison, there should be deducted
the less amount of the labor necessary in providing
fencing. Notwithstanding, the extra labor involved,
and the increased expenditure resulting therefrom,
is the one great standing hindrance in the way of the
more general adoption of the system of complete
soiling by the farmers of this country. Nor is the
adoption of complete soiling likely to become general
until farm labor becomes cheaper and until land
becomes scarcer and dearer. But beyond all ques-
tion, in the opinion of the writer, the day is not very
far distant when complete soiling will be practiced
by a considerable number of the farmers in every
state of the Union.

Partial soiling does not involve nearly so much
labor as complete soiling, hence it is practiced by a
greater number of farmers. Dairymen, especially,
cannot well get along without it. The necessity for
thus growing and feeding food to supplement the
pastures increases with the dryness of the climate. So

SOILING CROPS. I/

essential is it to the highest success in raising an'd
properly maintaining farm stock that it must even-
tually be practiced by all or nearly all farmers \vho
do not follow the system of complete soiling.

Tax on Attendants. — Where complete soiling
is carried on, the care of the animals must be con-
tinuous throughout the season. Every day thereof
brings its round of duties, and they cannot be neg-
lected except at the expense of the live stock. Food
must be secured for the animals with unfailing regu-
larity, it must be fed to them every day, and usually
two or three times a day. To the average farm
laborer this work savors so much of the treadmill
order that it is distasteful. He looks upon it in the
light of a yoke which he does not care to take upon
himself. Hence, until those better days come when
such labor will be looked upon through a proper lens,
for it has its compensations, the adoption of the
soiling system in either form will be relatively slow.

Adjusting Food Supplies. — Complete soiling
calls for the exercise of much thought in securing
food supplies and in adjusting them to the needs of
the animals. There must needs be succession in
foods to keep up a constant supply. No one food is
at its best for soiling uses for many weeks in succes-
sion. There must also be variety in the foods thus
grown in succession. This is essential to the well-
being of the animals to which the foods are fed. It is
further rendered imperative by the different periods
of the year when various plants grow and mature
sufficiently for being fed at their best. A supply
of these foods must always be on hand through
sunshine and storm. In some instances, however,
3

l8 SOILING CROPS AND THE SILO.

showers fall frequently and for days in succession,
so that it may not be easy to secure food supplies
unless when soaked with rain; and it may be also
more or less soiled with earth. To properly adjust
these matters in the face of varying seasons is no
easy task. It cannot be done without the exercise
of much forethought.

Impaired Stamina in the Stock. — While, as has
been shown, the soiling system tends to promote
good health in live stock, it may easily be so con-
ducted as to ultimately injure stamina in the animals
subjected to its conditions. Up to a certain limit,
utility in live stock is improved through artificial
conditions. Beyond this limit, stamina are weak-
ened. Where the border line runs between the most
approved conditions of environment and conditions
that lead to deterioration, is not always easily deter-
mined. Unnecessary exertion on the part of animals
when getting this food lessens production. Insuffi-
cient exertion lessens stamina. Under the complete
soiling system the individual must guard against
undue confinement of the animals, or their natural
vigor will wane. All history and experience point
to increased mortality among animals and also
among men in proportion as they are aggregated
under conditions of much restraint. The dangers
of undue restraint, however, do not apply to animals
subjected only to the conditions which partial soiling
imposes. And with complete soiling, it is probable
that they may, in a great measure, be avoided by
giving due attention to the conditions which are
necessary to the maintenance of improved vigor in
domestic animals.

Property

Daniel W, B. Tracy

^lton H^
CHAPTER II.

INDIAN CORN OR MAIZE.

It would probably be correct to say that Indian
corn (Zea Mays) furnishes more food for live stock
than any other plant now grown in the United
States, and that it will continue to do so through all
the years that are yet to come. Taking everything
into consideration it will probably produce more food
per acre for domestic animals than any other plant,
and there are but few foods which can be fed in a
greater variety of ways. In furnishing soiling food
on unirrigated land, it is in some respects without a
rival on the American continent. So great is its
value for this use that in the near future very few
sections will be found in all the United States in
which it will not be grown on a large majority of the
farms by those who keep live stock.

Green corn is pre-eminently a food for dairy
cows when in milk, owing in part to the close relation
between succulence in food and free milk production.
But it may also be fed with much advantage to other
classes of cattle when pastures are scant, and also to
horses of all ages, although to horses at work it
should not be given in large quantities, lest a too lax
condition of the bowels be induced. It furnishes
excellent green food for sheep, when of fine growth.
It also furnishes food for swine that is much relished
by them, especially when the corn is of the sweet

19

V

1

INDIAN CORN OR MAIZE. 21

varieties. They will virtually consume the entire
product when it is fed to them prior to the maturing
of the crop.

Corn grown as soiling food will yield from
ten to thirty tons per acre, according as the land is
poor or rich and the season is dry or moist. A good
average crop may be placed at fifteen to twenty tons
per acre.

Distribution. — Corn can be grown as soiling
food in nearly all the tillable portions of the United
States, since, with a mean temperature of about 60
degrees, it will become sufficiently advanced for being
cut as soiling food in from fifty to seventy days from
the time of planting. But where it can be allowed
to grow for a longer period, the crop is relatively
more valuable. Nearly all the tillable portions of
the United States have marked adaptation for grow-
ing corn to be fed in the green form. The sections
least well adapted to its growth are those probably
which border on the Pacific ocean, between Alaska
and California, because of the low mean tempera-
tures that prevail there. In nearly all the tillable
areas of Canada, also, corn can be grown in the
finest form for summer feeding and in sections too
far north to mature the grain.

Soil. — Corn is specially adapted to warm, deep
loam soils rich in humus, and that lie upon subsoils
of what may be termed porous clay. It is a most
voracious feeder on decaying organic matter, hence
when it is to be grown, care should be taken to keep
the soil well supplied with such food. But it may be
grown with more or less success on almost any kind
of land not too low in available plant food, not too

22 SOILING CROPS AND THE SILO.

strongly impregnated with alkali, and not overmoist
or overdry. It may be made to flourish on the stiffest
clays when they are sufficiently pulverized, and on
the poorest sands when they have been sufficiently
enriched.

Place in the Rotation. — As a fodder or grain
crop, that is, as a crop for being fed in the cured
form, corn should be grown whenever practicable
as a cleaning crop. More commonly it should be
planted after one or more grain crops have been
taken from the land, and it should be followed by a
grain crop in which grass seeds have been sown.
Frequently it should be sown on an overturned grass
or clover sod. But when sown to provide soiling
food it can with much advantage be grown as a
"catch" crop, that is to say, as a crop preceded or
followed by another crop grown on the land the same
season, and in some instances both preceded and
followed by another crop. Where the seasons are
sufficiently long it may thus be grown with peculiar
fitness after a crop of winter rye is pastured, plowed
under green, or reaped when mature ; after clover is
pastured, buried or reaped ; after grain crops are pas-
tured off, and in some instances after grain crops
are harvested; after a crop of early sown rape is
grazed down, and after certain other soiling crops
have been removed from the land, as, for instance,
peas and oats.

It may also be grown after any kind of a fall
or spring sown crop that has failed from any cause.
But in areas in which the seasons are quite short, it
may not be possible to grow another crop on the land
the same season. The crops that may with much

INDIAN CORN OR MAIZE. 23

propriety be sown after soiling corn include winter
( wheat, winter rye, winter oats, the winter vetch, the
'sand vetch, rape and crimson clover. Corn may
thus frequently be sown as soiling food without
interfering with the growth of the crop that would
ordinarily be taken from the land.

Preparing the Soil. — When preparing the soil,
the aim should be to secure a seed bed moist, clean
and fine. When winter rye is plowed under, it
should not be later than the earing stage, and in
regions deficient in moisture earlier than that, lest
through its bulkiness it should cause the land to lie
too loosely upon itself and so lose too much of its
moisture, or through its woodiness it should fail to
decay soon enough to feed the corn crop. If the
buried rye is rolled and harrowed soon after it has
been buried, the moisture in the soil will be better
conserved and the more quickly will the rye decay.
These remarks will apply equally to the burial of
fresh farmyard manure with much litter in it. But
in time of wet weather, it would not be necessary
thus to roll and harrow the land so soon after it
had been plowed. As the preparation of the soil for
this crop cannot usually begin long before the plant-
ing of the crop, special pains should be taken to
pulverize the soil and to make it firm, that the germi-
nation of the young plants may begin at once after
planting, and that the subsequent growth may be
rapid.

It should always be the aim in growing a soiling
crop of corn to produce a large quantity. It is usu-
ally fed in the immature form, hence quality in the
food cannot be so much influenced by close or wide

24 SOILING CROPS AND THE SILO.

planting as it is when the corn crop is allowed to
mature. Land, therefore, not sufficiently fertile to
produce a maximum crop should be fertilized accord-
ing to its needs. Where it can be obtained, farm-
yard manure is one of the cheapest and most effective
of fertilizers. It may be applied most freely in
climates not deficient, or not much deficient, in mois-
ture. It feeds the corn crop better when it has been
reduced, or fermented, more or less, before it is
applied. On lands lacking in moisture the applica-
tion of large quantities of farmyard manure in the
unreduced form should be avoided, unless it can be
applied some considerable time before the planting
of the corn, otherwise its bulkiness and slowness of
decay may harm the crop more than it will help it.

Commercial fertilizers may also be applied in
addition to farmyard manure where the supply of
the latter is limited, or alone in its absence. The
composition of these fertilizers and the quantity to
apply will depend upon the needs of the land. But
more commonly complete fertilizers will be prefer-
able, that is to say, fertilizers which contain a certain
per cent, of nitrogen, phosphoric acid and potash.

Sowing. — Corn for soiling uses may be sown
broadcast by hand and covered with the harrow;
with the grain drill, all the tubes or with only part
of them in use ; or it may be strewn by hand in shal-
low furrows made by the plow. Which of these
methods ought to be adopted will depend chiefly
upon such conditions as the conveniences at hand
for planting the crop and upon the area to be grown.

Much has been written against the plan of sow-
ing the corn broadcast by hand, also against the plan

INDIAN CORN OR MAIZE. 2$

of sowing it with the grain drill when all the tubes
are in use. Yet it may be true that a large majority
of the farmers who grow corn for soiling persist in
growing it thus. And there is probably some reason
for such persistence. It is very convenient to sow
corn in this way. The stalks, because of their fineness,
are more palatable than when of stronger growth,
and on good soil much bulk of food is obtained. The
objections to this method of planting the crop are :
The lack of growth in the corn in severely dry
weather, the encouragement given to the growth of
weeds, the larger amount of seed required for plant-
ing, and the less nutritious character of the food.
There is some force in all these objections. Notwith-
standing, in the judgment of the author they do not
prove conclusively that on well prepared soils corn
for soiling should not sometimes be grown thus.
But it should not be so grown on land that is
frequently lacking in moisture, on land that is low in
fertility or on land on which weed seeds lying on or
near the surface have not been well sprouted and
destroyed before the planting of the corn.

When corn for soiling is planted with the grain
drill, some of the tubes only being in use, there is
much latitude in the precise methods practiced
Sometimes every second tube is used. When planted
thus, the crop will make more growth on soils only
moderately supplied with plant food, and it will also
make a better growth in dry weather. When thus
planted, of course, the rows are too near to admit of
horse cultivation. Such cultivation may be given
with the rows even nearer to each other than thirty
inches, but when less distant than thirty inches it

26 SOILING CROPS AND THE SILO.

cannot be done with so much freedom or ease. The
larger the variety of the corn, the more distant
should be the rows, to avoid too much shading from
the sunlight ; hence there may be instances when corn
grown for soiling should be planted more than thirty
inches distant.

Sometimes such corn is planted with the drill
in what may be termed double rows, that is to say,
in rows not more than from six to nine inches apart.
But the distance between the pairs of double rows
should be at least thirty inches. In planting corn
thus, with some grain drills at least, it may be neces-
sary to duplicate the amount of driving that would
be sufficient to plant the corn in single rows. Other
drills, however, may be made to plant at least two
double rows at one and the same time. This is done
by leaving open the avenues that lead to the tubes
which do the planting and closing all the others.
Corn planted thus will produce a greater bulk than
if planted in single rows, yet this method of planting
admits practically the same kind of cultivation that
would be suitable for corn grown in single rows.

When the corn is sown by hand, shallow fur-
rows are made with the plow, the seed is strewn
thickly in these, according to the desires of the
grower, and it may be covered by hand or by draw-
ing a heavy harrow crosswise over the ground. The
object sought in planting the corn thus is to secure a
thick stand of plants that may, also, be cultivated,
when a drill with which to sow the plants is not
obtainable. But this method of planting corn for
soiling should not be attempted when a large area
is to be planted.

Fig. 3. Giant Fodder Corn for Soiling

tirarsity Experiment Farm.

'ropertjr

Daniel W, B, Tracy

28 SOILING CROPS AND THE SILO.

The variety, or varieties, of corn to sow or plant
will depend on conditions such as relate to climate
and soil. In northerly latitudes it may be wise to
plant only the quick growing flint varieties. In
more southerly latitudes, it may be necessary to grow
only the slow growing dent varieties. When the
corn is to be allowed to pass the earing stage, before
being fed, it may be proper to choose some of the
varieties of sweet corn for planting. But since soil-
ing corn is usually fed before the corn on the ear is
of any considerable food value, it is well to select
varieties with a leafy tendency of growth, since these
varieties will be more relished by the animals to
which the crop is fed.

The quantity of seed required will vary with
the size of the seed kernels, or, in other words, with
the variety of the corn, and with the method adopted
in sowing the seed. Probably no method of sowing
calls for the use of more than three bushels of seed
per acre, or less than one bushel per acre. There
would seem to be no advantage derived from grow-
ing corn for soiling purposes with the plants less dis-
tant than from three to four inches in the line of the
row, whatsoever the kind of cultivation adopted, and
there may often be good reasons for growing the
plants much further apart.

The time for planting corn for soiling will
largely depend upon such conditions as climate, soil,
and the prospective needs of the animals to which
the crop is to be fed. Although in southern lati-
tudes, this crop may be sown for soiling uses far on
into midsummer, it should never be planted in the
spring before the soil has become sufficiently warmed

INDIAN CORN OR MAIZE. 2(J

to germinate the seed quickly. Slowness of germi-
nation is more or less injurious to the crop, and
prolonged slowness of germination may be even
fatal to it. It is probably safe to conclude that the
season is sufficiently advanced for corn planting
to begin when apple blossoms are unfolding
their beautiful tints. It may be desirable to
have the season for feeding green corn as long as
possible. This may be brought about in one of two
ways : First, several varieties, which call for varying
periods in which to grow, may be planted at the same
time ; second, but one variety may be sown at inter-
vals not closer to each other than two or three weeks.
The second of these methods is preferable, since the
one variety selected may be the most suitable to grow
in that particular locality. When corn is grown as
soiling food for pigs, the aim should be to secure
much grain rather than abundant growth of stem
and leaves. It should therefore be planted in hills
or rows, as corn is usually grown, to provide ears.
From eight to twelve quarts of seed will suffice to
plant an acre, and, as previously intimated, the sweet
varieties are to be given the preference.

Cultivation. — The harrow and the cultivator
are the instruments chiefly used in cultivating corn
for soiling. Owing to the short period required by
corn to grow, it is seldom necessary to use the hand
hoe, when a sufficient use has been made of the har-
row. The corn ground should be harrowed a few
days subsequently to the planting of the seed. It may
be necessary to harrow twice before the plants appear
when the germination is tardy, but once is usually
sufficient. The crop should be harrowed at intervals

3O SOILING CROPS AND THE SILO.

of only a few days, especially when the weather
is dry, even though the land is not foul with weeds,
that it may the more perfectly retain its moisture.
The harrowing should cease when the plants are sev-
eral inches high. For reasons that will be manifest,
the harrow should be light, should have a broad
sweep, and when in use the teeth should usually be
set to slant backward. It should also be driven
across rather than along the drills, that fewer plants
may be covered by the harrow. When the crop must
be planted on foul land, more seed should be used
than would otherwise be necessary, to allow for the
freer use of the harrow, and consequently for the
loss of a larger percentage of the plants.

When the cultivator can be used, its use ought
to begin soon after the harrowing has ceased, and it
should continue at intervals until the feeding of the
crop has virtually begun. These intervals should
usually be not more distant than, say, seven to ten
days. The cultivation should be shallow, that the
corn roots may not be broken, and that the moisture
may be better conserved than it would be by deep
cultivation. It should come close up to the line of
the rows, that weed growth may be checked to the
greatest possible extent.

Feeding. — The feeding of the corn may begin
as soon as it is fully in tassel, or even sooner but for
the loss in maximum development that would ensue,
and this feeding may be continued until the crop is
matured. But when fed to swine it may be well to
defer the feeding until the corn in the ear is nearly
ready for table use. The residue of the green
corn, if the crop is not all consumed, may be cut at

INDIAN CORN OR MAIZE. 3!

the stage of early maturity, cured in the shock and
fed with much advantage to live stock subsequently
through the entire fall and winter. The farmer who
has a sufficient area of corn grown and properly har-
vested on the plan above outlined may sustain his
horses, cattle and sheep in excellent fdrm, howsoever
dry the autumn may be, or howsoever scarce the
pasture. But it is very important that the crop shall
be harvested at the stage of early maturity, that is
to say, when a little under-ripe, and that it be nicely
cured. Vastly increased attention is likely to be
given to this feature of corn production in the near
future, more particularly in the northwestern states,
so much characterized by bright autumn sunshine.

When only a small quantity of soiling food is
to be fed daily, it may be cut with a scythe and carted
to the animals, or thrown to them over the fence
which may separate the corn crop from an adjoining
pasture. It may be well in some instances to so plan
for feeding the corn when choosing the land on
which it is to be grown, that is to say, it may be well
to sow a strip of corn not too wide beside the pasture
and along its entire length. The saving in horse
labor that would thus be effected when feeding the
crop would be material, but to the plan there is the
objection that corn or other green crop fed thus
leads to the dropping of an undue proportion of the
manure in that part of the pasture on which the
green food has been fed. When green corn is cut
for pigs, the corn hook will probably be the best
implement to use.

When fed on a large scale, the crop must needs
be cut with the mower, according to the needs of the

32 SOILING CROPS AND THE SILO.

live stock. Or, as much may be cut at one time as
will suffice for two or three days' feeding, especially
when the crop is well advanced in growth, as then it
does not quickly wilt overmuch, as it would at an
earlier period. A moderate amount of wilting
rather adds to the relish of the food, and it also les-
sens the danger from abundant feeding when the
green corn is first given to the animals.

The portion fed once or twice a day, as the case
may be, will have to be drawn as frequently by horse
labor, except when it is fed in racks in a yard, or in
the stable mangers. In such instances enough may
be drawn at one time to suffice for two or even for
three days. But too much wilting must be guarded
against, else it will lessen the palatability of the corn.
Some form of truck with a platform not far from
the ground should be used in carting all kinds of
green food, in order to lessen muscular expenditure
in handling food with so much water in it.

Where the facilities are suitable, there is no way
by which corn thus carted can be fed to live stock
with a less expenditure of labor than by feeding it
in a pasture. It is then thrown from the dray or
wagon and is consumed without any further labor
in handling the residue, or in carting the drop-
pings. But of course there is oftentimes con-
siderable loss in the manure. When corn or other
green food is thus fed, it should be dumped off in
small bunches not too near one another, so the
animals may consume it without being molested by
one another ; and it should be strewn on a different
portion of the pasture every time it is fed, to insure
greater cleanliness in the feeding, also to secure a

INDIAN CORN OR MAIZE. 33

more even distribution of the droppings. The whole
pasture may be gone over in this way. The plan
of manuring a field thus is certainly very cheap and
efficacious. The loss in fertility is not great if the
pasture is to be plowed the same autumn. If it can
be arranged to have the food thus spread on the
ground in the absence of the live stock, they will not
tread on it so much when turned in to feed upon it.
The ideal plan, when it can be carried out, is to have
two pastures and to spread the food in each alter-
nately when the live stock are in the other pasture.

When the green corn is fed to horses or cattle
in manger or racks, for manifest reasons, it is well
to have it placed in these when the animals are
absent, unless when they are tied in stalls. It may
be most conveniently fed to sheep or swine in the
pastures, but there may be occasions when it will be
found advantageous to feed it in paddocks, feed lots
or sheds. The feeding of sweet corn to swine may
be continued after the crop has matured, but there
will be loss in feeding the stalks unless the ears only
are fed to the swine. The stalks may of course be
cured and fed to horses or cattle.
3

CHAPTER III.

SORGHUM.

Sorghum (Sorghum vulgare var. saccharatum)
has not been very extensively grown as a food for
live stock on any part of the continent, but for sev-
eral years past its great value for such a use has been
known to a limited number of farmers in various
centers, and in many instances it has been fed by
those farmers with very satisfactory results. It is
probably true that in Kansas more sorghum has been
grown to provide food for live stock than in any
other state in the Union, but in some of the states
which border upon Kansas, and in others farther
south, more or less sorghum has been grown for
stock within the past few years. The idea has gone
abroad, and rightly, too, that sorghum is more deli-
cate and slower in growth than corn. But the gen-
erally accepted view based on this idea, viz., that to
grow sorghum and to keep it clean involves great
labor is only partially correct. When sown on
ground well prepared and clean on and near the
surface, it requires no more labor subsequent to the
sowing of the seed to grow sorghum than to grow
corn. But it is frequently necessary to expend more
labor in cleaning and mellowing the seed bed for this
crop than in preparing the same for corn. If sown
on land foul with weed seeds within the surface
strata of the soil, the weeds will start in advance

34

- -*

. ! i

(30

Fig. 4. Early Amber Sorghum

Minnesota University Experiment Farm.

36 SOILING CROPS AND THE SILO.

of the sorghum and will greatly hinder its growth
unless much labor is expended in fighting them.

Sorghum stools much when it is growing,
hence the growth is finer in character than the
growth of corn. This of course adds to its palata-
bility as a food for stock. But its greatest value
as a soiling food lies, first, in its power to pro-
duce more than one cutting per year when
grown under favorable conditions of soil and
climate; second, in its ability to grow in climates
with a limited rainfall. The plants grow slowly
for a time, and the development of root growth is
limited ; later they take a firm hold upon the soil, and
if the weather is warm they rush forward with much
quickness and vigor.

Sorghum furnishes excellent soiling food for
horses, cattle, sheep and swine. Like nearly all
green foods it must be fed with some caution to
horses when working. It is becoming more com-
mon to pasture sheep and swine upon sorghum than
to feed it to them as a soiling food, owing to the
marked adaptability of this plant in providing pas-
ture for these animals. But when fed as soiling
food to sheep and swine it is much relished, more
especially when of tender and succulent growth.
Its highest use as a soiling food, however, is in pro-
viding supplies for milch cows. They are fond of
sorghum and it is good for milk production, and a
given area furnishes relatively a large quantity of
food.

This plant has been known to produce thirty
tons of green food per acre, but the average is under
rather than over fifteen tons. In many instances the

SORGHUM. 37

yield would be even under ten tons per acre. Whether
the largest yield will be obtained from one or two
cuttings per acre will be largely dependent on the
character of the season, but with sufficient rainfall
larger yields will be obtained from two cuttings, and
the sorghum from the second cutting is of increased
fineness because of the more abundant stooling of
the plants caused by the first cutting.

Distribution. — Sorghum can be grown for soil-
ing food in all the tillable portions of the United
States that will produce Indian corn. This means
that it can be grown successfully in every state in the
Union. It can also be grown in Canada over simi-
lar areas, but in those sections of Canada that mark
the northerly limit of corn production, it cannot be
grown as successfully as corn, because of insuffi-
ciently high temperatures in the growing season.

As this plant is possessed of greater power to
withstand drouth than corn, it has a higher adapta-
tion for much of the area lying west of the tier of
states which border on the Mississippi river and east
of the Rocky Mountains. The extent to which sor-
ghum will yet be grown for pasture, soiling food
and fodder within the area named, can only be sur-
mised. The conditions for its abundant growth in
much of the said area are not at all unfavorable.
The tillable areas on the continent which are least
adapted to the growth of sorghum are those which
border on the Atlantic and Pacific coasts and north
from Portland in Maine on the one hand and from
San Francisco on the other.

Soil. — The soils that possess highest adaptation
for corn also possess highest adaptation for sorghum.

38 SOILING CROPS AND THE SILO.

The latter will grow best, therefore, on loam
soils which are well supplied with humus, and which
rest on a subsoil of readily permeable clay. All, or
nearly all, prairie soils are well suited to the growth
of sorghum. But the most suitable soils for this
plant have more of the sand element in them than
those which possess highest adaptation for growing
corn. Sorghum may also be grown with success in
sandy soils underlaid with sand or gravel and so
lacking in moisture that corn could not be success-
fully grown upon them. On the other hand, in the
dry belt there are vast stretches of just such land
which are so lacking in moisture that sorghum even
cannot be grown on them in the absence of irrigation.
On certain other soils, as, for instance, clays of more
or less fineness of texture, corn may be grown to bet-
ter advantage than sorghum. The former will suc-
ceed measurably well on clays so stiff as to be quite
unsuited to the growth of sorghum.

Place in the Rotation. — When sorghum for
soiling is the only crop grown on the land during
the season of growth, it may be placed anywhere in
the rotation, but preferably between two grain crops,
as then it can be grown as a cleaning crop. Its effi-
cacy for such a use will depend much upon whether
it is or is not cultivated while growing. In either
case, when the land is properly handled weed growth
will be diminished. Sorghum may also be grown
as a catch crop, but not to the same extent as corn,
since some varieties of corn may be grown in a
shorter period than any of the varieties of sorghum.
When thus grown, however, it may frequently be
made to follow such crops as winter rye, whether

SORGHUM. 39

pastured, used for green food, plowed under, or Har-
vested. Sometimes it comes after clover is plowed
under or made into hay ; or early sown rape that has
been eaten down. It may also be made to follow
certain early garden crops, and crops intended for
producing hay or grain, but which, through lack of
promise, have been pastured off. The chief objec-
tion to growing sorghum as a catch crop arises from
the want of sufficient time, between the plowing of
the land and the sowing of the seed, to give ample
opportunity for sprouting the weed seeds that lie on
or near the surface of the soil. Since corn may be
harrowed to a much greater extent than sorghum
without injury to the plants, it has higher adaptation
than sorghum for being grown as a catch crop; on
the other hand, sorghum will grow under conditions
so dry as to bring distress upon the corn crop.

Preparing the Soil. — Land in the best condition
for being planted with sorghum is clean on and near
the surface, is possessed of a fine tilth and is firm and
moist. When sorghum is the only crop that is to
be grown on the land for the season, it is usually
not difficult to so cultivate the soil that it will be in
the condition above described when the crop is to be
sown. Usually it is preferable to plow the land in
the autumn. There will then be time to sprout the
weed seeds on and near the surface, and in turn to
destroy them before the seed is planted. This can
be accomplished by the occasional use of the harrow,
and in some instances it may be necessary also to
use some form of cultivation. The precise nature
of the implement to be used will be measurably
dependent upon the character of the soil. While the

4O SOILING CROPS AND THE SILO.

surface soil is thus being stirred, its power to hold
moisture is also being increased. And even though
it be necessary to defer sowing the seed for a time,
in order to secure the requisites necessary to insure
a good seed bed, it is better to adopt such a course
than to sow the seed on ill-prepared land.

As previously intimated, there is usually not
time to prepare the land thus, when sorghum is
grown as a catch crop, but some things can be done
that will tend to enhance the growth of the crop
when it is planted. As soon as the land is plowed
it should be rolled and harrowed to prevent the
escape of moisture. But if there is already sufficient
moisture in the land, it is not necessary to use the
roller; and if the sowing of the seed can be deferred
for a time, without too much hazard, something can
be accomplished by way of cleaning the land on or
near the surface. But more commonly it is necessary
to sow the seed as soon as the ground can be made
ready for it.

While sorghum grows fairly well on land of
but medium fertility, since the roots gather much
food in the subsoil, the yields are usually propor-
tionate to the fertility in the land. Farmyard
manure, when it can be obtained, is one of the best
and cheapest fertilizers for sorghum. Commonly it
would be applied before the land is plowed, whether
used in the fresh or in the reduced form. In the
fresh form it may, with much propriety, be buried in
the autumn, thus giving it ample time to measurably
decay before the crop begins to feed upon it. But
on leachy soils and in climates with much rainfall,
the aim should be to apply the manure only a short

SORGHUM. 41

time before the crop is to be planted, lest its more
valuable ingredients should filter into the drainage
water and pass away before they can be appropriated
by the plants of the crop which is to follow. It is
not a good plan to top-dress the seed bed which is
to receive sorghum seed with any kind of farmyard
manure, because of the prevalence of weed seeds in
the same. But it may in some instances serve an
excellent purpose, to top-dress sandy soils with
farmyard manure in the autumn, and then to bury
the manure that has been so applied in the early
spring. The surface soil will thus be so far enriched
as to promote a rapid growth.

Commercial fertilizers may be applied alone, or
in conjunction with farmyard manure. Complete
fertilizers are more commonly used, but the exact
nature of the product to be applied will depend upon
the extent to which the soil is wanting in the various
leading elements of fertility. The aim should be to
apply these fertilizers so that they will stimulate vig-
orous growth in the plants when they are young,
since, if they have thus been made strong while yet
young, their power to extract plant food from the
soil at a later period of development will be greatly
enhanced. The fertilizer should therefore be sown
when practicable at the same time the seed is sown,
and in near proximity to the same, but not too close
to it when the fertilizer is possessed of any ingre-
dients of a caustic nature.

For several years the question of fertilizers for
sorghum is not likely to give much concern to the
growers of the same in the upper basin of the Mis-
sissippi river. It is very different, however, with the

42 SOILING CROPS AND THE SILO.

farmers living on the more hungry soils of the lower
Atlantic and Gulf states.

Sowing. — One of the following methods of
sowing sorghum is usually adopted : First, it is sown
broadcast by hand and covered with the harrow;
second, by the grain drill, all the tubes or only every
alternate tube being used ; third, by hand in shallow
furrows marked out by the plow ; or, fourth, by the
grain drill in single or double rows with a space of
thirty to forty-two inches between them. The first
method is usually practiced by those who have no
grain drill, since it is convenient to sow the seed thus.
The chief objections to sowing sorghum by this plan
are, first, the seed is imperfectly covered and at vary-
ing depths, hence it grows up more or less unevenly ;
second, some of the seed in dry weather fails to
germinate ; third, when sown thus it cannot be culti-
vated, which, under very dry conditions, may lead
to failure in the crop. The second method buries
the seed at a uniform depth, hence the germination
of the seed may be expected to be more uniform, but
the objections from smothering through the presence
of weeds and through injury from dry weather are
much the same as when the seed is sown by hand,
though less in degree.

The use of only every other drill tube when sow-
ing the seed insures a more bulky growth of the crop,
but at the expense of the fine character of the growth.
The third method is only resorted to when a small
quantity is to be sown in the absence of a grain drill,
and when at the same time it is desirable to cultivate
the young crop. The fourth method is followed
when a large area is to be grown, and when it is

44 SOILING CROPS AND THE SILO.

desirable to cultivate the crop. In sowing the seed
almost any make of drill may be used. In sowing
double rows two adjoining tubes are active, while
the tubes that occupy the space between the double
rows are inactive, that is to say, not in use. The
space between the rows that form the double row is
thus from six to eight or nine inches wide, according
to the make or pattern of the drill, and the distance
between the double rows will be determined by the
nature of the soil, the variety of the sorghum to be
grown and the character of growth expected from
it. The richer the soil, the more distant the rows
from one another ; the larger the variety of the sor-
ghum the coarser will be the character of the growth
produced. The chief objects sought in planting the
double in preference to the single row are : To secure
an increased yield in weight of fodder, and to secure
a crop fine in character. One objection to the sys-
tem is found in the shelter that is thus provided for
weeds between the two lines of the double row.

Prominent among the varieties of sorghum that
are more commonly grown are the Early Amber,
sometimes called the Minnesota Amber, the Early
Orange, Folger's Early and Link's Hybrid. The
first named has marked adaptation for northern lati-
tudes. The second and third are much grown in
the states of the middle west, and the fourth is one
among several varieties grown in the south.

The quantity of seed to be sown will depend
upon climatic conditions and upon the mode of plant-
ing. It is manifest the system of sowing broadcast
will call for much more seed than the system of
planting sorghum in single or double rows. When

SORGHUM. 45

the seed is broadcasted by hand or when it is sown
with the grain drill, — all the tubes in use, — one
bushel of seed per acre will usually be sufficient,
although some growers advocate sowing as much as
two bushels per acre. Where the moisture is likely
to prove inadequate to the needs of the growing
crop, results more satisfactory will be obtained by
reducing the quantity of the seed to be sown. When
grown in single rows with a wide space between
them, a few quarts of seed will suffice per acre, but
in growing this crop for soiling uses it will, usually,
be found advantageous to sow not less than a peck
of seed per acre, whatsoever the method of growing
the crop that may be adopted.

The time for sowing the seed will, of course,
vary with such conditions as relate to climate and
rotation. It is a mistake to plant before warm and
settled weather has set in. When sown too early
the germination of the seed will be imperfect, the
early growth will be sickly in character, and the
weeds will push on ahead of the sorghum, so when
the crop starts to grow no conditions, howsoever
favorable, can make it a success. A crop grown
under similar conditions, except that it is not sown
until the weather is sufficiently warm, will prove
much more satisfactory than the former. The best
rule to follow, perhaps, is that which defers sowing
the sorghum seed until the corn crop has been
planted.

Of course sorghum may be sown for soiling at
any subsequent time, so long as there is time enough
to secure sufficient growth to pay for the young crop.
It must, of course, be harvested before the autumn

46 SOILING CROPS AND THE SILO.

frosts arrive. While green and succulent it is easily
injured by frost.

Cultivation. — Harrowing sorghum is the only
mode of cultivation that may be resorted to when
it is sown on the broadcast plan, either by hand or
with the grain drill. It cannot be harrowed nearly
so much as corn, owing to the much greater delicacy
of the young plants, and when planted with the
grain drill the harrow may be more effectively used
than when the seed has been broadcasted, for then
the plants do not uproot so easily. Sorghum sown
with the grain drill may, usually, be harrowed with
benefit to the crop just when the first blades are
pushing through the soil. The harrow used should
be light, of a broad sweep and the teeth of the same
should be slanted backward to the greatest possible
extent when the work is being done. No little dif-
ference of opinion prevails as to the degree of the
benefit arising from harrowing the crop after it has
got well through the soil. It is at least question-
able if sorghum should be harrowed after the plants
appear until they get up several inches above the
surface. Before that period of advancement they
are easily uprooted and also easily buried in the
process of harrowing. The quick growth of sor-
ghum will certainly be promoted by harrowing, but
the crop should not be harrowed to the extent of
making the plants too few to produce a maximum
of forage. Where it is intended to use the harrow
freely on the young plants, enough additional seed
should be sown to allow for the expected loss.

In sections deficient in moisture, it is more nec-
essary to use the harrow freely than in those opposite

SORGHUM. 47

in character. When the crop is threatened with
serious injury from the presence of young weeds, it
ought to be harrowed. More sorghum will be
secured, and that of a superior quality, from a piece
of land in which the plants have been thinned over-
much by harrowing than from a similar piece of
equal area in which the weeds have obtained the
ascendency over the sorghum.

When practicable, the cultivation of sorghum
sown in rows sufficiently distant should be early
begun, it should be frequent, and may be continued
almost up to the time of the last cutting of the crop
for the season, and it ought to be shallow rather than
deep. After the first cutting of the crop, the benefit
from prompt subsequent cultivation will be
abundantly apparant. Some hand hoeing may be
given betimes with profit in the line of the row, but
when the land has been well prepared such work is
seldom necessary.

Feeding. — There is no cast-iron rule as to when
the cutting of the crop should begin. It should not
be delayed, however, until the seed heads are formed
when a second cutting is intended. If the sorghum
is cut after that period the yield from the second
growth will be much reduced. When cut too early
the yield from the first cutting is unduly small.
Usually the cutting of the first growth does
not begin until the crop is from two to three
feet high, but it may begin earlier if necessary, and
the cutting of the second growth may begin as soon
as the seed heads appear, or even earlier. Since,
under normal conditions, the crop is cut and fed
from day to day according to the needs of the live

48 SOILING CROPS AND THE SILO.

stock, the second growth will frequently be ready to
cut by the time the first growth is all consumed,
providing the consumption of the first growth has
covered a period sufficiently long. This period will
vary, but it should not be less than three to four
weeks. Sorghum, therefore, from a single sowing,
may be made to provide soiling food in the green
form for live stock from six to eight weeks. But
during periods of severe drouth, the second cutting
may not materialize, or it may, at least, be disap-
pointing in its growth. When but one cutting is
made the harvesting may begin as soon as the seed
heads are fully formed, and may be continued until
the crop is fully matured. But when the sorghum
is to be fed to sheep or swine in the green form, they
will consume it with greater relish when cut at an
early stage of growth. The food is then fine in
character, juicy, tender and contains but little fiber.
When thus fed one or two more cuttings can be
obtained in one season because of the earlier stage
of development at which the sorghum is cut. But it
is more common to pasture sheep and swine on
young sorghum than to feed it to them as soil-
ing food.

When but a small quantity is wanted per day,
the scythe is commonly used in cutting the sorghum.
When grown along and beside a pasture fence,
of necessity the scythe must be used in cutting
the food for convenience in feeding the same.
When a large amount is required the mower must
be used. As the plants do not shrivel readily,
enough may be mown at one time to last for two or
three days, more especially when the green food is

SORGHUM. 49

to be fed to the cattle and horses. As in feeding
corn, it may be fed within a pasture, in racks, feed
lots, or mangers in the stables.

Some care is necessary, especially when the
feeding begins to limit the amount fed, or to feed it
in a somewhat wilted condition, lest it should cause
hoven or bloat. Inattention at this point may lead
to serious loss, but green sorghum is less liable to
produce hoven than clover or alfalfa. The amount
that may be given daily need not be limited except
by the needs of the live stock, unless for a few days
at the first. However, more satisfactory results will
follow when some other food less succulent is given.
Sorghum may also be fed to live stock with great
advantage in the matured form, on what may be
termed the soiling plan of feeding. When thus fed
it is common to cut the crop with the binder or
mower, but more commonly with the latter. The
sorghum is then allowed to lie on the ground for sev-
eral days before being gathered together, especially
when it is not well matured, or when the weather is
damp. It does not take injury from rain as corn
would when thus exposed. The outside of the stem
is hard, hence the rain does not penetrate it. But
some injury is done through the soil that adheres to
it. It is true, nevertheless, that sorghum exposed
thus and lying on the ground for a period of two or
three weeks in rainy weather has been eaten subse-
quently and with a relish by live stock. It is drawn
into windrows, by using a strong rake, and is then
put into large "cocks" or heaps by hand.

When the crop is very heavy, it may be bunched
without first having been raked. In such cocks
4

5O SOILING CROPS AND THE SILO.

sorghum will not ferment or mold as corn does,
hence as much as 500 pounds, or more than that,
may be put in one heap without any danger of loss
from heating. From these the sorghum may be
drawn and fed to live stock in the pastures, in the
sheds or stables, as desired. This food is greatly
relished by the animals at that season of the year,
and since it is fed with but little handling it is con-
sidered an economical food. Feeding from such a
source may be continued until the closing in of the
winter. When sorghum is to be fed thus, it is com-
monly grown like grain, that it may be fine enough
to be handled with the fork without difficulty. No
other kind of food that can be grown comes in more
opportunely for feeding at that season than sorghum.
In the states of the middle west and in those of the
south, where winter delays its coming, this method
of feeding sorghum is peculiarly advantageous.

CHAPTER IV.

THE NON-SACCHARINE SORGHUMS.

The chief of the non-saccharine sorghums are
Kaffir corn, Milo maize, dhourra and Jerusalem
corn. Teosinte, properly speaking, is not a sorghum,
but it will be included in the discussion of the non-
saccharine sorghums because of the similarity in the
methods of cultivation and in the uses for which it
is grown. Of these plants, Kaffir corn is the best
known and the most extensively cultivated, but it
would be premature to reach the conclusion that
because of this it is the most valuable. It has been
cultivated apparently in the United States for a
longer period than the other non-saccharine sor-
ghums. Milo maize in some of its varieties is likely
to make a strong competitor to Kaffir corn.

These plants are all of comparatively recent
introduction into the United States. At least no
one of them has been extensively grown in the same
until within a comparatively recent period. They
are but little known, therefore, to any considerable
number of the agriculturists of the country. It will
be in order, therefore, to give a short description of
each and also to make some reference to the distinc-
tive peculiarities of growth.

Kaffir corn (Sorghum vulgare) is a sturdy
growing plant. The stem is thick at the base, taper-
ing toward the top and usually grows to the hight of

Si

52 SOILING CROPS AND THE SILO.

about five to six feet. Since it does not grow so
tall as many of the varieties of corn, nor so tall as
sorghum, or Milo maize, it is more easily handled
than these in the sheaf when fully grown. The
leaves are long and large and fairly numerous, but
not markedly abundant. It throws up a single spike
which bears a head in which the seeds are closely
packed. The head is fully six inches long and three
inches broad and stands erect, or nearly so. Large
yields of seed are obtained, and when ground its
feeding value for the various classes of farm stock
is nearly equal to that of corn. The plants are but
little liable to break down with the wind. They
have extraordinary power to grow under dry condi-
tions and to retain succulence in the leaves and stems
even after the seed has matured. The leading
varieties of Kaffir corn are the red and the white.
The red matures earlier than the white, but the latter
would seem to produce more seed. The red variety
is better adapted than the white to states north from
where the most suitable conditions exist for growing
Kaffir corn.

Milo maize (Sorghum vulgare or Andropogon
sorghum, var. ) is a vigorous growing plant. In the
tests made at the Minnesota university experiment
station in 1897-98, the plants attained an average
hight of about eight feet. The leaves are large, and
from the center of the stalk upward they are quite
numerous. Each stalk when matured is surmounted
by a large head which bears seed profusely. This
head has an average length of about six inches and
an average diameter of about four inches. When
the head first appears it is erect, but when matured

Property ~of

Daniel W. B, Tracy

54 SOILING CROPS AND THE SILO.

it hangs downward. It is somewhat more open
than the seed head which is produced in Kaffir corn.

There are two leading varieties of Milo maize,
named respectively the yellow and the white. The
former is the earlier of the two. In 1897 some of
the seed of the yellow variety matured at the Minne-
sota university experiment station, but not all of it.
In 1898, one plat of the same variety was pastured
with sheep. About the same results were obtained
as from pasturing early amber sorghum. Another
plat was grown in rows three feet distant from one
another and harvested like corn. It was found that
the numerous leaves around the top of the plants
added to the difficulty in shocking and in preserving
the fodder from injury by rain. When fed to cattle
and sheep they ate it with more relish than they mani-
fested for any of the other non-saccharine sorghums.

Dhotirra (Andropogon sorghum, Brot.) is of at
least four varieties, the brown, the black, the red and
the white. Of these, the brown is more commonly
grown. It is so named, doubtless, from the color
of the seeds when ripe. It grows less rapidly than
Milo maize. At the Minnesota university experi-
ment station in 1897, the plants grew from six to
eight feet in hight. The large and long leaves are
not numerous. The seed heads are thick and heavy
and oval shaped. They hang on a stem, which,
though erect at first, assumes a shape resembling the
neck of a goose as the maturing process goes on. It
is a rather slow grower and matures seed about the
same time as Kaffir corn.

Jerusalem corn (Andropogon sorghum, Brot.)
tears some r^mblance to dhourra in appearance

(55)

Fig. 7. Yellow flilo naize

Minnesota University Experiment Farm.

56 SOILING CROPS AND THE SILO.

and also in its habits of growth. It is even
stronger in the stem than dhourra and has still less
of forage. The seed heads are large, and like those
of dhourra, hang on hook-shaped stems. At the
Minnesota university experiment station in 1897
the plants grew to the hight of about five feet. Like
those of dhourra they grew more slowly than Milo
maize or Early Amber sorghum. Jerusalem corn
should be grown rather for the seed than for the
fodder. It is not probable that either dhourra or
Jerusalem corn will be extensively grown for soiling
food where Milo maize and sorghum can be grown.
Teosinte (Reana luxunans) is distinguished
from the non-saccharine sorghums in the less erect
character of the growth, in the extent to which the
plants sucker, in the greater fineness and abundance
of the long and slender leaves, and in the manner
in which the seed is produced. The seed grows on
small ears and the ears grow numerously around
every top joint of the seed stem. They are enclosed
in a husk. There is probably no fodder plant that
tillers so much as teosinte. As many as sixty
suckers have been produced by a single plant. In
the experiments conducted at the Minnesota univer-
sity experiment station in 1898, it was found that
when planted in rows three feet apart and thinned
to fifteen inches in the row, each plant produced from
five to twenty-five stalks. Those thinned to from
two to three inches in the row produced from two to
twelve stalks. The latter were also much more
upright in their growth. Seed heads were not even
formed on any of the plants. Teosinte would make
an excellent pasture and soiling plant for the south

(57)

Fig. 8. Brown Dhourra

Minnesota University Experiment Farm.

58 SOILING CROPS AND THE SILO.

but for the low palatability which it possesses. It
is thought a greater weight of food can be obtained
from this plant than from any of the sorghums or
millets that have been tried in the United States.

These plants can all be made to furnish pasture,
soiling food, hay and fodder for winter feeding, and
when the season is long enough to mature seed, they
can all be made to furnish large yields of grain. It
is yet premature to say much about the precise rela-
tive adaptation of these plants for feeding uses. It
would probably be correct, however, to state that
Milo maize and teosinte are the most promising
pasture and soiling plants, that Kaffir corn is the
most promising fodder plant, especially for dry
areas, and that dhourra and Jerusalem corn are the
largest producers of seed. The seeds of all the non-
saccharine sorghums are excellent for all kinds of
farm animals, but unless when given to fowls they
ought to be ground before being fed.

The yields of fodder will of course vary greatly
with the variations in soils and in the length of the
seasons. They will run from a few to many tons.
The largest yields of soiling food are obtained from
teosinte and Milo maize.

'Distribution. — The non-saccharine sorghums
are without exception less hardy than the common
varieties of corn. Nor are they so hardy as sor-
ghum is, at least in some of its varieties. It follows,
therefore, that these plants are not likely to succeed
far northward. Only in the Mississippi basin and
in the Rocky mountain valleysr.with their hot mid-
summer temperatures, are they likely to succeed in
the near future north of the fortieth parallel of north

Property

Daniel W. B. Tracy

60 SOILING CROPS AND THE SILO.

latitude, that is to say, north of the parallel which
runs through Springfield, 111. ; and even in the Mis-
sissippi basin they can be grown with greater
success south of that line rather than north of
the same. In the trials made with the non-
saccharine sorghums at the Minnesota university
experiment farm, all the varieties tested pro-
duced an abundant growth of green food, as will
be evident from what has previously been said in
regard to them, but only in a few instances did any
of the varieties mature seed. These plants are also
more tender than corn and sorghum in the early
stages of their growth, and with the exception of
Milo maize they would seem to be less palatable than
corn and sorghum. In view of these facts, it is only
in localities not well adapted to the growth of corn
and sorghum that the non-saccharine sorghums are
likely to supersede them. It is not probable, there-
fore, that they will supersede corn and sorghum
north from the fortieth parallel of latitude, at least
not in the near future. Of course it is impossible
to say how much further to the north the line of suc-
cessful growth may be pushed when these plants
become better acclimatized.

The greater power which the non-saccharine
sorghums have to grow under conditions too dry for
the successful growth of corn, furnishes a sufficient
reason for growing them under such conditions. A
second reason is found in the greater yields of grain
which they furnish in many localities in the south.
A third reason arises from the power which they
have to grow again when cut. This property, in
conjunction with the abundance of the food which

THE NON-SACCHARINE SORGHUMS. 6l

they produce, gives them a high place as soiling
foods or even as pasture plants where they can be
successfully grown.

The highest adaptation for the non-saccharine
sorghums is found at present west from the Missis-
sippi river and south from Nebraska, with Kansas,
Arkansas and Oklahoma as its center. But both
east and west from these states they can be grown
profitably over considerable areas. Teosinte has
higher adaptation to the states which mark the south-
ern boundary of the Republic, but it may be grown
successfully as soiling food in the states immediately
north of these.

Soil. — All the non-saccharine sorghums would
seem to have greater power than corn to gather plant
food in a dry soil. They are therefore relatively
better adapted than corn to a sandy soil. But it
would not be correct to say that they have greater
power to grow in a sandy soil than in a sandy loam,
nor in a dry climate than in one possessed of con-
siderable moisture. They would seem also to have
greater power than corn to gather food in soils low
in humus, and yet where humus is present in consid-
erable quantities they grow more vigorously than
where it is present only in meager supply. All these
plants gather much of their food in the subsoil,
hence the nature of the subsoil has an influence on
their growth not very much less than the surface
soil. Subsoils, therefore, that contain a layer of
hardpan which is near the surface are quite unsuited
to the growth of these plants.

The most suitable soils are those sandy in tex-
ture, possessed of a considerable supply of humus

62 SOILING CROPS AND THE SILO.

and underlaid with clay that is open in character
rather than retentive. But some of the non-saccha-
rine sorghums will produce fairly good crops when
both the soil and subsoil are sandy. Notably is this
true of Kaffir corn. The sandy soils of the Rocky
mountain valleys have high adaptation for the non-
saccharine sorghums, and the same is true of
much of the land in the southern and south-
western states.

Place in the Rotation. — The non-saccharine
sorghums consume considerable quantities of nitro-
gen while making their growth, hence the aim should
be to grow them after nitrogen-gathering crops.
Since they will grow better on soils possessed of a
fair quantity of humus, the effort should be made to
grow them as far as can be done where green
manures have been buried, and within a reasonably
recent period. They can therefore with much pro-
priety be made to come after crimson clover, the
cowpea, the soy bean, the common vetch, the sand
vetch and the velvet bean, even though these crops
should be harvested. They should also be grown
after such crops as winter rye or rape plowed under,
and on overturned sod when the conditions may
admit of so doing. But they may of course be given
almost any place in the rotation when a due regard
is had to the fertility of the soil.

Cultivation is also usually given to these crops
during the growing period, hence they may be
classed as cleaning crops. This means that they
ought to be followed by grain crops where these can
be successfully grown, and grass seeds should be
sown on the grain crops. But in some sections

THE NON-SACCHARINE SORGHUMS. 63

where these crops can be successfully grown, the
conditions are too dry to admit of the successful
growth of the grasses that are ordinarily cultivated.
In such locations some winter crop could be made
to follow these crops, since the ground is in excellent
condition to receive it, and this could be done
with but little additional preparation of the land by
way of tillage. These crops include winter rye, the
winter vetch, the sand vetch, crimson clover, and in
some localities, alfalfa.

Preparing the Soil. — The preparation of the
land for these crops is much the same as for corn.
The aim should be to secure a free, firm and moist
seed bed in sections low in the amount of the rainfall.
This can best be secured by plowing the land as long
as possible previous to the planting of the seed, and
by harrowing the surface of the land thus plowed at
intervals of more or less duration. This method of
managing land will also be very helpful in removing
weeds from the uppermost section of the soil. These
crops are planted later than corn and even later than
sorghum, hence the season is more prolonged during
which such treatment can be given to the land.
Sometimes in areas much deficient in moisture the
plan termed "listing" is adopted in growing some
of these crops, as in growing corn. When this
method of planting is followed, the soil is not first
plowed. Furrows are turned both ways from the
line where the seed is to be planted. The work is
done by using a double-mold-board plow, which
also loosens the soil for some distance below the line
of the furrow. In the soil thus loosened the
seed is planted. The object sought is to enable

64 SOILING CROPS AND THE SILO.

the plants to gather moisture under circumstances
more favorable than -would result from ordinary
cultivation.

When rainfall is usually abundant, the aim
should be to secure friability rather than impac-
tion in the surface soil, hence it would have to
be more deeply stirred during the preparatory
cleaning process. But when these crops come
after a winter crop pastured off or plowed under,
there is not much time for thus attempting to
clean the land.

The fertilizers suitable for non-saccharine sor-
ghums are practically the same as those suitable for
sorghum. When, however, farmyard manure is
applied under very dry climatic conditions, it must
not be applied in large quantities lest the too rapid
escape of moisture near the surface of the soil should
be promoted.

Solving the Seed. — The method adopted in
sowing the seed of these crops will vary somewhat
with the kind of crop, with the percentage of mois-
ture present in the soil, with the percentage in the
same that may be expected in the growing season,
and with the precise object sought in growing the
different varieties. The more branching, for
instance, the habit of growth in the plants, the more
distant from one another do they require to be
grown. The less the degree of moisture the more
distant also should they be from one another. If
fineness of leaf and stem are sought, the plants may,
under some conditions be sown broadcast or
with the grain drill on what may be termed the
broadcast plan. But when a more vigorous and

THE NON-SACCHARINE SORGHUMS. 65

luxurious growth is sought, then the seed should be
planted in rows and cultivated. The latter sys-
tem will be more commonly adopted where moisture
is deficient.

When sown on the broadcast plan, the aim
should be to plant with the ordinary grain drill all
the tubes being in use, or only every alternate tube,
as may be desired. When sown in rows far enough
apart to admit of cultivation being given, the same
implement may be used, but of course various other
seed planters may also be used. The rows should be
from thirty to, say, forty-two inches distant, accord-
ing to circumstances, except in the case of teosinte,
which should, at least when grown for certain uses,
have a greater distance between the rows. But the
most suitable distance for placing the rows when
growing these crops can only be determined with
precision in each locality by actual experience in
growing them.

The time for planting will depend on the
location and the character of the weather. It would
be a mistake, however, to plant the seeds before the
weather had become steadily warm. The plants are
less able when young to endure cold than corn in
nearly all its varieties, and than sorghum in its
leading varieties. At the Minnesota university
experiment station low temperatures prevailed dur-
ing two or three weeks subsequent to the planting of
these crops in 1897. Corn in some of its varieties
made a fairly good start notwithstanding, and the
Early Amber variety of sorghum maintained its hold
upon the soil. The non-saccharine sorghums with-
out exception only partially germinated, although
5

66 SOILING CROPS AND THE SILO.

the conditions were precisely the same. It was
necessary to plant the non-saccharine sorghums a
second time.

The amount of seed required will vary with the
climatic and soil conditions and with the character
of the produce sought. The more favorable the
attendant conditions, the greater should be the
amount of seed sown when growth fine in character
is sought, and since the plants of some of these sor-
ghums produce more stalks and foliage than others,
it is not necessary with the former to plant so much
seed. Notably is this true of teosinte, and in a less
degree of Milo maize. When planted in rows where
cultivation is to be given other than harrowing, a
few pounds of seed will suffice for an acre. But
when these crops are sown broadcast, from about
one-half bushel to one and one-half bushels of seed
per acre are used.

Cultivation. — When the non-saccharine sor-
ghums are planted with any kind of drill or planter,
they may be harrowed without hazard to the plants
just as they begin to push up through the ground,
providing the harrow is light, and that when in use
a backward slant is given to the teeth. Later, on
certain soils, as those quite loose in character, such
as the humus soils of the prairie, some form of
weeder may be used in many instances, more espe-
cially when the plants are in rows distant from one
another. When thus planted, further cultivation
should be given with more or less frequency. It
should be sufficient to destroy weeds and to retain
moisture in the soil to the greatest extent practicable.
tWhere moisture is usually more or less wanting, the

THE NON-SACCHARINE SORGHUMS. 6j

crops should in all instances be so planted that they
may be cultivated.

Feeding. — The non-saccharine sorghums and
also teosinte can be cut for soiling food from one to
several times in one season. More particularly is
this true of Milo maize and teosinte. The same
mode of cutting, carting and feeding may be adopted
as in handling sorghum (see Page 47). The cut-
ting may begin at any time after sufficient growth
has been made to justify the same, and the residue
of the crop not wanted for green food may be allowed
to mature. When sufficiently matured, it can be
harvested and fed in winter. The ration is improved
by feeding these crops in conjunction with one of
the legumes, as, for instance, alfalfa, vetches, cow-
peas or soy beans. In many instances it would be
possible to feed them thus, since one or more of the
legumes named can be successfully grown under
conditions suitable for the successful growth of the
non-saccharine sorghums.

CHAPTER V.

PLANTS OF THE CLOVER FAMILY.

Many kinds of clover are now being grown in
this country. Some of these are indigenous, but
those possessed of highest economic value have been
introduced from Europe. While each kind has
a mission of usefulness in some section or sections
of the continent, only a few are suitable in
any marked degree for being grown as soiling food.
The chief of these are the common or medium red,
the mammoth, alsike, crimson and alfalfa. As the
methods of growing the first four varieties are in
many respects very similar, they will be considered
together. Alfalfa will be discussed by itself, since
it differs considerably from the other clovers men-
tioned in habits of growth, and for this reason
requires different management.

MEDIUM, MAMMOTH, ALSIKE AND CRIMSON CLOVER.

Medium red clover (Tri folium pratense) is
biennial and perennial in its habit of growth, accord-
ing to the climatic and other conditions under which
it is grown. It differs from the other three kinds
in the continuity of its growth throughout all or
nearly all of the growing season. Because of this
peculiarity it usually produces two cuttings of soiling

68

PLANTS OF THE CLOVER FAMILY. 69

food or hay itiotie- season, whereas, the others only
produce one.

Mammoth clover (Trifolium medium) is also
biennial and perennial in- its habit of growth. It
differs from the other clovers in the stronger char-
acter of the top and root growth which characterizes
it. The food which it produces is in consequence
coarser in character, unless when the plants are
grown very thickly. It is better adapted than the
medium variety to soils that are medium or less than
that in fertility. The bloom on both the medium
and mammoth varieties is a beautiful red. To the
casual observer the only differences apparent in the
varieties while they are growing are the large-*- leaf,
stem and head of the mammoth variety.

Alsike clover (Trifolium hybridum) is a peren-
nial plant. The period of its duration is dependent
on such conditions as pertain to climate, soil and
treatment. All of the clovers under discussion will
live longer than they otherwise would if prevented
from producing seed. This kind differs from all
the others in the greater fineness of the growth and
in the beautiful blending of white and red tints in
the bloom.

Crimson or Scarlet clover (Trifolium incarna-
tum) is an annual plant, that is to say, it completes
the cycle of its existence within twelve months from
the date of sowing the seed, although more com-
monly it is sown one year and reaped the next. It
differs from the other clovers in the shape of the
heads, which are oblong and cone-shaped, in the
rich scarlet color of the bloom, and in the more
hairy character of the stems, a property which

^O SOILING CROPS AND THE SILO.

detracts from its feeding value when grown for
hay.

While clover of all the species named furnishes
an excellent soiling food, it is not so commonly
grown for such a use, for the reason, first, that the
yield per acre is much less than that of many other
foods grown for soiling; second, that ordinarily it
is so easily cured for hay, and, third, that it is so
easily handled when cured. The crimson clover is
ready to be cut for soiling food before the spring
months have gone, or some weeks before the medium,
which in turn is ready in from two to three weeks
in advance of the mammoth and alsike. The value
of the crimson clover as a soiling food is thus some-
what lessened by the necessity for thus cutting and
feeding it when pasture is plentiful and succulent.

Clover furnishes excellent soiling food for
horses, cattle, sheep and swine, but when fed to sheep
and swine it should be cut at a stage somewhat earlier
than when fed to horses and cows, to secure more
fineness in the growth. When fed to cattle and
sheep it should be somewhat restricted in quantity
at first, or else wilted before it is fed, as the unre-
strained feeding of fresh cut clover will sometimes
cause bloating, which if not speedily relieved may
result fatally.

The yield of soiling food from all these kinds
of clover varies, of course, with the conditions under
which they are grown. It will be approximately
correct to place the average yield of the first cutting
of medium clover for soiling uses at six tons per
acre, and of the second cutting the same season at
four tons. But these yields can be increased at

PLANTS OF THE CLOVER FAMILY. Jl

least 50 per cent by judicious cultivation. The
yield from each of the other varieties is somewhat
greater than that obtained from the first cutting
of the medium clover, but it is likewise some-
what less than that obtained from the two cut-
tings of the latter.

Distribution. — The clover zone in the United
States and Canada covers the entire portion of the
arable land. But there are stretches of country,
nevertheless, in which clover of any of the species
heretofore introduced has not been grown with any
marked success. One of these stretches lies east of
the Rocky mountains in what is usually spoken of
as the semi-arid belt. In this area it perishes from
want of moisture. Another stretch lies to the north
of Minnesota and North Dakota, where the low
winter temperatures forbid the successful growth of
clover. In some limited areas of these stretches,
some kinds of clover can be grown, but it cannot be
said of the same that they have high adaptation for
growing clover, nor can any of the clovers now
under discussion be grown with marked success in
the southern states, unless it be the crimson. The
summer heat is not favorable to its development.

The distribution of the medium, mammoth and
alsike species of clover is about the same, but the
alsike can be grown somewhat farther north than the
medium or the mammoth. Above the 5oth parallel
these clovers are not a success, nor are they a marked
success below the 38th parallel, unless in very limited
areas. In much of the country between these
parallels they can be grown with more or less suc-
cess, save in the semi-arid country beside the Rocky

72 SOILING CROPS AND THE SILO.

mountains and east of them, and in the cold country
lying north and south from the eastern half of the
St. Lawrence river. The highest adaptation for
these clovers is found south of the 5oth parallel and
beside the Pacific, including also the Rocky mountain
valleys when supplied with moisture. Next in
adaptation comes what was originally the forest
country, including certain prairie lands, which,
although not originally covered with timber, will
produce it readily. This belt lies between the upper
Mississippi and the New England states. The New
England states and the Maritime provinces of
Canada will grow clover, but not with that
luxuriance which characterizes its growth in the
other areas named. The greatest clover-growing
states on the continent include Michigan, Wisconsin,
eastern Minnesota, Iowa, northern Missouri,
Illinois, Indiana, Ohio, and parts of Montana and
Washington. It also grows with superlative
luxuriance in southern Ontario.

Crimson clover thrives best in a climate some-
what warmer than is suitable for the other kinds.
The highest adaptation for this plant is probably
found in the Atlantic and Gulf states, southward
from New York city. It is not usually grown with
much success north of the latitude of Columbus, O.,
that is to say, north of the 4Oth parallel. But for a
short distance north of that line it may be grown in
good form along the Atlantic coast and for a much
greater distance north of the same latitude along the
Pacific coast. Unless well protected, crimson clover
cannot withstand low temperatures. When the
medium, mammoth and alsike clover grow at their

PLANTS OP THE CLOVER FAMILY. 73

best, crimson clover can seldom, or never, be grown
with equal success.

Soils. — All the species of clover under discus-
sion will grow better in soils having in them a very
decided clay element. When sufficiently supplied
with moisture, these clovers will even grow
vigorously in clays of the stiffest texture. They
grow better in clay loams than in sandy loams, but in
fertile sands, such as abound in many of the Rocky
mountain valleys, they will make a wonderful
growth when plentifully supplied with water. The
volcanic origin of many of these soils, however, may
account for their wonderful adaptation to the
production of clover. The humus soils of the prairie
will produce clover abundantly when there is in them
enough clay to make them measurably dense, but
when this element is so far lacking as to allow them
to lift with the winds, they do not possess highest
adaptation for clover. In fact, it cannot be success-
fully grown upon these, unless in exceptional
instances, until the land becomes impacted by
cultivation more or less prolonged. Soil adaptation
in the medium red and mammoth red clovers is about
the same. Ordinarily they grow in what may be
termed deep, moist, friable clays, underlaid with a
subsoil of clay of medium density. They grow least
well on soils impregnated with alkali and on infertile
sands, more especially when these are ill supplied
with moisture.

Those soils usually spoken of as swamp lands
have special adaptation for the growth of alsike
clover when they rest on a clay subsoil, and when
the water table has been sufficiently lowered in them

74 SOILING CROPS AND THE SILO.

by some form of drainage. But alsike clover will also
grow well in some of those lands which have highest
adaptation for the medium, red and mammoth sorts,
more especially those of them that are strongly
spiced with clay. The ordinary upland prairie does
not seem well suited to the production of alsike
clover, more especially when this soil is lacking in
moisture. While crimson clover will flourish on
soils well adapted to the growth of the other red
clovers, it would seem to have more adaptation for
sandy soils than these. Much of the soil in the chief
centers for growing crimson clover is sandy in tex-
ture. This greater adaptation arises probably in
part from the great power the plants have to gather
food, and in part from the moist character of the
climate in crimson clover centers during those por-
tions of the year in which the crop is produced.

Place in the Rotation. — As clover is a soil reno-
vator, the aim should be, first, to grow it on land in
which it is specially desirable to increase the supply
of nitrogen; second, on land where it is to be fol-
lowed by a crop that requires an abundant supply
of nitrogen in the soil to enable it to produce abun-
dantly. It should also be sown on land that is at
least measurably clean, as an abundant growth of
weeds in the crop will not only lessen the yield, but
will impair its feeding value in proportion as they
are present. There is special fitness, therefore, in
laying down to clover, land that has produced a crop
to which clean cultivation was given, as, for instance,
a crop of corn, potatoes or field roots. And the
reasons are equally good for following the clover
crop with wheat, oats or barley, corn or potatoes.

PLANTS OF THE CLOVER FAMILY. 75

In some sections it is common to grow medium
red clover, corn or potatoes and small grain in a three
years' rotation. When the conditions are suitable
the plan is an admirable one. But few methods of
crop production will compare with it in the easy
maintenance of soil fertility and in the profits that
grow out of the system. The other leading kinds
of clover, however, are not so well adapted as the
medium for such a rotation. The mammoth does
not produce a second growth, for being plowed under,
as does the common red. The alsike is perennial in
its habit of growth, and the crimson is better adapted
to another form of rotation, as will be shown below.

The medium and mammoth clovers may, never-
theless, be made to fit into any kind of a rotation.
The aim should be to grow them at short rather than
at long intervals in the rotation, and for several
reasons. First, as previously intimated, they have
great power to enrich the land by depositing in it
nitrogen drawn from the air; second, they have
much power to gather supplies of phosphoric acid
and potash in the subsoil, much of which is deposited
again in the cultivable strata; third, they improve
the mechanical condition of the land by the abun-
dance of the vegetable deposit contained in the roots,
and, fourth, the humus thus supplied greatly
increases the power of the land to hold moisture,
whether it comes from above or below. There is
probably no other plant grown that is capable of
exercising so beneficent an influence on farming.

The place for crimson clover is, properly speak-
ing, that of a catch crop. It is usually grown as the
antecedent of or the consequent to some other crop

76 SOILING CROPS AND THE SILO.

grown the same season. And this is true of it
whether it is grown for pasture, for soiling food, for
hay or for green manure. It may with much pro-
priety be preceded by such quick-growing early sum-
mer crops as vegetables and certain of the early
maturing cereals, and followed by such crops as pota-
toes, corn or any of the sorghums, and on soils low
in fertility by cowpeas or soy beans.

Preparing the Soil. — In preparing the soil for
clover seed in any of its varieties, the aim should be
to secure a seed bed fine, firm, deep, moist and clean.
It should be fine that the clover seeds may be more
perfectly hidden from the* light, and that the tender,
tiny rootlets may easily ramify the soil in search of
food. It should be firm to prevent evaporation, too
rapid from the surface. It should be deep to allow
the tap roots to go down readily. But in light sands,
or spongy loam soils of the prairie, shallow cultiva-
tion would be preferable unless done a good while
previously to the sowing of the seed because of the
difficulty of sufficiently firming such soils. It should
be moist to promote quick germination and rapid
growth. It should be clean to secure an abundant
growth in the clover and to produce a good quality
of food.

The first of these conditions may be more
readily secured when the soil is plowed in the
autumn, and such plowing is also favorable to secur-
ing all the conditions named. Deep plowing can be
done much more advantageously in the fall than in
the spring, where fall plowing is in order. But in
climates with much rainfall in winter, autumn plow-
ing may be less judicious than spring plowing,

PLANTS OF THE CLOVER FAMILY. 77

especially where the soil contains much clay. The
winter rains cause it to "run together" in a way that
increases the labor of subsequent cultivation, and
that further imperils the abundant and vigorous
growth of the plants. Some soils are so friable that
they call for but little pulverization; other soils, as
clays, are oftentimes cloddy on the surface. It is
especially important that these shall be made fine by
the repeated use of the roller and harrow. Firmness
in the seed bed may be secured by plowing the land a
considerable time previous to the sowing of the seed,
or by using the roller freely on it. Autumn plowed
lands always furnish a seed bed more firm than those
that are spring plowed, a fact of much significance
in cultivating the soils of the northwestern prairies.
When firming some classes of these soils, by running
a heavy roller over them, it may be necessary to
follow the roller with a light harrow to prevent them
being more or less carried away by the wind. Deep
cultivation is secured, of course, by simply plowing
more deeply, and in some instances by subsoiling.

In some sections of the prairie the growth of
clover is greatly promoted by plowing so deeply that
some of the firmer subsoil shall be brought to the
surface. But with nearly all classes of soils, if much
of the subsoil were brought to the surface at one
time the influence on plant growth at the first would
be harmful, because of the unameliorated condition
of such subsoils. The management that secures a
fine tilth and a firm seed bed will also tend to increase
the moisture in the land. When the clover seed is
sown early in the spring, a clean seed bed can only
be secured by cultivation given the previous season,

78 SOILING CROPS AND THE SILO.

but when sowing the seed is deferred until late in
the spring or until summer, the seed bed may be
made clean near the surface by the frequent use of
the harrow between the opening of spring and the
sowing of the seed.

When growing clover for soiling, it is very
important that heavy yields shall be obtained, since
a heavy crop is so much easier to gather than a light
one. The former may easily be lifted, and with
sufficient cleanness, without using a rake; whereas,
the latter would require to be raked, thus adding very
much to the labor of gathering the crop, and to the
area of land required to grow it. One great advan-
tage from growing soiling crops, viz., that of
intensive production, would thus be defeated. It
is always expedient, therefore, to make land quite
rich that is to grow clover for soiling, when it is not
so already, by the addition of fertilizers. Of these,
farmyard manure is certainly one of the best; and
when applied it will of course feed the nurse crop as
well as the clover. The kind or kinds of commercial
fertilizer or fertilizers that may be employed with
most advantage will depend upon the needs of the
land. Nitrogen, phosphoric acid and potash are
most frequently needed, but in quantities that vary
according to conditions, and in many instances
lime acts very beneficially. On some soils the
growing of the clover is greatly stimulated by sow-
ing on the young plants when the period of growth
is beginning or has already begun, an application of
gypsum, usually not less than 100 pounds per acre
and not more than 300 pounds. In other instances,
marked benefit results from sowing wood ashes,

PLANTS OF THE CLOVER FAMILY. 79

leached or unleached, on the crop previous to the
season of active growth. The application of leached
ashes should be about four times as heavy as that of
unleached ashes, that is to say, it may run from about
200 bushels per acre upward.

Sowing the Seed. — Clover seed may be sown by
hand, by using a hand seed sower, or by the grain
drill with, and, in some instances, without an attach-
ment for sowing grass seeds. Which of these
methods should be adopted will depend on various
conditions, such as relate to soils and soil properties
and to the machinery that is available. When the
seed is sown by hand, the aim should be to sow with
two hands rather than with one, and to distribute the
seeds quite evenly. The seed can be carried in a
seed box or sack suspended at a suitable hight against
the breast of the sower and kept in place by the use
of shoulder straps. Much care should be taken to
choose a still time for hand sowing the seed, as, for
instance, the early morning, and also a condition of
soil that hinders its undue adherence to the feet
of the sower.

That form of hand seeder which is wheeled on
the land on a hand barrow frame distributes the seed
more evenly than would be possible in sowing by the
method just described, and it can be sown when the
winds are blowing at a rate that would forbid scat-
tering the seed by hand at such a time. When the
seed can be sown with the grain drill, the saving in
labor is very considerable and the work is also done
in excellent form. When it is desired to bury the
seed deeply, as on spongy prairie soils, it may be
thus planted by mixing the clover seed along with

80 SOILING CROPS AND THE SILO.

the grain. When a less covering is sought, as in
sowing under average conditions, the seed is allowed
to fall in front of the drill tubes, and when a still
lighter covering is desired, as when the seed falls
on heavy soils, it is covered by using a roller on the
land after the seed has thus been dropped upon its
surface. And in yet other instances, as when the
soil is quite heavy and ample moisture is assured,
the seed thus deposited is frequently allowed to lie
unburied. But when a light covering can be secured
for clover seed, the germination of the seed is more
certain and the ability of the young plants to with-
stand dry weather is increased.

The quantity of seed required will vary with
the variety sown, with the richness of the soil, and
with the proportion of seed of other grass plants that
may be sown along with the clover. When clover
is sown alone, from ten to fifteen pounds per acre
of the crimson clover are usually sown, but some-
times a less quantity, from ten to twelve pounds
of the medium red and mammoth species and from
four to six pounds of the alsike. The difference in
relative quantities sown arises chiefly from the dif-
ference in the relative size of the seeds and the
difference in the capacity of the plants for stooling.
The richer the soil also the less the quantity of the
seed required, and the amount of clover that ought
to be sown will of course be reduced as grass seeds
are added to the seed sown.

Since clover, when it grows vigorously, is liable
to lie down when sown alone, it is considered advan-
tageous to sow along with it the seed of some grass,
that the grass plants thus produced may sustain the

PLANTS OF THE CLOVER FAMILY. 8l

clover. Timothy is more commonly grown thus
than any other grass, because of its very general
adaptation, but in some localities tall oat grass may
better serve the end sought, since it is about as early
as clover in its habit of growth. As timothy matures
about the same time as the alsike and mammoth
clovers, it is more suitable for being sown along
with these than with the medium sort. But it
should not be sown with the expectation that it will
furnish a support to crimson clover, because of the
much more rapid growth of the clover. For every
pound of the seed that is added to the mixture sown,
the clover seed should be reduced in the same propor-
tion, and sometimes the reduction in the clover
should be greater relatively. But it is seldom neces-
sary to have the timothy seed form more than one-
third of the quantity of seed sown.

The period for sowing clover may be made to
cover all the spring months, and in some instances
the early summer months, but the medium, mammoth
and alsike clovers are more commonly sown in early
spring. They should seldom be sown in autumn,
as the young plants cannot endure the cold of the
winter following. But to this there may be some
exceptions. In some instances the seed is sown
while the old snow yet lingers, but when thus sown
some of the seed is liable to be carried away with
the vanishing snows, when the melting of the latter
is hastened by warm rains. At other times it is
sown when the ground is honeycombed by spring
frosts. The seed is thus covered by the action of
frost and sun. In other instances it is sown on a
light fall of snow, usually spoken of as "sugar
6

82 SOILING CROPS AND THE SILO.

snow." When the latter melts it frequently carries
much of the seed down into the soil. Clover seed
is seldom if ever sown thus early, except with a nurse
crop of winter wheat or rye. Usually it would be a
safer way to defer sowing the seed until the surface
of the soil has so dried that when the seed is sown
it may be covered with the harrow. The harrow-
ing if properly done is beneficial to the nurse crop as
well as the clover seed. But in some instances the
harrow cannot be used, as in clay soils, which remain
unduly moist in the spring.

When clover seed is sown with a nurse crop of
spring grain, as, for instance, barley, wheat or oats,
it should be covered more or less deeply; the later
the period of sowing the more imperative is it that
the seed should be so covered. Where moisture is
usually sufficiently plentiful, the plan of sowing
clover seed with a nurse crop is commendable. But
all nurse crops are not equally favorable to the
growth of the clover. Those which are most favor-
able include barley and winter rye ; those which are
least favorable include such crops as oats and millet.
But when clover is sown with a nurse crop and the
weather turns dry, if the nurse crop can be pastured
off, or cut at some stage previous to that of maturity,
the hazard to the young clover plants will be so far
lessened, as they are then deprived to a smaller
extent of the strengthening influences of sunlight
and moisture. On the soils of the prairie, so light
that they are springy to the tread, a good stand of
clover may frequently be obtained by sowing it with
a crop that is to be pastured, as, for instance, a crop
of mixed cereals or rape. The treading of the live

PLANTS OF THE CLOVER FAMILY. 83

stock would seem to react beneficially to the young
clover plants by impacting the soil near the surface
and thus lessening the loss of moisture through sur-
face evaporation. Sheep are considered more suit-
able for such pasturing than cattle or swine.

But there may be instances when a stand of
clover can best be secured by sowing it alone, as when
the normal supply of moisture is low. When thus
sown, the soil should be made as clean as possible
before sowing the seed. It may not be possible thus
to clean the land when the seed is sown early, but
it may be cleaned, at least measurably well, by sur-
face cultivation, when the seed is deposited late in
the season. When sown on weed infested land, the
weeds should be kept down with the mowing
machine.

Crimson clover is not usually sown earlier than
July, and it is not considered wise to sow it later
than September, unless in the mildest portions of the
south. Near the northern limit of production it is
thought more or less hazardous to sow later than
August. If the plants enter the winter in a weak
condition, the danger is imminent that they will
perish before spring. When preparing the land, it
is sometimes thought preferable to seek fine surface
cultivation without plowing the land, rather than the
deep cultivation which plowing secures. In some
instances, as on clean land, from which early vege-
tables have been harvested, the seed may be at once
sown and covered with the harrow. In other
instances it is sown in the standing corn and cov-
ered lightly with the last cultivation given to the
corn crop. There may be instances when it would

84 SOILING CROPS AND THE SILO.

be proper to sow it amid grain stubbles and to cover
it with the harrow. It is manifest that the methods
of sowing this crop are various. To so great an
extent is this true that it would not be prudent to try
to give directions that would precisely meet the needs
of each locality.

Cultivation. — Clover does not require any culti-
vation in the sense in which drilled corn and sorghum
call for the same. But it is important that it shall
not be grazed too closely the first season, lest its
power to withstand winter weather shall be unduly
weakened. In a large majority of instances it
should not be pastured or mowed the first year when
it has been sown with a nurse crop. But in some
seasons it may grow so rank that by its own weight
it would smother underneath the snow, unless pas-
tured more or less. In some localities quite favor-
able to the growth of clover, it will produce seed the
first year unless means are taken to prevent it from
doing so. To allow the plants to produce seed the
first year will materially tend to weaken their growth
the second year. To prevent such a result, such
clover should be cut by the mower set high and when
it is coming into bloom. The plants cut off should
be allowed to lie where they fell. They will act as
a mulch to protect the crop. But when clover is
sown early and not along with a nurse crop, there
may be instances, not a few, when it would be advis-
able to cut it for hay or green food.

Feeding. — The harvesting of green clover for
soiling in all its varieties may begin as soon as the
first heads appear, but more food will be secured if
the cutting is deferred until the crimson tint on the

PLANTS OF THE CLOVER FAMILY. 85

heads is pronounced. The cutting and feeding of
the crop as green food may be continued as long as
the plants are eaten with a relish by live stock. When
ready for being made into hay, it is common not to
feed it longer as green food. This stage will be
reached by the time that the crop is in complete
bloom. It is manifest, therefore, that the period for
using clover as soiling food is a short one, not longer
usually than from two to three weeks, and if a plat
or field of alsike, or mammoth clover has also been
sown in addition to the medium red clover, it will
prolong the feeding for about an equal period. The
two crops, therefore, will provide green food for five
or six weeks in succession. The medium red clover
will also furnish a second cutting of soiling food
which will be available in about six or seven weeks
subsequent to the first cutting, when grown under
normal conditions. The period of cutting will vary
from about June ist to July ist north of the
4Oth parallel.

The green food is cut daily or every other day,
as may be desired, by using the scythe or field mower,
and is fed in pastures, paddocks or from feed racks
in the yards, as may be thought most advisable. In
large quantities it is of course drawn on a truck or
wagon. When cut with the mower it should not lie
many hours in very bright weather without being
"bunched," as it will soon lose so much moisture that
its succulence will be too much lessened. A little
wilting tends to obviate the danger from bloating in
the animals to which it is fed. This danger with
cattle and sheep is always imminent in some degree
when green clover is fed in a. very succulent condi-

86 SOILING CROPS AND THE SILO.

tion and unstinted in quality, when the animals are
hungry. And the danger is further increased by
dampness caused by rain or dew.

ALFALFA.

Alfalfa (Medicago sativa), sometimes called
lucern, has a higher adaptation for soiling than any
other plant of the clover family. This arises, first,
from the rapid and prolonged character of its
growth ; second, from its long-lived character ; and,
third, from the excellent quality of the food which
it produces. Alfalfa is ready for being cut as green
food at least two weeks earlier than medium red
clover, and in some instances it will yield a cutting
every month thereafter during the season. There
are some favored sections in the United States in
which, by judicious managment, alfalfa may be cut
and fed as green food every month in the year. The
duration of alfalfa meadows will depend in a great
measure on the conditions of soil and subsoil, more
especially the latter, while it will sometimes fail
within a few years from the date of sowing ; in other
instances, it will continue to grow and thrive indefi-
nitely. Alfalfa meadows are now in existence which
have been mowed every year for more than forty
years. But of course the average duration does not
cover nearly so long a period. The excellent quality
of the food arises in part from its nitrogenous char-
acter and in part from its palatability.

In view of the pre-eminent suitability of this
plant for soiling purposes, it seems strange that this
fact has not been more generally recognized by

Pig. 10. Alfalfa, Single Plant

Minnesota University Experiment Farm.

88 SOILING CROPS AND THE SILO.

farmers. Under favorable conditions it would be
easy to obtain abundant supplies of green food from
alfalfa from spring until fall at a less cost than it can
be obtained from any other source.

Green alfalfa is not only relished by horses,
cattle, sheep and swine of all ages, but it is specially
adapted to their needs. When fed freely to young
animals it promotes a large and vigorous growth.
Along with suitable grain adjuncts, it will fatten
animals quickly and will give them a fine finish.
Lambs can be raised upon this food alone, in addi-
tion to the milk furnished by their dams. And with
but a limited addition of more carbonaceous food,
swine may be raised upon it until ready for the block.
Of course during the fattening period, grain must
be the chief reliance. But to no class of stockmen
is green alfalfa of more benefit than to dairymen. It
is excellent for milk production, and the long season
during which it is accessible further accentuates its
value. Of course, in the green form, it should be
fed with some restriction to horses at work, but for
all other classes of horses it makes excellent food.
It is also helpful when fed to fowls. Other things
being equal, meat and milk cannot be produced any-
where more cheaply than in areas possessed of high
adaptation for growing alfalfa.

The yields of green food furnished per acre for
the season vary with the number and strength of the
cuttings to be obtained. There are localities in
which alfalfa will grow, and yet the yields obtained
are not equal to those which would be obtained from
an equal area of red clover. In these it should not
be grown, The number of cuttings obtained per

PLANTS OF THE CLOVER FAMILY. 89

season in the green form varies from one to seven or
eight, but the average may be stated as four, and
the yield per cutting may be put at four to six tons
per acre. In areas not a few, therefore, from sixteen
to twenty- four tons of green alfalfa may be obtained
per acre from season to season, and with no other
labor after the crop has been established than that
of opening the sluices which let in the irrigating
waters. Nor are those alfalfa lands likely to become
exhausted soon, because of the extent of the subsoil
from which they draw food supplies.

Distribution. — But few plants are of wider dis-
tribution than alfalfa. While it is not able to endure
temperatures so low as some of the real clovers, it
will thrive in latitudes too warm and dry to produce
these kinds in good form. The growth of alfalfa
would seem to be more hedged in by conditions that
relate to soil and subsoil than by those which relate
to climate. Because of these limitations, alfalfa will
yield abundantly in certain areas within a state, and
in other areas in close proximity to them it cannot
be grown at all. It can probably be successfully
grown in portions of each state in the Union. So
wide is its distribution that it is successfully grown
in some portions of Quebec, Ontario and British
Columbia in Canada.

But the distinctive alfalfa belt of the United
States lies west of the Mississippi and south o>f the
Missouri. It embraces nearly every Rocky moun-
tain valley from Canada to Mexico. It includes
areas possessed of subterranean waters, not too dis-
tant from the surface, as well as those which it may
be necessary to irrigate at certain seasons; also

90 SOILING CROPS AND THE SILO.

certain tillable upland soils in several states which
cannot be subjected to irrigation. The variety known
as the Turkestan, recently introduced by the Depart-
ment of Agriculture at Washington, is proving so
hardy, that it is now thought it can be successfully
grown in areas that are too dry and too cold for the
successful growth of the kinds heretofore grown.

While alfalfa will produce well in some rainy
climates, it has higher adaptation for those that are
dry, up to a certain limit. Drenching rains which
literally saturate the ground with water are harmful
to it rather than helpful. And in climates where
the period of growth is long, this crop is propor-
tionately more helpful than in those where it is short.
It is not a little surprising that a soiling crop so
useful should not have been grown to a greater
extent in the past in the lower Atlantic and Gulf
states, since the conditions in certain areas of these
are quite favorable. With the greater need that is
now being felt for a supply of such foods, the produc-
tion of alfalfa will doubtless greatly increase in the
near future.

Soil. — The soil and subsoil more than anything
else are potent factors in determining where alfalfa
may and may not be grown. And of these the sub-
soil is the more important. The reasons will be at
once apparent when it is remembered that alfalfa
roots grow deeply and that the major portion of the
food obtained from the earth by the plants comes
from the subsoil rather than from the soil. The soil
conditions most favorable to the growth of alfalfa are
found in loam soils, inclining to sand or gravel, and
spiced with a goodly increment of clay. But alfalfa

PLANTS OF THE CLOVER FAMILY. QI

will frequently flourish in clay soils with no slight
degree of adhesion in them, providing the subsoil
conditions are suitable. The vegetable soils of the
western prairies are not usually well adapted to the
growth of alfalfa. The volcanic soils of the Rocky
mountain region furnish ideal conditions when suffi-
ciently supplied with moisture.

In a subsoil in which alfalfa roots are to grow
vigorously, the most important requisite is that it
should be easily penetrable. Ideal conditions are
sometimes found for starting an alfalfa crop success-
fully, and yet the plants soon fail because of the
impenetrable character of the subsoil. The second
great requisite in the subsoil is, it should be deep.
The necessary depth will vary, but it should not be
less than several feet to provide ample feeding
ground for the roots; and a third requisite is that
the subsoil should be moist. But at all seasons of
the year it should be free from stagnant water to the
depth of several feet from the surface. These con-
ditions are best obtained in certain of the almost
rainless river valleys of the west. If the soils and
subsoils are sandy or gravelly, and underneath them
are sheets of water at varying depths, the plants are
supplied with moisture from this water through the
process of capillary attraction. With similar con-
ditions of soil and subsoil, except that the ground
water is absent, the alfalfa plants would perish unless
irrigated. This explains why alfalfa cannot be
grown in wide areas of the semi-arid country west
of the Mississippi, where the soil and subsoil requi-
sites are all that could be desired, but for the absence
of the ground waters.

g2 SOILING CROPS AND THE SILO.

In the absence of irrigation and also of marked
humidity in the climate, what may be termed mild
clay subsoils furnish the best subsoil conditions for
growing alfalfa. In these it gathers suitable food.
These subsoils, oftentimes, possess a sufficiency of
moisture through all the season to sustain good crops.
Of course, in dry seasons the subsoil moisture may
become so reduced as to materially interfere with
abundant production. But in climates of average
humidity, they are satisfactory for growing this crop.

Place in the Rotation. — Properly speaking,
alfalfa can scarcely be said to be a rotation plant,
owing to the long period through which it continues
to grow. That is one of the objections urged against
growing it. But in certain areas favorable to its
development, it may be grown for a term of years
more or less limited, and then followed by certain
other crops for an intervening term of years. As it
is one of those plants which gather nitrogen from
the air, it is so far a soil renovator. Alfalfa should,
therefore, precede some crop which requires much
nitrogen to perfect its growth, as, for instance, corn
or wheat. Deep-rooted plants may follow alfalfa
with much propriety, since they can find ample food
in the subsoils even, in which alfalfa roots are mold-
ering, as, for instance, field roots, or rape. And the
crop that precedes alfalfa should, if possible, be a
cleaning one.

The task of plowing a soil filled brimful of
alfalfa roots of strong growth is by no means an
easy one. But it may be facilitated by using a plow
with a share somewhat serrated in its cutting edge.
When the plow is drawn, these serrations will cut

PLANTS OF THE CLOVER FAMILY. 93

the roots and so make it possible to turn a straight
furrow.

Preparing the Land. — The preparation of the
soil that will be the most suitable for alfalfa will
depend upon conditions such as relate to variations
in soil and to the season for sowing the seed. Speak-
ing in a general way, the seed bed should be deep,
moist, clean and of fine tilth. But with upland soils
subjected to very dry conditions, stirring the- soil to
but a little depth, when preparing a seed bed, would
be preferable. The firming of the seed bed is pecu-
liarly applicable to the upland soils of the south-
western states, but it will oftentimes be necessary to
run a light harrow over the ground, after it has been
firmed with a heavy roller, to prevent the wind from
lifting the soil and in some instances to prevent the
too rapid evaporation of soil moisture. When the
seed is sown in the early spring, it is not possible at
all times to secure a clean seed bed for the alfalfa,
unless it is made to follow a well cultivated crop of
the previous season. There may also be instances
in which the labor would be wisely expended in sum-
mer fallowing the land the previous year. When it
is thus fallowed it is important that green crops be
sown upon it at the same time and plowed under,
that the soil may thus become abundantly supplied
with vegetable matter. Such crops as autumn sown
rye followed by a quick growing legume are well
adapted to such an end.

When the seed is sown late, there is then time
to clean the surface soil through the successive
harro wings that may be given. Because of the
probable duration of the crop when established, and

94 SOILING CROPS ANt> THE SILO.

because of the recognized tendency in weeds and in
some other grasses to increase and thus crowd out
the alfalfa, it is very important that the crop be
sown upon a clean seed bed.

When alfalfa is sown with a nurse crop, the
preparation of the soil that is best suited to the nurse
crop is likely also to prove suitable to the alfalfa.
But in soils with much adhesion, it may be necessary
to further pulverize them before they are in the best
condition to receive the seed.

In some instances, it will be better to plow the
land in the autumn; in other instances, as where
rainy winter climates prevail, plowing ought to be
deferred until spring. Sometimes, as in soils that
adhere overmuch, deep plowing is preferable and
subsoiling may even be very advantageous ; at other
times, as in tilling soils of the opposite extreme,
shallow plowing would be preferable. Usually after
crops that have been cultivated, it is only necessary
to finely pulverize the surface soil when preparing
it for a seed bed.

In laying down a piece of land to alfalfa, it is
very important that at least the surface soil should
have in it much available fertility as well as that it
should be in fine condition as to tilth, while it is
probably true that no plant grown as food for live
stock has greater power to gather the elements of
support from the soil, the subsoil and the air than
alfalfa, it is also true that in the early stages of
growth alfalfa readily succumbs to vicissitudes from
various sources, as excessive wet or drouth, heat or
cold, overshading, or even undershading. The
behavior of the plant in after years depends in no

PLANTS OF THE CLOVER FAMILY. 95

little degree upon the nature of the start of the first
season. If the plants are weak when they enter the
winter, they are likely to perish before spring, and
if the stand is thin at the first, it is likely to become
more so, though in some rich soils it may be
improved by adding more seed.

Experience has taught that with this crop also
farmyard manure is an excellent stimulant to growth.
On the whole, when this fertilizer is used in the fresh
form, it should be applied with the previous crop
that it may readily give up to the young plants the
unused content of fertility, and that many of the
weed seeds in it may be given time to sprout before
sowing the seed. When preparing the land for
alfalfa it would be a mistake to top-dress the land
with farmyard manure, even though much reduced
by fermentation, as it will still contain weed seeds
that will prove troublesome.

The artificial fertilizers that ought to be applied
must be determined by the needs of the land. They
include nitrogen, phosphoric acid, potash and lime.
The need for applying these is not so great west of
the eastern Mississippi watershed as east from that
line. The gray ash soils of the farther west are
usually abundantly supplied with the requisite food
elements. These fertilizers may better be applied
before the seed is sown, except the nitrogen, which,
in some forms at least, is more helpful when sown on
the young plants. Gypsum will benefit young alfalfa
plants quite as much as it benefits young red clover.
And it may be stated here, that unreduced farmyard
manure applied to alkali lands is so far an excellent
corrective of their alkalinity.

96 SOILING CROPS AND THE SILO.

'Sowing the Seed. — The seed may be sown by
hand, with the hand sower, or with the grain drill.
Since alfalfa is a somewhat larger seed than red
clover it may be covered rather more deeply,
particularly on western soils. On some of these it
may be sown as wheat, that is to say, by using the
ordinary drill tubes used in sowing grain.

On true alfalfa soils, the seed is seldom sown
with a nurse crop, but in moist climates this method
of obtaining a stand is quite feasible, and in some
instances commendable. It is generally deemed
preferable to sow the seed without a nurse crop, that
the plants may have the full benefit of all the season
to enable them to take possession of the soil to the
fullest extent possible. Any of the small grains
usually sown in the spring will answer for the nurse
crop, but of these barley is the best. And there are
instances in which winter wheat and winter rye may
form the nurse crop. It may frequently be unwise
to allow the nurse crop to mature, but the degree
of the advancement which it should be allowed to
make will depend upon conditions. If a nurse crop
is grown it should never be at the expense of the
alfalfa crop. And in a large majority of instances
it will be wiser to dispense with the nurse crop
altogether.

Opinions differ much as to the quantity of seed
that should be sown. Amounts named as suitable
vary from twelve to thirty pounds per acre. Usually
from fifteen to twenty pounds will be found suffi-
cient, the last named quantity being rather more in
favor on true alfalfa soils. Twelve pounds per acre
may suffice in climates possessed of moist seasons.

PLANTS OF THE CLOVER FAMILY. 97

If the plants are sown too thinly they make coarse
hay. Of the two extremes, excessive seed sowing
is the least harmful since the tendency is constant for
the plants to become thinner.

The seed is usually sown about as early in the
spring as the ground is ready to till. But it may be
possible to sow the plants so early in the season in
certain climates that the newly sprouted plants will
succumb to a severe spring frost. But when they
do, of course, the seed can again be sown. With
alfalfa as with many other plants, better results will
probably be obtained by sowing late enough to
insure continuous growth. In mild latitudes it may
be possible to sow when the late fall rains come, but
the hazard to the young plants in the winter follow-
ing is to be reckoned with.

Cultivation. — Ordinarily no cultivation is given
to alfalfa. But in some parts of the continent of
Europe where labor is cheap, it is planted in rows,
and hand hoed, to give the plants opportunity to
develop favorably, but in this country such hand
labor would be too costly. It is important that the
roots be strong and vigorous when they enter the
first winter, as that is usually the greatest period of
hazard to the young plants. When grown on upland
it is not common to use the crop for food the first
season. But it may be necessary and highly advan-
tageous to run the field mower over it once or oftener
to prevent the ripening of the weeds that are pretty
certain to grow in it. Close cutting would seem to
be more beneficial to the young plants than cutting
less closely, owing probably to the better adjustment
of the relations as to moisture present in the soil a.n4
7

98 SOILING CROPS AND THE SILO.

the needs of the young plants.: All the plants that
fall before the mower are allowed to remain where
they fall. When the crop is grown under irrigation,
it is common to utilize one cutting the first year and
sometimes two. But the young crops should not be
pastured the first year, and on the upland it should
not be pastured at all unless at certain seasons of the
year. Pasturing in the winter in cold climates is
particularly injurious, but in sections where the crop
grows at its best, it may be pastured even in the
winter, though as previously intimated, frequent and
prolonged pasturing is thought to ultimately injure
the stand of the plants, even under the most favor-
able conditions.

Feeding. — Alfalfa is ready for being harvested
as soiling food as soon as the blossom buds are
formed. It may be cut even earlier than that, more
especially when fed to sheep and swine. The feed-
ing should begin as soon as the food is ready, as in
suitable weather it rushes very quickly to maturity.
But the residue not needed as soiling food may with
much propriety be made into hay. With sufficient
moisture present, the crop at once begins to grow
again, and in from four to six weeks after the cutting
of the preceding growth the next crop is ready.
Where irrigation is practiced, it is customary to flood
the land as soon as the crop has been removed.

As the alfalfa soon gets woody after it has
reached the stage of full bloom, the residue not
wanted for soiling food ought to be cut for hay even
before it is in full bloom, else the quality of the hay
will be reduced. It is apparent, therefore, that the
feeding period from each crop or cutting is not a

Daniel W. B; Tracy

Hilton Hotx«S

IOO SOILING CROPS AND THE SILO.

long one, not longer usually than three weeks. If,
however, two plats or fields have been grown by
cutting one at an early stage of growth, and then
cutting the other, and again the first and likewise the
second in continuity of alternation to the end of the
season, the supply of alfalfa for soiling may under
favorable conditions be made to cover the entire sea-
son after the first growth is ready for being cut,
which is usually in May or June, according to the
locality. The same result can be accomplished with
but one field by taking care to cut first one portion
and then another, that the part first cut may grow
up again while the other part is furnishing soiling
food. But in the absence of irrigation, it may not
be possible to feed this food without interruption.

The scythe, or the mowing machine is used in
cutting the crop, but usually the latter. When cut
it may be drawn and fed the same as clover, that is
to say, by strewing it on the pasture, by putting it
into feed racks in a yard or paddock, or by feeding
it in mangers. It should be wilted more or less
when fed to cattle and sheep, as it is sometimes liable
to produce bloating when fed without stint in the
green form. Enough may be cut at one time to last
for a limited number of days, providing it is not
allowed to lie broadcast in the swath where it fell
beneath the mower.

Although horses and swine are oftentimes pas-
tured on alfalfa, some growers favor feeding it to
them as soiling food unless where the conditions for
growth are exceedingly favorable. The treading
and close eating of horses are pretty certain to mate-
rially shorten the duration of a stand of alfalfa,,

PLANTS OF THE CLOVER FAMILY. IOI

When pigs are pastured on alfalfa without intermis-
sion, it is not easy to regulate the pasturing so that
the food will be kept tender and appetizing. But
horses and pigs are pastured to a very considerable
extent on alfalfa. Sheep are not very much pastured
on alfalfa because of the danger from bloating.
When fed as soiling food to sheep and swine, it
ought to be cut while younger and more tender than
would be necessary when it is fed to horses and
cattle.

The long period during which alfalfa may be
fed makes it easily possible to feed it in conjunction
with other soiling foods less nitrogenous in char-
acter, as, for instance, corn and sorghum. The
alfalfa may be fed one end of the day and
green food at the opposite end of the same. The
variety thus secured is advantageous. Alfalfa, even
in the green form, may be advantageously used in
fattening animals along with some carbonaceous
food, as corn, barley or rye, but its highest use is
found in growing animals and in producing milk.
The owners of extensive alfalfa meadows would
seem to be in a position to raise horses, cattle, sheep,
swine and to produce dairy products more cheaply
than these can be produced by any other system of
arable farming.

CHAPTER VT.

LEGUMINOUS PLANTS OTHER THAN CI OVER.

The legumes are a numerous family, and yet
the species that have special adaptation to soiling
uses are not many. In addition to plants of the
clover group, the chief of these are the field pea, the
common vetch, the cowpea and the soy bean. The
cowpea and the soy bean are in a sense the comple-
ments of the field pea and the common vetch, when
considered from the standpoint of distribution.
These will be considered separately.

THE FIELD PEA.

Outside the clover family, the field pea (Pisum
sativum) is probably the most valuable legume
that is now grown on this continent. The esti-
mate thus put upon it is based on the high
nitrogen content which it contains, upon the
high relative palatability which it possesses and
upon the various combinations in which it may
be grown. Peas in combination with oats is
a favorite soiling food with dairymen, wherever
these can be successfully grown together. As a food
plant its value is probably greater when grown alone,
but owing to the trailing habit of growth which
characterizes the pea, it has been found necessary to
sow it along with some other plant when used in

102

104 SOILING CROPS AND THE SILO.

soiling, that the crop may be harvested with greater
ease, and that the value of the pea vines as stock food
may not be impaired by their lying on the ground.

Whether fed as a soiling food or in the cured
form, peas are much relished by all kinds of domestic
animals. In the green form, peas are specially suited
to the needs of animals giving milk. In the cured
form they are specifically a food for sheep, and the
ripened grain is unsurpassed as a food for swine.
The yield of the mixed crop in the green form is
seldom less than ten tons per acre, and probably
seldom more than twenty tons.

Distribution. — The common field pea may be
grown in excellent form above the forty-fifth parallel
of north latitude and from the Atlantic to the Pacific,
except in some limited areas in the dry belt east of
the Rocky mountains. As a mixed crop for soiling,
and even in the unmixed form, it may also be grown
many miles south of the line named, at least in certain
areas. But below the forty-second parallel, the
fruitage of the plants becomes more or less uncertain
because of the high temperatures that prevail when
the pea is in bloom. On high elevations the crop
is not thus affected, hence in such situations peas
will produce abundantly far southward. It is found
at its best in temperatures that are equable, and in
climates moist in character.

Soil. — Loam soils strongly impregnated with
clay are eminently adapted to growing peas. They
may also be grown with much success on stiff clays.
The returns from sandy loams will be favorably
influenced or otherwise, according as these soils con-
tain much or little clay. And the same is true of

OTHER LEGUMINOUS PLANTS. IO$

the humus soils of the prairie. The volcanic soils of
the Rocky mountain valleys and the alluvial soils in
many of the river bottoms in Montana, Washington
and Oregon have special adaptation for the produc-
tion of peas. Light, hungry sands are ill adapted to
pea culture. While the vines will grow immensely
in slough and marsh lands which rest on clay not
far distant from the surface, they do not fruit well
in these places, since the energies of the plant are so
much directed to the growth of vines. Wrhile it is
not necessary that soils should be very rich in order
to grow peas, they must be supplied with a fair
amount of potash and phosphoric acid and enough
nitrogen to give the crop a good start. The rest
they will gather from the air.

Place in the Rotation. — When peas are grown
alone, the aim should be to have them precede a crop
that requires much nitrogen to perfect its growth;
for instance, a crop of wheat, since, as already inti-
mated, peas are nitrogen gatherers. When grown
in combination, almost any place in the rotation may
be assigned to this crop. As it is commonly sown
early in the season to provide green food, and is also
harvested at a correspondingly early period, it may
frequently be followed by a crop of rape or fall tur-
nips, and it may with much propriety be followed
by a crop of winter rye.

Preparing the Soil. — This crop is more com-
monly grown as soiling food along with oats,
although it may also be grown in conjunction with
other kinds of grain. Wheat is not considered as
good as oats for being grown in combination with
peas, for the reason, first, that it matures less slowly

IO6 SOILING CROPS AND THE SILO.

than peas, and, second, that when fed as soiling food,
wheat is not relished by the stock quite so highly as
oats. Nor is barley, since it ripens ahead of peas,
and the beards are objectionable after they have
reached a certain stage of ripening. Peas and oats
mature more nearly at the same period, and as oats
stool more than peas and wheat, or peas and barley,
they produce a food less coarse in character.
But whatsoever the combination fixed upon, the
preparation of the land is virtually the same, nor
does it usually differ from the preparation that has
been found best suited to the growing of small
grains. Usually the ground on which the crop is to
be sown early should be plowed in the fall. A deep
seed bed is preferable, since peas require a deep
covering.

As previously intimated, the fertilizers most
needed for this crop are potash and phosphoric acid.
But in some instances, nitrogen has to be applied to
start the crop vigorously. Farmyard manure is very
suitable when it can be obtained ; and on many soils
land plaster will very much stimulate the growth of
the peas when applied to the crop after the plants
have grown some distance above the surface of the
ground. It would be possible to enrich the ground
too much to obtain the best results from this crop.
When rankness in the growth is excessive, the green
mass often falls down before the bloom or head
appears, and when it does, its palatability is mate-
rially lessened and the difficulty in harvesting is
increased.

'Sowing. — Various methods of sowing the seed
have been adopted, and of necessity to meet the needs

OTHER LEGUMINOUS PLANTS. 107

of conditions not the same. Where the rainfall is
normal and the soil is strongly impregnated with
clay, the seed of the peas and oat may be mixed and
deposited together by the grain drill. In such soils
three inches would seem to be a sufficient covering.
But in the black loams of the prairie, and especially
in the absence of a plentiful supply of moisture, it
would seem to be necessary to plant the peas more
deeply. This necessity probably has given rise to the
practice somewhat common in prairie areas of first
sowing the peas on unplowed land and then burying
them four inches, and even more than that, in the
process of plowing the ground. The oats are then
sown in some instances as soon as practicable, and
in other instances several days later than the first
sowing, and they are buried less deeply. The second
method is usually preferable. When sod lands
have been plowed in the autumn, or in the early
spring, and when the furrow slices have been made
narrow rather than wide, and laid at an angle of
about forty-five degrees, the seed may be broadcasted
by hand and simply harrowed in. It will fall
between the crests of the furrow slices, and the har-
row, when used properly, levels these and conse-
quently buries the seed sufficiently. But peas should
never be sown thus on level surfaces, as the shallow
covering given to them by the harrow will be washed
off in a considerable degree by the first shower
that falls.

The varieties of peas best adapted to soiling
uses cannot be named, since different conditions call
for different varieties. Usually those kinds that are
fine rather than coarse in stem are to be preferred.

IO8 SOILING CROPS AND THE SILO.

On soils with high adaptation for peas, the medium
varieties are to be preferred and on soils opposite in
character the larger varieties.

Nor can the proportion of seed to be sown in
the mixture be definitely stated. On clay loams,
peas and oats are frequently sown in equal quantities
by measure, and with satisfactory results. On other
soils peas should greatly preponderate in the mix-
ture, and yet again the same is true of oats. From
two to three bushels of the mixture are sown per
acre, and in some instances even a larger quantity.
The best method of sowing this crop and the propor-
tions of seed that ought to be sown can only be deter-
mined for each locality by actual test.

It will usually be found that the best yields will
be obtained by sowing peas and oats early rather
than late, but to prolong the feeding period it is
necessary sometimes to sow at successive intervals.
The results will of course be influenced by the char-
acter of the season.

Some few varieties of peas would probably
prove very suitable in providing soiling food, at
least under certain conditions when sown alone.
The crown pea and the grass pea are of this class.
Their straw is more upright and branching than
other varieties, and in consequence is less liable to
lodge. These two varieties are at least worthy of
being given a trial.

Cultivation. — When peas have been grown alone
or in conjunction with some other kind of grain,
and for the purpose of providing soiling food, har-
rowing the crop once or twice is the only form of
cultivation that can be given to it. A light harrow

OTHER LEGUMINOUS PLANTS. ICX)

should be used. The more weedy the soil and the
more rapidly the moisture escapes from it by surface
evaporation, the greater will be the benefit from
using the harrow. Harrowing has been found
particularly helpful to this crop when grown on
certain of the soils of the prairie. If the harrow is
used but once, it should be so used before the peas
have reached the surface. When the peas have been
sown and then covered with the plow, and the oats or
other factor of the mixed crop is sown later, the grain
thus sown may be very conveniently covered with
the harrow while the first harrowing is being given
to the pea crop. A second harrowing is seldom given,
but when it is it should be deferred until the plants
have become well rooted, and much care must be
exercised in doing the work, or the harrow will bury
too much of the grain.

Feeding. — Peas grown alone may be fed as
soiling food to swine from the appearance of the first
bloom, but the highest feeding value is not obtained
from the crop until a considerably later period.
When fed in combination with oats or other grain
to cows in milk, the feeding may begin when the peas
are in full bloom or when the oats or other grain
comes into head. The season of feeding may be
continued until the crop is nearly ripe.

The scythe or the mower should be used in cut-
ting the crop, according as the quantity to be fed is
little or much. And the method of feeding to be
adopted is practically the same as in medium red
clover.

The crop is easily handled, more so than such
soiling crops as corn or cowpeas, since it can be so

IIO SOILING CROPS AND THE SILO.

conveniently lifted with a fork of suitable construc-
tion. Also it is one of the safest soiling foods to
feed, since it never produces bloating when judi-
ciously fed. When the crop cannot be all used in
the green form, the portion that remains should be
cut and cured for winter feeding before the grain in
the pod or the ear has passed the dough stage. The
crop may be mowed and cared for after the manner
of hay, or when it stands up sufficiently well it may
be cut with the binder. When harvested with the
binder, the sheaves should be made small and should
not be very tightly bound. When the crop is very
badly lodged, the pea harvester may be used to better
advantage than any other implement in cutting them.
The crop may be fed in a pasture, in a paddock, in
racks in the shed or in mangers in the stable.

THE COMMON VETCH.

Several species of vetches have been grown in
this country, but only one of these, viz., the common
vetch (Vida saliva) would seem to have special
adaptation for being grown as soiling food. The
sand vetch (Vida villosa) has been given a consider-
able measure of praise during recent years for its
ability to furnish green food for stock, but in the
judgment of the author its highest use will be found
when it is grown as a pasture plant rather than as a
soiling food. The common vetch is frequently
alluded to as though it embraced two varieties, viz.,
the winter and spring sorts, but these were originally
probably one and the same kind grown at different
seasons of the year.

OTHER LEGUMINOUS PLANTS. Ill

This plant has not yet been given the high place
in our agriculture which it deserves. As a food
plant it possesses excellent qualities, is less susceptible
to injury from frost than the pea and is even more
palatable and nutritious. It can be grown in various
combinations, and is capable of making a second
growth in some localities, though not in all, if cut
while immature. And when the conditions are
favorable it can be grown with much success as a
pasture plant, as a soiling food, or as hay for winter
feeding. The relatively high price of the seed has,
probably more than anything else, hindered the
growing of this crop for soiling food. This should
not be so, as in states favorable to the growth of the
vetch, abundant yields of seed may be obtained.

The common vetch furnishes excellent food for
all kinds of live stock kept upon the farm. When
fed freely to cows in milk, the yield is increased. It
has a peculiar adaptation for stimulating growth in
lambs that are being given a forcing diet, and
no kind of soiling food is more highly relished by
swine.

The product will of course vary much, but
wrhen grown alone the common vetch will run from
about ten to fifteen tons per acre. When grown in
combination with other plants, the return will be
influenced by the nature of the combination.

Distribution. — The common vetch can be grown
with greater or less success in every state in the
Union and in every province of Canada. It makes
the most complete growth, however, in cool and
humid climates. The provinces of Canada from
Lake Huron eastward, and the north Atlantic states

112 SOILING CROPS AND THE SILO.

are well adapted to the growth of this plant. But
the highest adaptation, viewed from the standpoint
of climate, is found in western Washington and in
Oregon. The growth that is produced in some sec-
tions of the states is simply extraordinary. The
summer climate of the central and southern states is
too hot for the successful growth of vetches at that
season of the year. But in several of these states, if
not indeed all of them, the vetch may be grown with
greater or less success when sown in the fall and fed
in the spring. The dry climate of the semi-arid belt
west of the Mississippi river is not well adapted to
the growth of vetches.

Soil. — The soil conditions favorable to the
growth of the common vetch are much the same as
those favorable to the growth of the common pea.
Vetches luxuriate in clay loams and can be grown
with a fair measure of success even on stiff clays.
Infertile sandy lands are not favorable to the growth
of the common vetch, but the sand vetch has much
power to grow on these lands. The black humus soils
of the prairie, where the clay content is low or
entirely wanting, will not produce the best crops of
this plant. The gray soils of the Rocky mountain
valleys which produce rank peas will also produce
rank vetches, and with or without irrigation,
according to conditions.

Place in the Rotation. — Since vetches are soil
renovators, they may be grown with advantage
before a crop that requires much nitrogen to perfect
its growth, as, for instance, wheat; and because of
their ability to grow even on soils not very abun-
dantly supplied with plant food. Vetches may be

OTHER LEGUMINOUS PLANTS. 113

grown almost anywhere in the rotation. They will
make a good growth on overturned sod, but such
land is usually wanted for the production of crops
less able to appropriate plant food under adverse con-
ditions. When sown in the autumn the winter vetch
can with much propriety be sown after a grain crop,
and there is ample time between the harvesting of the
grain crop and the sowing of the vetches to prepare
the seed bed in fine form. The vetches thus sown
will be reaped early enough to admit of growing
some other crop that same season on the land that
produced the vetches. Such a system of rotation is
most helpful in cleaning land. When sown early in
the spring the crop is also consumed early enough to
admit of following it with some kind of catch crop
that same season. Winter wheat and winter rye fit
nicely into the rotation after spring sown vetches.

Preparing the Soil. — Since vetches are sown
sometimes in the spring and sometimes in the
autumn, the precise methods of preparing the soil
will vary considerably. On fall plowed land the
only further preparation necessary is to stir the sur-
face soil doeply Enough to furnish a good seed bed.
On spring plowed land the aim should be to secure a
firm seed bed on the spongy humus soils of the
prairie, and to secure a fine pulverization on clay
soil that is cloddy. On land plowed in the summer
in order to receive seed in the autumn, the aim should
be to retain r/Joisture in the land to the greatest ex-
tent possible, by the use of the roller and harrow on
it after it ha3 been plowed.

Fertilizers, especially those rich in nitrogen, are
less needed by the vetch plant than by plants unable
8

114 SOILING CROPS AND THE SILO.

to gather the same from the air. But lands fre-
quently exist in which the supply of this element in
the soil is so low that the vetch plants sown on them
are unable to make a vigorous start unless some
fertilizer is applied previous to the sowing of the
vetches. If commercial fertilizers are added, pot-
ash and phosphoric acid are especially fitted to meet
the needs of the plants.

Sowing. — The method of sowing depends to
some extent on the nature of the combinations of
seeds sown. But the aim should be to sow the seed
with the grain drill, since, owing to the globular
form of the seed, — like peas — it is easily uncovered
by rain when it lies near the surface of the soil. But
it is not necessary to bury the seed so deeply as the
pea is usually buried. From two to three inches
would seem to be deep enough in any soil.

Vetches may be sown in various combinations
to produce soiling food. The following include
some of the more important combinations when
sown in the spring: — i, vetches and wheat, oats or
barley; 2, vetches, wheat and peas; 3, vetches, oats
and peas. In figure 13 the vetches do not show
though present in quantities equal to the oats. And
the following are some of the more important com-
binations when the crop is sown in the autumn: —
I, vetches and winter rye or winter wheat; 2, vetches
and winter oats or winter barley; 3, vetches and
crimson clover. But there may also be some in-
stances where it is preferable to sow the crop without
admixture, as when two cuttings are sought from
one sowing to provide very tender food for lambs
or swine.

1

3 £
<J -53

I!

Il6 SOILING CROPS AND THE SILO.

The proportions of seed in the combination that
will prove most satisfactory can only be ascertained
by actual test in each locality. But the aim should
be to make the vetches, to the greatest extent pos-
sible, the dominant factor in the mixture, consistent,
however, with the retention of upright growth
in the crop. The other factor or factors of
the combination are intended rather to support the
vetches than to furnish food. When vetches are
sown with crimson clover, the seed of the latter
should be used sparingly lest it crowd the vetches.

The quantity of seed that ought to be sown will
vary with conditions such as relate to fertility,
moisture and the varieties of plants used in the
combination. But it will seldom, if ever, be advan-
tageous to sow less than one bushel of vetch seed per
acre, except when peas are used in the combination,
and sometimes even more than the amount of the
vetch seed named should be sown. When the
vetches are sown alone, from one to one and one-half
bushels of seed are used.

The best time for sowing the seed is largely
dependent on the use that is to be made of the crop,
and on the character of the climate. Vetches sown
in the spring should as a rule be put into the ground
quite early, but in moist climates it is admissible to
sow them later and at intervals if necessary. When
sown in the autumn they should be given time to
get well rooted before the more trying weather of
winter arrives.

Cultivation. — Harrowing is the only form of
cultivation that can be given to this crop, and when
all the conditions are favorable to growth, it is not

OTHER LEGUMINOUS PLANTS.

necessary even to use the harrow. But there may be
instances in which decided benefit will result from
running the harrow over the crop when it is ready to
push through the surface soil, and possibly also at a
later period. But since the vetch is a somewhat
tiny plant when it first begins to grow, much care
must be taken in harrowing the crop, or the plants
will be buried.

Feeding. — In climates that are moist, the feed-
ing of the vetch crop may begin at a comparatively
early period, since it will make a good second growth,
but in those opposite in character the wisdom of
such a course would be more than questionable.
Vetches cut before they come into bloom are highly
relished by swine. More commonly, however, the
cutting should not begin until the blossoms have ap-
peared, and it may be continued until the crop has
reached an early stage of maturity. In the later
stages of its growth, it furnishes very rich food, and
even in earlier stages it furnishes valuable food.
The crop may be cut with the scythe or mower, and
may be fed in the same manner as peas. It is
more easily handled than various other grain crops
since it is sufficiently adhesive to admit of being
lifted easily, and yet it is not so adhesive as to make
it difficult to lift a separate forkful. When fed only
to swine where a limited number is kept, or to sheep
that are being fitted for the show, it is customary,
and the practice is a good one, to sow the vetches
somewhere contiguous to the farm buildings for
convenience in feeding.

When it so happens that more of the crop is on
hand than can be used in the green form, the surplus

Il8 SOILING CROPS AND THE SILO.

should be cut at an early stage of maturity and cured
for winter feeding. When thus fed it makes in
itself almost a perfectly balanced ration for some
kinds of feeding. It is particularly excellent for
cows in milk and for sheep. When thus fed, the
crop may be conveniently harvested with the
pea harvester which will do the work of cutting
almost as quickly as though it were a hay crop.
But when the crop is well supported by some
other grain growing along with it, the binder
may be made to harvest the same with manifest
advantage.

THE SOY BEAN.

The soy bean (Glycine hisplda) has only been
tested in this country during recent years. Its
growth has been confined to comparatively limited
areas, hence but a relatively small number of the
agriculturists of the country have any knowledge of
the plant, based upon practical experience. The fol-
lowing facts, however, have been fairly well estab-
lished in regard to the soy bean :

I. It is not adapted to a climate in which the
temperature is low in summer, or in which the season
of growth is short. 2. It is able to gather the food
of sustenance in relatively poor land, although it will
of course give better returns from rich land. 3. It
can withstand drouth and excessive wetness in the
soil better than many other plants grown as food for
live stock. 4. The flowers are not much liable to
injury at the critical period, owing to peculiarities
of structural development, hence they are more
eyre of fruiting than those of many other food plants

OTHER LEGUMINOUS PLANTS.

and they also possess the power of self-pollina-
tion. 5. It has much power to draw nitrogen
from the air and to deposit the same in the soil for
the benefit of succeeding crops. 6. It is one of the
richest of foods grown for live stock. 7. It may be
grown as pasture, as soiling food, as hay or as green
manure ; it may also be grown for the grain which
it produces.

The soy bean, very often designated the soja
bean, is an annual plant. When all the conditions
are favorable it will grow to the hight of four feet
or more, but the average hight of the plants is from
two to three feet. It is branching in its habit of
growth, the stems are somewhat coarse and the
leaves are large and fairly numerous. The pods are
short and broad, and each pod contains from two to
five seeds which vary much in color according to the
variety. The yield of the beans varies of course
with the nature of the soil, the season and the method
of cultivation adopted. Crops have been grown
which produced as high as forty bushels per
acre, but the average crop is probably less than half
that amount.

The soy bean makes an excellent food for cattle
and swine, probably also for horses and sheep,
although experience in feeding it to horses and sheep
is as yet somewhat limited. The green food and the
hay are excellent for cows in milk ; the same is true
of the seeds when ground and fed with some less
concentrated food. Soy bean meal should probably
be always thus fed. Except the peanut, there is
perhaps no other vegetable product grown in this
country which contains such high percentages of

OTHER LEGUMINOUS PLANTS. 121

protein and fat in a form so highly digestible. It
is considered superior in nutritive qualities to oil
meal, and in some tests that have been made
it has compared well with cottonseed meal. But
the fact must not be overlooked that the hand-
ling of the crop, when grown, is more exacting
and laborious than the handling of some other
soiling crops.

The yield of the green crop per acre varies much
with the conditions, but usually there is no difficulty
in growing ten to twelve tons per acre on average
land. But the value of this plant in producing food
for live stock is measured less by the yield than by
the richness of the food.

Distribution. — Since the soy bean is a child of
the sun, it cannot be grown successfully in far north-
ern latitudes. The highest adaptation for this plant
will, in nearly all instances, be found south of the
fortieth parallel of north latitude, that is to say,
south of the latitude of Columbus, O., and Spring-
field, 111. The varieties heretofore introduced have
not been grown with any marked success north of
the line which marks the southern boundary of Min-
nesota, or, in other words, north of the forty-third
parallel. This means that in the meantime it has no
important mission as a food crop for any of the
provinces of Canada or for any of the states that
border on Canada. But some of the varieties at
present grown may become so acclimatized that the
limit of successful growth may be pushed consider-
ably further northward. The necessity for this,
however, would not seem to be so vital as further
south, because of the ease with which other green

122 SOILING CROPS AND THE SILO.

foods may be grown in the northern states that are
more easily managed than the soy bean.

In the intervening area between the parallels
named the early maturing varieties only can be suc-
cessfully grown, and of course with highest success
toward its southerly limit; and in that part of the
prescribed area which lies in the Mississippi basin
the crops will be superior to those grown in other
portions of the same, and chiefly for the reason that
the summer temperatures in the said basin are rela-
tively high. While the soy bean will grow well in
the hot summer temperatures of the Rocky moun-
tain valleys under irrigation it is not so much needed
in them because of the luxuriance with which other
legumes may be grown that are more easily handled.
The climate of the Pacific slope west of the
Cascade mountains is ill adapted to the growth of
the soy bean.

Soil. — The soy bean will thrive at least meas-
urably well on almost any kind of soil, providing this
soil has in it a liberal supply of potash, phos-
phoric acid and lime. It will, however, thrive
best on soils which may be termed medium in
texture. Nearly all classes of soils found on the
open prairie have high adaptation for the growth
of this plant, and the same is true of all soils
that will produce good crops of Indian corn. It may
be successfully grown on land too low in fertility to
produce clover or cowpeas. Instances are recorded
in which plants have been grown in disintegrated
trap rock and in coal ashes, and yet some of the light
soils of the southern states may be so deficient in
phosphoric acid and potash, and even nitrogen, as to

OTHER LEGUMINOUS PLANTS. 123

make it worth while to apply those ingredients before
planting the crop. Nor should it be planted on soils
in which hardpan comes near the surface, since in
such instances the roots which naturally feed deeply
could not easily penetrate the soil. Swamp lands;
well drained, produce an abundant growth, especially
of stems and leaves, hence these are specially adapted
to growing soy beans for soiling food.

Even peat soils, under certain conditions, may
be made to produce paying crops, and owing to the
excellent drouth-resisting properties of the plant, it
may be grown on soils too deficient in moisture for
the successful growth of the cowpea. But it is not
wise to grow it on soils already rich in nitrogen. To
do so would be a waste of that very important ele-
ment of fertility.

Place in the Rotation. — Since the soy bean must
be grown in warm weather, where it is to be grown
at all, its place in the rotation is all the more easily
defined. Since the soy bean may be grown with
highest success when given cultivation, it should gen-
erally be grown as a cleaning crop; since it is a
legume and has much power to increase the nitrogen
content in the soil, it should precede grain crops;
and since it can make progress amid heat and during
dry weather it may frequently be grown as a catch
crop. It will, therefore, naturally follow such crops
as have been grown in southern latitudes to provide
autumn, winter and early spring pasture, as winter
rye, winter oats and winter barley; and this plant
may be made to follow grain crops that have been
harvested at maturity, as, for instance, rye, winter
wheat or winter oats; and it may even be made to

124 SOILING CROPS AND THE SILO.

follow spring grain that has been matured, providing
there is yet moisture enough in the soil to bring about
successful germination in the seed. The ground
does not as a rule of necessity require to be plowed
when preparing it for the grain crop that is next to
be sown, since the bean crop generally leaves it in
a loose condition.

Preparing the Soil. — Since the soy bean is fre-
quently grown as a catch crop, the seed bed for it
must in such instances be prepared with dispatch.
This calls for a free use of the harrow and roller
after the land has been plowed. But it may not be
necessary in all instances to plow the land when pre-
paring it for soy beans. The surface should be made
smooth and fine for the reception of the seed. When
the soy bean crop is the only plant to be sown on the
ground for the season, a fine opportunity is furnished
for freeing the land in a single season from the pres-
ence of many kinds of noxious weeds. This may
be done in part by plowing the land for the soy bean
crop in the autumn or in the early spring and then
running the harrow over the same as often as the
weeds begin to grow until the beans are planted.
The subsequent cultivation given to the crop will tend
to complete the cleaning process so well begun
before the planting of the same. It is not usual to
apply any fertilizer when growing this crop, but as
previously intimated, it may be necessary in some
instances to apply potash, phosphoric acid, or lime, if
not indeed all three of these ingredients.

^Sowing. — When designed for soiling uses, the
soy bean should be planted in rows and usually with
the corn planter, the bean planter or the grain drill.

OTHER LEGUMINOUS PLANTS. 125

The distance between the rows will vary according
to the strength of the soil, the variety of the bean
and the date of planting. The extremes of distance
may be placed at about twenty- four and forty inches
and the mean distance at thirty inches. When
grown for seed, the distance should be more than
when the crop is grown to provide green food or hay.
The variety planted will depend on such conditions
as soil, climate and the uses for which the crop is
grown. As a rule, what are known as the dwarf
varieties are preferred for grain production in the
north and the medium varieties are preferred in the
south. Of the former the Early Dwarf is a favorite
and of the latter the Medium Early Green. The last
named variety has proved satisfactory when grown
as soiling food as far north as Amherst, Mass. The
Medium Early Black is also in favor in many locali-
ties. It is almost impossible, however, to give the
names of varieties with precision at the present time,
as the same variety is frequently spoken of under
different names. The large varieties are adapted
only to situations in which a long period of growth
can be given to them. The medium varieties will
frequently mature under normal conditions in from
ninety to one hundred days, but oftentimes they
require a longer season in which to complete their
growth. When growing this crop, much attention
should be given to the variety chosen. Many of the
failures in attempting to introduce the crop have
resulted from the planting of varieties not suited to
the conditions of the locality.

Considerably more seed is used in growing the
crop when it is to be fed in the green form than in

126 SOILING CROPS AND THE SILO.

growing it for the grain. From about sixteen to
twenty-four quarts will suffice for the latter purpose,
while not less than thirty-two quarts are usually
sown to provide green food. Some growers favor
thick planting to encourage an upright and tall rather
than a branching growth, because of the greater
ease with which plants of the former type can be
harvested.

The soy bean should never be planted until the
arrival of warm settled weather, and the planting
may proceed as long as there is a reasonable hope
of sufficiently maturing the crop before the autumn
frosts arrive. In Kansas, for instance, crops planted
on wheat stubble in July have been matured.

Cultivation. — Wherever the soil does not lift
with the wind, the roller should both precede and
follow the planting of soy beans, unless where mois-
ture is abundantly present. The cultivation given
should of course be generous and prompt, since the
beans grow so quickly that this work cannot be very
long continued. In some instances it is possible to
use a harrow on the land between the time of plant-
ing the seed and the appearing of the young plants
above the surface. The instances are also frequent
in which the harrow may be driven over the ground
with much advantage to the plants after they have
got four or five inches above the surface of the
ground, but it should be driven along rather than
across the rows to prevent the horses from treading
down the plants. But when the harrow is so used,
the teeth should be set with a backward slant.

Feeding. — When the crop is grown for the seed
it may be cut to much advantage with a self rake

in

I
I

*?

_>
'H

II

* i

i a

128 SOILING CROPS AND THE SILO.

reaper. But when grown for soiling or for hay it
is more commonly cut with the mower. When fed
green, the cutting may begin as soon as the period
of early bloom, and it may continue until the crop
is sufficiently matured for making hay. When cut
for hay, the seeds should be about half grown in the
pods. If the cutting be deferred to a later period,
many of the leaves will drop off and the stems will
become woody. Any excess in the crop of green
food should be cut for hay rather than allowed
to ripen.

Since the yield of seed from crops thus grown
will not be abundant, the crop should not be allowed
to wilt overmuch when it is fed green, lest there
should be some loss from the leaves dropping off.
The method of feeding is much the same as that
followed in feeding peas. When soy beans are fed
to swine, the season of feeding may be continued
until the crop is matured. But it is more common
to allow the swine to gather the seeds for themselves
when the crop has reached an advanced stage of
maturity.

THE COWPEA.

The cowpea (Dolichos Chinensis) has been
grown for many years in the south, hence it has long
since been carried past what may be termed the
experimental stage of growth. It is fast coming to
be regarded as an indispensable factor in any system
of cultivation that can be adopted in the southern
states and which is likely to prove eminently suc-
cessful. Its great value to the farmers of the south
arises from, i, its ability to grow on poor soils; 2,

OTHER LEGUMINOUS PLANTS. 1 29

its power to grow under adverse conditions; 3, its
great value as a pasture and a fodder plant for live
stock ; 4, the magnificent service which it renders to
the soil when plowed under as a green manure.
There are but few places in the entire south where
the land is tillable in which this plant may not be
grown with more or less success. The proper use
of the cowpea and of its complement, the soy bean,
to the greatest extent possible, would revolutionize
the agriculture of large areas in the south, where the
soil is sandy and lacking in fertility.

The cowpea furnishes excellent pasture for cat-
tle, sheep and swine, but when pastured by cattle
the waste of vines is greater than when fed as soiling
food. It also furnishes good hay, when properly
cured for horses, cattle and sheep. But it is not as
easily handled as the common field pea in the north,
nor is it so easily cured. The grain is also excellent
for milk production and for growing swine. Its
use for these purposes in the form of meal has not
become general, owing first, to the considerable
labor involved in handling the crop, because of the
long and intertwining nature of the growth in many
of the varieties grown, and, second, because of
the incomplete machinery for harvesting the crop
in the best manner possible. There would seem
to be no valid reason why the pea harvester
should not be generally used in harvesting the
cowpea.

It is scarcely possible to give figures that would

represent the average yields of the crop per acre in

the green form, owing to the many varieties that are

grown and to the great difference in the habits of

9

OTHER LEGUMINOUS PLANTS.

growth in these. With the large varieties it is some-
times possible to grow twenty tons per acre, but the
average will be much less than that amount.

Distribution. — The northerly limit of successful
growth in the cowpea would seem to be the southerly
limit of successful growth in the common field pea.
The line which forms this border-land of high devel-
opment will run irregularly across the continent, but
it is not far distant from the fortieth parallel. The
cowpea has been grown in the northern areas of
Nebraska, Iowa, Illinois, Indiana and Ohio and even
in Connecticut, but in these localities the aim is rather
to grow it as a soil renovator and to a less extent as
a soiling food than as a grain crop. In the southern
half of the states named, Connecticut excepted, it is
grown by many farmers, but the most favorable
conditions for completest development in the large
varieties is found further to the southward, as far
south probably as the latitude of St. Louis in Mis-
souri, that is to say, south of the thirty-eighth parallel.

In the warm valleys of the Rocky mountains
the cowpea will doubtless grow vigorously under
irrigation, but it is not likely to come into general
favor in these areas, because of the presence of alfalfa
in so great abundance, and yet in the more southerly
of these valleys, it may come to be grown extensively
to provide a grain eminently suited to the finishing
of pork reared upon alfalfa. When thus grown,
swine could be made to harvest the crop where it
grew. But in these valleys it is not at all probable
that the cowpea will soon be produced as a soiling
food. In Canada and in the states bordering on
that country, any variety of the cowpea that has been

132 SOILING CROPS AND THE SILO.

introduced has not been grown with highest success,
and the same is true of the western slope of Oregon.
But recent experiments conducted by the author at
the Minnesota experiment station have been decid-
edly encouraging. They were made with such
varieties as the Early Black and the Red Ripper.

Soils. — Soils that are suitable for growing soy
beans are also suitable in nearly all instances for
growing cowpeas. (see Page 122). Loam soils
and more especially clay loams, will produce the
largest crops. Fairly good crops may be grown
on soils too low in fertility to produce good crops
of grain.

Place in the Rotation. — As with other legumes,
the aim should be to grow the cowpea so that it will
prove a renovating crop to the soil. It should,
therefore, come as a rule between two grain crops.
But it may also be grown as a catch crop, where
a crop previously grown has failed; or it may be
grown as an intermediate crop after a crop has been
harvested and before another autumn or winter crop
has been sown. The cowpea can be grown with
much satisfaction on land from which early vege-
tables have been removed and also after a crop of
such fruits as strawberries. It is also grown on
soils that have become too unproductive for success-
ful cropping with grain. When thus grown it is
usually plowed under to renovate the soil, but even
though the crop be used for soiling purposes or for
hay, or even though it be matured for its grain
product it will still leave the land in a much better
condition as to fertility than before the crop was
grown on it.

OTHER LEGUMINOUS PLANTS. . 133

Although cowpeas will grow luxuriantly on
overturned sod lands, it will usually be a mistake to
grow them on these, as the vegetable matter which
they contain may be turned to excellent account in
growing grain crops. But it may be wise in some
instances to grow cowpeas after crimson clover, in
the hope of further enriching the land for the next
crop. The cowpea is also frequently sown among
the cotton and corn plants while they ere yet imma-
ture. In latitudes far south, one crop of cowpeas
may be grown for soiling uses if cut early and
a second crop from the same plants for being
plowed under.

Preparing the Soil. — In preparing the soil for
the cowpea the aim should be to secure a fine and a
moist seed bed. The roller and harrow, if judiciously
used, may be made greatly helpful in securing both,
and more especially after the arrival of the dry sea-
son. When sown after garden crops, it may not be
necessary to plow the land, but simply to disk and
harrow it.

It is seldom necessary to apply nitrogen to the
soil in which this crop is grown, but in some instances
it is necessary. Since the cowpea takes considerable
quantities of potash and phosphoric acid out of the
soil and since it does not restore these when the
crop is removed from the soil on which it grew,
except in so far as it brings them up from the sub-
soil, the fertilizers applied should contain these ele-
ments in liberal degree. It will be in order, there-
fore, to apply such fertilizers as ground bone, bone
ash, fish guano and superphosphate when fertilizers
are needed. Farmyard manure will usually give

134 SOILING CROPS AND THE SILO.

excellent results, but it can seldom be spared for the
crop of cowpeas.

Sowing. — Cowpeas are commonly sown with
the grain drill. If sown broadcast and covered with
the harrow, and rain should fall soon after the crop
has been sown, many of the peas will lie upon the
surface and will fail to sprout. When sown for
pasture, all the drill tubes are used in sowing the
seed, but when the land is measurably clean and the
other conditions are favorable, it may be advanta-
geous to sow only with alternate tubes. The same
mode of sowing is sometimes adopted when the crop
is sown for soiling uses or for the production of hay
or grain. But when ground is to be cleaned, or when
moisture is not abundant, the crop ought to be drilled
in rows far enough apart to admit of cultivation.
With the large varieties these rows may in some
instances be made as distant from one another as
thirty inches, and even thus far distant, the vines
will in time completely cover the ground. But the
distance between the rows must be measurably deter-
mined by the variety of the peas and convenience in
cultivating them.

In growing this crop for soiling food, it will
oftentimes prove advantageous to sow the seed of
some other forage plant along with them, as, for
instance, millet, sorghum, or Kaffir corn. These
plants help to sustain the peas and consequently to
improve the quality of the vines and to increase the
quantity of the grain. Kaffir corn is very suitable
for being grown thus, owing to the stiff growth of
stem which it sends upward and to its power to
grow in dry weather. About ten pounds of seed

OTHER LEGUMINOUS PLANTS. 135

will usually be sufficient to mix with one bushel
of the peas.

The quantity of peas that should be sown will
depend chiefly on the objects sought in sowing. But
more seed will be required of the large varieties and
by soils low in fertility. From one to one and one-
half bushels are usually sown when the crop is to be
pastured or plowed under. In a majority of
instances, one bushel of seed per acre will suffice to
grow soiling food or hay. When cultivation is to
be given between the rows, the quantity of seed
required will be proportionately reduced.

When the crop is to be plowed under, the large
and late maturing varieties ought usually to be sown
in the southern but not in the northern states. The
Wonderful, sometimes called Unknown, is one of
the best of these. But when soiling food, hay or
grain is sought, the kinds known as "bunch" varie-
ties— that is to say, branched and bush-like rather
than vine-like — should usually be sown. They are
more productive of grain than the former and are
more easily harvested. The best of these, especially
for northerly latitudes, are the Whippoorwill, the
Early Black, the Red Ripper and the Black Eye.
The Clay variety is in favor farther south. But
there is yet some confusion in the various names
applied to the cowpea.

If cowpeas are sown before the weather and
soil are warm, the seed will rot in the ground, or
the plants will start so feebly that they will not grow
subsequently into a vigorous crop. After the corn
has been planted it will be sufficiently early to plant
cowpeas. In latitudes far south they can be sown

136 SOILING CROPS AND THE SILO.

even months later, but not in the north. The bunch
varieties will often mature in ninety to one hundred
and twenty days from the time of planting.

Cultivation. — Whether cowpeas are sown broad-
cast by hand, by the grain drill with all the tubes in
use or in rows far enough apart to admit of subse-
quent cultivation, the harrow may in many instances
be used with advantage before the plants push up
through the surface of the soil. A light harrow may
also be used when the plants are four or five inches
above the surface, and more especially when the
peas are planted in rows so that subsequent cultiva-
tion can be given to them, as then the horses may
be driven along the rows when drawing the harrow
so as not to tread down the peas.

When subsequent cultivation is given between
the rows, it must be done with promptness, as the
peas, owing to the vine-like character of their growth
will soon lie along upon the land and so preclude
further cultivation. When strong weeds of a nox-
ious character infest the line of the rows they ought
to be removed if they are likely to mature their seeds
before the peas are harvested. Due attention should
be given to this particular, whatsover the kind of
crop that is being grown.

Feeding. — The feeding of cowpeas may begin
as soon as the first bloom appears. When cut thus
early the crop will grow up again, though not under
all conditions, and may be cut a second time if the
growth will justify using it thus. A second advan-
tage from early cutting is found in the greater ease
with which the green food may be handled when it
is being fed, since the intertwining of the vines is

5

138 SOILING CROPS AND THE SILO.

not so pronounced as at a later period. It should be
remembered that at the period of early bloom the
plants have not nearly reached that stage when they
possess a maximum of nutrition. The feeding may
be continued until the crop is nearly mature. Any
residue not wanted for green food may be cut and
cured for hay. When the major portion of the pods
contain peas more than half grown, the crop is ready
for being cut for hay. It may also be harvested for
the grain as soon as one-half, or more than that, of
the pods are fully ripe. The ripening of the pods,
as with the common field pea, is more or less uneven.

The cutting on a large scale is commonly done
with a field mower. But when the crop is not in
any way supported by another crop sown along with
it, the mower very frequently leaves more or less
of the peas uncut. The pea harvester will do the
work of cutting much more cleanly and economically.
Because of the difficulty of handling the crop when
feeding it green, there is a disposition on the part of
many to allow the stock to do the harvesting. The
waste resulting is not all loss, since the soil is
enriched more or less when the waste is buried
with the plow.

As in feeding other green foods, this crop may
be fed on a pasture, in a paddock, in sheds or stables,
in fact, wherever it is most convenient.

CHAPTER VII.

PLANTS OF THE BRASSICA GENUS.

But two plants of this genus have heretofore
been grown to any very considerable extent on this
continent to provide soiling food or pasture for live
stock. These are rape and cabbage. It is possible,
nevertheless, that other plants of the same genus may
yet be introduced that will prove quite helpful in pro-
viding green food for the same. Some of these, as
kale for instance, have been thus utilized in Europe,
and there would seem to be no good reasons why
they should not be so used in some areas of this coun-
try, but until more is known as to their behavior
under American conditions, they could only be dis-
cussed in a speculative way. Rape and cabbage,
therefore, will only be considered in this chapter.

RAPE.

There are several varieties of rape (Brassica
napus,) but only one of these, viz., the Dwarf Essex,
has been found possessed of sufficient value to give it
the place of distinct precedence among all the varie-
ties tried under American conditions. All varieties
of rape are annual, that is to say, they complete the
mission of life within twelve months from the date
of sowing. But there may be instances, as when
certain varieties are sown earl" one season, where

139

140 SOILING CROPS AND TjHE SILO.

they will not mature their seeds until a later period
the following season. The varieties which are
chiefly grown for seed only, and which are used
principally in making oil, usually mature the seed
within sixty to one hundred and twenty days
from the date of sowing, but those which
are grown rather for pasture or for soil-
ing uses, will not mature seed the same season
they are sown. The former are possessed of but
little value as food plants.

The Dwarf Essex rape bears a close resemblance
to the rutabaga in the first weeks of its growth. So
close is the resemblance at this time that it probably
would puzzle an expert to tell the two plants apart.
As time goes on, however, the growth of the rape
is more upright, and it becomes more stalky and tall.
Ordinarily it grows to the hight of eighteen to
twenty- four inches, but it may be so stimulated by
fertilizers as to make it reach nearly twice that
hight. The root is strong, the branches of the same
being numerous and some of them go a considerable
distance downward as well as laterally in search of
food.

Dwarf Essex- rape furnishes most excellent
soiling food for horses, cattle, sheep and swine. Its
feeding value has been stated by high authority to be
fully twice that of clover, although chemical analysis
does not give to it so high a value. As soon as ani-
mals become accustomed to it, they grow exceedingly
fond of it. Its power to produce milk when fed to
milk-giving animals is very high, and its power to
produce fat is, in a sense, remarkable. When it is fed
to cows in milk, some caution must be exercised as to

r-

040

Fig. 18. Dwarf Essex Rape Plant

Minnesota University Experiment Farm.

142 SOILING CROPS AND THE SILO.

the manner in which it is fed, or the milk will be
tainted more or less. Many dairymen, who send their
milk regularly to a cheese factory, feed it to their
cows once or twice a day after the cows have been
milked. These dairymen state that no complaint has
been made as to the quality of the milk. But some
dairy authorities claim it should not be fed to cows
giving milk at all, as the danger of taint is imminent.
The truth will probably be found, in this as in so
many other instances, to occupy middle ground. If
the rape is fed just after the cows have been milked
and in moderation, while the milk flow will be well
sustained, there will probably be no perceptible taint
in lire milk. But if fed in excess, while the milk
flow will be further increased, the milk will carry in
it more or less of the odor of the green rape.

The yield of the mature crop is proportionate
to the favorable nature of the climatic conditions,
the richness of the land, and the nature and extent of
the cultivation given to the plants. Ten tons an acre
is a very moderate yield. Twenty tons an acre are
frequently obtained, and there are instances in which
the yield has been increased to thirty tons per acre.
When the exceedingly rich character of the food is
kept in mind and when this fact is coupled with the
large yields that can be obtained, the conclusion is
legitimate, viz., that but few crops can be grown that
will yield a greater food value per acre.

Distribution. — It is questionable if there is any
state in the Union or any province in Canada in
some part of which this food cannot be successfully
grown at some season of the year. It may with no
little propriety be termed a cool weather plant, hence

PLANTS OF THE BRASSICA GENUS. ' 143

the best yields are obtained north of the fortieth
parallel of north latitude. All the states of the Union
bordering on Canada, and likewise all the provinces
of Canada bordering on the United States, have high
adaptation, though not equally high, for the growth
of rape. In the states further south it ought to
be grown in the early part of the season, before the
weather becomes dry and hot, or in the autumn after
rain has begun to fall. In mild winter latitudes
this plant should be made to provide soiling food
through all or nearly all the winter.

Rape also grows in fine form in the higher Rocky
mountain valleys when it is irrigated, and sometimes
in the absence of irrigaton, but the great abundance
of the alfalfa crops in these makes the growth of
rape less essential than it would otherwise be. The
highest adaptation for this plant will probably be
found on the Pacific coast from southern Oregon to
Alaska. The humidity of the climate there and the
mild character of the season makes it possible to
grow enormous crops of rape.

Soil. — Rape will grow freely in any soil that
will produce a good crop of turnips, that is to say,
it will make a vigorous growth in deep, moist loam
soils, with a considerable mixture of sand in them.
It will also grow with even greater vigor in some
classes of soils not well adapted to rutabagas, as for
instance, the black humus soils found in sloughs,
and the muck soils of marshes, that have been
drained. It would probably be correct to say that in
these, rape finds its highest adaptation. It grows
luxuriantly in nearly all the varieties of soil found in
the prairies of the west, also in the sandy soils of the

144 SOILING CROPS AND THE SILO.

Rocky mountain valleys when supplied with mois-
ture. It does not usually make a good growth in
unyielding clays, and light infertile sands have still
less adaptation to the growth of rape than stiff clays.
It is almost useless to sow rape on a poor soil. On
the other hand, the yield of the crop is likely to be
proportionate to the richness of the land when the
other conditions that relate to growth are favorable.

Place in the Rotation. — The place given to rape
in the rotation will in no small degree be dependent
on the object for which it is grown. When grown
to provide pasture one can scarcely imagine a rota-
tion in which it may not with propriety be given a
place. It is probably without a rival in its adapta-
tion for being sown as a catch crop. But it is rather
as a soiling crop than as a pasture crop that its place,
in the rotation, is now to be considered. Whenever
the crop is cultivated it ought to be made a cleaning
crop, and, therefore, may be sown with no little
propriety on land that is foul. In all, or nearly all,
such instances it ought to be followed by a grain
crop on which grass seeds also are sown. But when
sown broadcast, and on many of the rich soils of the
west, it may be thus grown with perfect propriety.
It should only be sown on land that is measurably
clean. This crop will grow nicely on overturned
sod, old or new, timothy, clover, blue grass, or indeed
any other kind of grass, since it is a ravenous feeder
on decaying vegetable matter in the soil.

Rape may be made the sole crop grown on the
land for the season, or even for soiling purposes it
may be made to follow some other crop, as rye
pastured or barley harvested, or clover from which

PLANTS OF THE BRASSICA GENUS. 14$

one cutting has been removed. When sown thus
late, in very many instances cultivation should be
given to the plants to stimulate growth. When
sown after any of these crops, the results will largely
depend on the character of the weather that follows.
There may be seasons when the attempt to grow rape
in this way will not be successful.

Preparing the Soil. — In preparing the land for
rape the aim should be to secure a fine, firm and
moist seed bed, with as much cleanness as can be
attained under the circumstances. When rape is the
sole crop grown on the land for the season, usually
the above conditions can be attained, unless the crop
is sown very early in the season. More commonly
they can best be attained by plowing the land in the
autumn.

The exceptions are climates with rainy winters.
It being more common to sow rape to provide soiling
food for late summer and autumn rather than for
early summer feeding, a sufficient interval tran-
spires between the opening of spring and the sowing
of the crop to sprout many of the weed seeds lying
near the. surface of the soil, and in time to destroy
them by the occasional use of the harrow. But when
the crop is broadcasted early in the season, as is
often done, the aim should be to sow it on clean
land. When rape follows another crop harvested
the same season, the interval for preparing the land
is too short to give opportunity to clean the same.
Within a few hours of the plowing of the land it
should be impacted with the roller, or with the roller
and harrow, to keep in the moisture. This should
never be omitted, unless when the soil is abundantly
10

146 SOILING CROPS AND THE SILO.

moist. And when the rape crop is planted in drills
on such land with enough distance between them to
admit cultivation, the said cultivation, when given, is
further very helpful to the retention of moisture, as
well as to the more vigorous growth of the plants.
It is, also, peculiarly helpful in such a season in
cleaning the land. Rape should not be sown in sum-
mer weather on cloddy land as the seed will not
germinate under such conditions.

When rape is grown for soiling food, the aim
should be to secure all the growth possible. Hence
it should be sown on land naturally rich, or made so
by applying fertilizers. Rape has special adaptation
for being grown on lands enriched with heavy appli-
cations of farmyard manure. In fact, the luxuriance
in the growth of the plants is usually proportional to
the degree, to which the soil has been enriched. This
plant would almost seem capable of growing in a
manure heap. And because of its great power to
appropriate food, manure applied in the fresh form
would seem to answer the end sought about as well
as when it is applied in the reduced form. But to this
there are some exceptions. Manure, fresh and con-
taining much litter, should not be applied in great
bulk, except in rainy climates, lest it hinder to so
great an extent the impaction of the soil as to allow
the too rapid escape of moisture. Slough and
swamp soils are oftentimes so rich that an application
of a fertilizer on these would be thrown away.

Commercial fertilizers are of course helpful to
this plant when farmyard manure cannot be obtained,
and also when it can be obtained, but not in
sufficient quantities. A light application of farmyard

PLANTS OF THE BRASSICA GENUS. 147

manure in conjunction with a light application
of artificial fertilizers is probably superior to a heavy
application of either alone. On lands which require
such treatment superphosphate is oftentimes drilled
in with the seed, but not in too close proximity to it.
Nitrogenous fertilizers, on which rape feeds rav-
enously, are usually applied on or near the surface,
and just at the time of sowing the seed or later.
But in moist weather only should nitrogenous ferti-
lizers be applied on the surface.

Sowing. — Rape seed is sown by one of two
methods, that is to say, it is broadcasted, or sown in
rows far enough apart to admit cultivation between
them. The second method is preferable when land
is possessed of only moderate fertility, when it is
foul with weeds, and when the period of growth is
short. The cultivation stimulates growth some-
times in a remarkable degree, and cleans the land.
The first method will answer very well, however,
when the land is reasonably clean and rich, and more
especially in moist climates. Where the seed is
sown in rows, these are placed variously from
twenty to thirty-six inches apart, according as there
is present a prospect of an average or more than an
average crop. The stronger the growth the wider
apart do the plants require to be.

In some instances the drills are raised. In
other instances they are made on the level.
When raised they are commonly made with
a double mold board plow with a marker on it,
to mark the line of the next plow furrow. The
raised drills render cultivation somewhat easier,
more especially when the plants are young. But

148 SOILING CROPS AND THE SILO.

where moisture is less than normal, the
germination of the seed will be much more certain if
sown on the level. The seed is usually sown in
raised drills by the ordinary turnip drill, drawn by
one horse. Two rows are thus sown at once. But
the hand drill can be used in the absence of a horse
drill. When sown on the level the land may be
marked out and the seed sown with the hand drill, or
it may be deposited with certain of the grain drills,
when driven by a driver sufficiently skilled to make
rows straight and evenly distant; varying widths
between the rows and crooked rows greatly lessen
the effectiveness of the subsequent cultivation. The
most perfect machine for doing this work has prob-
ably not yet been invented. The seed should be
buried from less than one inch to two or even more
in depth, according to the character of the soil and
climate. When sown broadcast the seed may be
scattered by hand, or sown with a hand grass seed
sower. In either instance it is covered with the
harrow, whether the seed is sown in drills or by
hand, unless when the ground is quite moist, it
should be rolled before and also immediately after
sowing the seed, to hinder evaporation near the"
surface. Rolling the land thus in dry weather is
greatly important, but there may be instances when
a light harrow should follow the last rolling given
the land.

The quantity of seed to be sown will depend
upon varying conditions, usually from one to two
pounds per acre will suffice when the crop is grown
in drills. When broadcasted the quantity will vary
from three to five pounds per acre. The first men-

PLANTS OF THE BRASSICA GENUS. 149

tioned quantity will suffice when the soil is rich and
clean, but when these conditions are not present the
last named quantity may be preferable, to admit of
harrowing the crop to some extent after the plants
have made a good start.

The time at which this crop may be sown varies
exceedingly. In all climates it may be sown as early
in the spring as grain crops, and in moist climates
it may be sown as late as the end of summer. The
crop usually requires from eight to ten weeks to
complete its growth, sometimes however, a shorter
period will suffice and again a longer period is
necessary. Keeping in mind this thought one can
decide when the crop should be sown. The early
sown crops may be turned to excellent account in
providing pasture or soiling food for swine, when
clover does not grow readily. In mild climates it
may be sown in the autumn. To provide soiling
food when most needed, the seed is usually sown in
May or June. But by varying the dates of sowing,
this one plant may be made to furnish soiling food
almost without interruption from the close of spring
to the end of autumn. In the dry, hot summer
months it is sometimes impossible to get a stand of
plants. But even though the seed should lie in the
ground without germinating for weeks, it will start
up vigorously as soon as moisture reaches it.

Cultivation. — When the crop is broadcasted the
only cultivation possible is to harrow it after the
plants have obtained a fine hold on the soil. The
harrowing should be done with much Care. It will
destroy some of the plants, but when the seed has
been sown thickly enough, this will be no real

I5O SOILING CROPS AND THE SILO.

detriment to the crop. A light harrow should be
used, and the harrowing must not be deferred until
the young weeds get a firm hold upon the soil.

When the crop is sown in rows, the cultivation
should begin as soon as the young plants can be dis-
tinctly traced along the line of the row. It should
be shallow and as frequent as once a week or once
in two weeks, until the tops of the plants have so
reached out as to preclude further cultivation. The
harrow may also be used with advantage in some
instances on a rape crop sown in drills and on the
level. When so used it should be drawn across the
rows and prior to the cultivation ordinarily given.
The effect will be to take out myriads of weeds along
the line of the row that would otherwise be undis-
turbed. The plants will be somewhat thinned, but
this should not result in the injury of the crop. It
is not usual to hand hoe rape, not even along the line
of the row or to thin it, but if so treated the plants
will grow all the stronger. Whether the labor
would give an adequate return will depend upon
conditions. When the cleaning of the land is one of
the chief objects sought in growing rape some hand
hoeing should be found profitable.

Feeding. — The cutting and feeding of rape
plants may be commenced as soon as they have made
sufficient growth to justify such a course. More
especially is this true of rape that is to be fed to
swine in the absence of other green food. It may
be cut and fed thus when not more than one foot
high. If not cut too near the ground, it will grow
up a second and even a third time. If mowed
closely, however, the growth will be much weakened.

M

'

I

152 SOILING CROPS AND THE SILO.

«

More commonly, however, rape is virtually allowed
to reach its growth before the feeding is begun, and
it is questionable if more or even as much food can
be obtained by cutting this crop once or twice when
immature, as when it is allowed to practically mature
before the feeding begins. By maturity is meant,
in the present instance, a stage when further growth
ceases. This point once reached, there will likely
be greater or less loss in hot weather before the crop
can be fed, as the lower leaves, especially, will be-
come yellow and crisp, and in some instances, the
plants will be attacked by the white aphis. When
indications of such attack are present, the crop should
be fed with all haste, otherwise it may soon become
valueless.

To avoid such risk, in hot weather it may be
well to commence feeding the plants before they
have completed their maturity. But in cool moist
weather a large majority of the plants will so retain
their greenness, that the feeding of the crop may be
made to cover two months, at least without much loss
in food value. It may be well to mention here, that
any unused residue of the crop in the late autumn
may be cut before severe frosts arrive, thrown into
heaps and fed from these, even after the snow has
fallen to a considerable depth. But where the cold
of winter is usually intense, this could not be done
with profit. The plants like those of sorghum are
slow indeed to spoil when thus handled.

The crop may be cut with scythe or mower
according to the amount wanted, and if put into
heaps soon after it is cut, in the field, the feed yard or
the sheds, it WJ!! retain its palatability for several

PLANTS OF THE BRASSICA GENUS. 153

days. If the crop is cut with the mower, better work
can usually be done when it has been sown broadcast,
as then none of the stems lie so near the ground
as to escape being cut. When the drills have been
raised it is not easy to cut the crop with the mower.

Rape may be fed as other green food, that is
to say, on a pasture, or in a paddock, feed yard, shed
or sty. But care should be taken not to feed too
large a quantity at first; not to feed when wet,
and not to feed to hungry animals all they will take,
lest bloating should be produced, which, if not
speedily relieved, will almost certainly lead to the
death of the animal. There is some danger also
that scouring will be produced when green rape is
fed in large quantities. The scouring is not nearly
so likely to manifest itself when the stock is also
being pastured on grass more or less dry, or where
there is being fed at the same time a considerable
quantity of hay. And it is not a little surprising
how much dry food, stock will consume when being
freely fed on green rape. Nature seems to furnish
a craving for food that aids in correcting the ten-
dency to an unduly lax condition of the bowels which
may have been induced by feeding rape. And this
will be found true also when other kinds of green
food are being fed. So certainly does this craving
manifest itself that it is questionable if it would not
pay at all times to feed some dry food when animals
are being fed an abundance of juicy green food.

It may not be generally known that this plant
can be fed green with much profit to young colts
more especially after they have been weaned. It is
equally good for calves under like conditions. If

154 SOILING CROPS AND THE SILO.

given an abundance of green rape calves or colts will
grow very quickly and will also improve in flesh. It
makes a grand food for sheep being fitted for
the fairs, for weaned lambs that are wanted in good
form for early selling, and for lambs that must needs
be confined to avoid infection from parasites on cer-
tain pastures. When fed as soiling food, the feeding
can be so regulated that the element from bloating
will be completely eliminated. Rape is also possessed
of peculiar value when fed as soiling food to swine.
When so fed a large saving is effected in grain food,
development is more continuous, and the vigor of the
animals is better sustained.

The rape plant is oftener pastured than cut and
fed as soiling food, frequently it will be more advan-
tageous to use it in the latter form. There is really
no limit to the extent to which this plant may be
used other than that which is fixed by the desires of
the owner.

CABBAGE.

Cabbage (Brassica oleracea) is probably seldom
grown for the express purpose of providing suste-
nance for live stock. In nearly all instances crops of
this plant are grown to provide food for the human
family. Yet in certain areas it may be grown with
much advantage to furnish soiling food for various
classes of live stock. Because of the great power
which the mature plants have to withstand frost,
they will furnish green food at a season of the year
when it can seldom be obtained from any other
source outside of the silo. By exercising some care
and forethought in storing cabbage, as described

PLANTS OF THE BRASSICA GENUS. I S3

under the head of feeding, it may be used as green
food for several weeks after the ground has frozen.

But even though the crop has been grown chiefly
as human food, when the areas thus planted are
large, the residue of the crop after the heads have
been taken, is possessed of a value for feeding uses
that will far more than repay the labor of feeding
it to live stock. This residue, though it varies
greatly in relative value, is frequently worth fully
fifty per cent of the whole value of the crop, when
used as food for live stock. In growing cabbage,
therefore, the recommendation to "gather up the!
fragments that nothing be lost" is peculiarly fitting.

Because of the considerable labor involved in
growing cabbage the crop is adapted to intensive
rather than to extensive conditions. The farmer
having a small farm located near a town or city, and
having on that farm few animals, can usually grow
this crop to better advantage than the man whose
conditions are the opposite.

Cabbage furnish excellent food for horses,
cattle, sheep and swine. It has a nutritive ratio of
1 15.2 and, therefore, is in itself almost a perfectly
balanced food for milch cows. It is not only relished
highly by the various classes of animals mentioned,
but when fed to those giving milk, as to cows, ewes
and brood sows, it has much power to produce an
abundant flow of milk. The heads when chopped
fine furnish a peculiarly grateful and appetizing food
for young lambs. The yields obtained per acre are
in some instances simply enormous. Crops of forty
to fifty tons have been grown, but these figures are
much above the average.

PLANTS OF THE BRASSICA GENUS. 157

Distribution. — This crop is wide in its distri-
bution. There is probably no state in our republic
and no province in Canada in which it may not be
grown, and with considerable success. While it has
highest adaptation for cool and moist climates, it
will, nevertheless, grow better relatively in warm
climates than rape. But in these the enemies of the
plant, such as the aphis and the cabbage worm, are
much more troublesome than in northern latitudes
where the mean summer temperature is lower. Thig
crop may be grown in best form in the states of the
Union which border upon Canada and in the
provinces of Canada which border upon the
United States. But excellent crops can be grown
under certain conditions in states much further
south. In fact, there are but few states in the
Union which, in some of their more elevated valleys,
do not furnish just the right conditions for grow-
ing cabbage.

Where the crop can be successfully grown as
human food, it may also be successfully grown as
food for live stock, for the requisite conditions to
produce either crop are essentially the same. But it
should be carefully observed, that because a cabbage
crop has given a financial profit when grown for the
human family, it does not follow it will also give a
financial profit when grown as food for live stock.
Such an assumption would not, of necessity, be cor-
rect, since it involves the consideration of relative
values of cabbage in the market and of meat and
milk produced by the cabbage when fed.

Soil. — Cabbage like all plants of the Brassica
genus luxuriate in a fertile soil, and more especially

158 SOILING CROPS AND THE SILO.

in one abundantly supplied with humus. The
alluvial soils of narrow valleys and river bottoms
furnish for them a most congenial home. The same
is true of the deep rich black loams of the virgin
prairie and of slough lands. They also revel in the
muck soils of swamps that have been drained. They
can be grown on rich loams in fine form, and good
crops can even be obtained from clays of no little
density, but not without much labor. Fair crops
can also be grown on all lands well adapted to the
production of Indian corn, but more fertility,
relatively, is required to grow a good crop of
cabbage than will suffice to grow a good crop
of corn. The lands with least adaptation for
cabbage are those which are light, leachy and
low in fertility. Good cabbage soils are usually
if not always underlaid with clay, not too near
and yet not too distant from the surface. Good
crops may be grown on upland soils naturally
dry in character, but only by the aid of abun-
dant fertilizing.

Place in the Rotation. — The cabbage crop like
all other crops that are given much cultivation should
be made a cleaning crop. It should invariably be
followed by a crop of grain of the non-leguminous
order, unless there are good reasons for doing other-
wise. The grain crop should have grass seeds sown
along with it to produce hay or pasture. But owing
to the peculiar power which cabbage, in common
with all plants of this family, have to feed upon
decaying vegetable matter, there is a peculiar fitness
in growing a crop of cabbage on overturned sod.
Any kind of sod will suffice, but of course, the more

PLANTS OF THE BRASSICA GENUS. 159

dense the better adapted it is for the purpose. Good
clover sod has much adaptation for the production
of good crops of cabbage.

Preparing the Soil. — When cabbage is grown
specially for soiling food, late crops are much pre-
ferred to those that mature early. What will now
be said on the preparation of the soil will have more
especial reference to the growing of late crops. In
preparing the land for this crop the soil should as a
rule be deeply broken. To this there may be some
exceptions, as for instance, when sod land is over-
turned but a short time before the crop is planted on
it, and more especially, when the soil has in it a
strong admixture of clay. The ideal treatment
under such conditions is to plow the sod only
moderately deep and to follow the ordinary plow
with a subsoil plow. The crop of clover or grass
should be allowed to make as much growth as
possible before it is turned under. As soon as the
land is plowed, the roler should follow the plow as
closely as possible. The green mass thus turned
under will begin to decay quickly and the young
cabbage plants will find in it most congenial food and
drink. Good crops of cabbage may be grown after
crimson clover has been cut, or even after the
medium red has been harvested. The chief difficulty
to be met in sowing crops this late is that of sprout-
ing the seed, since the weather at that season is
usually dry. In other instances cabbage may be
grown with profit when green rye has been buried
that had been sown the previous autumn. But the
rye should be buried while yet quite succulent, or it
will not decay with sufficient quickness. There may

I(5O SOILING CROPS AND THE SILO.

also be occasions when the ground should be plowed
in the fall, as for instance, when the land is very foul.
It may then be at least partially cleaned in the spring
before the seed is sown. And when old sod lands are
covered with a dense turf, it may be a good practice
to plow them in the fall, to give the roots more time
to decay before the planting of the crop. When
such lands have been plowed, the surface soil should
be cut up deeply and finely by some implement
adapted to such work. The roots of the young
plants can then push their way through the soil much
more readily and the decay of the sod will be
much hastened.

It is not easy to make the land too rich for cab-
bage by the application of fertilizers, but it would be
easy to so apply fertilizers that there would be waste
of the same. For instance, if farmyard manure,
commercial fertilizers, or both were applied in excess
of the needs of the crop on a leachy soil and in an
area possessed of a rainy climate, much of the excess
of fertility unused by the crop would be washed out
of the soil before the planting of the next crop. That
the plants may be abundantly supplied with food,
and that such waste may be avoided, the practice has
become common when growing cabbage to apply
much of the fertilizer along and near the line of the
row where the plants are to be grown. But where
fertility has thus to be distributed with so much care,
it is at least questionable if cabbage can be profitably
grown as a food for live stock. On many of the
prairies of the west, especially in the slough lands of
the same, enormous crops can be grown without the
application of any kind of fertilizer.

PLANTS OF THE BRASSICA GENUS. l6l

Farmyard manure is an excellent fertilizer for
cabbage, but unless applied some time before the
planting of the crop it should be somewhat reduced
before being used. Many eastern growers compost
farmyard manure with night soil and muck, or cer-
tain forms of fish waste, and when sufficiently near
the sea they add kelp. Purely commercial fertilizers
will not give returns so satisfactory, in the entire
absence of farmyard manures, as when the latter is
present. When both are applied the manure is com-
monly plowed in and the commercial fertilizer placed
in and near the line of the row which is to receive the
seed. These fertilizers are thus made specially help-
ful to the plants while they are young and the barn-
yard manure is more helpful at a later period. Such
fertilizers as guano, superphosphate with much
nitrogen in it and hen manure are excellent for such
a use, and so are wood ashes. Cabbage feeds freely
upon the three essential elements in complete fer-
tilizers, but most freely on potash.

In any case, if the soil is not rich where a crop
of cabbage is to be grown, it should be made so, since
an ample supply of fertility not only fortifies the
crop against such vicissitudes as unduly dry weather,
for instance, but it is also necessary in order to pro-
duce a profitable crop.

Solving. — It is, at least, questionable if it will
pay to grow cabbage for green food only, in locali-
ties where they cannot be easily and surely grown
by the method of sowing the seed in rows rather
than by that of transplanting. Of course it is dif-
ferent when the crop is grown mainly for the mar-
ket, the residue only being fed to live stock,
II

1 62 SOILING CROPS AND THE SILO.

In some localities plants grow so readily and so
surely, that the crop may be grown by sowing the
seed where the plants are to remain. It may be thus
grown in many instances as surely and easily as a
crop of turnips or rutabagas. The western and
northwestern states have special adaptation for the
growing of cabbage crops by this method. In other
localities their insect enemies are so numerous that
it is almost necessary to start the plants where they
can be given protection, and then after they have
made a good start to transplant them into the field.

The seed may be sown by first marking off the
ground, then using a hand drill which deposits the
seed in the line of the marks that have been made ;
some grain drills may be used to sow the seed with-
out the seed beng mixed with anything. With
other patterns of drills it is necessary to mix the seed
with some such bulky substance as salt. The rows
should not be closer to one another than thirty inches,
nor more distant than thirty-six inches. The seed
should be buried to a depth varying from less than
one inch to more than two inches, according to the
nature of the soil. A roller should also in nearly all
instances be run over the soil before and after sow-
ing the seed.

The late varieties are to be preferred, and among
these the larger sorts ; as for instance, the Drumhead
and Savoy. The early varieties do not grow suffi-
ciently large. They are also lacking in an
abundance of leaf growth, nor do they keep so well
as the large and late varieties do. The best variety
for each particular location, however, can only be
ascertained by actual test.

PLANTS OF THE BRASSICA GENUS. 163

From one to two pounds of seed per acre will
be sufficient. The first mentioned quantity should
be ample under average conditions, but it may be
necessary sometimes to sow fully twice that amount.

The time for sowing the seed will depend con-
siderably upon the place which is given the crop in
the rotation. The young plants are somewhat
tender for a time, hence hard frosts in the spring
will destroy them. But they will withstand slight
frosts without harm. The seed should not be sown,
therefore, much sooner than the regular season of
corn planting. There may be instances where the
crop sown thus early will mature too soon to best
serve the end for which it was grown. When plants
reach a maximum growth in hot weather, many of
the outer leaves wither and are lost as food. Sow-
ing should not be done at a period so late as to
hinder the crops from making good heads, since the
food value lies more in the head than in any other
part of the plant. But this crop may, with more
propriety than some others, be sown somewhat late,
owing to the great power which it has to continue to
grow in the late autumn^

Should the small black beetle (Epitrix spec.)
attack the plants when young, they ought to be
dusted promptly, and while the dew is yet on, with
air-slaked lime and wood ashes. And should the
plants suffer later from the attacks of the cabbage
worm (Pieris rapae, Linn.) they ought to be sprayed
once or twice with kerosene emulsion or paris green.
Paris green would be the more effective application
of the two and there will not be any real danger in
using it thus when the cabbage are not to be fed for

164 SOILING CROPS AND THE SILO.

some weeks subsequently. These remedies will prove
effective unless under extremely adverse conditions.

Cultivation. — The relation, between abundant
yields, and the nature and extent of the cultivation
that is given to the. cabbage crop, is both close anJ.
intimate. As soon as the young plants distinctly
mark the line of the row the cultivation should begin.
And when weeds are superabundant, if the land is
stirred by the hand hoe close up to the plants and
for a short distance on both sides of them, the labor
thus expended will be amply rewarded in the more,
vigorous growth of the plants, and in the greater
ease with which they can be thinned. The culti-
vation should be frequent and should be continued
as long as it can be done without breaking off any
considerable number of the lateral leaves of the
plants.

The thinning of the plants should ordinarily
begin while they are not yet more than three or four
inches high. If left unthinned for a much longer
period they become more or less spindling and do not
produce so large a head. But when the cutworms
are numerous it may be well to defer thinning to a
later period than would be advisable in the absence
of such an enemy. The thinning is almost entirely
done by the use of the hoe. The individual using
it strikes forward and pushes backward as in thin-
ning turnips; the plants not wanted fall before the
hoe. The distance to which they should be thinned
will depend upon the variety, upon the time during
which the crop may continue to grow, and upon the
nature of the soil and season. The distance will
vary, say, from eighteen inches to thirty inches,

PLANTS OF THE BRASSICA GENUS. 165

The average may be stated as twenty-four inches.
When thinning the plants, the skilled workman will
detect at a glance a single plant growing about the
right distance from the one last left to grow. He
can then without hesitation cut out all the interven-
ing plants. Though this single plant should vary
one, two, or even three inches from the exact distance
fixed upon, it would be better to leave this plant
than to leave one of a cluster in the exact spot, but
from which the plants around it must needs be pulled
out by hand. And if a blank should occur it can
easily be filled during the thinning process.

The workman strikes his hoe downward into
the soil and lifts out the earth above it. He then
strikes it down beneath a single plant which other-
wise would be cut out and lifting it up on his hoe
with the adherent earth sets it down into the hole
previously made. Young plants may thus be re-
moved at almost any hour of the day, and without
much wilting of the leaves.

Feeding. — When the crop is sold in the market,
the feeding of the unused portion should begin at
once, the leaves being gathered with a fork and
conveyed directly to the stock, or stored in a flat pile
for subsequent feeding, not more than a foot in
depth. If allowed to lie on the ground underneath
a hot sun, they would soon wither and entirely lose
their feeding value.

But when the crop is to be fed in its entirety,
the plants may first be cut off at the surface of the
ground or underneath it by the use of a sharp hoe
or spade. A strong spud would probably do the
work more effectively than either the hoe or the

1 66 SOILING CROPS AND THE SILO.

spade, and with more ease to the operator. The
plants are then carted to the feeding place, whether
it be in a pasture, paddock, yard, shed or stable.

All classes of live stock will devour the plants,
leaving only the woody stalks, unless in the case of
young lambs. For these they should be minced/
When fed to cows giving milk, care should be taken
lest too many be fed, and the cabbage should be
given just after each milking. When thus fed to
milch cows a considerable proportion of the whole
ration may consist of cabbage without imparting
to the milk any disagreeable taint. Every care
should be taken to avoid feeding cabbage leaves
which are partly decayed to cows giving milk, or
most unpleasant odors will arise in the milk.

The feeding of the crop may begin as soon as
it is mature or a little previous to maturity. The
feeding may continue without interruption until the
crop is entirely consumed. If winter threatens to
close in before the crop has been all fed, it should at
once be carted to some place convenient for feeding,
and also sheltered from the cold winds, as by the
side of a straw stack, and there piled up if need be
several feet deep and then covered with straw. The
feeding from this pile may go on without interrup-
tion until the crop is consumed. The duration of
such feeding, however, is largely affected by climate.
In latitudes where the winters are mild, cabbage may
be stored for future feeding by stacking them in the
form of a ridge roof on the surface of the ground,
or from some distance below it, and may be covered
with one or two feet of straw, rough litter, or marsh
hay, according as one or the other of these may be

PLANTS OF THE BRASSICA GENUS. 167

convenient. To economize space it will be well to
break off the outer leaves before the plants are thus
stacked with the heads downward. If cabbage freeze
when thus stored, no serious harm will follow. While
thus frozen, cabbage should never be fed to any kind
of live stock, not even swine. And it should be
remembered that alternate freezing and thawing are
greatly injurious to this plant.

Cabbage may be kept even more surely and
probably more simply in some climates, by lifting
them with the potato fork and standing them in a
double or treble line, with the root upward and with
all or nearly all the leaves retained. The cabbages
are brought to a ridge by adding a third row when
there are but two rows on the ground, or by adding
two rows and then another when there are three
rows on the foundation. They are then covered as
described above. And sometimes a plow furrow
may be turned toward the cabbage on either side
with manifest advantage.

CHAPTER VIII.

THE COMMON CEREALS.

The chief of the common cereals grown in this
country, are wheat, oats, barley and rye. They are
produced as winter, or spring varieties according to
the circumstances under which they are grown.
All of these may be grown singly for soiling food,
or they may be grown in various combinations.
Peas and vetches may also be included in some of
these combinations, and when they can be so in-
cluded, much is added to the value of the food; as
shown in Chapter VI. The least valuable of these
crops for soiling uses are rye and barley. Rye
turns woody so soon after the ear has formed, that
it becomes unpalatable; and the feeding value of
barley is lessened soon after it somes out in head,
because of the presence of the beards found in
nearly all varieties of this cereal. For feeding pur-
poses these mixtures are usually valuable in proper-*
tion to the peas or vetches which they contain. This
arises from the more nitrogenous character of the
latter, their greater palatability, and the large yields
of the fodder which they produce in pea and vetch
soils.

The combinations in which these crops may be
grown are various. There may be instances in
which several of them may be grown together, but
usually only two or three varieties are thus grown.

168

I7O SOILING CROPS AND THE SILO.

Three of these combinations stand higher in favor
than the others. I, A combination of peas and oats ;
2, a combination of vetches and oats ; and 3, a com-
bination of wheat and oats. The last named
combination is frequently grown where peas or
vetches cannot be relied upon to furnish soiling
food.

Several advantages arise from growing these
plants in combination, i, Usually there is a greater
production of food from a given area. 2, They
can be grown more thickly, hence the straw is finer
and is better relished by stock. 3, They furnish
a better balanced food than when grown alone.

The green food produced by these mixed crops
can be fed to all classes of live stock, but it has
relatively higher adaptation for dairy cattle, be-
cause of the free milk giving that results from feed-
ing it. Mixed crops may be fed to sheep and swine,
but only when in a quite succulent stage of growth,
or when it is almost entirely composed of peas or
vetches. Wheat, oats, barley and rye become so
woody when well advanced in growth, that sheep and
swine do not relish them. It is more common to
pasture both on these mixtures than to feed them
in the form of soiling food.

The yields will of course vary with the con-
ditions. The minimum crop that it would be profit-
able to grow may be fixed at, say, six tons per acre.
A good crop should run from ten to twelve tons per
acre. But it is sometimes possible to double these
amounts.

'Distribution. — Wheat, oats, barley and rye
possess a wide distribution. The distribution of

THE COMMON CEREALS.

peas and vetches has already been considered in
Chapter VI. All these grains unless it be peas, can
be grown in both the winter and spring varieties.
The four first named can be grown in some portion,
or portions of every state in the Union and of every
province of Canada. South of the fortieth parallel
they do not generally grow so freely as north of that
line, hence they are not so valuable for producing
green food as some other crop or crops better adapted
to soils that are frequently low in plant food, or
lacking in moisture.

Wheat is usually considered too valuable to be
used as soiling food, and yet there are some localities,
where it can be more cheaply grown for such a use
than almost any other kind of food. These localities
include much of the land in the northerly portions of
the semi-arid belt east of the Rocky mountains, the
Palouse and Walla Walla areas of Washington, and
limited areas in northwestern Oregon. In all these
areas wheat is grown as hay, and where it furnishes
a highly prized food for hay it will also furnish a
very suitable soiling food. There are other areas
so perfectly adapted to the growth of immense crops
of oats that this plant can be made to furnish green
food more cheaply than any other. Such are certain
river valleys west of the Cascade mountains. Barley,
although it grows very rapidly, is commonly too
low in production to make it a profitable soiling
crop, but it will produce green food under a greater
variety of conditions than any of the other cereals
tinder consideration. In addition to its being low
in palatability there is the objection that it is com-
monly in season for feeding when grass is plentiful.

172 SOILING CROPS AND THE SILO.

'Soil. — Wheat, oats, barley and rye may be
successfully grown on a wide range of soils. Each
kind, nevertheless, has its favorite soil. Wheat
luxuriates in deep, moist, pliable loam soils, well
spiced with clay and well stored with vegetable
matter. The loose lying soils of nearly all the west-
ern prairies have high adaptation for wheat pro-
duction. Soils ill adapted to the growing of wheat
include those that are sandy and poorly supplied
with nitrogen, those that are shallow, with hardpan
coming near the surface, and those that contain an
excess of water at any time during the growth of
the plants. Oats also grow most luxuriantly on
soils that are best suited to the growth of wheat.
But since the oat plant is a more gross feeder than
the wheat plant, it will produce a better growth
relatively than wheat on soil ill conditioned, me-
chanically and imperfectly supplied with plant food.
Barley will grow better relatively on soils rich in
humus and in readily available fertility. Black
loam soils, with enough sand to keep them in a good
mechanical condition, have high adaptation for
barley, and since this grain feeds near the surface
rather than far down, much depth of subsoil is less
essential to the growth of barley than to the growth
of wheat and oats. The soils with least adaptation
for barley include those deficient in humus and which
contain an excess of clay. Since the crop grows
rapidly, if it is to be a success, the young plants
must be able to send their rootlets quickly and in all
directions between the soil particles.

Rye is beyond all comparison the most vigor-
ous feeder of the four cereals under discussion. It

THE COMMON CEREALS. 173

will stand more abuse than wheat, oats or barley;
that is to say, it will grow better than any of these
when sown on soil not well prepared, poorly sup-
plied with plant food, and under adverse climatic
conditions. Rye will grow well on all soils pos-
sessed of high adaptation for wheat, oats or
barley. It will also give a fairly good return on
soils too light and poor to produce good crops
of those cereals.

When these plants are grown in combination
the aim should be to grow them on soils generously
supplied with plant food. The value of a soiling
food is usually largely proportionate to the abun-
dance of the yield, hence the mistake of sowing under
conditions that do not give promise of an abundant
yield. One variety will find its favorite food in
such a soil and will appropriate the same. A second
variety will do likewise, and so with a third and
fourth. Since these appropriations draw in differ-
ent degrees on the same food elements, each is
enabled to get its share and thus to contribute to a
large aggregate yield. In growing these crops as
green food, it should be remembered that since the
object is to get a large amount of green food with-
out regard to grain production, the best soiling
crops will be obtained on lands too rich for the high-
est grain production.

Place in the Rotation. — These crops may be
given almost any place in the rotation, since they are
cut before weeds can ripen in their midst. A foul
condition of the land at the time of sowing, though
objectionable, is not so seriously objectionable as in
growing some other crops. These crops may be

174 SOILING CROPS AND THE SILO.

grown in a sense as catch crops ; that is to say, after
early pasture crops, as winter rye. Or they may be
sown early and be followed by some other crops ; as
for instance, rape, winter wheat or winter rye, and
in certain areas by winter vetches or crimson clover.
When these crops precede a winter crop, there is
usually ample time to prepare the land well before
the winter crop is sown. They may also be followed
by the bare fallow. And in some instances they
may be sown late in the season to provide green food
late in the fall. These crops are essentially clean-
ing crops, and they thus help to clean the land with-
out special effort on the part of the grower to reach
such a result.

Preparing the Soil. — The preparation of the
land for these crops is simple, as it is for all crops
that fit in almost anywhere in the rotation. Usually
the deeper, the finer, the more moist, the richer and
cleaner the seed bed, the more satisfactory will be
the results when the crop has been sown. And as
a rule these conditions can be more perfectly secured
when considerable time elapses between the plowing
of the land and the sowing of the seed. But there
are soils in which deep plowing but a short time
before sowing the seed would be harmful rather than
helpful to the crop. Such are light sands and
heavy clays. When these crops are to be sown after
another crop previously harvested the same season,
moisture in the soil will be conserved to a much
greater extent by using the roller and harrow freely
as soon as possible after the land has been plowed.

On lands of average fertility these grain crops
may of course be grown quite sucessfully without

THE COMMON CEREALS. 175

further enriching the land. But it may be profitable
to add fertilizers when the facilities are at hand, to
stimulate abundant production. Farmyard manures
are excellent when applied in a form suitable to the
needs of the land. Where much rainfall is expected
the manure may be applied in the fresh form, but
when moisture will probably be deficient, it should
be applied in the reduced form.

The commercial fertilizers most commonly used
are those which are designated complete fertilizers,
but the nitrogen content in them should usually be
high to meet the need of these crops. And when
moisture is present in a sufficient degree, these crops
may be further stimulated by sowing on them nitro-
gen in some form, after the plants have made a good
start. It is not usual, however, to go to much ex-
pense in specially enriching the land for this class of
green crops, because of the short duration of the
period of growth.

'Sozving. — The seed may be broadcasted when
the facilities for drilling it are not at hand, but in
nearly all instances it will be found preferable to
sow the seed with the drill. The drill buries
it more uniformly as to depth and covers it more
perfectly. Ordinarily when these grains are sown
as mixtures, it is labor saving and more satis-
factory in various ways to mix them before they
are sown.

The most suitable kinds to sow will be those
which past experience has shown to be the most
vigorous growers. These will vary with variations
in climate and soil. No one variety of any kind of
grain can be found that will grow equally well in all

SOILING CROPS AND THE SILO.

parts even of a single state. In choosing varieties
preference should be given to those which stool
much, and produce growth of a fine character, pro-
viding they are not too weak in the straw to prove
satisfactory.

When these grains are sown singly, the quantity
of seed that may best be used can be given only
approximately. The same is true of them when sown
in combination. In some soils the plants stool much
more than in others and grow with much more vigor.
The quantity of seed therefore, that will best serve
the end sought will have to be ascertained by actual
test. It will seldom be found profitable to sow less
than two or more than three bushels per acre. The
latter quantity or a close approximate to it will
usually prove more satisfactory than a less quantity
of seed. But when vetches form a chief factor in
the crop, a less quantity of seed may suffice, because
of the small relative size of the vetch seed.

When wheat and oats are sown together, it is
customary to sow about equal quantities of each.
This will give a preponderance of the oat element
in the crop, because of the greater stooling power of
the latter, and this is so far satisfactory since green
oats are considered more palatable than green wheat.
When peas and oats are sown together, the most
suitable quantity of the seed of each will be de-
termined chiefly by conditions which relate to the
soil adaptation, as previously intimated. Because
of the nitrogenous character of the peas and because
of their high palatability, the aim should be to have
the peas form the preponderating element in the
food The same is also true of vetches. It may be

THE COMMON CEREALS. 177

necessary, therefore, to sow the peas or vetches as
three to one or two to one by measure, as compared
with the oats in the mixture. On the other hand
certain soils may be so much better adapted to grow-
ing peas or vetches than oats, that in order to secure
the necessary support for the former, more than half
of the seed by measure must needs consist of oats.
When peas and vetches are both sown along with
oats, the proportions that ought to be sown of each
in the mixture should be determined by conditions
that relate to soil and climate, and to the character
of the food sought.

Usually the common cereals are sown to pro-
vide soiling food as early as possible in the season,
though of course they are frequently sown later; in
certain instances as late as midsummer. To prolong
the season of feeding, it is common to sow a portion
only of the seed at first, and the remainder two or
three weeks later, or it is sown at two intervening
intervals rather than one. The chief objection to
the plan is found in the decreased production of
the later sowings, but to this there are some ex-
ceptions.

Another plan sows a quick maturing variety as
barley, and at the same time a mixture that grows
more slowly, as peas and oats. The period of feed-
ing may thus be made to cover from, say five to
eight weeks, and if the quantity sown should be in
excess of the needs of the stock, it can be turned to
excellent account by harvesting it for winter fodder
when the grain, or much of it, is in the milk stage.
Barley is probably the most suitable of all the com-
mon cereals to provide green food in the autumn;
12

THE COMMON CEREALS.

an3 in moist climates only, can it be sown for such
a purpose, as for instance, in New England.

Cultivation. — Ordinarily no cultivation is given
to these crops after they have been sown. But there
may be instances when the harrow can be used on
them to advantage, more especially when peas and
oats have been sown together and buried with the
grain drill at an even depth. If harrowed with
more or less thoroughness just as the first young
plants begin to appear, the growth of weeds will be
checked and the moisture in the ground will be better
conserved. Before the weeds can make a good start
again the plants get so far ahead of them as to
materially hinder their growth. But if the ground
is unduly moist, the harrow cannot of course be used
thus. A light harrow should be used, generally,
having teeth slanted backward.

There may also be instances when it would be
more profitable to plant the crop in rows sufficiently
distant to give them more or less horse cultivation.
Such a method of growing these plants would be
especially helpful where moisture is not present in
sufficient quantities to produce a maximum growth.
Crops thus cultivated would no doubt produce much
more abundantly in a dry region, but the system
belongs rather to the future than to the present.
The machinery for bestowing such cultivation has
not yet been perfected.

Feeding. — With regard to the best method of
feeding these crops, much that has been said under
the head of feeding in the chapter on corn will be
(equally applicable to them. The cutting of rye as a
soiling food should begin as soon as the first growth

* 2

COMMON CEREALS. l8l

will justify such a course, and it should not be fed for
any considerable time after it has reached the earing
stage, unless it is to be run through a cutting box and
fed with other food, as "chaffed" hay. When thus
prepared, and meal is added to the mixture, it would
then be possible to feed green rye until the grain
began to form in the ear, and possibly for a longer
period. If fed alone after it has fully come out in
head, animals do not relish it sufficiently to make it a
desirable soiling food. Barley also should be fed at
a stage before the beards begin to stiffen.

When food is grown in mixtures the grains
composing these will not always be possessed of
equal advancement, careful discrimination is neces-
sary on the part of the grower as to when the cutting
should begin. Usually when peas, or vetches in the
mixture have produced some blossoms and when
the heads of other kinds of grain are ready to leave
the leafy envelope which surrounds them, the cutting
of the crop may begin. At the stage indicated as
suitable to begin cutting these crops, they have not
reached that stage when they contain the highest
food value, but to leave them longer before begin-
ning to harvest them would, too much, curtail the
duration of the period in which they could be fed
with profit in the green form.

Like other green crops they are cut with the
scythe or mower, and drawn in the usual way.
When these crops grow very rankly they are
occasionally thrown down with storms which in-
creases the labor of cutting them. In some instances
the mower can only be driven on two sides of the
plot or field, if the crop is to be cleanly gathered.

1 82 SOILING CROPS AND THE SILO.

The food when cut may be lifted with" sufficient
cleanness when a fork is used, with several tines in it,
that is to say, a fork made somewhat after the plan
of a barley fork. The green food may be fed
without any wilting, but a moderate amount of wilt-
ing is in no way injurious to it.

When there is a surplus of green food it may of
course be allowed to reach a stage of early ripening,
and may then be harvested for winter use. In
harvesting the same the mower or the binder may be
used according to the attendant circumstances, but
if the binder is used the sheaves should be made
small rather than large, tied loosely rather than
tightly, and cured in oblong rather than in round
shocks. Wheat and oats grown together ought to
be cut for winter food at a stage somewhat earlier
than peas and oats to insure enough palatability in
the straw. When the stems of the plants turn
yellow for a short distance above the ground, the
crop is ready for harvesting. Peas and oats thus
harvested make a splendid fodder for winter feed-
ing. It is easily cured and handled, and is at once
highly palatable and nutritious.

CHAPTER IX.

MILLETS.

Millet is one of the most important and valuable
soiling crops grown in this country. Its great
value as soiling food arises, 1st, from the palatable
and nutritious character of the food which it pro-
duces; 2nd, from the shortness of the period re-
quired to grow it; 3rd, from the large amount
of food that can be grown upon rich land ; 4th, from
the wide distribution of the crop; and 5th, from
the many and various places which may be assigned
to it in the rotation, consequently when it becomes
better known, it will be used as soiling food to a
much greater extent than it is at the present time.

Millet is of many species and varieties, not a
few of which have been but little tested in this
country, and consequently they are not as yet well
understood. The classification of the millets is still
regarded as incomplete by the Department of
Agrostology at Washington, but for the present
the said Department has grouped them as the fox-;
tail, the barnyard, the broom corn and the pearl-
groups. To the foxtail millets belong such sorts as
the Common, the German, the Hungarian and the
Golden wonder varieties. These are relatively small
and fine in their habit of growth. German millet
is characterized by an abundant leaf growth. Hun-
garian millet produces heads of a dark shade, hence

183

MILLETS. 185

it may easily be distinguished from other foxtail
millets after the earing stage. Golden wonder
millet is a great seed producer but it is probably
less valuable as a soiling food than the other varieties
of the foxtail class.

The barn yard millets include the varieties de-
rived from the common barn yard grass (Panicum
crus-galli). The African millets are also included
in this class. They are characterized by an abundant
growth, but are somewhat coarse in character
The broom corn millets are rather grown for the
grain they produce than to provide soiling food, but
they also may be made to furnish soiling food.
The pearl millets are but little grown as yet in this
country. Some of the varieties produce an abun-
dant growth, but they are not considered so palatable
as cultivated millets of the foxtail class. They have
not been much introduced as yet into American
agriculture, hence little can be said as to their adapta-
tion and value. But one variety of this group will
be considered in Chapter XIII, when discussing
plants whose value in providing soiling food has not
been fully demonstrated.

Distribution. — Few plants grown as food for
live stock on this continent are of wider distribu-
tion than millet. Since it can be sufficiently ad-
vanced in growth for being cut as soiling food in
from fifty to ninety days from the date of sowing,
there are but few localities in the United States in
which it may not be grown with entire success.
And since it is in a pre-eminent degree a plant of
the sun, the climatic conditions least favorable to its
growth in our country will probably be found in

MILLETS. 187

Oregon and Washington, between the mountains
and the sea. In all the other portions of the United
States the season of high summer temperatures is
sufficiently prolonged to force millet crops quickly
into maturity, unless it be upon the mountain up-
lands. The climate of all the central and southern
states is markedly favorable to the growth of millet.

The highest adaptation of soil and climate
together are probably found in the Mississippi basin,
from Lake Itasca to the Gulf of Mexico. Millet
is an indispensable adjunct to the hay crops grown
within this basin, and it is an indispensable factor in
growing soiling foods for stock. The less favorable
the conditions for the successful growth of hay
crops the more indispensable does the millet crop
seem to be. The climatic conditions in what are
usually spoken of as the southern states are equally
favorable, but not so of the soil conditions, hence
the growth of millet is not so common in these as it
would otherwise be. The crop has not been grown
to nearly the same extent in New England and the
adjacent states as in the Mississippi valley, because
of the stiffer soils, and in many instances because
of the more hungry soils of the former. The millet
crop can also be grown with a fair measure of suc-
cess in nearly all of the cultivated parts of Canada.
The lowest adaptation is found in British Columbia
and in the Maritime Provinces beside the Atlantic,
and the highest adaptation in the prairie provinces
eastward from the Rocky mountains to Lake
Superior.

Soil. — Millet in all its forms requires a rich
soil and a soil easily penetrated by the roots of the

1 88 SOILING CROPS AND THE SILO.

plant in order to grow it in the best form. Soils
abounding in vegetable matter and naturally warm
and friable, and which furnish plant food abundantly
in a readily available form, are best adapted to the
growth of millet. Such soils abound in much of
the prairie region which extends from the Gulf of
Mexico far northward, although in seasons that are
moist, good crops of millet may be grown even on
stiff clays. But these soils are not well suited, as a
rule, to the growth of millet. In nearly all instances
too much labor has to be bestowed upon such soils
to prepare a seed bed sufficiently fine and moist.
They are not sufficiently penetrable to the roots of
the millet, and the plant food in them is not suffi-
ciently available. Light and hungry sandy soils are
ill adapted to the growth of this crop, and the same
is true of soils unduly moist and cold. But immense
crops can be grown on the muck soils of drained
sloughs and marshes. Millet can be grown nicely
under irrigation in the warm mountain valleys of the
west. But in these it is not specially needed because of
the abundant product of alfalfa obtained from them.

Place in the Rotation. — Millet in nearly all its
varieties may be given almost any place in the rota-
tion. It may be the sole crop for the season, or it
may be grown as a catch crop. It is more com-
monly grown as a catch crop, since in many sections
the season is amply long to grow a crop of millet
after another crop has been removed and before an
autumn crop has been planted on the same land.

Millet is seldom made the sole crop grown upon
the land, except in instances where the husbandman
has been unable to sow other crops in season, because

MILLETS. 189

of excessive wetness in the soil, or because of some
other reason. But when it is thus grown it may in a
sense be made a cleaning crop, even though sown
broadcast, since there is more or less time for sprout-
ing the weed seeds near the surface of the ground
before the millet is sown, and when the seed is
sown in rows and cultivated it may always be made
a cleaning crop.

Millet may be sown with much propriety after
such winter crops as rye, the winter vetch, the winter
oat, or crimson clover when these have been pastured
or cut for green food. Under favorable conditions
it may be sown after the first cutting of medium
red clover or even after grain crops that have
matured early, and it fits in nicely after newly sown
meadow crops in which the "stand" of grass has
been a partial failure, and which in consequence has
been grazed down. With equal fitness it may come
after spring sown grain which from any cause may
have failed. Fall wheat is sometimes sown after
millet, but the plan of sowing it thus is not a good
one, since millet, like flax, preys heavily upon the
fertility of the soil. It has also been noticed that it
leaves the soil much depleted of its moisture. It
may with much greater propriety be followed by
winter rye, which has greater power than winter
wheat to gather food in the soil, and with equal pro-
priety it may be followed by a leguminous crop, as
the common winter vetch or the sand vetch.

Preparing the Soil. — Since millet is grown so
variously in the rotation, only directions that are
general rather than specific can be given relating to
the preparation of the land for the seed. It should

SOILING CROPS AND THE SILO.

be the aim of the grower to prepare a seed bed clean,
moist, fine and smooth. The clean seed bed can only
be reached by the frequent use of the harrow for some
time previous to the sowing of the seed. But when
millet is grown as a catch crop the season for prepar-
ing the seed bed is usually too short to admit of thus
cleaning the land. The means used to secure a clean
seed bed will also tend to conserve moisture in the
same, and the judicious use of the roller will also
tend to secure the same end.

In cloddy soils, a fine seed bed can only be
secured by the judicious use of some form of clod
crusher or harrow and roller. In a dry time it would
be labor lost to sow millet in cloddy soil. A level
seed bed is secured by careful plowing and by supple-
menting such plowing with drawing some form of
leveler over the soil. When any considerable period
elapses between the plowing of the land and the sow-
ing of the seed, the land may be fitted as desired, but
it more often happens that the seed must be sown so
soon after the plowing of the land that it hinders the
fitting of the same in the very best form.

It is not usual to apply fertilizers directly in
sowing a millet crop, more especially in the north
and west. In the north, fertilizers are applied to
crops that are considered more important. In the
west they are not much needed. But on ordinary
soils the yield from this crop will be greatly increased
by the judicious use of fertilizers. When they are
used it should be in the readily available form, owing
to the shortness of the season in which millet makes
its growth. If farmyard manure is applied it ought
to be in the reduced form and incorporated as much

MILLETS.

as possible witn e surface soil, since millet gathers
its food near the surface rather than far down in
the soil. When commercial fertilizers are used, they
should usually contain a relatively high content of
nitrogen, and there are instances in which what are
termed nitrogenous fertilizers are needed.

Solving. — Millet is more commonly sown broad-
cast and by hand. But it may be sown by certain
kinds of grain drills in common use. The following
objections apply to hand sowing : i, The seed is not
buried so evenly, hence the germination is less per-
fect than when the seed is sown with the drill ; 2, a
considerable proportion of the plants start so near
the surface that the loss of plants is greater if the
harrow is used subsequently ; 3, the plants have also
less power to withstand drouth.

Whether all the drill tubes should be used in
sowing millet or only a part of them depends to a
considerable extent on the kind of the millet. The
small sorts are usually sown with all the tubes in use,
but the larger ones are frequently sown in rows far
enough apart to admit of easy cultivation. These
rows are in some instances made thirty-six inches
apart, but more frequently the distance is not more
than thirty inches. The small millets, as the Com-
mon, the German, the Hungarian, the Golden Won-
der and the Broom Corn, are more commonly sown
when the crop is not to be cultivated. But the larger
kinds, as the Japanese, should be preferred when
subsequent cultivation is to be given. The smaller
sorts furnish the more palatable food, but the larger
ones produce the better yields, and the crops that are
cultivated can withstand dry conditions much better

IQ2 SOILING CROPS AND THE SILO.

than those that are not so cultivated. The kinds
best suited to the needs of any locality can only be
determined by positive test.

When millet seed is sown broadcast by hand,
not fewer than sixteen quarts of seed are sown per
acre, nor more than thirty-two quarts. From twenty
to twenty-four quarts may be called average quan-
tities. Thick sowing results in a finer growth
in the plants, but it is only to be practiced when
enough moisture may be looked for to supply the
needs of the crop. When the seed is sown in rows
far enough apart to admit of cultivating the crop, a
few pounds of seed will suffice per acre.

It is useless to sow millet before the ground and
weather are both warm. When the weather is raw
and cold for some time after sowing the millet, the
germination is pretty certain to be imperfect, and the
subsequent growth unsatisfactory. It is usually
better not to begin to sow millet until the corn plant-
ing has been finished.

Cultivation. — Millet that is sown broadcast can-
not even be harrowed with a light harrow after the
seeds have sprouted, without destroying a consider-
able proportion of the plants. But when sown with
the drill, the plants will not be thus disturbed if the
harrow is drawn over the ground with the teeth at a
considerable angle, before the plants have reached the
surface of the same. And the crop may even be
harrowed at a later period if the work is done with
sufficient care. But on many soils some form of
weeder will do the work more satisfactorily when
the seed has been broadcasted. When millet seed
is not dear, if more seed were sown than would be

MILLETS. IQ3

deemed sufficient, then the crop can be harrowed
with benefit to the same after the plants have become
well rooted. Notwithstanding the destruction of
plants, there will still be enough left, and they will
grow much more vigorously than if the crop were
not harrowed.

Cultivation should begin on the crops sown with
that object in view soon after the harrowing has been
completed. It ought to be frequent and thorough,
and shallow rather than deep. It will not be neces-
sary to give the crop any hand hoeing unless it is
infested with some form of perennial weed which
it is desirable to exterminate, as usually it will be
ready for being cut before annuals growing in it will
have matured their seed.

Feeding. — The cutting of millet as a green food
may begin as soon as any considerable number of
the heads have appeared and it may be continued
until the crop is ready for being made into hay. Any
portion of the same not wanted as green food should
be thus disposed of unless it is wanted to produce
seed. Millet is sufficiently advanced for being made
into hay when all the heads are fully out. As it
usually heads out unevenly, the tiny heads appear
considerably later than the large ones. Or it may be
cut when the heads present a slightly golden tint on
looking over the field. If the crop is cut earlier
than the stage mentioned, it is lacking in "body,"
that is to say, weight and full nutrition. If cut at
a later period the stems become woody and the seeds
shatter more or less while the crop is being cured
and stored. The scythe or the mower are to be used
in cutting millet as green food. It is drawn and fed

13

194 SOILING CROPS AND THE SILO.

as other green food, in the pasture, paddock, yard,
feed rack or stable mangers. .It is better not to
allow the crop to wilt overmuch before being fed.
But wilting millet of a growth rank and coarse in
character will add to its palatability. There is vir-
tually no danger from feeding it green.

If two kinds of millet which mature at different
periods are sown separately and at the same time, the
period of feeding will be prolonged. The same end
may be attained by sowing the same sort with an
interval of three to four weeks between the periods
of sowing the seed. The period for feeding green
millet may thus without difficulty be made to em-
brace from six to eight weeks except where the sea-
son of growth is very short. When the season of
growth is long, the period of feeding may be pro-
longed accordingly. But care should be taken to
harvest millet before the autumn frosts arrive, as it
is easily injured by frost.

CHAPTER X.

FIELD ROOTS.

More commonly field roots are grown to pro-
vide winter food for live stock, but in some instances
they are also grown to provide soiling food. The
chief of these are rutabagas, turnips, mangels, sugar
beets and carrots. Parsnips are too deeply rooted
to admit of their being profitably grown as soiling
food, and the same is somewhat true of sugar beets
and carrots. The growing of these crops involves
much more labor than the growing of a crop of
rutabagas, turnips or mangels. And since rutabagas
require a period considerably longer to mature than
turnips, the latter are preferred for summer feeding.
Turnips and mangels are therefore more highly
adapted to providing green food than any of the other
field roots that have been named. No one of these
crops has been grown to any considerable extent in
the United States for green food, nor has any one
of them been grown for any purpose to anything like
the extent to which its feeding value would justify.
Ontario, Can., is beyond all comparison the greatest
root-producing district in North America.

The labor involved in growing and feeding
these crops will probably form an effective barrier
against their general introduction as soiling food,
and yet there may be instances when it would be the
part of wisdom to grow them. While for all kinds

?9S

196 SOILING CROPS AND THE SILO.

of live stock kept upon the farm, roots furnish excel-
lent food, they are more commonly fed in the green
form to swine, though sometimes also to cows and
calves, also to sheep that are fitted for being shorn.
They are eminently suited to the needs of young
animals, such as calves and lambs, whether fed in
winter or summer. Since these crops can oftentimes
be grown as a catch crop, and since they furnish a
large amount of food per acre, an adequate return
may frequently be obtained for the considerable
amount of labor involved in growing them, espe-
cially when the holdings are small and when green
food is to be provided for a limited number
of animals.

As the tops and roots are both fed as green food,
large yields are often obtained per acre, in some
instances as much as twenty-five tons, but the aver-
age crop is considerably less than that amount, the
yield depending largely on the variety grown.

Distribution. — The rutabaga, sometimes called
the Swedish turnip, is best adapted to cool and moist
climates. On this continent, the best crops can be
grown north rather than south of the forty-third
parallel of latitude, that is to say, north of the south-
ern boundary of Minnesota.

The turnip (Brassica rapa), sometimes called
the fall turnip, since it is fed in the fall rather than
in the winter and spring, can be grown in nearly all
the states of the Union, in several of its varieties, but
it, too, is best adapted to moist and not exces-
sively hot climates. In the southern part of the
United States, turnips can be grown in best form
on the uplands, unless when grown chiefly in

FIELD ROOTS. 197

the autumn after the hottest weather for the
season has gone.

The mangel (Beta vulgaris) will endure more
heat than the rutabaga, or turnip, hence it has a wider
distribution than those crops, but the mangel also
may be grown more satisfactorily where the summer
temperatures are not excessive, hence the best mangel
crops may be looked for north of the fortieth parallel.

The sugar beet may be grown in good form in
what may be termed "wine climates," that is to say,
in climates well adapted to the production of the
grape. But, like mangels, sugar beets may be grown
much further north than grapes, except when vines
of the latter are specially protected in winter.

The carrot (Daucus car of a) also grows best
where the summer weather is moist and temperate,
but, like mangels, carrots can be grown in season in
some part or parts of every state in the Union. The
highest adaptation for field roots in North America
is found in Oregon, Washington, the New England
states, British Columbia, Ontario and the Maritime
Provinces of Canada.

Soil. — All kinds of field roots can be grown in
good form on deep, moist, loam soils, and possessed
of that degree of admixture of clay and sand which
keeps them in a friable condition. But the exact soil
conditions best adapted to the growth of each are
not exactly the same. Clay soils, for instance, may
be made to produce good crops of mangels, but not
of turnips, and the proportion of sand in the soil
that would aid in furnishing high adaptation to the
growth of carrots would be excessive for the best
results in growing mangels. Heavy clays are not

198 SOILING CROPS AND THE SILO.

well adapted to the growth of any kind of field roots
for soiling uses, since the labor in preparing them for
the seed is usually over-much, and the plants grow
slowly in them. On the other hand, infertile sands
do not produce enough growth. Black loam soils,
such as abound on the prairie, have high adaptation,
but they are apt to be much infested with weeds.
Slough and swamp soils will produce large quanti-
ties of such food after they have been drained, but
in them the growth of top is relatively greater than
in other soils. Peat soils, until reduced, are usually
not good root-producing soils. But the gray sands
of the Rocky mountain valleys will produce field
roots abundantly when supplied with water.

Place in the Rotation. — Field roots should
always be grown as a cleaning crop, whether grown
for the roots only or for the roots and tops ; in other
words, whether they are grown for winter feeding
or for summer and autumn feeding. But when
grown for the last named use, they cannot, for vari-
ous reasons, be made ,so complete a cleaning crop for
the land, unless they are the only crop grown on
the same during that season. The natural place for
field roots, therefore, is after grain crops and on
soils that need renovation, not only in the sense of
being cleaned, but also in that of being fertilized.

These crops take much fertility out of the land
and therefore cannot be successfully grown on
depleted soils, unless these soils have first been
enriched. But it is a very propitious time to enrich
lands when root crops are to be grown upon them,
since, owing to the cleaning given to the soil, the
crops which follow are enabled to feed upon the

FIELD ROOTS. 199

unused increment in the manure rather than weeds.
Grain crops naturally follow root crops, and where
clovers and grasses grow well, these are usually
sown at the same time as the grain, singly or in
various combinations. But field roots, more espe-
cially turnips, may frequently be grown as a catch
crop. For instance, a good crop of turnips may
frequently be produced after the removal of the first
cutting of the clover. The clover roots furnish very
suitable food for the turnips.

Preparing the Soil. — If the roots are to be
grown for winter feeding, the soil may be plowed in
the fall or spring, according to the climatic condi-
tions and the kind of the crop. When the winters
are open and accompanied by considerable rainfall,
spring plowing will be the best. But where the
ground remains frozen from autumn until spring,
autumn plowing will be the best. The condition of
heavy soils may in some instances be improved by
plowing both in the autumn and in the spring.

The aim should be to secure a clean, fine and
moist condition of the land, as the seeds will not
germinate in cloddy surfaces with but scant mois-
ture. The more free from weed seeds the soil can
be made before sowing the seed, the less will be the
labor of tending the crop while it is growing. There
is no time for sprouting weed seeds after spring
opens in growing a crop of carrots, since they must
be planted early. Nor is there time for the same
when any of these plants are grown as a catch crop.
But in growing mangels and sugar beets as the sole
crop for the season, there is time for at least a partial
sprouting of the weeds. There is more time for

2OO SOILING CROPS AND THE SILO..

this in growing rutabagas because of the late plant-
ing season, and still more time in growing turnips,
since the turnips are planted later than the rutabagas.

Farmyard manure is excellent for such crops.
Where the land is plowed in the fall, the manure
should be applied before the plowing is done, except
when the soils are leachy. The manure should then
be spread on the surface after the land is plowed.
It may also be spread on the land in autumn or win-
ter when it is to be plowed in the spring. When
thus applied in the fresh form in the autumn it
becomes incorporated in the soil by the cultivation
given to the land before sowing the seed. But unre-
duced manure should not be thus applied in climates
over-dry. Complete commercial fertilizers are the
best for the production of field roots. They require
a liberal feeding of phosphates, hence finely ground
bones have been found specially helpful in the pro-
duction of field roots.

Sowing. — In localities with ample moisture it is
considered preferable to sow the seed of all kinds
of field roots in raised drills when grown as food for
live stodk. But where moisture is not abundant in
the growing season, it is deemed preferable to sow
the seed in unraised rows, as the needed moisture
escapes more readily from the former. But when
sown in raised drills the cultivation given may begin
somewhat earlier and the hand hoeing is more easily
done. The raised drills can be more quickly made
by using a double mold-board plow and a marker.
The distance between them will vary with the kind of
roots grown and with other conditions, but usually
it is not less than twenty, or more than thirty inches.

FIELD ROOTS. 2O1

The seed is commonly sown in the raised drills
with a machine which deposits the seed in two rows
at a time. This machine is drawn by one horse and
is furnished with two rollers, each of which fits
down over one raised drill and impacts it in advance
of the drill spouts, and also with a light roller which
runs behind. In some instances it will prove advan-
tageous to run a heavy land roller over the drills
before and after sowing the seed. When the weather is
dry, the more closely the seed drill is made to follow
the drill plow the surer will the germination be.
When sown in rows on the level, the ground may
first be marked out by some kind of marker and
sown with a hand drill when the area is not large.
But when the area is extensive, the seed should be
sown by seed drills adapted to such work. Some
kinds of grain drills will sow seeds thus small. With
other drills it is necessary to mix the seed with some
more bulky substance, as salt or road dust, before
using it. But whatever the mode of sowing adopted,
the straighter and more uniform the rows the more
easily and perfectly can the cultivation be done.

The variety that should be sown will vary with
localities and can only be determined by actual test.
The most popular variety of turnips at the present
time, especially in the northern and northwestern
states, is the Purple Top Strap Leaf. The favorite
variety of mangels in the same is the Mammoth
Long Red. As rutabagas, sugar beets and carrots
are seldom grown as soiling food, it is scarcely neces-
sary to add more on the subject of varieties. But
in passing, it may be mentioned that much soiling
food per acre may be obtained from some of the half

2O2 SOILING CROPS AND THE SILO.

long varieties of carrots and without great labor
when they can be sown on clean land. Such carrots
are easily lifted.

The same amounts of seed may be sown
whether the roots are used for soiling food or for
winter feeding. These amounts will vary with the
variety, the soil, the condition of the same and with
the climate and weather at the time of sowing. But
the following may be named as approximately rep-
resenting the maximum and minimum quantities of
seed to be grown per acre of the different species of
field roots that are being considered when grown as
food for domestic animals : Rutabagas and turnips,
two to four pounds; mangels and sugar beets, four
to six pounds ; carrots, two to four pounds.

The time for sowing the seed will vary accord-
ing to the varieties and other conditions. Carrots
should be sown as a rule early in the season, mangels
and sugar beets a little later. Rutabagas are usually
sown two or three weeks later than the normal
season of corn planting, and turnips still later than
rutabagas. The last named crop will frequently
attain a maximum of growth in ninety days. Car-
rots, on the other hand, require much of the growing
season to complete their growth, and in many cli-
mates all of it.

Cultivation. — As soon as the plants have
become far enough advanced to distinctly mark the
line of the row, the cultivation should begin. Horse
cultivation is usually given first. It should, of
course, be shallow and should come as close to the
line of the row as possible without giving disturb-
ance to the plants. The remaining weeds should

FIELD ROOtS. 203

then be cut out on both sides of the row with the
hand hoe and without waiting to thin the plants.
If the hand hoeing thus given is carefully done, it
may not be necessary to bestow upon the crop any
more hand labor until it is ready for being fed. If
the plants are thinned as when they are grown for
winter feeding, the proper distance at which to thin
them will vary with circumstances. The following
may be given as the maximum distance at which
the plants of the various species may be thinned:
rutabagas and turnips, twelve inches; mangels,
twelve inches ; sugar beets, nine inches ; and carrots,
eight inches. The average distance to leave between
the plants is about two-thirds of the distance named
as the maximum. It is seldom necessary, how-
ever, to thin the plants when they are grown
as soiling food.

The horse cultivation given should be frequent
and should continue until the leaves of the plants
come together or nearly together between the rows.

Feeding. — The feeding of field roots is a very
simple but somewhat tedious process. They are
pulled up by hand and laid in piles, or thrown directly
into a hand barrow, or some form of wagon or truck
drawn by horses. Field roots should only be thrown
in piles for future drawing when it is not convenient
at the time to have the means of conveyance at hand,
or when there may be opportunity to lift the plants
a few days in advance of the feeding. This may be
done in late autumn without serious injury to the
plants, but not when the weather is warm. The
roots are of course handled with forks after they
have been lifted.

204 SOILING CROPS AND THE SILO.

They may be fed in a pasture or paddock with
much advantage when the surface is well sodded and
the ground is in consequence clean. They may also
be fed in the cattle manger or pig trough, but when
so fed some watchfulness is necessary in cleaning out
the loose earth from both manger and trough, that
drops off the plants.

The feeding of the crop may begin at any time
after the roots have made a growth somewhat ad-
vanced. If the feeding begins too early, there will
be a loss of nutriment from want of advancement in
the growth of the crop. If such food is fed in excess
and more especially at the first, it will induce scouring
in the animals so fed. It should only be given to
cows in milk after the milk has been withdrawn to
avoid taint in the milk.

These crops can probably be fed with more
relative advantage to such animals as calves, sheep
and lambs and swine, than to matured cattle. The
former consume so much less per animal than the
latter that it is more practicable to feed roots to them.
As a food factor in feeding growing swine and brood
sows, they are peculiarly helpful, more especially
when the root portion, that is to say, the edible part of
the root, has made large development. But in no
case should such food be made the sole factor in
feeding any kind of live stock.

CHAPTER XI.

MISCELLANEOUS PLANTS.

The plants discussed in the previous chapters
can all be made to furnish soiling food in some sec-
tions of the United States with more or less profit.
In addition to these are other plants, possessed of
more or less adaptability in providing such food, but
their exact value for this use has not been determined.
The number of these is not very large at the present
time, but it will doubtless be increased as the years
move on. These plants will now be briefly discussed.
The following includes those which have been con-
sidered as possessed of sufficient promise to merit a
place in the discussion ; viz. : White or Dutch clover,
sweet clover, Japan clover, sainfoin, trefoil, the horse
bean, the velvet bean, kale, the sand vetch, the flat
pea, white mustard, the lupine, spurry, the artichoke,
prickly comfrey and sunflower. Some of these
plants will doubtless be found possessed of no little
value in providing soiling food when they come
to be better understood. Something will also be
said of sacaline, the plant whose merits have been so
overdrawn by some seedsmen and others interested
in selling it.

White Clover. — White clover (Trifolium
repens), sometimes called Dutch clover is so well
known that it is not necessary to give any detailed
description of it. It is native to both Europe and

205

2O6 SOILING CROPS AND THE SILO.

America. It is already distributed more or less
over nearly all the cultivated portions of the northern
and central states, and in many sections of the south-
ern states it has also been successfully introduced.
It would seem to have the highest adaptation for clay
loam soils which were formerly covered with forests
of hard wood trees, or of hard and soft woods grow-
ing- together. When these were cleared away it
seemed to come in, as it were, spontaneously, but
never to the extent of becoming a hindrance to cultii
vation. The ordinary black loam soils of the prairie
are not so well adapted to its growth, although it
may be grown on these with more or less of success.
The soils of the Rocky mountain valleys would seem
to have supreme adaptation for growing this plant
when supplied with sufficient moisture, and the same
is true of the arable lands west of the Cascade moun-
tains.

White clover is probably the hardiest of all the
species of clover, hence it can be grown far to the
north. As is generally known white clover is com-
monly grown for pasture and usually in conjunction
with blue grass. Where it has been grown in rota-
tions that do not cover many seasons, it does not
ordinarily require to be sown again when laying
down pastures, as in these the plants will soon appear
and sometimes to the extent of forming one of the
chief food elements. The plants not only produce
others from seed, but also by means of runners which
at intervals send down roots into the soil and form
fresh plants. But when it is to be grown as a factor
of a hay crop it ought to be sown along with the
other seeds that are designed to furnish the hay,

MISCELLANEOUS PLANTS. 2O7

otherwise it is not likely to furnish any considerable
proportion of the same the first season.

Because of the relative lack of bulk in the crop,
it is seldom sown by itself for the express purpose of
providing soiling food, nor is it often sown in con-
junction with other clovers or grasses for such a
purpose. Nevertheless there may be instances when
it would be eminently wise to sow it in conjunction
with common red, or alsike clover, when it is to be
cut for soiling food. It adds to the fineness of the
food and also to its bulk. It matures a little later
than medium red clover, hence there is probably some
advantage from sowing it with the alsike. But it
should never be sown to provide soiling food, except
under conditions of marked adaptation for growing
it successfully. When thus sown not more than one
or two pounds of seed are required per acre, as the
seeds are quite small relatively. The quantity of the
seed of the other kind sown should also be reduced
by about twice the quantity of the white clover added
to the other seed sown.

Sweet Clover. — Sweet clover (Melilotus alba)
sometimes called Bokhara clover, is branching in its
habit of growth, and it is of wide distribution. No
plant of the clover family will grow over so wide an
area and under conditions so unpromising. The
heat of summer and the cold of winter would seem
to be alike unable to kill it. While it can be grown
on the stiffest clays, it will also grow and thrive on
sandy soils so light that the winds will carry them,
and so lacking in plant food as to be quite bare of
grass during all the year. It will also flourish in
regions so dry as to forbid the successful growth of

208 SOILING CROPS AND THE SILO.

other clovers in the absence of irrigation. And more-
over, it is a plant that- not only fills the soil with a
mass of strong roots which penetrate the same in
various directions and which go down deeply into the
subsoil to gather food, but it has also much power
to gather nitrogen from the air and to deposit the
same in the subsoil.

Notwithstanding the great powers of growth
with which sweet clover is endowed, it has been but
little cultivated as yet to provide food for domestic
animals. The odor of this plant is highly fragrant,
but the stalks and buds possess a bitterness of taste
which seems, to a considerable extent at least, to
detract from its palatability. The stems also become
woody at a comparatively early stage of development.

Heretofore sweet clover has been chiefly grown
in America to provide food for bees, but in some
instances it has been sown to hinder the washing
down of the earth from embankments, which wall in
the cuttings made in building railroads. More com-
monly it is found growing in vagrant fashion along
the roadsides and in waste places, where it is main-
tained through self seeding. Because of this vagrant
habit of growth, sweet clover has been proscribed as
a weed pest by the laws of several states.

It would seem too bad to allow a plant possessed
of so many redeeming qualities to be forever treated
as a fugitive. The author cannot but feel hopeful
that some time in the future when the seed becomes
more plentiful and consequently cheaper, sweet clover
will be sown on wide areas in the semi-arid belt
along with small grain such as wheat, oats and
barley, to help to sustain fertility and to increase the

MISCELLANEOUS PLANTS. 2O9

content of moisture in the soil by means
of the increase in humus which it brings
to the soil. This can be done by sow-
ing the sweet clover at the same time that the
grain is sown in the spring and by plowing the crop
under the following spring after it has made a vigor-
ous growth and in time to plant corn or sorghum.

Whether sweet clover can be made to furnish
green food for live stock in the summer season is
problematical. No class of domestic animals is fond
of it, but taste in animals, as in individuals, is largely
the outcome of habit. May it not be possible, there-
fore, so to develop in these a relish for this plant
which would justify growing it to feed to them as
soiling food? In sections where the other clovers
will grow, it would probably be a waste of time to
try experiments of such a character, but in other
localities it may be eminently proper to conduct them.
This plant is sometimes made into hay which is con-
sumed on the farm. Why then should it be looked
upon as a waste of time under all conditions to
experiment in feeding sweet clover as a soiling food ?

Japan Clover. — Japan clover (Lespedeza
striatd) has been grown in some of the southern
states for several years. Little or nothing has been
published regarding its behavior in the northern
states. But in such of the latter as produce the
leading sorts of clover in good form, it is pretty
certain that it would not be profitable to grow so
diminutive a plant as Japan clover, even though it
should be able to withstand the rigors of the winter
climate. That it can withstand those rigors is not
probable, since notwithstanding the number of years
14

2IO SOILING CROPS AND THE SILO.

during which it has been grown in the southern states
no one apparently is growing it in the northern
states.

Japan clover is a low growing plant which
seldom exceeds the hight of sixteen inches. It is an
annual, but when not grazed down too closely or cut
too early it has much power to reseed itself. Since
it grows readily on hard surfaces, this property may
be turned to good account. It is considerably
branched and has a blue flower. It may be grown
on dry soils, but will of course make a more vigorous
growth on good loam soils. On the former it only
attains the hight of a few inches, and is used as pas-
ture. On the more productive soils it is grown for
hay. From twelve to fifteen pounds of seed are sown
per acre.

Where Japan clover furnishes sufficient bulk to
justify growing it for hay, it may also be grown as
soiling food. It will not of course produce nearly so
much food per acre as the sorghums, either saccharine
or non-saccharine, but it may be grown on soils
where these would not produce abundantly without
being fertilized. And it may also be grown with
much less outlay for labor.

Sainfoin. — Sainfoin (Onobrychis saliva) is a
plant that grows rapidly and vigorously under suit-
able conditions. It is sometimes called Aspersette or
Esparsette. It is a legume of the clover family,
and is much branched and spreading in its habit
of growth. The flowers are of a beautiful crimson
tint and it seeds profusely under favorable con-
ditions. In some parts of Europe, notably in the
south of England and in France, it has long been

MISCELLANEOUS PLANTS. '211

grown to provide pasture for sheep and green food
for horses and cattle. It has special adaptation for
dry calcareous soils.

Sainfoin bears no little resemblance to alfalfa
in its habit of growth. Like alfalfa it will pro-
vide two or more cuttings of soiling food or
of hay in a single season, and when established
will retain its hold upon the soil for a number of
years, though not for so long a period as alfalfa.
The same care is also required in making it into
hay, or many of the leaves will be lost while it is
thus being cured. Because of its early and quick
growth it is ready for being cut earlier than red
clover. It is thought to be adapted to conditions
more dry than would be suited to growing alfalfa
in the absence of irrigation. It is rather adapted to
mild than to cold climates.

But little can be gleaned from the reports of the
agricultural experiment stations with reference to
the growth of sainfoin. It would almost seem as
though it had entirely escaped the attention of experi-
menters in this country, and yet there is likely to be
a place for it in our agriculture as a pasture and also
as a soiling crop. It is claimed that when pasturing
it there is no danger from hoven or bloat as when
pasturing alfalfa, or red clover.

Sainfoin has been grown with much success in
the neighborhood of Deer Lodge, Mont., and it is
not improbable that it can be grown with equal
success in nearly all the Rocky mountain valleys
northward from Montana and also between the
coast range and the Pacific. The seed is frequently
sown while yet in the sac, and when thus sown from

212 SOILING CROPS AND THE SILO.

four to five bushels of seed are used per acre. Much
care is necessary in saving the seed, as it shatters
out easily and it also heats readily when stored.
The loss in germinating power in the seed when
it is thus managed is responsible for many failures
in growing this crop.

Trefoil. — Trefoil (Medicago lupulina) some-
times called yellow clover is of several varieties.
There are but few places in America in which it
has come markedly into favor. Like white clover
(Trifolium repens)it is of wide distribution, but
the localities are still very numerous in this country
in which trefoil has not been tried. It has much
affinity for limestone soils when once introduced
into these. So persistent is it oftentimes in its
habit of growth that it is in a sense troublesome
where growing crops are to be cultivated.

Trefoil is recumbent in its habit of growth, and
in many localities it is a diminutive plant, but in
congenial soils it attains a considerable size. It is
more commonly grown along with various other
plants in pastures that are intended to be permanent
in character. Its ability to maintain itself in these
helps to increase its value as a pasture plant. Be-
cause of want of bulk in the growth produced, tre-
foil is not likely to become popular as a hay plant or
as a soiling food. But doubtless there are areas
in the United States and in Canada where it would
pay to sow more or less of the seed of trefoil along
with other clover seed that is sown to furnish soil-
ing food. When thus grown it would add to the
bulk and to the fineness of the growth in the crop.
It may yet be sown on the western slopes of Oregon

MISCELLANEOUS PLANTS. '213

and Washington between the mountains and the
sea.

The Horse Bean. — The horse bean (Vicia faba)
is doubtless so named from the extent to which it can
be used in feeding horses in countries where its
growth has been found profitable. It is sometimes
called the Scotch bean, from the extent to which it
is grown in that country even almost to the ex-
clusion of all other sorts of the bean family. The
damp and temperate climate of Great Britain and
especially of Scotland has peculiar adaptation for
the growth of the horse bean. It is a hardy and
vigorous grower. The plants sometimes attain a
hi^ht of four feet and even a greater hight. The
pods are numerous and contain from three to five
beans of a large size. The average yield per acre
in Scotland is not far from thirty bushels.

The Scotch bean has been found to furnish an
excellent food for horses and other domestic animals.
It is best adapted to strong loam soils of good drain-
age. It is usual to grow the beans in rows twenty-
four to thirty-six inches distant from one another,
and to cultivate the crop as other beans are culti-
vated. The aim is to have the beans about two inches
apart in the row. To grow them thus would require
from two to three bushels of seed to the acre.

The horse bean has not been much tried under
American conditions. It has been grown to a con-
siderable extent however by dairymen in the vicinity
of Montreal, Can. In the more dry climate of
western Ontario, however, the crop has not proved
a success. The author has not been able to secure
a good growth of straw or of leaves in western

214 SOILING CROPS AND THE SILO.

Ontario or in Minnesota, but has seen plants growing
vigorously in the Puget Sound country in Washing-
ton. Wherever the summer temperatures run high,
the horse bean will not succeed. In this fact we
have the explanation of the greater success which
attends its growth in Scotland than in the south of
England or in Ireland.

In North America the climatic conditions best
adapted to the growth of this plant will probably
be found in the New England states, in the Mari-
time provinces of Canada, and in the country bor-
dering on the Pacific north from Portland, Ore.;
and west of the most northerly range of the Rocky
mountains. In those areas this plant should cer-
tainly be tried as a soiling crop. In growing it
some large variety of peas sown along with the
beans would probably add to the bulk of the fodder
without lessening the quality of the same.

The Velvet Bean. — The velvet bean (Mucuna
utilis) is a vine-like plant which has been grown for
several years past in some sections of the Gulf
states as a trellis shade. During recent years it has
come to be regarded with more or less favor as a
food for live stock, as a mulch for orchards, and
as a means of fertilizing and otherwise improving
them where the land can be tilled. While it is not
considered suitable for providing pasture, it is
favorably spoken of as a soiling food, and the hay is
said to be superior to that made from cowpeas, since
it is less coarse in character. The seeds are very
rich in protein, and both vines and grain are said
to be much relished by live stock. It has been given
very high praise as a source of fertility, owing to

MISCELLANEOUS PLANTS. 215

the great power which it is said to possess of draw-
ing nitrogen from the air.

When grown as a food crop the velvet bean
sends out runners in every direction as watermelons
do, and the vines thus thrown out are frequently
ten to twenty feet long. They eventually cover the
ground with a rank mass of vegetation fifteen to
twenty inches deep. The seeds should not be planted
nearer to fruit trees of a dwarfish habit of growth
than five or six feet, lest trouble should arise from
the vines climbing up into the trees and extending
around the branches. It begins to fruit not far from
the root of the plant, and pods appear in clusters at
intervals all along the length of the vine. These
pods are brown and velvety in character, hence
probably the name, velvet bean. It has been affirmed
that the yield of seed on average soils is from twenty
to thirty bushels per acre.

Because of the dense shade which the velvet
bean produces, it has been found valuable in smoth-
ering various kinds of noxious weeds and grasses,
particularly Bermuda grass (Cynodon Dactylon)
and nut grass (Cyperus rotundus). The dense cov-
ering which it furnishes to the ground retards in a
marked degree the escape of moisture. In dry
weather therefore the service thus rendered is in-
valuable to orchards.

The velvet bean is commonly planted in rows.
Five feet has been named as a suitable distance
between them. From three to five beans are planted
in hills at short intervals along the line of the row.
The seed should be planted early in the season but
not until the weather has become warm. The

2 1 6 SOILING CROPS AND THE SILO.

cultivation given is the same as for other beans until
the runners extend so far that it cannot be longer
continued.

It has been claimed that the velvet bean can
be successfully grown when all the conditions are
quite favorable to the growth of Indian corn, but
this claim is probably extravagant since even in
Louisiana the plants do not always mature all the
seed produced. It is questionable if the velvet bean
in its present form can be made to render substantial
benefits to agriculture as far north as the fortieth
parallel of latitude. That it will be greatly helpful
to the farmers of the Gulf states is more than prob-
able, but rather as a soil cleaner and a soil renovator
than in producing soiling food. Owing to the
vine-like habit of growth which it possesses it
is likely to prove somewhat difficult to harvest.
It will not be easy to cut the vines cleanly,
and it will be more difficult still to handle them
when cut.

Kale. — Kale (Brassica oleracea) is of the same
species of plants as cabbage. In fact, kale may be
said to mean any variety of headless cabbage with
curled or crinkled leaves. And yet, paradoxical as
it may seem, there is a variety of kale grown in Great
Britain popularly spoken of as the "thousand-headed
kale." It is so called from the many miniature heads
which it produces on its numerous branches. It is
much prized by flockmasters as a food for lambs.
Some varieties of kale are very attractive in color
and also in the crinkled character of the leaves. In
the United States kale has been chiefly grown here-
tofore in gardens for its leaves which are boiled as

MISCELLANEOUS PLANTS. 217

potherbs. Thousands of acres are grown annually
but chiefly for culinary uses.

The author has not been able to obtain any in-
formation with reference to growing it for pasture
from an American source other than what has been
furnished by the Minnesota University Experiment
station. The experiments there conducted have
sustained the view that kale has much of adaptation
for our conditions, but not more probably than
Dwarf Essex rape. When sown early in the season
at the aforementioned station, the plants reached a
maximum of growth by early midsummer, and when
not fed soon after reaching that stage of develop-
ment, not a few of the leaves shrank and withered,
but not to the same extent as dwarf essex rape leaves
grown under similar conditions. When sown later,
the plants retained their greenness and freshness until
the closing in of winter. The growth was on the
whole not quite so rapid as the growth of rape, but
the pasture furnished was equally relished with rape
pasture.

There is but little doubt that kale can be grown
with more or less success in the climate of the
United States wherever rape can be grown in good
form. It would also seem to be equally probable
that it will furnish soiling food that may be fed in
the same way as rape. So far as tried in this country,
kale does not seem to have any advantage over rape
as a food plant, that would justify discarding the
latter and growing the former in its stead.

The 'Sand Fetch. — The sand vetch (Vicia vil-
losa) is being tested by several of the experiment sta-
tions, more especially by those in the southern states.

2l8 SOILING CROPS AND THE SILO.

It has also been tested in a limited way by individual
farmers. Some who have tested this plant speak en-
couragingly of its value as a hay crop. In the judg-
ment of the Author its highest use as a food plant
for stock will be found in the pasture which it
furnishes, and this opinion is based on the results ob-
tained from growing it in various ways at the
Minnesota University Experiment station.

It is an annual but should be sown in the autumn
rather than the spring in climates where it will sur-
vive the winter, but when sown in the spring a good
growth is frequently made. The plants grow but
slowly for a time, but when once firmly rooted run-
ners are thrown out in all directions and the ground
is covered with a dense mass of vegetation. But
the runners become so intertwined that it is almost
impossible to cut them or to pull them apart when
cut. Because of this the sand vetch is not likely to
become popular as soiling food when sown alone.
But if sown as a mixed crop, as with oats or some
other kind of grain, the grain acts in a considerable
degree as a support to the tendrils of vetch. When
thus grown, the mixed crop may be cut without much
difficulty and used as soiling food or as hay.

When sown in the spring and thus used the
plants make much aftergrowth which may be pas-
tured until the advent of winter by sheep or cattle.
When sown alone not less than four pecks of seed
should be used, but when sown with another crop the
amount of the vetch seed to use should be decreased
proportionately as the seed of the other crop is used.
The relatively dear price of the seed in the past has
hindered the7 extensive growth of this plant.

22O SOILING CROPS AND THE SILO.

The sand vetch will probably survive the winter
except in situations much exposed north of the forty-
third parallel, and in certain areas it will probably
live one or two degrees further to the north. It has
always perished in the winter in the_ trials made at
the Minnesota University Experiment farm, but on
the Pacific coast it ought to succeed as far north as
Alaska. East of the Rocky mountains it is not likely
to prove of much value to the agriculture of Canada.

As the name implies, the sand vetch has much
power to grow on sandy soils, and soils low in fer-
tility. Its highest use will probably be found in
enriching such lands since it is a legume. Its next
highest value will probably be found in the pasture
which it furnishes, more especially in southern lati-
tudes. But it will also be grown more or less for
soiling food and for hay and more especially in con-
junction with some other crop.

The Flat Pea. — The flat pea (Lathyrus sylves*
tris), although tried more or less fully by not a few
of the agricultural experiment stations in the United
States, has not come into much favor. Some of the
experimenters pronounce against it and others
speak discouragingly with reference to it. No one
who has tried this plant in America is enthusiastic
over it. In no instances have more than two good
cuttings been reported per year.

The flat pea is a perennial. It is partly upright
and partly vine-like in its habit of growth. The
stems intertwine considerably but not so much as
do those of the sand vetch (Viola villosa). The
plants bear no little resemblance to those of the grass
pea, but are considerably larger and coarser. They

MISCELLANEOUS PLANTS. 221

are slow in becoming established, but in soils adapted
to their growth they will live for many years,
although American experience has not yet determined
how many, unless in states where the winters are too
cold for growing it successfully. Though it stands
the winters of southern Ontario it cannot be de-
pended upon to endure those of northern Minnesota.

The seed is more commonly sown in rows from
thirty to thirty-six inches apart, and in sowing the
same the aim is to have the plants only a few inches
apart in the row. The seed germinates slowly.
When this fact is linked with the slow growth the
plants make the first season, the necessity for clean
cultivation during that period of the development
will be apparent. The plants gradually extend so
as to occupy all the ground. In some areas they
produce seed but shyly, more especially where the
rainfall is abundant and the growth of the crop is
vigorous.

That the flat pea will ever be extensively grown
as a producer of soiling food in the northern states
and in the middle states east of the Mississippi river
is at least problematical, and for the following
reasons: — i, The plants do not usually produce
a full crop until the third year from the time of
planting, and the seed is likely to be dear for several
years to come; 2, other crops can be grown
more easily, that are quite as productive of forage,
that are more easily handled and that are more
highly relished by live stock; 3, the lack of
palatability which experimenters complain of will
tell against the introduction of the plant, but this
may be overcome in part at least by persistent

222 SOILING CROPS AND THE SILO.

feeding for a period more or less prolonged; 4.
the plants are not easily harvested owing to the in-
tertwining habit of growth in the tendrils. Never-
theless it would not be prudent to claim that there
is no place for the flat pea in our agriculture. It
may yet be grown to provide soiling food or pasture
in the south and also in the far west. The sands of
the semi-arid country may yet be made to produce
this crop where, in the absence of irrigation, they
will not produce much else. It is at least worthy of
further trial in the volcanic soils of the western
mountain plateaus.

White Mustard. — White mustard (Sinapis
alba)is grown more or less as a food for live stock
in many of the countries of Europe. Heretofore
it has been grown chiefly in gardens, only, in
America. But in this country, as in Europe, it may
doubtless be turned to good account in furnishing
food for live stock. But when so fed it should be
as a part of a ration rather than as the whole. When
thus fed in proper combinations, it acts as a corrector
of digestion. When fed with rape, for instance, it
lessens the danger from bloating. When grown
as a green food therefore it should be along with
some such crop as rape, and the two plants can be
cut and fed together. But there is a higher value
from growing white mustard along with rape which
is to be pastured off. When thus grown the tops of
the mustard plants being taller than those of the
rape are likely to be eaten first, so that the danger of
bloating is thereby lessened. Mustard is not suffi-
ciently nutritious to rely upon it as the sole food
fed for any prolonged period. Since it is a quick

MISCELLANEOUS PLANTS. 223

growing plant, it will in time come more or less into
favor as a crop to grow for plowing under, but not
until the price of seed falls lower than it has been in
the past.

White mustard may be sown any time after
the danger of spring frost is past. And the crop
should be fed or plowed under before the frosts of
autumn blight it. Since it grows rapidly it may be
grown as a catch crop and in various ways. A few
pounds of seed will suffice to sow an acre when the
mustard is the sole occupant of the land, and when
sown along with another crop as rape, or kale, the
proportion of the mustard seed should not be more
than one-fourth or one-fifth of the whole. Although
mustard will grow vigorously on almost any kind of
soil possessed of a fair amount of plant food, and
although it will make considerable growth, even on
soils low in fertility, it has a peculiar affinity for
loam soils abounding in lime. It grows so rapidly
that under some conditions it will be in full bloom
in six weeks from the date of sowing. It should
be fed rather before than at the blossoming stage,
since the stalks quickly become woody. It is prob-
able that mustard fed in large quantities to cows in
milk would impart something of a pungent taste to
the milk. When plowed under the plants should
not be allowed to get beyond the blooming stage.

There is no danger as with black or brown
mustard that the seeds will remain in the soil and
thus make trouble. White mustard may be dis-
tinguished from the black or brown by the rough
hairs which cover the stems of the white kind, and
by the peculiar shape of the pods which terminate

224 SOILING CROPS AND THE SILO.

in a broad two edged shaped beak. The seeds are
larger than those of black mustard and are white
externally.

The Lupine. — The lupine is of many species
and is native to both the old and new worlds. Some
of the sorts are domesticated, others of them still
grow wild. The white lupine (Lupinus albus) is
probably the most valuable among the cultivated
species. It is an annual. The lupine derives its
name from lupus, a wolf, and because of its vora-
cious qualities. The long tap roots of the white
lupine go down deeply into the soil and there they
gather plant food, much of which is deposited in
the surface soil. It also produces a very consider-
able quantity of vegetable matter the decay of which
adds fertility to the soil.

The cultivation of the white lupine in Portu-
gal has been the means of restoring vast tracts of
worn out soils. It has also been much grown in
Germany to increase the producing power of
sandy tracts low in fertility. In Italy, Sicily and
other Mediterranean countries it is extensively cul-
tivated for forage, as green manure and also for
the seeds.

The attempts made by the author to grow the
lupine at the Minnesota University Experiment
station have not been successful. The plants
made but little growth, and yet it is almost certain
that there are extensive areas in the United
States in which the growth of the lupine would
be eminently successful and helpful to the cause
of agriculture. These can only be determined by
experiment.

MISCELLANEOUS PLANTS. 22$

Spurry. — Spurry (Spergula arvensis) is a
quick growing plant which may be raised success-
fully on lands too light and hungry to produce good
crops of clover even where the climatic conditions
are suitable. It has special adaptation for the light
soils of Great Britain and in Denmark, Holland,
Belgium and some parts of Germany and Russia it
is extensively grown as pasture for cattle and sheep.
Tt is also grown as soiling food, as fodder and as
green manure.

Spurry is a little plant with innumerable
branches and foliage very fine in character. It
seldom grows to a greater hight than twenty inches,
and the average hight is considerably less. The
plants have some resemblance to those of flax and
the same is true of the seeds. The blossoms are
white and are very tiny. The stems interlace some-
what so that one is apt to trip in walking through
a field of spurry in an advanced stage of growth. It
is frequently ready for being pastured or cut as soil-
ing food in from six to eight weeks from the date of
sowing the seed.

The attempts made at the Minnesota Uni-
versity experiment farm to grow spurry have not
met with much success. Those made on the light
sandy soils at Grayling, Mich., have been more
successful. The highest success in growing the
plant in the United States will probably be attained
on light sandy soils and under climatic conditions
which furnish ample moisture. Whether it will
ever be grown at all extensively in this country, in
providing soiling food, cannot now be predicted with
certainty. But it is highly probable that it will be

226 SOILING CROPS AND THE SILO.

made to render more effective service by growing
it as a pasture or as a green manure.

The Artichoke. — The Jerusalem artichoke
(Helianthus tuberosus) has been mentioned as pos-
sessed of some value in providing soiling food and
forage, but the stalks are too large and woody to
meet the requirements of a good soiling or forage
crop. Cattle will doubtless consume the outer por-
tions of the stems and branches and may in time
become fond of them, but they are unable to con-
sume the coarse woody stems. And there is the fur-
ther objection that the stalks are difficult to handle.

This plant however may be turned to excellent
account in providing forage for swine or winter
food for other classes of live stock. When con-
sumed by swine they feed upon the tubers where
they grew. The artichokes are thus eaten in the
autumn and winter and even in the spring where
the climate does not forbid the same. The plants
will render higher service in thus providing food in
areas favored with mild climates, but they may be
successfully grown in some part or parts of every
state in the Union and of every province in Canada.
There are several varieties. The Brazilian is the
most commonly grown but the French Improved
will give larger yields when grown on congenial
soil.

Prickly Comfrey. — Prickly comfrey (Symp-
hytum oflicinale) has been grown successfully as a
soiling food in Great Britain and other countries of
Europe for many years. , Some experiments have
been made in growing it in the United States, but
the reports from these are conflicting. These

228 SOILING CROPS AND THE SILO.

reports agree first in regard to the productiveness of
the plants, and second in regard to the ability of the
same to grow on light lands not possessed of high
fertility. They also agree in speaking of the little
relish which live stock manifest for prickly comfrey
when it is first fed to them. But they do not agree
as to its value for soiling uses. When fed to live
stock at the Ontario agricultural college farm, the
live stock did not manifest any fondness for it.
Some other experiment stations have reported simi-
larly. It may be that domestic animals may be edu-
cated to eat it, so that ultimately they will manifest
a fondness for it. Were it otherwise there would
seem to be no good reasons for growing it to the
considerable extent to which it is grown in several
of the countries of Europe.

Prickly comfrey is a large leaved plant which
grows to the hight of three or four feet. The
leaves are long and narrow, and mucilaginous in
character. The leaves only are eaten. Enormous
crops can be grown. This plant is propagated by
means of the roots and in about the same manner as
rhubarb, that is to say, pie plant. The roots are
fleshy, something like dock roots, and they go down
to a considerable distance into the soil.

This plant is not likely to be grown as a soiling
food, at least to any great extent, on the arable soils
of the northern and central states, where other and
better soiling plants are or may be grown so numer-
ously. It may be different however in the southern
states where cultivated grasses of the better yielding
varieties grow but shyly. A plant that has rendered
service in providing soiling food even in England

Property

Daniel W. B. Tracy

23O SOILING CROPS AND THE SILO.

where soiling foo'ds grow in such variety, is at least
well worthy of a fair trial in all those sections of
the United States which are possessed of fair adapta-
tion for producing it.

The Sunflower. — The sunflower (Helianthus
annuus) though not suitable for soiling food be-
cause of the woody character of the stems is some-
times grown to be made into silage. Like the
artichoke it is so well known that it will not be neces-
sary to describe it. The stems are so woody that
they are even considered unsuitable for being made
into silage, hence the heads only are used for that
purpose. Because of this and for the further reason
that the work of harvesting is tedious, as now prac-
tised, it is questionable if sunflowers will ever be
generally grown as a soiling crop. The difficulties
in the way of gathering the seed expeditiously will
deter many from even attempting to grow this plant
for any purpose notwithstanding the relatively large
yield of valuable food that a good crop produces.
The Russian is the favorite variety grown at present
in the United States.

The sunflower is of wide distribution and may
be' grown in a great variety of soils. The humus
soils of the prairie are well suited to its needs. It
has much power to grow under dry conditions.

Sacaline. — Sacaline (Polygonum Sachalinense)
is a plant that is said to have originated in the island
of Saghalin in the Pacific and not far from the
coast of Asia. It resembles a shrub rather than
a forage plant fn the form of its growth. By the
time the autumn arrives the stems that have not
been cut 'during the season are but little less woody.

MISCELLANEOUS PLANTS.

Fresh shoots are sent up every year however, to take
the place of the old ones. The most extravagant
statements have been made by certain American
seedsmen regarding the great value of this plant for
forage. They represented it as possessed of special
adaptation for semi-arid climates, as being capable
of producing several cuttings of foliage every year,
aggregating enormous yields, and as being able thus
to produce for an indefinite period.

Sacaline has been tested however by nearly all
the experiment stations in this country and they are
almost a unit in the verdict that it has no important
mission to fill on this continent. It does not grow
nearly so rapidly as was represented, and the stems
become so woody at an early period of their growth
that they cannot be eaten by live stock. In no trial
made by the Author at the Minnesota Experiment
station did the animals show any fondness for even
the leaves of this plant. It is propagated chiefly by
root cuttings. It is recommended to plant these
in rows far enough apart to admit of cultivating the
plants. But the agricultural value of sacaline would
seem to be so low that to describe further the
methods of growing it would be only a waste of
space.

CHAPTER XII.

SUCCESSION IN SOILING CROPS.

It will be the aim in this chapter to designate
the various crops that may be grown as soiling food
in one season and also the succession in which they
may be grown. The task is not easy because of the
great difference in the climatic and soil conditions in
the various states of the Union and in the provinces
of Canada. The only way in which such a designa-
tion of soiling crops can be made that will be even
approximately correct, is to .divide these states and
provinces into groups, and then to name the suc-
cession in the soiling crops that can be most profit-
ably grown in each. This division or grouping of
states and provinces, will of necessity have to be
based upon similarity in the soil and climatic con-
ditions peculiar to each. When those states and
provinces have been thus grouped, the succession
fixed upon can only serve as a general guide, be-
cause of the frequency of variations in soils in
states that lie contiguous and also in different parts
of the same state.

In nearly all parts of the United States and
Canada, a succession of soiling crops can be grown
which will furnish green food from spring until the
closing in of winter. The season for growing
these crops will of course vary with the differences
in latitude and also in altitude. Along the northerly

232

SUCCESSION IN SOILING CROPS. 233

limit of the cultivated area in Canada it will be very
short, and as the soj&herfl; fe>;tindary of the United
States is approached, -it -may be made to cover nearly
all the year. It will be the aim in this chapter not
only to point out the succession in which soiling
crops may be grown, but to so .designate the order
to be followed in the same, so as to enable the grower
to feed each plant in its proper season, and conse-
quently when the greatest benefit will be obtained
from feeding it.

It should be understood however that the suc-
cession of soiling crops given below in each of the
divisions named is intended to furnish a general
rather than a specific guide as to the order in which
they should be grown. It would be impossible to
lay down hard and fast rules that would in all in-
stances furnish an absolutely sure guide to the
grower, and for the following reasons: —

I, There are individual plants which in
favorable locations may be made to furnish
green food during all the season of growth.
Such are alfalfa and rape. In these areas
other plants may also be grown at the
same time. In such instances therefore, the ques-
tion with the feeder is rather a choice of plants than
a succession of the same. 2, Other plants, as vetches,
grow vigorously under some conditions, spring and
autumn, but not in the summer, hence they are in
season for being fed twice a year. 3, When soiling
foods are grown as catch crops, the variations in
the season of sowing them will prove a disturbing
factor to any order of succession that may be fixed
upon.

234 SOILING CROPS AND THE SILO.

Grouping States and Provinces. — The order
followed in grouping the various states of the Union
and the provinces of Canada, will be substantially
the same as that given in the book on "Forage
Crops," previously published by the Author. It is
as follows: —

Section No. I includes all the arable country
north of the Potomac and Ohio rivers, and east of
Indiana and Wisconsin. In other words it includes
the New England states, the states of New York,
New Jersey, Delaware, Maryland, Pennsylvania,
Ohio, Michigan and Ontario, Quebec and the
Maritime or Atlantic provinces of Canada. Sec-
tion No. 2 covers the country west of the states of
Michigan and Ohio, north of the Ohio and Missouri
rivers and east of the Dakotas and the province of
Assinaboia in Canada, that is to say, it covers the
states of Indiana, Illinois, Wisconsin, Minnesota,
Iowa, part of Missouri, and the province of Mani-
toba in Canada. Section No. 3 includes the states
south of the Potomac, Ohio and Missouri rivers, and
east of the ninety-fifth meridian of west longitude.
It therefore includes the states of Virginia, Ken-
tucky, Tennessee, North Carolina, South Carolina,
Georgia, Florida, Alabama, Mississippi, Louisiana,
Arkansas and part of Missouri. Section No. 4
embraces the states west of the ninety-fifth
meridian of West Longitude, east of the Rocky
mountains and south of the Dakotas. In other
words it embraces Nebraska, Kansas, Oklahoma and
Texas. Section No. 5 covers the country north
from Nebraska, west of Minnesota and Manitoba
and east of the Rocky mountains, that is to say, it

SUCCESSION IN SOILING CROPS. 235

covers the states of North and South Dakota and
part of Montana and Wyoming, also the Canadian
provinces of Assiniboia, Saskatchewan and Alberta.
Section No 6 includes the Rocky mountain valleyi
north from Salt Lake. It therefore includes these
valleys in Wyoming, Montana, Idaho, Oregon,
Washington and British Columbia. Section No. 7.
embraces the Rocky mountain valleys south from
the latitude of the Great Salt Lake. In other words,
it embraces these valleys in the states of Colorado,
New Mexico, Arizona, Utah, Nevada and California.
Section No. 8 covers the narrow strip of land west
of the Cascade mountains and north from Cali-
fornia, that is to say, it covers the western parts of
Oregon, Washington and British Columbia.

Succession in Section No. i. — In Section No. I
the climate is more humid than in areas farther
west, and the soil has more of the clay content in it
than is usually found in prairie soils. This section
therefore has high adaptation for plants of the
clover family and for other legumes, as peas and
vetches. It has high adaptation also for cereals grown
alone or in the mixed form,. These crops there-
fore should be used to the greatest extent possible
in producing soiling food. Corn may be grown
for soiling uses in nearly all the tillable portions of
this area, and the same is true of rape, millet, field
roots and cabbage, and in a less degree of sorghum
The entire section therefore has much adaptatioi
for the growth of soiling foods.

The succession in which soiling crops may be
grown in this section is as follows: — Winter rye,
alfalfa, medium red clover, mammoth, and alsike

SOILING CROPS AND THE SILO.

clover, peas and oats or peas and vetches, corn, sor-
ghum, millet, rape, field roots and cabbage. Some
of these crops could be grown so as to be in season
at successive intervals : Alfalfa and rape are of this
class, others are in season simultaneously, as for
instance peas and oats, mammoth and alsike clover.
The principal soiling crops in a more restricted
succession would contain, peas and oats, or vetches
and oats, corn or sorghum, and rape or field roots.
Where crimson clover can be grown it will be ready
for feeding next after winter rye.

Succession in Section No. 2. — The medium
red, mammoth and alsike varieties of clover grow
well in nearly all parts of states included in Section
No. 2, but not in the province of Manitoba. Crim-
son clover only succeeds in the more southerly areas
of the same, and even in these it is not absolutely
reliable. Winter rye, mixed grains, millet, rape,
cabbage and field roots grow vigorously, but not
with an equal vigor in all the area included. The
same is true of corn and sorghum, although these
grow much better southward than northward.
Peas and vetches grow fairly well but better north-
ward than southward. The cowpea and the soy
bean in some of their varieties grow nicely in the
southern part of Indiana, Illinois and Iowa, but
not so well farther north. Alfalfa grows only in
sectional areas. It is evident, therefore, that the suc-
cession in the northern third of this section would not
be the same as in the southern third. In the former
the order in which the leading soiling crops would be
ready would be as follows : —

Winter rye, peas and oats or peas and vetches,

SUCCESSION IN SOILING CROPS. 237

corn or sorghum, millet, rape, field roots and cab-
bage. And the more important of these would in-
clude peas and oats or peas and vetches, millet and
rape. In the latter the order would be: — Winter
rye, medium red clover, mammoth, or alsike clover,
peas and oats, or peas and vetches, corn, sorghum,
millet, rape, field roots and cabbage. In the central
third of the section the most favored varieties would
include, peas and oats, corn or sorghum, millet and
rape. In the southern third of the same these
would include medium red clover, the soy bean, or
cowpea and corn, or sorghum. Where crimson
clover and alfalfa could be grown, these would be
ready for being fed immediately after winter rye.

Succession in Section No. 3. — Winter rye, win-
ter oats, crimson clover, the common winter vetch,
the sand vetch, corn, sorghum, the cowpea, the soy
bean, rape and cabbage can be grown with more or
less success in nearly all sections of the several states
comprised in this section. The non-saccharine sor-
ghums and millet in some of its forms can also be
grown at their best in certain sections, but not so
generally as nearly all of the various plants previ-
ously named. Alfalfa grows admirably in many
localities, but does not succeed in others, and the
same is true of field roots, and in many sections
Japan clover, the velvet bean and teosinte grow with
much vigor. More especially is this true of areas
that lie within the Gulf states.

For the northern half of Section No. 3 the
succession would be: — Winter rye, winter oats,
crimson clover, the common winter vetch, the sand
vetch, corn, sorghum, one or more of the non*

238 SOILING CROPS AND THE SILO,

saccharine sorghums, the cowpea, the soy bean,
millet, rape, field roots and cabbage. A limited
succession would include crimson clover, the soy
bean or the cowpea and corn or sorghum in one
or more of its varieties. The succession for the
southern half of the section would be to a certain
extent the same as for the northern half, but in
the former more prominence relatively should be
given to the sorghums than to corn, and in some
sections the velvet bean and possibly teosinte and
Japan clover should be given a place in the succes-
sion. Where alfalfa can be grown with eittir*
success, as for instance on the bottom lands of
Louisiana, this plant alone could be made to provide
soiling food for live stock during much of the year.
Succession in Section No. 4. — In Section No. 4
the variety of plants that can be grown as soiling
food is not quite so large. In much of this area the
clovers, except alfalfa, could scarcely be taken into
account. The millets, at least in the common
varieties, would not prove a marked success, because
of the dry conditions. The common winter vetch
and the sand vetch would not render much ser-
vice, chiefly because of the want of moisture. Much
prominence ought to be given to alfalfa, especially
in Nebraska and Kansas, and to certain of the non-
saccharine sorghums as kaffir corn and milo maize,
in all the area, because of the marked adaptation for
these plants. The soy bean has on the whole higher
adaptation to these states than the cowpea. The
moisture is also too little to admit of growing
rape at its best and the summer temperatures are
also too high.

SUCCESSION IN SOILING CROPS. 239

The succession of soiling foods would be some-
what as follows: — Winter rye, alfalfa, the sand
vetch, the cowpea, corn or sorghum, one or more
of the non-saccharine sorghums, pearl millet and
teosinte. A more limited succession would include,
alfalfa, corn or sorghum, the soy bean and one or
more of the non-saccharine sorghums. These crops,
except corn and the soy bean, may be made to
furnish more than one cutting a year.

Succession in Section No. 5. — The succession
of soiling plants in Section No. 5 is still more
restricted than in Section No. 4. The several
species of clover are virtually excluded except in
some of the river bottoms toward the mountains.
In these alfalfa may be grown. The non-saccharine
sorghums, the soy bean and the winter vetch must
also be excluded. The cereal grains of the small
varieties, corn, millet, rape, field roots and cab-
bage are the only soiling foods which can be
grown in nearly all the area covered by this
section.

The succession in the eastern half of the section
would be: — Winter rye, mixed grains as peas and
oats, millet, corn, rape, field roots and cabbage. The
more restricted succession would include: — Mixed
grains, corn, millet and rape. In the western half
of the area, the principal crops would be mixed
grains and corn, and in the river bottoms alfalfa
could be added. Quick maturing varieties of corn
would have to be grown in nearly all parts of this
section. Sorghum could also be grown in the south-
ern portions. Millet grows admirably along the
eastern border. But winter rye could not always

24O SOILING CROPS AND THE SILO.

be depended on westward in the section, because of
the want of moisture in the autumn.

Succession in Section No. 6. — In the mountain
valleys in this section, alfalfa, medium red clover,
peas and vetches will probably furnish the chief
soiling foods through all time. In the valleys
lying southward these crops will be grown under
irrigation. On the bench lands adjacent to the
mountains, they will be supplied with moisture
from seepage waters percolating downward be-
cause of the melting of the snows upon the
mountains. In the valleys lying northward these
crops will in many instances be grown without
irrigation.

The possible succession of soiling crops would
include winter rye, the winter vetch, alfalfa, medium
red clover, alsike clover, mixed grains as peas and
©ats, the sand vetch, rape, field roots and cabbage.
The more restricted succession would include alfalfa,
medium red clover and peas and oats, or peas
and vetches. In the valleys lying southward, much
prominence should be given to the winter vetch, and
some use could also be made of corn. Alfalfa alone
could be made to supply soiling food during nearly
all the growing season. Especially is this true of the
valleys north of the Canadian boundary. In the
semi-range lands of Washington and Oregon where
the conditions are dry, and where irrigating waters
cannot be supplied, and where also the nights are
cool, the succession would have to be restricted to
such crops as mixed grains of which wheat would be
one of the chief, Austrian brome grass, (Bromus
inermis) and rape.

THE HISTORY OF SILOING. "24!

Succession in 'Section No. 7. — Much of tfie
soiling food grown in this section would have to
be produced through irrigation. Alfalfa alone could
be made to meet the requirements, so marked is its
adaptation to the conditions of soil and climate.
But to create variety such foods as the soy bean and
certain of the non-saccharine sorghums could be
introduced.

The possible succession in soiling crops would
include, winter rye, alfalfa, mixed grains, as for
instance oats and the sand vetch, corn, sorghum, the
non-saccharine sorghums, the soy bean, pearl millet,
teosinte, rape, field roots and cabbage. The more
valuable of these crops would be alfalfa and the
sorghums. These could be grown side by side and
could at certain times be fed simultaneously.

Succession in Section No. 8. — In no part of
the continent can soiling foods, leguminous in
character, be produced in so great variety as in this
section. All the leading varieties of clover grow
admirably, and the same is true of the leading varie-
ties of the vetch and pea. The sand vetch will doubt-
less grow well, but because of the ease with which
the common vetch can be produced it is not necessary
to grow it unless in areas sandy in character. Rape,
field roots and cabbage grow in great perfection.
But the summer temperatures are low for corn,
sorghum, the non-saccharine sorghums and millet.
Alfalfa and crimson clover have not been much tried
as yet, but will doubtless succeed.

The possible succession of these crops therefore
will include winter rye, crimson clover, alfalfa,
medium red, alsike, mammoth and white clover,
16

242 SOILING CROPS AND THE SILO.

perennial rye grass, peas and oats, peas and vetches,
rape, field roots and cabbage. Medium red clover
alone could be made to furnish soiling food during
much of the season, and the same is true of the
vetch if both the winter and the spring varieties are
sown, and it is also true of rape. The restricted
succession would include medium red clover, vetches
and oats, peas and oats, and rape.

PART TWO

SILOS AND SILAGE

CHAPTER I.

THE HISTORY OF SILOING.

Any discussion of soiling crops that did not also
consider silos and silage would be incomplete,
since it is probably true that more green food is
fed in the United States in the form of silage than
in any other form. It would not be possible with
accuracy to state the number of silos in the United
States at the present time but it is probably not less
than one hundred thousand, and it is rapidly in-
creasing. There is probably no state in the Union
without its quota of silos. This fact is very signifi-
cant when it is called to mind that over ground silos
had not been built in this country prior to 1876.

Plan of the Discussion.— It will be the aim of
the Author to discuss this question from an un-
biased standpoint. In reading the various excellent
publications that have appeared on the subject in the
United States the thought is forced on the mind by
all or nearly all of them that they are in a sense pleas
for the silo. The men who have written them have
been enthusiastic advocates of the silo, and in their
enthusiasm they would seem to have overlooked or
kept in abeyance the fact, that silos are not equally
needed, or equally helpful in the various states of the
Union or even in all sections of each state. This
enthusiasm is not only pardonable but it has unques-
tionably been positively helpful in hastening the

245

246 SOILING CROPS AND THE SILO.

introduction and distribution of silos. And these in
turn have proved greatly helpful to farmers and
more especially to dairymen.

The present discussion however will not be
a plea for the silo. It will look into both sides of
the question for it is true that silos are not equally
necessary, that they are not equally helpful, that
some conditions of farming do not call for their
construction and that only certain kinds of
crops can be preserved in them with uniform
success. The aim will be therefore to discuss the
question as it is, and not as the Author might de-
sire it to be.

Definition of Terms. — A silo is a structure
designed for the preservation of food in the green
and succulent form. The term is derived from the
Greek word siros a pit for holding grain. In some
instances it is simply a pit or hole dug in the ground
where the drainage, natural or artificial, is sufficient
to prevent an undue accumulation of moisture.
In others it is a structure of wood, stone or some
other building material or a combination of these
standing out by itself or within a barn or stable of
which it may be said to form a part. More com-
monly it is now built entirely above ground although
sometimes it goes down for some distance into the
earth. The modern silo is usually a structure rather
than a pit, as the original idea of preserving food
in pits in the ground is but little practiced now, at
least in this country.

Ensilage or Silage, as it is now more commonly
called, is green and succulent food preserved in a
sjlo \r\ a green and succulent condition, It is

THE HISTORY OF SILOING.

preserved in the uncut form or after it has been run
through a cutting box and is packed more or less
tightly according to conditions such as those that
relate to the variety of the food, its succulence, and
the depth of the silo. Soon after the green food has
been placed in the silo fermentation begins and the
temperature rises. The air within the mass is thus
expelled and \vhen it is, chemical change virtually
ceases. The product thus preserved may be kept in-
definitely, providing air is not allowed to penetrate
it. Because of this it is important that the sides and
floor of the structure shall be practically air-tight.
The air is usually prevented from entering from
above to any considerable depth by covering the
silage with some less valuable vegetable substance as
more fully described in Chapter V.

The principle in making silage is the same
virtually as in canning fruits or in making sauer-
kraut. When the temperature in the mass rises un-
til it attains 122 degrees Fahrenheit the action of the
ferments is arrested. As soon as the available
oxygen is exhausted chemical change ceases and
sweet silage is the result. If however from any
cause, as for instance an excess of moisture in the
plants, the temperature does not reach 122 degrees
Fahrenheit, the acid ferments will not be killed and
the result will be sour silage. Sour silage is not only
less valuable than sweet silage, but there is usually
greater waste in making it.

The terms sweet and sour as applied to silage
are only relative terms. There is no line of dis-
tinction between them so sharply drawn that it may
be said where the one begins and the other ends.

248 SOILING CROPS AND THE SILO.

There is no silage of which it may be said that it is
entirely free from acidity.

Formerly the term ensilage was frequently used
to indicate the process of storing food green and
succulent in the silo. As distinguished from silage
the latter was the food and the former the process
of making it, but the use of the term ensilage is
becoming obsolete. Ensilage and silage are now
regarded as synonymons.

Siloing or Ensiling food is the process of mak-
ing it into silage, that is to say, it is the process of
putting it into the silo and of curing it in the same.
While it cannot be said that these terms have been
extensively used by speakers and writers they would
seem to express very concisely the idea involved.
Why then should any objection be made to using
them?

'A Silolst is a person who makes and feeds sil-
age. The term has not been used heretofore to any
considerable extent. Possibly it may never become
popular since the making and feeding of silage is
more commonly an adjunct of farming, rather, than
the principal work of the farmer, and those who
make silage are also usually farmers. The term
is certainly wanted however or some equivalent to it
for conciseness of statement when designating the
relation of those engaged in making silage to the
work in hand, why then should it not be adopted?

Antiquity of Siloing. — It is not known when
the method of preserving green food by putting it in
the silo originated. It cannot therefore be known
who was its originator. History is likely to be for-
ever silent on this point. Ancient writers speak of

THE HISTORY OF SILOING. '249

the practice of burying grain in underground pits
to save it for future use, or from enemies. It is
possible therefore that the idea of the possibility of
curing food on the principle now practiced in making
silage was the outcome of the accident of hiding it
from enemies and then finding it in good condition
for use after it had been buried for a period more
or less prolonged.

There is ample evidence to show that semi-
barbaric races in various countries have not only
known of this method of preserving food but to some
extent they have practiced it. Notably is this true
of certain of the peoples of northern Europe, as for
instance, those located in the regions around the
Baltic sea, where rainy harvests render it difficult to
preserve fodder for animals in the dried form.
Their necessities therefore caused them to give some
attention to a question that under other conditions
would have attracted no attention whatever.

Utilisation of the Idea. — For about a century
the preservation of green food by the same method
substantially as that followed in making sauerkraut
has prevailed to some extent in various parts of
Germany. But it was not until the approach of the
middle of the present century that attempts were
made to preserve food thus on a large scale. The
introduction of the manufacture of sugar beets into
central Europe is doubtless responsible, in part at
least, for the greatly increased attention that then
began to be given to preserving food by burying it in
pits. It was found a necessity in utilizing sugar
beet tops and sugar beet pulp to the best advantage.
But even then the process spread slowly owing

25O SOILING CROPS AND THE SILO.

doubtless to the great labor involved in curing green
food by the method then practiced.

The Earlier Silos. — The earlier silos used by
the people of France, Germany and some other
countries in Europe were simply pits or trenches
dug in the ground. The material was spread in
these in uniform layers and was trodden or other-
wise compressed so as to lie compactly. The green
food was put into those pits by successive stages as
for instance day by day or at intervals more pro-
longed. The amount put in at one time was limited
to not much more probably than one foot in depth.
The object sought by filling thus gradually was to
secure a more perfect settling of the mass through
the fermentation engendered.

When the pit was full it was common to cover
the green food with a layer of straw or some other
dry porous substance. Boards were then laid over
the straw and a pressure applied which was not less
than one hundred pounds to the square foot. The
pressure was commonly secured through weighting
with some heavy substance, as by placing stones on
the boards or by covering them with earth. The
earth thus used was distributed over the pit to the
depth of one to two feet.

In some instances the sides and floor of the
pits were puddled with clay, and sometimes the sides
were lined with boards. During the later years of
siloing on this plan the trenches were occasionally
cemented but this was not until a considerable period
had elapsed subsequently to the more general intro-
duction of this method of siloing. Such were the
first silos made in the United States. They were

THE HISTORY OF SILOING. 25!

patterned more particularly after the silos built by
Goffart the great French siloist whose work is again
referred to. His silos were 39.4 ft long, 16.4 ft
broad and 16.4 ft deep and they were much circled at
the ends. But the laboriousness of the process made
it irksome to those who adopted it, and, because of
this, American ingenuity set to work to emancipate
the siloist from the bondage of so much hard labor
when curing green food. The result has been that
the adaptation of the silo to the needs of the general
farmer has been almost entirely the outcome of
American skill.

The Modern Silo. — When silos first began to
be built on the modern plan, that is to say on the
plan of a structure rather than on that of an under-
ground pit it was deemed necessary to make the walls
of stone and to excavate so that the silo would be,
in part at least, below the level of the ground. And
even as late as 1885, the practice of covering with
boards and then weighting with earth or stones was
universal. The idea of making these structures
narrow and deep so that pressure would be secured
from the silage itself had not yet dawned on the
minds of experimenters. The cost of the structures
then used was so great and the mode of filling the
silo and feeding the silage so cumbrous that it was
feared by many that the silo would be helpful only
to those possessed of considerable means, rather than
to the great mass of farmers.

It would be interesting to know more of the
successes and failures in building silos and making
silage during that peculiarly tentative period in
American siloing between 1880 and 1890. To get

252 SOILING CROPS AND THE SILO.

this information would mean a search through the
file copies of the entire American agricultural press.
Much of it has doubtless never been published, since
men are prone to cover up the story of failure rather
than to hang it up as a beacon for the guidance
of others. No question however was mere discussed
by contributors to the agricultural press during that
revolution period in American siloing, and no ques-
tion was more controverted. Even the most san-
guine advocates of the silo during the decade re-
ferred to could scarcely have hoped so soon to witness
the completeness of the triumphs won by the modern
silo. None would then have dared to predict that
the last days of the century would look out over not
fewer than one hundred thousand successful silos in
the United States.

It is claimed that the first silo built in America
on the modern plan was made in 1876 and that it was
erected by F. Morris of Maryland. The first wooden
silo built west of the Alleghany mountains was that
erected by John Gould of Aurora Station, O., in
1884. The province of Ontario took its full share
in helping forward the evolution of the American
silo. V. E. Fuller, then of Hamilton, erected the
first silo built in that province on his Oaklands Jersey
farm in 1881. It was located in the bay of the barn
and in making it the ground was excavated far down
through gravel hardpan. The walls and floor were
lined with bricks and the bricks were overlaid with
concrete. Though Canada is not essentially a corn
producing country like unto the states in the corn
belt, many silos have been successfully built and op-
erated in Ontario. The marked attention given to

THE HISTORY OF SILOING. 253

the dairy industry in that province is largely re-
sponsible for such a result.

The chief centers for silos in the United States
are, of course, the dairy centers, as for instance, New
York, Pennsylvania, Wisconsin and Illinois. But
many silos are now being built in states further west,
as for instance, Minnesota and Iowa. In the New
England states the number of silos is also relatively
large.

American Progress in Siloing. — The marvel-
ous progress in siloing in the United States during
recent years is not accidental. The time was ripe
for the introduction of the silo. A wave of dairy
advance was beginning to sweep over the continent
when discussion began as to the merits of the silo,
and dairymen must through all time be deeply inter-
ested in securing succulent food for their cattle.
The attention of a large and intelligent section of
the community was therefore at once secured as
soon as the discussion began on the practicability of
providing green food summer and winter for dairy
stock.

The great extent to which Indian corn is grown
in this country proved favorable to success in the
earlier experiments in making silage. It is now
generally conceded that Indian corn is par excellence.
the silo plant. The great success achieved by
American siloists is in a measure due to this fact, but
of course it does not account for the great progress
made in improving the silo or in preserving silage.

Mistakes Made by Early 'Siloists. — As was to be
expected many mistakes were made by the earlier
siloists. The silos were unnecessarily costly as

254 SOILING CROPS AND THE SILO.

already intimated. They were sunk too low in the
ground. So little attention was given to the preser-
vation of the foundation of wood silos when they
were first introduced and to providing ventilation
for the walls that decay was unduly rapid. The silos
were too shallow, hence the pressure of the silage
was not enough to secure the best results. The sur-
face dimensions were often so large as to make
it difficult to properly preserve the exposed portion
of the silage while it was being fed. Corn and other
green food was oftentimes put into the silo in a form
too green, hence it became unduly sour. And in
other instances the food was put in too dry which
induced mold. These mistakes may now be gen-
erally avoided by the siloist who intelligently makes
use of the information now available. But it must
be acknowledged that many things are yet to be
learned about siloing by the average siloist before
he will be able to make first-class silage with uniform
and unvarying success.

Literature on the Silo. — Since the introduction
of the silo into the United States no question per-
taining to agriculture has been more generally dis-
cussed. At the outset these discussions emanated
chiefly from the men who had experimented with
silos and they appeared in pamphlet or book form
and also in the agricultural press according to cir-
cumstances. Later, experiments were conducted
and somewhat numerously at a considerable number
of the agricultural experiment stations. The results
from these experiments were given to the public in
bulletin form. It is evident therefore that much of
the literature produced on the subject is fragmentary

THE HISTORY OF SILOING. 255

and of necessity somewhat crude in its character.
More recently however a few individuals have pub-
lished books on the subject which cover the same
with more or less completeness. But almost without
exception it would be correct to say these are pleas
for the silo rather than unbiased discussions of the
broad question of silage and the silo.

In the judgment of the Author nearly all of
those who have written thus upon the subject in the
United States have overestimated the feeding value
of corn and its power to maintain animals in good
health when fed continuously as the principal food
ration. They have also apparently placed too little
value on soiling crops, more especially the legumes.
They have underestimated the worth of pastures
by viewing them simply as producers of so much
food without having sufficiently considered the
beneficent influence which they exert mechanically
and otherwise upon soils. And they have not
sufficiently emphasized the losses from making poor
and spoiled silage. However, it is but fitting to say
that the enthusiasm which has shut its eyes to these
and kindred truths relating to the siloing of crops
has been most helpful in fastening public attention
on a method of preserving fodder which is certainly
capable of bringing great benefit to our agriculture.

It is now generally conceded that the first book
ever written on the silo is from the pen of M. Auguste
Goffart, an agriculturist of Sologne, near Orleans, in
France. The manual of the Culture and Siloing of
Maize is the title of the book in English. It ap-
peared in 1877 and it contains the results of
many years of careful experiment in growing and

2$6 SOILING CROPS AND THE SILO.

preserving green crops. The appearance of this work
did much to arrest the attention of agriculturists not
only in France but also in other countries. Although
sundry experiments in preserving green crops in
Germany and also in some other countries had been
conducted previously to the publication of Goffart's
book, there can be no doubt that its appearance
served in no slight degree to draw public attention
to the advantages resulting to the agriculturist from
preserving crops thus in the green form. Because
of M. Auguste Goffart's early, persistent and abun-
dant labors in this work he has been frequently
designated "The father of modern silage." His
book was translated into English in 1879, by J. W.
Brown of New York City.

In 1875 "The French Mode of Curing Forage"
was published in the annual report of the United
States department of agriculture. This it is thought
was the first discussion of the subject in the United
States which treated it in a comprehensive and sys-
tematic manner, although previously various articles
had appeared in the agricultural press. These re-
lated chiefly to European experience. Dr. J. M.
Bailey published a work on the subject in 1880. Dr.
Manly Miles of the Michigan Agricultural college
wrote a work en silos, silage and ensilage which
appeared in 1889. Prof. A. J. Cook then of the
Michigan Agricultural college published in 1889
"The Silo and Silage" and in 1890 a revised edition
of the same. This book treats of silos as then con-
structed and of silage, as then made, in a very practi-
cal way. The "Book on Silage" by Prof. F. W,
Woll, of the Michigan Agricultural college, was

THE HISTORY OF SILOING. £57

published in 1899. It is by far the most compre-
hensive discussion of the question that has yet
appeared from the pen of any American author.
Other publications have also appeared in Europe on
the question, but they are not noticed here since the
methods which they recommend are on the whole
not nearly so well adapted to American conditions as
those submitted by American authors.

CHAPTER II.

THE BENEFITS FROM SILOING CROPS.

The benefits from siloing crops are many.
Prominent among them are the following: — i, The
crops that are thus stored may be harvested in what
may be termed a wholesale way. 2, They may be
cured, without loss, in showery weather. 3, Green
food may thus be furnished all the year from this
one source. 4, The food is rendered more palatable
and in a sense more healthful when fed as a part of
a ration. 5, The silo is economical of space. 6, It
is also economical of labor when the food is being
fed to the stock. These benefits are however to
some extent offset by certain disadvantages. These
will be noticed as well as the benefits, and some prac-
tical deductions drawn from the discussion.

Wholesale Harvesting of Crops. — When crops
are cured in the silo the labor of harvesting is of
necessity done in a wholesale way, that is to say, it is
usually done within a short period, with but little
interruption in the work, and with a minimum of
waste of time on the part of men and teams. The
necessity for first curing the food and then handling
it again in storing is thus obviated. But these bene-
fits are in a measure offset by the difficulty in se-
curing the necessary machinery and men to do the
work in season. Especially is this true with the

258

THE BENEFITS FROM SILOING CROPS. 259

occupants of small farms, and the difficulty increases
with the multiplication of silos in any community.
It can be obviated in part, but not wholly, by doing
the work on some system of co-operation between
farmers who are near neighbors.

Cured in Showery Weather. — Such crops as are
suitable for being made into silage may be stored
in the silo under conditions of weather quite adverse
to the dry curing of the same in the ordinary way.
Particularly is this true of such crops as are easily
injured by rain, as clover for instance, and the cow-
pea. The work of storing may go on in some in-
stances without any interruption other than what is
caused by the work hands seeking shelter from the
falling rain. But in other instances more or less of
delay would be necessary, as it is possible to store
some crops in the silo with too much of moisture in
them. Some kinds of crops can thus be saved with
but little harm that would otherwise be ruined by
excessive wet, and they may also be handled at such
times with but little increase in the labor involved
in handling them.

Green Food 'All the Year. — The silo may be
made to furnish green food all the year, and under
some conditions more easily than it can be furnished
from any other source. There are localities in which
soiling crops other than corn or sorghum cannot be
readily grown with marked success, and there may
be instances in which it would not be convenient to
grow them or to command the time required to cut
and feed them when grown. Under such conditions
a supply of silage in excess of the needs of the
stock during winter is helpful, more especially to

260 SOILING CROPS AND THE SILO.

men, whose cows would otherwise be wholly de-
pendent on pastures which may fail with the advent
of dry weather.

There is no method of providing green food
even for summer feeding that is so economical of
labor. Silage can be taken from the silo and fed to
cows in much less time than soiling food could be
provided from any other source. And when meal
is given at the same time, it may be fed more profit-
ably when mixed with the silage than when fed
along with other soiling food, without first running
the same through a fodder cutter. To prepare green
food thus by cutting it up would be impracticable
when harvested day by day, unless when a very
large quantity was used daily, and where there is an
ample supply of help.

Live stock will also eat such food with avidity.
Instances are on record where cows have shown a
preference for corn silage over grass, and there is no
period of the year, not even when grass is at its
best, that they will not eat with evident relish more
or less of corn silage when well preserved. The
silo therefore may be made to furnish soiling food
every day in the year, since it will answer quite well
to begin feeding from a silo the day after the filling
of the same has been completed, and even while the
filling process is under way.

But it does not follow that because live stock
may thus be provided with green food that it will
not be eminently proper to provide and feed other
green food. Corn is not in itself a balanced ration,
nor is corn silage and grass, and even though these
did furnish a balanced food, a variety is usually

THE BENEFITS FROM SILOING CROPS. 26l

preferable to one or two kinds, and a change of food
to sameness in the diet.

If air is excluded from silage it will probably
keep for an indefinite period. Nevertheless there
would seem to be no good reasons for trying to pre-
serve silage for more than one year under ordinary
conditions. The additional space required for stor-
ing silage intended for feeding more than one year
would be unnecessarily costly, nor would any com-
mensurate benefits accrue from so doing. There
would seem to be no more necessity for providing
storage for silage to last more than a year than for
providing the same for crops that are cured in the
dry form.

Food More Palatable. — When food is properly
preserved in the silo it is certainly more palatable
than when fed in the dry form. This means that
a less proportion of the food will be wasted in feed-
ing. In fact, there should be but little waste in feed-
ing silage in any instance and in many instances
none at all. However the liability of improper
curing must not be lost sight of. It is easily possible
to make silage that will not be palatable, as for in-
stance, when it is excessively acid, or when it con-
tains more or less of dry mold.

When food is thus fed in a succulent condition,
up to a certain limit at least, it acts beneficially on
the digestive organs. It tends to relieve consti-
pation induced by feeding dry food when made a
part of the ration, and consequently it acts bene-
ficially on the health of the animals. But when fed
in excess, as when it is made the sole ration for any
lengthened period, or when it is inferior in quality,

262 SOILING CROPS AND THE SILO.

such feeding may injure the animals and even
seriously. The difference in the effects produced on
digestion by feeding the same kind of food in the
green and dried forms respectively, is well brought
out in the feeding of grass when in the most com-
plete state of succulence and in feeding the same
as hay.

Economy in Storage Space. — The silo is eco-
nomical of space in storing food. In other words
it requires a much less area to store food in
the green form than to store it when dried. This
means therefore that a given amount of green food
can usually be stored in a silo at a less cost for the
storage accommodation than would be entailed in
providing storage room for the same in the dried
form.

This advantage is however to some extent offset
by other considerations. First, it is necessary to
make some provision by way of storage for other
food. When the expense of providing storage for
both green and dry food cannot be borne by the
farmer, he can better do without the storage for the
green food. Second, the silo in some of its forms
wears out more quickly than structures made to
receive dry food. The saving in storage space
effected by the silo is most apparent when large
quantities of food are to be handled.

Economy in Labor When Feeding. — The silo is
economical in labor when feeding the food. It can
usually be located so that the food is nearer to the
place of feeding than it would be possible to store
equal quantities of dry food in the cured form. It
is easily handled because of its lack of bulkiness and

THE BENEFITS FROM SILOING CROPS. 263

because it is more commonly fed in the cut form.
More especially is this true of silage fed from a
truck in properly constructed stables. It also ob-
viates the necessity of cutting or charring, as it is
sometimes called, other fodder to provide a bulk
factor with which to mix the meal fed, since the meal
so fed can be mixed with the silage. But these
benefits do not apply equally when the silage is made
in the uncut form, that is. when it is put into the silo
without running it through a cutting box.

PRACTICAL CONSIDERATIONS.

The following considerations based, in part at
least, on what has already been said on the benefits
from soiling crops will now be discussed, viz. :—
i, The benefits from the silo do not apply equally
in all parts of the country. 2, Because of this, while
in some sections silos are, in a sense, indispensable,
in others the wisdom of building them may well be
called in question. 3, In the present state of our
knowledge, therefore, the relative distribution of
silos (if the term may be thus used) in the United
States and Canada can only be given with approxi-
mate correctness.

Benefits Do Not Apply Equally.— That the
benefits from the silo do not apply equally is easy of
demonstration. These will be relatively greater : —
i, When more or less difficulty is usually experienced
in curing crops in the dried form. 2, In localities
where building materials are relatively dear. 3,
Where the winters are relatively long. 4, Where
the staple crops grown are not easily preserved

264 SOILING CROPS AND THE SILO.

without loss in the dried form. And 5, Where a
large number of the farmers relatively are engaged
in dairying.

In the region of the Great Lakes the precipita-
tion is frequently so great as to imperil crops while
they are being cured. In nearly all of the Rocky
mountain valleys rain is practically unknown in
harvest time. The necessity for siloing crops in the
former therefore will always be greater than in the
latter. In the New England states snow falls
abundantly and sometimes in the form of sleet.
Because of this corn in the shock is oftentimes ren-
derd inaccessible during certain portions of the
winter. In the semi-arid belt the snow fall is usually
light. In the latter therefore the silo is much less of
a necessity than in the former.

In timber areas lumber and other building
materials are relatively cheap. Far out on the tree-
less prairies they are relatively dear, other things
being equal therefore, the benefits from the silo
should be greater on the prairie than in the timber
country, since about three times as much food can
be stored in the silo as in an equal space in ordinary
farm buildings.

North of the fortieth parallel of latitude soiling
food cannot usually be provided from the fields
earlier than May nor later than November. The
further northward from the said parallel that any
place is located the shorter does the season become
for providing such food.

On the other hand the further south from the
same parallel that any place is situated, the longer is
the season during which green food may be provided

THE BENEFITS FROM SILOING CROPS. 265

directly from the fields. The season, therefore,
for providing soiling food directly in areas as far
northward as in Canada, does not cover a larger
period than three to four months, other things being
equal, therefore, the further northward the location
the greater will be the necessity for siloing the food.

Some crops are much more difficult than others
to cure in the dry form. Such are corn, sorghum,
the non-saccharine sorghums, the cow pea and the
soy bean. The necessity for silos therefore is
usually greater when these are staple crops than
when they are not. The non-saccharine sorghums
however have greater adaptation for dry conditions,
as shown in Chapter IV, Part i., hence it is not so
necessary to make these into silage, since the weather
is favorable to curing them in the dried form.

Some sections of the country are almost exclu-
sively devoted to the production of dairy products.
Other sections produce virtually none of these. The
close relation between succulent foods and successful
dairying is generally recognized. It follows there-
fore, other things being equal, that the necessity for
the silo will grow with the growth of dairying.

Silos Not Always a Necessity. — From what has
been said in the preceding paragraphs it will be
evident that silos are not nearly so much of a neces-
sity in some places as in others, and it would not be
going too far perhaps to say that in certain areas
they are not a necessity to any extent. It is evident
that in the moist New England states which produce
corn in good form for the silo, the necessity for silos
will be greater than in the moist climate on the Pacific
coast in areas too cool for the successful growth of

266 SOILING CROPS AND THE SILO.

corn. It is equally apparent that in the states which
border upon the Great Lakes, the necessity for the
silo is much greater than in the semi-arid belt east
of the Rocky mountains, or in the Rocky mountain
valleys where irrigation is practiced. In the former
corn grows abundantly. In summer there is usually
sufficient moisture and in winter the snow frequently
falls deep and piles up around the corn shocks. In
the latter the precipitation almost ceases in summer,
and the snow fall is usually light. Dairying is not
much practiced in the semi-arid region, nor is it ever
likely to be the dominant agricultural industry in the
same. It would not be incorrect therefore to affirm
that there is no great necessity for silos in the dry
areas west of the Rocky mountains, nor would the
necessity for them seem to be very great in those
sections of the western and southwestern states
which produce alfalfa abundantly. The latter can
be cured almost without hazard in those rainless
summer areas, on the other hand there may be in-
stances even in the semi-arid region and in the dry
southwestern states where silos may be made to
render good service.

In some of the corn growing prairie states, it
has been argued that silos are a necessity because
of the amount of soil that is frequently deposited on
the corn or sorghum shocks by the prairie winds, and
the argument has some force. But the difficulty
may be met by stacking the corn or sorghum as soon
as cured.

'Distribution of Silos. — By the term distribution
of silos is meant their relative adaptation to the
needs of various sections of the country. The

THE BENEFITS FROM SILOING CROPS. 267

discussion of this question will be simplified by
dividing the country into sections where the con-
ditions favorable or otherwise to the growing of
silo crops and to the curing of the same are not
greatly dissimilar. The division submitted below
may seem somewhat arbitrary, but it will probably
be found at least approximately correct.

Division No. I will cover those portions of the
United States and Canada east of the Mississippi
river and Lake Superior, and north of the Ohio and
Potomac rivers. Division No. 2 will embrace those
states east of the Mississippi river and south of the
Ohio and Potomac rivers. Division No. 3 will cover
the states of the Union and the provinces of Canada
west of the Mississippi river and Lake Superior.

In Division No. i, the silo will always render
greater service than in Divisions Nos. 2 and 3. The
moist climate that covers much of the area, the rela-
tively long winters with the rain, sleet and snow that
characterize them, and the general diffusion of
dairying throughout the division, emphasize the
value of the silo. There is no state of the Union, or
province of Canada included in this division in which
the silo may not be made to render excellent service,
especially to those who keep live stock in any consid-
erable numbers.

In Division No. 2 the silo will be less helpful
relatively than in Division No. I, because of the
shorter winters and the less attention given to dairy-
ing, and they will be more helpful than in Section 3,
because of the more rainy character of the climate.

In Section No. 3, which covers all the best
alfalfa producing areas in the United States, silos

268 SOILING CROPS AND THE SILO.

are needed the least, for reasons already given. In
a portion of the states which border upon the Mis-
sissippi river the harvests are practically rainless.
This is true even of the strip of country west of the
Cascades in which the precipitation is frequent and
almost excessive during the season of growth. In
the same area lumber is also very cheap, hence the
provision for the storage of crops in the cured form,
need not be costly.

CHAPTER III.

FACTS RELATING TQ SILO CONSTRUCTION.

Before building a silo the most careful con-
sideration should be given to the location, and form
of the same, and to many things that have an
important bearing on the work. These are such as
relate to the size of the silo ; the materials to be used
in building it; the nature of the foundation and of
the floor required; the character of the lining; the
necessity for partitions and the method of con-
structing them; the placing of the doors and also
their form; and the character of the roof, when a
roof is necessary. A brief discussion of these
questions, therefore, will precede what will be given
in detail in Chapter IV, and, in regular sequence,
regarding the construction of those forms of the
silo which experience has shown to be best suited to
the needs of the farmer.

Locating the Silo. — The locating of the silo will
depend on conditions such as relate to the amount
of barn or stable room available, the relation of the
stables to the mows, and to other places where food
is stored, the presence or absence of a basement in a
barn, and the nature of the climate.

Other things being equal, the silo should be
placed as near as possible to the center of feeding,
when it can be located in close proximity to the

269

270 SOILING CROPS AND THE SILO.

mangers in which the food is consumed, the saving
in the labor of feeding is very great, as compared
with the same when the silo is more distant. The
location of the silo, therefore, should be given the
most careful thought.

In cold latitudes the necessity for good barns
and warm stables is much greater than in those that
are mild. In the former, therefore, it will be much
easier to find room for the silo inside than under
conditions the opposite. When the silo can con-
veniently be built under cover, that is to say, when it
can be made a part of the barn, it ought to be so
built. Locating it thus should prove economical,
as it will not require to be roofed, unless the top of
the silo should project up above the roof of the build-
ing of which it forms a part. The wall of the build-
ing may usually be made to form one wall of the silo,
when the latter is square or rectangular in shape.
The exposed surface of the silage, when it is being
fed, will usually be sufficiently protected from frost,
and the work of feeding may be done without
discomfort in the coldest weather.

A basement barn furnishes ideal conditions for
building a silo when the stables for the stock are in
the basement, and, in passing, it may be mentioned
that when basement barns are properly planned, they
are economical of space, in cost of roofing material,
and also in construction, at least when their greater
duration is taken into account. They are also labor
saving while the food is being fed, and they are a
source of much comfort to the animals kept in them
in summer, as well as in winter, when the manage-
ment is as it ought to be. These opinions may not

FACTS RELATING TO SILO CONSTRUCTION. 27!

be generally accepted, but it is more than doubtful if
any one of them can be gainsaid.

The silo may be made to occupy a section of
the basement, and it may be located in the center of
one side of the same, or in the center of that
part occupied by live stock. In round, or octagonal
barns, the silo is usually placed in the center. In all
instances in which the silo is built in the basement
it is made to extend upward also into the barn over
the basement, and in any event, the doors should
open into a feed room or passageway. It is usually
more convenient to handle the food when the silo
can be located so that it will be adjacent to the room
in which meal and other food is mixed for the stock.
In outbuildings without a basement, the silo may be
made to occupy a part of the bay or mow, but under
these conditions it can seldom be located so con-
veniently for feeding as in a basement, for reasons
that will be manifest. And usually the roof of the
silo will of necessity be above the roof of the out-
building, in order to secure sufficient hight in the
silo.

When the silo must needs be located outside
the barn or stable, it should be placed as near to it
as possible. If square or rectangular it may be
built against the outbuilding. The wall of the
latter duly lined will then form one wall of the
silo. The doors will then open into the outbuild-
ing. If the silo is round, it should, if possible, be
placed near to the outbuilding. The distance
therefrom should at most be not more than a few
feet. A roofed passageway may then be con-
structed from the silo to the outbuilding, and into

SOILING CROPS AND THE SILO.

this passageway the doors of the silo should open.
The passageway should be amply provided with
light. When silos are located outside the barn,
stable or shed in which live stock are fed it is simply
impossible to locate them so conveniently to the
center of feeding as when they form a part of one
or the other of those buildings.

Different Forms of Construction. — In form,
silos have been built square, rectangular, octagonal,
and round or circular. Until within a comparatively
recent period the rectangular form was usually
adopted by those who built silos, but, since about
1890 the round silo has come so generally into favor
that in a very considerable degree it is superseding
the rectangular mode of construction.

The square silo may be somewhat more cheaply
constructed than the rectangular silo of equal ca-
pacity, since the wall space is not so much. When
the conditions are suitable for placing it, and where
the size is nicely adjusted to the amount of silage
required, the square silo would seem preferable to
the rectangular form. But if a division is to be
made in the silo, it will prove more costly to make
it than in a rectangular silo, since the space across
it is relatively greater. Both square and rectan-
gular silos are more commonly placed inside of a
barn or stable, and within these it is not generally
so easy to secure space of the proper dimensions for
a square as for a rectangular silo.

The rectangular silo has been found specially
adapted for being placed within a building that is in
process of erection or that is already built. When
wanted, partitions can be put into it at a minimum oi

FACTS RELATING TO SILO CONSTRUCTION.

cost, because of its shape. The objections to
rectangular as well as to the square silo are, first,
that difficulty has oftentimes been found in keeping
the walls from spreading, and so letting air into the
silage, and second, that the silage does not settle so
readily in either of these forms of silo as in a round
silo, hence there is more waste in the silage. Par-
ticularly is this true of the corners. Notwithstand-
ing these objections, rectangular silos will probably
be built for many years to come, hence the method
of building them will in due time be given with
some minuteness in details. And what will be said
of the construction of rectangular silos will also
apply to the construction of square silos.

The octagonal silo as the name implies is a silo
with eight sides. The chief advantage gained in
this form of construction, as compared with the
square or rectangular silo is found in the less acute
character of the angles within the same. Also from
the nature of their construction, the walls are so
strong that they are not liable to spread, at least,
not in a silo of ordinary dimensions. Moreover,
some saving in lumber is effected by increasing the
space between the girts from the bottom upwards.
But there are two strong objections to this form of
silo. First, it is ill adapted to being placed within a
building because of its shape, and second, the ven-
tilation of the spaces within the walls is difficult,
because of the peculiar construction of the frame.
The lining is nailed onto girts rather than onto up-
right studs, and these girts being horizontal when
in position in the wall, give rise to the difficulty
mentioned. Because of these objections, it is not
18

2/4 SOILING CROPS AND THE SILO.

probable that octagonal silos will be numerously
built.

Round silos can usually be built more cheaply
than those that are rectangular. They have greater
relative capacity, and no form of silo can be built that
to so great an extent facilitates the even settling of
the silage. The chief objections to round silos are,
first, that they cannot in many instances be placed
within a building without loss of space, and second,
that it is scarcely practical to use partitions in them.
If the round silo is placed in the center of a circular
building, its position there will result in no waste
of space, and but little space will be lost if the silo
is partly within the building and partly without.
But when placed in a mow, or bay, or cellar, it may
not be easy to use to the best advantage the space
in that part of the square in which the round silo is,
and which is not covered by the same. In stave
silos partitions cannot be used, as their presence
would interfere with the occasional tightening of
the hoops which is frequently necessary when using
them. In round silos of frame construction a par-
tition could be used. But such a partition would
materially hinder the even settling of the silage.
Notwithstanding the objections stated, the round
silo is likely to be the most in favor in the future.
It will therefore be carefully considered in the proper
place.

The Size of Silos. — In determining the size of a
silo not yet built, several considerations present
themselves. These include the size of the herd or
flock which at present and also prospectively is to
be fed from it, the probable duration of the period

FACTS RELATING TO SILO CONSTRUCTION. 27$

each year during which silage is to be fed, and
also the settling of the silage after it has been put
into the silo.

It should be remembered that if a silo is to be
filled quickly, the silage will settle to about one-
third of its entire depth. If material is added for
silage a second time and perhaps a third time, it may
be possible to have the settled silage fill the silo to at
least three-fourths of the entire hight of the same.
This, however, will vary with the hight of the silo.
The deeper the silo the less will be the unoccupied
space at the top when the silage has settled. The
capacity of the empty silo, therefore, will be about
twenty-five per cent, more than that of the filled silo,
and this fact should not be overlooked in determining
the size of the silo about to be built. Twenty-five
per cent, may be considered too large an allowance
for loss of space in the settling of the silage, but
something will have to be added for waste from
spoiled silage while curing, and from exposure in
feeding, hence, a silo should usually be built with at
least one- fourth greater capacity than would suffice
to supply the needs of the stock, could it be filled to
the top with good silage.

The amount of silage that may be fed daily to
a dairy cow varies from, say thirty to fifty pounds
per day. Forty pounds per day may be set down as
average. The weight of a cubic foot of settled
silage varies with the depth of the silo and the part
from which it is taken and also with the amount of
moisture in the silage. The variation runs from
say thirty to fifty pounds. It would therefore be
at least approximately correct to say that a cubic

SOILING CROPS AND THE SILO.

foot of settled silage will weigh about forty pounds,
Or, in other words, that a cubic foot of such silage
will supply a head of cattle with all that it ought to
have of that kind of food for one day. On such a
basis the proper size for a silo not yet built can easily
be computed.

If the silo is square or oblong, the length in feet
inside multiplied by the width and again by the
hight, will give the entire number of cubic feet in
the silo. The number of days during which an
animal is to be fed on the basis stated above multi-
plied by one will give the number of cubic feet of
silage required to feed one animal for the requisite
time. This divided into the cubic feet in the silo
after one-fourth has been deducted from the same,
will give the whole number of cows to be fed thus
for the time fixed upon.

For example : — Suppose a silo is to be built to
meet the needs of twenty cows for six months in the
year. One cow will consume the silage in 180
cubic feet in that time if fed forty pounds of silage
daily, and twenty cows will consume the silage in
3,600 cubic feet. But since one- fourth of the space
is waste one-third of 3,600 cubic feet or 1,200 cubic
feet must be added to give the capacity of the silo
required which would make 4,800 cubic feet. Now
suppose twenty-five feet is fixed upon as the hight
for the silo and twelve feet as the width inside, one
foot in length of such a silo will hold 300 cubic
feet of silage. To hold 4,800 cubic feet therefore
would require a. silo sixteen feet long inside.

To find the contents of a round silo in cubic
feet, multiply the square of the diameter, in feet,

FACTS RELATING TO SILO CONSTRUCTION. 277

by the hight in feet, then multiply the product by
.7854 which gives the cubic contents. For example,
suppose it is required to find the contents in cubic
feet of a round silo fifteen feet in diameter and
twenty feet high, the square of fifteen, the diameter,
equals 225, which multiplied by the hight, twenty
feet, gives 4,500. This multiplied by .7854 gives
3534.3 cubic feet. But one- fourth must be allowed
for waste space and waste silage, which leaves
2650.725 cubic feet as the capacity of the silo for
good silage. This silage will average about forty
pounds to the cubic foot which will give 106,029
pounds or 53 tons.

While it may be easily possible to adjust the
size of the silo to the present or prospective needs
of the stock, it is sometimes wiser to build two or
more silos rather than to try to put all the silage
into one. In feeding silage, about two inches in depth
of the exposed surface should be removed daily to
prevent waste from unduly prolonged exposure, and
when feeding silage in warm weather, about three
inches of the same should be removed daily. In a
large silo such a depth of surface would probably be
in excess of the needs of the stock. In such an
instance, therefore, it would be better to erect two
small silos, if built on the plan of the round structure,
than to build one large silo of equal capacity. But
in rectangular silos the difficulty mentioned may be
obviated by putting in one or more partitions.

Materials Used in Silos. — Silos differ first,
in the materials used in their construction, and
second in the form given to them. The materials
that have been used in building silos include wood,

278 SOILING CROPS AND THE SILO.

stone, concrete or grout, bricks and metal. More
than one class of the materials named is sometimes
used in building the same silo. They are desig-
nated chiefly by the material used in their construc-
tion. For instance a stone silo though lined with
bricks is usually spoken of as a stone silo.

Metal silos, according to Prof. Woll, are built of
homogenous steel plate, lapped and double riveted
so as to make them tight. They are objectionable,
at present, because of their cost ; because of the ease
with which frost penetrates them and because of
the quickness with which they corrode. It has been
computed that they cost about twice as much as
stone silos of similar capacity, while the latter are
much more enduring. Being easily penetrated by
frost, this one objection would render them unsuit-
able for use in a northern climate. Nor has any
preservative been found up to the present time that
can be applied to them inside which will effectively
resist for any lengthened period the corroding in-
fluences of the silage juices. Because of these
objections, metal silos will not be further considered.

Concrete or grout silos have the walls made of
small stones held together by well tempered mortar.
In localities where the materials of construction
abound, it may be proper to use them, but since in
cold climates the walls must be protected by an outer
lining of wood with an air space between, their
construction, at the best, is costly. When used they
should be built circular in form, if practicable in the
location chosen, to facilitate the even settling of the
silage, and they should also be lined inside with
cement, or, if unprotected outside, with bricks and

FACTS RELATING TO SILO CONSTRUCTION. 279

then cement. Since the materials for concrete silos
are only found in certain localities, and since the
essential features of construction are the same as in
stone silos described later, the building of concrete
silos will not be further discussed.

Brick silos, as the name would indicate, are made
of bricks. They have not been extensively tried,
it may be, because of the costliness of the material.
In northerly latitudes they too would also probably
require a lining of boards on the outside to keep out
the frost, as is sometimes the case with concrete and
stone silos, but the walls could, of course, be made
thick enough to protect the silage unless such a
method should prove too costly. In some instances
stone silos have been lined with bricks and with
manifest advantage. This feature of the use of
bricks in silo construction will be referred to again.
Stone silos are, of course, built of stone and mor-
tar. Almost any kind of stone of suitable dimen-
sions may be used in their construction. The
chief objection to stone • silos is their costliness.
Notwithstanding, when the wide distribution of
stone is considered and when its durability is also
taken into account, it would seem to be eminently
adapted to the building of silos. In the southern
half of the United States the outside lining of wood,
which some authorities claim is necessary in the
northern states, could certainly be dispensed with.
Experience is further demonstrating the fact that
stone silos may also be erected in the northern states
without the necessity of protecting them with an
outer lining of wood. ( See Page 320. ) Stone silos
are therefore likely to grow in favor. The mode of

28O SOILING CROPS AND THE SILO.

building them therefore will be discussed at some
length. (See Page 317.)

Wood silos are such as are constructed wholly
of wood, but usually resting on a foundation of
stone or concrete. Because of the relative cheap-
ness of construction in the past, there is an over-
whelming preponderance in the number of the silos
that have been built of wood. The kinds of wood
chiefly used in their construction have been pine in
certain of its species, as the white and yellow, the
southern cypress and the Douglas fir. But any kind
of wood will answer that is durable, cheap and that
does not warp. The spruce of the Puget Sound
country would probably prove very suitable and
possibly the hemlock also. The chief objection to
wood silos is their want of durability. In the not
distant future they must also become more costly
with the increasing dearness of lumber, and as they
do stone silos will grow in favor. The construction
of certain forms of the wood silo will be discussed
at some length.

Foundation for Silos. — Whatever the form of
silo built, it ought to rest on a foundation that is not
subject to decay. The foundation therefore should
not be of wood. Stone will be the material most
commonly used, though there may be some instances
in which bricks would be even less costly. Usually
the foundation is sunk beneath the line of frost, but
this is not always necessary. In soils which hold
much water, every care should be taken to carry it
away, as fast as it accumulates, by tiles laid for the
purpose. When silos are sunk into the ground, it
is not necessary to have the foundation go down

FACTS RELATING TO SILO CONSTRUCTION. 28 1

more deeply than the floor of the silo. And the
wall up to the surface should be of stone whatever
may be the materials used in the structure above
the ground. If the wall is carried up for a short
distance above the surface of the ground, and is then
banked with earth it will be better protected from
surface water. The aim should be to keep the wood
portion of silos away entirely from contact with the
earth lest decay should be induced. The founda-
tion is usually made wider than the structure which
it sustains, but not in all instances. The precise
character of the foundation for the different forms
of silos discussed will be explained when treating of
these. (See Pages 297, 310 and 318.)

Floors in Silos. — If the earth that forms the
floor of a silo is dry all the year, no other floor is
needed unless rats should begin to make trouble. If
there is a liability to the presence of an undue
amount of moisture, measures must be taken to
carry it away, or much damage will result to the
silage. Tiles may be laid around inside the silo and
at some distance from the wall. Provision must
then be made for carrying away the water that col-
lects in these through some outlet which leads to
lower ground. And where grout and cement floors
are made in silos, the necessity for drainage is all
the greater in order to protect the floors as well as
the silage. In silos built on the level, drainage is
not usually necessary. And in many instances it
will be found that the drainage made to protect the
wall will also furnish sufficient drainage for the
floor of the silo.

When it is thought best to put in a floor, the

282 SOILING CROPS AND THE SILO.

materials may consist of what is termed grout or
concrete. The cement floor may be made by cov-
ering the ground to the depth of several inches with
coarse gravel or small stones. These are covered
with a good coating of water lime, not less than two
or three inches, and over all is put a layer of good
cement of say half an inch or more in thickness.
Where bricks are used they should be laid in cement,
and two layers would probably prove more satis-
factory than one. Floors so expensive however
are seldom necessary.

It has been claimed that the floor of the silo
should slope downward toward the center to facili-
tate the even settling of the silage, but whether the
end thus sought is certainly attained can scarcely be
said to have been proved. When silo floors are
thus shaped, drainage where it is necessary, should
lead from the center. If the floor is rather higher
at the center than the sides, then drainage into tiles
laid around inside the walls would be facilitated.

Linings for Silos. — The various materials that
have been used for lining silos include boards, ce-
ment, water lime, shingles, brick, metal and tarred
paper.

Board linings are by far the most frequently
used in silos, and except in the case of cement they
have been found the best. Various forms of board
linings have been used. The best results have been
obtained from using one thickness of matched lum-
ber with tarred paper under it, or two thicknesses of
matched boards with tarred paper between. The first
is of course the cheaper method and should there-
fore be given the preference wherever it will suffice

FACTS RELATING TO SILO CONSTRUCTION. 283

to exclude frost. The surface of the boards should
be smooth to facilitate the settling of the silage.

Cement lining has on the whole proved satis-
factory, more especially on silos built of stone and
lined, or not lined with bricks. More commonly it is
used to line stone, brick of grout silos. The acids
in the silage have in many instances softened the
cement on the surface next to the silage, so that
to a greater or a less extent, the cement particles
have crumbled. Because of this it has been recom-
mended to apply cement every alternate year, or as
often as necessary, as whitewash is applied. One
instance however is reported in which the cement
has not crumbled thus. W. C. Edwards, M. P., of
Rockland, Ont, built a stone silo in 1890. Inside
it was lined with bricks and the bricks were in turn
lined with Portland cement of a good quality. In
a recent letter to the Author, Mr. Edwards says:
"We have not applied whitewash or cement at any
time to our silo walls since the silo was first built.
There has been no cracking whatever or falling off
of the cement." This one fact coming as it does,
from a reliable source, would raise a doubt as to
whether the scaling off reported in the experience
of many, has not been caused by using an inferior
quality of cement, or by not properly preparing it
for use. The question will stand further investiga-
tion.

Water lime has not proved serviceable as a lin-
ing for silos. It has been found that the acetic
and lactic acids in the silage dissolve out the lime
particles, thus leaving the lining a layer of crumbling
sand. In this condition it very readily absorbs silage

284 SOILING CROPS AND THE SILO.

juices, and is so easily penetrated by the tines of
the fork used in handling the silage, that much of it
scales off.

Plaster is even more objectionable than water
lime, more especially when applied to wooden walls.
It disintegrates even more readily and therefore peels
off more easily. The springing of the wooden walls
cracks the plaster when it occurs. The acids wet
the lining and render it more liable to injury from
frost, and when they penetrate to the underlying
lath they hasten its decay.

Shingles answer fairly well for lining, but they
add to the expense of the same. Where shingles are
used, matched lumber and tarred paper must also be
used, hence lining with shingles would seem to be
superfluous, and there is more or less danger that
they will be loosened or torn off by the fork in remov-
ing the silage.

Bricks not coated with cement do not make a
good lining for the silo. They become damp and
do not sufficiently exclude the air, but they would
seem to be much less objectionable than unplastered
stone, even though the stones were smooth. Bricks
draw dampness too easily and do not readily exclude
frost. Much of the silage adjacent to such walls
would spoil and in time the acids from the silage
juices would cause the mortar between the stones
to crumble and would thus make the walls rough.
Brick or stone walls should be kept lined with a high
quality of cement.

Metal lining for silos has not thus far proved
a success. Sheet iron and tin have been tried. Pro-
fessor F. H. King, of the Wisconsin Experiment

FACTS RELATING TO SILO CONSTRUCTION. 285

station, who is high authority on such questions, has
said that none of the available metals are in them-
selves proof against the acids of the silo and that it
is scarcely possible to make paint adhere to them.
In the meantime therefore expenditure on such lin-
ings would be unwise.

Lining with tarred paper has also proved unsatis-
factory. It cannot be kept in place without more
or less of furring, and this interferes with the settling
of the silage. The paper is also adversely affected
with the silage juices, and this in turn injuriously
affects the wood under it.

The stave silo from the very nature of its con-
struction does not call for any kind of lining, and
this is in itself a strong argument in its favor.

Perservatives for Linings. — It was popular at
one time to apply some preservative to the inner
lining of silos in the hope of better preserving the
wood in the same. The more common of these
include coal tar applied alone while hot, or with
resin added, or dissolved in gasoline and boiled
linseed oil. It is also applied with black oil added
equal in quantity to the coal tar. It has not yet
been demonstrated that any of these applications
have materially aided in promoting the end sought.
It has even been thought that in some instances their
application hastened decay. The fact is simply
stated without waiting to give the reasons. When
these so-called preservatives are used they may be
applied with a suitable form of mop or whisk broom.

In stone silos the cement lining may, when
necessary, be made to last longer by applying a white-
wash of cement as often as the lining shows any

286 SOILING CROPS AND THE SILO.

indications of crumbling, but the fact would now
seem to be assured that where a heavy coat of cement
of good quality is applied to the inner wall of a stone
silo, it will last many years without any renewal.

Partitions in Silos. — It may be regarded as an
open question whether partitions should be used at
all in silos. The more these are increased the more
will corners be multiplied, the greater will be the
resistance offered to the even settling of the silage.
They also add to the cost of the silo and unless
strongly built they must needs be braced on one side
while the silo is being filled, or filling must take
place in a sense simultaneously on both sides of the
partition. In round silos whatever may be the mode
of construction, partitions are objectionable since
they make corners where otherwise there would be
none, and in the stave silo they cannot be used. It
is further claimed that they are not necessary, since
after the silage has settled one section of it may be
fed at a time without great loss providing it is cut
down perpendicularly with a sharp hay knife, on the
other hand partitions may be so built as to become
an important source of strength to rectangular silos
as is shown in Chapter IV. It has been argued that
it would be better to build a second silo than to put
a partition in one, but this view is certainly not
correct except in the case of round silos, since one
large silo can be built with a partition more cheaply
than two small ones without one.

When partitions are used they may be con-
structed variously, i, They may be built the same
as the walls of the silo, that is to say, with studding
lined with matched boards having tarred paper

FACTS RELATING TO SILO CONSTRUCTION. 287

underneath. The studs may be less in size than the
wall studs, and the dead air space should be left open
above except when the silo is being filled to lesson
the liability to decay. Iron rods may be made to
run through the studs in the partition with some
form of washer running up and down the wall for
some distance on either side of the silo. These walls
would very effectively keep the walls of the silo
from spreading. 2, Partitions may be made by
spiking 2x4 scantlings on top of one another from
the bottom of the silo upwards. Iron rods may also
be used in this form of partition. They may run
along in grooves, made for them in the scantlings.
3, Partitions may be made in narrow silos by
using planks two inches thick. These are held in
place by grooves made in upright timbers which are
duly fastened to the wail at either end. If these
timbers are beveled away from the grooves th€
settling of the silage in the corners will be facilitated.
The grooves may also be made by spiking two scant-
Hngs three cornered in shape to the wall at a suit-
able distance from one another. They can be ob-
tained by sawing a scantling diagonally from end
to end. When partitions are made, the boards,
scantlings or planks used in making them should
be planed on the side which comes in contact with
the silage, to facilitate the settling of the same. When
the silage has settled and is then fed out from one
side of the partition, the pressure against the latter
from the silage on the other side is not likely to
disturb it seriously. It is only when the silo is being
filled that this danger must be carefully guarded
against.

288 SOILING CROPS AND THE SILO.

Doors in 'Silos. — Whatever the nature of the
silo the doors have some features in common. These
include the following: i, They should usually
be placed one above the other and on that side of
the silo contiguous to the passageway. There
may be instances in which it may be necessary to
have doors on the opposite side of a large silo, but
these will be infrequent. 2, The aim should be
to confine the number of the doors within the limits
of strict necessity because of the difficulty of exclud-
ing air at the openings thus made. 3, When it
can be made so, the door inside should have a beveled
rim fitting into a corresponding bevel on the door
when the door is in place. The bevel on the door
should be from the inner rim outward. When a
door is thus beveled the greater the pressure of the
silage against it the more perfectly will the air be
excluded. Other peculiarities of construction will
be referred to when discussing the various forms of
silos described in Chapter IV.

Roofing Silos. — When built inside of a barn or
stable it is not necessary to provide a roof for silos.
When built without, and more especially in climates
subject to frequent and also to prolonged storms, it
will probably prove more satisfactory in the end to
provide some form of the same, and the materials
to be used will be dependent to a considerable degree
on the form of the silo. These will be enlarged
upon when the details of construction in the various
forms of silos are discussed.

But it does not seem to be necessary under all
Conditions to provide even outdoor silos with a roof.
The opinion prevails that not to do so would result

FACTS RELATING TO SILO CONSTRUCTION. 289

in much inconvenience and loss from storms, and
that in cold climates much loss would result from the
freezing of the silage. Nevertheless, in western
Ontario and probably elsewhere, many stave silos
have been erected which have not been provided
with a roof. These are between the forty-third
and forty-fifth parallels of north latitude, and some
of them have been in use for several years. The
owners claim that no serious inconvenience or loss
has occurred from the causes named. The heat
generated in the silage seems to be sufficient, except
in very extreme weather, to protect the same from
injury by frost. When the winter climate is colder
than that of southern Ontario, there would probably
be inconvenience and loss from frost in roofless
silos. On the other hand, if, in the wide areas
further to the south, it should be found that such
silos meet the ends sought, it may not be necessary
under certain conditions to go to the expense of
building a roof.

Decay in Silos. — Many of the earlier silos were
built of wood and lined with boards. Those built
of stone were also in some instances lined with wood.
The lining in many of them, as shown by Prof. F.
H. King in Bulletin No. 10 of the Wisconsin Ex-
periment station, showed some decay at the end of
the second filling. It would probably be correct to
say that the lining in silos will decay in proportion.
i, As sealed dead air spaces are enclosed between
the linings of the walls ; 2, as stone walls are faced
inside with wood; 3, as inner lining boards come
against sills, beams or girts; 4, as spoiled silage is
left piled against the lining within the silo; and 5,

SOILING CROPS AND THE SILO.

as earth is banked against the outer lining. Sealed
dead air spaces have been made by putting strips
of furring laid on tarred paper between the two
thicknesses of boards which form the inner lining of
the silo, and by lining stone silos with wood inside so
as to have a space between the boards and the
wood. These can be avoided, as experience has
shown that a single lining of wood with tarred paper
under is usually a sufficient protection to the silage
when the wooden silo has also an outer lining of
boards, and that in stone silos frost can usually be
warded off by lining with bricks inside coated with
cement. But dead air spaces must needs be made
in the walls of wooden silos with studding lined
within and without, and also when stone silos are
lined without. These can however be easily pre-
vented by providing ventilation.

Such ventilation may be furnished by making
the sills and plates a little narrower than the studs.
Openings thus made for the escape of the air below
and above should of course be next to the outside
sheeting. Where provision is not thus made for
ventilation, it may be made by boring a small hole
through the outer lining below and above and into
the space between each pair of studs. Openings
thus made should be protected by some kind of wire
netting to prevent depredation from rats and mice,
Moreover, if no ventilation is provided in a silo
underneath the roof or in the roof, decay will be
rapid from the abundance of the gases which rise
up out of the fermenting silage.

Notwithstanding the rapid decay in many of
the earlier silos, it is easily possible to build wooden

FACTS RELATING TO SILO CONSTRUCTION. 29 1

silos so as to resist decay for many years. The
first silo built by Mr. John Gould, Aurora Station,
O., has not been repaired since it was constructed
in 1884, and it is still in a good state of preservation.
Since the stave silo has no dead air spaces, it is ex-
pected that it will better resist decay than silos that
are lined, but some time must elapse before this
will be certainly known. Nor is it ordinarily
necessary to create dead air spaces in stone silos.
When properly built, therefore, they should last for
generations.

; Daniel W. B. Tracy
&

CHAPTER IV.

BUILDING THE SILO.

But three kinds of silos will be considered in
this chapter, viz., the round wooden silo, the square
or rectangular wooden silo, and the round stone silo,
and, for the reason that nearly all, if not indeed
all, the silos erected in the future will pretty
certainly be built on one or the other of these
plans. The Author inclines to the belief that nearly
all the silos built in the immediate future will be
made of staves held in place by hoops, hence it will
be the aim to give the necessary information
relating to the building of these with some degree
of minuteness.

THE ROUND WOODEN SILO.

When all the conditions are favorable for locat-
ing the round silo, that form of silo should be chosen.
It has the following advantages: — i, It is more
cheaply built than the square or rectangular silo
since it requires less material whether built of staves
or otherwise. Even when built with a frame there
is much saving in studding material, because of the
less size of the studs used. 2, The circular form
is much more favorable to the even settling of the
silage, and therefore more favorable to its perfect
preservation, This arises, in part at least, from the

292

BUILDING THE SILO. 293

entire absence of corners in the silo. 3, The tend-
ency in the walls to spread is entirely taken away. :
In the stave silo the hoops when kept properly in
place prevent such a result, and in round silos built
with a frame the lining writhin and without has a
similar effect.

Of the two kinds of round silos, viz., that kept
in place by hoops, or the silo built with a frame, the
Author most unhesitatingly prefers the former and
for the following reasons: — i, It is more simple in j
its construction and can be built more economically
than the other form of round silo. 2, It is easier to !
exclude the air, because of the opportunity that is j
always present to tighten the hoops when necessary. I
3, It is believed that decay will be less rapid in the
stave silo. And 4, Experience has already demon-
strated that the frost will penetrate some forms of
the round frame silo more easily than a silo made of |
staves. The advantages of the stave silo therefore j
over the round silo are so clearly drawn that it would j
probably be safe to predict that the former though of <
more recent introduction is likely to almost entirely j
supersede the latter. Since, however, the round
frame silo still has some advocates, it may, be well
to give in brief outline the essential features of con-
struction in building the same.

BUILDING THE ROUND FRAME SILO.

The round frame silo consists of a framework
of studding resting on a stone foundation and lined
within and without with boards laid over tarred or
building paper. The frame rests on wooden sills

BUILDING THE SILO. 295

which of course must be circular in form. It is not
necessary to have studs of greater size than 2x4
inches, nor is it necessary to have them so close as
in the rectangular silo. The inside should be lined
with two thicknesses of boards put on horizontally
and with joints broken in the same. The boards
should be about six inches wide and half an inch
thick, and should have tarred or building paper
between the two layers, or underneath the
layer adjacent to the studs. In cold climates it
would probably be necessary to have paper on the
inside of the studs and also between the board lin-
ings. In mild climates one thickness of boards laid
on tarred paper would probably suffice for the inner
lining. The outer lining may consist of the same
material put on as drop siding and with tarred paper
underneath or otherwise, according to the nature of
the climate. Ventilation must be provided. (See
Page 290. ) When the silo is built inside there may
be some conditions in which it will not be necessary
to put on any outer lining. The roof, like the silo,
will be circular, and it will usually be necessary to
have a roof when the silo is built outside.

BUILDING THE STAVE SILO.

The stave silo may be located within or with-
out although more commonly it is placed outside
of the stable or barn. Sometimes it is located in
one corner of the outbuilding partly within and
partly without the same. It may of course be made
large or small and may go down into the ground or
be placed on the surface. In building it there is

296 SOILING CROPS AND THE SILO.

T

Fig. 30. Section of Stave Silo, showing Foundation Floor and Splicing

BUILDING THE SILO. 297

much latitude in choice of material for staves, in
character of hoops and in furnishing of the roof.

The Foundation. — The character of the founda-
tion for the stave silo should be determined largely
by the character of the soil, and the size of the silo.
Stave silos have been placed on the surface of the
ground without any excavations whatever other than
that made by removing a few inches of the soft
surface soil. But in such instances they have stood
on a double thickness of bricks laid first in mortar
and then in cement. The mortar below should rest
on broken stones or gravel. This plan would seem
to answer where the soil is perfectly dry and the
silo is of moderate dimensions. In other instances
the wall is sunk several inches, that is to say, far
enough to go down to a firm subsoil. This plan
will probably suffice where the subsoil is dry and
winter frosts are not severe. In yet other instances
the wall goes down a little lower than the frost is
expected to penetrate. The wall should be sunk
thus far in all soils that are liable to be much dis-
turbed by the action of the frost. When it is neces-
sary to sink the wall several feet below the surface
of the ground, it will usually prove economical in
the end to excavate inside the wall to the same depth
to which the wall has been sunk. But when thus
excavated care must be taken to have the inner sur-
face of the wall made smooth with a lining of cement,
and to have the circle made by the inside of the
staves correspond exactly with the circle of the
stonework when lined as indicated.

The stone foundation should not be less than
two feet broad and should come up several inches

298 SOILING CROPS AND THE SILO.

above the surface of the ground. Flat stones are
preferable to round ones, but round stones will
answer. The wall may be flat on top, but many
favor making a shoulder on the outside as shown in
figure 30. The staves of the silo should stand inside
the shoulder and close against it. If, when the
hoops are drawn tightly, the staves should be drawn
away from the shoulder, the space should be filled
by pouring thin cement into it.

When building the foundation wall, some
authorities recommend digging a trench of the de-
sired depth and filling it with stones, putting the
largest stones in the bottom. .Smaller stones are
worked into the intervening spaces, or they are filled
with gravel. In either case they are pounded down
until quite firm. When the wall is finished, a thin
cement is made and poured over the wall so
as to go down in the interstices. When it has
set, stronger cement is spread over the surface
with a trowel. It is questionable, however, if
cement thus applied has any advantage in cheap-
ness or otherwise over the good old-fashioned
mortar for holding in place the stones of a foun-
dation wall.

When a shoulder is not used on the wall the
time for striking a circle to serve as a guide in set-
ting up the staves is opportune, while the cement or
mortar on top of the foundation wall is still soft.
In making it a stake may be driven into the center
of the floor of the silo. The circle on the wall is
then marked by some suitable implement attached
to a cord which moves around on the central pivot
while the circle is being marked.

BUILDING THE SILO. 299

The Floor. — The floor may be of earth where
the soil is dry, of concrete covered with cement or
even without such a covering, or of bricks laid in
cement. (See Page 282.) Where the soil is dry
earth would answer well enough for a floor were it
not for the danger arising from depredations of rats
and mice especially the former. Because of this
danger, the propriety of making a floor secure
against such depredations should be carefully con-
sidered.

The Staves. — The staves should be of some
material that is relatively cheap and that is not too
difficult to obtain. At the present time, white pine
is probably the favorite wood in the northern states,
cypress in the southern states and the Douglas fir in
those of the far west. But other kinds of pine may
be used, as the red, the yellow, the Norway and the
southern, and also other soft woods, as spruce and
hemlock. It is important that the material shall
be sound and free from knots that are liable to drop
out, and seasoned lumber is preferable to that not
seasoned.

The most suitable size for the staves will be at
least measurably dependent on the size of the silo
and the character of the climate. The larger the
silo the broader may the staves be, and the warmer
the climate the less is the thickness required. Six
inches may be named as the maximum limit for the
width of the staves and four inches as the minimum.
The usual thickness is two inches, but in mild cli-
mates one and one-half inches will suffice. Where
the material can be obtained at reasonable prices, the
staves should be as long as the silo is high, but since

30O SOILING CROPS AND THE SILO.

such lumber is frequently relatively costly and diffi-
cult to get, it may frequently be necessary to pur-
chase staves of two different lengths and to splice
them. Where practicable, the staves should be
sized, and when they are to be spliced the necessity
for thus sizing them is increased. Where this can-
not be done, care must be taken to keep them even
inside when putting them in place. It is absolutely
necessary that they shall be planed on the inside and
also at the sides, but it will be advantageous also
to have them planed on the outside if they are to be
painted. It is not necessary to bevel them on the
sides unless the diameter of the silo should be quite
small. It is thought that even tighter joints are
secured in the absence of beveling, nor is it necessary
to tongue and groove the staves.

Setting Up the Staves. — In setting up the
staves, various methods have been adopted. That
now described is one of the simplest : — Erect a scaf-
fold by setting up scantlings at the corners of a square
that will exactly enclose the silo. Then just outside
the outer circle of the silo and at the points where
it touches each side of the square, set up smaller
scantlings. Those at the corners may be 4x4 inches
and those intermediate 2x4 inches, but scantlings of
other dimensions may be used so long as they are
strong enough to answer the end sought. Whether
or not these scantlings splice by overlapping they
should go up about as far as the silo is to be high,
and they should be set exactly plumb. They are
held in position by boards nailed on the outside.
, Boards one-half inch thick are then nailed on the
,inside of the four intermediate uprights. When in

BUILDING THE SILO. 301

position they form a crude circle. One of these
circles should be toward the bottom of the silo, and
one toward the top, and in silos that are high there
should be a third circle similarly formed midway
between these. A stave is then set up erect and
plumb. It is held in position by driving a short nail
through the hoop into the stave, but the nail
must not go through the stave. Another stave
is similarly put up and fastened, and in the same way
all the staves are set up. As soon as the hoops are
put on they draw the nails in the temporary hoops
awray from the staves, so that the former are easily
removed. When in position the staves may be flush
with the inside of the foundation, may stand in the
center of the same, or may rest against a shoulder
of the foundation as may be desired. In Bulletin
No. 167 of the Cornell university experiment station
it is recommended that in setting up the staves of a
silo, four staves shall be used on opposite sides of
the same which shall be several inches thicker than
the other staves of the silo. The hoops of the silo
are carried through these uprights, which makes it
easily possible to tighten the hoops without the aid
of keys, but they add materially to the labor of con-
struction. It would seem to be at least questionable
if such uprights will come into common use.

Splicing the Staves. — When it is necessary to
splice the staves in a silo, one of at least two methods
may be adopted. First, the ends may be cut squarely
and with precision in a miter box. In this way a
reasonably smooth joint is made. The joints where
the staves thus meet are broken, that is to say, in
one instance the short stave is put at the top of the

302 SOILING CROPS AND THE SILO.

silo and in the next at the bottom of the same. The
short staves should be about one-half the length of
the longer ones. The staves thus alternate all the
way around the circle. The alternate joints thus
describe two circles around the silo as shown in Fig.
30. This form of joint should be covered with flat
hoops Of band iron to aid in excluding the air.
When the staves have been carefully sized, this form
of splice may possibly be found to answer, but this
does not yet appear to have been conclusively proved
by experience. Whatever may be the form of the splice
adopted, provision must be made for having it come
where it will not interfere with doors and where
the joints may be thus covered with hoops of band
iron.

A second form of splice is made similarly, but
with the following addition: Saw about three-
fourths of an inch into the end of each stave the
wide way. A piece of sheet iron of the same width
as the stave is placed into the incision thus made as
the ends of the two staves are being brought together
(see Fig. 31). It may yet be found that sheet iron
thus used may corrode too quickly.

'Hoops. — At least three kinds of hoops have
been used in stave silos. These are the round, the
flat and the woven wire. All three of course are
iron. Round hoops are usually from five-eighths
to three-fourths inches in diameter, and are held in
place by lugs or castings, as shown in Fig 32.
These have eyes through which the ends of the rods
come. When it is desired to tighten the hoops, the
burrs are tightened with a wrench. It is claimed that
round hoops are more easily tightened than flat ones,

BUILDING THE SILO.

303

Daniel W, B. Tracy

Fig. 3!. Splice of Stave with Iron Tongue

304

SOILING CROPS AND THE SILO.

but they also cut into the staves, which is somewhat
objectionable.

Flat hoops are usually made of band iron one*
eighth of an inch thick and varying in width from,
say, two and one-half to three and one-half inches
with the size of the silo. These two are held in place
by lugs which differ in some respects from those used
to hold the round hoops in place, but the principle
involved is the same. For a silo sixteen feet in
diameter, each complete hoop which encircles the

Fig. 3a. Lugs for Hoops

M, Cast-iron lugs for round hoops.
6, Wedge lug for flat hoops.

same should consist of two separate pieces, and for
one with a much greater diameter, of three such
pieces. There is then less of a strain on the threads
while the burrs are being tightened. The lugs of
the various hoops should also be distributed rather
than rise one above another in a straight line.

Woven wire hoops are sometimes used when
the silos are small. These vary in width with the
requirements of the silo. The power which some
kinds of woven wire have to contract and expand

BUILDING THE SILO. 305

with the needs of the silo has led to their being used
by some silo builders.

The distance of the hoops from one another
should be regulated almost entirely by the size of
the silo. The greater the diameter of the silo and
the higher it is the closer should the hoops be placed,
especially toward its base. For a silo sixteen feet
in diameter the lower edge of the first hoop should
be within about six inches of the base of the staves.
The space between the lowest hoop and the one next
above it should be two feet. The space between
each additional hoop added, and the one next below
it should increase six inches. But four feet should
be the limit in distance between any two adjacent
hoops in such a silo. On the approach of the season
of filling the silo, it should be examined and the
hoops tightened when this may be necessary, but it
should be borne in mind that it is possible to draw
the hoops too tight, since the staves will swell some-
what after the silo has been filled.

The Doors. — The doors should be in line, one
above another. They should be no larger than will
suffice to admit of the easy ingress and egress of the
person who removes the silage. Doors eighteen
by twenty- four inches on the outside will usually be
amply large. The bottom of the first or lowest door
should be not less than three feet from the bottom
of the silo, and in some instances, as when a horse
cart is used for drawing the silage, it ought to be
higher than three feet. But when the pit of the silo
is sunk down some distance below the surface of the
ground the bottom door should be placed as low as
possible. The distance between the doors should

20

306 SOILING CROPS AND THE SILO.

not be less than five feet, and the space for these
ought to be so calculated as not to interfere with the
placing of the hoops, and vice versa.

The doors should be cut out after the staves
have been put in place and drawn tightly together.
They should be cut with a bevel on each of the four
sides and the beveled sides of the door should be
outward when it is in place. The pressure of the

a

Fig 33. Door of Stave Silo

a, View of outside of door ; b, side view of door.

silage when settling will then assist in the exclusion
of the air at the doors just in proportion to the extent
to which the said pressure exists. To aid further
in such exclusion of air, a strip of tarred paper
should be tacked on each of the beveled edges of
the door. Before sawing out the door, two cleats
should be bolted across the staves on the outside.
These are shown in the door as represented in Fig.
33. The end of the bolt which receives the burr

BUILDING THE SILO. 307

should be outward, and the heads of the same coun-
tersunk on the inside. The doors should be carefully
numbered on the outside so that each will be used

34. View of Stave Silo

With shute, ladder and hand-cart

only in its proper place, or they may be so fastened
with chains to the outer wall as to hang suspended
when for the time being they are not in use.

The Shute. — In a large majority of instances

308 SOILING CROPS AND THE SILO.

it will be advantageous to make a shute down which
the silage falls when it is thrown out at any of the
doors. The shute is simply a box with three sides,
extending upward from below, the lower door of
the silo and covering the doors. The proper size
will be about two feet square. A ladder should
extend upward on one side of the shute and inside
of it on which the person climbs when going into or
coming out of the silo. Usually a floor is put into
the shute and from this the silage slides outward
into a cart placed under the same to receive it.
When the silo stands outside the stable and near to
the same, the shute should come down into the
passageway, as shown in Fig. 34. This passage-
way between the silo and the building need not be
more than seven feet high inside. It should have
windows in it to admit ample light.

The Roof. — In climates not too cold nor too
rainy, stave silos may be left without a roof. (See
Page 288.) For silos that are located quite near
to the stable, a roof may be made as shown in Bulle-
tin No. 167 of the Cornell university experiment
station, that is to say, it may be made as follows:
Four scantlings suitably placed on the outside of the
silo may be bolted to the staves of the same. They
should extend downward some distance from the
top of the silo and upward some distance above it.
The pair nearest to the stable should be higher than
the outer pair. Other scantlings to serve as plates
or supports to the roof are then spiked across the
top of each pair of uprights. A third support in
the same line of ascent is then fastened to the side
of the stable. Over these supports a roof of boards

Pig 35. Exterior View of SUve Silo

With roof and lugs properly distributed.

3io

SOILING CROPS AND THE SILO.

is constructed, the cracks of which are battened.

This roof is intended simply to ward off storms and

would seem to be too costly for the benefits accruing.
When a roof is wanted, it would seem wiser to

build a better one, as for instance, on the plan shown

in Fig 35 ; or a conical roof
may be constructed as shown
in Fig 29. The style of roof
last mentioned, however, re-
quires some considerable de-
gree of skill to construct it
properly.

THE RECTANGULAR SILO.

The rectangular and the
square silo fits better into
the space obtainable in an
oblong building than any
other form of silo that can be
built. This fact will be at
once evident if it is remem-
bered that when thus located
there is absolutely no other
waste of space than that oc-
cupied by the walls of the silo. And since one and
sometimes two wralls of the building may be utilized
when constructing such silos, they will continue to be
erected, notwithstanding the objections arising from
the presence of corners and from the liability to
spread because of the pressure of the silage.

The Foundation. — Much of what has been said
with reference to the foundation of the stave silo

BUILDING THE SILO. 3H

will apply equally to the foundation of the rectan-
gular or the square silo. Usually the walls should
not be less than two feet thick, and as with the stave
silo they may be sunk into the ground to the depth
of three to four feet and the space inside excavated
as a receptacle for silage. (See Page 297.) The
wall should extend far enough upward to prevent
the sills from coming anywhere in contact with
the earth.

The Sills. — Commonly the sills consist of planks
of the same material and of the same size as the studs,
that is to say, of planks 2x10 inches. They are laid
on the foundation walls and framed so as to overlap
one another at the corners, and are bolted down to
the wall by means of upright iron rods or bolts laid
in the wall while the foundation was being built, as
shown in Fig. 36. These rods are of iron and they
should rise up at the corners and at intervals between
the corners which vary with the size of the silo.
The favorite distance varies from, say, three to five
or six feet. If the space inside the foundation walls
is to be used as a receptacle for silage, the in-
side of the sills should be so nearly flush with
the inside of the wall that when both are lined
the inner wall will be quite plumb where the
cement lining of the foundation and the wood
lining of the walls meet. But when the floor
of the silo is about level with the top of the wall, the
sills may occupy the central part of the top of the
wall rather than the space only toward the inner side
of the same.

The Floor. — The same general principles are
to bs followed in making the floor of the rectangular

312 SOILING CROPS AND THE SILO.

silo as in making the floor of the stave silo. (See
Pages 282 and 299.)

The Studs. — The size of the studding used in
the framework of the walls varies with the dimen-
sions of the silo. The same is true of the spacing
and bridging of the studs. The larger the silo, and
more especially the greater its hight, the larger
should be the studs where no girts are used and the
more closely should they be spaced and bridged. In
silos twenty-four to twenty-eight feet high it has
been found necessary to use studs 2x10 inches or
3x8 inches, to place them not more than twelve to
twenty- four inches apart and to bridge between each
pair of studs in not less than three places.

By bridging is meant the nailing of short pieces
of narrow boards or miniature scantlings between
the studs. They are cut at both ends with a proper
bevel so that they may be easily nailed to the studs.
Even when thus constructed, walls have been known
to spread somewhat. But where partitions are used,
it is not necessary to use studs so heavy, nor to place
them so close, since the iron rods which run through
the partitions effectually aid in preventing spreading.
The studs are usually toe-nailed to the sills below,
but in some instances they are mortised into the
same. When toe-nailed, several large spikes are
driven into each. Plates of the same material should
be laid on top of the studs and spiked to them when
the size of the material will admit of this, but when
it is of thicker size than the studs, the latter should
be mortised into the plates. The method more com-
monly adopted is to simply fasten the studs by
spiking them both above and below. The plates

BUILDING THE SILO. 313

should be a little narrower than the studs when an
outer lining is used to furnish ventilation to the air
space between the inner and outer linings. The
plates, like the sills, are put on the four sides of the
silo and they are also spliced at the corners.

In building silos in the past, the aim has been
to get studs as long as the intended hight of the silo,
but since lumber of such great lengths must con-
tinually become scarcer and higher in price, of
necessity, more attention will have to be given to the
use of girts in the future. If girts were made to
extend around the middle of the silo, the studs would
only require to be one-half the usual, length. If
mortised into the girts, and moreover, if one or more
partitions were used, and if one rod in each partition
were also run through the girts on the sides of the
silo, spreading would be most effectively prevented.
The girts, like the plates, should be a little narrower
than the studs in silos with an outer lining, and for
a similar reason.

The Inner Lining. — The amount of lining
required will depend almost entirely on the character
of the climate. Ordinarily, when rectangular silos
are built inside, one thickness of boards laid over
tarred paper will suffice. When but one layer of
boards is used, the lumber should be jointed and not
more than one inch thick. Boards not more than
six to eight inches wide will probably be better than
those wider, on the principle that narrow boards for
flooring are preferable to those wider. The tarred
paper is tacked onto the studs. The strips of the
same are put on perpendicularly and are made to
overlap where they meet on the studs, so that both

314 SOILING CROPS AND THE SILO.

may be tacked to the stud nearest to the place of
the overlapping.

When putting on the lining it is important that
the boards shall be so put on as to aid in binding the
corners of the silo. This may be done by having
each alternate board extend to the outside of the
studding of the walls which stand at right angles
with the board. Both ends of each board thus
extended can then be nailed to a stud properly
adjusted in each of the two walls just referred to.
This can only be done, however, when the boards
used in lining are of an equal width.

When it is deemed necessary to put on two
thicknesses of boards, that first put on should be
nailed directly to the studs and in a horizontal posi-
tion. These boards need not be planed, but the end
sought will be better secured if they are jointed. A
lining of tarred paper is then put on over the boards.
Over the tarred paper a second lining of jointed
boards is nailed. Inch boards are commonly used,
but those somewhat less in thickness will suffice.
The boards of the second lining should break joints
with those of the first, as shown in Fig. 36.

The Outer Lining. — When the silo is built
within another building, no outer lining is usually
necessary. When one or two sides of the building
also form the outer walls of the silo, the siding that
has been used upon either will usually answer also
for the outer lining of the silo, and without any
change. When the silo extends upward through
the roof of a building, the outer lining of the part
which thus projects may be similar to the siding of
the building. When the silo is built without, it may

BUILDING THE SILO. 315

be necessary in very cold climates to have two thick-
nesses of boards for the outer lining, with tarred
paper between, as shown in Fig. 36. But usually a
covering of drop siding, such as is ordinarily used,
will suffice. In mild climates an outer covering may
not be necessary, except for the purpose of hiding
the uncouth appearance of an uncovered frame.

Partitions. — When partitions are used in a silo
with a width of not more than sixteen feet, they may
ordinarily consist of planks two inches thick and
held in place at either end by a groove formed along
the wall to receive them. (See Page 286.) When
filling a silo with a partition of such material, it will
be necessary to fill on both sides of the partition or
to brace one side while the other is being filled. In
a silo twenty-four feet in hight, three iron rods of
about three-fourths inch iron should run through
the partition at suitable distances from one another
and in grooves made for them between the planks.
( See Page 287. ) The rods should be threaded at the
ends and should have under the burrs washers of
metal of sufficient size to prevent the burrs from
drawing into the wood. When thus protected, the
walls of the rectangular silo cannot spread.

The Corners. — In each inside corner a scantling
should be placed on end and spiked to the walls so
as to present a beveled edge on the inside. A scant-
ling 2x4 inches or 4x6 inches ripped diagonally
through the center, that is to say, from two opposite
corners, will furnish the requisite material for cor-
ners. The beveled edge should of course be planed.

The Doors. — The doors, as in the stave silo,
should be placed one above another. (See Page 305.)

316 SOILING CROPS AND THE SILO.

They may also be of the same size as those described
in the stave silo, where the distance between the studs
will admit of making them thus, and they may be
similarly distanced. They may likewise be beveled
on the edges and held together by bars bolted to the
outer edge of the wall before the doors are cut out.
A simpler form of door has been made by cutting
out an opening of sufficient size between two studs
and holding together the part of the lining thus cut
out by bars nailed or bolted to them on the outside.
When in place they rest against strips nailed to the
two sides of the two studs adjacent to the opening
for the door*. When the doors are in place they are
covered with tarred paper to aid in excluding the
air. Where an outer lining has been put on, open-
ings to correspond with those of the inner lining may
be made on the same general plan.

The Roof. — It is only when the rectangular silo
extends up through the roof of the outbuilding, or
when the silo is built outside that it requires to be
roofed. The plates which are spiked onto the top
of the studs, or which have the latter mortised into
them, should be less wide than the studs that venti-
lation may be provided for the air space between the
inner and outer linings of the wall. Plates are fre-
quently used no thicker than the studs, but in silos
possessed of much width it would be no more than
prudent to use plates somewhat thicker. The size
of the rafters used should be regulated by the size
of the silo. When in position they are notched
where they rest on the plates and are spiked and toe-
nailed to the same. If narrow boards or 2x4 scant-
lings are nailed or spiked to opposite rafters and not

BUILDING THE SILO. 317

far up from the plates, they assist materially in pre-
venting the silo from spreading. But there is no
necessity for nailing them thus to each pair of rafters.
The covering of the roof may consist of boards and
shingles, or indeed, of any of the materials used in
covering roofs that may be desired. In the gable
should be a hinged door to admit green food when
the silo is being filled. It should be not less than
two and one-half feet wide to admit carriers such
as are commonly used when silos are being filled;
but sometimes the gable end is left open. There
should also be at least one cupola or ventilator on the
ridge of the roof to furnish egress to the gases which
are generated by the fermentation of the silage. If
the roof of a silo is closed tightly, premature decay
in the roof would result.

BUILDING STONE SILOS.

It is almost certain that the stone silo will grow
in favor with the passing of the years because of its
greater relative duration. This will at least prove
true in localities abundantly supplied with stone.
The greater relative first cost of constructing stone
silos is probably more than anything else responsible
for the infrequency with which such silos are found.
Future experience, however, is likely to show that
when the greater duration of stone silos is taken into
account, they will prove the cheapest by far in the
end. The objections have been brought against
them that they are damp, and that frost easily pene-
trates them, and both objections are true in the
absence of certain precautions when building them.

318 SOILING CROPS AND THE SILO.

Excessive dampness may be prevented by making
an air space in the wall while it is being built, or by
lining the wall on the inside with one thickness of
brick and by giving due attention to ventilation.

The danger from frost will not be present
except in cold climates. The air space in the wall.
or the inner brick lining above referred to will also
help materially to ward off frost. When neither is
present, protection may be afforded by covering the
outer wall with a lining of boards nailed to studding
so as to form an air space between the lining and
the wall. The aim should be, however, to construct
the wall so that such lining on the outside would not
be necessary. A stone silo properly built should last
indefinitely without any form of renewal except in
the inner lining and in the covering over the frame-
work of the roof.

Forms of Construction. — Stone silos may be
built square, rectangular or round and they will
usually be located outside, but may also be placed
inside the barn or stable. The aim should be wher-
ever practicable to build them round. When this
cannot be done, the corners inside should be rounded
more or less to facilitate the settling of the silage.

The Foundation. — The foundation of the stone
silo may be made in the same way as the foundation
for any structure in which permanency is desired.
Every care should be taken to preserve it from the
action of frost when built in a cold climate, lest crack-
ing of the walls should follow. As the structure is
heavy, the foundation should go down to solid earth.
If the drainage below is not complete it should be
made so by laying tiles under the wall or adjacent

BUILDING THE SILO. 319

to and a little lower than the bottom of the same.
The ground should also slope away somewhat from
the outside of the wall.

The Floor. — The floor in the stone silo may be
similar in construction to that in the stave silo. (See
Page 282 and also Page 299. )

The Walls.— The thickness of the walls should
be determined by the size of the silo. The larger
the silo the greater the pressure, and the greater the
pressure the thicker should be the wall. It is at least
questionable if the wall of any stone silo should be
less than fifteen to eighteen inches in thickness, and
the necessity will probably seldom arise for making
the wall more than twenty-four inches thick.
Whether the wall with an air space or the solid wall
with a brick lining inside will be the more efficacious
does not appear to have been determined as yet. In
southern climates where the danger from frost does
not exist, the solid wall without an air space or brick
lining should answer every purpose.

The Inner Lining. — The walls inside should be
coated with cement of an excellent quality. If laid
on a brick lining it will last for many years where
frost does not penetrate the wall. In a stone silo built
by W. C. Edwards, M. P., of Rockland, Ont, the
cement lining has been in place for ten years and
is still in faultless condition. The stone wall is two
feet thick. It is faced inside with one tier of bricks
laid with the side to the wall, and the cement lining
is plastered on the bricks. This fact is in conflict
with statements made, which claim that it is neces-
sary to apply cement of the consistency of whitewash
every two or three years to the inner lining of stone

32O SOILING CROPS AND THE SILO.

silos. Whether the cement would last as well on
properly built stone silos without the brick facing
insides does not appear to have been determined, but
there would seem to be no good reasons why it
should not.

The Outer Lining. — Where stone silos are prop-
erly constructed, there should be no necessity for
an outer lining of wood in any climate where corn
can be successfully grown for the silo. The stone
silo referred to in the preceding paragraph is located
between the forty-fifth and forty-sixth parallels of
north latitude, and in a climate that is stern and rig-
orous. The larger portion of the wall, which is
twenty-six feet high, is unprotected, and yet Mr.
Edwards testifies that no trouble whatever has arisen
from the action of frost.

Where it is deemed necessary, however, to pro-
tect a stone silo by lining it outside, the lining can
best be nailed to upright studs laid into the outer
wall while it is being built, but of course studding
may be used that is not thus laid into the wall. The
studs or strips thus placed do not require to be any
nearer than will suffice to properly sustain the siding.
Drop siding will be suitable.

The Roof. — The roof of the stone silo when
built outside may be constructed on the same plan
as that of any other silo. But because of the greater
duration of stone silos, it will probably pay to take
special pains in the selection and use of material last-
ing in character, as, for instance, metal roofing.
And since the stave silo is frequently built and used
from year to year without any form of roof there
would seem to be no good reason for not similarly

BUILDING THE SILO. 321

using the stone silo where the climatic conditions
are suitable.

The Doors. — Provision ought to be made for
the door spaces when the wall is being built. These
should be on one side of the silo and above one
another, as in the stave silo. The size of the door
spaces should be about the same, that is to say, about
18x24 inches, or perhaps a little larger than that,
because of the greater thickness of the stone wall.
The material for the doors within and without will
of course be wood, with tarred paper on the surface
next the air space and also on the beveled edges.
These beveled edges will fit into a corresponding
bevel on the four edges of the inner and also on the
outer surface of the wall, which border on the open
space left for the doors. But the bevel on the outer
side is much less important than that on the inner
side, and may be dispensed with altogether. The
doors on both sides may swing on hinges of suitable
construction, or they may be simply put in place
while the silo is being filled.

In deep and wide stone silos it may be necessary
to strengthen the walls, to some extent, with iron
bands encircling them, or with iron rods running up
and down, as, for instance, near the doors.

21

Daniel W;: B. Tracy

CHAp.

CROPS SUITABLE FOR THE SILO.

It would seem to be possible to preserve in the
silo with more or less of success any of the crops
that are ordinarily grown in this country as food for
live stock. Nevertheless, the exact methods to be
followed in storing many of these crops so as to
properly preserve them have not yet been fully deter-
mined. The relative suitability of crops for being
made into silage is determined by various considera-
tions. Chief among these is the ease with which
they may be preserved in the silo. But prominent
among the same are the following: i, The readi-
ness with which they may be grown in ample supply.
2, The ease with which they may be put into the silo
and taken out of the same. 3, The facility with
which they may be preserved by other methods.
Corn for instance is more easily preserved in the silo
than winter rye and it also produces more food per
acre. On these grounds therefore it is so far the
more suitable food of the two for being made into
silage. Clover is more easily handled than rape,
hence it is so far a more suitable silo crop. Sorghum
is more difficult to cure in the dry form than peas
and oats, hence it is more suitable than the latter for
siloing.

The relative suitability of the following plants
for being made into silage will now be considered,

322

CROPS SUITABLE FOR THE SILO. 323

viz. : Corn, sorghum, non-saccharine sorghum, legu-
minous plants other than clover, plants of the clover
family, millets, the common cereals, field roots, rape
and sunflowers. With the exception of sunflowers,
the Author believes the above have been named in
about the order of relative suitability, giving corn
the first place.

Corn. — Corn is pre-eminently the soiling plant
of the United States and Canada. It would prob-
ably be correct to say that more corn is made into
silage in these respective countries than all other
crops combined. The high adaptation of this plant
for the silo is based on such considerations as its wide
distribution, the certainty with which it may be
grown, the ease with which it is handled and cured,
the large amount of food which it produces and the
high character of the same, the aid which it renders
in preserving other crops put into the silo along with
it, and the difficulty frequently experienced in curing
corn out of the silo. It is distributed so widely that
it may be grown for silage in nearly every state in
the Union and in nearly every province of Canada.
Even where it does not become sufficiently advanced
to produce soft grain it may be cured in the silo. It
is one of the most certain crops of the farm, and
when grown for silage, it is even more certain than
when grown mainly for the grain product, since it
may be cured in the silo before it is fully matured.

All things considered, no other crop is more
easily handled in the green form, and none have been
cured in the silo with so much certainty, so small a
number of failures and so little loss. Likewise con-
sidered, no other crop produces so large an amount

Fig. 37. Elephant Fodder Corn

Minnesota University Experiment Farm.

CROPS SUITABLE FOR THE SILO. 325

of food per acre that is so highly palatable and
nutritious and over so wide an area. Various other
crops, as clover, soy beans and cowpeas may be bet-
ter preserved along with corn, as for instance, in
alternate layers, than when put into the silo alone.
Since in some sections corn is not easily preserved
ir, the shock, the stack or the barn, the percentage of
loss in those areas is reduced when corn is cured in
the silo.

So completely adapted is corn to the require-
ments of silage making that where it can be grown
successfully from year to year* it is questionable as
to whether very much attention should be given to
the siloing of other crops. Were it not that it is
rather low in protein, the propriety of growing other
crops to blend with it or to feed along with the
silage made from it might well be questioned. Since
the protein required to balance the ration can usually
be procured more easily in the cured form, it is com-
monly more advantageous thus to procure it.
Probably the soy bean, the cowpea and the sunflower,
plants that are rich in protein, furnish exceptions.

Sorghum. — The suitability of sorghum for the
silo is, in some respects at least, not very far different
from that of corn, but since sorghum has not hereto-
fore been grown to anything like the same extent as
corn in those areas where the silo is most needed, its
merits as silage food are but little known, and since
its keeping qualities outside of the silo are in several
respects superior to those of corn, the same necessity
has not been felt for curing it in the form of silage.
And when thus cured, sorghum silage has usually
been found more acid than silage made from corn.

li

CROPS SUITABLE FOR THE SILO. 327

For autumn feeding it would seldom probably be
advantageous to make sorghum into silage since it
may be fed so conveniently at that season from the
shock or heap, as the case may be. But for late
winter and spring feeding, in climates subject to al-
ternations of high and low temperatures in winter,
it is perhaps better preserved in the silo. Alternate
freezing and thawing tend to affect adversely the
value of its saccharine content.

The Non-Saccharine Sorghums. — The value of
the non-saccharine sorghums as silage is probably
not far different from that of sorghum, although ex-
perience in storing these crops in the silo is so limited
that their relative value for making silage should be
spoken of with a prudent reserve. Since they are
grown in areas where the need of silos is not so im-
perative as where corn grows at its best, there is not
the same necessity for making them into silage.
They are grown to the greatest extent in dry areas
where the fodder is not much liable to injury from
rain when exposed in stacks, either in the autumn or
winter. There should be no difficulty in preserving
any of the non-saccharine sorghums in the silo, but,
since they are usually less succulent than corn, they
should be put into the silo at a somewhat less ad-
vanced stage of development.

Leguminous Plants Other Than Clover. — The
chief of these, under conditions that now prevail in
the United States, are the ordinary field pea, the
common vetch, the soy bean and the cowpea. These
can all be preserved with more or less of success in
the silo, but when preserved thus without admixture
or alternation with other crops, as corn, in instances

328 SOILING CROPS AND THE SILO.

too numerous, the success attained has been only
partial. This would seem to be true even of soy
bean and cowpea silage. Silage made from these
crops is too frequently acid in character, and in too
many instances it has become more or less decom-
posed and off in color and smell. And these facts
are probably true in a greater degree of the common
pea and the common vetch than of the soy bean and
the cowpea. This would seem to indicate that the
two plants first named are usually put into the silo in
a form too succulent. Whether the numerous fail-
ures in the attempt to preserve these crops in the
silo arises from want of knowledge of the proper
methods of doing the work, cannot as yet be stated
with certainty, but there would seem to be no good
reason why it should not be possible to preserve
them with more uniform success than has heretofore
been attained.

The same necessity does not exist for preserv-
ing the common pea and the common vetch in the
silo as for preserving the soy bean and the cowpea.
Since the two former may under average conditions
be easily cured in the dry form. They are so fine in
foliage that they readily give up their moisture when
being cured. Not so however the soy bean and the
cowpea. They are so coarse of straw that so much
time is necessary to cure them properly and also so
much handling, that unless great care is exercised in
doing the work, the value of the hay thus made will
be greatly impaired through the loss of the leaves.

When the soy bean and the cowpea are stored
in the silo it should, when practicable, be along with
corn or sorghum in some of its varieties. Some

CROPS SUITABLE FOR THE SILO. 329

persons recommend storing these foods in alternate
layers, since they consider it more practicable to store
in layers than to mix the food, as it is easier to handle
first one food and then the other when storing, than
to handle the two simultaneously. The mixing of
the food may be done when feeding it. But, if it is
thought better to mix them at the time of storing, no
serious obstacle stands in the way. This method of
storing tends to make a more perfectly balanced
ration. The proportions of each product required to
make a balanced ration will vary with variations in
the analyses of the crops. But even when these
crops are stored thus, it may not always be wise to
store them in those proportions that will exactly
adapt the food to the needs of the animals to which
it is to be fed. It may be impossible to do so because
of a preponderance in the supply of one or the other
of the crops grown. If it is true that corn, or sor-
ghum exercises a preservative influence on the other
foods, it would seem to be necessary to have a con-
siderable preponderance of them in the silo.

It is easily possible to grow the soy bean and the
cowpea so that they will be in season for being put
into the silo when corn or sorghum are also in season.
But the same cannot be said of the common pea or
the common vetch.

The horse bean has been grown to determine its
value for silage at least in an experimental way in
the vicinity of Ottawa, Ont. The object sought
was to increase the protein content in the silage.
Where the beans can be profitably grown and mixed
with corn in the silo, the plan of using them thus
would seem to be commendable, but the areas in

33O SOILING CROPS AND THE SILO,

which horse beans and corn can both be grown suc-
cessfully on this continent are not extensive.

Plants of the Clover Family. — Clover in all its
forms may be made into silage both in the natural
condition and after it has been run through a cutting
box. It is more common however to preserve thus,
only the medium red and the mammoth sorts. Al-
sike clover is more easily cured in the dry form than
either of these, because of its fine growth and the
frequency with which it is grown along with tim-
othy. It is much easier to grow an equal or nearly
equal mixture of alsike and timothy, than of the red
clovers and timothy, and the timothy thus admixed
with the alsike is favorable to quick curing in the
latter. Alfalfa is more commonly grown in dry
climates, hence the necessity for preserving it in the
silo is not very great.

While fairly good silage may sometimes be
made of clover when put into the silo without ad-
mixture, it does not seem an easy task to preserve it
thus in a manner that will give entire satisfaction.
In too many instances, when taken out of the silo, it
is too dark in color and rank in odor to meet the re-
quirements of those who are seeking the very best
quality of milk. But the fact that it is sometimes
preserved with a fair measure of sweetness would
seem to indicate that it may always be so preserved
if the conditions that govern the making of good
clover silage were fully understood.

Clover is more easily preserved in the silo when
admixed with corn, and when thus preserved the
ration provided is in better balance than if it con-
sisted only of corn, since the clover adds to the

CROPS SUITABLE FOR THE SILO. 33 1

protein content which is too much wanting in the
corn. But the first cutting of medium red clover can-
not be thus mixed with corn, since the corn is not far
enough advanced for being put into the silo when the
clover is ready for being thus stored. Nor is corn
sufficiently advanced for being preserved thus along
with mammoth clover. But the second cutting of
medium red clover is ready for being siloed at the
same time as corn. Because of the greater difficulty
experienced in many localities in curing the second
growth of medium clover, on account of the in-
creased dampness of the weather at that season there
is sometimes much propriety in curing it in the silo.
But under average conditions in the United States
and Canada, the curing of clover in the old-fashioned
way, with the exception stated, would seem to be
preferable to curing it in the silo. In climates with
much rainfall in harvest as that of Great Britain, it is
different. In that country it may be the better plan
to preserve clover in the silo.

Millets. — The different kinds of millet may also
be preserved in the silo, although they are seldom
thus handled and for the following reasons : —
I, They mature at a season of the year favorable to
curing in the dry form, that is to say, they mature
in the latter part of the summer. 2, Like ordinary
hay they are easily handled in the field cured form.
3, The method of preserving them alone or unmixed
in the silo cannot be said as yet to have proved a
decided success. Millet silage would seem to be
more liable to mold than corn. This may not be
true of pearl millet, but experience in siloing that
product would seem to be entirely wanting.

332 SOILING CROPS AND THE SILO.

The plan of preserving millet, in some of its
forms at least, along with corn may have some com-
mendable features, since it is usually ready for being
harvested about the same time as corn. There is the
objection to it however, that it does not improve the
feeding value of the mixture so much as a legumi-
nous plant would, since the latter would be richer in
protein. The more bulky kinds of millet and the
soy bean may be successfully preserved together in
the silo. They make a good food, as each plant
would in a sense be the complement of the other. It
has been recommended to put one load of each alter-
nately into the silo when filling it, and to sprinkle
several buckets of water over each load of millet
when in the silo.

The Common Cereals. — Under this head only
wheat, oats, rye and barley will be considered.
There would seem to be but little reason for preserv-
ing these crops in the silo, even though they made
good silage. The grain alone which they produce
is usually more valuable than the silage made from
them, since they must be made into silage while yet
somewhat lacking in completest possible nutrition.
Nor can they be readily preserved in the silo owing
to the hollow and dry character of the stem. Silage
as ordinarily made from these crops is much liable
to injury from dry mold. This liability can of course
be lessened by much tramping while the silo is being
filled, and by sprinkling the mass freely with water
occasionally, also by cutting the food a little earlier
than it is usually cut. The Author made good
silage from winter rye at the Ontario experiment
station at Guelph in 1891. The rye was cut when

CROPS SUITABLE FOR THE SILO. 333

fully out in head and was then run through a cutting
box. The cattle to which it was fed ate it with
evident relish. But while the rye silage was thus
being fed, the exposed surface in the silo dried out
so quickly between the feeding periods that the pala-
tability of the silage was materially lessened, not-
withstanding that it was being fed to a considerable
number of animals.

All things considered, there would not seem to
be any great necessity for making these crops into
silage. The grain is usually more needed than the
silage. They can usually be readily cured as hay
when wanted in that form, and there is also less
hazard on the whole in curing them as hay.

Field Roots. — There would seem to be no good
reason why the attempt should be made to keep field
roots in the silo under existing conditions, since they
can be so easily preserved in cellars and pits. The
only exception is the pulp made from sugar beets
after the sugar has been extracted from them. And
yet it is possible that the day will come when field
roots will be run through a pulper and made into
silage to secure greater convenience in storing and
feeding. They could thus be stored in less space
and they would be in condition that would fit them
for being fed to any kind of live stock without fur-
ther preparation.

It will perhaps, in all cases, be found more
profitable to feed the tops of field roots directly to
live stock than *to try to preserve them in the silo.
The labor of handling them thus is very much less
than the labor of first putting them into the silo and
feeding them out again, even though they could be

334 SOILING CROPS AND THE SILO.

cured with but little hazard. But it is pretty certain
that they cannot be cured thus, because of the excess
of moisture which they contain. This at least has
been the outcome of experiments made heretofore to
preserve the tops of field roots in the silo.

But it is different with beet pulp. The feeding
value is not greatly reduced by taking so much of
the sugar content from it. It is ordinarily not prac-
ticable for farmers contiguous to the beet factory to
cart the entire product of the pulp from the same and
to feed it on their farms. They cannot do so in cold
weather and the time required would be too valuable
unless when they lived near the factory. It would
seem to be in a sense necessary therefore to store it
in a silo of some kind near the factory and to
feed it from the same. The product thus pre-
served has been made to furnish an excellent adjunct
in feeding dairy stock and cattle and sheep that
are being kept for breeding uses or that are being
fattened.

Rape. — Experiments have been made to pre-
serve rape in the silo, but so far as the Author has
been able to ascertain, they have not been successful.
Like the tops of field roots, rape is too watery to
make good silage. It decays in the silo, turns black
in color and becomes tainted with an offensive odor.
Nor is there any real necessity for curing it thus.
The labor of handling would be increased as com-
pared with that entailed in feeding it directly as
soiling food. Though preserved ever so well, it
would have to be fed with much caution to milch
cows lest taint might be produced in the milk. It
would seem therefore to be a waste of time for any

CROPS SUITABLE FOR THE SILO. 335

but experimenters to ever try to preserve rape
in the silo.

The Sunflower. — The growing of sunflowers to
be made into silage along with corn has been advo-
cated by some high authorities and has been practiced
to a very limited extent by farmers in some sections
of Ontario. The object sought is to so increase the
feeding value of the silage that the complement of
grain to be added to the same when it is fed can be
materially lessened. The sunflowers are grown in
rows and cultivated much after the fashion of corn.
The heads only are used. They are gathered, run
through a cutting box and mixed with corn while
the silo is being filled.

Large yields of heads have thus been obtained,
as high in some instances as eight tons per acre. But
it would seem questionable if this plant will ever be
extensively grown for such a use and for the follow-
ing reasons: — i, The labor of gathering the heads
is considerable. It must be done by hand. 2, The
stalks which require much plant food to grow them
have no feeding value. 3, They also cumber the
land and involve extra labor in removing them, for
which there would seem to be no adequate compensa-
tion unless when they can be used as fuel.

CHAPTER VI.

FILLING THE SILO.

When crops are preserved in the silo, much of
the success in thus storing them depends upon such
considerations as the stage at which they are har-
vested and the precise methods followed in storing.
The expense incurred will also be materially affected
by the way in which the work is done. The various
questions which bear upon these points will now be
considered.

Stage of Harvesting. — The stage of develop-
ment at which crops should be harvested when put
into the silo will vary with the kind of crop to be
preserved. Corn is in the best condition for being
harvested when the grain in the ear has reached the
"glazed stage" or what is sometimes termed the
"roasting stage." If put into the silo at an earlier
period the corn is less nutritious than it would other-
wise be, and it is also more likely to make silage
unduly acid* If allowed to pass the stage indicated,
the corn is somewhat liable to become more or less
moldy. The mold thus formed is found in spots
or masses interspersed through the silage. The
over-acid condition is induced by over succulence in
the corn, and the moldy condition by want of succu-
lence. The remedy for the first consists in wilting
the corn more or less before siloing it, and for the
second, in cutting the corn at an earlier period. It

336

FILLING THE SILO. 337

should be possible in all instances to apply the last
mentioned remedy, but not the first mentioned, since
there are localities in which the season is too short to
admit of corn reaching the roasting stage before the
arrival of frost, and yet in these localities it may be
desirable to make silage from corn.

The degree of the wilting will be dependent on
the succulence of the corn. The less advanced the
stage of the growth, the more should the corn be
wilted. Good silage has been made at Indian Head,
Can., from corn cut before grain had been formed
in the ear. If corn should pass the proper stage of
maturity before it is put into the silo, it will keep
better if water is poured over the ma.ss occasionally
while the silo is being filled. The same result will
measurably follow if some more succulent food, as
clover or oats and peas are mixed with the corn.

When corn is struck with frost and is then al-
lowed to stand uncut for some time subsequently, it
will be greatly injured for feeding. But if, when
thus stricken, the crop is at once cut and put into the
silo, the value of the silage made from it, though
reduced is not seriously impaired.

The exact stage of development at which
sorghum and the non-saccharine sorghums ought
to be cut have not yet been fully determined,
but it will probably be found that the best stage
for harvesting these crops will be when they
are just a little short of maturity. But crops even of
the same species are by no means equally succulent
at the same stage of advancement. Much depends
upon the climate, and season, and this fact must not
be lost sight of when they are being made into silage.
22

SOILING CROPS AND THE SILO.

The soy bean should be harvested when the
beans are more or less grown in the pods, and the
same is true of the cowpea and the horse bean. It
is usually considered preferable to allow the pods to
become well advanced, so as to increase the feeding
value of the silage, but more experience is wanted
in siloing these crops before the exact stage of
growth can be certainly known at which they ought
to be harvested.

Clover should be cut for the silo when coming
into full bloom. If cut earlier it is too immature
and is over succulent. If cut later it is lacking in
succulence. Rye and wheat should be cut as soon
as out in head, and the same is true of millets. Oats
and peas grown together are ready when the pods in
the peas are in process of rilling. The seed of sun-
flowers should be allowed to become nearly matured
before putting them into the silo. But from what
has already been said, it will be evident that the
period of harvesting may be varied somewhat by the
treatment given to the crops while storing them.

Cutting Crops for the Silo. — The implement to
be used in cutting crops for the silo will depend on
the nature of the crop. Very frequently the field
mower is used. The exceptions are, corn, sorghum
the non-saccharine sorghums, sunflower heads, and
in some instances such crops as rye and millet. Rye
and millet are sometimes harvested with the ordinary
binder. When thus harvested they are handled with
but little labor. Some form of knife must be used in
cutting off the heads of sunflowers. The best mode
of cutting corn and sorghum for the silo will vary
with conditions. When small quantities only are to

FILLING THE SILO. 339

be put into the silo, it is questionable if any imple-
ment used by hand is superior to the corn knife.
But when large areas are to be cut, the corn binder
should do the work satisfactorily and with despatch
when the corn or sorghum stands fairly erect.

Conveying the Crop to the Silo. — Since crops
for the silo must be harvested in the green form,
they handle very heavily. The aim should be to
convey them to the silo by that method that will
involve the least expenditure in labor. Ordinarily
therefore they should be loaded on conveyances
which do not rise far from the ground. Careful
attention to this matter will prevent the expenditure
of muscle in a marked degree. Trucks with low
wheels and covered with a broad platform are suit-
able for such work. The only objection to them
probably is the heavy draught. A platform is some-
times made on which to load these crops, and when
in use it is suspended underneath the front and hind
bolsters of an ordinary wagon. It consists of two
strong scantlings of hardwood of any length within
the limits of practicability, and held together by cross-
pieces at both ends. Inch boards of some hard wood
are nailed across these scantlings. If pine is the
material used, the boards or planks should be thicker.
The platform is suspended so as to come within
about a foot of the ground. The green food is
placed on the same for conveyance to the silo.

In gathering some kinds of crops for convey-
ance to the silo, as clover for instance, a hay loader
may sometimes be used with advantage. But when
so used the green food must be lifted from the swath
where the mower left it. Sunflower heads are

34O SOILING CROPS AND THE SILO.

usually cut with a strong knife and thrown directly
into a wagon box. In this they are driven to where
the cutting box is placed.

Whether crops should be wilted or not before
being put into the silo, and also the degree to which
they should be wilted, will depend largely on the
natural succulence in the crop, and the stage at which
it is cut. Crops that are quite succulent, as green
clover, are more easily preserved when wilted more
or less. On the other hand crops lacking in succu-
lence, as winter rye, cannot be placed in the silo too
soon after they have been cut. Corn cut at the
proper stage may be put directly into the silo, but
corn less mature should be wilted more or less ac-
cording as it is lacking in maturity.

Putting Crops into the Silo. — Whether crops
should be run through a cutting box or not before
putting them into the silo will depend upon con-
ditions. When but a limited quantity of silage is
wanted, and where labor is not easily obtained, it
may sometimes be wise to store crops in the silo in
the uncut form. But this method of storing them
is not always practicable. In a silo entirely above
the ground, it would be almost impossible to get
corn, for instance, into the same without excessive
labor, and if put into a silo that goes far down below
the surface of the ground it would be even more diffi-
cult to get the corn out again. The only crops that
could be stored in the over-ground silo without
excessive labor, are those which may be deposited in
the same with the aid of the horse forks.

In a large majority of instances it will prove
more satisfactory in many ways to store food in the

FILLING THE SILO. 341

silo after it has first been run through a cutting box,
and for reasons as follows: — i, Much less labor is
required to put it into the silo and to pack it so as
to exclude the air. 2, It usually keeps better
in the cut form. 3, Much less labor is involved
in feeding the silage. 4, A smaller proportion
will be rejected by the animals. 5, Meal may
be mixed with the cut silage as may be desired.
Whenever silage is fed in a large way, it will
certainly pay well to run the food through a
cutting box before it is stored rather than to
store it in the uncut form.

Where corn, sorghum or the non-saccharine
sorghums are to be run through a cutting box when
put into the silo, the cutting box chosen should be
strong, and when riiuch work is to be done, it should
be capacious, that the work may be done rapidly. It
may of course be driven by any kind of power not
unduly expensive. The tendency now is to prefer
engine power to horse power.

The lengths to which the food should be cut
is yet an unsettled point. In fact it will vary to
some extent with the crops stored. All things con-
sidered, however, short lengths in the food cut are
preferable to those longer. They may be packed
more tightly and handled more readily when feeding
than silage of longer lengths. Those from one-half
to three-fourths of an inch, of such hard substances
as corn or sorghum stalks, are in favor with many.
Intermediate lengths, that is, lengths a little longer
than the above, have been objected to because
of the soreness of mouth sometimes induced in cattle,
from biting on the ends of the cuts rather than on the

SOILING CROPS AND THE SILO.

sides of the same which they must needs do if the
pieces are long. The only objection probably to
the short lengths in the silage arise from the in-
creased labor of cutting the food thus short. It
would not seem to be necessary to cut soft-stemmed
crops in lengths so short as those that are hard.

The expense of making silage is lessened by
doing the work in such a way that all the workmen
engaged shall be kept employed, that is to say, when
the men in the silo do not have to wait for cut food,
when the engine does not have to wait idly for the
arrival of uncut food from the fields, and when the
workmen in the fields do not have to wait for the
return of the teams which draw the food. To ar-
range the work thus requires some executive tact,
and where silos are numerous in any locality, it can
be most cheaply done when done in a co-operative
way.

Putting the Food Into the Silo. — The silo may
be filled quickly and without any interruption save
that which is made by taking the usual rest required
by the workhands. Or, it may be filled slowly and
at intervals as may be convenient. The intervals of
cessation in filling should not at any time cover many
days lest the exposed silage should begin to decay,
unless it is absolutely necessary to wait after the silo
has been partially cured for some other crop to
mature. In such an event more or less of the food
that was last put into the silo will be spoiled. This
ought to be removed before the filling of the silo is
resumed. When but a short period is covered in
filling the silo, although it should be filled to the brim,
it will not remain full.

FILLING THE SILO. 343

The silage will continue to settle for several
days, so that a large space will be left vacant above
the silage. Where two silos are to be filled that are
near at hand, the difficulty will be partially met by
filling both at the same time, that is to say, by filling
one in part and then the other in successive alterna-
tions until both are full. More time is thus given
for the silage to settle. For the same reason, when
a silo is being filled with a division in it, the two
divisions should be likewise filled simultaneously.
And when thus filled the danger from pressing the
division away from the perpendicular is also ob-
viated. But it has not yet been demonstrated that
quick or reasonably slow filling materially affects the
character of the silage.

The proper distribution of the food in the silo
is a matter of no slight importance. When it is al-
lowed to fall from the carriers which convey it to the
silo, the mass rises up in the center in the shape of a
cone. From this cone the food rolls down toward
the sides of the silo. But in doing so, the lighter
portions, as for instance the leaves of corn, are
forced outward by the heavier portions, as the grain
and stem. The quality of the silage, therefore, on
the outer edges is frequently inferior to that in and
near the center of the same, especially when it con-
tains less grain. If, therefore, the quality of the
silage is to be uniform in the silo, it must be carefully
distributed from the first.

But still greater harm will follow from allowing
the silage thus to pile up in the center. It will not
settle evenly. The pressure is greatest in the center,
and the tendency in settling will be to draw away the

344 SOILING CROPS AND THE SILO.

food from the walls of the silo, and air will thus be
admitted with the result that much of the mass on
the outer edges will be spoiled. This condition is
even more aggravated when such food as clover, for
instance, is thus put into the silo with the horse- fork.
Loss from this source may be prevented by first dis-
tributing the food evenly during the filling of the
silo, and then tramping it so that the impaction of the
mass will be about equal in all parts of the silo. The
amount of tramping required will be least in the
center of the silo and greatest on the outer edges.
In the square or rectangular silo, particular pains
should be taken to tramp down the mass firmly in the
corners, or harm will follow from the admission of
air. The amount of tramping required will vary
with the nature of the food, the shape of the silo and
the depth of the same. The less succulent the food
and the more woody it is in character, the more
should it be tramped. More tramping on the whole
is necessary in a square or rectangular silo than in a
round one, since the food settles more readily in the
latter. Less tramping is needed in a deep silo than
in a shallow one, since when the silo is deep, the
silage sinks more under the pressure, as it were, of
its own weight. It is evident therefore that much
care should be taken to tramp down firmly the food
in the upper portion of a silo whatever its shape may
be or the extent of its depth.

In a large silo the distribution of the food may
be facilitated by the introduction of a simple device.
It consists of a platform or table made of boards and
suspended far upward in the silo and equally distant
from its walls,.. The food falls from the carriers

FILLING THE SILO. 345

onto the center of this table. As soon as it accumu-
lates sufficiently on the same it rolls down over the
outer edges, and is in consequence distributed over a
considerable proportion of the surface of the silo.

Covering the Silage. — Various methods have
been adopted of covering the silo to preserve the
silage on and near the surface. They include the fol-
lowing:— i, Covering with old ha.y or straw in the
cut or uncut form to the depth of from one to several
feet. 2, Covering with some kind of cloth through
which the air does not easily penetrate, and then
placing over this a layer of hay or straw as men-
tioned above. 3, Covering with boards generally
laid over a covering of straw and then weighting the
boards with some heavy substance as stone or barrels
filled with earth. 4, Sowing some kind of grain
over the surface of the silage and then pouring or
sprinkling water over it copiously so as to cover the
mass with a dense growth of grain and grain roots.

The first method furnishes a cheap covering so
far as material is concerned. Old hay fine in
character such as is found in fence corners where
blue grass has possession, makes a better covering
than hay coarse in character, or than straw, since it
lies more densely upon the silage. When either of
the two last named substances is used it ought to
be run through a cutting box. The tramping of the
covering should also be given careful attention. And
if a few buckets of water are at the same time thrown
over the mass, it will help to exclude the air more
perfectly.

The second method will probably preserve more
silage than the first, but the covering thus provided

346 SOILING CROPS AND THE SILO.

is more costly. Whether the advantage will repay
the additional outlay has not yet been proved.

The third method, thought at one time to be
absolutely essential, has been almost entirely dis-
carded, not because of its want of efficacy so much as
because of the labor involved. The benefits derived
from it are greater when some covering is put on as
described above, before the planks are laid over the
food and weighted with stone or indeed any other
heavy substance. The advantage from thus weight-
ing the silage will be lessened by giving much tramp-
ing to the food as the filling of the silo nears
completion. No doubt there will be less waste of
silage when food in the silo is thus covered and
weighted. The saving thus effected in the silage will
be more than is generally supposed, because of the
salutary influence which the weighting exerts on the
silage for some distance from the surface, even
though it may not have lost its color. But as stated
above, the practice is not in favor because of the cost
involved.

The plan of covering silage by strewing grain,
as oats for instance, over the top of the same, and
then pouring water more or less copiously over the
mass, is a good one. The heat engendered in the
silo starts at once a rank growth in the grain. The
growth of top and root become so dense as to go far
toward excluding the air. And when the living
mass falls down and decays, the influence exerted,
for some time at least, is practically the same, hence
there is usually but little loss in the silage. This
plan has the merit of cheapness, of economy in labor
required and of efficacy in a marked degree.

FILLING THE SILO. 347

But it should not be forgotten that by whatso-
ever method the silage is covered, there will be more
or less of loss. Because of this, some silo owners
have adopted the practice of not covering the silage
at all. They argue that the greater waste of silage
that follows is at least offset by the labor involved in
covering the silage. This may be- true of the
more laborious methods adopted, as by weighting,
but it is scarcely true when the comparison is made
between no covering and covering with a growth of
grain. To leave silage thus uncovered would only
be commendable when the feeding of the silage is to
begin at once.

Preserving Green Crops Without the Silo. —
Crops are sometimes preserved in the green form
without a silo. They are thus preserved in the stack
and also under cover in the mow. The principle of
preservation however is the same. Through the
partial fermentation which the food undergoes, the
air in the mass is expelled and through pressure
induced by the green condition of the food, the air
is kept excluded. This pressure is sometimes fur-
ther increased by artificial means in some instances
while the food is being deposited and in other in-
stances subsequently. When food is thus stored the
stack and also the mow becomes in a sense a silo.

Curing green food in the stack is somewhat
common in Great Britain, while the green food is
being stacked heavy rollers are made to run over the
green mass from time to time, or pressure is other-
wise applied, and the food is thus preserved. While
the practice may be a good one for farmers to adopt
in countries with much rain in harvest, and where

SOILING CROPS AND THE SILO.

the winter climate is mild, it is at least questionable
as to whether it ought to be introduced into locali-
ties where green crops can be cured in the dry form
without much hazard. When the cold in winter is
severe, the frost would penetrate more or less into
the exposed surfaces and bind them together so as to
interfere with handling the food at such times. The
work of stacking the food in the green condition is
also more or less laborious; nor is the green food
when thus cured as easily handled as dry food. The
possibility however of curing food thus is not to be
called in question. Thus far, therefore, the way is
prepared for those who care to do so, to follow such
a system.

The method of preserving food under cover in
the green form and yet not in a silo, has met with
some favor in the United States, but only in limited
areas. When thus preserved, it has been in mows
or sheds, and tramped down during the filling pro-
cess. Green clover has thus been preserved in some
of the northern states. In the central and southern
states cowpeas and soy beans have also been stored
thus with success. And more recently reports have
appeared in which it is claimed that sorghum may
similarly be preserved.

That such crops as clover, cowpeas and soy
beans may thus be preserved cannot be called in ques-
tion and yet there is an element of hazard about their
preservation by this method that should lead the
unskilled in such work to refrain from undertaking
it, until they have first made themselves familiar
with the conditions that govern the successful curing
of those crops in the green form in the mow. The

FILLING THE SILO. 349

degree of moisture in the crops, the amount of the
tramping that should be given, and the size of the
mow are all important considerations. Clover is
commonly allowed to wilt a little before being thus
stored and the same is true of cowpeas and soy
beans. Some authorities claim that the wilting
should be continued until it is no longer possible to
wring much water out of the green mass. Much
tramping is also considered advantageous, and a deep
mow is preferable to a shallow one. Likewise outer
walls smooth on the inside are more favorable to the
settling of the food than those with horizontal tim-
bers, as girts, to hinder the proper settling down of
the same. Not a few who have tried to preserve
food thus have signally failed. Closely connected
with such instances of failure is the hazard of loss
to the building as well, through fire produced by
what is termed spontaneous combustion. But since
cowpeas and soy beans are difficult to cure in the
dry form without much loss of leaves, it may be wise
to try and cure them thus, more especially when
there is much hazard from rain.

CHAPTER VII.

FEEDING SILAGE.

When silage has been properly covered in the
silo, the waste from decay on the surface of the same
should not extend downward more than a few
inches. When not covered at all, the spoiled silage
will extend downward at least a foot and in some in-
stances to a distance considerably greater. After
a time, decay belowr the surface practically ceases,
hence subsequently there is but little further loss
from this source, though the opening of the silo
should be delayed for months after it has been filled.
The silage also retains more or less heat for many
months and this is favorable to feeding the same in
cold weather.

When the Feeding May Begin. — The feeding
of silage may be commenced the same day that the
filling of the silo has been completed. When feeding
begins thus early, there is naturally no loss of silage
from decay, providing a considerable quantity of the
silage thus removed from day to day. The Author
has fed silage from the silo in this way and with
results completely satisfactory. But it is not usual
to begin feeding silage so soon after the silo has
been filled, for the reason that other green food can
be had that is more perishable in character.

Feed from the Top Downward. — In feeding
silage it is indispensable that the silo shall be opened

350

FEEDING SILAGE. 351

at the top, and that in all instances the silage shall
be fed from the top downwards. When silos were
first introduced into America, the egregious mistake
was made of opening them at or near the bottom.
When thus opened the air is admitted so as to
penetrate upwards more or less into the mass,
and thus hasten its decay. Much of the silage
above falls down from time to time and in such
a loose condition it at once begins to spoil. It
is necessary therefore, under all circumstances, to
feed from the top downwards, but it is not abso-
lutely necessary to feed from the whole surface
of the silo at once. A section only of the
mass of silage may be fed from until it is all
gone, but when silage is thus fed in sections from
the top to the bottom, there is more loss in silage than
when it is fed from the entire surface, except
when the size of the silo is too great for the number
of animals that are being fed from it. This method
of feeding silage therefore is only justifiable,
when the quantity to be fed at one time is too
small to admit of feeding from the whole sur-
face without harm to the exposed portion of the
silage.

No more of the product on the surface should be
loosened up at one time than is wanted for immediate
feeding, as when thus loosened and not soon fed, the
quality of the food deteriorates. But when feeding
from the whole surface of the silo it may be necessary
to remove the silage from only a portion of the sur-
face when providing food to give the stock but one
meal. Another part may be removed to furnish the
next meal.

352 SOILING CROPS AND THE SILO.

Under such conditions it will be decidedly ad-
vantageous to have a covering, as of oiled cotton
cloth, lying over the entire surface of the silo. Such
a covering is not expensive, and it will tend to keep
the silage on the surface in better condition for feed-
ing. When such a covering is used it can be laid
backward only far enough to make bare a sufficient
space to furnish food for feeding at one time. The
cover should be at once put back, and in this way the
feeding progresses. But even when thus managed,
it should be the aim to feed from every part of the
surface, at least as frequently as once in two or
three days. Such a covering will also prove help-
ful in protecting the surface silage from frost in
cold areas, where there may be danger from
such a source.

Feeding from a Port of the 'Surface. — When
the silage is fed from only a part of the surface of
the silo, that is to say, when a section of the mass
only is being fed from, the side of the mass adjacent
to that from which the silage is being fed is thus
gradually exposed to the air. Because of such expo-
sure the silage spoils for some distance in from the
exposed side. The extent of the decay will depend
in some measure on the length of the exposure and
on the compactness of the mass. It will vary from
a few to several inches. Because of this loss, the
plan of feeding silage by this method should be
avoided as far as may be possible. When silage is
thus removed, some sort of hay knife should be used
in cutting down the side of the mass. The surface
exposed will then be smooth and the waste of silage
will be much less in consequence.

FEEDING SILAGE. 353

Because of this waste from feeding silage thus
in sections, it may be better to have one or more par-
titions in the silo. This can be managed easily
enough in a square or oblong silo, but it is practi-
cally impossible in a stave silo, because of the resist-
ance which a partition would offer to the tightening
of the staves sometimes required with a stave silo.
When partitions are used, one section of the silage
can be all fed out before another section is disturbed.
But it should be remembered, as already intimated,
that the greater the number of partitions in a silo
the greater relatively is the loss of spoiled silage
likely to be.

Conveying Silage to the 'Animals. — When the
silo is not close to the place of feeding and when
large quantities of silage are to be fed, it may be nec-
essary to draw the silage in a cart or dray, from
which it can be shoveled into the feed mangers. But
when the silo is near to the place of feeding, the food
can best be conveyed in a box truck or car, a hand
cart or a basket. If conveyed in a truck or car, the
track on which it runs should of course be laid in
the feeding alley in front of the mangers, so that
the silage may be shoveled from the car or truck
into the mangers. When conveyed in a hand cart,
one with three wheels and drawn or pushed by
means of a short tongue is very convenient, since it
may be easily moved from place to place and easily
turned within a limited area. When fed in limited
quantities the silage may be carried in a basket.
When conveyed in a box car, truck or hand cart, the
silage can be thrown directly into one or the other
of these from the silo, A fork with several tines in

23

354 SOILING CROPS AND THE SILO.

it may be used with much effectiveness in lifting
the silage in the silo, and the shorter the lengths to
which the food has been cut, the more readily may
it be removed. None of the silage thrown out of
the silo should be allowed to remain unfed, or it will
at once begin to deteriorate.

Carrying Silage Over to Another Season. — As
previously intimated, it is possible to carry silage
over from one season to another. But it cannot be
thus carried over without some loss. As soon as the
feeding of the silage ceases for the season, decay
begins on the exposed surface and it penetrates the
same to a certain depth, more or less according to
the degree of compactness in the silage. In any
event it will be spoiled to the depth of several inches,
and up to the present time no effective method of
preventing such decay has been discovered, which
is not too costly to justify applying it. But before
the refilling of the silo begins, the spoiled silage
should first be carefully removed.

Adaptation to Different Classes of Animals. —
Although silage may be fed to horses, cattle, sheep
and swine, it is not equally adapted to these various
classes of animals, nor is it equally adapted to the
needs of all animals of the same class. Much
depends upon the age of the animals, the other food
adjuncts that are commonly fed to them and the
precise object or objects for which they are kept. It
furnishes excellent food for colts, brood mares and
horses that are not being worked. Only small quan-
tities should be fed to horses that are being worked
moderately and still less to horses thai are being
severely worked. Like all other green foods it

FEEDING SILAGE. 355

Induces too lax a condition of the bowels when fed in
any considerable quantities to horses that labor
hard.

The best results probably are obtained from
feeding silage to milch cows. Because of its succu-
lence it is favorable to milk production, and when
properly preserved it does not in any way injuriously
affect the quality of the milk. It also furnishes
excellent food for young cattle, store cattle and cattle
that are being finished for beef. But to obtain the
very best results, the silage must be fed with judg-
ment and discretion.

Silage furnishes good food for sheep of all
ages, but in very cold weather caution should be used
as to the extent to which it is fed. When fed freely
at such a time, much of the silage will become cold
before it is consumed, since sheep are usually fed in
sheds in which the temperature within is not far
different from the temperature without. It is not
wise to feed green food in a cold condition at such
a time when such feeding can be avoided. Since
cattle sheds are usually warmer than sheep sheds,
there is not the same objection to feeding silage to
cattle thus protected in severely cold weather.

Silage has not proved a really good food for
swine. It is usually too bulky and is in consequence
not well adapted to the digestive system of swine.
Nevertheless, a little of it may be fed to them with
some advantage. Brood sows and store pigs will
chew over the parts rejected by other stock and will
doubtless get some benefit therefrom. But it is at
least questionable as to whether silage should be fed
in any considerable quantity to hogs that are being

356 SOILING CROPS AND THE SILO,

fattened. Something, however, depends upon the
materials included in the silage.

Quantities of Silage to Feed. — Much difference
of opinion exists as to the quantities of silage that
may be fed with advantage. Some authorities claim
that it may be made the sole food of animals for
weeks and months in succession. That is not the
view of the Author. Much of course will depend
upon the character of the silage. When it has been
well preserved, the silage is not markedly acid, but
it is acid in some degree. Now that is not the con-
dition in which nature provides green food for live
stock, hence it does not seem wise to confine animals
to a diet so acid. To test this question, the Authon
fed steers that were being fattened on silage and
meal for a period averaging about 140 days and
during three successive experiments.

These experiments were conducted at the gov-
ernment experiment station at Guelph, Ontario,
Can. The first experiment began in the autumn
of 1889. Two steers were thus fed each winter.
They were pitted against an equal number of steers
that were fed meal, an average of thirty-three pounds
of corn silage per day and all the cut hay they would
eat in addition. A third lot of two steers were fed
meal, cut hay and field roots. The amount of meal
fed was practically the same in each instance. Of
the six steers that were fed all the silage they would
consume in addition to the meal, two died before the
experiments were completed. The veterinarian of
the station reported that death resulted from serious
derangement in the digestive organs caused by the
acid in the silage. More or less trouble was also

FEEDING SILAG1E. 357

experienced with all the steers confined to the ration
of meal and silage. They occasionally got "off their
feed." The steers fed on the ration of meal, hay
and roots were uniformly healthy and hearty
throughout the experiment. With silage less acid,
the fatal results chronicled might not have occurred.
But since the silage fed was quite as well preserved
as corn silage usually is, the inference would seem
fair that there is an element of danger in feeding
silage in unlimited quantities to farm animals for
months in succession. The full details of these
experiments are given in Bulletins XLIX, LXI and
LXXXII, issued by the aforementioned station.

While it is impossible to state definitely how
much silage may be fed for a prolonged period to
cattle without crossing the danger line, in the judg-
ment of the Author it is questionable if the amount
fed daily to a mature breeding animal of the bovine
species should exceed thirty to forty pounds per day.
Of course for a limited period it may be safe to feed
larger quantities, and it is possible that larger quan-
tities than those named have been fed to breeding
animals for a period somewhat prolonged without
any apparent harm. Nevertheless, the conclusion
would seem fair that there is an element of danger
in feeding silage in unlimited quantities to animals
for months in succession. The most intelligent
feeders concur in this view, and it finds farther
countenance in the craving which domestic animals
manifest for a certain proportion of dry fodder while
silage is being fed to them in large quantities.

Four to five pounds per day may be named as
the maximum amounts to be fed to breeding ewes

358 SOILING CROPS AND THE SILO.

for months in succession, but it is possible, and
indeed, it may be commendable to feed larger quan-
tities for a limited period.

Any kind of fodder that is palatable and well
preserved may be fed along with the silage. But
when practicable the fodder thus given should be
made as far as possible to give the entire ration the
desired balance or equilibrium as to food nutrients.
For instance, when corn silage is being fed, clover
in any of its forms will make a ration more nearly
balanced than would be obtained from feeding dry
fodder, the product of corn, sorghum or any of the
non-saccharine sorghums.

Feeding Grain or Meal with Silage. — Addi-
tional meal is frequently given to animals that are
receiving silage. In all such instances the silage
furnishes an excellent medium with which to feed
the meal. It is the practice with some to mix the
meal with the silage in a feed room before feeding
the mixture. But the extra labor thus involved does
not seem to be necessary, unless when other cut
fodder is also to be mixed with the silage. The
method of placing the silage in the feed manger and
then scattering the meal over it is simpler, and it is
probably quite as efficacious. The animals mix the
food measurably well while in the act of eating it.
When the meal is fed thus, different quantities of the
same or different kinds of meal may be fed as may
be desired to the individual animals. Such varia-
tions in feeding the meal cannot be so well made,
if indeed made at all, when the meal and silage are
mixed in the feed room. When other cut fod-
3er is fed it would probably involve less labor

FEEDING SILAGE. 359

to feed the silage and other fodder separately.
This at least would sometimes be true. In such
instances, the meal should be fed with the other
fodder to induce a greater consumption of the
same. Silage is more appetizing as a rule than
other cut food, especially when the latter is fed in
the dry form, hence it will usually be eaten with
avidity without being admixed with meal. This is
not true of some kinds of dry fodder, nor is it true
probably to the same extent of any kind of fodder.

When feeding meal along with silage, the
amount of grain that the silage may contain should
be considered, and the amount of the meal fed regu-
lated accordingly. For instance, while it may be
necessary to feed ten pounds of silage daily to dairy
cows receiving a large proportion of corn silage
which has little or no grain in it, that amount might
prove excessive when the corn silage contains rela-
tively a large proportion of grain. It is practically
impossible to know exactly the proportion of the
grain which the silage contains, but a sufficiently
approximate estimate may be made by the prac-
ticed feeder.

Attention should also be given to the constitu-
ents of the meal fed so as to balance the ration.
For instance, should the silage contain much of the
seed of the soy bean, it would be proper to add corn,
or some other carbonaceous meal, with much free-
dom. But if, on the other hand, it should contain
much corn and no other grain, it would be in order
to add much bran or other nitrogenous meal.

Feeding 'Silage with Field Roots. — It is not
common to feed silage and field roots together, for

360 SOILING CROPS AND THE SILO.

the reason chiefly that farmers do not commonly
grow both crops to any considerable extent the same
season. In some degree at least these .foods serve
the same end, that is to say, they furnish succulent
food for animals at a season of the year when it
cannot usually be obtained from other sources. Both
are favorable to milk production, and when fed in
moderation both serve as regulators of digestion.
Field roots contain less dry matter, but they are
considered, all in all, a more healthful food than
silage. They are also looked upon as being more
favorable to the robust development of young stock.
But it is commonly believed that the cost of growing
field roots is relatively greater. There does not
seem to be much reason, therefore, for growing both
foods in large quantities. Which of the two should
be given the preference ought to be determined
largely by the more favorable character of the con-
ditions for growing one or the other. When both
are grown, there is no reason why they should not
be fed to the same animals, regulating the quantity
of each accordingly. When both are fed, the plan
of feeding silage in the morning and roots in the
evening, or vice versa, will be found labor-saving as
compared with feeding both twice a day, and the end
sought should be realized as effectively.

When to Feed Silage. — When a large quantity
of silage is being fed it should be given in two feeds
daily, that is to say, morning and evening. When
meal is to be fed twice a day, it may be well also to
feed the silage twice a day, that the silage may be
fed along with the meal as previously intimated.
But when only a small quantity of silage is to be fed

FEEDING SILAGE. 361

and no meal, the result from feeding only once a day
will probably be quite as satisfactory as from feeding
twice. The silage is usually fed before the bulky
food, since the latter is the unlimited factor in
the ration.

Some forethought should be exercised in adjust-
ing the quantities of silage fed to the prospective
needs of the animals. For instance, if the feeder
has been feeding a certain amount of food daily, and
if he has reason to fear that by continuing to feed
thus the supply of silage will fail before the new
grass is plentiful, it would be better to reduce. the
quantity of silage fed daily than to have the silage
fall short before the period indicated. While green
food is always more or less helpful in regulating
digestion when dry food is being fed, it is never
more helpful than toward the approach of spring.
The system of the animals is much prone to become
weakened at such a time, more especially in cold
latitudes, hence the greater need for the adjustment
of the food to the requirements of these under the
conditions just named.

From what has been said it will be evident ; first,
that much has been learned during recent years with
reference to silos and the making of silage ; second,
that when silage is properly cured and fed it is an
economical and health-producing food; and third,
that because of its economy and healthfulness this
mode of preserving food is likely to grow in favor.
Nevertheless, it ought to be borne in mind that many
things are yet to be learned about silos and ensiling
food in the same. The system is yet in the infantile
stage. Many features of the work have not yet been

362 SOILING CROPS AND THE SILO.

fully wrought out, and prominent among these are
the construction of silos that will IDC sufficiently
durable, and the making of good silage with reason-
able certainty from other products than corn.

INDEX

PAGE.

Alfalfa 86

discussion of 86

distribution of 89

soils for 90

place in the rotation for 92

Preparing the soil for 93
i
sowing

fertilizers for 95

sowing 96

cultivation 97

feeding as soiling food 98

for silage 330

Alsike clover 69

for soiling 84

for silage . 330

Antiquity of siloing 248

Artichokes 226

Benefits from growing soiling

crops 6

from siloing crops 258

Brassica genus, plants of the 139-167

introductory remarks 139

rape 139

Cabbage 154

discussion of 154-167

distribution of 157

soils for 157

place in the rotation of 158

preparing the soil for 159

fertilizers for 160

sowing 161

cultivation 164

feeding 165

Cereals (wheat, oats, barley,
and rye)

discussion of 168-182

distribution of 170

soils for 172

place in the rotation for .... 173

preparing the soil for 174

fertilizers for 175

sowing 175

cultivation j 79

feeding as soiling food 179

for silage 332

Clover

discussion of 68-110

medium red 68

mammoth 69

alsike 69

crimson or scarlet 69

•Mfc

Clover— Continued.

alfalfa 86

distribution of 71

soils for 73

place in the rotation for 74

Jreparing the soil for 70
ertilizers for 78

sowing 79

cultivation 84

feeding, as soiling food 84

for silage 330

Common cereals 168-182

Common vetch no-i 18

Corn, Indian or maize

discussion of 19*33

distribution of 21

soils for 21

place in the rotation for 22

preparing the soil for 23

fertilizers for 24

sowing 24

cultivation 29

feeding, as soiling food 30

for silage 323

Cowpea

discussion of 128-138

distribution of 131

soils for 134

place in the rotation for .... 132

preparing the soil for 133

fertilizers for 133

sowing 134

cultivation 136

feeding., as soiling food 136

for silage 327

Crimson or scarlet clover 69

Crops for soiling 3

Crops suitable for the silo

discussion of 322

corn 323

sorghum 325

non-saccharine sorghums .... 327
leguminous plants other than

clover 327

field peas 327

common vetch 327

soy bean 327

cowpea ^ . . . 327

plants of the clover family.. 330
medium red 330

363

INDEX.

PAGE.

Plants of the clover family —
Continued.

mammoth 330

alsike 330

alfalfa 330

millets 331

the common cereals 332

field roots 333

rape 334

sunflowers 335

Dhourra 54

Distribution of silos 266

Ensilage or silage (definition) . . 246
Ensiling or siloing (definition) .248
Facts relating to silo construc-
tion 269

Feeding silage . 350

when it may begin 350

feed from top downward .... 350
feeding from a part of the

surface 352

conveying silage to the animals 353
carrying silage over to an-
other season 354

adaptation to different classes

of animals 354

quantities of silage to feed . . .350
feeding grain or meal with

silage 358

feeding silage with field

roots 359

when to feed silage 360

Field Peas

discussion of 102-110

distribution of 104

soils for 1 04

place in the rotation for .... 105

Ereparing the soil for 105
ertilizers for 106

sowing 1 06

cultivation 108

feeding, as soiling food 109

for silage 327

Field Roots

discussion of 195-204

rutabagas 196

turnips 196

mangels 197

sugar beets 197

carrots 197

distribution of 196

soils for 197

place in the rotation for 198

Sreparing the soil for 199
ertilizers for 200

sowing 200

cultivation 202

feeding, as soiling food .... 203

for silage 333

Filling the silo 336

stage of harvesting crops for
the silo

336

Filling the silo— -Continued.

putting crops into the silo . . . 340
putting the food into the silo . 342
covering the silage 345

Flat pea 220

Grouping states and provinces. . 234

History of siloing 245

Horse Bean

for spiling 213

for silage 329

Japan clover 209

Jerusalem corn 54

Kaffir corn 51

Kale

216

Leguminous plants other than

clover 1 02

for soiling 102

for silage 327

The common vetch

for spiling ." no

for silage 327

The soy bean

for spiling 126

for silage 327

The cowpea

for spiling 136

for silage 327

Lupines 224

Mammoth clover

for soiling 84

for silage 330

Mangels 197

Medium red clover

for spiling 84

for silage 330

Millets

discussion and classification

of . 183-194

distribution of 185

soils for 187

place in the rotation for .... 188

preparing the soil for 189

fertilizers for 190

sowing 191

cultivation 192

feeding as soiling food 193

for silage 331

Milo maize 52

Miscellaneous plants 205-231

white clover 205

sweet clover 207

Japan clover 209

sainfoin 210

trefoil or yellow clover 212

horse bean 213

velvet bean 214

kale 216

sand vetch 217

flat pea 220

white mustard 222

lupine 224

spurry 225

226
226

Daniel W. B. Tracy

INDEX.

PAGE.

Miscellaneous plants — Continued.

sunflower 230

sacaline 230

Mustard, white 222

Non-saccharine sorghums

discussion of 51-67

kaffir corn 51

milo maize 52

dhourra 54

Jerusalem corn 54

teosinte 56

distribution of 58

soils for 6 1

place in the rotation for 62

preparing the soil for 63

fertilizers for 64

sowing 64

cultivation 66

feeding, 'as soiling food 67

for silage 327

Objections to soiling 15

Peas, field 102-1 10

Preserving green crops without

the silo 347

prickly comfrey 226

Rape

discussion of 139-154

distribution of 142

soils for 143

place in the rotation for 144

Preparing the soil for 145
ertilizers for 146

sowing 147

cultivation 149

feeding, as soiling food 150

for silage 334

Rectangular silo 310

introductory remarks 310

foundation 310

sills 311

floor 311

studs 312

inner lining 313

outer lining 314

partitions 315

corners 315

doors 315

roof 316

Red clover, medium 68

Roots field 195-204

Round wooden silo 292

Rutabagas 196

Sacaline 230

Sainfoin 210

Sand vetch 217

Scarlet or crimson clover 69

Silage or ensilage (definition) . . 246
Silo

early 250

modern 251

not always a necessity 265

distribution of 260

division No. i — distribution in 267

PAGE.

Silo — Continued.

division No. 2 — distribution in 267
division No. 3 — distribution in 267
construction, facts relating to.. 269

locating the silo 269

forms of construction 272

size 274

materials used in 277

metals 278

concrete or grout 278

brick 279

stone 279

v/ood 280

foundations 280

floors 281

linings 282

boards 282

cement 283

water lime 283

plaster 284

shingles 284

bricks 284

metals 284

tarred paper 285

preservatives for lining 285

partitions in silos 286

doors in silos 288

roofing silos 288

decay in silos 289

building the silo 292

round wooden silo 292

round frame 293

stave silo 295

rectangular silo 310

stone silo 317

crops suitable for the silo.... 322

filling the silo 336

feeding silage 350

Siloing or ensiling (definition) . .248

Siloing crops, benefits from . . . 258
wholesale harvesting of crops 258
cured in showery weather.. . 259

green food all the year 259

food more palatable 261

economy in storage place . . . 262
economy in labor when feec-

ing 262

practical considerations 263

benefits do not apply equally.. 263
silos not always a necessity . . 265

Siloing, history of 245

plan of the discussion 245

definition of terms 246

ensilage or silage 246

siloing or ensiling 248

siloist 248

antiquity of siloing 248

utilization of the idea 249

the earlier silos 250

the modern silo 251

American progress in siloing.. 253
mistakes made by early siloists 253
literature on the silo 254

Siloist (definition) 248

366

INDEX.

FACE.

Soiling crops, benefits from

growing 6

Soiling crops _ . . . . . 3

adaptation in soiling crops ... 4
partial and complete soiling . . 4
benefits from growing soiling

crops 6

increase in food supplies 6

less waste in feeding 7

sustains animals in better form. 8
inquiry through poaching .... 1 1
influence on weed eradication. . n

saving in land 12

saving in fences 13

saving in fertility 14

increase in animal production.. 14
sustaining the family cow .... 15
some objections to the soiling

system 15

increased outlay for labor .... 15

tax on attendants 17

adjusting food supplies 17

impaired stamina m the stock. . 18

Sorghum

discussion of 34-50

distribution of 37

soils for 38

place in the rotation for 38

Preparing the soil for 39
ertilizers for 41

sowing 42

cultivation 46

feeding, as soiling food 47

for silage 325

Soy bean

discussion of 1 18-128

distribution of 121

soils for 122

place in the rotation for 123

preparing the soil for 124

fertilizers for 124

sowing 124

cultivation 126

feeding as soiling food 126

for silage 327

Spurry . 225

Stave silo 295

foundation 297

floor 299

staves 299

setting up stares 300

FAGS.

Stave silo— Continued.

splicing staves 301

hoops, round 302

flat 304

woven wire 304

doors 305

shute 307

_ roof.. 308

Stone silos 317

form of construction 318

foundation 318

floor 319

walls 319

inner lining 319

outer lining 320

roof 320

doors 321

Succession in soiling crops. .232-242

introductory remarks 232

grouping states and provinces. 234

section No. i — succession in 235
section No. 2 — succession in
section No. 3 — succession in
section No. 4 — succession in

section No. 5 — succession in
section No. 6 — succession in

236
237
238
239
240
240
241

section No. 7 — succession in
section No. 8 — succession in

Sugar beets 197

Sunflowers 230

Sweet clover 207

Teosinte 56

Trefoil or yellow clover 212

Turnips 196

Velvet bean 214

Vetch, the common

discussion of 110-118

distribution of 1 1 1

soils for : 112

place in the rotation for . . . .- 112

Preparing the soil for 113
ertilizers for 113

sowing 114

cultivation 116

feeding, as soiling food 117

for silage 327

Vetch, sand 217

Weeds eradication of, by soiling. . n

White clover 305

White mustard 222

Yellow clover or trefoil an

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