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THE STORY OF MILK

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THE STORY OF MILK ^

BY
JOHAN D. FREDERIKSEN

GRADUATE OF THE ROYAL DANISH AGRICULTURAL COLLEGE, AUTHOR
OF "cheese MAKING IN AMERICA" (iN DANISH), "CREAM-
ING MILK BY CENTRIFUGAL FORCE," ETC., GENERAL
MANAGER OF CHR. HANSEN's LABORATORY, MANU-
FACTURERS OF DAIRY AND MILK FOOD PREP-
ARATIONS, LITTLE FALLS, N. Y.

Npui f nrk
THE MACMILLAN COMPANY

1919

All rights reserved

f^

Copyright, 1919

By the MACMILLAN COMPANY

Set up and electrotyped. Published September, 1919

TABLE OF CONTENTS

HISTORICAL
Chapter I

PAGE

Production, Composition and Characteristics of Milk . .

Milk Ferments

Pasteurization

Dairy Cattle

Milk Breeds

Beef Cattle 4

Food and Water 5

The Barn 9

Milking 10

Test the Cows 11

Healthy Cows 12

Composition of Milk 13

Butter-fat 13

Casein and Albumen 14

Milk Sugar 14

Mineral Matters 15

How to Test Milk 15

The Babcock Test 16

Sampling 17

The Lactometer 18

Acidity Test 19

Ferments 20

Enzymes 21

Rennet 20

Pepsin 21

VI TABLE OF CONTENTS

PAGE

Bacteria 21

Lactic Acid Bacilli 21

The Control of Bacteria 22

Cleanliness 22

Heat. . . 22

Cooling 22

Disinfectants 25

Pasteurization 25

Pure Cultures 30

Starters 32

Chapter II

Milk Supply and Creamery Products 35

Milk Supply 35

Bovine Tuberculosis 35

Milk as a Disease Carrier 36

Bacteria Count 36

Certified Milk 36

The Sanitary Code 38

New York State Milk Grading 38

^ Q\iy Delivery 39

v^Milk Stations 41.

Skim Milk 44

Cream 44

The Separator 46

Percentage of Butter-fat 48

Standardizing Cream 48

Pasteurized Cream 49

Whipped Cream 49

Emulsified Cream 50

Ice Cream 52

Freezers 52

Classification of lee Cream 56

Ice Cream Recipes 56

TABLE OF CONTENTS VU

PAGE

Butter . 69

Dairy Butter 70

Centrifugal Creaming 70

Co-operative Creameries 70

Ripening the Cream 71

Coloring 74

Churning 75

Working 78

Salting 79

Composition 79

Overrun 79

Packing 79

Sweet Butter 79

Renovated Butter 80

Oleomargarine 80

Coco-Butter * 80

Buttermilk 80

Cooling Essential 81

Commercial Buttermilk 81

Ripening 82

Breaking up the Curd 82

Thick Milk 82

Yoghourt 83

Fermented Milk 83

Koumis 83

Kefir 85

Chapter III

Cheese 86

Cheddar Cheese 89

The Factory System 90

Ripening the IMilk 90

Coloring and Setting with Rennet 92

Cutting the Curd 94

Vlll TABLE OF CONTENTS

PAGE

"Cooking" 94

Matting 95

Salting 97

Pressing 97

Curing 97

Fomi, size and packing 98

Cleaning the vats 101

Yield 102

Composition 102

Qualities , 103

Cheese Made from Pasteurized Milk 103

Making Cheddar Cheese on the Farm 104

Other Types of Hard Cheese Ill

Gouda 112

Edam .* 112

S^\iss 115

Roquefort 120

Parmesan 123

Caccio Cavallo . 124

Limburger 125

Brick 125

Munster 126

Soft Rennet Cheese 126

Neufchatel 126

Cream Cheese 127

Cured Soft Cheese 128

French Soft Cheese 128

Cottage Cheese 129

Making Cottage Cheese with Rennet 132

Snappy Cheese 134

Club Cheese 134 .

Whey Cheese 134

Milk Sugar 135

TABLE OF CONTENTS IX

PAGE

Casein 135

Milk Powder 136

Just-Hatmaker Prof;ess 136

Eckenberg Process 136

Merrell-Soule Process 136

Economic Process 136

Skim IMilk Powder 136

Whole Milk Powder 136

Condensed and Evaporated Milk 137

Whey 138

Chapter IV

Milk as a Food 139

Nutrients 139

Protein 139

Fats and Carl:)ohydrates 139

Mineral Matters 140

■ Relation 140

Nutritive Ratio 140

Calories 141

Fallacy of Theoretical ^'aluation 143

"Something Unknown" 143

Care of Milk in the House 145

Keep the Milk Cool 145

Top Milk 146

Milk for Infants 148

Modifying Milk 148

Recipes for Infant Food 149

Milk for Groiving Children 152

Chapter V

Milk Cookery 154

Soups = 155

X TABLE OF CONTENTS

PAGE

Cream Soups 155

Cereal Cream Soups 157

Milk Chowders 158

Milk Stews 158

Milk Cereals 159

Luncheon and Supper Dishes 159

Creamed Dishes 160

Souffles 161

Cheese Foiidu 161

Milk Toast 162

Cheese Dishes as Meat Substitutes 162

Cheese Salads 166

Cottage Cheese 167

Milk Breads and Biscuits , 170

Desserts 172

Junkets 179

Milk Beverages 181

Miscellaneous Suggestions 184

The Thermometer 184

Weights and Measures . 185

Bibliography 187

INTRODUCTION

The conception of this ''Story of Milk" dates many
years back. In his Hfe-long study of problems con-
nected with dairy farming and milk industries in two
of the world's greatest dairy countries, Denmark and
the United States, the author has felt the need of a
concise handbook covering this interesting subject. In
his forty years of work in the manufacture and dis-
tribution of dairy and milk-food preparations he has
been brought constantly into contact with men and
women interested in the production of milk and has
found a persistent demand for a book that might be
consulted by anybody in regard to questions related to
these greatest of all foods, which are, or ought to be,
a most important part of the daily diet of children and
adults alike, at all times, everywhere.

There was a time during the war when, frightened
by the soaring of the price which had remained re-
markably low for many years, much too low in fact
compared with the cost of other food, people began to
cut down the consumption of milk to an alarming
extent. Even the National Food Administration for
a short time recommended saving in the ^\Tong place,
forgetting that, at the highest figures reached during
the temporary shortage, milk was still one of the cheap-
est of foods and that it was absolutely indispensable
for growing children and exceedingly beneficial for men
and women who were called upon to exercise their
physical and mental powers as never before. But with

Xii INTRODUCTION

men like Dean Russell of the Wisconsin Agricultural
College in the Department and Dr. Graham Lusk
of Cornell University representing the United States
on the Inter-Allied Council of Alimentation, the Food
Administration could not long maintain this mistaken
attitude but quickly joined the College authorities and
the representatives of the dairy industry in advocating
a liberal use of milk. And the Department of Agri-
culture sent out over the country a large force of dem-
onstrators to show the people how to use milk in making
cottage cheese and many other ways, and Agricultural
Colleges, Farm Bureaus and Home Economics Agents
worked hand in hand with Washington in disseminating
the knowledge of handling and utilizing milk.

A genuine interest has been aroused in our country in
the economy and conservation of food, and in ''The
Story of Milk" the author hopes to place at the dis-
posal of the student of Domestic Science a compre-
hensive book of reference which may open the eyes of
many to the fact that there is no more interesting sub-
ject than ''Milk" in connection with the study of the
welfare and physical improvement of humanity, and
that milk and its products should be used to a much
greater extent than heretofore.

It would make a long list of references if the author
should mention the sources on which he has drawn for
information beyond his own life-long experience in the
dairy and related industries. He desires to express his
sincere appreciation of the kindness and ready response
of institutions and friends to whom he has appealed
for photographs and cuts which have enabled him to
illustrate the text so liberally. In the back of the book
will be found a brief bibliography of standard dairy

INTRODUCTION xiii

literature in which students may find material for
further information.

Man}^ interesting data and several excellent illustra-
tions have been obtained from the bulletins and collec-
tions of the Department of Agriculture in Washington
and the Dairy Schools at Ithaca, N. Y., Madison, Wis.,
and Ames, la.

The Chapter on Milk Cookery was written and classi-
fied by the author's wife, whose practical experience
will make it useful alike to housekeepers and students
of Domestic Science.

J. D. Frederiksen.
Little Falls, N. Y.,

April, 1919.

HISTORICAL

Milk and its products have been known and used from
time immemorial. In the Bible milk and milk foods
are mentioned in some thirty places. In Gen. 18:8 we
read: '\ . . and he (Abraham's servant) took butter
and milk and set it before them . . ."; 1 Sam. 17:28:
''And Jesse said unto David^ his son: . . . bring these
ten cheeses unto the captain of their thousand and look
how thy brethren fare . . .''; Prov. 30:33: ''For the
churning of milk bringeth forth butter," etc.

Though in some of these passages butter is mentioned
it is hardly probably that this product was really made
or used at the time under the climatic conditions in
Palestine. More likely it was various kinds of curd
and cheese which the translator called butter. At any
rate, the Hebrews of that far-off day coveted milk and
its products among their most valued foods. From
Egyptian, Greek and Roman history it appears that
knowledge of cheese goes back to the most ancient
times and that it was made from the milk of sheep,
goats, cows, asses, mares, in fact from all domestic
animals; in the far North, Lapps and Eskimos still
make it from the milk of the reindeer, the Arabs use
camel's milk, Llama cheese is famous in the Cordilleras
and Zebu cheese in Ceylon and India.

Even in ancient times the great food value of dairy
products was recognized. Plinius tells of Zoroaster that
for twenty years he lived exclusively on cheese, and
Plutarch calls cheese one of the most nourishing of foods.

As time went by, the cow excelled all other domestic

XVI

HISTORICAL

animals in capacity for the production of milk and by
constant use through centuries for the one special pur-
pose,— by care in feeding, breeding and selection, —

(From Maelkeritidende, Copenhagen)

special breeds of cattle were developed which gave milk
in extraordinarily large quantities.

In the cold climate of the northern countries where
butter will keep for a long time it has been made for
centuries. The illustration above is from a mural paint-
ing in an old church in Finland. Evidently at the time
when that was built the devil already played havoc
with the churn and even up to the days of our grand-
fathers his Satanic Majesty was often accused of pre-
venting the butter from '' coming."

HISTORICAL

XVII

Not until the middle of the nineteenth century did
dairying take its place among the important industries
of the world and science begin to be applied in its de-
velopment. Between 1860 and 1870 Thomas R.
Segelcke, the '^ Father of Scientific Dairying" in Den-
mark, introduced the thermometer in churning instead
of the rule of thumb and started the keeping of records
in the manufacture of butter. N. J. Fjord started a

Thomas R. Segelcke,
father of scientific
dairying in Denmark

L. B. Arnold, noted
dairy expert and writer,
of Herkimer County,

N. Y.

series of experiments in the creameries, continued
through the next decades, and which became models
for similar work throughout the world, covering pas-
teurization, ice houses and cold storage, comparison
between various systems for raising the cream, separa-
tors, feeding rations, etc., and Denmark developed its
agriculture and dairy industry to an enviable position.
About the same time Dr. Schatzman applied scientific
methods in cheese making in Switzerland and Jesse
Williams started the first American cheese factory near
Rome, N. Y., while L. B. Arnold, X. A. Willard, Harris

XVlll HISTORICAL

Lewis, Harry Burrell and many other progressive dairy-
men made Herkimer County cheese famous.

From New York, dairy farming spread rapidly west-
ward through Ohio to Michigan and Northern lUinois,
where butter making was developed around Elgin, and
to Wisconsin, where Governor Hoard preached the
gospel of progress, Babcock invented and gave to the

J. H. Monrad, the Governor W. D. J. A. Ruddick, Dairy
" Pen and Ink " butter- Hoard, of Wisconsin, Commissioner of
maker of New York promotor of progressive Canada
Produce Review methods of dairying,

world the famous test that bears his name and Russell
made a specialty of dairy bacteriology.

J. H. Monrad, Assistant Dairy Commissioner of
Illinois, student, writer and lecturer on dairy sub-
jects, collected and indexed one of the most com-
plete and valuable libraries of dairy literature found
anywhere, which after his death in 1915 was taken
over and installed in special rooms by Chr. Han-
sen's Laboratorium in Copenhagen, where a librarian
is keeping it up to date and it is open to the public.

In Canada, Dairy Commissioners Jas. W. Robertson
and J. A. Ruddick, D. M. McPherson, the ''Cheese

HISTORICAL Xix

King," and others contributed to an enormous develop-
ment of the manufacture of high class cheese, and
in New Zealand and Australia similar progress was
made.

Business and science have vied with each other in in-
creasing the output of dairy products and improving
their quality. In the table below, showing estimates
for 1917, some interesting figures are given of the
amount of milk produced in the United States and the
uses to which it is applied.*

Uses to which milk is put (calculations based on estimates)

Item Lbs. of Milk Per Cent

Product of 22,768,000 cows at 3,716 lbs.

per an 84,611,350,000

Disposition of milk product:

1,650,000,000 lbs. of butter (at 21 lbs. milk). . 34,663,850,000 41 . 0
420,000,000 lbs. of cheese (at 10 lbs. milk).. 4,200,000,000 5.0
975,000,000 lbs. of condensed milk (at 2^ lbs.

milk) 2,437,500,000 2.9

210,000,000 gals, of ice cream (weighing 6

lbs. to the gallon, 10 % fat) 3,150,000,000 3 . 7

100,000,000 persons; 45 % at 0.7 lb . a day

(cities) farms with dairy cows, 30 %,

1.5 lbs. per day; other farms and small

towns, 25 %, 1 ib. a day, approximately. 36,500,000,000 43 . 1

17,500,000 calves, whole milk (estimated)

requirement 3,660,000,000 4.3

Total 84,611,350,000 100.0

* From circular No. 85 of a series of statements prepared under the
direction of the Secretary of Agriculture, covering the agricultural
situation for 1918.

XX HISTORICAL

Although the table accounts for all the milk pro-
duced, it does not tell the whole story, since the prep-
aration of a number of products results in the formation
of vast quantities of by-products that are not used to
the fullest advantage for human food.

New York City alone consumes 1,600,000 quarts of
milk a day, but even this enormous quantity means
only 0.6 pint per capita. The consuming public has
been slow to realize the value of milk and its products,
and too much emphasis cannot be laid upon the fact
that even at the largely increased cost of all dairy
products they are still some of the cheapest and the
most healthful of foods, especially for growing children,
and should be used in much larger quantities.

THE STORY OF MILK

THE STORY OF MILK

CHAPTER I

Production, Composition and Characteristics of
Milk, Milk Ferments, Pasteurization

DAIRY cattle

A number of t>T3ical but widely different breeds of
dairy cows have been developed in various dairy coun-
tries, each owing to the soil and the climatic conditions
of its home, as well as to the skill and fancy of the
breeders, its characteristic features, form, color, etc.

Milk-Breeds. — The black and white Holstein-Friesians
(which, by the way, had their home in Holland and not
in Holstein) are known for
their large production of
not very rich milk, while
the Guernseys and Jer-
seys give milk exceed-
ingly rich in butter-fat.
A good Holstein cow will
give from 7,000 to 10,000
lbs. of milk in a year, Holstein

containing from 33^% to 4% butter-fat. Some of them
produce as much as 20,000 to 30,000 lbs. in a year —
nearly 4,000 gallons — just think of it ! Jersey cows will
usually not produce as much in quantity as the Hol-
steins but Jersey milk often contains 5% or 6% or more

1

PRODUCTION, COMPOSITION AND CHARACTERISTICS 3

butter-fat, and a few of the best haxe been knowTi to
produce 800 to 900 lbs. of butter in one year, an amount
equal to the cow's own
weight. The red Danish
cow is an exceedingly good
and highly bred milk pro-
ducer which, however, has
not been introduced in
the United States, but the
Scotch Ayrshires and the
Brown Swiss are other
well-known dairy breeds
which are in favor with many American farmers.

\»W^Sa»BL>cJR^.!^^

( iucrnscv

Jersey cows

THE STORY OF MILK

Red Danish

But, alas! too many herds of dairy cattle average less
than 5,000 lbs. of milk per cow per year and do not

pay for their feed.

Many native cows re-
spond, however, to good
care and feed and with
a thoroughbred bull a
satisfactory herd can
readily be built up from
carefully selected native
stock. Such continued
cross-breeding is more apt to succeed than attempts to
cross two thorough- bred
breeds because the char-
acteristic features in
full blooded animals are
so strong as to in-
variably predominate in
the progeny over the
less pronounced forms
and tendencies inherent
in native cows. But
where two full-blooded
animals are mated and

the

Shorthorn, beef-strain

Ayrshire

strong characteristics in
each are fighting for
predominance the result
is apt to be a poor, ill-
proportioned ofTspring
as the result of atavism.
Beef-Cattle.— Cattle
bred and developed for
the purpose of pro-
ducing beef rather than

PRODUCTION, COMPOSITION AND CHARACTERISTICS 5

milk are called by contrast beef-cattle. As examples of

beef-cows look at the Shorthorns or the Herefords or the

Polled Angus at the next State Fair you visit and notice

the square, deep, smooth body with muscles and fat

strongly developed in

contrast to the loosely

built, bony milk-cow

with its tendency to

turn all its food into

milk at the expense of

the body. There are,

however, also among

the Shorthorns, strains

p 1 .„ I , hhorthorn, milk-strain

ot good milkers, but as

a rule these beef-breeds are not selected for the dairy
farm, and ''dual purpose'' cows are not usually profit-
able.

Food and Water. — The natural food for the dairy
cow in summer is grass, and where rich, succulent grass
and clover grow in abundance, as on the fertile meadows
of Holland and the Channel Islands, or the Swiss Alps,
the highly cultivated Danish farms, the eastern and
middle-western states of America, etc., dairying early
reached its highest development. As the value of milk
and its products for human food became more gener-
ally recognized and all-the-year-round production was
forced, it was found necessary to feed the cows heavily
in winter too, not only hay, but also grain and succulent
food such as beets and corn-ensilage (green corn cut,
stalks, cobs and all, and packed in a silo), and science
was taken into play to formulate Balanced Rations con-
taining the proper amounts and proportions of the va-
rious nutrients — Protein, Fat and Carbohydrates. It

-73

03

PRODUCTION, COMPOSITION AND CHARACTERISTICS 7

is not the place here to go deeper into this problem
which has long been a subject for thorough research
and experiments. In fact, more attention has been
paid to the feeding of cattle than to the proper nourish-
ment of human beings, and much of what we know
about the latter has been deducted from experience
and study on the dairy farm, and from laboratory work
along that line. In the chapter on ''Milk as a Food"
we are taking up food values, etc., in relation to the
feeding of children and men. Suffice it here to say
that the same fundamental principles apply to the feed-
ing of calves and cattle for the production of milk and
beef. And we wish to emphasize the fact that, with
due consideration to the proper proportion between the
various groups of nutrients, it is much more important
that the food is succulent, appetizing and easily digest-
ible than that the ration shall be accurately balanced.

This fact, long well known to practical breeders and
dairymen, has recently been confirmed by Dr. E. V.
McCullom to whose experiments further reference is
made in the chapter on milk as a food for children. He
shows that there is a \'ery great difference in the quality
of Protein and Fat from various sources and that there
is ''Something Unknown" in butter-fat, for instance,
which is absent in most other fats and which is vital
for the growth of the child as well as for the proper
nourishment of man. This unknown but essential sub-
stance is also found, in small quantities, in the leaves
of certain plants, as in alfalfa, while it is absent in the
grain of the cereals.

In modern dairy farming alfalfa is considered an in-
dispensable source for protein, and corn-ensilage or beets
for carbohydrates, while bran, cottonseed meal or oil

faf

PRODUCTION, COMPOSITION AND CHARACTERISTICS 9

cake, malt-sprouts, gluten, distillers' grain, etc., may-
be used to advantage in various combinations.

Contrary to a general impression one cannot feed fat
into the milk. A large amount of oil cake or other food
rich in fat in the daily ration does not increase the per-
centage of butter-fat in the milk. Rather, it depends
largely upon the breed and to some extent upon the
period of lactation. Provided the food agrees with her
digestion and keeps the cow in a good, healthy condi-

Cows milked with machine

tion, the composition of the milk is not changed to any
appreciable extent by a change in make-up of the food.

It goes without saying that to produce from 20 to 50
lbs. of milk a day the cow must have an abundance of
fresh, pure water to drink and she should not have access
to stagnant water.

The Barn must be clean, light and well ventilated and
the cows should be milked with clean hands into a clean
pail which is covered as far as possible so as to prevent
dust from falling into the milk, or with one of the
excellent milking machines which are now frequently
used in large dairies. The milk is strained and cooled
immediately after milking.

10

THE STORY OF MILK

Milking. — The cows are usually milked twice a day;
occasionally, when the highest possible yield is desired,
as in important tests, three or four times. The first
^ve days after the birth of the calf the milk, — the

Colostrum so called, — is not
normal and should not be used
for human consumption. It
may be fed to the calf. The
first three to four months the
yield of milk generally is
higher than later, when it
gradually drops until after
about ten months it stops al-
together and the cow goes
''dry" at least for some six
weeks before dropping the
next calf. The highest annual
yield may be obtained by having the cows ''come in"
in the Fall or early Winter and feeding them well all
Winter to keep up
an abundant flow of
milk. Then, when
they come out on
pasture in the
Spring, — in the lati-
tude of the Great
Lakes about May
15th, — the fresh,
rich feed will stimu-
late production arid
give it a fresh start
so that the milk-pail may continue to be filled during
the next few months and the shrinkage of the yield will

Milking machine

In the partly covered milk-pail dust does not
fall as readily as in the one entirely open

PRODUCTION, COMPOSITION AND CHARACTERISTICS 11

not occur until the time when the pastures dry up.
The cow will then go dry in the early Fall, when feed
is scarce. Usually, however, the cows are allowed to
^'coine in" in the Spring and the yield of milk begins

Milking on a Danish farm

to shrink in the late Summer with little or nothing
in the Winter.

Test the Cows. — To ascertain if a cow pays for her
feed the amount and the quality of the milk should
be tested and computed for the year. If the milk from
each cow cannot be weighed every day it may be done
regularly once a month or preferably oftener. If it is
weighed morning and evening once every ten days it
is easy to keep the account by multiplying the number

12 THE STORY OF MILK

of pounds by ten and adding the totals for the year.
Occasionally the milk may be subjected to tHe Babcock
Test to ascertain its richness ; three or four times during
the period of lactation is sufficient.

Where farmers do not have time to do the test-
ing themselves they often combine and hire a young
man or woman, trained in an agricultural college, to
go around from farm to farm and do the work. These
experts not only test the yield and the percentage of
fat but also weigh and compute the feed so as to help
the farmer make up his rations and calculate whether
each cow pays for her feed or not. The members of
these associations meet and compare notes and a
friendly rivalry is stimulated which may do much
toward increasing production. As a matter of fact,
where Cow Test Associations have been introduced,
both yield and quality of the milk have been largely
increased.

Healthy Cows alone can be depended upon to pro-
duce sanitary milk. In many herds of milk-cows tuber-
culosis is prevalent, and constant vigilance is necessary
to prevent its spread. The Tuberculin Test discovered
by Koch is invaluable for the purpose of ascertaining
the presence of tuberculosis. It is not necessary, how-
ever, to kill every infected animal. Only where the
lungs or the udder is affected and a physical exam-
ination shows an advanced stage of the disease such
radical means are advisable. When the tuberculin test
was first introduced many valuable herds were wantonly
and foolishly killed off because some of the highly de-
veloped dairy cows showed reaction to the test while
worthless scrubs were allowed to live and spread the
disease. For only the intelligent and public-spirited

PRODUCTION, COMPOSITION AND CHARACTERISTICS 13

o^^Tlers of fine herds submitted their
cows to the test, a reaction to which,
under ill-advised regulations, per-
mitted state officials to condemn the
infected herds. In Denmark Dr.
Bernhard Bang introduced a sys-
tem of isolation of the infected
animals which together with Com-
pulsory Pasteurization of the milk
from such cows has proved efficient j^^. B^^^rd Bang
for the eradication of tuberculosis, of Copenhagen, Den-
and the Bang Method is now gen- i^ark
erally recognized as the proper way of handling the
matter.

COMPOSITION OF COW's MILK
Cow's milk contains on an average in 100 lbs. :

87 lbs. of water

4 '' '' butter-fat

334 " " casein and albumin (protein)

5 '' " milk sugar

^ " " ash (mineral matter)

100 lbs. total.

It consists therefore of 87% water and 13% ''solids,^'
4 of which are fat and 9, '^ solids — not fat."

Butter-Fat is found in milk in the form of minute
globules suspended in the liquid. As fat or oil is lighter
than water (has less specific gravity) it naturally floats
and the fat globules therefore soon rise to the top when
milk stands at rest, forming a layer of cream which
may be skimmed off from the milk. In chemical com-
position butter-fat is very nearly the same as other

14

THE STORY OF MILK

SOUJJS W9T FAT
TOTAL SOLIDS

Composition of
cow's milk

MINERAL MATTER
MILK SUGAR

animal and vege-
table fats, but the
CASEIN 8. ALBUMIN- sHght Variation
BUTTER FAT may make a lot
of difference in digestibility
and palatability as well as in
nutritive value, ' and it is a mistake to consider

Oleomargarine, Butterine, Nut-Butter and

other substi- tutes for butter ''just as good"

because a I chemical analysis shows them

to contain ''al- most" the same elements

or compounds. These products may be good

and legitimate if sold for what they are, but

should never 0^ be allowed to be sold or served
for what they [^ are not, genuine butter.

Casein and ^ Albumin are the proteids or
nitrogenous ^ matters of the milk, in chemical
composition ^ and in food value much the
same as the protein in beans and peas or

in meat, or the white of eggs. Casein is present

in much larger quantity than albumin and is

distinguished from the latter by being pre-

cipitated b y rennet, which has no effect on

albumin. Ca- sein may also be precipitated by

acids, while it requires boiling as well as acid-

ity to throw the albumin out of solution.

Milk-Sugar is related to the vegetable sugars,

glucose, cane sugar, etc., and remains in solu-

tion in the whey which separates out from

the cheese-curd | | when milk is curdled with ren-
net or acids. The whey also contains the mineral
matters or ash, which consists largely of phosphate
of lime, of use to the young in building up bones.

PRODUCTION, COMPOSITION AND CHARACTERISTICS 15

When whey is boiled down to a thick syrup and
left to stand, the sugar will crystallize out and may

Cream

Whole milk

Skim milk

Fat globules as they appear under the microscope

be separated from the liquid, still holding in solution
the mineral matters.

Mineral Matters. — These may be gathered as ash
by boiling off the water from this liquid or from the
whole milk and burning the rest, as all the constituents
except the ash belong to what in
chemistry is called organic matter,
which disappears in the air by burn-
ing.

HOW TO TEST MILK

Milk may be adulterated or de-
creased in value either by skimming
or by watering. In either case the
percentage of the most valuable con-
stituent, the butter-fat, is dimin-
ished. It is upon this fact that the most practical
test, the Babcock, is based.

Dr. S. M. Babcock of
Madison, Wis.

16

THE STORY OF MILK

The Babcock Test.* — By treating a sample of milk
with strong sulphuric acid the butter-fat is liberated as

Babcock test outfit

an oil. By subjecting the mixture to centrifugal force
the light butter oil is separated from the rest of the

* The Babcock Test is operated as follows: When the milk has been
thoroughly mixed and a true sample has been taken the pipette is filled
to the mark by sucking the milk into it until it stands a little above the
mark on the stem, then quickly placing a dry finger over the end of
the pipette and allowing the milk to escape until it just reaches the mark.
The quantity thus measured off is 17.6 c.c. The pipette is then emptied
into the test bottle by placing the point in the neck and allowing the milk
to flow slowly down the inside of the neck, taking care not to lose any
of the milk. Blow the last drops out of the pipette into the bottle.

The measuring glass, holding 17.5 c.c, is filled to the mark with
sulphuric acid of a specific gravity of 1.82 to 1.83 and this is poured into

PRODUCTION, COMPOSITION AND CHARACTERISTICS 17

milk and the percentage can be easily determined.
Centrifugal force had already been used in the Fjord
Cream Test, but it remained for Dr.
Babcock to work out the splendid
practical and reliable test which bears
his name and in which he has given
to the world an invention of incal-
culable value.

Sampling. — Whether it is new milk ^ ^ , _,
, . .„ , „, A two-bottle machine

or skim milk or buttermilk or cream

that is to be tested the first thing to observe is to take
a truly representative sample. The liquid must be thor-
oughly mixed by pouring it several times from one ves-
sel to another, or stirring vigorously.

the milk in the test bottle. The acid is a strong poison and must be
handled with care. Pour it slowly down along the wall of the bottle
which is held at an angle and turned slowly during the operation.

Now give the bottle a rotary motion to thoroughly mix the milk
and the acid, shaking vigorously towards the end of the operation so
as to be sure not to leave any of the acid which is heavier than the milk
at the bottom of the bottle.

Whirling. — The bottles are then placed in the centrifugal machine
and whirled for five minutes at the proper speed — from 600 to 1 200
revolutions per minute — according to the diameter of the machine
and as stated in the directions which come with the tester. The mix-
ture of milk and acid is hot enough if the whirling is done at once, but
if it is allowed to cool the bottles should be placed in hot water of 150
to 170° for about 15 minutes; whirhng at full speed for 4 minutes brings
all the fat to the top.

Hot water is now added until the bottle is filled almost to the scale
on the neck and the bottles are again placed in the machine and whirled
at full speed for one minute. Hot water is then again added until
the lower end of the fat column is within the scale, preferably at the
1% or 2% mark on the neck of the bottle. Whirl once more for
one or two minutes and then read off the percentage of fat on the scale.
Each division represents 0.2% fat. The fat column is measured from
the lower line between the fat and the water to the point where the top
of the fat column touches the wall of the neck. A pair of dividers are
handy for measuring the fat column and reading off the percentage of

18 THE STORY OF MILK

It may not always be convenient to make a test im-
mediately when the sample is taken. In the creamery
where the milk is paid for according to its fat con-
tents, samples are taken every day from every patron's
milk and it would take too much time for the butter
maker to test all of these samples before they would
spoil. A preservative, corrosive sublimate, — poisonous
but all right for the purpose, — is therefore added and
all the samples of one farmer's milk for several days
or a whole week are put together in one glass to be kept
and tested at one time. This is called a composite test
and has proven entirely satisfactory.

The Lactometer has been used to discover adultera-
tions, depending upon the difference in specific gravity
of the various constituents. The specific gravity of
whole milk is about 1.032 which means that, if a certain
volume of water weighs 1.000 weight units, the same
volume of whole milk weighs 1.032, the same volume
of butter-fat weighs, say, .900, or of cream about 1.000,
and of skim milk 1.036 units. If the Lactometer shows
a sample of milk to have a higher specific gravity than
1.032 it may therefore be suspected of having been
skimmed. But it will readily be seen that by removing
from whole milk some of the cream and adding water,
the specific gravity can easily be brought back to normal
for whole milk. This test is therefore unreliable and has
been discarded with the advent of the Babcock.

fat in the milk. The bottle with contents should be warm — about 140° — •
when the measure is taken.

For testing skim milk and cream special forms of test bottles are
used — which are described in the circulars coming with the testers and
students who desire fuller information are referred to Farrington and
Woll's "Testing Milk and its Products," published by the Mendota
Book Co., Madison, Wis.

PRODUCTION, COMPOSITION AND CHARACTERISTICS 19

Acidity Test* — The acidity, or sourness, of milk or
cream, which depends upon the amount of lactic acid
developed in it, may
be tested by a liquid
normal alkali or by the
Farrington Alkaline
Tablets, a solution of
which added to sour
milk neutralizes the
acid. A few drops of
an indicator, Phenol-
pthalein, added to the
milk, turns it pink
when all the acid has
been neutralized, and
the amount of alkali
solution used shows
the percentage of acid
in the milk. This is
quite important in
preparing ^ ' starters ' '
for ripening the cream
in butter making or
milk in cheese mak-
ing, and in the manufacture of
milk," etc.

* The Acid Test depends upon what in the laboratory is called "titra-
tion" and makes use of a "burette," a long, graduated measuring tube
provided with a pinch-cock. This burette is filled with an alkali solu-
tion of known strength, usually a "tenth normal" solution of caustic
soda. A certain amount of the milk to be tested is measured off into
a glass or a white porcelain cup. As a 17.6 c.c. pipette belonging to the
Babcock test usually is at hand, that may be used for this purpose.
A few drops of an Indicator is added to the milk and under constant
stirring the soda solution is allowed to drip into it until suddenly it turns

The acidemeter

Commercial Butter-

20 THE STORY OF MILK

There are other tests used in scientific dairying as the
Fermentation Test to ascertain the relative purity of
milk, the Casein Test, etc., but the above are those
mostly used besides the Bacterial Count which is men-
tioned under the chapter on ''Milk Supply," and the
Rennet Test described under "Cheese Making."

FERMENTS

Two classes of ferments are of importance in con-
nection with milk: (1) ''unorganized" or chemical fer-
ments, the ''enzymes," and (2) "organized" ferments
such as bacteria and yeast.

Enzymes

Rennet. — Among the unorganized ferments. Rennet
or Rennin is highly important on account of its power
of coagulating or curdling milk by precipitation of the
casein. Rennet is extracted from the stomach of the
suckling or milk-fed calf, where it serves in digesting
the calf's food. It is in the market in the form of a
liquid extract as well as a dry powder compressed into

pink. The color will quickly disappear, however, and a few more
drops of the alkali are added and stirred in several times until a faint
but distinct pink color remains for some time. That indicates that the
acid in the milk has been neutralized and the amount of the soda solu-
tion consumed is then read off on the scale on the burette. By dividing
the number of c.c. of the soda solution used by two, the tenths per cent
of lactic acid in the milk is found. For example, if it takes 4 c.c. of the
soda solution to neutralize 17.6 c.c. milk, the acidity is .2%. This de-
pends upon the fact that 1 c. c. of a tenth normal soda neutralizes .009
gram of lactic acid and that therefore the per cent of acid in the milk
is equal to .009 multiplied by the number of c.c. of soda solution used,
divided by the number of c.c. of milk and multiplied by 100.

If 50 c.c. of milk is taken instead of 17.6 the calculation is changed
accordingly.

PRODUCTION, COMPOSITION AND CHARACTERISTICS 21

tablets (Rennet Tablets and Junket Tablets). The
characteristics and use of rennet are described under
''Cheese Making" in Chapter III.

Pepsin is another enzyme the office of which in the
process of digestion is to dissolve albuminoids. It is
not considered identical with rennet though in an acid
solution it will curdle milk. It occurs in the stomachs
of grown animals fed on solid food and is usually pro-
duced from hogs' stomachs.

Bacteria

Everywhere, in the air, in water, in the soil, and
clinging to every object in the world, are minute or-
ganisms known under the common names of bacteria
or microbes. In contrast to rennet and the other
'^ unorganized" ferments, bacteria belong to the '' or-
ganized" class. Some are harmful, producing putre-
faction, dissolution, poisons or disease; others are bene-
ficial, leading to desirable fermentations and changes;
others again are indifferent, neither good nor bad, but
harmless.

As the milk comes from the cow it is almost free from
bacteria, but milk makes an excellent soil for many of
these organisms to grow in, and they soon get in, to
multiply with enormous rapidity at any temperature
from 60° to 100° F.

Lactic Acid Bacilli are bacteria of special importance
to the dairyman, for they convert sugar of milk into
lactic acid and produce various more or less agreeable
flavors. They are also powerful germicides and scav-
engers, destroying or neutralizing the products of other
bacteria which in the absence of these bacteria and the

22 THE STORY OF MILK

lactic acid produced by them would play havoc with the
food and produce putrefaction or disease. Everybody
who handles milk knows that pure sour milk or butter-
milk in which lactic acid bacteria abound keeps well
for a long time, free from other fermentations which
have no chance to develop in their presence. It is due
to this purifying property that Metchnikoff recom-
mended Bulgarian sour milk as a health food, asserting
that it prevents harmful fermentations in the digestive
channel.

The Control of Bacteria

The principal means at our disposal to prevent or
control and regulate bacterial growth are:

Cleanliness, Heat, Cold and Disinfectants.

Cleanliness. — Only the most scrupulous cleanliness
will prevent contamination. Hence the necessity of
thorough scouring and sterilizing of all utensils, and
the need for fresh air and pure water.

Heat. — The prevention of fermentation in milk by
heating is called ''sterilization" or ''pasteurization"
according to the intensity of the heat and the length
of time the milk is subjected to it. Boiling destroys
almost all bacterial life. Some germs require, however,
exposure to a much higher temperature, up to 250° F.
(boiling under pressure), to be entirely eradicated, but
for all practical purposes a thorough boiling is consid-
ered sufficient to eliminate all danger of contamination.
Such boiling is usually termed Sterilization.

Cooling checks bacterial growth and but few germs
thrive at a temperature below 50° F. The following
table and diagram * show how quickly bacteria multiply
* Farmers' Bulletin No. 602, U. S. Dept. of Agriculture.

E-nxYiTies DegHro^f^d

ETixymftS l>ggm'fo beWgoltgweJ

No otVier cir\crna^e. \t[ dlCTT^i'-Ql

TYTibosi^loTj J .1 p, >

eaccefiti nq bcssihly aSli'^hr
coaju/a^ok oSihtalbmen

"Tubcrcul

rculosis

^bi^otd A T^jserx^

\\M^

Se)?tic f^org "ij^rocfi^

PipH"^<

?-

/f^

5-B-

^^

Then c«oled ajonce fa
AS^' faix':and.ke\d at -tfiaT
'Tetrihcrature until dtlfvertd.
■fo titcCu«^ome^.

Effect of heating milk to various temperatures. Published by the Toronto

Board of Health

24

THE STORY OF MILK

in milk at ordinary room temperature, 68° to 70°,
which emphasizes the importance of keeping milk cool.

Relative growth of bacteria when held at different temperatures

Tern, of
Milk

No. of
bacteria
perc.c. at
beginning

At end
of 6 hrs.

At end
of 12 hrs.

At end of
24 hrs.

At end of
40 hrs.

°F.
50

68

10
10

12
17

15
242

41
61,280

62
3,574,990

If the milk had contained 1,000 bacteria per cubic
centimeter at the beginning, the part held at 50° F.

Milk cooler

The diagram (after Conn) shows the
rapidity with which bacteria multiply
in milk not properly cooled. A single
bacterium (a) in 24 hours multiplied to
5 (b) in milk kept at 50° F. ; (c) repre-
sents the number that develop from a
single bacterium in milk kept 24 hours
at 70° F.

would have contained 4,100 bacteria at the end of 24
hours, while that held at 68° F. would have contained

PRODUCTION, COMPOSITION AND CHARACTERISTICS 25

6,128,000. The effect of temperature upon the growth
of bacteria is shown graphically in the cut.

But even frost does not kill the bacteria. If milk
which has been kept sweet or at the desired degree of
sourness by cooling is allowed to get warm again, the
bacteria which have been kept dormant will get a fresh
start. For this reason milk and cream for city supply
should not only be cooled strongly, but must be kept
thoroughly chilled up to the time they are used, which
means that they should be delivered cool to the con-
sumer, and kept on ice in the house, never being allowed
to warm up until used.

Disinfectants. — Antiseptics, such as benzoate of soda,
formalin, boracic acid, etc., are not permissible in
milk, but disinfectants such as soda, lime, washing
powders, etc., should be freely used in cleaning uten-
sils, bottles, floors and walls where milk is handled,
so as to prevent as far as possible
any infection.

PASTEURIZATION

Pasteurization depends upon the
fact that almost all bacteria, and
especially the disease-producing spe-
cies, are checked in their growth and
made harmless, if not totally de-
stroyed, by instantaneous exposure t • t^ .
. J. . r i^7ro 17 Louis Pasteur,

to a temperature of 175 1^., or a French scientist and

more or less prolonged exposure to originator of the proc-
a lower temperature, for instance ess of pasteurization
for 20 minutes to 157° or 30 minutes to 145°. These
lower temperatures are recommended in the case of new
milk to be consumed as such, in order not to change its

26 THE STORY OF MILK

digestibility. Pasteurizers with ^'holding devices" are
therefore largely taking the place of the ''continuous"
sterilizing machines, which allow only momentary ex-
posure to the highest temperature.

Whatever method is used it is essential that after the
heating is finished the milk should be cooled as quickly
as possible to a temperature sufficiently low to prevent
development of the germs that have not been entirely
destroyed by the heat and w^hich, if the milk is left
for any length of time at a temperature favorable for
bacterial life — anywhere between 65° and 110°, — will
begin to grow again. Cool the milk to below 60° and
if possible to 50° or 40°.

Sometimes a second pasteurization is practiced, the
milk being purposely allowed to stand at 70° to 80"
for 12 to 24 hours after the first pasteurization for the
germs which escaped destruction to develop into full-
grown bacteria. They are then killed by the second
heating before the milk is finally chilled to stop any
further growth.

Pasteurization can be done by placing the milk in
any tin or enamelled or glass vessel, set in another vessel
containing water (a double boiler). Heat until the
milk has reached the desired temperature, hold it at
that temperature the necessary time, and then place
the vessel in cold running water or in ice water until
the milk is thoroughly chilled. It is not advisable to
place the hot milk in the ice box as cooling in air is too
slow. Not until it is thoroughly cooled in water is it
safe to put it in the ice box to keep it cool.

In the seventies Prof. N. J. Fjord, in Denmark, ap-
plied to milk the process which had been developed by
Louis Pasteur in France to give keeping quality to wine

PRODUCTION, COMPOSITION AND CHARACTERISTICS 27

and beer. A Danish dairy expert, J. Moldenhauer,
now connected with the New York State Department
of Agriculture, first brought the
process to this country and used
pasteurization in a city creamery in
Kentucky. American experiment
stations estabUshed the tempera-
tures and the time of exposure neces-
sary for best results, and no one has
done more for the introduction of
pasteurization than the New York
philanthropist, Nathan Straus, who
has established pasteurizing plants
and milk distributing stations in
many localities, thereby contributing so largely to the

N. J. Fjord, Danish
investigator

The Straus Pasteurizer

lowering of the death rate among the children of the
poor.

The following directions are given by the Straus

28 THE STORY OF MILK

Pasteurized Milk Laboratories of New York for the
pasteurization of milk for babies :

1 . Only use fresh, filtered milk, which has been kept
cold, and proceed as follows:

2. Set the bottles, after they have been thoroughly

A continuous pasteurizer

cleaned, into the tray (a), fill them to the neck, and put
on the corks or patent stoppers.

3. The pot (b) is then placed on a wooden surface
(table or floor) and filled to the three supports (in the
pot) with boiling water.

4. Place tray (a), with the filled bottles, into the pot
(b), so that the bottom of the tray rests on the three
supports, and put cover (c) on quickly.

COMPOSITION AND CHARACTERISTICS 29

5. After the bottles have been warmed up by the
steam for five minutes, remove the cover quickly, turn
the tray so that it drops into the water. The cover is
to be put on again immediately. This manipulation
is to be made very quickly, so that as little steam as

Milk cooler

possible can escape. Thus it remains for twenty-five
minutes.

6. Now take the tray out of the water and cool the
bottles with cold water and ice as quickly as possible,
and keep them at this low temperature till used.

7. Before use, warm the milk — in the bottles — to
blood heat. Never pour it into another vessel.

8. The milk must not be used for children later than
twenty-four hours after pasteurization. Never use
remnants.

30 THE STORY OF MILK

In a Continuous Pasteurizer a constant stream of
milk is fed into the machine, heated by flowing over
a metal surface with steam or hot water on the opposite
side, and cooled by running over a cooler furnished
with a stream of cold water or ice water.

PURE CULTURES

Before 1890 it was supposed that the flavor of fine
butter depended upon certain volatile oils and acids
peculiar to butter-fat. In the early
nineties Professor V. Storch of
the Danish Experiment Station
showed, however, that it was
due rather to the products of
bacteria and he isolated the lactic
acid bacilli which would produce
such exquisite flavor even when per-
fectly neutral and tasteless butter-
fat was churned with milk acidified

Professor V. Storch, . i -ii ix £

originator of pure cul^ cr ripened With a pure culture of
tures for ripening these bacilli. In this country Dr.
cream and milk n Y/ Conn of Wesleyan University,

Storrs, Conn., did much to advance the theory and
practice of ripening cream with a pure culture starter.

''Pure cultures" are produced in the bacteriological
laboratory by picking out under the microscope col-
onies of the desired species of bacteria, planting them
in a sterilized medium and allowing them to grow under
the most favorable conditions and with the exclusion
of all other germs.

When such a culture has reached its maximum growth
it is transplanted into a larger quantity of a sterilized
medium containing proper nourishment for the par-

COMPOSITION AND CHARACTERISTICS 31

ticular organism. In the bacteriological laboratory,
where alone absolute steriUty of utensils and medium,
and entire exclusion of foreign infection are possible,
the culture may remain pure while this inoculation and
propagation are repeated over and over again. But
when the propagation is carried on in the house or the
dairy, for instance in preparing starters or buttermilk.

Streptococcus lacticus (Storch, No. 18) Bacterium lactis acidi (from Storch)

such absolute cleanliness is impossible and in the long
run infections will creep in from the air or from the
utensils and after a while it becomes necessary to
start with a new '^pure culture." How often such
renewal must be resorted to depends largely upon the
surroundings and the care of the operator. Usually it
must be done after a week's time, although it is sur-
prising to find milk preparations made by the simplest
processes equal in purity to those prepared with the
assistance of bacteriological science and technique.
This is, for instance, the case in Bulgaria, where the
famous Yoghourt sour milk is prepared pure without

32

THE STORY OF MILK

special care and in Denmark where the country is fairly
permeated with the lactic acid bacilli used in ripening
the cream for the celebrated Danish butter and where
careful buttermakers often maintain their starters for
months or even for years without '^renewal/'

There are many different varieties of bacteria which
convert sugar of milk into lactic acid, at the same time
developing flavors more or less agreeable and charac-
teristic for the various
products. In the bac-
teriological laboratory
certain species are se-
lected which will pro-
duce the results de-
sired for the particular
purpose in view.

Starters. — Beginning
with a commercial dry
culture in the form of
a powder as generally
used in the creamery
or the cheese factory
as well as for the prepa-
ration of commercial buttermilk, or with buttermilk tab-
lets as used in the ordinary household or the hospital,
such culture is added to a small quantity of thoroughly
pasteurized milk. If fresh, sweet skim milk is available it
is preferable to whole milk as the butter-fat in the latter
only interferes with the process; but either can be used.

Milk for starters should be strongly pasteurized by
being kept at a temperature near the boiling point —
at least 180° — for 40 to 60 minutes, then cooled to the
degree at which it is to be set, usually between 65° and

Typical lactic acid bacteria
(L. A. Rogers)

PRODUCTION, COMPOSITION AND CHARACTERISTICS 33

75°, somewhat higher for the first propagation with the
pure culture than for the subsequent transplantings
when the bacteria, more or less dormant in the dry
powder or tablets, have attained full vitality. Some
species of bacteria, as the Bacillus Bulgaricus, require
higher temperatures — 90° to 100° or even 110° — than
others ^ The culture having been thoroughly incor-
porated in the milk by vigorous and repeated stirring
or shaking, the milk is left at rest in an incubator or a
waterbath or WTapped in paper or cloth in a warm room
where an even temperature can be maintained, until
it is curdled, which may take 18 to 24 hours or even
longer for the first propagation.

One part of this curdled milk is now added to 5 or 10
parts of fresh pasteurized milk and set to ripen in the
same way as described above, possibly at a little lower
temperature, and this is repeated every day, thus main-
taining the ''Mother Starter." After the second or
third propagation the bulk of each batch is used as a
starter in the larger lot of material to be ripened, be it
cream for butter or milk for cheese or for commercial
buttermilk, while a little is taken for maintenance of
the mother starter as described above.

The avioujit of starter to prepare every day depends
upon the amount of milk or cream to be ripened and
the per cent of starter used in same. For instance, if
you have ten gallons of cream to ripen every day in
which you wish to use about 10% or 12% starter, or one
gallon, take a little less than one pint of the first or
second propagation for one gallon of milk; the next
day use one pint of this to add to a gallon of fresh
starter milk, and the remaining gallon to add to the
ten gallons of cream, and so on every day.

34 THE STORY OF MILK

If you have 4,000 lbs. of milk in the cheese vat to
ripen with 2% or 80 lbs. starter, prepare 88 lbs. of
mother starter. If, on the other hand, you wish to
make only a quart of buttermilk every day, take, say,
two buttermilk tablets, crush them thoroughly in a
spoonful of pasteurized milk and stir this into a tum-
blerful of the same milk; let stand till it is thickened
the next day and use a tablespoonful of this thickened
milk in a quart of fresh pasteurized milk which when
ripened is your buttermilk, from which you take out
a tablespoonful for starter in the next batch, and so on.
In this case there is no ''mother starter" except that
perhaps the first tumblerful prepared with the tablets
may be called so, but afterwards the starter is taken
right out of the finished product every day.

The process may be modified to suit special purposes
and local conditions, but the following precautions
should be strictly observed: (1) to interrupt the ripen-
ing immediately by quick and intense cooling as soon
as it has reached the proper point in case the ripened
product is not used at once, and (2) to keep it ice-cold
until it is used. If this is done, it may be kept for two
or three days without deterioration if it is not conven-
ient to make it fresh every day which, however, should
be the rule.

CHAPTER II
Milk Supply and Creamery Products

In the first chapter the composition of cow's milk
and the nature of its constituents have been considered,
the most important tests for its richness and purity
have been described, and the ferments have been men-
tioned which instigate changes for good or for bad,
together with the means at disposal for regulating their
activity. To use these means intelligently in handling
milk and its products is the key to the dairyman's
success.

We shall now briefly consider the various steps that
are of importance in modern dairy industry.

MILK SUPPLY

In the first place, the farmer must furnish pure, clean,
unadulterated milk, fresh from the cow and cooled
immediately after milking. His cows must be healthy.

Bovine Tuberculosis. — Many milk-cows, for the very
reason that they have been bred with the one purpose
in view of turning all their food into milk and wasting
as little as possible in building up the body, are more
or less weak-chested and apt to suffer from tubercu-
losis. Unless this disease is so far advanced as to
affect the general health of the cow, or it has spread
to the milk organs, the udder and the teats, it is not
so dangerous as has heretofore been supposed. It is
now held by the great majority of physicians that

35

36 THE STORY OF MILK

bovine tuberculosis is hardly ever transmitted to grown
persons and seldom to children. Neither is it hered-
itary. Nevertheless, wherever it is possible to have
the herd tested with tuberculin, segregating, if not
killing, the animals which show by reaction that they
are somewhat tuberculous, it should be done. Milk
from such cows should always be pasteurized.

Milk as a Disease Carrier. — A greater danger lies
in the fact that, warm as it comes from the cow, milk
is an ideal medium for human disease germs to grow
in, and may thus become a great conveyor of such
germs. For this reason it is of the greatest importance
that the milkers are healthy and clean, that the udders
and teats be free from dirt, and the milk pail covered
as far as possible; the barn must be clean, and every
source of infection excluded. This fact also points to
the advisability of pasteurization. On page 23 a chart
is shown, published by the Toronto Board of Health
and indicating the temperatures at which various germs
of disease are made harmless.

Bacterial Count. — The test for clean milk now mostly
used is the ''Bacterial Count,'' the number of bac-
teria— or rather colonies of bacteria — found in a cubic
centimeter of the milk. It would be better if the nature
or quality of the bacteria could be taken into consid-
eration as well as the quantity, but that being as yet
impracticable, the next best thing is to depend upon
the number. Ordinary good milk often contains hun-
dreds of thousands of bacteria in a cubic centimeter,
but where the greatest cleanliness is observed the
number may be less than 1 ,000.

Certified Milk is now sold in many cities which, ac-
cording to varying city ordinances, is guaranteed to

MILK SUPPLY AND CREAMERY PRODUCTS 37

have less than 10,000 or 20,000 or 30,000 bacteria, as
the case may be.

Counting the bacteria in a cubic centimeter of milk

The cost of producing certified milk places it beyond
the reach of the great majority of consumers. But
such care and cleanliness as can be observed by the
farmer and the milkman without extra expense should

38 THE STORY OF MILK

be insisted upon, and milk which nevertheless contains
a large number of bacteria can be made safe by pas-
teurization.

The Sanitary Code. — The regulation of the produc-
tion and delivery of milk in cities and towns as well
as at creameries and cheese factories, the '^Sanitary
Code" established by state and municipal health au-
thorities, has been very effective in improving the
quality of the supply. So enormous have been the
improvements in caring for and handling the products
by the large establishments engaged in the delivery of
milk as to make the increase in cost seem trifling com-
pared with the great benefit to the public health se-
cured by these agencies.

New York State Milk Grading. — The New York
State Board of Health prescribes a grading for milk
offered for sale, the most important features of which
are as follows :

Certified. — Must be produced under specially sanitary
conditions approved by a county medical commission.

Grade A Raw. — Cows must be tuberculin tested and
milk must not contain over 60,000 bacteria per cubic
centimeter.

Grade A Pasteurized. — Cows must be subjected to
physical examination and milk must not contain more
than 200,000 bacteria before, nor more than 30,000
after pasteurization.

Other grades permitted under the rules, all subject
to inspection and approval of the authorities, are:

Grade B Raw.

Grade B Pasteurized.

Grade C Raiv.

Grade C Pasteurized.

MILK SUPPLY AND CREAMERY PRODUCTS 39

Deliveries must be made within a certain time after
production or pasteurization, barns and milk stations
are inspected, and altogether such safeguards are em-
ployed as to make the supply exceedingly safe and
reliable.

City Delivery. — In villages and small cities the milk
supply is still to a large extent in the hands of farmers
who ccme to town early in the morning peddling their
milk, often at considerable waste of time for horse and
man. Or a number of peddlers go over the same route
so that it takes a dozen wagons to cover a town where
three or four could do it.

As long as there was no efficient regulation as to price
and quality such waste was perhaps unavoidable, as
competition on the part of the producers and distribu-
tors was the only means of protection for the con-
sumers. But lately state and municipal control is
being exercised to such an extent as to largely eliminate
the danger of poor milk and exorbitant prices. Further
development of organized delivery systems so much to
be desired for sanitary as well as for economical reasons,
may be looked for as soon as normal conditions return
after the close of the war. The delivery of milk is one
of the things that in the interest of public health must
be under the strictest official control, and co-operation
between farmers and consumers is the logical system
for elimination of unnecessary expenses of distribution
and for prompt and satisfactory service. Their in-
terests are or should be identical and both classes are
hurt by inefficient and wasteful delivery.

In the large cities there has growTi up an industry
which largely monopolizes the milk supply and which
until lately was powerful enough to dictate prices and

40 THE STORY OF MILK

conditions both for producers and consumers. Several
attempts have been made from time to time by farmers
to combine to regulate prices and dictate the terms to
the middlemen. Such attempts have, however, in-
variably failed as long as they were built on false
economic principles and prompted by selfish interests
only. No farmers' association can be strong enough to
ignore the law of supply and demand, and it is only
quite recently that the Dairymen^s League has suc-
ceeded in influencing the market by taking into con-
sideration the actual cost of production of milk as
worked out by the agricultural colleges, and fixing the
price on a scientific basis. There is one other element
entering into the causes on which the price to the con-
sumers depends, namely. Transportation, and while
municipal boards of health are looking after the sanitary
conditions and prevention of adulteration. State and
Federal authorities are stepping in as moderators or
arbitrators to reconcile the interests of the Producers,
the Railroad Companies, the Distributors and the Con-
sumers. The next step in the development will no
doubt be towards full co-operation between producers
and consumers and, to a large extent, elimination of
the ''middlemen."

It should not be forgotten, however, that while the
much abused middlemen in time past have been able to
dictate terms and prices and have often abused the
privilege^, they have at the same time used their in-
fluence and power to improve the milk supply. As the
supply of oil and gasoline has been perfected and cheap-
ened by the all-powerful Standard Oil Co. as a monop-
oly crushing all competition, so the ''Milk Trust" has
improved the distribution of milk and has built up the

MILK SUPPLY AND CREAMERY PRODUCTS 41

magnificent sanitary plants in which milk is handled,
pasteurized, bottled and distributed in a way that
might not have been possible without the monopoly.
It has served a good purpose, but has at the same time
acquired such power that official control has become
necessary for the protection of producers and con-
sumers alike, and the time may be near when these two
classes will combine and take the matter into their own
hands so that the distribution may be done at actual
cost.

Milk Stations are plants erected in dairy sections in
the country either by the city milk supply houses or
by co-operating farmers, where the milk is delivered
and handled so as to make it ready for shipment to
the city. As in the creamery and the cheese factory,
the milk is carefully examined and, if it is not sweet
and pure, it is rejected and sent back to the farm. Any
impure flavor remains in the cover for some time and
is easily detected by smelling of the cover as soon as
it is removed from the can.

A sample is taken and put aside for the Babcock
test and perhaps another for the Fermentation test.
Each farmer's milk is weighed in the Weigh Can and
run through a cheese-cloth strainer. The further treat-
ment varies in different plants. The milk may simply
be cooled by running it over a cold water or brine cooler
and placing it in shipping cans in the refrigerator or in
ice water until the milk-train comes along to pick up
the cans. Or it may be clarified by running it through
a centrifugal machine, the same as a separator, in which,
however, cream and milk are not separated, but im-
purities are thrown out by the centrifugal force and
deposited on the wall of the bowl, and the purified

MILK SUPPLY AND CREAMERY PRODUCTS

43

milk may then be pasteurized and bottled before being
shipped to the city.

Arriving in the city in iced cars the milk is taken to

Receiving milk at the milk station

one of the elaborate plants in which it is pasteurized
and bottled, if that has not been done at the country
station. The machinery used in these plants is getting
more and more perfect and expensive and leaves little
to be desired as to sanitary requirements and economy
in handling. Pasteurizers, botthng machines, bottle-

44 THE STORY OF MILK

washing machines, conveyors, etc., are wonders of in-
genuity, and one needs only to see one of these modern
plants to understand that in a large city milk can only
be handled to advantage in expensive establishments.

Skim Milk is one of the cheapest of foods and under
proper regulations its sale should not be prohibited.
The reason why in times past skim milk has been dis-
credited and excluded from sale was that, as produced
by the old methods of raising the cream, before the
advent of the separator, it was always more or less
old and sour before it was available and certainly before
it could be distributed to consumers. Under such
conditions it was hardly ever fit for human food. But
when produced by the separator and pasteurized and
cooled immediately after — within a few hours after
milking, which is entirely feasible— it is an excellent
and nutritious food for adults and even for children
over two years of age. Ripened with a pure culture of
lactic acid bacteria, it makes a healthful, refreshing
drink, like buttermilk. Only when it is allowed to sour
without proper care or control does skim milk, as whole
milk does, become unfit for food or drink. On a cold
winter morning when men are going to work (or per-
haps are looking for work which they cannot find),
and children are on their way to school, often underfed,
a street-corner wagon or stand where boiling hot, fresh,
sweet skim milk might be distributed at a cent or two
a glass would be a blessing in any city.

CREAM

^Yhen new milk is left at rest the cream will rise
to the top and after 12 to 24 hours a cream-line can
be seen in the bottle. This cream-line is sharper

46

THE STORY OF MILK

and more easily seen in raw milk than in pasteurized
milk and its absence is not always a sure sign of
lack of richness or purity of the milk. By cooling the
milk thoroughly so that it will keep, almost all the
cream will be at the top in forty-eight hours and can
be skimmed off. The cream can be used for coffee or
on cereals or fruits or puddings; the skim milk left
will still hold ]/2% 01* more of butter-fat and can be
used to drink or for cooking.

The Separator. — On the farm or in the creamery the
cream is no longer raised by gravity, that is, by letting
the milk ''set" either in shallow pans on the kitchen
shelf or in deep cans in ice water, but the fresh, warm
milk is run through the separator in a continuous
stream.

It was noticed that the rising of the cream due to the
difference in specific gravity between the butter-fat and

the milk-' 'serum" (the watery
solution of the other constit-
uents) might be greatly hastened
by subjecting the milk to cen-
trifugal force. This physical phe-
nomenon was taken advantage
of in the first conception of the
separator where it was shown
that if a pail of milk was whirled
around like a stone in a sling the
heavier milk-serum would be
thrown towards the bottom of the
pail with so much greater force
than the lighter cream (butter-fat mixed with a small
part of the serum) that the separation which would take
48 hours in the milk at rest, could be accomplished in a

Early conception of the
separator

MILK SUPPLY AND CREAMERY PRODUCTS

47

Dr. Gustav De Laval of
Sweden, inventor of the
separator bearing his name

few minutes when exposed to centrifugal force. From

this early crude attempt the continuous howl-separator

was developed and still later a

number of divisions in the bowl

were designed which increased

the capacity and efficiency of

the machine wonderfully. The

most successful separator w^as

designed by Dr. Gustaf De

Laval of Sweden and the ma-
chines bearing his name are used

all over the world w^here butter

is made. But there are many

other excellent separators on

the market.

In the machine the milk is

separated instantaneously by centrifugal force and runs

out through two tubes, one for cream and the other for
skim milk. A small modern hand
machine will take care of from 200
to 1,000 lbs. of milk an hour, and
power machines are built to sepa-
rate 6,000 lbs. or more. By regu-
lating the cream-outlet a heavier
or lighter cream can be produced.

Suppose we are separating some
milk containing 4% butter-fat. If
1/8 of this milk is separated out as
cream and contains all the butter-
fat, the cream wdll be eight times as
rich in butter-fat as the original

milk ; 32% of the cream will be butter-fat. Such cream

is called ' ' 32% cream." If we take 34 as cream, we get a

5#

Hand separator

48 THE STORY OF MILE!

cream four times as rich as the milk^ a ^'16% cream.''
So out of 100 lbs. of milk we can take 12}/^ lbs. (1/8)
of 32% cream, 25 lbs. (K) of 1G% cream, etc.

Although the skim milk is really valuable as a food,
it is worth but little commercially; the cream contain-
ing the butter-fat is the expensive part of the milk,
and we must be prepared to pay for the cream all that
the milk would have cost.

Percentage of Butter-Fat. — The '^richness" of cream
or milk and their value depend upon the amount of
butter-fat in them. So cream or milk is often called
^'30% cream" or '^20% cream" or "4% milk" accord-
ing as 30% or 20% or 4% of the fluid is butter-fat ; 30%
cream is quite rich; ordinary market cream varies be-
tween 18% and 40%, though it may fall below 18%, or it
may be sold as a very expensive article as high as 60%.
Rich milk may contain more than 6% of butter-fat and
skim milk less than 0.1 of one per cent. The average
for good whole milk is between 3% and 4J4%-

For a long time scientists and scientific dairymen
were the only ones to speak of milk and cream in terms
of percentage of butter-fat. Now, however, people are
beginning to realize how valuable a part of the milk
the butter-fat is and are paying more attention to the
actual percentage of butter-fat in the cream or milk
they use. So it is no longer unusual to see a dairyman
advertise cream of a certain percentage or to hear a
housewife ask for it specifically.

Standardizing Cream. — For ice cream or for prepar-
ing modified milk for babies, it is often desirable to
dilute rich cream to a certain lower standard. The
following simple steps can be taken to find out how
much milk to add for diluting:

MILK SUPPLY AND CREAMERY PRODUCTS 49

1. From the test — fat-percentage — of the rich cream
subtract the test desired.

2. From the test desired subtract the test of the
milk used for diluting.

3. Divide the first difference by the second, and the
result will be the number of pints (or pounds) of milk
to be added for each pint (or pound) of the rich cream.

For instance, you may want to thin some 30% cream
to 10% for making ice cream. The milk to be added
is skim milk. Then :

1. 30 ^ 10 = 20.

2. 10 - 0 = 10.

3. 20 divided by 10 = 2. So for each pint of rich
cream you may add 2 pints of skim milk.

Or you may wish to thin the 30% cream with whole
milk, which has 4% butter-fat. Again:

1. 30 - 10 = 20.

2. 10 -^ 4 = 6.

3. 20 divided by 6 = 3 1/3. So you may add 3 1/3
pints of the whole milk to each pint of the 30% cream
and still have a 10% cream.

Pasteurized Cream does not look as rich as raw
cream, and fresh, sweet cream appears to be thinner
than when it is 24 hours old and slightly ripened. So
it is well, when buying cream, not to judge by appear-
ances. Demand of the milkman that he furnish you
cream of a certain percentage of butter-fat and see to
it that you get what you pay for. If you have no
Babcock tester the milk inspector will test the cream
for you.

Whipped Cream. — For whipping, cream must be
fairly rich, from 24% to 32%, and it must be cold.
Fresh, sweet cream does not whip as readily as that

50

THE STORY OF MILK

which has been kept for 12 or 24 hours in ice water.
There is no other secret connected with the process.
Use a rich cream, suitably cooled and aged, and with
a good beater there can be no trouble in getting a fine,
stiff whipped cream. If the cream is too thin or too
warm it may not become stiff. Sometimes, when it
is beaten too long, it turns into butter and buttermilk.

Installation in a Danish creamery. From the separator at the right
the cream runs through the continuous pasteurizer which forces it up
over the cooler whence it runs into the cream-vat at the left.

(From Boggild — Maelkeribruget i Danmark)

Emulsified Cream. — One of the recent additions to
the already elaborate machinery used in the creamery,
the milk supply or the ice cream business, is the Emulsi-
fier. To be sure, emulsifiers were used thirty to forty
years ago to mix animal and vegetable fats — oleo-
margarine oil, lard and cottonseed oil — into skim milk
for 'Tilled Cheese" or for Butterine, but lately they
are serving new purposes in the milk industry. By fore-

MILK SUPPLY AND CREAMERY PRODUCTS 51

ing melted butter-fat or oil mixed with water or skim
milk through exceedingly small apertures under high
pressure, or otherwise breaking up the mixture, an
emulsion can be formed in which the fat globules are
much finer even than those in natural milk or cream,
and separation can be prevented. The force used in
these emulsifiers may be produced by powerful pumps,
or a steam jet, or centrifugal force under high speed;
whichever system is used the machines answer the same
purpose, to produce a permanent emulsion in which the
oil or fat will stay in suspension even after cooling. In
some milk supply plants and ice cream factories all the
cream is emulsified and the system has especially been
applied since the advent of the milk powder. It is now
a not infrequent practice to run the new milk through
the separator, make sweet, unsalted butter from the
cream, and milk powder from the skim milk, and to
ship or store these products separately where or until
cream is wanted and then bring them together again
by running them through the emulsifier with a suitable
amount of water. At first thought this process would
seem impractical and imeconomical. But it has proven
good business because in many cases and places skim
milk powder and butter keep better separately or can
be shipped at long distance to better advantage than
new milk or cream or condensed milk. In ice cream
factories business may be dull in cold weather and
cream is perhaps not provided and not available, when
suddenly a hot spell brings orders for large quantities.
With a stock of skim milk powder and butter on hand
in the refrigerator, and an emulsifier to mix these
products, cream can be produced on short notice and
there will be no danger of shortage.

52

THE STORY OF MILK

ICE CREAM

Ice cream has fast become the national dessert served
on all festive occasions, winter and summer. Originally
it meant a frozen mixture of sweetened and flavored
milk and cream, but the name has long been applied to
all kinds of frozen delicacies in which cream enters as
a constituent. Not even there has the line been drawn,
but gums, gelatine, corn-starch, eggs and other ''fillers''
have been substituted or added to thicken the mixtures
and give ''body" to "creams,'' which have but little re-
lation to the genuine emulsion of butter-fat from cow's
milk. Standardization has been attempted by National
and State food authorities with varying success of en-
forcement. While the application of the name to a great
variety of frozen desserts has no doubt become legiti-
mate by long usage it may properly be demanded that

as an article of mer-
chandise "ice cream"
shall contain at least
8% to 12% butter-
fat and that no in-
gredients dangerous
to health enter into
its manufacture.

F r e e ze r s. — T h e
freezing is usually
done by contact of
the material with
metal cooled on the
other side by a
"freezing mixture" of salt and ice which produces
temperatures far below the freezing point of water

Hand freezer

MILK SUPPLY AND CREAMERY PRODUCTS 53

while air is whipped into, the cream by the rapid motion
of the beater. A great variety of excellent freezers of
this kind for hand or for power are on the market
which answer the purpose for making ice cream at
home or at the ice cream parlor.

Coarse-grained salt and crushed ice, mixed in the
proportion of 1 part salt to 4 parts of ice, are constantly
filled into the space surrounding the ice cream can, and
the brine produced by the melting of the mixture is
gradually drawn off from the tub. In a good freezer
the operation should not take over fifteen minutes.
\Mien the cream is frozen to a soft mush, stop the beater
and scrape down the hard particles which may have
accumulated on the sides of the can, add any ingredients
which may be better incorporated at this stage than
mixed into the original material, such as crushed fruit
or preserves, and finish the freezing without carrying
it too far.

Remove the beater, stir the cream which should still
be soft enough to handle, and pack in ice with only a
little salt. Or the cream may be transferred from the
freezer can to the shipping can and packed in it. If
bricks are wanted the soft cream is packed in molds of
the desired shape and size and buried in the freezing
mixture to harden.

In modem ice cream factories Brine Freezers are gen-
erally used. In a Refrigerator Plant intensely low tem-
peratures are produced by the vaporizing of compressed
ammonia or carbonic acid in an ice machine, and brine
circulating in iron pipes is cooled by such medium and
may, in turn, cool the air in the Cold Storage room, or
the cream in the freezer, or pure water in metal boxes
for the manufacture of Artificial Ice.

54

THE STORY OF MILK

It has been attempted to make the brine freezers
continuous, the cream mixture being fed into the ma-
chine at one end and discharged frozen at the other.
But this system has not so far been successful, and in-

Power brine freezer

termittent cr batch freezers are most practical yet
both for hand and for power.

Rich material, frozen in a good machine, whether
intermittent or continuous, will expand from 50% to
100%, and the original material should not fill the
freezer-can more than half full.

The manufacture of ice cream has been the subject
of study and experiments for years in the Dairy De-
partment of the Agricultural College at Ames, Iowa,
where Professor M. Mortensen has worked out a com-
prehensive classification from which any manufacturer

MILK SUPPLY AND CREAMERY PRODUCTS

55

may rea^dily choose his formulas, modifying them to
suit his local conditions and special problems. The
outline kindly furnished the author by Professor Mor-

Ice cream factory

tensen is so interesting and instructive as to be well
worth copying substantially in full, leaving out the
^'Ices" in which no milk or cream is used and which
are therefore not of special interest in connection with
the purpose of this book — the use of more and better
milk.

56 THE STORY OF MILK

CLASSIFICATION ADOPTED AT IOWA EXPERIMENT STATION

Considering the work of former writers as well as
names used by business men, the following classifica-
tion was worked out by the station:

I. Plain Ice Creams.
II. Nut Ice Creams.

III. Fruit Ice Creams.

IV. Bisque Ice Creams.
V. Parfaits.

VI. Mousses.
VII. Puddings.
VIII. Aufaits.
IX. Lactos.

Explanation and Formulas

I. Plain Ice Cream is a frozen product made from
cream and sugar with or without a natural flavoring.

Formulas are given for making ten gallons of finished
ice cream.

Vanila Ice Cream:

5 gallons 25% cream
8 lbs. sugar

4 oz. vanilla extract

Chocolate Ice Cream:

5 gallons cream
10 lbs. sugar

1}^ lbs. bitter chocolate

4 oz. vanilla extract

Maple Ice Cream:

5 gallons 25% cream

6 lbs. cane sugar

2 lbs. maple sugar

2 oz. caramel

4 oz. vanilla extract

MILK SUPPLY AND CREAMERY PRODUCTS 57

Caramel Ice Cream:

5 gallons 25% cream
8 lbs. sugar
12 oz. caramel

4 oz. vanilla extract

Coffee Ice Cream:

5 gallons 25% cream
8 lbs. cane sugar
Extract from 1 lb. coffee

Mint Ice Cream:

5 gallons 25% cream

8 lbs. cane sugar

1 pt. concentrated Creme de ]\Ienthe syrup

Few drops green coloring.

II. Nut Ice Cream is a frozen product made from
cream and sugar and sound non-rancid nuts.

Walmd Ice Cream:

5 gallons 25% cream
8 lbs. cane sugar
4 oz. vanilla extract
4 lbs. of walnut meats.

According to this general formula the following nut
ice creams may be prepared by substituting different
kinds of nut meats :

Chestnut Ice Cream
Filbert Ice Cream
Hazelmd Ice Cream
Pecan Ice Cream
Peanut Ice Cream
Almond Ice Cream
Pistachio Ice Cream.

At times pistachio ice cream is made from oil of pis-
tachio instead of from the nuts. If thus prepared, it
will come under the head of plain ice cream.

58 THE STORY OF MILK

III. Fruit Ice Cream is a frozen product made from
cream, sugar and sound, clean, mature fruits.

Straiuberry Ice Cream:
5 gallons 25% cream
8 lbs. sugar
3/2 gallon crushed strawberries.

Employing the same formula the following creams
may be made by merely substituting other fruits and
berries for the strawberries. The amount of sugar may
be varied according to the acidity of the fruit.

Pineapple Ice Cream
Raspberry Ice Cream
Cherry Ice Cream
Peach Ice Cream
Apricot Ice Cream
Currant Ice Cream
Grape Ice Cream
Cranberry Ice Cream.

Preparation of lemon and orange ice creams cannot
be included under this g;encral rule. These creams may
be prepared as follows:

Lemon Ice Cream:

5 gallons 25% cream

10 lbs. sugar

2 pts. lemon juice

1 pt. orange juice

Orange Ice Cream:

5 gallons 25% cream
10 lbs. sugar

2 qts. orange juice
3^2 pt. lemon juice.

IV. Bisque Ice Cream is a frozen product made from
cream, sugar and bread products, marshmallows or

MILK SUPPLY AND CREAMERY PRODUCTS 59

other confections, with or without other natural
flavoring.

Macaroon Ice Cream:
5 gallons 25% cream
8 lbs. sugar

4 oz. vanilla extract

5 lbs. ground macaroons.

From this formula we can make:

Grape Nut Ice Cream
Nabisco Ice Cream
Sponge Cake Ice Cream
Marshmallow Ice Cream.

V. Parfait is a frozen product made from cream,
sugar and egg yolks with or without nuts or fruits and
other natural flavoring.

Walnut Parfait:

4 gallons 30% cream
Yolks of 10 dozen eggs
14 lbs. sugar
4 oz. vanilla extract
4 lbs. walnut meats.

From this formula by substituting the nut meats we
can make:

Filbert Parfait
Almond Parfait
Peanut Parfait
Hazelnut Parfait, etc.

By substituting th(i same proportion of fruits as are
used for fruit ice cream, for the vanilla extract and nut
meats, fruit parfaits such as straw^berry, raspberry and
cherry parfaits and others may be prepared.

60 THE STORY OF MILK

Coffee Par J ait:

4 gallons 30% cream
Yolks of 10 dozen eggs
14 lbs. sugar
Extract from 1 lb. coffee

Maple Par J ait:

4 gallons 30% cream
Yolks of 10 dozen eggs
4 lbs. maple sugar
10 lbs. cane sugar

2 oz. caramel paste

Tutti-Frutti:

4 gallons 30% cream
Yolks of 10 dozen eggs
14 lbs. cane sugar
4 oz, vanilla extract

3 lbs. candied cherries

3 lbs. candied assorted fruit

3 lbs. pineapple.

VI. Mousse is a frozen whipped cream to which sugar
and natural flavoring have been added.

Cranberry Mousse:

2 gallons 30% cream

4 lbs. cane sugar

1 qt. cranberry juice

pt. lemon juice.

From the same formula combinations may be made
with various other fruit juices and natural flavors, such
as coffee, vanilla, maple, caramel, pistachio, etc.

Sultana roll, as indicated by the name, is made in a
round mold. The center of the mold is filled with
tutti-frutti, and the outside with pistachio mousse.

VII. Pudding is a product made from cream or milk,
with sugar, eggs, nuts and fruits, highly flavored.

MILK SUPPLY AND CREAMERY PRODUCTS 61

Nesselrode Pudding:

3 gallons 30% cream
10 dozen eggs

10 11 )s. cane sugar

4 oz. vanilla extract

6 lbs. candied cherries and assorted fruits
4 lbs. raisins
4 lbs. macaroons

Manhattan Pudding:

3 gallons 30% cream
10 dozen eggs

12 lbs. sugar

2 qts. orange juice

1 pt. lemon juice

4 lbs. walnut meats
4 lbs. pecan meats

4 lbs. cherries and assorted fruits

Plum Pudding:

3 gallons 30% cream
10 dozen eggs

10 lbs. sugar
2)4 lbs. chocolate

4 lbs. cherries and assorted fruits

2 lbs. raisins

2 lbs. figs

1 lb. walnut meats

3 teaspoonfuls ground cinnamon
3^ teaspoonful ground cloves.

VIII. Aufait is a brick cream consisting of layers of
one or more kinds of cream with solid layers of frozen
fruits.

Fig aufait may be made from three la^^ers of cream
of various flavors with two layers of whole or sliced
figs. It is most satisfactory to slice the figs lengthwise
in halves.

Other aufaits may be made from a variety of pre-

62 THE STORY OF MILK

served fruits and berries and combined with different
creams.

IX. Lacto is a product manufactured from skimmed
or whole sour milk, eggs and sugar, with or without
natural flavoring.

Formulas for lactos may be found in Bulletin No. 140
published by the Ames Station.

As an example, the following mixture will make 5
gallons of

Cherry Lacto:

3 gallons lacto milk

9 pounds sugar

12 eggs

1 quart of cherry juice or concentrated cherry syrup

13^2 pints lemon juice

"Lacto Milk" is the same as described under ''Commercial
Buttermilk" and ''Thick Milk," pages 81 and 82.

The sugar is first dissolved in the lacto milk. The eggs are then
prepared. The whites and yolks are kept in separate containers
and each lot is beaten with an egg beater. Both the yolks and
whites are then added to the milk. The mixture is thoroughly
stirred and strained through a fine wire gauze. The fruit juices
are added last. The freezer is now run until it turns with difficulty
when the paddle is removed. The brine is removed and the freezer
repacked with ice and salt and left for an hour before the contents
are served.

Orange, Mint, Pineapple, Maraschino, Raspberry or Grape Lacto
may be prepared by substituting any of these flavors for the Cherry.

X. Ices are frozen products made from water or
sweet skimmed or whole milk, and sugar, with or with-
out eggs, fruit juices or other natural flavoring.

Ices may be for convenience divided into sherhetSy
milk sherbets, frappes, punches and souffles.

Milk Sherbet is an ice made from sweet skimmed or

MILK SUPPLY AND CREAMERY PRODUCTS 63

whole milk with egg albumen, sugar and natural flavor-
ing, frozen to the consistency of ice cream.

Pineapple Milk Sherbet:
6 gallons milk
20 lbs. sugar
Whites of 2 dozen eggs
1 gallon pineapple pulp

1 qt. lemon juice.

Milk sherbets of various flavors may be prepared
according to above formula by substituting other
flavorings.

The formulas presented above have been given
mainly for the purpose of making clear the difference
between the various groups. Numerous other formulas
may be prepared on the same general outline.

Prof. Mortensen's formulas are mostly made out for
ten gallons of ice cream. It is hardly necessary to call
attention to the fact that they can easily be adapted to
any smaller quantities by reducing each of the ingre-
dients alike. For instance, to make :

1 gallon of Plain Vanilla Ice Cream, divide the figures
given above by 10 and use:

2 quarts 25% cream
% lbs. sugar

}/^ oz. vanilla extract.

To make:

/ quart of Strawberry Ice Cream, divide by 40 and use :

1 pint 25% cream

3 oz. sugar

Crushed strawberries to taste.

64

THE STORY OF MILK

It will be noticed that in the formulas worked out
at Ames as above, very rich cream is used, — with a
fat contents of 25% or 30%, — which makes exceedingly

Professor Mortensen, behind the vat at the left, giving a lesson in the
making of ice cream at Ames

rich ice creams and great expansion in freezing. The
ordinary ice cream maker will usually employ cheaper
material, mixing some milk in the cream and standard-
izing the material to suit his local trade. Also most
housekeepers making ice cream at home will find it
convenient and economical to use a mixture of milk

MILK SUPPLY AND CREAMERY PRODUCTS 65

and cream and in doing so one must not expect so
much expansion.

In many places outside of dairy sections cream is
scarce and condensed milk is substituted to a large
extent. Lately milk-powder has come into use and
Emulsified Cream has become popular. Skim-milk
powder and unsalted butter may be kept in stock and
be available at any time, and by means of an Emulsifier
they are united again into a product identical with the
milk or cream from which they were originally sep-
arated.

Junket Ice Cream. — By setting a mixture of milk
and cream with a solution of Junket Tablets and allow-
ing it to jelly before freezing, the body of the cream
may be improved so that a material of comparatively
low fat-percentage will make a very good ice cream,
rich enough for most people and especially well suited
for invalids and children. Ice-cold milk or cream is
rather hard to digest for a weak or delicate stomach
because the action of the rennet in the digestive juice
is imperfect and slow except at blood-temperature. In
Junket Ice Cream, however, such action takes place
before it is eaten and the digestive ferment of the
stomach is relieved of that function. For that reason
Junket Ice Cream is considered healthier than the
ordinary frozen products and may be indulged in freely
by children and invalids.

The following are examples of tested Junket Ice
Creams:

Vanilla Ice Cream

Dissolve two Junket Tablets in a tablespoonful of cold water, heat
two quarts of milk and one pint of cream luke-warm in which has
been dissolved one cup of sugar and two teaspoonfuls of vanilla

66 THE STORY OF MILK

flavor, then add the dissolved Junket Tablet, stir quickly for one-
half minute and pour into ice cream can, let stand undisturbed ten
or fifteen minutes or until set. Pack with ice and salt and freeze.

Pistachio Ice Cream

Excerpt from an article by Alice Bradley in " Woman's Home
Companion "

This is the best ice cream for the money that we know. It may
be made ready for the freezer early in the morning, and kept in the
ice box until it is convenient to freeze it. It is quite possible to
utilize cream that is not perfectly fresh.

Put in the can of the freezer one pint of milk, one half cup of heavy
cream, one-third cup sugar, one teaspoonful vanilla, one-half
teaspoon of almond extract, a few grains of salt, and vegetable
color paste to make a delicate green color. Set the freezer in a pan
of hot water. As soon as the mixture is lukewarm, add one Junket
Tablet dissolved in one tablespoon cold water. Mix thoroughly
and let stand until firm. Put in the ice box until ready to freeze,
then put can in the freezer tub, adjust the crank, put in three small
measures of ice that has been crushed in a heavy bag or shaved
fine with an ice shaver, cover this evenly with one measure of rock
salt, add three measures more of ice and one of salt, let stand five
minutes and then turn the crank of the freezer for about ten minutes,
when it may be turned a little more rapidly. Continue the turning
until the mixture is firm.

Remove the dasher, pack ice cream solidly into the can, surround
wdth four measures of ice to one of salt, cover with heavy burlap
bag or newspaper and keep in a cold place until needed. Be sure
the opening in the side of the freezer tub is not plugged up, so that
any surplus of salt water will drain off instead of getting into the
freezer. It may be necessary to repack the freezer if the cream is
frozen very long in advance of the meal. The cream may be put
into a mold, set in the fireless cooker kettle, surrounded with ice
and salt and left in the fireless cooker all day. Peel peaches, cut in
thin shces, sprinkle with sugar and set in the ice box to chill. To
serve, place peaches in chilled dessert glasses, cover with ice cream
and garnish each with a candied cherry.

MILK SUPPLY AND CREAMERY PRODUCTS 67

In the following recipes the cream is added after the
junket prepared from mixtures of milk, sugar and
flavors has been partly frozen, a method which is
preferred by many.

Coffee Ice Cream

Make a cup of very strong coffee, add it to two quarts of warm
milk in which one cup of sugar has been dissolved, taste in order to
see if the flavor is strong enough, add three dissolved Junket Tablets,
stir quickly for one-half minute, pour into ice cream can and let
stand undisturbed ten or fifteen minutes or until set. Pack ^\^th
ice and salt; freeze to a thick mush before adding one pint of
cream, then continue freezing.

Simmons College Peach Ice Cream

Heat two quarts of milk lukewann in which has been dis-
solved one cup of sugar and two teaspoonfuls of vanilla flavor, add
two dissolved Junket Tablets, stir quickly for one-half minute and
pour into ice cream can, let stand undisturbed ten or fifteen minutes
or until set. Pack with ice and salt; freeze to a thick mush before
adding one pint of cream and crushed and sweetened peaches, then
continue freezing. Save the needed amount of peaches to serve on
top of ice cream.

Frozen pudding, strawberries, bananas, or pineapple,
may be added in this way when making any Junket
Ice Cream.

Orange Sherbet

Heat two quarts of milk lukewarm in which has been dissolved
two cups of sugar, then add two dissolved Junket Tablets, stir
quickly for a minute and pour into freezer can, let it stand ten or
fifteen minutes before packing with ice and salt; freeze to a thick
mush, then add juice and grated rind of six oranges and continue to
freeze.

68 THE STORY OF MILK

Raspberry Sherbet may be made in the same way by
substituting for the juice and rind of oranges one quart
of crushed and sweetened raspberries, and

Pineapple Sherbet by substituting two cups of grated
and sweetened pineapple.

Custard Ice Cream

When cream is scarce many housekeepers substitute a mixture
of eggs and milk. The fohowing is a good standard recipe which
can be varied by using different fruits and flavors the same as in
any of the above combinations.

1 quart milk 23^^ cups sugar

4 eggs 1 quart cream (or rich milk)

2 teaspoons vanilla

(more if desired)

Scald milk, add sngar, then add the well-beaten eggs. Cook until
thick, remove from fire and cool. Be careful not to cook too long
or it will curdle. Then add the cream and vanilla and freeze.

MILK SUPPLY AND CREAMERY PRODUCTS 69

BUTTER

As everybody knows, butter is one of the oldest and
most important products of the dairy industry and
since the middle of the nineteenth century, when science
was first applied to it, the art of buttermaking has
gradually been developed to a high degree of perfection,
while the taste for fine butter has grown apace with its
manufacture.

Between 1840 and 1850 the large estates in Holstein,
then connected with Denmark, were known for their
fine dairies and excellent butter, made in a practical
way without much attention to the reason for the
rules that were gradually worked out.

A class of superior dairymaids was educated on these
large farms, many of whom were hired by progressive
farmers on the Danish islands where an effort was made
at that time to introduce better methods of dairying.

The practical handicraft of these imported expert
dairymaids was supplemented and regulated by the
scientific work of Professor Segelcke and his pupils and
from the Sixties buttermaking became an art in Den-
mark which was subjected to the most searching study
and improvements. Danish butter soon captured the
English market where previously Isigny (from Northern
France) and Dutch butter had commanded the highest
prices, and Danish sweet butter put up in sealed tin
cans also became known all over the world as the only
butter that would stand export to the Tropics.

In this country Orange County, N. Y., first produced
a high-class article and, later, Elgin, 111., became the
center that stood for the top of perfection. Thence
the industry soon spread over the middle western states,

70 THE STORY OF MILK

largely populated by Scandinavian immigrants many
of whom were skilled butter-makers, educated in the
old countries. Even up to this day it is noticeable that
the list of prize winning buttermakers at the National
Dairy Shows and other exhibitions is largely made up
of Scandinavian names. In Minnesota, for instance, as
fine butter is now made as anywhere in the world.

Dairy Butter. — In the early days of the industry
butter was made at home on the farm. The milk was
set in shallow vessels, — in the Holstein and Danish
dairies in wooden tubs 24 inches in diameter placed
on the stone or concrete floor in the milk-vault, a cool
cellar partly underground, — or in tin pans on the
pantry shelf. After 36 to 48 hours the cream was
skimmed off with a flat scoop, often both cream and
skim milk being sour.

About 1860 the deep tin can was introduced, set in
cold running water or, where ice was available, in ice
water. This was a great improvement over the shallow
setting system. It was now possible to raise most of
the cream in 24 hours leaving not to exceed 34%
butter-fat in the skim milk, and to have both cream
and skim milk sweet.

Centrifugal Creaming. — But the climax of perfection
was not reached until the separator (see under Cream)
was invented about 1879 and cream was raised in-
stantaneously. For a long time it was the object of
the manufacturers to produce power separators of larger
and larger capacity, handling from 6,000 to 10,000
lbs. of milk an hour.

Co-operative Creameries were established, taking in
20,000 lbs. of milk and more a day. But in thinly
settled sections where the roads were poor it was ex-

MILK SUPPLY AND CREAMERY PRODUCTS 71

pensive to haul the milk a long distance to the creamery
and hand separators were introduced, each farmer skim-
ming his own milk fresh from the cows and delivering
the cream, only, to the creamery. This system has
the advantage of leavmg the skim milk on the farm
in the very best condition for the calves and hogs and
of saving time and expenses in transportation. It has
the disadvantage that many farmers can hardly be
expected to handle all of these separators as skilfully
and cleanly as the creamery expert can run his one or
few machines, and consequently that the skimming is
more or less imperfect — more butter-fat being left in
the skim milk and more impurities in the cream than
in the whole-milk creamery. But in practice the ad-
vantages of the hand separator and cream-gathering
system seem to be greater than the disadvantages and
it is rapidly taking the place of the whole-milk cream-
eries.

Ripening the Cream. — Butter may be made by
churning whole milk, but usually it is made from cream
that has been ^'ripened" or soured by standing for
about 10 hours at a temperature of from 65° to 75° F.
Modern buttermakers often pasteurize the cream and
then add a ^'starter" to sour it. By preparing the
starter with a pure culture of lactic acid bacteria
one can get the desired acidity and aroma, and ex-
clude undesirable flavors (as to Pure Cultures and
Starters, see under '^Bacteria" and ^'Commercial But-
termilk").

The process of ripening requires considerable skill
and attention and is one of the most delicate functions
the buttermaker is called upon to perform. In the
first place the cream must be faultless, sweet and pure

72

THE STORY OF MILK

before it is set to ripen, so the buttermaker will have
full control of the fermentation. For, if it is already
turned or partly fermented, no skill will avail to bring
it back to perfection. But with a first class, pure cream
the operator has it in his power to turn out perfect

Sanitary Cream Ripener showing coil swung up into cleaning position

butter. In the big western creameries cream is often
collected from farms at a distance of a hundred miles
or more and in warm weather such cream is likely to
arrive at the central plant in more or less advanced
condition. It is therefore difficult for the ceniralizers
to make really first class butter while the ^Svhole-milk
creamery" as well as the farmer handling his own
milk are in position to control the ripening from
the beginning, — starting with pure material and being

MTLK SUPPLY AND CREAMERY PRODUCTS 73

able to develop the desired flavor and acidity in the
cream.

After adding the starter to the cream it must be kept
at a uniform temperature of 65 to 75° during the ripen-
ing process and it must be watched carefully and oc-
casionally stirred gently until the consistency, aroma
and acidity are as desired. Then it should be cooled
quickly to stop further fermentation and if it is not to
be churned at once it should be kept cold until churning
time. Usually it is safer to set the cream in the morning
and hasten the ripening so it will be completed in the
evening rather than to leave it overnight warm. For,
if it is finished in the evening, the cream may be cooled
and placed in ice water overnight and one is sure to
have it in good condition for churning in the morning.
But it is quite feasible for the experienced operator to
regulate the process so the cream will not be fully
ripened in the morning until he is on hand to watch it
and see that the process does not go too far. Taste
and smell will tell when it is just right, and the acid
test may also be applied to determine when to stop
the fermentation. An acidity of .5% is usually desired.
\Mien the condition is right, chill the cream, cooling it
to below 50° — preferably down towards 40° — and leave
it in ice water or in the refrigerator until churning time;
then temper it to the proper temperature for churning.

Even if it is to be churned soon after the ripening
is completed it is best to chill it and then raise the
temperature to the point wanted for churning. This
gives a better '^grain" and ^^body" to the butter than
if the ripened cream is just cooled to the churning
temperature, and is especially desirable when the cream
has been pasteurized.

74 THE STORY OF MILK

Coloring. — When the cream is ready it is poured into
the churn and a httle butter color is added. Some

Branch of the Annatto tree

people prefer butter very light or even uncolored, but
usually 1 to 2 teaspoonfuls of a standard butter color *
to 10 gallons of cream will be found right, varying

* Butter Color is made of the coloring matter of "Annatto" dissolved
in a refined vegetable (salad) oil. The Annatto tree (Bixa Orelana)
grows in the tropics and the seed which has a thin coating of this beauti-
ful coloring matter comes mostly from the West Indian Islands, Jamaica,
Porto Rico and Guadeloupe. It is perfectly harmless and is used by
the natives to flavor and color soup and other foods much as we use
tomatoes.

MILK SUPPLY AND CREAMERY PRODUCTS

75

according to the season and the breed of cows furnish-
ing the milk. The butter-fat in Guernsey and Jersey
milk is naturally highly colored, while that in Holstein
milk is comparatively white. When the cows are on
fresh pasture in the early summer the butter-fat is

p*s^rK-'^^

- -- —

- - - - -.Kf^

i^

%

\

^^9

Kfa£,fll

dl

J^2

Adding the butter color

more highly colored than when they are on dry food.
The amount of coloring to be added to the cream is
regulated to overcome such variations and make the
butter of uniform color all the year round.

Churning. — Hundreds of varieties of churns have
been constructed from time to time; 2,000 years ago
Pliny described the old dash churn much the same as
still occasionally used on the farm, and the principle

76

THE STORY OF MILK

involved in the process has not been changed. The
object is to make the fat globules conglomerate into
grains that can be collected and leave as little butter-
fat as possible in the buttermilk.

The best temperature for churning varies from 48°
to 56° and must be determined by local conditions and

experience. To allow plenty

'^^^;^^^^^^^^^j» of room for the cream to

Old Arabian churn made out of Ancient churn
the skin of a goat

Danish churn

shake about, the churn should not be much more than
half full. When the globules of fat suspended in the
milk stick together and form granules as large as good
sized pin-heads it is time to stop the churn and drain
off the buttermilk. If the butter fails to ''come" in
half an hour or forty minutes it may be because the
cream in the churn is too warm or too cold. A little
cold or warm water, as the case may be, can be added
as a simple remedy.

Toward the end of the process care must be taken
that the churn is stopped at the right moment, when

p^ If

78 THE STORY OF MILK

the butter will separate clear from the buttermilk.
After the buttermilk is drawn off pure cold water is
poured into the churn and the butter granules are
rinsed in it. This water again is drawn off and fresh
cold water put in.

Working the Butter. — The butter can now be taken

Butter worker

out with a sieve and worked on the butter-worker, or
it may be worked in the churn. ''Working" the butter
consists in squeezing out the buttermilk and kneading
the butter into a smooth but not ''greasy" mass. If
it is too warm and if it is worked too much, with a
sliding motion instead of just pressing, the butter is
apt to become greasy. If there seems to be any danger
of greasiness, it is better to stop and put the butter
in a cool place for a few hours to recover its elasticity.
The working can then be finished safely.

MILK SUPPLY AND CREAMERY PRODUCTS 79

Salting. — During this working process salt is added
and thoroughly distributed and worked in. About half
an ounce of salt is used for a pound of butter.

Composition of Butter. — Wlien finished, the butter
ought not to contain more than 12% to 15% of water,
and there should be at least 80% of butter-fat. If all
the butter-fat originally in the milk could be taken out
in the butter, 100 lbs. of 4% milk should yield 4.88%
(4.88 lbs.) of butter with 82% butter-fat. But a little
is lost in the skim milk and more in the buttermilk,
which usually contains Yf/o fat, so that about 43^
lbs. is all the butter that can be expected from 100 lbs.
of milk.

Overrun. — Creamery men are much interested in the
^'Overrun" which means the increase from the churn
over the amount of fat in the milk. For instance, if a
quantity of milk containing 100 lbs. butter-fat as shown
by the Babcock Test produces 114 lbs. of finished
butter, the overrun is 14%. The buttermaker who
gets the largest overrun by reducing the loss of butter-
fat in the skim milk and the buttermilk to a minimum,
keeping the percentage of water in the butter just
below 16%, and yet producing high scoring butter, is
considered most efficient.

Packing. — For the market, butter is packed in tubs
or stone jars. Or it is molded in neat one-pound bricks
and WTapped in parchment paper.

Sweet Butter .^Real '' sweet '^ butter is churned from
fresh, sweet, unsoured cream. But usually the name
is given to the unsalied and uncolored butter that
many people relish. Without the salt it does not keep
as well as ordinary butter, and must be eaten quite
fresh. Well-made salted butter will keep for months

80 THE STOKY OF MILK

with ordinary care, and in cold storage it may be kept
a year. But when it comes out of cold storage it must
be used within a few weeks, for butter, like other cold
storage foods, will soon spoil and become rancid when
it is exposed to a higher temperature for any length of
time.

Renovated Butter. — Butter that has become old and
rancid can be ''renovated." The butter is melted and
the butter-oil washed, — aerated in the renovating
plants,— and then churned with fine-flavored sour skim
milk. From the sour skim milk it gets back its old
butter flavor. The granular physical consistency of
fresh butter is gained by pouring the emulsified mixture
over cracked ice or into ice water. By the time the
excess of "buttermilk" has been removed by working,
and salt has been mixed in, the renovated butter may
be almost as good as fresh creamery butter.

Oleomargarine or Butterine is made in much the same
way. A mixture of beef-fat (the soft part of beef-
tallow) and lard and cottonseed oil is churned with
sour milk and worked and granulated like renovated
butter. For the better grades, some of the finest
creamery butter is mixed with it, so that the mixture
can hardly be distinguished from real butter.

Coco-butter, Nut-butter, etc., in great variety, are now
also on the market as substitutes for butter, all pre-
pared in a similar way, but lacking the vital unknown
element that makes genuine butter so superior to
substitutes.

BUTTERMILK

If the cream has been carefully ripened, with or
without a pure culture starter, and it has shown the

MILK SUPPLY AND CREAMERY PRODUCTS 81

proper sourness when churned, the buttermilk will be
of a pleasing taste and flavor. Its thickness will of
course depend upon the amount of water, if any, added
to the cream in the churn during the buttermaking.
If the buttermilk is to be used for human food care
must be taken not to dilute it too much.

Cooling Essential. — If buttermilk is left to stand for
hours in a warm room, fermentation goes on and may
soon spoil the buttermilk by making it sloppy or bitter.
It should therefore be cooled at once when drawn from
the churn; if kept in ice water it may remain in fine
flavor for several days. Well taken care of it is not
only a pleasing and refreshing drink but eminently
healthful. In cooking, too, it can be used to advan-
tage.

Commercial Buttermilk or Cultured Milk is simply care-
fully soured milk. It can be made at home from fresh
milk either whole or skimmed or partly skimmed. Par-
tially skimmed milk containing from 1% to 2% butter-
fat is plenty rich enough and even better for most pur-
poses than whole milk. The essential qualities of good
buttermilk depend upon the proper ripening of the
cream or milk, the development of a pure ^' breed" of
healthful bacteria in a clean field free from weeds. Such
a plantation or '^ culture" may be grown in milk as
well as in cream. Its function is to turn the sugar of
milk into lactic acid under the development of pleasing
flavors and whether the butter-fat is removed by the
separator or by churning makes little difference. In
natural buttermilk there is always a little butter-fat —
at least H% — left, mostly in the form of fine granules,
too small to be retained in the butter. If the same
amount of butter-fat is left m ^^kim milk and that is

nB\^^

82 THE STORY OF MILK

ripened and churned, the product will be identically
the same as natural buttermilk from ripened cream.

Ripening.^ — For best result the milk should be pas-
teurized, not necessarily as thoroughly as for starters,
but sufficiently so as to destroy all obnoxious bacteria
and give those introduced through a pure culture
starter a chance to grow. Buttermilk may, however,
also be made from good, clean, unpasteurized milk of
good flavor. Whether pasteurized or not the milk is
set to ripen with from 5 to 10% starter at a temperature
of from 65 to 75°. The preparation of starters is de-
scribed under '^Bacteria" and the ripening of the milk
for ''buttermilk" is essentially the same process (see
also under Ripening of cream for butter). When rip-
ened to the desired acidity, — say .5% to .6% by the
acid test, — stop further fermentation by thorough
cooling.

Breaking up the Curd. — After cooling, the ripened
milk may be broken up fine and if vigorously shaken
or ''churned '' it will remain smooth and creamy. Other-
wise it may separate into curd and whey. If churned
long enough for the butter to form, it becomes ab-
solutely identical with real buttermilk. But, for all
practical purposes, a vigorous shaking for a few minutes
is enough.

Thick Milk.— "Thick Milk'' as eaten in Scan-
dinavia is made in the same way as commercial butter-
milk, except that the milk — rich whole milk — is set to
ripen in the bowl in which it is to be served. Instead
of being churned or stirred, it is left thick, to be served
as a pudding, like Junket made from sweet milk. The
rich layer of cream that forms on top is excellent.
" Thick Milk " is eaten plain with the oatmeal for

MILK SUPPLY AND CREAMERY PRODUCTS

83

breakfast, or as a dessert with grated stale bread and
sugar spread over it.

The uses of buttermilk in making pancakes and for
many other culinary purposes are mentioned in the
chapter on ^'iNIilk Cookery."

Yoghourt or Bulgarian Sour Milk is prepared with a
culture of bacteria originally found in Bulgaria where
JNIetchnikoff, the late director of
the Pasteur Institute of Paris, found
people living to exceptional old age
which he ascribed to the fact that
their principal diet is sour milk of
very high acidity.

The theory is that a luxurious
growth of lactic acid bacilli, acting
as a geimicide, destroys other fer-
mentations in the lower intestines.
The bacilli active in Yoghourt re-
quire a somewhat higher tempera- ^^^ author of "The

J- 4' j-i. • u J. xi, J.1, xi. Prolongation of Life"

ture for then* best growth than the
lactic acid bacilli predominant in sour cream for the
finest butter, a fact which must be taken into con-
sideration in preparing the various products.

Dr. Elie Metchni-

FERMENTED MILK

In the preparation of Koumis, Kefir and other fer-
m.ented milks of the same class. Yeast plays an im-
portant part, changing some of the milk-sugar into the
alcohol which is found in these preparations in quan-
tities up to 2%.

Koumis was first made from mare's milk by the Tar-
tars, but is now prepared in this country from cow's
milk by the addition of sugar and yeast. As carbonic

Baba Vasilka, 126 years old and her son, Tudor, 101; Bulgarian peasants
whose principal food has been sour milk all their lives

MILK SUPPLY AND CREAMERY PRODUCTS

85

acid is developed in the process it is quite effervescent
and may be regarded both as a food and a stimulant.
It is sometimes prescribed by physicians in cases when
the patient cannot retain other food.

Kefir is a similar preparation originally made in the
Caucasus by a fermentation started by Kefir grains
which contain both yeast and various bacteria. The

d^ ^^ — /

Kefir grains of natural size; a, b and c dried; d, e and f soaked (Orla
Jensen, IVIilk Bacteriokjgy)

dry Kefir grains are soaked, first in lukewarm water,
later in lukewarm milk, for several days, until they
develop so much gas as to float on the top. A couple
of tablespoonfuls of the grains are then added to a
quart of milk which is left to ferment at 70° F. under
frequent stirring or shaking. WTien the fermentation
is fully developed the grains are strained off and the
milk is bottled and kept for 1 to 2 days at 60°. The
grains may be used at once again in fresh milk, and
when the manufacture is finished they may be dried
and kept, to be used again another time.

CHAPTER III

CHEESE

Most of the following pages on Cheese were published
in 1918 as a separate pamphlet to meet an urgent de-

Students making cheese in the University cheese factory, Madison, Wis.

mand for brief directions along this line during the
Food Conservation campaign. The copy has, how-
ever, been revised and new material has been added

86

CHEESE 87

with the view of making this chapter more useful to
those who desire to study in detail the manufacture
of various fancy foreign types of cheese such as Edam,
Swiss, Brick, Roquefort, etc., which are now made in
this country in constantly increasing quantities.

For more complete directions in cheese making
students are referred to '^A B C in Cheese Making"
by J. H. ]\Ionrad, and other technical w^orks.

Cheese of a thousand different kinds is made, varying
in properties and appearance from the solid, yet mellow
and agreeable Cheddar cheese to the semi-soft, mal-
odorous Limburger, the delicious, soft Neufchatel and
Cream cheese, or the sw^et JVIyseost of Norway. In
India cheese was made centuries ago ; to-day it is pro-
duced the world over, in the caves of the Swdss Alps and
in the most modern and scientific American cheese
factories and laboratories. Of these myriad t^pes we
can here describe only a few.

Cheese may be classified into that made with rennet
and that made without. Of cheese made with rennet
some is what is called hard, some soft.

The English and American Cheddar — the common
American cheese — the Dutch Gouda and Edam, the
Swiss Gruyere, and the Italian Parmesan are all hard
cheese made with rennet. As examples of the soft
varieties may be mentioned the French Camemhert and
Brie, Cream and Neufchatel cheese. In a class by them-
selves are such cheeses as the French Roquefort, the
English Stilton, and the Italian Gorgonzola, their pecu-
liar flavors being derived from molds implanted in the
curd.

AVhen cheese is made without rennet, the milk is
allowed to curdle by natural acidity or it is in some other

CHEESE 89

way made acid. Among the varieties made by this
method the common Cottage cheese is the best known.

For many years imitations of foreign varieties such as
Swiss and Limburger have been made in Northern New
York and Wisconsin. As a result of the war and the
cutting off of foreign cheese imports, the State of Wis-
consin has built up a large business in these fancy va-
rieties. New types have lately been added, as the
Romano, Riggiano, and Alyzethra, which are of Italian
and Greek origin. Some of these are made of whole
milk, some of partly skimmed milk, and others of the
albumin of the whey.

Let us briefly review the characteristic features in
the making of the older types.

CHEDDAR CHEESE

For a hundred years or more this famous cheese has
been made and marketed at the village of Cheddar near
Bristol, England.

In the middle of the nineteenth century a farmer in
that neighborhood, Joseph Harding of ]\Iarksbury Vale,
systematized the manufacture and it was his method
that became the model for cheesemaking in America.
In this country it was first made in Herkimer County,
N. Y., where Harry Burrell not only made cheese for
the home market, but also exported to England, and
his son, David H. Burrell, at Little Falls later developed
the machinery w^hich became the standard for the
American and Canadian cheese factories.

The factory system by which cheese was made from
milk brought together from several farms, originated
near Rome, N. Y., and soon cheesemaking became an
important industry throughout Central and Northern

90 THE STORY OF MILK

New York whence it spread into Pennsylvania, Ohio
and the West, as well as to Canada. To-day Wisconsin
makes more cheese than all the other states together

Joseph Harding, who David H. Burrell, Jesse Williams, father
systematized the mak- who introduced labor- of the American fac-
ing of Cheddar cheese ^^^^",? machinery and ^ory system

^ supplies m the cheese

m England factories

and Canada largely supplies England with Cheddar
cheese of excellent quality.

The Factory System

The milk is delivered in the morning by the farmers
at the factory and is weighed and strained through
cheese-cloth into the cheese vat. When it is all in the
vat it is warmed to a temperature of 86° F. by letting
steam into the water surrounding the bottom and sides
of the jacketed vat.

Ripening.^ — The milk should be slightly acid, not
noticeably sour, yet sufficiently ripened for the proper
fermentation to take place in the process that follows.
The best cheesemakers regulate the ripening by adding
a starter to the sweet milk and allowing the lactic acid

CHEESE

91

bacteria to multiply in the milk until a Rennet Test * or
Acid Test ** shows that the desired degree of acidity has
been reached. The starter may be sour whey or prefer-

I

A measuring
glass and an ac-
curate thermome-
ter are indispen-
sable

The Marschall rennet test

ably prepared from sweet skim milk or whole milk
with a commercial lactic acid culture as described in
Chapter I under Ferments and Buttermilk. From 1% to

* The Marschall Rennet Test consists of a graduated cup (a) with
a fine hole for an outlet in the bottom. One cubic centimeter of a stand-
ard rennet extract is diluted with water in the glass bottle (c). The cup
is filled with milk and placed on the corner of the cheese vat, the milk
being allowed to run through the fine hole in the bottom of the cup.
The moment the surface of the milk reaches the upper mark of the
graduation in the cup the diluted rennet extract is added and quickly
stirred into the milk with the spattle (d).

When the milk begins to curdle it stops running out. The sweeter
the milk is the more will run out before coagulation stops it and the
mark on the scale at which it stops indicates the degree of acidity or
ripening. The point is to have the milk alike every day and if, for in-
stance, the cheesemaker has found that his cheese is best if he adds the
rennet to the milk in the vat when the test shows 23^, he wants to ripen
the milk to that degree every day. So, if the test shows 3 or 4, it in-
dicates that the milk is not sufficiently ripened and it should be allowed
to stand warm for a longer time before it is set with rennet.

** The Acidometer for making an Acid Test is described in Chapter I.

92

THE STORY OF MILK

2% starter is usually sufficient. An acidity of .18% to
.20% or 23^ degrees on the Rennet Test is usually de-
sired before the rennet is added.

Adding Color and Rennet.* — If the cheese is to be
colored, from 1 to 2 ounces of liquid cheese color (An-

C hrist ian D. A.
Hansen, inventor of
commercial rennet ex-
tract

Blowing up the rennets to dry them

natto dissolved in an alkali) per 1,000 lbs. of milk is now
added and thoroughly mixed into the milk which is

* Rennet (see under " Ferments " in Chapter I) is prepared from the
third division of the stomach of the suckhrig or milk-fed calf. Fifty
years ago cheesemakers used to make their own rennet by soaking
salted calves' stomachs in sour whey, and ouf grandmothers used a piece
of a dry, salted stomach to make Junket or "Curds and Whey." About
1868, Christian Hansen, of Copenhagen, Denmark, began the prep-
aration of Commercial Rennet Extract which soon supplanted the
home-made rennet in all countries wherever cheese was made. Now-
adays rennet in liquid or powder or tablet form for cheesemaking, and
Junket Tablets for milk puddings, are prepared pure and of known
strength in laboratories and handled by druggists and dealers in dairy
supplies.

The fresh stomachs are saved by the farmers or butchers and are

CHEESE 93

then set with rennet. Three ounces of a standard ren-
net extract to 1,000 lbs. of milk is usually sufficient.
Enough should be used so that the milk will show be-
ginning coagulation in 10 to 15 minutes and be ready to
cut in 30 to 40 minutes.

The extract should be diluted with ten times as much
water and is then poured into the milk under vigorous
stirring so as to be thoroughly distributed and incor-
porated in the whole mass.

Owing to the scarcity of the raw material for rennet
extract during the war, pepsin extracted from hogs'
stomachs has been substituted in many factories and is
used either in dry form or as a liquid extract instead
of rennet extract.

With pepsin as the coagulant it is necessary to ripen
the milk somewhat further than if rennet is used, in
fact to the danger-point where a little more acidity is
apt to do harm and produce a dry and crumbly cheese

either blown up and dried in the air protected from sunlight and rain,
or spht lengthwise and spread out flat and salted on both sides.

In the laboratory the ferment is extracted by chemicals and a pure,
clear liquid extract is prepared, of uniform strength and good keeping
quahty. Or the extract is condensed into a powder which again is
compressed into tablets of great strength.

The ferment acts best when the milk is lukewarm, but it will do the
work at temperatures ranging from 50°, or even lower, to 120° F.
Strongly pasteurized or sterilized milk will not curdle with rennet,
but milk pasteurized at a low temperature is not changed enough to
prevent it from making a firm curd. More rennet does not make a
finner curd but causes the milk to curdle quicker; less rennet makes
the process slower. Diluted milk will not curdle firmly, and the failure
of milk to make a smooth coagulum of the usual consistency and in
the usual time, the temperature being right and the regular amount
of a standard rennet being u.sed, is a never-failing proof that something
is the matter with the milk. It has been changed from its natural con-
dition by over-heating in pasteurization or by watering or doctoring,
or it h^s not been properly ripened.

94

THE STORY OF MILK

and loss of butter-fat in the whey. Most cheesemakers
therefore prefer rennet when they can get it.

The rennet having been added, the milk is left un-
disturbed until a firm curd has been formed. When
the curd breaks or splits sharply before the finger
pushed slowly through it, it is ready to be ''cut."

Cutting. — Two sets of curd knives are used, each
consisting of a metal frame in which tinned steel blades

are hung, in one vertically
and in the other horizontally.
The vertical knife is first car-
ried slowly through the curd
lengthwise and crosswise; the
horizontal set of blades is
then moved carefully through
the length of the vat. When
the cutting is over, the entire
mass should be in cubes about
half an inch square.

The whey that begins to
separate out should be clear
and yellow. Milky whey is a
sign that the butter-fat is es-
caping in it; the curd has
been broken up too violently.
In curdling, the casein encases
the butter-fat and the object of the breaking up of
the curd in the vat is to expel the whey but retain the
fat in the cheese.

" Cooking " the Curd. — Gentle heat is now applied to
raise the temperature gradually to 98° or 100° in the
course of about 30 minutes. Meanwhile the small
pieces of curd are kept floating in the whey by gentle

Curd knives

CHEESE 95

stirring with a rake and the hands, and are not allowed
to pack at the bottom of the vat. The heating is easily
regulated by opening the steam valve little by little.
Through the ^^ cooking'' the pieces of curd shrink to

Cutting the curd

some extent and are hardened so that they will grad-
ually stand livelier stirring without losing butter-fat.
After the cooking the curd is left for an hour or so in
the whey for a slight acidity to develop and it is then
shoved toward the sides of the vat and the whey is
drained off. Here again the ''Acid Test" may assist
in determining when the whey should be drawn.

Cheddaring or Matting. — After thorough draining,

96

THE STORY OF MILK

the curd is packed together in the bottom of the vat or
on a ''sink" provided with a false bottom covered with
cheese-cloth. After fermenting for 10 or 15 minutes it
is cut into large pieces which are again packed together

"Cheddaring" or "Matting" the curd

for further matting. The exact condition to be attained
can be determined only by experience.

A simple test, the ''Hot Iron Test/' may, however,
help the cheesemaker to judge of this point. A hand-
ful of curd squeezed together and touched to a hot
steam pipe or an iron rod heated almost red-hot in
the fire under the boiler, and slowly withdrawn, will
leave threads sticking to the iron. Depending upon the

CHEESE

97

maturity of the curd, the threads will break at a length
of from 3^ to 2 inches. Usually fermentation is con-
sidered sufficient when threads 13/^ inches long are
formed by this test.

Salting. — The matting is then interrupted by breaking
up and salting
the curd. This
can be done by
hand or by a
curd-mill which
cuts or breaks
up the curd and
permits a thor-
ough mixing in
of the salt. Two
or three pounds
of salt to one
hundred pounds of curd^
milk, is the usual ratio.

Pressing. — Stirring and cooling the salted curd to
about 80° F. makes it ready for packing into the hoops
in which it is to be pressed. The hoop is usually a
cylinder of hea\y tin with a ''follower" of wood on
which the pressure is applied. Before the curd is put
in, the hoop is lined with cheese-cloth which remains
on the cheese, when it is taken out. The press mostly
used in the factory is the continuous pressure ''gang-
press" in which a number of cheeses can be pressed at
the same time.

Curing. — ^After 18 hours' pressure the cheese is taken
out of the press and out of the hoop, weighed and placed
on a shelf or table in the curing room. For the first
week or ten days it is kept at a temperature of about

Curd mill

or the curd from 1,000 lbs. of

98

THE STORY OF MILK

70°, later the cheese is removed to a cooler room and
possibly placed in cold storage. Usually it is paraffined
to prevent too much drying and cracking of the rind.
To cure a first-class Cheddar cheese takes from three

Filling the curd into the hoops

to six months, but most of the American cheese is made
to cure much more quickly and is eaten two to four
months old. Indeed, it is generally shipped from the
factory eight to ten days old and whatever further
curing it gets is in the warehouse of the commissionman
or in the grocery store.

Form, Size and Packing. — The old style American
cheese is cyclindrical, about 14 inches in diameter, and

CHEESE

99

varying in depth to weigh between 60 and 80 pounds.
Various other forms are now often made, square and
long or in fancy shapes, such as a ball or a pineapple.
Aside from such freaks, which have never become very
popular, other deviations from the large, standard,
American Cheddar, are also made to a considerable

The Gang press

extent. People who have visited the beautiful National
Dairy Shows held in turn in Chicago, Springfield, Mass.,
and Columbus, O., the National Milk and Dairy Farm
Expositions of New York City, the Ontario Provincial
Fair held each year at Toronto, or the annual State
Fairs in New York, Wisconsin, Michigan and other
cheesemaking sections will have in mind first the prom-
inent exhibits of the regular Cheddar, showing a uni-
formity in texture, form and taste that is really remark-
able. But one will also admire the variety of other

100

THE STORY OF MILK

forms. There are the Flats or Twins, packed two in a
box and weighing together the same as one American;
the Young Americas packed four in a box; the Longhorns
of six to eight inches in diameter; others made Hke a loaf

Taking the cheese out of the press

of bread and creased so that a pound or two may be
cut off fairly accurately, etc.

The Giant Cheeses, weighing five to six tons, occa-
sionally exhibited and cut up at World Fairs and on
similar occasions are, like the pineapple cheese, a curi-
osity rather than an industrial product.

One of the best forms, in the writer's opinion, is the
small 5-lb. cheese, proportioned exactly like the large

CHEESE

101

American. This makes a suitable size for an average
family, the members of which have learned to appre-
ciate a good cheese. If it is made smaller, too much is

Curing room

lost in the rind ; if larger it gets too old before it can be
consumed by one family.

The larger cheeses are usually packed in neat, snug-
fitting elm-wood boxes, with thin ''Scale Boards'^ on
the top and bottom of the cheese, the smaller ones in
paraffined pressed pulp or pasteboard boxes.

Cleaning the Vats and Utensils. — Like every other
place where milk and its products are handled, the
cheese factory must be kept scrupulously clean. Vats
and utensils should be rinsed first with cold or lukew^arm
water or whey, then scrubbed with boiling hot water

102

THE STORY OF MILK

and if necessary with soda, soap, or washing powder.
The surroundings should be kept neat and attractive,
and the cheesemaker must see that the transportation

cans are kept clean by the farm-
ers and the milk delivered in
good condition.

Yield. — The yield is around
10% of the milk. To make a
pound of fresh cheese takes
from nine to eleven pounds of
milk. In curing, a part of the
weight is lost by evaporation,
but this loss is reduced to a
minimum by paraffining.

In some localities an increased
yield is obtained by washing the
curd and making it absorb all
the water it can hold. The process is not commendable
and while it may sell to some extent, in certain markets
where a soft, fresh cheese is liked, ''washed" or
''soaked" curd cheese can never compare favorably in
quality with a well-made, firm Cheddar cheese that is
mellowed down by long-time curing to a consistency so
it will fairly melt in your mouth.

Composition. — The American cheese contains almost
all the casein and the butter-fat of the milk, besides
such portions of the milk-albumin, milk-sugar, and
mineral matter as are held in the water or whey which
is retained in the cheese. In round figures average
American cheese contains equal parts of casein, butter-
fat and water, 30 to 35% of each. In order to pro-
tect the honest maker and the consumer and pre-
vent "soaking" of the curd to an extent that may be

Cheese box

CHEESE 103

considered fraudulent, the dairy laws of the State of
New York limit the contents of water permissible to
40% and 42% respectively for certain classes of cheese.
Qualities. — A good Cheddar cheese should be mellow,
yet solid, without holes, and of an agreeable taste,
neither sharp nor bitter. Cheese can be made of skim
milk, but it is hardly palatable. In the fall of the year,
when the average milk is rich in butter-fat, 1% or 2%
butter-fat may be taken from the milk and the re-
sulting partly-skimmed milk will still make a fairly
good cheese, hardly distinguishable from full cream
cheese. Under the laws of the State of New York it
must, however, be marked ''Skim Milk Cheese.'^

Cheese Made from Pasteurized Milk

From time to time attempts have been made to make
Cheddar cheese from pasteurized milk. If the milk
is heated to 145° only, and held for 30 minutes at such
temperature, its property to form a firm curd with
rennet is not destroyed and it will make a fine cheese,
but if it is pasteurized at a higher temperature it will
not curdle firmly until it is ripened or otherwise brought
back to the condition required for satisfactory action
of the rennet ferment. Thorough ripening with a pure
culture starter will do it, or an addition of muriatic
acid will accomphsh the same in a shorter time, but
care must be taken not to use too much, which would
make the cheese dry and crumbly. Dr. J. L. Sammis
and A. T. Bruhn of the Wisconsin Dairy School worked
out the problem and systematized a process which is de-
scribed in Bulletin 165 of the U. S. Department of Agri-
culture and by which it is claimed a first-class cheese can
be made regularly from thoroughly pasteurized milk.

104

THE STORY OF MILK

Making Cheddar Cheese on the Farm

It takes quite a little experience to make a goo(
Cheddar cheese and, unless one has the time and op

American outfit for farm cheese making

portunity to study it and make it an every-day practice,
it is not as a rule advisable to attempt making Cheddar
cheese in the home from the milk of one or a few cows.

The amateur will usually find it easier to make Neuf-
chatel or Cream or Cottage cheese for home use or for
the home market.

If Cheddar cheese is to be made regularly it is best
to get an outfit consisting of a small boiler and a jacketed

CHEESE

105

vat, although cheese may be made in a plain wooden
tub or any other convenient vessel. The double bot-
tomed vat generally used in American as well as in
Danish dairies facili-
tates both the heating
of the milk before set-
ting and the '^cook-
ing'' of the curd in
the whey after cutting.
Either low pressure
steam, or — better —
water heated by steam,

is introduced in the Plain wooden vat and curd miU

space between the outer, wooden bottom and the inner,
tinned steel or copper bottom. If it is cool the milk
should be warmed to 86^ F. In the summer it may be
warm enough as it comes in, fresh from the cow. If
not, heat it by steam or by setting it in a ''shot-gun"
b

Danish kettle and cheese vat

can in another vessel of hot water, stirring frequently,
until the thermometer shows 86°. It may be well to
add a little buttermilk or sour whey from the preceding

106 THE STORY OF MILK

day, or a pure culture starter made with Buttermilk
Tablets, not to exceed 1% or 2%.

If it is desired to make colored cheese add a tea-
spoonful of liquid cheese color, or J^ cheese color tablet
dissolved in warm water, to 100 pounds of milk, more

Cutting the curd

or less according to season and the shade of color de-
sired in the cheese.

Next add the rennet. Where cheese is made from
less than 500 lbs. of milk Rennet Tablets are handy, one
tablet to 80 or 100 lbs. For less than 50 lbs. of milk,
Junket Tablets may be used, one to a gallon. Dissolve
the tablet, or tablets, or fraction of a tablet, as the case
may be, in cold water and stir the solution well into the
milk, making sure of thorough mixing. Let stand cov-
ered for half an hour until a firm curd is formed. Cut
or break the curd very carefully with a big knife or
spoon or home-made fork with wires across the prongs,

CHEESE

107

imitating as far as possible tlie operation with curd
knives in the factory.

''Cook" the curd as in factory cheesemaking. If
steam is not available, allow the curd to settle and dip

Taking the temperature of the milk
LQ a shotgun can

Curd fork

'^ ^r

Mold or "Hoop"

off some of the whey w^hich is then heated and poured
back on the curd so as to raise the temperature of the
whole mass about 2 degrees. Repeat this several times,
gradually raising the temperature to 100°, a few degrees
at a time.

Keep the curd gently stirred up and floating in the
whey and do not allow it to he on the bottom of the

lOB

THE STORY OF MILK

vat long enough to pack firmly together, stirring once
in a while until by smell arid taste (if not also by acid
or hot iron tests) it appears to be sufficiently fermented
for the whey to be drawn, a condition that can only be
learned by experience. This will
be about two or three hours from
the time the rennet is added.

Draw the whey and press more
out of the curd with the hands.
Let the curd mat and break it up
alternately several times; finally
crumble and pulverize it and keep
it stirred with the hands, adding
salt at the rate of three to four
ounces to the curd from 100 lbs.

1

a:.

Diagram of lever press

Combined screw and
lever press

of milk and continuing the stirring until the curd is
cooled down to below 80°, when it should be packed
into the hoop and put to press. This salting and cooling
may take another hour. The hoop may be made of
wood or heavy tin of any size desired, with a loose fol-
lower of wood. The sides and bottom should be per-

CHEESE

109

forated to allow the whey to escape. Or it may be a
cylinder without top or bottom, placed on a corrugated
piece of board. Line the hoop with cheese-cloth before
putting in the curd.

For pressing, a home-made lever-press, as outlined in
the diagram, may be made of a plank or bar, one end

Upright factory and dairy cheese press

of which (C), is stuck under a piece of a board nailed
on the wall while at the other end a weight (K) is ap-
plied which may be moved in and out to regulate the
pressure. The hoop is placed under the plank at the
fulcrum (Ki) near the wall. If a compound lever-press
or a screw-press is available it is better. It is important
that the pressure is applied straight so as to make the
cheese even and not one side lower than the other,

110 THE STORY OF MILK

Begin with light pressure and increase it gradually
every hour until at night the full pressure is applied.
After an hour take the cheese out and turn it in the
hoop, then return it to the press and at night apply
full pressure. The next morning take it out and weigh
it and place it on the shelf to cure in a room of mod-
erate temperature, turning it every day. After a couple
of weeks it may be removed to a cool cellar and rubbed
with grease. In two to three months it should be suffi-
ciently matured for consumption.

CHEESE

111

OTHER TYPES OF HARD CHEESE MADE WITH RENNET

In the manufacture of the Dutch Gouda, the Danish
Export, and other similar t^i^es, the " cooking '' and

^^^^^Hg^^pB^^^^HiAaBx^Baaiiniwfiiiia

C^^^^^H

viiiLTiccin ClKH^scjMttiMHMM

^^^^^^B

^H

^^^^^^^^^^1 I'nrci;^!! '^^^^^^^Bi

■Pi^^^^l

^MfWmJ p

1 iTj^^BJ^^^^^^^*^

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/ -m i

'' V ' ■ "'^^'^B

j^ i

•.3--iu^- --^

A variety of domestic and foreign cheese made at the dairy school of the
University of Wisconsin

matting of the curd, characteristic of the EngHsh and
American Cheddar, are more or less omitted. Other-
wise the process and the result are not greatly different.
They are all ''hard" or solid cheese of the same class,
though there are hundreds of varieties in different
localities, each with some peculiarity of its own.

112

THE STORY OF MILK

Gouda Cheese. — The Gouda, like the Danish Export
cheese, is made from whole or partly-skimmed milk
which is set with rennet at 90° F. and is coagulated,
ready for cutting, in fifteen to twenty minutes. The
curd is broken with the ''lyre,'' so called, a frame on
which piano wires are suspended.
The curd is but slightly ''cooked''
and the whey is drawn while still
sweet. After being pressed with
the hands in the vat to squeeze
Gouda cheese ^^^ ^^e whey the curd, still quite

warm, is put into wooden molds and worked and
squeezed in them with the hands for half an hour to
eliminate more whey, when the mold is placed in a
regular press for 12 to 18 hours. To salt it the cheese
is placed in a strong brine where it remains for several
days. It is then put on the shelf in the
curing room where it is turned and
rubbed daily and in four to six weeks it
is marketed. The cheese is about 10
inches in diameter by 4 to 5 inches
high.

Edam Cheese. — The ball-shaped red
Edam is also made in Holland by a
similar method to that of the Gouda.

Fresh milk is set at from 90° to
93° F. in summer and up to 97° in win-
ter,— colored to a rather high yellow
with Annatto. Add sufficient rennet to coagulate the
milk in 8 to 15 minutes. Cut curd carefully with the
"lyre" and break with fork into very fine pieces, as
small peas. Leave to settle for 3 to 4 minutes, putting
cover on the vat if the temperature in the room is

The Lyre

CHEESE

113

below 60"". When settled, the curd is gently pushed
into a heap which takes 5 to 6 minutes and the whey
is removed with a dipper. Weight is applied for 5
minutes and the tub or vat is tipped so the whey will
drain off while the curd is held back with the dipper.

Curing room in a Gouda cheese factory

This pressing is repeated twice more for 4 and 3 minutes
respectively.

The curd should now be elastic and firm and show a
temperature, in winter of at least 83°, in summer at
most 90°. If necessary the temperature is regulated
by pouring hot whey (not exceeding 104°) or cold water
over the curd.

The mold is then placed in the vat and two handfuls

114 THE STORY OF MILK

of curd put in which is squeezed and worked thoroughly

with the hands. More curd is added and worked in

the same way and this is repeated until the mold is

full with a large top on, which is pressed with the hands

for 4 or 5 minutes, turning the cheese 3 or 4 times and

opening the drain holes if plugged up. Some makers

sprinkle a teaspoonful of fine salt in the bottom of the

mold, but in warm w^eather it is better

to work in a quarter of an ounce of salt.

This work must be done quickly so the

curd will not cool.

When thus formed the cheese is dipped

for 1 or 2 minutes in fresh whey heated

to 126° (in winter 131°) and pressed with

, , , , , _ , the hands in the mold for another 2
Mold for Edam . . , ... ^ „ • i rv i

cheese mmutes when it is careiully wiped on by

rolling on a fine cloth to remove the last
drop of whey. The cheese is then wTapped in a
fine cloth, placed in the mold and put to press, in
the Spring for 5 to 7 hours, later in the year for
12 hours. The cloth is now removed and the cheese
is put in a larger mold which is placed in a water-
tight salting box provided with a cover and a drain-
hole in one end. The first day a pinch of salt is put
on the top of the cheese and the next the whole cheese
is rolled in damp salt, turned and put back in the mold,
a liberal quantity of salt being placed on the top. This
is repeated every day until the cheese from being soft
and elastic becomes hard which as a rule takes 8 to 10
days for a 4 lb. and 12 days for a 10-12 lb. cheese.
Finally the cheese is left a few hours in the brine col-
lected in the box, washed, wiped and placed on the
shelf in the curing room.

CHEESE 115

The curing room should be light and well ventilated,
never above 72° nor below 45°. Windows must not be
opened to admit dry wind or moist air. If too dry the
cheese will crack and if too moist it will be covered with
deleterious yellowish red fungi. The cheese is turned
daily the first month, later every other day or twice a
week. WTien 24 to 30 days old the cheese is soaked for
one hour in water of 68 to 77°, washed with a brush,
dried for 20 to 40 minutes in the sun and returned to
the shelf. This is repeated two weeks later and then
the cheese is painted with linseed oil and left on the
shelf until shortly before shipping when it is scraped
with a sharp knife and painted according to the demand
of the particular market for which it is prepared; yel-
lowish with Annatto for England and Spain, red with
Turnsole for other countries. When dry it is rubbed
with. a little butter and red color.

Swiss Cheese. — The Swiss Gruyere or Emmenthal
also belongs to this class. It is characterized by its
form and size, being large, round and flat, weighing 100
to 140 lbs. or more, and by the large holes which are
wanted in Swiss, but not tolerated in American or
Dutch cheese. It was formerly supposed that first-
class Swiss cheese could only be made in the Alps, but
very good imitations have long been made in Northern
New York and in Wisconsin. Besides in the usual
large round form, the same as the genuine imported
Emmenthaler, American Swiss or ^^Switzer" is also
made in blocks, six inches square and twenty inches
long, weighing 25 to 30 lbs.

Until lately Swiss cheese has been made in the old-
fashioned way, the factory and tools being of the
simplest description. The milk was heated in a copper

116 THE STORY OF MILK

cauldron hanging on a crane, enabling the cheesemaker
to swing it on or off the fireplace. Nowadays the kettle
is usually jacketed and heated with steam. The round
form is still preferred to the American cheese-vat, how-

JSwiss cheese

ever, as it adapts itself better to the peculiar method
of handling the curd.

The milk is set with rennet at a temperature of 90""
r. in summer and 95° in winter, sufficient rennet being
used to make a firm curd in thirty to forty minutes.
But very fittle color is added. The curd is cut with a
long, sharp wooden knife, the ''cheese sword," first one
way into sheets, then, as soon as the cuts stand clear,

CHEESE

117

beginning to expel the whey, crossways, into vertical
sticks, two inches square.

No horizontal knife is used, but a few minutes after
the last vertical cutting the curd is further broken by
the ''scoop," a wooden spoon or ladle about eight inches
long, thirteen inches wide, one and one-half inches

Cheese sword

Cutting the curd with
the scoop

Tools for stirring
the curd

deep, and provided with a short handle. Standing at
one side of the kettle, the cheesemaker scoops off a
layer from the top and, drawing the scoop towards
himself, drops the pieces of curd close to the side of
the kettle. This movement is repeated, at first slowly,
then faster, and soon the whole mass of curd is moving,
the pieces cut off going down along the side of the
kettle and the rest of the sticks sliding upward along
the other side, to be attacked by the scoop as soon as

118 THE STORY OF MILK

they come to the top. All the curd having been cut
into square pieces, it is further broken by the stirrer,
a stick at the lower end of which a few cross sticks or
wings of brass wire are fixed, the whole mass being
kept in constant motion.

Cooking the Curd. — ^After breaking up the curd to
the size of peas or beans, the stirring is discontinued
for about ten minutes, when it is begun again and the
kettle is turned over the fire, or steam is applied, to
heat the curd to 140° under constant stirring which is
continued for 45 to 60 minutes after this temperature
has been reached. The condition of the curd is judged
by squeezing a handful and noticing its elasticity and
consistency. It is important to stop stirring at the
right moment. More whey is expelled in making Swiss
cheese than for Cheddar cheese.

The cooking and agitating having been finished, the
mass, which now consists of grains the size of wheat, is
once more stirred up with such force as to make it
form a funnel at the center and it is then left at rest
for five to ten minutes.

The curd, forming a rather solid cake at the bottom
of the kettle, is now lifted out without being broken.
One end of a large piece of cloth is folded around a
flexible rod. Bending over the kettle the maker takes
hold of both ends of the rod and gathering the other
end of the cloth between his teeth, pushes the rod down
along the farther side of the kettle, letting it follow the
bottom towards himself until the whole mass of curd
is gathered in the cloth, when it is lifted out of the kettle
and placed in the hoop on the press table. The hoop
can be enlarged or diminished to take care of a varying
amount of curd which is put into it in the same solid

CHEESE

119

cake as formed in the kettle without being broken.
Pressure is applied, at first, gently, later heavier and
after half an hour the cheese is taken out, turned and

In Swiss cheese making the curd is lifted out of the vat with a strong cloth

provided with fresh bandage, put back into press and
left till the next day.

Curing and Salting. — The cheese is first placed in a
curing room above ground and heated in winter. After
a few weeks it is removed to the cellar. Sometimes
three to five cheese are piled one on the top of the
other for a few days with a few handfuls of salt between
them. The salting proper is done by rubbing and
brushing dry salt and the brine formed from same into

120

THE STORY OF MILK

the cheese, — altogether 4 to 5 lbs. of salt to 100 lbs. of
cheese. Every day it is rubbed with a dry rag and the
c heese is turned and salted on the other side until the
salt is thoroughly incorporated.

The cheese is cured for at least 100 days in the factory

and is usually stored
for another three to
six months by the
dealer before it is
ready for the con-
sumer.

Roquefort. — The
French Roquefort is
inoculated with a
mold from stale
bread which spreads
through the cheese
and produces the
peculiar flavor of this
type. It is made
from sheep's milk
and was formerly
cured in cool subter-
ranean caverns, but
now in elaborate cur-
ing houses. In this
country imitation
Roquefort is made of cow's milk and cured in cold
storage.

It should be remembered, however, that sheep's milk
is very rich in fat and that a jich Roquefort that will
compare favorably with the genuine cannot be made
from cow's milk without an addition of cream if sheep's

Swiss cheese press

CHEESE

121

or goat's milk is not available. In France a small
addition of cow's milk to the sheep's milk— not to
exceed 10% — is often used.

Around Roquefort a milk ewe produces on an average

kaiBats

l^BBBffll

K^^^HIilB BVHH nOi

WBBBBtMKaSBamKm:^ : fjP^ESE^i^'

KS!flMB'HlB!lllBill IHHH

\ ■ '. ^- \iZ^} ■^^^^^^.'

■ ~iJmBi ''' R '^MBH BIHMM

^

-"'i .-; -^- «.,«,. , -.^--^

Milking the ewes at Roquefort, France (G. Ellbrecht)

135 lbs. of milk a year, which makes up to 35 lbs. of
cheese.

The milk is set at about 80"^ with rennet sufficient to
coagulate it in 13^ to 2 hours. To cut or break and
stir the curd, tools similar to those used in the manu-
facture of Dutch cheese are employed and stirring is
continued until the pieces of curd are about the size
of peas when the w^hey is dipped off and the curd is
further broken with the hand and placed on a cloth to
drain. In fifteen minutes it is ready to be put into the

122 THE STORY OF MILK

«

hoops which are either cf glazed stoneware or per-
forated tin, 8 inches in diameter by 4 in. high.

Ground stale, moldy bread is sprinkled in the curd
as it is put into the hoop, at the rate of 1 part of bread
to 10,000 parts of curd. This moldy bread is prepared
from 2 parts of wheat flour and 1 part of r3^e flour
leavened with sour yeast and vinegar and baked hard.
The loaf is placed in a dark, moist cellar to mold. In
six weeks it is penetrated with mold when it is dried
at 86° and pulverized, forming the powder used for
inoculation into the cheese curd.

When the hoops are filled they are placed in large
wooden boxes at a temperature of 65° to 70° for the
whey to drain off. The first few days the cheese is
turned three times a day, later once a day, and when five
days old it is brought into the curing room where it
remains until it is firm enough to be shipped to the
large cold storage establishments, where it is taken care
of until ready for the general market.

In the ^' caves" a high degree of moisture, a low
temperature — 40° to 50° — and pure air are essential
conditions.

The cheese is first salted by being rubbed repeatedly
with salt on all sides. The slime forming on the surface
is brushed or scraped off so as not to prevent the ad-
mission of air, w^hich is essential to the curing. In
order to further facilitate the penetration w^ith air the
cheese is now pricked with numerous needles by means
of a machine and placed on the shelf in the cave where
the proper moisture and temperature are maintained.

Various fermentations are now developing, one after
another, regulated by scraping, ventilation, etc., until
in six to twelve weeks the cheese is ready for the market

CHEESE

123

and is packed for shipment in paper or in tinfoil and
in wicker baskets or airtight boxes, according to destina-
tion,— for home consumption or for export.

Parmesan Cheese is an Italian cheese made mostly
in the Valley of the River Po and named from the City

Curing room in a Roquefort cheese factory (G. Ellbrecht)

of Parma. It is produced from partly-skimmed milk
and is allowed to become hard and dry, being used
grated with macaroni.

The milk is set with rennet at a comparatively high
temperature, about 95*^ ¥., and when it is firmly curdled
it is broken up and stirred rather vigorously, which
makes the curd fine and dry. Color is now added —
powdered Saffron — at the rate of 0.5 gram to 100 kg.
milk. The curd is cooked slowly under constant stirring

124 THE STORY OF MILK

to a temperature up towards 100° when the whey should
be perceptibly acid.

The curd is then allowed to settle in the round kettle
and when fairly firm it is lifted up in a cloth, the same
as in Swiss cheesemaking. The mold is also much the
same as the Swiss and the curd is but slightly pressed.
In the course of the day the cheese is turned once or
twice and put into fresh cloth. The next day it is put
into the curing room when it is rubbed with salt. In a
few months the cheese is cured and is then scraped
and polished with linseed oil. Sometimes it is kept
in storage two or three years in a dark room at a
temperature of 63° F. The composition averages:
32% water, 21% fat, 41% nitrogenous matters and
6% ash.

Caccio Cavallo is made in Southern Italy of a form
almost like a beetroot. The milk is set with rennet at
about 95° F. and after the curd has been
broken up the whey is dipped off and
heated to boiling when it is poured back
on the curd. The mass is then allowed
to ferment eight to fourteen hours ac-
cording to the temperature of the air.
The quality of the cheese depends largely
Caccio Cavallo ^^ ^^^^ fermentation. The fermented
curd is cut into pieces and submerged in
boiling water and is then kneaded and formed into the
desired shape.

After lying in cold water for two hours and in brine
for thirty hours it is dried and smoked until it attains
a fine golden color. It is made in various sizes, from 5
to 20 pounds, and the yield is said to vary from 10% to
16% of the milk. Caccio Cavallo is eaten on bread as

CHEESE 125

well as with macaroni and is much relished by the
Italians.

Limburger, Brick, Munster and other similar semi-
soft cheese of the proverbial strong flavor, originated
in Belgium and Bavaria, but are now largely made in
Northern New York and Wisconsin as well.

For Limburger the milk is not ripened as for Cheddar
but is set with rennet quite sweet at* a temperature of
about 90°; the curd is cut rather soft, care being taken,
however, not to lose butter-fat. The curd is but slightly
^'cooked," to a temperature not to exceed 96°, and is
not salted in the vat but is dipped out into perforated
wooden boxes or molds about 5 inches square and left
to drain without pressure. The cheese are placed edge-
ways like bricks on shelves and are rubbed with salt
and turned every day until cured. During the curing
process moisture exudes and a fermentation takes place
which develops the well-known ''Limburger" flavor.
After eight or ten weeks the cheese is packed in paper
and tinfoil and is ready for the market.

Brick cheese is something between a Cheddar and a
Limburger, of a milder flavor than either, not as hard
as the former but firmer than the latter.

The milk is slightly ripened and is set with rennet at
86° so as to coagulate in 20 minutes. The curd is
*' cooked" to 110° or more and is not allowed to ''mat"
as for Cheddar cheese, but is dipped out of the vat
before much acidity has developed, into the molds,
which are rectangular boxes without top or bottom
placed on a draining table where the whey runs off.

The mold is usually 5 inches wide, 8 inches deep and
10 inches long. \ATien it is filled with curd a follower
is put on the top and a slight weight, a couple of bricks,

126 THE STORY OF MILK

on the follower. The cheese is turned a few times and
the next day it is taken out of the mold and placed on
the salting table. The salting is done by rubbing the
cheese on all sides with salt which penetrates the curd
and draws out moisture. This is repeated for 3 days
and the cheese is then left to cure, being washed and
wiped off every week to prevent molding.

Brick cheese is" shipped one or two months old. It
is wrapped in paper and packed twenty in a box.

Munster Cheese is very much the same as Brick
except for the form, it being round, molded in a per-
forated tin hoop instead of the box used for Limburger
and Brick.

SOFT RENNET CHEESE

The soft cheese made with rennet may be classified
as fresh and cured.

Neufchatel. — The fresh soft cheese of the Neufchatel
or Creavi Cheese type is easily made and may be pro-
duced in any house from a small quantity of milk. The
milk is set at a comparatively low temperature^ usually
72° F., with very little rennet, just enough to coagulate
the milk in about eighteen hours. During that time a
slight acidity develops in the milk. When it is firmly
curdled it is carefully dipped on to cheese-cloth sus-
pended on a frame, or into cotton bags where it drains
overnight.

To make the cheese quickly a starter is sometimes
used and more rennet employed. The milk is heated
to 80° F., 25% starter and 73^2 c.c. of rennet extract,
or one rennet tablet per hundred pounds of milk, are
added and the milk curdles in about 30 minutes.

After draining for a few hours the curd is gently

CHEESE

127

pressed for a similar time. When the whey is fairly
well expelled, the curd is kneaded or run through a meat
cutter with a little salt, not more than 23/2 oz. to 10 lbs.
of curd. The outfit and the manipulation is essentially
the same as described under Cottage cheese.

A superior quality is obtained by pasteurizing the
milk and if that is done a pure culture starter should
always be used. If the slow setting method is used a
very small amount of starter, say 3^%, is sufficient, but
when the quick process is employed 10% to 25% may be
added.

To give it a good appearance for market, the cheese
is molded in little tin molds very much like a quarter-
pound baking powder
can w^ith open ends.
The cylindrical roll
of cheese is wrapped
in parchment paper
and tinfoil and is im-
mediately ready for
consumption. In an
ice box it will keep
for a week or so.
Neuf chatel cheese
may be made from
whole milk or partly-
skimmed milk. The
100 lbs. of milk.

Cream Cheese is usually made in the same way. A
mixture of cream and milk containing about 10%
butter-fat is used, though sometimes the cream is not
added until the time of salting. The mold is square,
2J^'' X 1}^'^ X 2'^ deep. These soft kinds of cheese are

Molding Neuf chatel cheese

yield is from 16 to 20 lbs. out of

128 THE STORY OF MILK

often mixed with chopped peppers, olives or nuts and
make excellent sandwiches.

Cured Soft Cheese. — For Cream or Neufchatel cheese,
made for curing, the curd is salted more than for fresh
cheese, or the molded cheese is rolled in salt. For a
week or two it is placed in a curing room on straw
mats or the like where it ferments slightly before being
wTapped and packed for shipment.

French Soft Cheese. — The many forms of French soft
cheese as represented by the Brie, the Camemhert, etc.,
are subjected to special fermentations which give to
each its peculiar flavor. Attempts have been made to
use pure cultures of the bacteria active in such fer-
mentations and so reduce the art of cheesemaking to
a more scientific process. But it has been found that
any desired kind of cheese cannot be made simply by
adding a culture of this or that bacterium to pasteurized
milk. Of vastly greater importance for the development
of the proper bacteria and flavor is the handling of the
milk and the curd by the experienced cheesemaker.
Inoculation with a pure culture alone does not make
the special cheese wanted.

CHEESE

129

CHEESE MADE WITHOUT RENNET

Cottage Cheese. — Of the sour milk t^^es the common
Cottage Cheese is the best known. It is made from skim
milk which in a warm room will curdle when sour,
whether rennet and a starter are used or not. The thick
sour milk is heated to any-
where between 100° and
120° and dipped into bags
of cheese-cloth hung up for
draining. The next day
light pressure is applied for
12 to 24 hours, when the
curd is kneaded, slightly
salted, formed into balls
and wi'apped in parchment
paper or packed into jars.
For this purpose paraffined
paper jars are very prac-
tical.

The more the curd is

heated in the whey the Mono-service jar

drier will be the cheese. Often it is improved by allow-
ing the curd to become rather dry and then working new
milk or a little cream into it, according to the use to
which it is to be put — whether it is for bakers' stock
or for the table.

Simple directions for making Cottage cheese are
given in Farmers' Bulletin 850 and A. I. 17, issued by
the United States Department of Agriculture from
which we reprint the following and copy the accompany-
ing illustrations :

130

THE STORY OF MILK

''One gallon of skim milk will make about I3/2 pounds
of cheese. If the milk is sweet it should be placed in a
pan and allowed to remain in a clean warm place at a
temperature of about 75° F., until it clabbers. The

Pouring the curdled milk on cloth to drain

clabbered milk should have a clean, sour flavor. Or-
dinarily this will take about 30 hours, but when it is
desirable to hasten the process a small quantity of
clean-flavored sour milk may be mixed with the sweet
milk.

''As soon as the milk has thickened or firmly clab-
bered it should be cut into pieces 2 inches square, after
which the curd should be stirred thoroughly with a

CHEESE

131

spoon. Place the pan of broken curd in a vessel of
hot water so as to raise the temperature to 100° F.
Cook at that temperature for about 30 minutes, during

Lifting the cloth back and forth to facilitate draining

which time stir gently with a spoon for 1 minute at 5-
minute intervals.

''At the conclusion of the heating, pour the curd
and whey into a small cheese-cloth bag (a clean salt
bag will do nicely) and hang the bag in a fruit-strainer
rack to drain, or the curd may be poured into a colander
or a strainer over which a piece of cheese-cloth has been
laid. After 5 or 10 minutes work the curd toward the
center with a spoon. Raising and lowering the ends

132 THE STORY OF MILK

, of the cloth helps to make the whey drain faster. To
complete the draining tie the end of the bag together
and hang it up. Since there is some danger that the
curd will become too dry, draining should stop when
the whey ceases to flow in a steady stream.

''The curd is then emptied from the bag and worked
,with a spoon or a butter paddle until it becomes fine

Pressing the curd

in grain, smooth, and of the consistency of mashed
potatoes. Sour or sweet cream may be added to in-
crease the smoothness and palatability and improve
the flavor. Then the cheese is salted according to taste,
about one teaspoonful to a pound of curd.

''Because of the ease with which the cheese can be
made it is desirable to make it often so that it may be
eaten fresh, although if it is kept cold it will not spoil
for several days. If the cheese is not to be eaten

CHEESE

133

promptly it should be stored in an earthenware or glass
vessel rather than in one of tin or wood, and kept in a
cold place."

Making Cottage Cheese with Rennet. — In the bulletin
mentioned a method is also given for making the cheese

Apparatus needed in making cottage cheese

with rennet or pepsin. Junket Tablets make a con-
venient form of rennet to be used for this purpose.
The advantages claimed for this method are:

1. A finer textured and more uniform cheese.

2. The making requires less time and attention.

3. Losses of fat in the whey are reduced.

The process is the same as described above except
that a solution of Junket Tablets is added to the milk
at the rate of one tablet to 100 lbs. of milk. For less
milk use a fraction of a tablet, or dissolve one tablet

134 THE STORY OF MILK

in ten tablespoonfuls of water and use one spoonful
of the solution for each 10 lbs. of milk.

If a starter is used the rennet solution is added im-
mediately after the starter is put in; if no starter is used
the milk is left for five or six hours at 80° F. to ripen be-
fore adding the rennet. The milk will curdle overnight.

After draining for thirty minutes on cotton sheeting
the ends of the cloth are tied together and a weight is
placed on top to press the curd gently until the desired
consistency is attained.

Salt may be worked in at the rate of 2)^ ounces to 10
lbs. of curd. If desired, add sweet or sour cream at
the rate of Y^ pint to 10 lbs. of curd or Y pint of cream
to the product from 30 lbs. of milk.

It will be seen that Cottage cheese made with rennet
is really the same as Neufchatel cheese, the only difTer-
ence being in the form and packing or wrapping of the
finished cheese.

Snappy Cheese. — By allow^ing the sour skim milk
curd to ferment under careful regulation, a variety of
sharp, snappy, more or less hard cheese can be made.
Though there is no general demand for them, some
kinds are quite popular in their own restricted localities.
The Danish Appetite cheese is only one of the many vari-
eties which have as many names.

Club Cheese and similar varieties are made by grind-
ing up old dry cheese with a little butter and packing
the product in jars or other attractive packages. Amer-
ican, Roquefort, or any other well-known type may be
used as the stock for these cheeses. Everywhere they
are favorites in dining cars and lunch rooms.

Whey Cheese. — In Switzerland the so-called Zieger
cheese is made from sour whey, the albumin being coag-

CHEESE

135

ulated by heat and,
with whatever butter-
fat there may be left
in the whey, skinmied
off the top. In Nor-
way Myseost (''Ost"
is Norwegian for
cheese) is made by
boihng down whey
almost to dryness.
If goat milk is avail-
able to mix in, it
improves the cheese.
The main substance

r -n 1 jMilkmg the goat in Norway

IS sugar of milk and b & j

the cheese has a sweet, syrupy flavor.

MILK SUGAR

The by-product, sugar of milk, is produced by acidi-
fying the whey, heating to boiling and neutralizing with
lime until the albumin is coagulated. It is then filtered
out and the clarified liquid is concentrated in vacuum.
From the thick syrup the sugar is allowed to crystallize
out, leaving the salts or mineral matters (milk-ash) in
the remaining liquid. The use of milk-sugar is limited
to medicinal purposes and for modifying milk for in-
fants. The production is therefore not very extensive.

CASEIN

In a number of creameries casein is produced from
skim milk by precipitating it with an acid and drying
and pulverizing the precipitate. Casein is widely
used as a substitute for ivory, in billiard balls, buttons,
etc. It is also used as glue, and as a binder in paints.

136 THE STORY OF MILK

MILK POWDER

The production and use of dry milk has increased
enormously during the last few years and the processes
of manufacture have been improved well-nigh to per-
fection. There are several methods practiced^ the most
important being the following:

The Just-Hatmaker, in which a large metal drum or
cylinder revolves slowly in a tank of milk. The drum
is heated by steam inside and, as it rolls out of the milk,
the metal surface picks up a thin film of milk which
quickly dries and is removed by a scraper.

The Eckenberg process employs vacuum evaporating
pans, like those used for making condensed milk and
maple syrup.

The Merrell-Soule Company's method consists in
driving a blast of hot air into a fine spray of milk,
which at once reduces the milk to a fine powder.

In the '^ Economic " process the milk is dried by hot
air the same as in the Merrell-Soule method, but in
dropping through a tower from a height of some 30
feet the milk meets several blasts of air of different
temperatures. It is claimed that in this way alone rich
milk and cream may be reduced to a powder without
injury to, or change of, the original fat globules.

Skim Milk Powder. — Beautiful skim milk powders
are now made which dissolve perfectly in water. Con-
taining, as they do, the extremely nourishing constitu-
ents of the fatless milk in a most palatable form, they
can be used in baking and in many food products to
great advantage.

Whole Milk Powder. — Until recently dried whole
milk was not produced of good keeping quality as the

CHEESE 137

butter-fat had a tendency to become rancid before
many months. But improvements are constantly
being made and milk powders of every degree of rich-
ness bid fair to take the place of fresh milk on board
ships and in other places where milk must be kept a
long time before being used.

In many new food preparations of value, milk powder
is filling a long-felt want. Dissolved in 8 or 9 times as
much water, milk powder makes a liquid almost iden-
tical with pasteurized fresh milk.

It has already been mentioned under the chapter on
^' Cream" and under ''Ice Cream" how skim milk
powder and unsalted butter, emulsified in a suitable
amount of water or milk, make an excellent material
for ice cream.

CONDENSED AND EVAPORATED MILK

Milk cannot be boiled dowTi in a common open kettle
or steam boiler without being scorched. Evaporating
or condensing is therefore usually done in a vacuum
pan at a low temperature. Condensed to one-third of
its volume and excluded from the air by canning, milk
will keep well for months, and has many uses as a sub-
stitute for fresh milk. Often sugar is added as a pre-
servative, and where sugar would be added anyrv^ay,
as in coffee, ice cream, etc., this is unobjectionable.

For purposes where sugar is not wanted, unsweet-
ened condensed or evaporated milk is on the market,
so carefully made that the taste of the original milk
is hardly changed at all by the process. When water
is added in the proportion of two parts of water to one
of the evaporated milk, the fluid obtained excels even
that from milk powder in its resemblance to fresh milk.

138 THE STORY OF MILK

WHEY

Whey is a by-product in cheesemaking. Usually
it is fed to hogs and especially together with grain or
bran it makes an excellent food for them. But whey
is also prepared for human food. In the hospital or
in the home it serves as a substitute for milk when a
mild diet of easily digested food is temporarily re-
quired for a weak stomach. For such purposes it must
not be allowed to become acid as in cheesemaking, but
should be prepared as the chief product from sweet
new milk or freshly separated skim milk. The sweet
milk is set with rennet — one Junket Tablet, dissolved
in cold water, to a quart of milk — at a temperature of
90° to 100"^ F. As soon as a firm curd is formed it is
carefully broken up and transferred to a strainer of
cheese-cloth. Unless it is to be used at once, the whey
strained off should be immediately cooled to 50° or
lower. If left at a higher temperature it will soon
become sour. A teaspoonful of limewater to a quart,
or a pinch of soda, will help to keep it sweet. Still,
in any event, it should not be kept long, but prepared
fresh when required.

CHAPTER IV

Milk as a Food

Milk is first of all the food for the young, — until a
certain age the only food, and a perfect food. It con-
tains but little refuse or waste and is under favorable
conditions almost wholly digestible.

NUTRIENTS

All foods contain certain groups of nutrients which
may be classified according to various functions in nu-
trition and their chemical com.position.

Protein. — The protein- group of nutrients contains
nitrogen and is necessary for building up the tissues
of the body, the muscles and the tendons which also
contain nitrogen. Only by this group can tissues
wasted by constant wear and tear be rebuilt. Proteins
are the flesh-forming group. To some degree the pro-
teins or albuminoids are also active in producing fat
in the body, but the other groups of nutrients, espe-
cially the fats, also contribute.

Fats and Carbohydrates. — ^Another important func-
tion of food is to produce and maintain the animal
heat. The main sources of this necessity are the fats
and the carbohydrates, so called because they consist
of the element carbon combined with oxygen and
hydrogen, the last two in the exact proportion in which
they are combined in water. All of these three groups
furnish the fuel, so to speak, for the body, but they

139

140 THE STORY OF MILK

are not equal in this respect. Pound for pound, when
burned in the body, the fats yield 234 times as much
heat as protein or the carbohydrates.

Mineral Matters. — Finally there are in all foods the
mineral matters, a group containing a number of salts
which are indispensible because they are constituents
of every part of the body. Phosphate of lime, for in-
stance, makes up one-half of the substance of the bones,
and the sulphates and chlorides of potash and soda,
iron, etc., are everywhere present in smaller quantities.
No food in which any of them is lacking is complete.

Relation. — The value of a food depends largely upon
the relation of one group of nutrients to another.
Proper nutrition can only be obtained when a sufficient
amount of flesh-forming as well as of heat-producing
nutrients are present, when the ''nutritive ratio" is
properly balanced for the particular purpose in view,
be it the growth of the child, the maintenance of the
body, the restoration of matter consumed by labor of
body or brain, or the supply of heat to make up for
cold surroundings.

Milk contains all of these groups of nutrients. The
protein is represented in milk by the casein and al-
bumin, the fats by the butter-fat, the carbohydrates
by milk-sugar, and the mineral matters by the milk-
ash. Human milk contains them in a perfect propor-
tion for infants, and for all purposes of nutrition cow's
milk may be used to make up a ''balanced ration,"
if not alone, then in connection with other food.

Nutritive Ratio. — As we said before, the "nutritive
ratio" of a food means the ratio of its flesh-forming
constituents — proteins — to its heat-producing nutri-
ents— carbohydrates and fats. Cow's milk, containing

MILK AS A FOOD 141

3.25% protein, 4% fat and 5% milk-sugar, has a nu-
tritive ratio of 1:4.3, i. e., 1 part of protein to 4.3 parts
of heat-giving nutrients, counting the fat equal to 234
of carbohydrates (multiplying the 4% fat by 234 makes
9, added to the 5% of sugar, makes 14; 3.25 to 14
equals 1 to 4.3). Skim milk, containing 3.4% protein,
0.2% fat, and 5.1% sugar, has a ratio of 1:1.6 (3.4:
5.45). Mother's milk, containing 2% protein, 4% fat,
and 6.5% carbohydrates, has a ratio of 1:7.75. To
substitute cow's milk for mother's, it must therefore
be ^^ modified."

Calories. — Another way of comparing various foods
than by the nutritive ratio is by measuring their ''fuel
value" or energy-producing capacity. The amount of
heat required to raise the temperature of one kilogram
of water 1° C, or one pound 4° F., is called a calorie.
By extensive feeding experiments the caloric value of
the various nutrient groups has been estimated as
follows :

Protein at 1820 calories per pound *
Fats '' 4040 " "

Carbohydrates at 1820 calories per pound

Measured by this rule the fuel value of:

Whole milk is 310 calories per pound

Skim milk '' 160 " " "

Full cream cheese is 1885 '' '' "
Butter is 3410 " " "

Compared with other food, milk, although not suited
to act as the sole food of adults, is one of the best and

* W. O. Atwater, Farmers' Bulletin No. 142.

142

THE STORY OF MILK

cheapest articles of diet, and should be much more
extensively used.

The following table, compiled by specialists of the
U. S. Department of Agriculture, shows the quantities
of various foods needed to supply as much protein or
energy as 1 quart of milk :

Protein

Energy

1 quart of milk is equal to —
7 ounces of sirloin steak
6 ounces of round steak
4.3 eggs
8.6 ounces of fowl

1 quart of milk is equal to —
11.3 ounces of sirloin steak
14.9 ounces of round steak
9 eggs
14.5 ounces of fowl

Another method of comparison is shown by the table
below, in which the relative value of certain foods as
economical sources of protein is given :

Milk at—

Is as cheap as sirloin
steak at —

Or eggs at —

7 cents a quart

8 cents a quart

9 cents a quart

10 cents a quart
12 cents a quart
15 cents a quart

16.3 cents a pound
18.6 cents a pound
21.0 cents a pound
23 . 3 cents a pound
27 . 9 cents a pound
34 . 9 cents a pound

17.6 cents a dozen
20 . 1 cents a dozen

22 . 6 cents a dozen

25 . 1 cents a dozen

30 . 2 cents a dozen

37 . 7 cents a dozen

According to this table, if milk is selling at 10 cents
a quart, sirloin steak must sell as low as 23.3 cents a
pound, and eggs at 25.1 cents a dozen to supply pro-
tein at equal cost.

MILK AS A FOOD

To Supply Energy at Equal Cost

143

When milk is —

Sirloin steak must not
be more than —

And eggs not more
than —

7 cents a quart

8 cents a quart

9 cents a quart

10 cents a quart
12 cents a quart
15 cents a quart

9 . 9 cents a pound
11.3 cents a pound
12.8 cents a pound

14.2 cents a pound
17.0 cents a pound

21.3 cents a pound

9 . 3 cents a dozen
10.6 cents a dozen
11.9 cents a dozen
13.2 cents a dozen
15.9 cents a dozen
19.8 cents a dozen

Fallacy of Theoretical Valuation. — While the con-
tents of protein and the ratio between digestible pro-
tein and fats and carbohydrates on one hand, and the
fuel or energy value on the other, have long been the
only recognized measures for food values, they are ad-
mittedly quite inadequate and in-
sufficient and although they are a
great help when used with discrim-
ination in making up food rations,
they are often abused by persons
who do not take their fallacies into
consideration.

*' Something Unknown." — Recent
investigations by Dr. F. G. Hopkins,
of Cambridge, England, and Dr. E.
V. McCollum, formerly of Wis-
consin, now of the Johns Hopkins University, have
proven conclusively that one food ingredient cannot
always be substituted for another with impunity even
though the most searching chemical analysis shows
them both alike in contents and digestibility. There is
^'Something Unknown" in certain foods — ^^Vitamines"
some call it — essential especially in promoting the

Dr. E

McCollum

144 THE STORY OF MILK

growth of the young, which our present knowledge of
chemistry cannot explain. In Bulletin No. 17 of the
Wisconsin Experiment Station experiments with the
feeding of rats are described which show how butter-fat
could not be replaced in the ration by vegetable fats of
apparently the same composition and digestibility with-
out disastrous results, and similar conditions have been
found in regard to other foodstuffs, proteins as w^ll as

The rat on the left got five per cent of cottonseed oil and the one on
the right got instead one and a half per cent of butterfat, otherwise
their rations were alike. These results are typical for any ration made
up of purified foodstuffs with butterfat in them as compared with any
fat of plant origin. The plant fats lack an unknown something with-
out which growth cannot proceed.

fats. The yolk of eggs and butter-fat contain this un-
known something which is absolutely essential for the
growth of the child and which is missing in most sub-
stitutes, especially in lard and vegetable fats.

The above illustration is from the work of Mc-
Collum and Davis at the Wisconsin Experiment
Station.

Realizing the fallacy of the old rules for making up
rations for the feeding of farm animals, Professor
Evvard of Iowa is trying the reliability of the instincts
of animals as a guide to the proper selection of the most

MILK AS A FOOD 145

favorable combinations and proportions of food in-
gredients.*

We mention these experiments as a warning against
placing too great reliance on the caloric theory or the
relation of nutrients in making up food rations. We
have yet much to learn and the good housewife trying
to cook according to scientific rules will do well not to
neglect the palatability of the food, but to watch the
''instinct" which causes the child or the adult to reject
or approve of, and enjoy, the food, which in most cases
is a better guide than calories or protein contents, or
the ration between the various groups of nutrients.

CARE OF MILK IN THE HOME

If received fresh and warm from the cow, milk should
at once be stramed through absorbent cotton or several
thicknesses of cheese-cloth into wide-mouthed bottles
or glass jars and placed in running water or ice water
to cool as quickly as possible. If obtained from the
milkman it may be left in the bottle in which it is re-
ceived. The practice of delivering milk ''loose," dip-
ping it from the wagon, should not be permitted, and
is fast being abolished. Public safety demands that it
should be bottled on the farm or in the creamery or
milk station under sanitary conditions.

Keep the Milk Cool. — If the milk when delivered at
the house is not cold enough to keep sweet as long as
desired, it should, we repeat, be placed in ice water or
cold running water until thoroughly cooled. Even if
the air is cold, in the ice box, for instance, the milk
cannot be cooled quickly enough without water. After
it has been cooled in water it may be put in the ice

*Dr. E. V. McCollum in "Hoard's Dairyman."

146

THE STORY OF MILK

box. In most ice boxes the temperature is allowed to
rise higher than is generally supposed, and it is better
to keep the milk bottle next to the ice than in the food
compartments.

Milk and cream easily absorb flavors from the air
and should not be kept in open vessels next to other

food. Any house-
keeper knows how
quickly milk or cream
will be tainted by
standing in the same
compartment with
onions or musk-
melons; if the bottle
is not covered, milk
may also be contami-
nated by other less
noticeable but more
harmful vapors from
nearby products. Let
the milkman furnish
you with some extra
milk bottle caps, or cover your milk bottle with an in-
verted tumbler.

As has been shown in previous chapters, milk is a
favorable soil for all sorts of germs and bacteria to grow
in. It must therefore be kept from contamination
with the utmost care, and everything that comes in
contact with it must be scrupulously clean.

Top-Milk. — When the milk has been standing at
rest three or four hours, the top-milk will be consider-
ably richer than the rest. If such rich milk is wanted
for any particular purpose it may be poured off, to be

1

1
1

A

4

1

'II

A clean ice-box

MILK AS A FOOD 147

eaten with cereals, berries, etc. In twelve hours most
of the cream will rise and may be skimmed off, although
thirty-six or even forty-eight hours may be required to
get all that can be obtained by setting. The half-
skimmed milk left when the top-milk has been removed
after 3 to 6 hours' setting will still contain 2% or more
of butter-fat and is very good for drinking; even the
skim milk from which the cream has been taken after
12 hours' setting is still an excellent beverage, provided
it is sweet. Perfectly skimmed, almost entirely fatless,
milk may be used in various w^ays in cooking, to make
up for lack of protein in many other food products.
But care must be taken that it is pure and sw^et, or
rather, its condition, sweet or sour, must be under the
perfect control of the housekeeper. If a sample of milk
will stand scalding or even boiling without curdling,
it is usually fresh and in good condition for any use.
On the other hand, if it curdles by scalding, it is beyond
control and it may or may not make good sour milk,
depending on the bacteria working in it.

148

THE STORY OF MILK
MILK FOR INFANTS

Comparing cow's milk with mother's milk, it will be
seen that the latter contains less protein, about the
same percentage of fat and more carbohydrates than
the former. A comparison may be made from the fol-
lowing table of average composition in round figures:

Water

Total
solids

Protein

Fat

Milk-
sugar

Mineral

matters

Fuel

value
per lb.

Per

cent

Per

cent

Per

cent

Per

cent

Per

cent

Per

cent

Cal-
ories

Mother's Milk

87

13

2

4

6.5

0.5

316

Cow's Milk

87

13

3.25

4

5

0.75

312

Modifying Milk. — Undiluted cow's milk is too rich
in protein and in salts for infants and, when fed with-
out modification, must be diluted with an equal amount
of water during the first two or three months. Such dilu-

MILK AS A FOOD 149

tion, however, also reduces the percentage of fat, which
should remain the same, and of carbohydrates, which
should be increased. In order to modify or ' ' humanize ' '
cow's milk so as to make its composition nearly the
same as that of mother's milk, simple dilution with
water is therefore not sufficient.

There are, however, various other methods which
may be used to advantage. For instance, top-milk
from a bottle of fresh milk which has stood 4 or 6 hours
in ice w^ater will contain 6 to 8 % of fat. By di-
luting this with an equal part of water, the percentage
of protein, fat and mineral matter will be about right,
and sugar, either cane-sugar or milk-sugar, may be
added to supply the carbohydrates. Or carefully pre-
pared sweet whey containing milk-sugar, or barley
water, may be added to the thin cream in place of some
of the pure w^ater.

The following recipes have been used with good
results :

Mrs. Pospyhala^s Recipe

Infant Food. — Warm 13^ quarts of milk to blood heat. Re-
move from fire and add one Junket Tablet dissolved in a spoonful
of cold water. Let the milk set until it forms a solid mass, then
stir it up in order to break the curd. Place it back on the fire and
stir until quite smooth, not allowing it to get any warmer than
blood heat. It is then readj^ to strain through two thicknesses of
cheese-cloth and care must be taken to squeeze well so as to obtain
as much of the whey as possible, which is very important. Add one
tablespoonful of sugar to sweeten. Pour into nursing bottles, the
amount being according to the age of the baby. A sufficient num-
ber of bottles are prepared for 24 hours' feeding. Care should be
taken to keep the milk in a cool place as it vriW sour the same as
fresh milk. Every time the baby is fed the milk must be warmed
by placing the bottle in a pan of water and heating to the right
temperature.

150

THE STORY OF MILK

Mrs. Rorer^s Recipe

Where cow's milk, even when diluted, or parity modified as in
the home fashion, disagrees with the infant, this mixture may be
used with good results: heat two quarts of milk to 100° F. Add
two Junket Tablets dissolved in a tablespoonful of cold water.
When the milk is congealed and perfectly solid draw through it
backward and forward an ordinary four-tined silver fork; this will
separate the curd. Strain through two thicknesses of cheese-cloth,
saving the whey as this is the part you are to use; add a pint of
water, a half ounce of sugar of milk, three ounces of cream and
four ounces of the white of egg. The whites may be dropped into
a quart fruit jar, a pint of the whey added, the top screwed on and
the jar thoroughly shaken until the whites are well mixed with
the whey; then add them to the remaining quantity and stand at
once in a very cold place. This will be given in quantities from
two to three ounces in an ordinary nursing bottle.

RECIPES

of the Nathan Straus Laboratories

Formula by Dr. A. R. Green
for 1st to 4th week: —
^ ounces of 16% Cream
3 " Full Milk

19 " Water
13^ ounces Milk Sugar

This mixture fills 8 bottles —
each to contain 3 ounces. Feed
2}/^ hours apart.

Formula by Prof. A. Jacobi

for 3d to 7th month: —

18 ounces of Full Milk

18 " Barley Water

1 " Cane Sugar

20 grains of Table Salt (less than
3^ teaspoonful)
This mixture fills 6 bottles —

each to contain 6 ounces. Feed

3 hours apart.

Formula by Prof. R. G. Freeman 3^ ounce Lime Water

for 1st to 3d month: —
l}/^ ounces of 16% Cream
3 " Full Milk

13 " Water

1

Milk-Sugar

This mixture fills 6 bottles —
each to contain 3 ounces. Feed 3
hours apart.

MILK AS A FOOD 151

Formula by Dr. A. F. Hess for 30 grains of Table Salt (about Y^

7th to 9th month : — teaspoonf ul)

22}/^ ounces of Full JMilk This mixture fills 5 bottles—

lYi " Oat or Barley each to contain 6 ounces. Feed

Water V/^ hours apart.
13^2 " Cane Sugar

Formula by Prof. R. G. Freeman After 9th month: —

for 2d to 6th month : — Full pasteurized milk, 8 ounces

18 ounces of Full Alilk every 4 hours.

16K " Water
13^ " Lime water
IH " Milk Sugar

This mixture fills 6 bottles —
each to contain 6 ounces. Feed
3 hours apart.

Wlien the modified milk can be obtained from a
dairy laboratory where it is prepared with scientific
care and accuracy, it is better to use it than to depend
on home-made preparations, and in many cases a doc-
tor's prescription may be necessary. Even if the modi-
fied cow's milk is prepared so as to contain apparently
the same proportion of the various groups of nutrients
as mother's milk, there may still be some essential
difference. For instance, the protein in human milk
consists mainly of albumin, while that of cow's milk
is mostly casein. It is often a question whether the
individual baby can digest the casein without trouble.
A trifle of rennet ferment, — a fraction of a Junket
Tablet, — added to the modified cow's milk just before
feeding may be beneficial to overcome that defect. A
Uttle limewater also is healthful as it neutralizes any
acid that may develop in the mixture. For the par-
ticular needs of the individual baby, a competent doctor
should be asked to prescribe.

152

THE STORY OF MILK
MILK FOR GROWING CHILDREN

When the child is big enough to thrive on undiluted,
unmodified cow's milk, it should not only be allowed,
but urged, to continue on a diet in which this, the
best of all foods, is the most essential part. An excel-
lent form in which to feed milk to the growing child is
junket. Eaten slowly with a spoon as a pudding, it is
exposed to the action of digestion much better than
milk swallowed by the glassful in a hurry and even if it
is cold there is no danger of defective rennet action in
the stomach because such action has already taken
place.

Doctors still disagree as to the desirability of pas-
teurizing milk for young children (see " Pasteurization,''
Chapter I), some holding that the digestibility is af-

MILK AS A FOOD 153

fected by the process. The truth is probably that
strong pasteurization at a temperature above 157° and
holding the heated milk unnecessarily long at such high
temperature do change the properties of the milk so
as to make it harder to digest, but that the main diffi-
culty is in the change of diet from raw to pasteurized
milk or vice versa. Let the child get used to the change
by making it gradual, diminishing the amount of one
and increasing the amount of the other from day to day
in a week, until the change is completed, and there will
usually be little if any trouble. The secretions of di-
gestive ferments in the stomach soon adapt themselves
to the change in the food. The same holds good in
case of other changes, as, for instance, from whole
milk to more or less fatless milk, with additions of
cereals or other partial substitutes; — it is always ad-
visable to make any change in the child's diet gradual.

CHAPTER V

Milk Cookery

Milk should also be used a great deal more than it
is by grown persons, not only as a drink but in the
daily cookery. In some homes milk in some form is
a part of every menu and the meals are more delicious,
attractive and nourishing than the ordinary milkless
diet, and are also less expensive, as the milk takes the
place of part of the meat. Dr. Graham Tusk of Cornell
University, who represented the United States on the
Interallied Council of Alimentation, says:

" No family of five should spend any money for meat
until three quarts of milk have been purchased, and
this should be done even though the price of milk
should go to twenty cents a quart. Absolutely nothing
in the food line will keep children so healthy as their
daily supply of milk."

In cooking with milk it is well to remember :
1. That, although milk is a liquid, it contains a
large amount of solid food and of exceedingly nourish-
ing, palatable and easily digestible food, much more
than many vegetables or fruits. While milk has 13%
of solid matter, water-melon has only 2%, turnips 4%,
beets 12%, etc. When substituting milk for water,
you add nourishment to the food and it is well to keep
in mind the ingredients, — the amount of protein, fat,
etc., added in the form of milk, which may take the
place of other similar ingredients in the combination.

154

MILK COOKERY 155

2. That if milk is even but slightly sour, or if some
other acid is added to it, — in the form of fruit, for in-
stance,— it is apt to curdle by scalding or boiling.

The limits of a single chapter do not allow many
recipes to be given, but a few are furnished under each
of the several kinds of milk dishes, and a clever domestic
science pupil or the ordinary good housekeeper and
cook can easily add to these recipes indefinitely, by
following out the simple suggestions offered.

All measurements are level.

SOUPS

Cream Soups. — So-called cream soups may be made
with or without the addition of meat stock. For
example :

Asparagus Soup

3 cups veal or chicken broth 14= cup flour

1 can asparagus 1 qt. scalded milk

3^ cup butter Salt and pepper

Reserv^e tips of asparagus. Add stalks to cold stock, boil fifteen
minutes, rub through sieve, thicken with butter and flour cooked
together, add milk, tips, salt and pepper. If fresh asparagus is used,
cut one bunch in small pieces, boil in as little water as will cover,
remove tough bits of stalk, add two cups stock and proceed as above.

Cream of Celery Soup

3 cups veal or chicken broth Yolks 2 eggs

3 " celery cut in inch pieces H cup cream

4 " milk Salt and pepper

Boil celery in broth till tender. Rub through sieve, add milk,
bring to the boiling point and add egg yolks beaten and diluted
with cream.

156 THE STORY OF MILK

Spinach Soup

4 cups broth 34 cup butter

2 qts. spinach H " Aour

3 cups boiUng water Salt and pepper
2 " milk

Wash the spinach and cook thirty minutes in boiling water to
which 1/8 teaspoon soda has been added. Drain and chop fine.
Add stock and butter and flour cooked together, milk and seasoning.

Cauliflower, mushrooms, lettuce, string beans, onions
and other vegetables may be used for soups in the
same way. In all of these recipes milk may he substituted
for the stock. The soups will be more nourishing, many
like them better, and they are more easily prepared.

If canned vegetables are used they may be added to
the thickened milk, which should be made in the pro-
portions of one quart of milk to two tablespoons butter
or substitute and two tablespoons flour. One can of
beans, peas, asparagus, or corn, may be added to three
pints of thickened milk.

If fresh vegetables are used, they should be boiled
in as little water as possible and this water added with
the vegetables to the hot, thickened milk. The addi-
tion of one-half to one cup of cream to these soups im-
proves their taste but is not necessary. If the cream
is whipped and added just before serving, the appear-
ance is also much improved. The vegetables may be
pressed through a sieve or not, as preferred. If the
soup is to be served in cups it is better to do this or
chop the vegetables very flne, but if the soup is to be
served in soup plates it looks attractive and is more
substantial if the vegetables are cut in inch pieces and
left in the soup.

All cooks are familiar with cornlet soup, tomato

MILK COOKERY 157

bisque, and oyster and clam stews, the foundation of
which is also milk. Plenty of good recipes for them
can be found in any standard cook book.

Cereal Cream Soups. — There is another class of soups
used much in Europe but, unfortunately, little known
here. They are very nourishing, easy of preparation,
and delicious.

A few recipes will suffice to introduce the housewife
to this class of soups and she can then easily add to the
varieties herself. Her family will enjoy the new dishes
for their good taste and their novelty. Croutons,
crackers, zwieback, or toast may be served with any
of them. They should always be prepared in a double
boiler.

Rice Soup

1 qt. milk 1 tablespoon butter

1/3 cup rice 1 " sugar

Heat the milk in a double boiler, add the rice and cook two hours.
Add sugar and butter. Sprinkle cinnamon on each plate of soup
when serving.

Sago Soup

1 qt. milk 1 tablespoon butter

4 tablespoons sago 1 egg j^olk

2 tablespoons sugar

Heat the milk in a double boiler, add sago and cook one-half hour.
Care must be taken to stir the mixture often when the sago is first
added or it ^siW liunp. Add butter and egg yolk beaten with sugar.

Oatmeal Soup

1 cup oat flakes 1 pint milk

1 pint boihng water 1 tablespoon butter

2 tablespoons sugar

Add oat flakes to water and boil one-half hour. Add milk and
boil one-half hour, add sugar and butter.

158 THE STORY OF MILK

Farina or Cream of Wheat Soup

3 pints milk 1 tablespoon butter

Y2 cup farina or cream of wheat 1 " sugar

Scald milk and add cereal slowly. Cook one hour and add butter
and sugar and a sprinkling of nutmeg.

Milk Chowders

Chowders are also a very acceptable way of serving milk. For
rich chowders the proportions used are: Two cups of milk or of
milk and water, 1 cup of potatoes cut into small pieces and 1 pound
of fish. For flavoring add an onion fried in two tablespoons of fat
tried out from salt pork. While these proportions make a rich dish,
it is possible to reduce the amount of fish greatly, to leave it out
entirely, to use small portions of left-over fish or some salt codfish
which has been freshened, or to substitute corn for it. Such dishes
are palatable and of reasonably high nutritive value, providing the
greater part of the liquid used is milk.

Similar, but less rich and thick, is:

Milk Stew

1 qt. of milk 2 tablespoonfuls of butter or

bacon fat
1 cupful raw potatoes cut into 1 cupful of codfish cut into small
small pieces pieces or just enough to

flavor the stew
Soak the fish in lukewarm water until it is soft and the salt re-
moved. Cook the potatoes in water until tender, drain them, add
the milk and codfish, and bring to the boiling point; add the butter
and salt to taste.

In place of the codfish, fresh fish, clams, oysters, or
a Uttle chipped beef may be used. Or the fish may be
omitted and the soup made savory and palatable by
adding a few drops of onion juice, or cheese or a vege-
table cut into small pieces and cooked thoroughly.

MILK COOKERY 159

MILK CEREALS

Most cereals are better cooked in milk than in water
and those not familiar with this method have no idea
of the many good dishes which they can thus easily
provide for their families. Cereals so prepared make
an especially good wholesome breakfast or supper for
school children and the writer has never seen an adult,
who, on a cold night, did not enjoy a dish of rice, or
corn meal, boiled in milk and served with cream and
sugar for supper. Milk cereals must always be cooked
in a double boiler and the milk must be hot when the
cereal is added.

Rice 1 cup to 3 cups milk, boil 2 hours

Commeul 1 " ''4 " " " 1 to 2 hours

Fine Hominy 1 " "4 " " " 1 hour

Cream of Wheat 1 '' "4 '' " " 1 hour

Farina 1 " ''4 '' '' " 1 hour

Cream of Wheat or Farina Pudding is also delicious.
It is prepared in the same way, but ^ cup of cereal
only is added to 1 quart hot milk. Just before serving,
a teaspoon ful of vanilla is added, and two beaten eggs
are folded in. It is eaten with cream, or milk, and
sugar, or with maple syrup.

LUNCHEON AND SUPPER DISHES

Dishes prepared principally of milk, with the addition
of either eggs, cheese, meat, or vegetables are particu-
larly adapted for luncheon or supper use. Here again
a few standard recipes are given which can be varied
to make any desired number of good, wholesome and
delicious dishes.

160 THE STORY OF MILK

Creamed Dishes. — The same sauce may be used to
cream cold chicken, lamb, veal, chipped beef, and cold
boiled or baked fish, canned salmon, lobster or shrimps,
according to the following recipe:

Creamed Chicken

2 cups cold cooked chicken cut 1}^ cups milk

into dice

3 tablespoons butter Salt and pepper
3 " flour

Melt butter and add the flour and milk. Bring to the boiling
point and add diced chicken. Season with salt and pepper.

Many grate a small onion into the sauce before add-
ing the chicken. The writer does not favor indiscrim-
inate use of onion as it tends to make all dishes taste
alike. It seems better to use sometimes a little celery
or celery salt, sometimes an onion, and again frequently
no flavor but the chicken or meat or fish. One's cook-
ing is thus more distinctive and varied.

If the creamed mixture is turned into a baking dish,
covered with buttered bread or cracker crumbs and
browned in the oven, the result is even more pleasing.

Such a sauce flavored with cheese makes a good and
very nutritious gravy to pour over cauliflower and cab-
bage or to serve with boiled rice or hominy or poured
over toast.

CREAMED VEGETABLES

In creaming vegetables the proportion is usually 1
cup of sauce to 2 cups of vegetables. Potatoes, as-
paragus, cauliflower, boiled onions, beans, and carrots,
beets or peas are all delicious served in this way.

MILK COOKERY 161

Eggs and Asparagus

Cream asparagus. Arrange in a baking dish, alternate layers of
the asparagus and slices of hard boiled eggs. Cover with buttered
crumbs and bake till crumbs are a delicate bro^^Tl.

Souffles. — Souffles are always delightful, and while
many consider them difficult to make they are really
very simple and if made correctly are always to be de-
pended upon. They should, however, be eaten at once
when baked.

Salmon, chicken, lamb, veal, ham and cheese, and also
many vegetables such as asparagus, cauliflower and
peas may be prepared in this way. Elaborate recipes
are often given, but the following is entirely sufficient
and always satisfactory:

2 cups chopped meat or veg- Yolks of 2 eggs

etables cut fine
2 cups tliick white sauce Whites of 2 eggs

To the meat or vegetables add white sauce (2 tablespoons butter
and 3 tablespoons flour to 1 cup milk) and beaten yolks. Cool and
add whites beaten stiff. Bake 30 minutes in moderate oven. This
makes a dish large enough to serve four or five persons.

A similar dish. Cheese Fondu, is also good, and can
stand longer than a souffle before serving.

Cheese Fondu

2 cups milk 1 cup bread crumbs

2 " minced cheese 2 eggs beaten

Bake in a hot oven for twenty minutes.

Variations of this dish are made by substituting one
cup minced ham for one cup of the cheese, or by

162 THE STORY OF MILK

using two cups of ham and omitting the cheese al-
together.

MILK TOAST

A very good way to serve milk toast is to toast bread
thoroughly and to pour hot milk over it at the time of
serving. In serving milk toast in this way all the
dishes should be kept very hot. A heavy earthenware
pitcher may be used for serving the hot milk, as it
retains heat for a long time.

EGGS POACHED IN MILK

Eggs are much better poached in milk than in water.
If served on toast the hot milk may be poured on the
egg if a soft toast is desired. If not, dip the eggs out
of the milk with a perforated spoon and lay on the
toast in the usual way, adding salt and butter.

CHEESE DISHES AS MEAT SUBSTITUTES

Meat is wholesome and relished by most persons,
yet it is not essential to a well-balanced meal, and there
are many housekeepers who, for one reason or another,
are interested in lessening the amount of meat which
they provide or to substitute some other foods for it.

Cheese naturally suggests itself as a substitute for
meat, since it is rich in the same kinds of nutrients
which meat supplies, is a staple food with which every-
one is familiar, and is one which can be used in a great
variety of ways. In substituting cheese for meat, pains
should be taken to serve dishes which are relished by
members of the family. A number of recipes for dishes
which are made with cheese follow :

MILK COOKERY 163

Cheese Soup

1 qt. milk 2 tablespoons flour

1 onion grated 3^ c. grated cheese

1 blade mace 2 egg yolks

2 tablespoons butter 1 teaspoon salt

}/i teaspoon white pepper

Scald milk, onion, mace and pepper pod. Melt butter in sauce-
pan, blend flour with melted butter. Strain milk and seasonings
and add gradually to flour mixture, stirring all the time. Return
to double boiler to cook. When creamy, add the cheese, salt and
pepper, stirring until cheese is melted. Then pour over well-beaten
egg yolks, stirring all the time. Whip until frothing and serve.

Delmonico Potatoes

Arrange creamed potatoes and grated cheese in alternate layers.
Cover with buttered crumbs and bake till crumbs are brown.

Stuffed Potatoes with Cheese

Split hot baked potatoes lengthwise and remove contents without
injuring skin of potato. Put potato through ricer or mash, add salt
and pepper to taste and enough hot milk to make of proper consist-
ency. Beat until light, refill the skin, piling up lightly. Sprinkle
thickly \\dth grated cheese and reheat in oven until cheese is melted
and a dehcate browTi.

Macaroni with Cheese

1 cup macaroni 1 cup grated cheese

2 qts. boiling salted water 1 cup buttered bread or cracker
2 cups white sauce crumbs

Break macaroni into one-inch pieces. Cook in boiling water
until tender. (If macaroni is put in a ware basket in kettle, it will
not stick to the kettle.) Drain and run cold water through it.

Make sauce:

2 tablespoons butter 1 teaspoon salt

2 '' flour 2 cups milk

Add cheese and macaroni. Cover with crumbs and bake until
crumbs are brown.

164 THE STORY OF MILK

Rice Baked with Cheese

1 cup rice Milk .

2 qts. boiling salted water Buttered crumbs (bread or
Yi lb. grated cheese cracker)

Add rice to boiling water. When tender drain, cover bottom
of buttered baking dish, sprinkle with grated cheese and a Uttle
paprika. Add alternate layers of rice and cheese until dish is full.
Add milk nearly to fill dish. Cover with crumbs and bake until
milk is absorbed and crumbs are brown.

Cheese Souffle with Bread Crumbs

1 cup scalded milk 1 tablespoon l)utter

1 cup soft, stale bread crumbs 3^ teaspoon salt

34 lb. mild cheese, cut in small 2 egg yolks

pieces 2 egg whites

Mix milk, bread crumbs, cheese, melted butter and salt. Add
yolks of eggs beaten until lemon colored. Cut and fold in whites of
eggs beaten until stiff. Pour into a buttered baking dish and bake
twenty minutes in a moderate oven.

Cheese Souffle

2 tablespoons butter Few grains cayenne

3 *' flour 34 cup grated cheese
3^ cup scalded milk Yolks of 3 eggs

3^2 teaspoon salt Whites of 3 eggs

Melt the butter in a saucepan, add the flour and mix well; add
scalded milk gradually and seasonings; cook two minutes. Remove
pan to back of stove and add cheese and well-beaten yolks of eggs.
Set pan where mixture will cool. When cold, add the whites of
eggs beaten until stiff and dry. Turn into a buttered baking dish
and bake twenty minutes in a slow oven. Serve the moment it
comes from the oven.

MILK COOKERY 165

English Monkey

1 cup bread crumbs 3^ teaspoon salt

2 cups milk ]/^ teaspoon white pepper or

paprika
1 cup grated cheese 1 egg

1 tablespoon melted butter

Scald milk in double boiler and add bread crumbs to it. Then
add grated cheese, melted butter and seasonings. Cook in double
boiler until cheese is melted; add the slightly-beaten egg gradually.
Cook five minutes and serve on dry toast.

Cheese Omelette No. 1

4 eggs 4 tablespoons hot water

Y2 teaspoon salt 1 " butter

Few grains pepper 1 cup grated cheese

Beat j^olks of eggs thoroughly; add salt, pepper and hot water.
Beat whites till stiff and dry; add cheese and fold into first mixture.
Melt butter in pan, turn in mixture and cook slowly. When well
raised and a delicate brown underneath, place pan in hot oven to
cook top. Fold and turn on hot platter.

Cheese Omelette No. 2

Make as above, omitting cheese. Make two cups of hot, white
sauce; add 1 cup grated cheese, melt and pour around the omelette.

Baked Eggs with Cheese

4 eggs 3^ teaspoon salt

1 cup grated cheese Few grains cayenne

1 cup soft bread crumbs 2 cups white sauce

Break the eggs into a buttered baking dish and cook in hot oven
until they begin to turn white around the edges. Then cover eggs
with the white sauce and over this put the mixture of crumbs,
cheese and seasonings. BrowTi in very hot oven, so eggs will not
be overcooked by time cheese is brown. If preferred, or for variety,

166 THE STORY OF MILK

the cheese may be added to the white sauce and only the seasoned
crumbs put on the top.

Boston Roast

1 can kidney beans or same Y^ lb. grated cheese

amount of cooked beans
Salt Bread crumbs

Mash beans or put them through a meat grinder. Add the cheese
and sufficient bread crumbs to make the mixture stiff enough to be
formed into a roll. Place in buttered baking pan and bake in mod-
erate oven. Baste frequently with one-half cup hot water, in which
one tablespoon butter is melted. Serve the roast with tomato sauce.
If desired, a few drops of onion juice or a httle finely chopped onion
may be added to flavor this dish.

Camouflaged Cabbage

Remove the heart from a small cabbage, cut or chop the remainder
into half inch pieces, boil in salted water exactly twenty minutes
and drain. For one pint of this cooked cabbage make a sauce of:

2 tablespoons butter
2 " flour
Yi cup milk

Yi cup cheese and when thoroughly blended add the cabbage;
cover with buttered crumbs and bake twenty minutes. The result
is a good dish for supper or luncheon and it is well named.

CHEESE SALADS

Cheese and Pimento Salad

Stuff canned pimentos with cream cheese, cut into shces, place
on lettuce leaves and serve with mayonnaise dressing.

Cheese and Celery Salad

Select celery stalks with deep grooves in them; wash and dry on
clean towel. Mix a small cream cheese with a bit of salt, and Y
cup finely chopped nuts (pecans are best). Fill grooves in celery
stalk with the cheese mixture and chill. When ready to serve cut

MILK COOKERY 167

stalks into small pieces with sharp knife. Serve on lettuce leaves
with French dressing.

For a pleasant adcUtion to fruit salad, fill tender celery stalks
with roquefort cheese, and lay one or two on each plate of salad.

Pepper and Cheese Salad

Remove top and seeds from a sweet green pepper. Scald it with
boiling w^ater, letting it stand in w^ater about ten minutes. Mix
soft cream cheese with chopped nuts, or with tiny cubes of cooked
beets and fill pepper with this mixture; chill well, cut in thin shces
with sharp knife and serve on bed of head lettuce with French
dressing.

Apples can also be used (with cheese and nuts) by removing core
without breaking the apple.

COTTAGE CHEESE

(See also under the chapter on Cheese)

All that has been said of cheese as a valuable food
and as a substitute for meat, applies equally to cottage
cheese and it is so easily prepared, inexpensive and
generally relished that it should be used much more
freely than it is.

The following recipes are only a few of the many
that might be given, but the careful cook should evolve
other combinations equally attractive.

Cottage Cheese by Government Method
(From Food Administration Bulletin)

Unit, 1 gallon. For lesser amounts, measurements to be di^ided
accordingly.

Take 1 gallon of sweet skim milk; add ^4 cup of clean, sour milk
and stir as it is put in. Raise the temperature in hot water to 75

168 THE STORY OF MILK

degrees Fahrenlieit, using a dairy thermometer. Remove from heat
and place where it is to remain until set. Add 1/8 of a junket
tablet thoroughly dissolved in a tablespoon of cold water; stir while
adding. Cover with cloth and leave for 12 to 16 hours in even
temperature, about 75 degrees Fahrenlieit. At end of this period
there should be a slight whey on the top and when poured out the
curd should cleave sharply. Drain through cotton cloth, not
cheese-cloth. When whey has been drained out, work in 1 or 2
teaspoons of salt to the cheese, according to taste; 13^ to 2 pounds
of cheese should be obtained from a gallon of milk.

For table use it is advisable to work in 1 or 2 tablespoons of cream
to the pound. For use in cooking, this is not necessary.

One may also make cottage cheese of freshly soured milk by
simply heating it in a double boiler till whey fonns, letting it stand
an hour and then turning it into a cheese-cloth bag to drain. To
the dry curd foraied add sweet or sour cream and salt to taste.
When made in this way care must be taken that the milk is freshly
soured— if it is old it will have a bitter taste and the cheese will not
be good.

Cottage Cheese Sandwiches

Thin slices of rye, brown or white bread, buttered, with fillings
of cottage cheese in combination with jelly, marmalade, pimentoes,
lettuce or mayonnaise are all good.

Cottage Cheese Club Sandwiches

Toast slices of bread, cut diamond shape and spread with butter
and cottage cheese or cottage cheese alone and put together
with any one of the following combinations:

Tomato, lettuce and mayonnaise dressing.

Thin slices of ham spread with mustard and lettuce.

Sliced, tart apple, chopped nuts and drops of French dressing.

Sliced orange and mayonnaise.

Sliced Spanish onion, a hot fried egg sprinkled with Worcester-
shire sauce.

Thin slices of tomato, bacon, chicken, lettuce and mayonnaise
dressing.

MILK COOKERY 169

Cottage Cheese Salad Dressing

y^ cup cottage cheese

1 tablespoon \'inegar

}/2, teaspoon sugar

3^ teaspoon salt

1 cup heavy cream (either sweet or sour) whipped stiff.

Mix in order given. A chopped hard boiled egg improves it.
A similar salad dressing, although containing no cottage cheese,
may be given here also.

Sour Cream Salad Dressing

1 cup sour cream — whipped
1 tablespoon vinegar

1 tablespoon ohve oil
3^ teaspoon salt

(1 teaspoon sugar, if desired)

2 hard boiled egg yolks finely chopped

Mix in order given.

Either of these is particularly good with green vegetables.
For a fruit salad the eggs should be omitted and double the
amount of sugar used.

Cottage Cheese Salad

Lettuce, sliced cucumber or green, sweet peppers, cottage cheese
formed in small balls or slices, mayonnaise or French dressing.

Cottage Cheese Pie

1 cup cottage cheese 1 tablespoon melted butter
2/3 cup sugar Salt

2/3 cup milk 3^ teaspoon vanilla

2 egg yolks, beaten

Mix the ingredients in the order given. Bake the pie in one crust.
Cool it slightly and cover it \vith meringue made by adding 2 table-
spoons of sugar and Yi teaspoon of vanilla to the beaten white of
2 eggs and brown it in a slow oven.

170 THE STORY OF MILK

Devonshire Dainty

Serve on indi\ddual plates Y2 cup cottage cheese to which has
been added 2 tablespoonfuls whipped cream (sweet or sour). Over
this pour ^ cup currant jam.

Pass saltines or other dry, unsweetened crackers.

MILK BREADS AND BISCUITS
Parker House Rolls

2 cups scalded milk (skim) 1 teaspoon salt

3 tablespoons butter 1 yeast cake dissolved in )/i cup

lukewarm water

Dissolve yeast in water, melt butter, combine all ingredients
except flour. Add 3 cups flour gradually, beating vigorously. Let
rise tiU hght; cut down and knead" in 23^ cups flour. Cover and
allow to rise until three times original bulk. Roll Y2 inch thick.
Cut, spread half with butter and fold over. Put in buttered tins
to rise, placing 1 inch apart. Bake when light in a hot oven 15 to
20 minutes.

Popovers

1 cup flour 2 eggs

34 teaspoon salt Yi teaspoon melted butter

1 cup milk

Beat eggs thoroughly. Add gradually, while beating, the milk
and flour, to which salt has been added. Add butter and beat two
minutes with Dover egg beater. Put a half teaspoon of butter in
hissing hot iron gem pans. Fill half with batter and bake thirty
minutes in a hot oven. Serve immediately.

Boston Nut Bread

Y2 cup molasses 1 teaspoon salt

1 teaspoon soda Y cup sugar

2 cups sour milk 1 cup chopped nuts
2 cups graham flour 13^ cups white flour

Mix and sift all the dry ingredients. Add molasses to the milk
and combine this gradually with the dry materials. Add the nuts.

MILK COOKERY 171

Half fill baking powder cans, with oiled cover, and let stand one-
half hour. Bake three-quarters of an hour in moderate oven.

Sour Milk Biscuit

1 qt. flour 2 tablespoons butter

1 teaspoon soda Sour milk to moisten
1 teaspoon salt (about \]/^ cups)

1 teaspoon sugar

Sift dry ingredients together, cut in butter with knife, add milk
to make a stiff dough. Roll out thin and bake in hot oven. Serve
with honey or maple syrup.

Gingerbread

4 tablespoons butter 1% cups flour

3/^ cup sugar ^ teaspoon soda

1 egg 1 teaspoon ginger

3/2 cup molasses 1 teaspoon cinnamon

2 teaspoons cocoa 3^ teaspoon salt
]/2 cup sour milk 1 teaspoon allspice

Sift flour and spices, salt and soda together. Mix other ingredients
in the order given and combine mixtures. Bake in moderate oven
30 minutes.

Sour Milk Waffles

1 egg 1 tablespoon butter

1 cup sour milk 1 teaspoon soda

1 cup flour Yz teaspoon salt

Beat egg thoroughly, add sour milk, flour and salt. Dissolve soda
in ]/2 tablespoon cold water. Add to mixture. Beat thoroughly.
Cook on oiled, hot waffle iron and serve hot with maple syrup.

Sweet Milk Waffles

2 cups flour Yolks 2 eggs

3 teaspoons baking powder Whites 2 eggs

Y teaspoon salt 2 tablespoons butter

IK cups milk

Mix and sift dry ingredients, add milk, beaten yolks, butter and
egg whites beaten stiff.

172 THE STORY OF MILK

Buttermilk Griddle Cakes

2 cups buttermilk 1 teaspoon soda

2 cups flour 1 egg beaten

Mix in order given.

Sweet Milk Griddle Cakes

1 egg beaten 3 teaspoons baking powder and

2 cups milk Yi teaspoon salt

3 cups flour sifted with 2 tablespoons melted butter

Mix in order given.

Boston Brown Bread

1 cup whole wheat flour 1 teaspoon salt

2 cups graham flour 2 cups sour milk

1 teaspoon soda 3^ cup molasses

Mix dry ingredients thoroughly. Mix the sour milk and molasses.
Stir in dry ingredients, beating thoroughly. Turn into well buttered
pound baking powder cans. Cover tightly and steam three hours.
Take from can and slice, Y^ cup raisins or nuts can be added to the
dough mixture, if desired.

DESSERTS

For desserts the number of custards, creams and
puddings made with milk is legion, and they are so
well known and can be so easily varied that only a few
stock recipes need be given.

Boiled Custard

2 cups scalded milk 1/8 teaspoon salt
Yolks 2 eggs 3^ teaspoon vanilla
J^ cup sugar

Beat eggs shghtly, add sugar and salt; stir constantly while adding
gradually hot milk. Cook in double boiler, continue stirring until

MILK COOKERY 173

mixture thickens and a coating is formed on the spoon; strain imme-
diately, chill and flavor. If cooked too long the custard will curdle.
Should this happen, by using a Dover egg beater it may be restored
to a smooth consistency, but custard will not be as thick. Eggs
should be beaten slightly for custard that it may be of smooth,
thick consistency. To prevent scum from forming, cover with a
perforated tin or sprinkle ^^-ith granulated sugar when cooling.

Blanc Mange or Cornstarch Pudding

1 qt. milk 3 eggs

Yi cup cornstarch 3^ cup sugar

Pinch of salt ^

Heat milk to boiling, add cornstarch dissolvedHn a little cold
milk and a pinch of salt. Boil five minutes, add yolks of eggs
beaten with sugar. Boil 2 minutes longer, remove from fire and
beat in the whipped whites of eggs. Flavor with vanilla or lemon.
Serve cold with cream and sugar or canned peaches or pears.

This is used also as a filling for cream pie, using the beaten whites
of eggs, sweetened for a meringue and browning shghtly in oven.
Bake the crust before fiUing with the cream.

Baked Custard

4 cups scalded milk 3^ teaspoon salt

4 eggs Few gratings nutmeg

Yi cup sugar

Beat eggs slightly, add sugar and salt, pour on slow^ly scalded milk,
strain in buttered mold, set in pan of hot w^ater. Sprinkle with
nutmeg and bake in slow oven until firm, w^hich may be readily
determined by running a silver knife through custard. If knife
comes out clean, custard is done. During baking care must be taken
that water surrounding mold does not reach boiling point or cus-
tard will whey. Always bear in mind that eggs and milk combina-
tion must be cooked at a low temperature. For cup custards allow
three eggs to four cups milk; for large molded custard four or five
eggs; if fewer eggs are used, custard is liable to crack when turned
on a serving dish.

174

THE STORY OF MILK
Baked Apple, Southern Style

6 choice apples
Yi cup sugar
1 qt. milk
Salt

4 eggs

2/3 cup sugar

1 teaspoon vanilla

Pare and core apples that are not too sour to hold their shape
when baked. Put in a pudding dish, sprinkle the half cupful of
sugar over and around them, also filling place where the core was
taken out. Put in oven and bake. Remove from oven and pour
around them the milk mixture made thus: Beat the eggs well,
add sugar and beat again, add milk, salt and vanilla. Bake slowly
until a knife-blade will come out clean after insertion in the custard.
Serve hot or cold, with or without whipped cream. This is an espe-
cially good dessert for children.

Cofifee Custard

2 cups milk

1 cup strong coffee

3 eggs

34 cup sugar
1/8 teaspoon salt
]/^ teaspoon vanilla

MILK COOKERY 175

Beat eggs slightly; add sugar, salt, vanilla, milk and coffee.
Strain into buttered individual molds, set in pan of hot water
and bake until firm.

Caramel Custard '

4 cups scalded milk 1 teaspoon vanilla

5 eggs Y2 cup sugar
Y2 teaspoon salt

Put sugar in omelette pan, stirring constantly over hot part of
range until melted to a syrup of light brown color. Add gradually
to milk, being careful that milk does not bubble up and go over,
as is liable on account of high temperature of sugar. As soon as
sugar is melted in milk, add mixture gradually to eggs shghtly
beaten, add salt and flavoring, then strain in buttered mold. Bake
as custard. Chill and serve with caramel sauce.

Rice Pudding

1 qt. milk y^ teaspoon salt

1/3 cup rice I/8 teaspoon ground nutmeg, or

cinnamon, or grated rind of
^ of a lemon

Wash the rice thoroughly, mix the ingredients and bake three
hours or more in a very slow oven, stirring occasionally at first.

Tapicca Custard

Add to the list of ingredients for boiled custard 34 cup of pearl
tapioca. Soak the tapioca in water for an hour or two, drain it,
and cook in the milk until it is transparent. Proceed as for boiled
custard.

GENERAL RECIPE FOR CEREAL-MILK PUDDINGS

Bread and rice puddings, made with milk and eggs,
are familiar to all cooks. Made without eggs, the fol-
lowing will be found suggestive :

176 THE STORY OF MILK

For a quart of milk allow 1/3 of a cup of anj^ coarse cereal (rice,
cornmeal, cracked wheat, oatmeal or barley); add 1/3 of a cup of
brown, white or maple sugar, syrup, honey or molasses; 3^ teaspoon
salt; 1/8 teaspoon spice. The flavoring may be omitted when honey
or molasses is used.

The above recipe makes quite a large pudding. It
is often convenient to make a smaller one, and enough
for a child's dinner can be made in the double boiler,
allowing two level or one rounding tablespoon of cereal
to a cup of salted and flavored milk. Cook an hour
and sweeten slightly.

These puddings, if made thin, may be poured over
stewed prunes or other cooked fruits, and are a good
and economical substitute for the cream or soft custard
usually used for that purpose.

A very old recipe for a baked corn pudding has re-
cently been given to the author.

Indian Meal Custard

1 pt. sweet milk, when hot add slowly

Yi cup cornmeal

Pinch salt

Yi teaspoon each cinnamon and ginger

Sugar to taste

1 tablespoon molasses
Boil 5 minutes, and add

2 beaten eggs
1 pt. milk

Bake about one-half hour or till set.

MILK COOKERY
Milk and Fruit Mold

177

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Milk and fruit mold

33^ cups hot milk,

3^ cup cold milk,

5 tablespoons granulated sugar

10 tablespoons cornstarch

2 beaten egg whites

1 teaspoon almond extract,

}/2 teaspoon salt

Candied cherries, cut into small pieces

Heat milk in double boiler. Mix cornstarch with cold milk, stir
it into the hot milk, add salt and sugar and cook, stirring occasion-
ally, for 10 minutes. Remove from fire, fold in the beaten whites

* Prepared for " The Story of Milk " by A. Louise Andrea.

178 THE STORY OF MILK

and add the flavoring. Rinse mold, in cold water, drain, pour in
part of the cooked mixture, add a layer of cherries and continue
until mold is filled. Set on ice to chill. May be served in tall
glasses, as illustrated, or unmolded on a flat serving platter.

Caramel Rice *

6 cups milk

1 cup rice

134 cups granulated sugar

1 teaspoon salt

2 slightly beaten eggs
Grated rind of half an orange

Cook rice, salt, the quarter cup of sugar and milk together in a
double boiler until rice is tender. Remove from fire, add grated
rind and beaten eggs and mix well.

Put the cup of sugar in a small saucepan over the fire and stir
constantly until it is a golden brown liquid. Have a mold heating,
and when very hot pour the liquid in it, turning the mold so that
all parts are coated. Turn the rice into the mold and set it in a pan
of water in a hot oven for 20 minutes, having the mold covered the
entire time.

Remove from oven, let stand until cold, umnold and serve with
the caramel sauce that is in the mold.

Milk Cream *

13^ cups hot milk

Y2 cup cold milk

3/8 cup granulated sugar

3 eggs

Y2 ounce granulated gelatine
1 teaspoon vanilla
Pinch of salt

Soak gelatine in the cold milk for 10 minutes. Heat balance of
milk in a double boiler, add salt, sugar and beaten yolks, stirring

* Prepared for "The Story of Milk " by A. Louise Andrea.

MILK COOKERY 179

constantly. Cook until mixture coats the spoon, remove from fire,
add soaked gelatine and stir until dissolved. Then set aside to

Milk cream

cool and when beginning to thicken add flavoring and mix in lightly
the stiffly beaten whites.

Rinse a mold in cold water, drain, pour in mixture and set in a
cold place until firm. Unmold and serve plain or \nth thin cream.

Plain Junket

Heat a quart of milk until lukewarm, not to exceed 100° F. Re-
move from fire; sweeten and flavor to taste, using vanilla or any

Plain junket

other desired flavor. Dissolve one Junket Tablet in cold water and
stir the solution quickly into the lukewarm milk. Pour immediately

180 THE STORY OF MILK

into individual serving dishes, sherbet glasses, bowls or the like,
and let stand wann until thickened. When "set" remove to ice
box or other cool place without stirring and let stand until serving
time. Serve with or without whipped cream, a sprinkle of nutmeg,
or a few strawberries on the top, etc.

Chocolate Junket

Sweeten a quart of milk with half a cup of sugar. Melt one
square of chocolate or two tablespoonfuls of cocoa, add half a cup
of the milk and boil one minute. Remove from fire and add the
remainder of the milk, which must not be boiled, and a teaspoonful
of vanilla. Probably the mixture will be lukewarm, if not, warm
until it is. Stir in dissolved Junket Tablet, pour at once into serving
dishes and leave undisturbed until set. Chill and serve. If whipped
cream sweetened and flavored with vanilla is heaped upon the
Chocolate Junket when serving, a most attractive dessert is ob-
tained, and Chocolate Junket frozen makes a delicious ice cream.

Coffee Junket

One-half cup very strong coffee, Yz cup sugar, added to 1^ pints
of heated milk. Dissolve. Add your Junket Tablet and finish as
ordinary Junket. Serve with cream.

An endless variety of Junkets can be made by vary-
ing flavor and color, by adding fruit or preserves, etc.,
and in the sick room various medicines or stimulants,
peptone, wine, etc., may conveniently be administered
as an ingredient in the pudding.

" Prepared Junket "

Prepared Junket in which all the ingredients are
found except the milk is on the market in the form of
a powder called ''Nesnah." It is put up in various
flavors and is easily and quickly made when milk is at
disposal.

MILK COOKERY 181

Heat 1 qt. milk lukewann, remove from fire, add one package
of the prepared Junket and dissolve quickly and thoroughly by
vigorous stirring for Yi minute only. Pour immediately into in-
dividual serving dishes and let stand in warm room until thoroughly
set. Place in ice box until serving time. Serve with or without
plain or whipped cream.

MILK BEVERAGES

Whey

1 qt. fresh milk 1 tablespoon cold water

1 Junket Tablet

Heat the milk until lukewarm and add the tablet dissolved in the
cold water. Allow it to set in a wann room. Then break up the
curd gently and strain it through two thicknesses of cheese-cloth,
being careful to remove all the casein. Cool at once and serve cold,
'^A-ithout or with sweetening, and flavor as desired.

Lemon Whey

1 qt. hot milk Yi cup lemon juice

3 tablespoons sugar

Heat the milk in a double boiler and add the lemon juice. Cook
without stirring until the whey separates. Strain through cheese-
cloth and add the sugar. Serve hot or cold, garnished with small
slices of lemon.

Cinnamon and Milk

1 qt. new milk Sugar

Stick ciimamon

Boil milk with sufficient cinnamon to flavor as desired. Sweeten
and serve warm or cold.

Rice Milk

1 ounce rice 1 saltspoon salt

1 pint milk * 1 teaspoon sugar

Soak the rice twelve hours. Add the scalded milk, salt and sugar.

182 THE STORY OF MILK

Stir well and cook one hour; then rub through a fine sieve. Thin
with more hot milk and serve.

Kumyss (see also Chapter II)

1/6 cake Fleischman's yeast 1 tablespoon water

13^ tablespoons sugar 1 quart milk

Make a thin syrup of the sugar and water and cook one minute.
Soften the yeast in two tablespoons of lukewarm milk. Heat the
milk until lukewarm, add other ingredients and shake. Put in
stone, sterile bottles, place in an upright position for twelve hours,
at 70° (kitchen heat) ; then turn on side and leave at a temperature
of 50° (lower part of ice box). Ready for use after the first twenty-
four hours; often kept several days, but the longer it is kept the less
palatable it is. It should look like thick, foamy cream.

Egg Milk Shake

1 egg ^ Sugar

1 cup milk Vanilla

Break the egg into a large glass and beat well. Add sugar and
a couple of drops of vanilla or a dust of nutmeg and beat again.
Fill up glass with rich milk. This makes a very nourishing drink.

Buttermilk Shake

1 cup buttermilk Few drops lemon extract

1 egg Salt

Sugar

Break egg into bowl, beat thoroughly with egg beater, add sugar,
flavoring, a tiny pinch of salt and buttermilk. Beat again till
light and foamy. Turn into glass.

Buttermilk Lemonade

A variation may be made from ordinary buttermilk
by the addition of lemon juice and sugar. ^'Butter-
milk lemonade" usually requires the juice of three

MILK COOKERY 183

lemons to one quart of buttermilk. The quantity
of lemon and sugar, however, should be varied to suit
the taste of the individual. The beverage is delight-
ful and is especially refreshing on a hot summer day.

One may also use the juice of two oranges and one
lemon to one quart of buttermilk, instead of the lemons
alone.

Many people like the clear buttermilk slightly
sweetened with a few grains of salt added.

Chocolate

13^ squares chocolate 1 cup boiling water

4 tablespoons sugar 3 cups milk

Few grains salt 3^ teaspoon vanilla

Scald milk. Melt chocolate in small saucepan and gradually
add boiling water. When smooth add to scalded milk, sweeten and
add salt and vanilla. Mill ^\^th Dover egg beater, and serve, putting
a large teaspoon of whipped cream on each cup.

Cocoa

}/i cup cocoa 1 cup water

3^ cup sugar 3 cups milk

Few grains salt Y2 teaspoon vanilla

Mix cocoa and sugar, add water and stir into milk already heated
in double boiler. Cook 15 minutes, add vanilla and salt. Serve
with whipped cream. A famous cook kno^^'n to the writer adds 1
teaspoon cornstarch dissolved in 1 tablespoon cold water to the
cocoa when nearly ready for the table. It adds to the apparent
richness of the beverage.

MISCELLANEOUS SUGGESTIONS

1. A tablespoonful of milk put in the pan before frying eggs will
keep them tender.

2. Covering cold chicken or other meat with buttermilk will keep
it for twenty-four hours or more, without affecting the meat except

to make it more tender.

3. Custards and ice cream kept too long in
warm weather may cause ptomaine poisoning.

4. Keep milk covered to shut out flavors
from other food.

I' {QJi'iiii M 5. Milk warm from the cow should not be

r LJ ili mm kept in a closed receptacle.

6. Danish cooks soak a piece of veal in
skim milk overnight before roasting it, to
improve the flavor.

7. Sliced ham covered with milk and baked
in a moderate oven for an hour has delicate
flavor and is always tender.

THE THERMOMETER

In the United States and Canada
as well as in England Fahrenheit's
thermometer is generally used ac-
cording to which water freezes at 32°
and boils at 212° at ordinary air
pressure, leaving 180 degrees between
the freezing and the boiling point.
In some countries in Europe Reau-
mur's thermometer is used with 0° for
the freezing point and 80° for boiling. In France and
for scientific work in all countries, however, the Celcius
or Centigrade system is employed for measuring heat

184

Dairy and household
thermometers

MISCELLANEOUS SUGGESTIONS 185

and cold, having 0° for freezing and 100° for boiling.
As there are 180° Fahrenheit, 80° Reaumur and 100°
Centigrade between freezing and boiling, the divisions
are therefore as 9° F. to 4° R. and 5° C.

To change from degrees of F. above the freezing
point to the other systems deduct 32, di\'ide the re-
mainder by 9 and multiply by 4 or by 5 respectively.
To change from C. to F. divide by 5, multiply by 9 and
add 32, etc. As the metric system is gradually being
introduced ever^^^here instead of the old systems for
weights and measures^ so also is the Centigrade ther-
mometer being substituted for the others and in cook-
ery it may soon be used exclusively.

WEIGHTS AXD MEASURES

1 pound = 16 ounces = 453.6 grams
1 ounce = 16 drams = 28.35 grams
1 kilogram = 1000 grams = 2.2 pounds
1 gram = 15.43 grains = .035 ounces

1 gallon = 4 quarts = 3.785 liters

1 quart = 2 pints = .9464 liters

1 pint = 16 fluid ounces = .4731 liters

1 fluid ounce = 8 drams = 29.57 c.c.

1 liter = 1000 cubic centimeters = 1.0567 quarts

1 mile = 5280 feet = 1.6 kilometer

1 foot = 12 inches = .3048 meter

1 kilometer = 1000 meters = .6214 mile

1 meter = 100 centimeters = 39.37 inches

1 acre = 43^560 sq. ft. = .4047 hectare

1 sq. ft. = 144 sq. inches = 9.29 sq; decimeters

1 hectare. = 10,000 sq. meters = 2.471 acres

1 square meter = 100 sq. decimeters = 10.764 sq. ft.

186 THE STORY OF MILK

1 bushel = 4 pecks = .3552 hectoliter
1 hectohter = 2.8377 bushels

1 U. S. gallon = 128 ounces = 231 cb. inches

1 Imperial gallon (English and Canadian) = 160 ounces = 277

cb. in.
6 U. S. gallons = 5 Imperial gallons

1 gallon of water weighs 8.34 pounds
1 gallon of milk weighs 8.6 pounds
A 40 quart can of milk = 86 pounds

Approxijnate Household Weights and Measures

4 saltspoonfuls = 1 teaspoonful

3 flat teaspoonfuls = 1 heaping teaspoonful

1 heaping tablespoonful of granulated sugar = nearly 1 ounce

1 rounded tablespoonful of butter = 1 ounce

2 ordinary cups of granulated sugar = 1 pound

3 ordinary cups of wheat flour = 1 pound
1 pound of granulated sugar = 1 pint

4 flat teaspoonfuls of liquid = 1 flat tablespoonful = 3^ fluid ounce
4 large tablespoonfuls = 1 ordinary wine glass = 2 fluid ounces

1 pint = 2 cups or glasses

1 cup or glass = 8 fluid ounces.

BIBLIOGRAPHY

Cheese Making; John W. Decker, Columbus, O.

The Milk Question; j\I. J. Rosenau, Houghton-lMifflin Co., Boston.

The Manufacture of Cheese of the Cheddar Type from Pasteurized

]\Iilk; J. L. Sammis and A. T. Bruhn, Bulletin 165, Bureau

of Animal Industry, Washington, D. C.
Dairy Laboratory Guide; Charles W. ]\'lelick, D. ^^an Xostrand

Company, New York City.
Handbook for Farmers and Dairymen; F. W. Woll, John Wiley &

Sons, New York City.
Testing Milk and Its Products; E. H. Farrington and F. W. Woll,

Mendota Book Company, Madison, Wis.
Farmers' Clean Milk Book; Dr. Charles E. North, John Wiley &

Sons, New York.
Ost og Osteproduktion; G. Ellbrecht, Nordisk Forlag, Copenhagen,

Denmark.
Outlines of Dairy Bacteriology; X. L. Russell, Madison, Wis.
A B C in Butter Making; J. H. ^Monrad, Urner-Barry Co., Xew

York.
A B C in Cheese Making; J. H. Monrad, Urner-Barry Co., New

York.
Dairy Chemistry; Henry Droop Richmond, Charles Griffin and

Company, Ltd., London.
Milk, its Nature and Composition; C. iVI. Aikman, Adams and

Charles Black, London.
Milk and Its Products; H. H. Wing, The ^Macmillan Co., X^'ew York.
Principles and Practice of Buttermaking; G. L. McKay and C.

Larsen, John Wiley & Sons, X^ew York.
Science and Practice of Cheese ^Making; L. L. Van Slyke and Chas.

A. Publow, Orange Judd Company, New York.
Agricultural Bacteriology; H. W. Conn, P. Blakiston's Son & Co.,

Philadelphia.
Creaming Milk Ijy Centrifugal Force; J. D. Frederiksen, Little

Falls, N. Y.

187

188 BIBLIOGRAPHY

The Common Sense of the Milk Question; John Spargo, The Mac-

millan Company, New York.
Practical Dairy Husbandry; X. A. Willard, Excelsior Publishing

House, New York.
Maelkeri Bakteriologi ; Orla-Jensen, Copenhagen.
Maelkeribruget i Danmark, Bernhard Boggild, Copenhagen.
Mejerivaesenet i Nord-Amerika ; J. D. Frederiksen, Copenhagen.
Modern Dairy Guide; Martin H. Meyer, Madison, Wis.
La Laiterie; A. F. Pouriau, Librairie Audot, Lebroc & Cie, Paris.
The Dairying Industry in Canada; J. A. Ruddick, Dept. of Agri-
culture, Ottawa, Canada.
Canadian Dairying; Henry H. Dean, William Briggs, Toronto.
The Business of Dairying; Clarence B. Lane, Orange Judd Co.,

New York.
Questions and Answers on Buttermaking; Chas. A. Publow, Orange

Judd Company, New York.
The Prolongation of Life; EHe Metchnikoff, G. P. Putnam's Sons,

New York.
The Bacillus of Long Life; Loudon M. Douglas, G. P. Putnam's

Sons, New York.
The Book of Butter; Edward Sewall Guthrie, The Macmillan Co.,

New York.
The Care and Feeding of Children; L. Emmett Holt, M. D.,

D. Appleton & Co.

Printed in the United States of America

'T^HE following pages contain advertisements of a few
of the Macmillan books on kindred subjects.

The Book of Ice Cream

By WALTER N. FISK

Cloth, 12 mo

This book is intended to aid the student and the
commercial manufacturer in better understanding
the principles of making and handling ice-cream.
It is not primarily intended as a recipe-book, al-
though many recipes are included in the text.

The first five chapters consist in a general dis-
cussion of the materials used in the manufacture
of ice-cream as well as the stabilizers and fillers
and flavoring materials. The next chapter deals
with the classification of ice-creams, and here the
recipes are given. The equipment and refrigera-
tion are then explained in a separate chapter, fol-
lowed by three chapters devoted to the actual
making of ice-cream.

The concluding pages are taken up with an
analysis of the qualities of ice-cream and of the
bacteriology of its manufacture. Such a discus-
sion should be useful both to the student in the
class-room and the progressive manufacturer.

THE MACMILLAN COMPANY

Publishers 64-66 Fifth Avenue New York

Butter

THE RURAL TEXT-BOOK SERIES
Edited by L. H. Bailey

By E. S. GUTHRIE

Professor in the Dairy Department, New York State College of
Agriculture, Cornell University

Clolh, 121)10, $1.75-

A practical discussion of the general characteristics
of butter, and of all of the problems connected with its
manufacture and marketing, together with a brief his-
tory of the product. Among the topics considered are
the history of butter ; composition and food value of
butter ; cleansing and care of dairy utensils ; care of
milk and cream ; cream separation ; grading milk and
cream and neutralizing acidity ; pasteurization ; cream
ripening; churning, washing, salting and packing
butter ; flavors of butter ; storage of butter ; market-
ing ; whey butter, renovated and ladled butter ; mar-
garine, and testing.

THE MACMILLAN COMPANY

Publishers 64-66 Fifth Avenue New York

The Book of Cheese

By CHARLES THOM

Mycologist in charge of Microbiological Laboratory, Bureau of

Chemistry, United States Department of Agriculture ; formerly

Investigator in Cheese at Connecticut Agricultural College

AND

WALTER W. FISK

Assistant Professor of Dairy Industry, New York State
College of Agriculture at Cornell University

Cloth, I2f}W, $l.QO.

An exposition of the processes of making and han-
dling a series of important varieties of cheese. The
kinds considered are those made commercially in Amer-
ica or widely met in the trade here. The relation of
cheese to milk and to its production and composition
has been presented in so far as required for this purpose.

After a general statement on cheese, the authors con-
sider the following subjects : The milk in its relation to
cheese ; Coagulating materials ; Lactic starters ; Curd
making ; Classification of cheese ; Cheese with sour milk
flavor ; Soft cheeses ripened by mold ; Soft cheeses
ripened by bacteria ; Semi-hard cheeses ; The hard
cheeses; Cheddar cheese making; Composition and
yield of cheddar cheese ; Cheddar cheese ripening ;
The Swiss and Italian groups ; Miscellaneous varieties
and by-products ; Cheese factory construction, equip-
ment, organization ; History and development of the
cheese industry in America ; Testing ; Marketing ;
Cheese in the household.

THE MACMILLAN COMPANY

Publishers 64-66 Fifth Avenue New York

A Manual of Milk Products

By W. a. stocking, Jr.

Professor of Dairy Bacteriology in the New York State College of

Agriculture at Cornell University

Cloth, 12mo, $2.50
This is a very recent addition to the Rural Manual
Series under the editorship of L. H. Bailey. The work is
intended to serve as a reference book covering the entire
subject of milk and its products. There are chapters on
The Chemical Composition of Milk, The Factors Which In-
fluence Its Composition, Physical Properties, The Various
Tests Used in the Study of Milk, The Production and
Handling of Milk, Butter Making, The Cream Supply,
Butter Making on the Farm, Cheese Making, and the Bac-
teriology of Dairy Products.

Milk and Its Products

By henry H. wing

Professor of Dairy Husbandry in Cornell University

New Revised Edition, with new illustrations, cloth, 12mo, $1.60

The revolution in dairy practice, brought about by the
introduction of the centrifugal cream separator and the
Babcock test for fat, by a more definite knowledge regarding
the various fermentations that so greatly influence milk,
and the manufacture of its products, have demanded the
publication of a book that shall give to the dairyman, and
particularly to the dairy student, in simple, concise form,
the principles underlying modern dairy practice. Such has
been Professor Wing's purpose in this work. This is not a
new edition of the author's very successful volume published
under the same title many years ago; it is, in reality, an
entirely new book, having been w^holly reset and enlarged by
the addition of new matter, both text and illustrations. The
author's aim has been at all times to give the present state
of knowledge as supported by the weight of evidence and the
opinions of those whose authority is highest.

THE MACMILLAN COMPANY

Publishers 64-66 Fifth Avenue New York