PI, A NT OF KENTUCKY TOBACCO

From a Sketch by TT, A. Brennan

TOBACCO LEAVES

BEING

A BOOK OF FACTS
FOR SMOKERS

BY

W. A. BRENNAN

Department ol Medical Sciences
The John Crerar Library

PUBLISHED FOR

Index Office, Inc.

BY

(Die Collegiate ^f ress

GEORGE BANTA PUBLISHING COMPANY

MENASHA, WISCONSIN

1915

First issue
December, 1915

Copyright 1915

by
W. A. BEEN NAN

B?

CONTENTS

PAGE

INTRODUCTION 7

CHAPTER I 11

Historical, Botanical.

CHAPTER II 19

The Cultivation of the Tobacco Plant.
Climatic and soil conditions — Treatment
of the growing plant — Shade grown
tobacco — Harvesting.

CHAPTER III 29

Production of Tobacco.

Countries which produce tobacco and
amount — Production in the New World
other than in the United States —
Varieties.

CHAPTER IV 39

Production of Tobacco in the United States.

Total production — Amount produced by

the different States — Varieties raised

— Description of the different varieties.

CHAPTER V 53

The Chemical Composition of the Tobacco

Plant.

Organic and inorganic matters contained
in tobacco and the part they play — An-
alysis of various tobaccos — Nicotine.

CHAPTER VI 61

The Curing of Tobacco Leaf.
Objects of curing — Methods.

331634

CHAPTER VII 67

The Marketing and Sale of Tobacco Leaf.

Methods of disposal by the grower — The
warehouse system — Direct purchase —
Principal markets in the United States
— Prices.

CHAPTER VIII 75

Rehandling and Fermentation of Tobacco
Leaf Prior to Manufacture.

Selection of leaf — Treatment and blend-
ing— Objects and methods of manu-
facturers fermentation — Action of
microbes.

CHAPTER IX . x 88

Manufactured Products of Tobacco in the
United States.

Statistics of production and consumption
Amount of capital invested — Number
of plants, etc.

CHAPTER X 93

Cigars: Historical and General Facts.

History — Statistical information regard-
ing the cigar business in the United
States.

CHAPTER XI 99

Cigars and Their Qualities.

Qualities of cigars and cigar leaf — Im-
ported cigars — Havanas — Domestic
cigars.

CHAPTER XII Ill

Cigar Making.

Hand-made cigars — Machine-made cigars
— Classification of cigars — Terms used
in the cigar trade.

CHAPTER XIII 121

Pipe Smoking and Chewing Tobacco.

Qualities required— Description of kinds
Perique tobacco — Statistics.

CHAPTER XIV 131

Cigarettes.

Statistics — Kinds and where made — Im-
ported cigarettes — Domestic cigarettes
— Cigarette papers.

CHAPTER XV 143

Snuff.

How made — Qualities — Description of
kinds.

CHAPTER XVI 149

Tobacco Smoking Pipes.

History — How made and materials used
in making — Meerschaum — Briar root —
Amber — Special kinds of pipes — Care
of pipes.

CHAPTER XVII • . . . .171

Effects of Tobacco Smoking on the Human
System.

Physical and other effects — Opinions of
medical men quoted and discussed.

CHAPTER XVIII 195

The Beneficial Effects of Tobacco.

Its disinfecting action — A protection
against infectious disease — Psycho-
logical effects of smoking.

CHAPTER XIX 207

Miscellaneous.

Revenue, taxation, etc., in connection with
tobacco — Free^ imports — The insect
pests which attack tobacco — Tobacco
flavoring fluids, etc. — Formulae.

INTRODUCTION

This little book is intended for the man who
uses tobacco. While there is a very extensive
literature concerning tobacco, yet it is sur-
prising how few books there are written express-
ly for the smoker. Much has been written
concerning culture, production and manufac-
ture; the historical and anecdotal aspects have
been catered for ; pamphlets and books abusing
and denouncing the use of tobacco are plenti-
ful; but the smoker will find it difficult to get
a book just giving him the facts concerning
tobacco and smoking, which he ought to know,
and omitting matters, which, although interest-
ing, are not necessary. This little book is an
attempt to fulfil that purpose; and it is felt
that no apology is needed for its appearance.
If the average user of tobacco is questioned
concerning the matters treated in the following
pages, he will be found ignorant of them. This
ought not be so. The custom of tobacco smok-
ing is so general and so intimate a part of the
daily life of the great majority of men, that a
better acquaintance with the plant, its qualities,
uses and effects, should be cultivated and wel-
comed.

No claim is made for originality. The facts
here stated have been gathered from various

7

sources and the only credit claimed is for put-
ting them together in a concise and consecutive
form. The object aimed at is to give informa-
tion. Whether the custom of tobacco smoking
is desirable, whether in any individual case it
would be beneficial or otherwise to smoke — these
and similar questions are left to the reader's
own judgment from the facts and opinions pre-
sented, as well as from his own observations.
The man who uses tobacco daily should know
what he is doing. If statements are made either
verbally or in print concerning the custom he
should be able to verify them or show that they
are incorrect. It is trusted that the informa-
tion given in these pages will enable him to
form a clear judgment whatever the judgment
may be.

It may be felt that many aspects of the use
of tobacco and matters connected with it have
either not been touched on, or only referred to
very briefly. The reader who may desire fur-
ther information will find it in the bibliographi-
cal references given throughout the book. These
references have generally been consulted by
the author and his indebtedness is acknowl-
edged here.

To MY WIFE

CHAPTER I

HISTORICAL— BOTANICAL

11

HISTORICAL

The history of tobacco commences with the
discovery of the New World by Columbus. The
Chinese claim that it was known and used by
them much earlier, but there appears to be no
evidence to support this claim. Columbus found
the natives of Cuba smoking the dried leaves,
and his followers are said to have brought the
plant to Spain about 1512. Oviedo published
a book entitled La Hist or la general de las
Indias in Seville in 1526, in which he mentions
pipe smoking. It may be inferred that this
custom was well established in Spain then.
Sir Walter Raleigh is usually credited with hav-
ing brought tobacco to England for the first
time from Virginia in 1586; and the Virginian
Colonists are known to have cultivated the plant'
at that time; but there is evidence enough to
show that Sir Francis Drake was the first to
introduce the plant into England. Drake's
voyages were made between 1570 and 1580 and
he brought the plant with him in one of these.
Some give the date of introduction by Drake as
1560. Raleigh was, however, probably the first
English distinguished smoker, and he cultivated
the plant on his estate at Youghal, Ireland.
There is no doubt about the culture of tobacco
by the early English Colonists in the U. S.,

13

but it is doubtful whether the plant was in-
troduced by them from England or whether
they continued a culture learned from the Na-
tives. From Virginia it spread to the other
colonies. In Peru and other parts of South
America the growing of tobacco was well es-
tablished at the time of the Spanish Conquest.

In 1560 Jean Nicot, the French Ambassador
at Lisbon, sent some tobacco to Catherine de
Medici as a cure for headache. Catherine was
pleased with it and is said to have become quite
addicted to its use. Tobacco was designated
the "Queen's herb" and the "Sovereign herb"
from this circumstance and Nicot himself is
perpetuated in the word "Nicotine" and its
derivatives.

Many persons erroneously give credit to
Nicot for the introduction of tobacco into
Europe. It is quite clear, however, from
Oviedo's book, quoted above, that the plant
was known in Spain very much earlier; and it
is most probable that the immediate followers
of Columbus brought samples of the leaves and
pipes back to Spain with them. Moveover, in
1558, Phillip II of Spain sent Francisco Her-
nandez, a physician, to investigate the re-
sources, etc., of Mexico, and on his return he
brought back tobacco as one of the products,
and grew it as a drug. From Spain and Eng-

14

land, the use of tobacco spread by degrees all
over the known world.

REFERENCES

PENN, W. A. The Soverane Herbe; a history of
Tobacco. Chapters I, II. London and New
York, 1901.

BOUANT, E. Le Tdbac; culture et Industrie.
Paris, 1901.

SHEW, JOEL. Tobacco; its history, nature and ef-
fects on the body and mind. Wortley, 1876.

BILLINGS, E. R. Tobacco; its history, varieties,
culture, etc. Chapters II, IV. Hartford, Conn.,
1895.

COMES, O. Histoire, geographic, statistique du
Tabac. Son introduction et son expansion dans
tous les pays depuis son origine jusqu* a la fin
du XIX siecle. Naples, 1900.

FAIRHOLT, F. W. Tobacco; its history and associa-
tions. London, 1876.

WOLF, JAKOB. Der Tabak und die Tabakfabrikate.
Chapter I. Leipzig, 1912.

BOTANICAL

Tobacco belongs to the family of plants
known in botany under the name of Solanacece
Other well-known members of this family are
the Irish potato, the red pepper, the tomato,
the egg-plant, etc.

15

American tobacco belongs almost exclusively
to that group of this family which comprise
the genus Nicotiana. Of this genus there are
about 50 separate species, one of which, Nico-
tiana Tabacwm, supplies almost all the tobacco
of commerce. Plants of this species grow from

2 feet to 9 feet in height; they have numerous
wide-spreading leaves sometimes as much as

3 feet in length; these leaves may be oval,
oblong, pointed, or lanceolate in shape, and
are generally of a pale green color when young ;
they are arranged alternately in a spiral on
the stem; the root is large and fibrous; the
stem is erect, round and viscid, branching near
the top. The alternate arrangement of the
leaves on the stalk, succeeding each other
spirally, so that the 9th overhangs the 1st, the
10th the 2nd, and so on, is very characteristic.
The distance on the stalk between the leaves is
about 2 inches. Flowers are in large clusters,
with corollas of rose color, or white tinged with
pink. The leaves and stalks are covered with
soft downy hair. The plant is perennial but
crops are usually raised from seed.

Of this species (N. Tabacum) there are prob-
ably more than 100 varieties grown in the U. S.
alone. Some of the best known will be described
later.

16

To this same species (N. Tabacum) Havana,
East Indian and European tobaccos principally
belong. The other important species are :

Nicotiana Persica. Grown in Persia. This
has a white flower and the leaves almost enwrap
the stem. It is used almost exclusively as a
pipe-smoking tobacco. Some claim that this is
only a variant of N. Tabacum.

Nicotiana Repanda. This is a species of
Cuban tobacco entirely different from that
grown in the Havana district. It is also called
Yara.

Nicotiana Rustica. A kind of wild growing
tobacco principally cultivated in Mexico, and
which is claimed as the parent of some of the
Turkish, Syrian and Latakia tobaccos although
many authorities claim that these tobaccos be-
long to the species N. Tabacum. The European
tobacco is hardier than the American parent
plant. The leaves are smaller.

N. Rustica. Also includes commpn Hungar-
ian and Turkish tobaccos. There are large and
small leaved varieties.

N. Crispa. Grown in Syria and largely in
Central Asia. Used as a cigarette tobacco in
the Orient.

It has been stated above that there are many
varieties of N. Tabacwm in the U. S. Of these
the most important are known to botanists

17

by the names, Nicotiana Tabacum Macrophylla
and Nicotiana Tabacum Angustifolia.

Maryland tobacco belongs to the Macro-
phylla variety and there are many other types
differing from each other according to shape
of the leaf, size of the stalk, etc.

Virginian tobacco is of the Angustifolia
variety, and of this also there are many dif-
ferent types.

Most European and other grown tobaccos
have been raised from original plants of the
Maryland and Virginian varieties.

It should be remembered that there is no
essential difference in cigar, pipe smoking or
cigarette tobaccos. The differences are physi-
cal only. All kinds may be obtained from the
same species or even the same variety of the
species by suitable culture and crossing.

REFERENCES
ANASTASIA, G. E. Le varietd della Nicotiana

Tabacum. Scafati, 1906.

COMES, O. Delle razze dei tabacchi. Naples, 1905.
KILLEBREW, J. B. and MYRICK H. Tobacco leaf ;

its culture and cure, marketing and manufacture.

Part I. New York, 1897.
LOCK. C. G. W. Tobacco growing, curing, and

manufacturing. Chapter I. London and New

York, 1886.

WOLF, J. Der Tabac. Chapter II. Leipzig, 1912.
BILLINGS, E. R. Tobacco; its history, varieties,

etc. Chapter I. Hartford, Conn., 1875.

CHAPTER II

THE CULTIVATION OF THE TOBACCO
PLANT

CLIMATIC AND SOIL CONDITIONS. TREATMENT

OF THE GROWING PLANT. SHADE GROWN

TOBACCO. HARVESTING

THE CULTIVATION OF THE TOBACCO
PLANT

A few general facts concerning the culture of
the tobacco plant and its treatment until it
reaches the hands of the manufacturers will be
of interest for the smoker.

The general principles underlying the culture
of tobacco are the same whether it is intended
for the cigar, pipe smoking or cigarette trade;
but the treatment of the leaf after it is har-
vested differs considerably.

Tobacco is a perennial plant. It is, however,
usually raised each year from seed. The seed-
lings are usually ready for planting towards the
end of May and are generally planted between
the last week in May and the middle of June.

The successful raising of tobacco depends on
four principal factors: (1) the climate, (2) the
nature of the soil, (3) the seed, and (4) on the
method of culture.

The climate must be such as to favor rapid
growth and therefore must furnish sufficient
heat and moisture during the time the plant is
growing. The fineness of the texture and the
elasticity of the leaf depend on the climate.

On the soil the plant depends for its food,
and for the absorption of those chemical con-

21

stituents on which depend the burning qualities,
the strength and the color.

The physical qualities of the plant, structure
and form, thickness of veins, size, shape and dis-
tribution of leaves, are derived from the seed.

Finally, on the method of cultivation (includ-
ing the curing process) depends in part the
final color, flavor and aroma ; the type and
trade value; that is to say, on successful cul-
ture and harvesting and treatment at the right
time and in the best way, must depend the
grower's hopes of the final value of his crop.
The quantity of nicotine, essential oils, etc., on
which flavor and strength depend, is regulated
to the greatest extent by the time of cutting.

The nature of the soil is a very important
matter in the culture of tobacco, for the color
of the cured tobacco leaf depends almost entire-
ly on the soil. The light colored leaf is grown
on light colored soil and the darker leaf is
grown on heavy, dark soil. The best type of soil
for the raising of tobacco intended for the cigar
trade is a warm, deep, sandy loam which rests
on permeable well-drained subsoil. The very
light colored yellow tobacco cannot be raised
except on light colored, porous soils; and so
susceptible is this matter of the coloring of the
leaf that it has been noted that the darkening
of the soil by a liberal allowance of stable man-
22

ure will, on a very light colored soil, change the
color of the tobacco leaf from a bright yellow
to a mahogany shade. Very light sandy soils
or very light loams with clayey subsoils are
usually chosen for these light yellow tobaccos.
Although by processes subsequent to growth it
is possible to darken the color of tobacco leaf,
there is no known process that will make a dark
leaf light in color.

Moreover, the soil must be very fertile and
rich in the special substances needed by the
growing plant. This is all the more necessary
because tobacco is a rapidly growing plant,
and reaches its maturity within a few months
after its planting. The rapidity of growth
therefore demands a rich fertile soil well stored
with plant food. Good manuring, or liberal
treatment with fertilizers, is essential for keep-
ing such soils in prime condition, because the
period of growing must not be extended.

Tobacco is usually planted in rows, the rows
being from three to four feet apart, the usual
arrangement being that the plants are generally
about 12 or 18 inches apart in the row. Some
planters, however, give the plants more room
for many reasons, varying the distance between
the plants even as much as 30 inches. Cigar
leaf tobacco plants are usually placed about 14
inches apart.

23

There are various operations necessary dur-
ing the growth of the plant. The most import-
ant of these for our purpose are those known
as "priming' or "thinning out" and "cutting."
Priming is usually done when the plant is well
advanced in growth, but the time varies with
different growers and according to the species.
It consists in removing the lower or imperfect
leaves from the plant, or these which have in
any way become injured from insect or other
harmful agencies. As a general rule the larger
the number of leaves there is on a plant the
lower is the quality of the subsequently cured
leaf. An average of about 10 leaves to each
plant is what is favored by most growers, and
the plants are usually thinned to this extent.
Seed buds are removed also at the same time
and for the same reason. If the plants are
"thinned" late and when they are approaching
full growth the leaves removed are not des-
troyed, but are cured separately and sold as
inferior quality and are usually called "prim-
ings" or "planters lugs."

In the Southern American States the time
allowed for the growth and maturing of the
plant is somewhat longer than in the eastern
and more northerly states where the soil, owing
to richer fertilization, favors the rapid growth.
Moreover, a stronger quality of tobacco is

24

wanted and the extra time allows the plant to
effect a greater elaboration in its cells of the
oils and gums, etc., which contribute particu-
larly to strength and flavor.

SHADE GROWN TOBACCO

The matter of rapid growth has, however, its
limitations. Too much sunlight is considered a
disadvantage. Under such powerful action,
nutrition is drawn quickly from the soil and the
plants ripen too quickly. Under such circum-
stances the leaves tend to become heavy bodied
and not very large in size. To defeat this ten-
dency and produce large, thin silky leaves for
the cigar trade, the grower sometimes covers
his field with a tent of cheese-cloth or similar
protection from the glare of the sun. The
ripening process is thereby slowed and the
leaves are thinner, larger and lighter in shade.
This method is employed principally in Cuba,
Florida and Connecticut where cigar wrapper
leaves are produced, and such tobacco is known
as shade-grown.

Tobacco which has been planted out at the
end of May or early in June is usually ready for
harvesting at the end of August or beginning to
middle of September. The actual time of har-
vesting varies a good deal according to the
variety grown and the physical condition con-

25

cerned in the growing of the plant. The heavier
tobaccos which are intended for the export
trade are usually harvested late. The most im-
portant operations connected with the culture
of the tobacco leaf are the "yellowing" and
"curing" processes, and, as these commence
with the cutting of the plant, this latter must
be done under strictly favorable conditions in
order to insure proper results. The cutting
must not be done while the sun is very hot, or
while there is rain, or before the plant is fully
matured. On the other hand, after the plant
has reached its maturity, it must not be allowed
to continue its growth, which along with other
things would be likely to increase its nicotine
content which is not desirable. The experienced
tobacco grower knows well from the appear-
ance of the plant when it is best fitted for cut-
ting. The leaves become thick and heavy and
assume a drooping appearance. They become
crisp with a tendency to break easily, and a
mottled, spotty look is noticeable on them. The
surface becomes gummy and oily; the oily sub-
stances increases and exudates as the days pass.
When these signs appear the tobacco is cut on
the first day when the weather favors. It is
usual in most cases to split the stalks down the
middle and allow the leaves to wilt, before the
stalk is entirely cut through. After sufficient

26

wilting the leaves are gathered in piles and
exposed to the action of the sunlight; or they
are stuck by the stalks on poles or framework
and so exposed that the sun and air have free
access to all parts. This is the best and most
approved practice. "Yellowing" of the leaf is
very rapid after the plant is cut; it is the
natural effect due to cutting off the food supply
of the leaf and the consequent slow death of the
vitality of the cells. It must be remembered
that the leaves are large, varying in size (ac-
cording to species) from 12 inches to over .2
feet in length. Such a leaf needs a large quan-
tity of food and the sudden cutting off of the
supply effects a rapid change in appearance.
The leaves are allowed to hang on the scaffolds
3 to 5 days until they are fully yellowed. They
are then ready for the process of "curing,"
which is the most important operation con-
nected with cultivation. The "curing" and
"fermentation" which the leaf undergoes are
chemical actions and their success depends on
the proper method of "yellowing." The leaves
must not be exposed to the sun too long, be-
cause the cells would lose their vitality too
rapidly and be unfitted for the new part they
have to play in the curing process. The chemi-
cal changes will be explained in subsequent
chapters. It is desired that the reader should

27

understand that to ensure a successful final
issue the planter has need to watch continu-
ously and to know all the conditions. If the
leaf does not "yellow" properly no amount of
after care in curing will make up for this de-
ficiency. In tobacco growing as in everything
else, to ensure final high quality each step in
the process must be executed with skill, care,
and judgment.

The yield of tobacco per acre varies from
about 300 Ibs. of leaf in the southern states to
1,000 Ibs. or more in the eastern. 700 to 800
Ibs. per acre is considered a good average crop.

REFERENCES

KILLEBREW AND MYRiCK. Tobacco leaf; its cul-
ture and cure, marketing and manufacturing.

Part I. New York, 1897.
BILLINGS, E. R. Tobacco; its history, varieties,

culture, etc. Chapter XIII. Hartford, Conn.,

1875.
LAURENT, L. Le tabac; sa culture et sa preparation

production et consummation dans les divers pays.

Paris, 1900.
U. S. DEPT. OF AGRICULTURE. Farmers' Bulletins

Nos. 6 and 60. Tobacco.
U. S. DEPT. OF AGRICULTURE. Bureau of Plant

Industry. Bulletin 96. Tobacco breeding.

28

CHAPTER III

THE WORLD'S PRODUCTION OF
TOBACCO

TOTAL PBODUCTION. COUNTBIES WHICH CULTI-
VATE TOBACCO. PBODUCTION IN THE
NEW WOBLD OTHEB THAN IN
THE UNITED STATES

THE WORLD'S PRODUCTION OF
TOBACCO

The world's recorded annual crop of tobacco
leaf is over one million tons. The latest
government figures available are those for 1912
and 1913, and show 2,696,401,379 and
2,722,190,030 Ibs. respectively. Of this amount
Asia and America produce each about 350,000
tons, Europe about 250,000 tons and the rest
of the world the balance.

The details of the production in the U. S.
will be given in the next chapter.

The principal Asiatic countries which pro-
duce tobacco are China, Japan, Afghanistan,
India, Persia and Asia Minor. China has an
immense production and consumption of tobac-
co, a large portion of which finds its way into
western markets for the cigar and cigarette
trade and is sold as "Turkish" tobacco. No
figures as to production are available.

British India and Afghanistan produce good
tobacco, a lot of which is used in Hindustan and
other Eastern countries.

The Persian crop is known to be large, but
there are no available records of it. In Persia
most of the tobacco raised is of the species
known as Nicotiana Persica. This is generally
known under its trade name of Tumbach or

31

Tumbeki (or more correctly Teymbeki). This
is the common Eastern name for tobacco. It is
considerably exported to the countries in the
neighborhood of Persia and is smoked in the
pipe known as the Narghilli. In this pipe the
teymbeki burns in contact with a piece of incan-
descent charcoal. The smoker draws the vapor
through a flexible tube which passes to the bot-
tom of a water chamber and passes above it,
whence it is inhaled. The narghili is technically
a water pipe. The teymbeki is very strong in
nicotine, containing up to 5 or 6 per cent.

Japan produces large and medium size leaf
of good color but poor in quality. It is
generally used for pipe and cigarette trade.

The statistics of production for Asia are ex-
tremely unreliable. When we consider the teem-
ing populations of China, India and other
Eastern countries and the prevalence of the
smoking habit, it is very probable that the
figure of production (350,000 tons annually)
is much under the mark. There is very little
export of tobacco from the United States or
Europe to the East. Whatever tobacco is con-
sumed there is mostly of its own production.
EUROPEAN PRODUCTION OF TOBACCO

In Europe the principal tobacco producing
countries are Germany, France, Austria,
Russia, Italy and Turkey.
32

Germany has nearly 40,000 acres under
tobacco cultivation in Rhenish Bavaria, Baden,
Hesse, and Alsace-Lorraine. The annual pro-
duction is about 50 to 70 million Ibs. ; and in
addition nearly 3 times that much is imported.
German home grown leaf is medium to large in
size, of fair body, heavy and with coarse veins.
It is used for cigar filler and pipe, but is not
suited for cigar wrappers. (See the chapter on
cigars.)

French tobacco is raised from Virginia seed.
It is dark, coarse and heavy and is suitable for
plug and snuff making only.

Russia is the largest European producer.
Russian tobacco leaf is very large in size and
like the French is coarse, dark and heavy and
is only fit for plug and snuff making. There is
a lighter kind grown from Turkish seed in
South Russia which is fit for cigarettes.

Italy has made several attempts to cultivate
good tobacco, and several different types are
produced. A dark heavy leaf is grown from
Virginia seed, and a type from Kentucky seed
is also produced. These types are suitable to
the dark, heavy fertile soils of Middle and
North Italy. In the lighter sandy soil of the
south, the varieties grown are raised from
Turkish seed and are similar in appearance and
quality to the genuine Turkish tobacco.
33

Hungary is a heavy grower of tobacco and
produces some of the best in Europe. There is
a heavy dark type, of a rich brown color,
medium sized leaf with small and thin veins,
which is used in cigar manufacture. A small
bright yellow leaf is also grown, poor in quality
and aroma, which is used for pipe smoking and
cigarettes.

The most important foreign tobacco as re-
gards U. S. consumers is that known as Turk-
ish. The leaves of the Turkish tobacco are
small (about 8" long), clear yellow in color,
and have a special aroma, which renders them
peculiarly suitable for the manufacturing of
cigarettes. The principal producing centers
are Macedonia, Albania, Syria, Palestine and
Trebizond, that raised in Macedonia being per-
haps the most celebrated. Just like the Cuban
leaf, the very best grades of Turkish tobacco
are not exported, but are kept for domestic
consumption.

Latakia tobacco is produced in the northern
part of Syria. This tobacco has a very small
nicotine content. It is produced by a special
fabrication and is in very great demand as an
ingredient of pipe smoking mixtures.

The District of Cavalla in the Province of
Roumelia, is one of the most important tobacco
centers in the Turkish Empire. There are
34

about 75,000 acres under tobacco cultivation
and the annual production is about 10,000,000
Ibs. The American Tobacco Co. has a large
establishment here through which it purchases
its Turkish leaf, amounting to over 6 million
Ibs. yearly, for the manufacture of Turkish
cigarettes, etc.

The total importation of Turkish leaf into
the United States during 1913 was :
From Turkey in Europe . . . 10,816,048 Ibs.
From Turkey in Asia 18,955,295 Ibs.

Greece and the Balkan States produce
tobacco which partakes of the qualities of Hun-
garian and Turkish, the Grecian leaf being
used a good deal as a substitute for genuine
Turkish tobacco.

TOBACCO PRODUCED IN THE NEW WORLD OTHER
THAN IN UNITED STATES

The government of Canada has given a lot
of attention to experiments in connection with
the growth of tobacco in the Dominion, but only
with indifferent success. The leaf is raised
principally from Virginian seed, but is large
and coarse and is only fit for inferior plug and
snuff making.

Cuban Tobacco. The tobacco raised in the
Island of Cuba is the most celebrated in the
world for cigar making. The leaf is of a rich,
35

brown color; narrow and small in size, varying
from 8 to 18 inches in length. Its richness of
flavor and the peculiar aroma are its chief
characteristics. Cuba produces annually about
300,000 to 500,000 bales of tobacco varying in
weight from 80 to 150 Ibs. per bale, nearly one-
half of which is exported to the United States
alone.

The importation of Cuban leaf into the
United States over a series of years is shown
below :

Cuban leaf imports into the U. S. (Ibs.)

1855-1860= 7,014,485

1871-1875= 8,985,465
1886-1890 = 15,532,075
1896-1900 = 10,811,173

Average

Yearly

Imports.

1901-1905 = 24,048,837
Year 1914 = 26,617,545
The value in 1900 was $ 8,478,251
The value in 1905 was $13,348,000
The Province of Pinar del Rio produces
about 70 per cent of the entire Cuban crop.
In this is the District of Vuelto Aba jo which is
celebrated the world over for the very finest
cigar tobacco. The District of Habana or
Havana produces about 13 per cent and Santa
Clara about 13 per cent. The Cubans them-
selves favor the dark "Maduro" fully ripened
leaves. At present a good deal of Cuban cigar
36

leaf is grown under shade with the result that
although when fully mature they are light in
color, they are rich in flavor.

The value of the cigar leaf imported by the
U. S. from Cuba averages at present about
14 or 15 million dollars annually.

Porto Rican leaf possesses many of the quali-
ties of good Havana leaf, and like the latter is
used in cigar manufacture. The annual pro-
duction is about 120,000 bales. The U. S.
imports from 4 to 5 million Ibs. annually.
Further particulars regarding Cuban and
Porto Rican leaf will be given in the chapters
concerning cigars.

Mexico produces a tobacco, large as to leaf,
dark in color, with heavy body and coarse veins.
The tobacco is very strong in flavor. The best
grades approach the Cuban tobacco in quality
and are imported and used as substitutes for it.
The U. S. importation is small. The annual
production is about 34 million Ibs. The best
quality is produced in the neighborhood of
Vera Cruz, and only a small portion is exported,
principally to Cuba.

Brazilian tobacco leaf is brown in color,
medium in size, and medium in body. It
posesses fair qualities as a cigar tobacco, for
which purpose it is generally used in South
America, which is its principal market.
37

EAST INDIAN AND PHILIPPINE TOBACCO
The Dutch East Indies (Sumatra and the
adjacent islands) produce yearly about 180
million Ibs. of tobacco, all of which is used in
the cigar business. Of this the United States
takes about from 30,000 to 40,000 bales of
Sumatran leaf, about 5% million Ibs. About
2 Ibs. of this leaf wraps 1,000 cigars.

The Philippine Islands produce from 50 to
100 million Ibs, of tobacco annually. The crop
for 1913 was 101,544,736 Ibs. The imports
into the United States are principally as manu-
factured cigars by special arrangements which
will be referred to later on in the chapter on
cigars.

CHAPTER IV

PRODUCTION OF TOBACCO IN THE
UNITED STATES

TOTAL PRODUCTION. AMOUNT PRODUCED BY

THE DIFFERENT STATES. VARIETIES

RAISED. DESCRIPTION OF THE

DIFFERENT VARIETIES

39

PRODUCTION OF TOBACCO LEAF IN
THE UNITED STATES

The amount of tobacco leaf raised annually
in the United States varies from 700 million
Ibs. to 1,000 million Ibs. Thus, according to
the Government Statistical Reports, the pro-
duction in 1909 was 1,055,764,806 Ibs., being
an unusually high figure. The production in
1913 was 953,734,000 Ibs. and in 1914,
1,034,679,000 Ibs. The average crop may be
taken as about 800 million Ibs., about half of
which is exported as leaf, and the other half
manufactured in the U. S. into cigars, smoking
and chewing tobaccos, etc., and consumed in
the U. S. To produce this immense crop over
one million acres of rich, fertile land is under
culture, the actual government figures for 1913
being 1,216,000 acres, and for 1914, 1,224,000,
and the value of the raw crop is from 80 to
100 million dollars, which works out to an
average value of from 10 to 12 cents per Ib.
The cost of producing the best grades of cigar
leaf in the Eastern States is from 8 to 10 cents
per Ib. ; is Wisconsin from 5 to 10 cents. The
price paid to the growers is from 5 to 15 cents,
except for the highest grades (cigar wrapper
leaf) for which special prices, up to 40 or 50

41

cents, may be paid. Smoking and chewing leaf of
average grade fetches from 6 to 7 cents per Ib.
From these figures it will be seen that the
agricultural industry of tobacco growing is a
most important one, and it is constantly in-
creasing both in the quantity produced and in
value. About 45 of the states in the Union
are engaged in tobacco culture, the principal
states and the quantities produced being as
follows (for 1914) :

Kentucky 364 million Ibs.

North Carolina 172 " "

Virginia 114 " "

Tennessee 63 " "

Ohio 78 " "

Wisconsin 54 " "

Pennsylvania 48 " "

Connecticut 35 " "

South Carolina 36 " "

Maryland 17 " "

Indiana 12 " "

Massachusetts 11 " "

Other states . 30 " "

Total 1034 " "

Virginia was, until recently, the premier
tobacco state. Tobacco was first raised in
Virginia about 1619 when the quantity pro-

duced was about 20,000 Ibs. By 1753 the
records show that over 50 million Ibs. were
raised annually, all of which was exported. At
this time and until about the period of the
Civil War, Europe was dependant more than
now on America for her tobacco supply, as at
present a considerable part of her needs is sup-
plied by her own production. Tobacco was not
grown in Kentucky till about 1785 and a little
later in Tennessee and Ohio. The cigar leaf
industry of the New England States did not
come into activity till about 1830. Cigar leaf
was raised in Florida about the same time but
was discontinued and was not resumed till fifty
years later .

Virginia, Maryland and Tennessee have
shown a declining annual production since the
Civil War. Thus Virginia in 1860 produced
nearly 30 per cent of the total U. S. crop,
whereas at present it produces about 12 per
cent only. The causes which have contributed
to the decline in tobacco culture in the Southern
States are the loss of slave labor as well as the
loss of capital during the war; more particu-
larly it is due to the impoverishing of the soil
without adequate fertilization. Thus with
superior fertilization and intensive methods,
Massachusetts and Connecticut give 1,750 Ibs.
to the acre, as against 870 and 580 Ibs. for
4,3

Kentucky and Tennessee. In Massachusetts
and Connecticut the cost for fertilizer per farm
is $227 as against $17 and $4 respectively in
Tennessee and Kentucky. Moreover, the
Northern farms are smaller than the Southern.

VARIETIES or TOBACCO RAISED

The varieties of tobacco raised are mainly of
the native American species ; but in some states
(in Florida particularly) plants are raised from
imported Cuban and Sumatran seed, in an en-
deavor to produce cigar leaf equal in quality to
the leaf now imported from these places which
commands a high price in the trade. The rais-
ing of cigar leaf tobacco from foreign seed
began in Florida about 1902 ; and, although on
the whole, the cultivation has been very success-
ful, yet it cannot be said that the hoped for
results have been fully realized. It was claimed
for the Florida grown Sumatran leaf that in
many ways it surpassed the native Sumatran
leaf. Certainly the experimental samples of
this Florida leaf exhibited by the U. S. at the
Paris Exposition of 1900 were judged to be
superior both in appearance and style and other
matters. However, this superiority does not
appear to have been upheld, for in the trade
the native grown Sumatran leaf still holds its
rank.

44

Similarly in the case of Florida grown Cuban
leaf which at the same Exposition was voted
as equal to the native. The native leaf, how-
ever, whether due to the soil or not, has a finer
flavor and aroma, and the best grades of native
grown Cuban tobacco still hold the palm as
the premier cigar tobacco of the world.

The leaf raised in Connecticut, Pennsylvania,
Ohio, Wisconsin, Florida, Massachusetts, and
New York State, is generally used for the cigar
trade (see the chapters on cigars). Ohio and
Florida (Cuban seed) leaf mostly used as cigar
fillers ; Connecticut and Florida ( Sumatran
seed), Pennsylvania and New York leaf mostly
as wrapper leaf, the inferior leaves being used
as fillers. Wisconsin leaf is used principally as
cigar binder leaf. The total amount of cigar
tobacco raised is roughly about one-fifth of the
entire tobacco crop.

The southern states produce the bulk of the
export dark, heavy leaf. West Kentucky and
Tennessee particularly, as well as Virginia, the
Carolinas and Maryland, export considerable
quantities. This tobacco is fire-cured. For the
domestic trade, however, (pipe-smoking, chew-
ing and cigarettes) the tobacco grown in these
states is flue-cured, the principal product being
of a bright yellow color, characteristic of this
region.

45

This "yellow tobacco belt" extends from the
coast across to the North Carolina Mountains,
through Tennessee and South Carolina, South-
ern Virginia, Southern Ohio, a few parts of
Kentucky, some of Eastern Missouri and Ar-
kansas. The best soils are those which are of
a light sandy or sandy clay nature and they
need not be deep or rich. In this region the
very finest pipe-smoking tobaccos are raised.
Whilst the U. S. has not been able to produce a
cigar wrapper tobacco equal in quality to the
Cuban or Sumatran, in pipe-smoking and cigar-
ette tobaccos she stands without a rival.

There are about 100 different varieties of
tobacco grown in the U. S., many of these being
approximately the same and are synonymous.
Subvarieties are easily obtained by crossing.
Cross-fertilization easily takes place where dif-
ferent strains are produced in the same locality.
On this account when it is desired to keep a
variety pure, care must be exerted to see that
seed is collected from pure strains. On the
other hand, the ease of producing new varieties
gives opportunity to the various State Agri-
cultural Experimental Stations to try out new
strains for desirable qualities. The enumera-
tion of the differences between the various varie-
ties would be tiresome for the reader, yet it will be
well for the user of tobacco to know some of these
46

varieties, their characteristics and other par-
ticulars concerning them. These are given here :

LEADING VARIETIES OF AMERICAN TOBACCOS
BURLEY. The variety known as White Burley
has a long broad leaf, whitish in ap-
pearance when growing. The points of
the leaf hang down towards the ground
when growing, often even touching the
ground. The leaf is thin in texture,
has a mild flavor, low nicotine content
and good absorbing qualities. It is one
of the most popular tobaccos in the
U. S. and is used for pipe-smoking and
chewing tobaccos and cigarettes. It
cures to a bright yellow brown color.

There is a variety known as Red Bur-
ley which has a thin leaf narrowing
from center to top. The leaves are of
a characteristic cinnamon color and are
more elastic than those of White Bur-
ley. Burley tobacco is raised princi-
pally in Ohio, Kentucky, Virginia,
Maryland, Missouri and Indiana.
CONNECTICUT Large, strong leaves, thin and
SEEDLEAF. elastic, silky in texture, small

fibers, sweetish taste and light in color.
Used in the cigar trade as fillers and
wrappers and grown in New England,
47

Pennsylvania, Ohio, and to a smaller
extent in Wisconsin, Minnesota, Indi-
ana, Illinois and Florida.

CONNECTICUT A modification of the above,
BROADLEAF. the leaves being broader in
proportion to their length. They are
up to 35 inches long and 22 inches wide.
Largely used in the cigar trade as filler
and wrappers. Both the Connecticut
Seedleaf and Broadleaf are superior to
the imported Sumatran leaf in flavor
and aroma, but are inferior in elasticity
and covering qualities.

Grown principally in Connecticut
and New York States.

ORINOCO. There are 3 varieties of this name:
(1) Short Orinoco. Broad leaf, up-
right growth and open habit, light
colored, much ruffled. Grown in Vir-
ginia and Missouri. (2) Big Orinoco.
Short, broad leaf. Grown in Virginia,
Missouri, North Carolina, Tennessee
and West Virginia. (3) Yellow Or-
inoco. Long, narrow, tapering leaf with
fine texture. The sweetest variety
grown. Grown in Virginia, Maryland,
North Carolina, Tennessee, West Vir-
ginia and Missouri.
48

Orinoco tobacco leaf is used largely
for plug and smoking tobaccos and for
the export trade.

VIRGINIAN. Sun and air-cured tobacco. Leaf
is medium in size. Very bright brown
color. Is rich in gums and oils which
makes it sweet and fragrant and gives
it a pleasant taste. Hence it is a favor-
ite chewing tobacco.

PRYOR. There are several varieties under this
name : ( 1 ) Medley or White Pry or has
a very broad leaf with silky texture and
tough fiber. (2) Blue Pry or. Large,
long fine leaf and good color. (3) Silky
Pryor. A long sharp-pointed leaf;
grows thin on the stalk ; very tough and
pliant. (4) Yellow Pryor. Heavy,
wide leaf, fine bright color, tough and
weighs well.

Pryor is used principally for the ex-
port trade and to some extent also in
the home trade both for cigar and plug
and smoking tobaccos. It is grown
generally throughout Virginia, North
Carolina, Kentucky, Tennessee, Mis-
souri and Indiana, the White variety
being extensively grown in Virginia.

LITTLE A very favorite pipe-smoking to-
DUTCH. bacco. It has a small nicotine con-
tent (less than 1%). The leaf is small;
narrow, thick and short ; dark brown in
color, glossy surface and sweet in taste.
It is grown extensively in the Miami
Valley of Ohio.

SUMATRA Grown principally in Florida from
SEED. imported Sumatran seed. The leaf

is light in weight and color, not long
compared with other seedleaf varieties.
Very narrow and with fine ribs. Used
in cigar trade and grown extensively
also in the New England states.

CUBAN This has the usual qualities of Cuban
SEED. tobacco but with inferior fragrance
and aroma to the native grown. Princi-
pally raised in Pennsylvania, New
York, Wisconsin, Connecticut and
Florida for the cigar trade.

PERIQUE. A special variety of tobacco grown
only in a small area of Louisiana. The
leaf is medium in size, has a fine fiber
with small stems. Tough, gummy and
glossy. It is grown in a deep, rich soil
and grows very rapidly. Its special
characteristics are acquired in the cur-
ing, which is a special process peculiar
50

to itself, and which will be described in
the chapter on Manufactured Tobaccos.

REFERENCES

Yearbooks of the United States Department of
Agriculture. 1Q14 and previous.

HOAGLAND, I. G. The Tobacco Industry. In
Quarterly of the National Fire Protection As-
sociation. 1Q07. Vol. I, Nos. 2 and 4.

JACOBSTEIN, M. The Tobacco Industry in the
United States. New York, 1Q07.

BILLINGS, E. R. Tobacco; its history, varieties,
culture, manufacture and commerce. Hartford
Conn., 1875.

51

CHAPTER V

THE CHEMICAL COMPOSITION OF THE
TOBACCO PLANT

ORGANIC AND INORGANIC MATTERS CONTAINED IN

TOBACCO AND THE PARTS THEY PLAY.

ANALYSIS OF VARIOUS TOBACCOS.

NICOTINE.

53

THE CHEMICAL COMPOSITION OF THE
TOBACCO PLANT

The tobacco plant when subjected to chemi-
cal analysis is found to contain all or most of
the following substances:

Mineral Bases. Potash, Lime, Magnesia,
Oxides of Iron and Manganese, Ammonia,
Silica.

Mineral Acids. Nitric, Hydrochloric, Sul-
phuric and Phosphoric.
Organic Base. Nicotine.
Organic Acids. Malic, Citric, Acetic, Oxalic,

Pectic and Ulmic.

Other Organic Substances. Nicotianin, Green
and Yellow Resin, Wax and Fat, Nitro-
genous Substances and Cellulose.
The substances which differentiate tobacco
from other plants and form its chief character-
istics are Nicotianin, Nicotine and Malic Acid.
The percentage in which the important sub-
stances exist in tobacco is given below:

Nicotine

. . . From 1 to 9%

Malic and Citric Acids .
Oxalic Acid

. . .From 10 to 14%
. . . From 1 to 2%

Resins, Oils and Fats . . .

. . . From 4 to 6%

Pectic Acid

...About 5%

Cellulose

. . .From 7 to 8%

Albumenoids

...About 25%

Ash

. . .From 12 to 30%

55

When tobacco is burned, chemical changes
occur; the organic and other compounds are
decomposed. The volatile matters pass off in
the smoke if the combustion is complete, and
the mineral ash remains. In ordinary pipe or
other tobacco smoking, however, the combustion
is not complete and many decomposition pro-
ducts remain with the mineral ash.

In tobacco smoke the following can usually
be found: Furfurol, Marsh Gas, Hydrogen
Sulphide, Hydrogen Cyanide, Organic Acids,
Phenols, Empyreumatic Oils, Pyridine, Picoline
Series and possibly some Nicotine.

The ash left after complete combustion is
important, as much of the smoking qualities of
the tobacco depends on its constituents. An
average sample gives the following analysis (in
100 parts) :

AVERAGE MINERAL CONTENTS OF TOBACCO ASH

Potash About 27%

Soda About 3%

Lime About 40%

Magnesia About 9%

Sodium Chloride About 9%

Sulphuric Acid About 3%

Silica About 5%

Lime Phosphate About 4%

56

REMARKS ON SOME OF THE SUBSTANCES FOUND

IN TOBACCO

Nicotine

Of all the substances found in tobacco, nico-
tine is the most important.

Nicotine in the pure state is a colorless liquid
having a specific gravity of 1.027. It is an
organic base having the chemical formula
Cio H14 N2. It is extremely acid and burning
to the taste, and is a virulent poison. It easily
volatilizes; is inflammable, and is soluble in
water, alcohol, ether and some fixed oils. Nico-
tine has the characteristic peculiar odor of
tobacco.

The amount of nicotine in tobacco is said to
depend on the nature of the soil in which it is
grown; rich, heavy soils and strong nitrogenous
manuring favor the production of a large nico-
tine content ; and light, sandy soils the opposite.

Moreover the nicotine content depends on the
age and development of the plant.

An investigation by Chuard and Mellet
showed nicotine contents of leaves :
In young plants 7 weeks old contained .0324%

In plants 10 weeks old contained 0447%

In plants 13 weeks old contained 4989%

In plants 19 weeks old contained 9202%

The longer the plant is permitted to grow the
larger will be its nicotine content.

57

Schlossing has made a similar investigation
and found that in the same plant the nicotine
content varies from 0.79% when young to
4.32% when fully matured. Most nicotine is
found in the ribs and veins.

H. B. Cox (American Druggist V. 24, 1894,
p. 95) investigated the nicotine contents of
various manufactured tobaccos. These were
not "proprietary tobaccos" but samples ob-
tained from different sources at random. His
results are given here :

NICOTINE CONTENTS OP DIFFERENT TOBACCOS

Nicotine

Syrian Tobacco leaf (a) 612%

American Chewing Leaf 935%

Syrian Tobacco Leaf (b) 1.093%

Chinese Tobacco Leaf 1.902%

Turkish Coarse Cut 2.500%

Golden Virginia (whole strips) 2.501%

Gold Flake Virginia 2.501%

Navy Cut (light) 2.530%

Light Kentuckian 2.733%

Navy Cut (dark) 3.64 %

Best "Bird's Eye" 3.931%

Cut Cavendish (a) 4.212%

Best Shag (a) 4.907%

Cut Cavandish (b) 4.970%

Best Shag (b) 5.00 %

58

Algerian Tobacco (a) 8.813%

French Grown Tobacco 8.711%

Algerian Tobacco (b) 8.90 %

The average of a number of samples of
Syrian tobacco showed 1 to 2% nicotine.
Manila and Havana 1 to 3%, Virginia and Ken-
tucky from 2 to 7%, and French tobaccos about
9%.

Most of the nicotine in tobacco becomes
volatilized and decomposed during combustion;
a small part, however, may form a solution with
the water which is also one of the combustion
products. One of the decomposition products
of nicotine is

Pyridine

Pyridine is usually found in tobacco smoke.
When condensed it is a colorless non-oily liquid
and is considerably less toxic than nicotine.

Reference will be made later on to the effects
of nicotine and pyridine on the human system.

Potash

Potash is important as on its amount depends
the burning qualities of the tobacco. It is
sometimes present in the ash to the extent of
30%, being converted into potassium carbonate
by burning. Not only for free burning is the
potash valuable, but also for the better volatili-
zation of the nicotine and other substances.
59

The more perfect the combustion, the fewer
deleterious compounds are formed.

Chlorides, if present, retard the burning of
the tobacco, and hence a tobacco which contains
a high percentage of chloride, even if it is rich
in potash salts, is a poor burning tobacco and
therefore faulty. While it is important that
the burning should be free and the volatilization
as perfect as possible, yet the smoker does not
want his tobacco to burn too rapidly. To meet
this some manufacturers prepare "slow burn-
ing" tobaccos generally by the addition of some
chemical which checks the potash.

The aroma and flavor of the tobacco depend
to a great extent on the waxes, resins and oils,
as well as on certain of the organic acids.

REFERENCES

U. S. DISPENSATORY. 1907 (19th Edition).
KISSLING. The Chemistry of Tobacco. Scientific

American (Supp.) 1905, Vol. 60, No. 1560.
CHUARD & MELLETT. Variation de Nicotine dans

les differents organes de la plante de Tabac.

Comp. Rend. Acad. d. Sc. (Paris) 1912. Vol.

155, p. 293.
PEZZOLATO, A. Conferenza Sulla Chimica appli-

cato alia technologia del Tobacco. (Rome. 1903.)
WOLF, JACOB. Der Tabak und die Tabak fabri-

Jcate. Chapter III. Leipzig, 1912.
SCHLOSSING. Sur la production de la nicotine par

la culture du Tabac. Compt. Rend. Acad. d.
Sc. (Paris), 1910. Vol. 151, p. 23.

CHAPTER VI

THE CURING OF TOBACCO LEAF

OBJECTS OF CURING. METHODS.

61

THE CURING OF TOBACCO LEAF

The "curing" of tobacco leaf is the process
of drying out which has for its object the fol-
lowing specific actions :

(1) The expelling of the sap and superfluous

moisture.

(2) The completion of the "yellowing" pro-

cess and the fixing of the desired
color.

(3) The preservation of the juices, etc.,

which give the characteristic flavor
and aroma.

(4) To give the necessary toughness and

suppleness to the leaf.

The first part of the curing is done by the
grower in curing sheds on the farm immediately
after the cutting of the crop ; the final part, or
the fermentation part is usually done by the
leaf dealer or manufacturer in special buildings
called leaf-houses.

There are three methods of curing in use
by the growers, i. e., sun curing, air curing, and
artificial heat curing. In the case of the
tobacco known as Perique the curing process is
more or less peculiar to itself. "Sun" and
"air" curing are much slower processes than
the curing by artificial heat.

63

All cigar leaf tobacco is sun-cured, and as a
general rule pipe smoking and chewing tobacco
are cured by artificial heat.

For the purpose of drying and curing by
artificial heat, the leaf is hung up in specially
constructed curing houses or sheds. It is found
that after the exposure to the sun for the first
process of "yellowing" tobacco leaf still con-
tains 1 Ib. of water approximately in each
plant. The first part of the process of curing
consists in drawing off this superfluous mois-
ture. Dry heat is applied at a temperature of
90° F. to 120° F. for about 16 to 30 hours to
effect this. A further exposure of about 48
hours at a temperature of 125° or so is neces-
sary to complete the curing, and fix the color.

The stems and stalks being thicker take a
longer time and generally require 9 to 10 hours
further exposure and a temperature which may
range as high as 175° F. before they are fully
cured, the temperature being graded hourly
until the maximum necessary is reached.

The process of curing varies considerably in
different states. Some growers prefer to put
the tobacco into the sheds immediately after
cutting, and allow very little exposure in the
fields. The temperature is usually kept
steady at about 90° F. Again the process is
different according to the quality of tobacco

required. For the heavy type of leaf which is
intended for the export trade, the curing in the
sheds is done by an open fire, the fuel being
usually hardwood logs. The smoky, creosotic
flavor is absorbed by the leaf, and, although
this flavor is not relished by the smokers of the
U. S., it is much liked in Europe. The curing
in such cases may last for 4 or even 5 five days.
The tobacco is suspended on poles by the stalks
and the fires are built on the floor immediately
under them so that the carbonaceous products
are easily absorbed by the open pores of the
leaf.

The chewing and pipe smoking tobacco, as
well as cigarette tobaccos including all the
bright yellow tobaccos used in the U. S. are
usually cured by Flue curing. In this case
the heat comes from pipes which run around the
curing houses and are fed from a furnace in an
adj oining chamber or in a cellar. The tempera-
ture can be easily regulated. "Flue" curing is
generally completed in about 4 days. "Flue"
curing does not clog up the pores of the leaf
which therefore remain more absorbent than in
the open fire cured tobacco. This is an import-
ant matter for the manufacturers because the
flue cured leaf will absorb twice as much of the
flavoring sauces (which are added to certain

65

kinds of tobacco) than tabacco leaf cured by
open fires.

Air exposure of 6 to 8 weeks (sometimes ex-
tended to 3 or 4 months) is necessary when
tobacco is cured by exposure to the sun and
air. It is claimed, however, that this method of
curing preserves far better the natural flavor
of the leaf; and, where flavor and aroma are
highly important, this method is always pre-
ferred. Hence all cigar leaf tobaccos are cured
by exposure to natural sunlight and not by
artificial heat.

"Air" curing as distinct from sun curing is
generally done in open sheds which are thor-
oughly ventilated and kept as far as possible
at a temperature of about 75° F. The leaf is
usually allowed to cure while attached to the
stalk, but Florida curers generally prefer to
strip the leaf and treat it separately. The
finer classes of pipe smoking tobaccos are air
cured.

After the curing is completed the color of
the leaf is usually fixed. Generally speaking,
the riper the leaf the lighter will be its color
when cured. Thus the bottom leaves of the
plant will be lighter in color than the upper
leaves because they are more mature.

(For references see end of Chapter VIII)

66

CHAPTER VII

THE MARKETING AND SALE OF
TOBACCO LEAF

METHODS OF DISPOSAL BY THE GROWER. THE

WAREHOUSE SYSTEM. DIRECT PURCHASE.

PRINCIPAL MARKETS IN THE UNITED

STATES. PRICES.

67

THE MARKETING AND SALE OF
TOBACCO LEAF

When the tobacco leaf is fully cured it is at
once prepared for the market. The first step
is the planters' classification of the leaf. In
the case of pipe smoking and chewing tobacco
the planter collects all the imperfect, injured
leaves, or those inferior from any cause* and
ties them in bundles. These are the planters
lugs. All other grades are leaf. Slightly in-
jured leaves are classed as low-leaf or seconds.
The others are classed medium, good, fine and
selected leaf, according to grade, color, qual-
ity, etc.

In the case of cigar leaf tobacco a similar
classification is made, more care being taken
owing to the very great difference in price be-
tween the better and poorer qualities. This
difference may be as much as 20c in the lb., the
finer and more suitable leaf being eagerly
sought for.

Pipe smoking and chewing tobacco leaf is
usually packed in hogsheads or cases each
weighing from 1,000 to 1,400 Ibs. The opera-
tion of packing the leaf is called "prizing."
Cigar leaf is usually put up in "hands." A
"hand" consists of from 25 to 75 leaves tied
together. Four hands tied together make a

69

"carrot" and 80 carrots go to the bale, but the
size of the bale varies considerably. The to-
bacco is then ready for the buyer.

There are two systems of disposing of the
planters' product: (1) direct purchase by the
manufacturer or by a middleman from the
grower; and (2) what is known as the ware-
house system. In the southern states the ware-
house system prevails. Every important to-
bacco section in the south has its public ware-
house which is under the control and super-
vision of state law. Many of these warehouses
are long established, that at Richmond, Va.,
dating as far back as 1730, and those at Louis-
ville and Clarksville about 1839.

On appointed days the planter brings his
leaf to the warehouse. Here it is entered as
"loose leaf" or "inspected leaf." In the case
of loose leaf, the tobacco is open to the inspec-
tion of prospective buyers, who examine it and
afterwards bid on it, In the case of "inspected
leaf" the warehouse officials first examine the
consignments, grade them and mark them ac-
cording to their judgment, taking samples.
The samples are open to buyers' inspection and
form the basis of sale. Tobacco auctions are
regularly held when the buyers assemble and
bid on the "loose leaf" and "inspected" lots.

70

Prices of the various grades are fixed and sales
take place at the day's price.

The principal tobacco markets are:

For Kentucky and Tennessee — At Louis-
ville, Clarksville and Cincinnati.

For Maryland and Ohio — At Baltimore.

For North Carolina — At Durham and Wins-
ton.

For Virginia — At Richmond.

The warehouse system has the great ad-
vantage that the proceedings are open and the
prices are recorded and published. Hence
growers can know how the market fluctuates
and judge the best time for sale. This is not
the case when the sale is private between the
buyer and seller as is customary in the eastern
and northern states. Here the price actually
received by the grower is often different from
that given out as paid.

The price of tobacco leaf has had many
vicissitudes during the past 25 years, the price
often having reached so low a point as to dis-
courage producers. Thus at Winston, N. C.,
the price has gradually fallen from 12. 3c per
Ib. in 1889 to 6.3c in 1896. In the same period
Burley leaf at Louisville and Cincinnati fell
from lOc to 7%c. Prices similarly dropped
in other centers. The price of cigar leaf has
latterly increased. In 1900 prices ran from

71

6 to 15 cents; in 1905 from 8 to 17 cents.
Many conditions at home and abroad affect the
price, such as bad harvests or inferior grades
of produce.

The tobacco trust has been very unjustly
blamed by many for the falling price of tobacco.
As a matter of fact and record, however, the
concentration of buying power by eliminating
the middleman and the small dealers has not
only placed the grower in a better position by
giving him a better price, as recent records
show, but it has benefited the consumer also
who can obtain the superior grades at a lower
price. It is the middleman's profit that has
been cut. Moreover, the concentrated buying
power of the large interests here has been an
effective force in keeping up tobacco leaf prices
against the foreign buyers. It must be re-
membered that about half of our crop is ex-
ported. The buyers of this portion, who are
principally the agents of foreign governments
(in the cases where tobacco is a government
monopoly as in France, Italy, etc.) assemble
at the auctions and bid in the usual way. As
this competition is very limited there is always
an opportunity for such buyers to agree among
themselves as to the limit of prices. This has
been one of the important factors which has
kept the prices of tobacco leaf down. The con-

72

centration of American buying power has, how-
ever, been a formidable check on it, the prices
received by the growers being now fair and
reasonable, and such as are the result of a
healthy market, where the factors of supply
and demand have their full share of effect.

The government statistics show that for 1914
the prices of leaf varied from 5.5c to 20c for
common to good varieties.

(For references see end of Chapter VIII)

CHAPTER VIII

REHANDLING AND FERMENTATION

OF TOBACCO LEAF PRIOR TO

MANUFACTURE

SELECTION OF LEAF. TREATMENT AND BLEND-
ING. OBJECTS AND METHODS OF FER-
MENTATION. ACTION OF MICROBES.

75

REHANDLING AND FERMENTATION

OF TOBACCO LEAF PRIOR TO

MANUFACTURE

We have seen how the tobacco passes from
the grower to the manufacturer or leaf dealer.
Before it is fitted, however, for manufacture
into cigars or other finished products the leaf
must go through many processes, the most im-
portant of which is fermentation. These pro-
cesses, which are usually known as rehandling,
are carried out in special buildings which are
called leaf houses and stemmeries. The pro-
cedures in different leaf houses may vary some-
what, but the general principles and objects in
view are the same in all. Moreover, the treat-
ment is different, according to the ulterior dis-
position of the leaf, i. e. whether intended for
cigars, pipe smoking or other product.

The general treatment as carried out in large
establishments is about as follows:

The leaf as soon as it is received whether in
casks, cases, bales, or otherwise is opened up
and inspected in the casing room. Large con-
cerns which manufacture or deal in cigar and
other kinds of leaf, sort out the different kinds
suitable for each class of product, i. e. wrap-
pers, fillers, binders, cigarette leaf, plug leaf,

77

etc. These are distributed to either special
houses or departments. The tobacco leaf when
first received is usually dry and brittle. The
bundles are carefully opened up and the leaves
loosened and spread out on large trucks where
they are sprayed with water. When the leaf
has soaked the water and is pliable it undergoes
a sorting which is done by selecting leaves from
different cases or even bundles of leaves and in
a general way arranging them so that each
truckfull represents a blend of the different
kinds of leaf which are suitable for the purpose
in view. These sorted packages are then rough-
ly fastened together and after being again
sprinkled thoroughly are sent to the "sweating"
room to undergo fermentation which may last
several weeks. The temperature of this room
must be carefully regulated and is usually kept
at about 90° F.

The selection and blending of the different
kinds of leaf is most important. It requires
accurate and expert knowledge in choosing
leaves and kinds possessing different strengths
and other qualities and in combining them in
such proportions that the final effect of the
blend gives just what is required.

It is particularly in this expert treatment of
the leaf before manufacture that the greatest
advance has been made in the tobacco industry.

78

The smoker has the advantage and satisfaction
of knowing that not only does he get the benefit
of improved scientific knowledge and sanitary
conditions by which anything that might be
harmful or undesirable is removed, but that
handling the leaf in large quantities effects
great economics and procures for him the bene-
fit of choicest selected grades at a reduced cost.

It may be said here incidentally that leaves
of the very best tobaccos which are defective
merely in size, or color, etc., are put through
exactly the same processes as the choicer
quality leaves, and are used in the manufacture
of the popular priced machine-made "little
cigars" and "cheroots."

It will be necessary now to digress for a
short time and consider what happens during
the process of fermentation.

FEEMENTATION OF TOBACCO
The fermenting of tobacco leaf has for its
principal objects, (1) the removal of acrid
matters, (2) the fixing of the color, and (3)
the production of flavor. Fermentation can
only take place under suitable conditions of heat
and moisture, and is essentially a chemical pro-
cess during which certain organic compounds
stored in the plant are split up and others
formed.

79

A certain amount of fermentation takes place
in the curing houses during the "yellowing" of
the leaf after it has been harvested, but as we
have seen the main process of fermentation does
not occur until it is "rehandled" by the manu-
facturers.

The general opinion held at present as the
result of investigation is that the transforma-
tions which are effected in the leaf are purely
the result of chemical processes. As the plant
slowly dies and decomposes special ferments
are produced. These ferments set up an oxi-
dization process which splits up the complex
organic compounds which still exist in the leaf
cells. The starch in the plant is changed into
sugar which is slowly consumed. There is a de-
crease in the fats and gummy substances, also
in nicotine and nitrogenous compounds, and
there is a formation of certain organic acids
such as malic, citric and oxalic which are
essential in the production of flavor. Briefly it
may be said that the process is an attempt by
the plant to prolong its existence by feeding on
its own substance, by drawing on its own re-
serves and on its own structure for the food
which its cells no longer receive through the
natural growing process. When the struggle
is over the "fermentation" is complete. The
necessity for maturing tobacco has long been

80

known but the exact nature of the changes that
take place during the process were not under-
stood. Since the discoveries of Louis Pasteur
regarding the part played by bacteria in gen-
eral fermentative processes it has been generally
claimed by bacteriologists that the changes
wrought in the leaf and the production of flavor
are solely the work of bacteria. Although this
view has not been proved it has never been
fully disproved, and there appears to be no
doubt that the microbes known to exist in the
leaf during the fermentation process play an
important part in the process. Fermentation
can only take place as stated under suitable
conditions of heat and moisture and these are
the conditions which favor the development of
microbes and enable them to work. The results
obtained are probably partially due to chemical
action and partly to bacterial action, the two
being complementary to each other.

In 1899 Suchsland, a German scientist,
startled the tobacco world by asserting that
the flavor of tobacco was in no way due to the
effects of the soil and climate where it was
grown, but was solely due to microbic action,
and that the specific flavor and aroma of any
given tobacco could be artificially produced by
the cultivation of selected bacteria and allowing
the tobacco to cure and ferment under their ac-

81

tion. He conducted a series of experimental
investigations in which he searched for and iso-
lated the specific microbes found in the best
West Indian tobacco. From these he made
artificial cultures and introduced them into
heaps of inferior, coarse German tobacco which
was undergoing curing. His results were such
that the smoking quality of the leaf was entirely
changed. It could scarcely be distinguished
from the best Cuban tobacco and experts and
connoisseurs failed to identify the product as
German tobacco. A company was formed to
exploit the new ideas commercially, but it does
not appear to have met with success. Other
investigations failed to obtain Suchsland's re-
sults and extensive investigation in the Agri-
cultural Experimental Station in the United
States have not up to now produced any results
confirmatory of the theory.

We can now proceed to follow the course of
the tobacco in its peregrinations through the
leaf house.

On their return from the first fermentation
the bundles go to the picking department.
Leaves which are damaged or unsuitable in any
way are here picked out and put aside to be used
in the cheaper grades. The leaves are then sub-
jected to a thorough cleaning to remove
particles of sand, clay, etc., packed tightly in

bundles and returned to the sweating depart-
ment to undergo further fermentation and to
allow for a thorough interchange of the aroma
of the different blends. In due course the
bundles pass to the stemming department for
the removal of the midribs which usually form
nearly one-third of the entire weight. The re-
sulting half leaves are then arranged in piles
of 50, each pile forming a "book."

From the stemming department the books
pass to the drying room where any superfluous
moisture is removed by hot air currents.

From the drying room the books pass to the
ordering room where they undergo inspection
for color, size etc., and subjected to further
treatment if necessary. Here they are finally
packed in cases and stored for several months
to allow perfect and uniform blending after
which they are ready for shipment to the fac-
tory. Filler leaf for the finest cigars may
stand in these cases for two or three years.

Leaf which is intended for chewing or pipe
smoking is not subjected to so great an elabora-
tion of processes as cigar leaf, as the matters
of uniformity of color, and delicacy as well as
individuality of aroma are not of such great
importance. Usually such tobacco leaf is fer-
mented in bulk, and the removal of the stems
is done before the principal fermentation.

83

After the preliminary selection of varieties,
sorting, stemming and cleaning, the leaf is
dipped into large vats containing flavors; and
after drying are subjected to steaming. They
are then packed away in bulk in the sweating
department where they slowly ferment until
required for use. These "bulks" or stacks may
contain many tons of leaf. They require con-
stant turning over, etc. Indeed it may be said
that every step in these processes requires con-
stant care. Temperature, moisture, length of
exposure, etc., must all be carefully seen to.
Otherwise the tobacco will spoil.

In the case of tobacco leaf intended for ex-
port trade rehandling consists mainly of stem-
ming and removal of moisture. This is done
before shipment in order to reduce the weight
as customs duty is levied in accordance with
the weight of the imported packages in the
countries importing.

REFERENCES

U. S. DEPART. OF AGRIC. Farmers' Bulletins 6 and
60.

LAUREUT, L. Le Tabac, sa culture et sa prepara-
tion, production et consommation. Paris^ IQOO.

BOUANT, E. Le Tabac; culture et Industrie. Paris,
1901.

BOEKHOUT UND DE VmES. Uber T abac fermenta-
tion. "Centralbl. f. Bakter," 1909- 2 Abteil.
Vol. 24, p. 496.

LOEW, O. Sind Bakterien die Ursache der Tabak-
fermentation? "Centralbl. f. Bakter/' 1909-
Vol. 6, p. 108.

KILLEBREW AND MvRicK. Tobacco Leaf. Part I.
New York, 1897.

SUCHSLANL, E. Bobachtungen iiber die Selbster-
warmung des fermentrerenden Tabaks. In
"Festschrift 200-Jahr Jubel. d. Verein. Fried-
richs Universit." Halle- Wittenberg, 1894.

WOLF, JAKOB. Der Tabak und die Tabakfabri-
kate. Chapter IV. Leipzig, 1912.

HOAGLAND, J. G. The Tobacco Industry. In
Quarterly of the Nat. Fire Protec. Assn., 1907.
Vol. 1, Nos. 2 and 4.

JACOBSTEIN, M. The Tobacco Industry in the
U. S. Chapter II. New York, 1907.

85

CHAPTER IX

MANUFACTURED PRODUCTS OF TO-
BACCO IN THE UNITED STATES

STATISTICS OF PRODUCTION AND CONSUMPTION,
AMOUNT OF CAPITAL INVESTED, ETC.

87

MANUFACTURED PRODUCTS OF TO-
BACCO. GENERAL REMARKS

The importance and magnitude of the to-
bacco manufacturing industry in the United
States will be best understood from a considera-
tion of the following statistics taken from the
latest available government records :

(For all Manufactured Products)
Cost of materials used. . (1905) =$126,000,000

(1909)= 177,000,000

Value of the product. . . (1905)= 331,000,000

(1909)= 417,000,000

No. of establishments. .(1905)= 16,828

(1909)= 15,822
No. of persons em-
ployed, more than
one-third being wo-
men (1905)= 160,000

(1909)= 197,000

The figures are given in round numbers. The
total capital invested in this industry is be-
tween $300,000,000 and $400,000,000.

There are more than one and a quarter mil-
lions acres in the U. S. under cultivation of
tobacco which yields a crop at present approxi-
mating to 1,000 million Ibs. of leaf annually.

The industry shows an absolutely increasing
condition in every particular at each census.

89

During the past 45 years the value of the pro-
duct has increased more than $300,000,000.

In addition to the trade in manufacturing in
the U. S. there is the export trade principally
in unmanufactured leaf. This amounts at
present to about $54,000,000 annually. The
price of export leaf has been continuously in-
creasing despite of the fact that the produc-
tion of leaf abroad is increasing. Thus in 1886
the average export price of leaf from the U. S.
was S^c per Ib. In 1914 it was more than 12c.

The following statement shows at a glance
the marvelous increase in the tobacco industry :

Comparative Statement of Manufactured To-
bacco in the U. S. (all products)

Capital No. of persons Value of

invested. employed. product.

Year 1880 $ 39,000,000 86,000 $126,000,000

Year 1890 90,000,000 117,000 195,000,000

Year 1900 111,000,000 142,000 264,000,000

Year 1905 324,000,000 159,000 330,000,000

Year 1909 197,000 417,000,000

In addition to the number of persons em-
ployed in manufacturing we must take into ac-
count those employed (as well as the capital
invested) in the agricultural and distributing
ends.

The export manufacturing trade is not im-
portant, being only valued at about 3 million
dollars annually.

90

The value of the home manufactured pro-
ducts which in 1905 was shown at $330,000,000
is distributed as follows.

Cigars $198,000,000

Cigarettes 16,000,000

Chewing and smoking tobaccos . . 109,000,000

Snuff 6,000,000

Other products 1,000,000

Total $330,000,000

For the increase in the present value of the
product these figures would be proportionately
increased.

In the year 1913 the United States exported
about 350 million Ibs. of unmanufactured to-
bacco leaf, and in 1914, 4*49 million Ibs. This
was distributed as follows :
To Great Britain and Ireland 174 million Ibs.

To Canada 17 "

To France 55 " "

To Germany 32 "

To Italy 45

To Netherlands 28 "

To Spain 17 " "

To Japan 16

To China 11 " "

To Belgium 11 " "

To Africa, Australia, etc 43 " "

Total 449 "

91

The largest export manufacturing trade was
to Asia, the cigarettes exported there having a
value of 2% million dollars.

The consumption of manufacturing products
of tobacco in the U. S. has increased continu-
ously since 1863 when it was 1.6 Ibs. per head to
the present time when it is 5% Ibs. per head of
the total population. This works out at about
16 Ibs. per head for each male over 16 years.
The consumption of tobacco in the U. S. is high-
er than in any other country and has increased
more rapidly. For the past 40 years the con-
sumption per head in U. S. has increased 240% ;
in England 56% ; in France 24% ; in Germany
23%. From this fact different deductions
might be made. It may be that the Americans
smoke more because they are fonder of tobacco
than Europeans; or because they get better
and cheaper tobacco ; or because they can bet-
ter afford to buy tobacco. The greatest per-
centage of increase in the United States is in
the consumption of cigars.

The manufactured products are classed as
(1) cigars, (2) pipe smoking and chewing to-
baccos, (3) cigarettes, (4) snuff. To each of
these separate chapters will be devoted.
(For references see Chapter XV)

CHAPTER X

CIGARS. HISTORICAL AND GENERAL
FACTS

HISTORY. STATISTICAL INFORMATION REGARD-
ING THE CIGAR BUSINESS IN THE

UNITED STATES

CIGARS. HISTORICAL AND GENERAL
FACTS

When the Spaniards landed for the first time
on American soil they found the natives smok-
ing the rolled-up tobacco leaves, that is a cigar.
For a cigar is nothing more, four centuries
having made little change in the Cuban cigar.
The word cigar is most probably derived from
the Spanish word cigarer — to roll. Other deri-
vations are given, but this seems etymologically
the correct one; and we will rest content with
it. In Spanish America to the present day the
custom of smoking tobacco in the rolled form,
either as cigars or cigarettes, prevails, rather
than the custom of smoking in pipes which was
the method of the northern aborigines from
whom the English colonists adopted it. Smok-
ing was introduced into Spain in the cigar form
and into England in the pipe fcrm. Cigars,
however, at the present time, both in North and
South America, form the principal item in the
tobacco account of the people; we shall there-
fore enter somewhat fully into matters con-
cerning their manufacture, etc.

Although, as stated, it is in the cigar form
that smoking was introduced into Spain, it was
not till about 1790 that cigars were used
generally in Europe. A factory for the manu-

95

facture of cigars was established at Hamburg
in 1796. The custom did not spread rapidly
and did not reach any considerable proportion
in England till about 1830 when the high duties
were considerably reduced.

Cigar making has always been a staple in-
dustry in Cuba. It was there when the Euro-
peans landed and it is there still. Its record is
unbroken. There was always a greater or lesser
exportation to Europe and elsewhere.

THE, CIGAR BUSINESS OF THE U. S.

Of the various manufactured products of
tobacco leaf, the cigar trade is the most im-
portant in the U. S., its value being greater
than that of all other tobacco products com-
bined.

The magnitude of this branch of the tobacco
business may be gauged when we state that at
the present time there are made annually in
the U. S. cigars of all kinds to the amount of
about 81/2 billions. The Census Bureau Report
for 1912 shows that for that year the number
of full-sized cigars made and on which tax was
paid was in round numbers 7,500,000,000, and
of "little cigars," that is under the regular size,
about 1,000,000,000. These figures are cer-
tainly stupendous, particularly when we con-
sider that, in addition, at least several hundred

96

more were imported and that only about
2,000,000 were exported. Uncle Sam evidently
likes to smoke cigars.

To make these cigars requires a consumption
of 136 million Ibs. of cigar leaf. Nearly 50
million Ibs. of this is imported at a gross cost
(exclusive of duties) of about 35 million dol-
lars, the rest of the leaf is home grown. The
principal imports are from Cuba. In 1912 we
imported cigar leaf from Cuba in amount nearly
23 million Ibs. and in 1913 this increased to
over 27 million Ibs. valued at more than 16
million dollars. The imports of East Indian
(Sumatran) leaf varies from 6 to 8 million Ibs.
and costs from 7 to 8 million dollars.

Although the amount of imported leaf used
in cigar making shows a steady increase, being
, now more than 50% greater than a decade ago,
yet the proportion of foreign leaf to home-
grown leaf in the whole manufacture shows a
steady decrease. This speaks well for the im-
proving quality of American grown leaf.

There are in the United States about 26,000
cigar factories, both large and small. The large
number of establishments is due to the fact that
cigar making is still to a large extent a hand-
making industry. About 135,000 persons arc-
directly employed in the manufacture, nearly
half of whom are women. The capital engaged

97

in the business is reported as 150 millions and
the value of the product 200 million dollars
annually. The actual consumer pays about 300
million dollars for the cigars smoked, the dif-
ference between the cost of the product and the
latter figure being the expense and profit of the
retail handlers. The enormous growth of the
cigar trade is seen when it is compared with
1860. In that year the annual value of this
product was only 9 million dollars. The two
states of New York and Pennsylvania are the
centers of cigar manufacture. Between them
they make nearly half of the entire product,
Pennsylvania leading with about two thousand
million cigars annually. Florida makes about
300 million. The price paid by the consumer
works out to an average of about 4c for each
cigar.

98

CHAPTER XI

CIGAR MAKING

HAND-MADE CIGARS. MACHINE-MADE CIGARS.

CLASSIFICATION OF CIGARS. TERMS USED

IN THE CIGAR TRADE

CIGAR MAKING

It was inevitable that modern progress should
invade and revolutionize the old and slow
methods of cigar making ; and so it has. Smok-
ing is a sentimental occupation and lends itself
easily to romantic associations. A good deal
of romance and sentiment still hangs around the
hand-made cigar and cigarette. In an up-to-
date cigar factory, however, the whir of ma-
chinery and the precise, regular movements of
automatic contrivances give little scope for
sentiment.

Up to 1870 cigars were hand-made. All that
was necessary was an inexpensive board, a cut-
ting knife, and a block of wood with a station-
ary knife, known as a "tuck," for measuring and
cutting the finished cigar.

About the time stated the "mold" was intro-
duced. The mold is a wooden block about
18" x 6" x 3", a tool which facilitates the shap-
ing of the "bunch" or filler part of the cigar
and presses it into shape. This mold is now
used in most "hand-made" cigar factories where
the labor is subdivided into "bunch-makers"
and "rollers," the latter putting on the binder
and wrapper and finishing the cigar.

It is the introduction of practically auto-
matic machinery, however, which is revolutioniz-

101

ing the cigar-making business, and slowly but
surely driving the "hand-made" cigar into the
position occupied by the "hand-made" cigar-
ette. And the writer cannot see why this should
not be so. As it has been said, there is much
sentiment about hand-made cigars. But com-
mon sense seems to be on the side of the ma-
chine. We quite understand the difficulty of
killing old prejudices and time honored cus-
toms; but it is difficult to understand how the
flavor or quality of a cigar filler can be different
whether it is pressed into the shape by a ma-
chine or by the hand of a workman; or what
the precise improvement is when a wrapper leaf
is put on and licked by a workman rather than
by a clean machine under perfect sanitary con-
ditions. However, sentiment still persists. Im-
aginary, or perhaps real, charms are ascribed
to the hand-made goods and the smoker is will-
ing and even wishful to pay a higher price for
his fancy. The result is that the small factory
is still predominant. It depends more on labor
than on capital. But the large factories have an
immense production. The condition will be
best shown by stating that in less than 1 per
cent of the cigar making establishments of the
U. S. nearly 50 per cent of the entire output
is made, or, putting it another way, nearly
three-fourths of all the licensed cigar factories

102

produced less than one-tenth of the product.
Of the 26,000 establishments in the U. S. only
in 2 is the annual output more than 50 million
and in 27 the output runs from 25 to 50 mil-
lion. Pennsylvania establishments, principally
in Philadelphia, produce 28% of the entire
U. S. cigar output ; New York State, principal-
ly New York City, comes next with about 20% ;
and Ohio, principally Cincinnati, third with
about 8%.

For machine-made goods the principal ma-
chines used are the bunch rollers and the suc-
tion table. The former rolls the bunch of filler
leaves and presses them into shape. The suc-
tion table is used for wrapping the cigar. The
operator places the wrapper leaf on a per-
forated plate. By pressing a foot lever a
vacuum is created beneath this plate which
holds the leaf smooth and snug against the
table. The perforated plate is exactly the
form which the wrapper must be to properly
fit the cigar. It is easily cut around and
trimmed to shape. The bunch from the bunch
roller is then quickly encased in the wrapper.
Human labor is necessary only to feed the ma-
chines and to spread the wrappers. 25,000
bunches can easily be wrapped in a week at a
cost of $6 to $9 for labor (principally female)
and the upkeep of the machine, This in labor

103

alone would formerly cost as much as $75.00.
In the smaller "hand-made" factories, the
method of procedure is about as follows : The
leaf on receipt is opened and moistened. The
"filler" leaf is separated from the wrapper. The
filler leaf is made up into "books," a "book"
being a bunch of leaves suitable for one cigar.
The loose books are then allowed to ferment
for a week or so when they are ready for use.
The bunchmaker selects and arranges his leaves
from each book, selects his binder and rolls the
whole into cigar form. If a mold is used he
puts the bunch in a matrix of the mold and
fastens down the cover until the leaves are
pressed into shape. They then go to the wrap-
per man and are wrapped either by machine or
by hand, according to the class of goods. The
wrapping is begun at the lighting end and
finished at the point which is called the head.
After trimming to gauge, the cigar is ready for
inspection and classification according to color,
etc., and for banding.

Cigars according to their manufacture are
classed for trade purposes in various ways.
The trade nomenclature embraces the following
descriptions: Cigars, little cigars, all-tobacco
cigars, stogies and cheroots.

104.

Cigars proper have many subdivisions:

(1) IMPORTED CIGARS. This term is usually

confined to cigars made in Cuba, and
does not include Porto Rican or Philip-
pines.

(2) PORTO Rico CIGARS.) Used for cigars made

(3) PHILIPPINE CIGARS, j in those places.

(4) CLEAR HAVANAS. This term denotes a

cigar made by hand in the U. S. of
Cuban tobacco exclusively and in the
same style as in Cuba.

(5) SEED AND HAVANA. Up to about 50 years

ago there were no clear Havanas made
in the U. S., the best produced being
a combination of Havana leaf and leaf
grown in the states from imported
Havana seed. Hence the term which
ordinarily means an American made
cigar, the filler being wholly or partly
of Cuban tobacco and the wrapper, a
domestic or Sumatran leaf.

(6) DOMESTIC CIGARS. This term is used for

cigars made in the U. S. in contra-dis-
tinction to imported cigars.

(7) NICKEL GOODS. Ordinary 5c cigars made

either entirely of domestic tobacco or
with a Sumatran wrapper, and usually
made partly or wholly by machine. It
also usually includes "segundos" or

105

"seconds," i. e., cigars of a better type
made to sell at higher prices but which
on account of some defect are rejected
on inspection. Sometimes clear Havanas
made of scrap filler and inferior wrap-
per are included. These cigars have a
vast variety of designations and make
up the general stock of most cigar
stores. The cost of production does not
usually exceed $20.00 per thousand and
they sell to dealers at from $25.00 to
$30.00

(8) STOGIES, TOBIES, ETC. CHEROOTS. Cigar
shaped rolls of cheap domestic tobacco
made quickly by machine, and of various
sizes. Cheroots are open at both ends.
The filler of stogies is usually a western
grown leaf of full size, but rough qual-
ity. They are manufactured principal-
ly in Louisville, Cincinnati, Pittsburgh,
Wheeling, etc.

One of the large tobacco companies operates
about 25 large cigar factories in various centers
of the U. S. Here are made all classes of
domestic cigars, but all are made under the
same conditions of sanitation, economic hand-
ling and strict supervision. The leaf is pre-
pared, selected, fermented, blended, etc., in the
company's own special leaf houses and is des-

106

patched to the various factories as needed. All
the better class of domestic cigars are hand-
made, machinery being used in making the
cheaper grades. There are special factories
for the making of "little cigars," of which a
vast number are made on account of their
popularity. These include the package goods
and those put up in cardboard boxes of which
such brands as "Virginia Cheroots" and "Royal
Bengals" are types. By the terms "little cigar"
the trade recognizes all cigars under the regular
standard size and which weigh less than 3
pounds per thousand. In some "little cigar"
factories these little cigars are not made from
inferior leaf. They are made usually from the
small leaves of the tobacco intended for higher
priced goods, but which on account of faulty
size cannot be used. The leaf is, however, cured
and prepared in exactly the same way. In
addition the "scrap" or waste portions of the
high priced leaf is used for fillers for little
cigars. The little cigars of this type are usually
of first-rate quality and on account of their
small cost give excellent value to the smoker.

CIGARS. MISCELLANEOUS
There are a good many terms used in the
cigar trade to denote color, size, quality, etc.,
which smokers should know the meaning of.

107

Most of these terms are Spanish, because the
cigar trade was for a long time confined to
Cuba.

Terms used to denote the quality of cigar leaf

DESECHO. The finest quality; the top leaves
of plant; best because they have re-
ceived most sunshine and dew.

DESECHITO. Good leaves but inferior to
desecho.

LIBRA. Good leaves but small in size ; the smal-
ler top and bottom leaves.

INJURIADO. Injured leaves; root leaves soil
stained and injured by insects.

Terms used to denote color
Note : The color term refers to the wrapper
only. Many smokers judge the mildness or
strength of a cigar by its outside color. This
is a fallacy. The wrapper constitutes only
about 2 per cent of the cigar weight. More-
over color is no criterion of strength. The
darkest cigar may be and usually is very mild.
The color is due (1) to the soil, (2) to the age
of the plant when cut, and (3) to the length of
time of curing and fermentation. As a general
rule the lighter the color the more inferior and
immature is the tobacco. Cigar smokers should
remember this.

108

CLARO or CLARA. Very light colored. The

lightest shade known in selected leaves.
COLORADO. Red; medium in color.
COLORADO CLARA. Light Brown.
COLORADO MADURO. Dark Brown.
MADURO. Ripe; very dark, almost black in

color.

Terms used to denote size and shape
CONCHAS. Shell; cigars so marked are 4»%"

long.

CONCHA FINA. A first quality Concha.
CONCHA ESPECIAL. Finely finished and some-
what larger than a Concha.
LONDRES. London. Specially made for the

London market and on account of its

shape and length.
REGALIAS. A cigar of a finer grade of tobacco

than is used in Londres or Conchas.
DAMAS. Ladies; small cigar about 3" long.
PANATELAS. A long thin cigar that has been

heavily pressed.
NON PLUS ULTRA. A large handsome cigar

made from the finest tobacco.
ESCEPCIONALES. Exceptionally large sized

cigar.
OPERA. A small after-dinner cigar about

long.

PRINCESSES. Like the Opera, but thinner.
COQUETTAS. Flirt; 3%" long.

109

BREVAS. A short, thick cigar.

NOBLESSE. The largest and most expensive

cigars.

In addition to the above there is a multitude
of trade names, such as Club House, Hoffman
House, Rothschilds, Invincibles, Perfectos, etc.,
etc. Some of these terms merely denote par-
ticular brands put out by certain makers and
to distinguish their products. The Spanish
terms refer to the cigar itself and not to the
maker. They may be used by any maker, and
no longer refer to any standard of excellence.
(See references end of Chapter XV )

110

CHAPTER XII

CIGARS AND THEIR QUALITIES

QUALITIES OF CIGARS AND CIGAR LEAF. IM-
PORTED CIGARS. HAVANAS.
DOMESTIC CIGARS.

Ill

CIGARS AND THEIR QUALITIES

A cigar consists essentially of three distinct
parts : the body or inner part called the filler;
the covering of the filler which is called the
binder; and the outside finishing cover which
is called the wrapper. Cuban cigars, however,
consist of filler and wrapper only.

Except in the case of cigars made in Cuba
the wrapper leaf is usually of a different class
of tobacco from the rest of the cigar, as the
qualities to be fulfilled by each part is different.
The qualities required in a cigar must be viewed
both from the smokers' and the manufacturers'
standpoints and the leaf must be such as to
conform to these qualities. Thus the smoker is
concerned with the burning quality, the taste,
flavor, aroma, color, general appearance and
strength of the cigar. The manufacturer in
addition to seeking leaf that will answer the
smokers' requirements also has an eye to econ-
omy and requires the leaf to have qualities re-
garding size, weight, texture, etc. Therefore,
in the best cigar leaf the following qualities are
more or less essential: (1) good color, (2) fair
body, (3) a continuous pleasant aroma, (4)
fine texture combined with a certain toughness,
(5) small ribs and veins, (6) good combustion
so that it will hold fire for 4 or five minutes.
113

The burning must be free and even with a white
or whitish-brown ash which remains intact until
cigar is three-fourths smoked, (7) good size of
leaf, (8) must be elastic and souple, must not be
brittle, (9) it must be free from spots and light
in weight.

Some of these qualities are essential in filler
leaf; some in wrapper leaf. Thus the color of
filler leaf does not matter; neither does the
aroma of the wrapper the essential qualities of
which are color, lightness and elasticity.

The cigars consumed in the U. S. are either
(a) Imported or (b) Home Manufactured.

(a) IMPORTED CIGARS

The most important of the imported cigars
are those that come from Cuba, Porto Rico and
the Philippines.

Up to the time of the Civil War cigars were
imported principally from Germany and Cuba
and the value was about 4% million dollars
annually. High import duties have, however,
altered this and the number of imported cigars
is nearly 90 per cent less than formerly. The
value of the import has not, however, fallen so
much, that is to say only the higher grades of
cigars are imported. The value of cigars now
imported does not exceed 3 million dollars
annually and they are principally Cuban.

CUBAN, OR SO-CALLED HAVANA, CIGARS
As the strictest laws are enforced in Cuba
against the importation of tobacco, it follows
that all genuine so-called Havana cigars are
made of Cuban tobacco. The Havana Tobacco
Co. controls about 260,000 acres of the best
Cuban tobacco land and has 25 factories in the
City of Havana. Here Havana cigars are made
in all grades from those which can be bought at
2 for 25c to those which cost $2.00 each. The
high priced are very limited in quSfrty, being
made from tobacco grown in specially favored
districts. The Province of Pinar del Rio pro-
duces 70 per cent of the whole Cuban crop, and
includes the celebrated District of Vuelta Abajo
in which the finest cigar tobacco in the world is
grown; the Provinces of Havana and Santa
Clara each produces about 13 per cent of the
Cuban crop. Havana Partidio leaf is of very
fine quality and is used principally as wrappers
of clear Havanas. Havana Remedios leaf comes
from Santa Clara, has a high flavor, rather
heavy body and is used mostly for fillers.

The very finest Havana cigars never leave
Cuba, for the merchant keeps them for his own
use. He is a smoker before a trader. The crop
of the very best Vuelta Abajo tobacco is so
small that not more than about 30,000 cigars
can be made from it. These are kept for pri-

115

vate purchasers and none go on the market.
The finest Havanas are of an even tint of rich
dark brown, free from all stains and spots,
burning freely to a white or whitish-brown ash,
and holding fire for 4 or 5 minutes. Altogether
the District of Vuelta Abajo produces about
one-quarter million bales of leaf annually and
about one-tenth of this is high class and pro-
duces up to 20 dollars per Ib. on the spot.

As stated previously, Cuban cigars have no
binder. They consist of filled and wrapper only
and are all hand-made. The unique position
which these cigars have held for so long is due
not only to perfect curing and blending of the
leaf, but also to the superior skill of the Cuban
workmen who are the most expert cigarmakers
and blenders in the world, and who in the best
factories are allowed to take all the time they
need in making the cigar. Some of these
"Tabacqueros" have been making the same
brand of cigar for 20 years or longer.

Of the total annual output of Cuban made
cigars, England takes about 40 per cent, the
U. S. about 25 per cent and Germany 13 per
cent. In 1913, the U. S. imported 659,358 Ibs.
of cigars and cheroots from Cuba valued for
$3,999,410.

116

PORTO Rico CIGARS

From Porto Rico the U. S. ships about 125
million cigars annually.

PHILIPPINE CIGARS

The laws in force between the U. S. and the
Philippine Islands, governing the tariff, provide
for the importation annually from the Philip-
pines to the U. S. free of import duties, of cigar
wrapper leaf and filler leaf mixed or packed
with more than 15 per cent of wrapper leaf,
not in excess of 300,000 Ibs. ; of filler leaf alone
not in excess of 1,000,000 Ibs.; and manufac-
tured cigars in number not exceeding 150,000,-
000. The shipping must be direct.

As the Philippine leaf is excellent and labor
there is cheap, the U. S. smoker is thus enabled
to get a very good smoke at a small cost. The
full number of cigars allowed at least is im-
ported. In 1913 the importation of Philippine
cigars and cheroots to the U. S. was 1,641,832
Ibs. valued at $2,296,823.

HOME MANUFACTURED CIGARS
For the home manufactured cigar trade the
leaf used is either imported or home grown.

Imported cigar leaf comes principally from
Cuba, Dutch East Indies (Sumatra, Java, etc.),
Porto Rico, Mexico, Brazil, and the Philippines.

117

Imported Cuban leaf is used both as fillers
and wrappers. The U. S. as already stated
imports about 26 million Ibs. annually. The
leaf varies in length from 8" to 18"; is a rich
brown color, and its principal characteristic is
its fine flavor and aroma, which is unequalled
by any other tobacco in the world.

The Sumatran leaf is perhaps more import-
ant in the U. S. cigar trade than the Cuban
leaf. It is used exclusively as wrappers, on
account of its fine light brown color, its elastic
texture and light weight. The genuine imported
leaf is much less in weight than that grown from
Sumatran seed in Florida. About 2 Ibs. of
imported Sumatran leaf will wrap 1,000 cigars.
Its length is usually from 14 to 20 inches and
the U. S. imports annually about 7 million Ibs.,
valued at about 5 million dollars. The use of
Sumatran leaf as a wrapper for home-made
cigars has increased remarkably in the last
quarter century. In the quinquennium ending
1885 the number of such cigars was 34 millions.
In the last quinquennium the number exceeded
2,000 millions.

The Sumatran leaf has little aroma or flavor
and its value is for appearance only. The
average prices paid by the United States for
imported cigar leaf in 1914 was: for leaf suit-

118

able for cigar making, 127c per Ib. ; for "other
leaf," 50.44c per Ib.

OTHER IMPORTED CIGAR LEAF
Since the introduction of tax-free manufac-
tured cigars from the Philippines the importa-
tion of leaf has declined.

Mexican leaf is used as a substitute for
Cuban, to which it is inferior.

The imports of cigar leaf tobacco from Porto
Rico and Brazil are relatively unimportant.

CIGAR LEAF TOBACCO GROWN IN THE U. S.

The home grown tobacco leaf used in the
cigar manufacturing trade of the U. S. is grown
principally in the states of Connecticut, New
York, Pennsylvania, Ohio, Wisconsin, Florida,
Georgia, and Texas. The Connecticut leaf is
used for wrappers and binders. The Ohio and
Pennsylvania leaf almost exclusively for fillers.
Wisconsin produces binder leaf particularly.
The leaf grown elsewhere is used mostly as
wrappers. It is usual, however, to use the im-
ported and Sumatran leaf as wrappers for all
high class home-made cigars.

The finest American grown wrapper leaf is
raised in Connecticut. The best known brands
are known as Connecticut Seedleaf and Connec-
ticut Broadleaf, both varieties raised orginally

119

from imported Havana seed. The leaf is desti-
tute of thick fibers and has a fine texture. They
run from 14" to 26" in length, giving good
wrapping capacity.

The Pennsylvania leaf is also classed as Seed
and Broadleaf. It is about the same size as the
Connecticut, but does not equal it in quality.
The principal varieties in Ohio are the Geb-
hardt, Zimmer, Spanish, and Little Dutch.
These do not usually exceed 20" in length.
Florida cigar leaf is usually small, running
from 10" to 14" in length.

(For references see Chapter XV )

120

CHAPTER XIII

PIPE SMOKING AND CHEWING
TOBACCOS

QUALITIES REQUIRED. DESCRIPTION OF KINDS.
PERIQUE TOBACCO. STATISTICS.

121

PIPE SMOKING AND CHEWING
TOBACCOS

For pipe smoking mixtures the tobacco loaf
used is of various kinds. Preferred strains of
leaf from Virginia, North and South Carolina,
Tennessee, Kentucky, Maryland, and East
Ohio, to which is added sometimes Turkish,
Latakia, Perique, and a little Havana. The
blend is made while the tobacco is in leaf form,
portions of the desired kinds being assembled
in accordance with a formula followed by the
manufacturer. The leaf is then put through
the required mechanical processes.

The qualities necessary in pipe smoking to-
baccos are that it must burn evenly, slowly,
smoothly and thoroughly; it must have an
agreeable aroma; it must not cause a burning
or acrid sensation in the mouth when smoked;
it is desirable that its nicotine contents should
be low. Appearance is not of any consequence,
but the manufacturer looks for leaf that, in ad-
dition to the above qualities, is free from gum-
miness as this interferes with granulation and
cutting; also that the leaf may be a good
absorbing kind in order that it may imbibe the
juices with which this class of manufactured
tobacco is treated both for chewing and pipe
smoking.

123

As the taste of smokers with regard to the
flavor and aroma of pipe tobacco varies con-
siderably, some desiring a strong, others a mild
or light tobacco, this must be taken into ac-
count by the manufacturer and the blends
graded accordingly.

Pipe smoking tobaccos are distinguished ac-
cording to the different mechanical processes
used in their production. Thus there are (1)
Granulated, (2) Plug-cut, (3) Long-cut, Fine-
cut, etc. In former days it was customary for
smokers to buy their tobacco in the roll or
twist and cut and manipulate it themselves.
This custom has, however, passed away almost
entirely in the U. S. It still survives to a large
extent in Europe where smokers prefer their
tobacco moist. In the U. S. pipe smoking
tobacco is usually cut and ready for the pipe
and sold in packages or cans.

GRANULATED is tobacco that has been flaked
by breaking or cutting machines with blunt
teeth or saws and then passed over a series of
oscillating sieves of graded mesh.

PLUG-CUT or CUT-PLUG is first made into
plugs by pressure. These plugs are then cut
into thin slices convenient for crumbling. The
slices are put up in packages in which form the
smoker uses it. Special forms of cut-plug are,
bird's-eye, short-cut, cube-cut, straight-cut,

124

curly-cut, wavy-cut and cavendish-cut; the
name being determined by the shape of the cut
slices. "Navy-cut" is a particular kind of
plug which was originally prepared directly
by shipmen.

LONG-CUT tobacco is leaf cut into long
shreds. It differs from plug-cut in not having
been pressed into solid plugs before cutting.

FINE-CUT is finer and shorter shreds than the
long-cut, and the tobacco used is usually of a
less gummy kind.

Other varieties known in the trade are:

GERMAN SMOKING. A coarse-grained, heavy
tobacco with strong flavor. It is a coarse
granulated tobacco.

STRIPS. A fine shredded or powdered tobacco
used principally in the mining camps of Penn-
sylvania.

SCRAP. Smoking tobacco made up from
cigar clippings and cheap cigar leaf of the
filler and binder type.

PERIQUE TOBACCO

Perique tobacco is a specially dark, rich
variety having special qualities which ren-
der it desirable as a component in pipe smoking
mixtures, or for straight smoking. Genuine
Perique is grown and prepared only in the
Parish of St. James in the State of Louisiana

125

by the descendants of the old French Colonists.
The properties which it possesses are essential-
ly due to the peculiar method of curing and
fermentation and not to any peculiarity in the
leaf itself. It is the only tobacco in the United
States that is grown and put in its final condi-
tion for the consumer by the farmer. It is
said that the output of genuine Perique is small,
being well under 50,000 Ibs. annually. But
there is a good deal of substitute Perique sold
in lieu of the genuine kind.

The tobacco is raised on a black, deep, ex-
ceedingly rich soil. The leaf is medium in size,
about 18" long, and a rapid grower. The stein
is small, the fiber tough and gummy.

In curing no artificial heat is used. The
leaf is hung in sheds for about 10 days. It is
then stripped into half leaves. These are taken
in bundles of about 20 each and converted into
rough "twists." A dozen or so "twists" are
packed in a box II" square the weight being
about 50 Ibs. The contents of the box are then
submitted to a pressure of about 7000 Ibs. for
at least 24 hours. The tobacco is then taken
out and the twists again opened up. The leaves
are exposed to the air and sunlight until an
exudate appears on them and is reabsorbed.
This is done over and over again for at least
10 days or until in appearance the tobacco

126

is quite black. That is to say the curing of
Perique is accomplished by allowing it to soak
its own juice and then submitting to heavy
pressure and repeating this process several
times. When the leaf is cured it is made into
rolls or "carottes." A cotton cloth 24" x 18"
is taken and covered with leaves. Others are
spread crosswise over these. Then rolled and
a thin rope is wound very tightly about each
bundle on "carotte." This process like the cur-
ing is repeated over and over again. One man
can handle about 10 carottes in a day, the
weight being about 4 Ibs. each.

Perique is considered to have a finer aroma
than any other pipe smoking tobacco and its
presence in a mixture is at once detected by
the experienced smoker. It is said to contain
only 14 of the citric acid, % of the nitric acid
and 6 times as much acetic acid as tobacco
cured in air. The resultant aroma is rich and
fragrant, and the taste is smooth, delicate and
agreeable. It is also claimed that it stimulates
the brain without in any way being hurtful to
the digestive or nervous systems.

When the carottes are finally made it is usual
to leave them under pressure for at least 12
months. The aroma is said to improve as the
tobacco grows older.

127

It has been stated above that much of the
Perique tobacco is a substitute for the genuine.
This substitute is made by taking inferior leaf
and submitting it to a similar process, i. e.,
pressure and oxidation repeatedly. The pro-
cess is abridged but a black tobacco results
particularly when certain darkening ingredi-
ants are added. The moral is if you want
genuine Perique be sure where you get it, and
don't grudge the price.

CHEWING TOBACCO

The particular qualities required in leaf for
this purpose are toughness, sweetness of taste,
and a richness in oils and gums. Suitable leaf
having been selected the leaf is cut and moulded
into small plugs or "chews" which are put up
in boxes for the market. Flavoring essences are
of course plentifully used.

As well as plug, chewing tobacco may be of
the variety known as twist, the leaves being spun
and twisted in a continuous roll.

The plug consists of a wrapper and filler like
the cigar the brighter and better grades of leaf
being used as wrappers. Burley leaf and the
yellow leaf tobacco of Virginia, Kentucky and
the Carolinas are principally used. The sub-
stances used for flavoring are liquorice, cane
sugar, maple sugar, molasses, and rum, prin-

128

cipally. The plugs are packed in boxes of 72
Ibs. each, and also smaller boxes of 10 and 12
Ibs. each.

The principal centers of the manufacture of
pipe smoking and chewing tobacco are Missouri
(St. Louis) ; North Carolina (Durham and
Winston) ; Kentucky (Louisville) ; New Jer-
sey (Jersey City) ; Virginia (Richmond) and
Ohio (Cincinnati).

There are altogether about 400 establish-
ments employing about 20,000 persons, and
the value of the product is over 100 million
dollars annually.

This class of products is by its nature more
suitable for concentration of manufacture than
either cigars or cigarettes. Hence the small
number of establishments.

Only about 10 million Ibs. of manufactured
tobacco is exported.

(See references end of Chapter XV)

129

CHAPTER XIV

CIGARETTES

STATISTICS. KINDS AND WHERE MADE. IM-
PORTED CIGARETTES. DOMESTIC CIGAR-
ETTES. CIGARETTE PAPERS.

181

CIGARETTES

A cigarette according to the meaning of the
word is a small cigar. It consists of a roll of
loose tobacco wrapped in a case of either paper
or tobacco-leaf. In the latter case it is known
as an all-tobacco cigarette.

Since the introduction of cigarette making
machinery the output of cigarettes in the
United States has grown enormously. This
will be seen from the following figures which
represent the output of cigarettes for the past
25 years:

Number of cigarettes
Year manufactured in the United States.

1890 2,000,000,000

1895 3,500,000,000

1900 4,000,000,000

1905 6,500,000,000

1910 7,000,000,000

These figures taken from Government Re-
ports are given in round numbers. They in-
clude "little cigars" which form about 15%
of the totals. About one-third is at present
exported. In addition to the manufactured
cigarettes there is, of course, the large amount
of cigarettes made directly by the smoker him-
self.

133

There are only about 500 establishments in
the whole U. S. engaged in cigarette manu-
facture and about ten of these manufacture
four times as many as all the rest together.
There would in fact be fewer factories except
for the popularity of certain brands of hand
made cigarettes. 95% of the total output is
made in 4 cities, i. e., New York, Dunham, N.
C. ; Richmond, Va. ; and New Orleans. New
York City alone manufactures about 60% of
the whole; Richmond about 16% ; New Orleans
about 10% and Durham the balance.

Every country manufactures its own peculiar
brand of cigarettes. The best known and most
popular kinds of cigarettes are those known
as Virginian, Turkish, Havana, Porto Rican,
Mexican, Russian and Philippine.

The Havana, Porto Rican, Mexican and
Philippine cigarettes are usually of the all-to-
bacco kind — the others being paper wrapped.
They are generally made from the cuttings and
smaller leaves of cigar leaf tobacco.

Turkish cigarettes are celebrated all the
world over. The name is however mostly a
misnomer, for nearly all the so-called Turkish
cigarettes proper are made in Egypt, Greece,
etc., and not in Turkey. In Egypt, however,
the best Turkish cigarettes are made from
tobacco grown in Turkey (in Europe) which

134,

is imported, as no tobacco is grown in Egypt.
The peculiar flavor of Egyptian Turkish cigar-
ettes is due to special methods known only to
the makers there.

The crop of Turkish tobacco, particularly
of the better kinds suitable for cigarettes, is
small and less than half of it is exported. The
supply of genuine Turkish cigarette tobacco
is, therefore, strictly limited and does not find
its way into ordinary channels. Much of so-
called "Turkish" tobacco comes from China,
and other parts of Asia. From Turkey, in
Europe, the United States annually imports at
present about ten million Ibs., the actual
government figures for 1913 being 10,816,048
Ibs. valued at about 5% million dollars.

From Turkey in Asia the imports in 1912
were 11,233,546 Ibs., and in 1913, 18,955,295,
this latter being valued at nearly 5 million dol-
lars. It does not follow that all this latter is
Turkish. It was probably in large part col-
lected from distant points and shipped from
ports in Asia Minor. The imports of Turkish
tobacco during 1914 are considerably reduced
on account of the war.

One American company which does an
immense business in the cigarette line main-
tains at Cavallo a large establishment for the
direct purchase and treatment of its "own

135

Turkish leaf. This plant handles about 6 mil-
lion Ibs. of leaf annually. The American smoker
of home-made Turkish cigarettes has the ad-
vantage of knowing that his leaf is genuine and
bought economically.

The most valued kind of Turkish tobacco
is that grown in the Caza of Yenidji on the
Vardar River region in Roumelia.

The Latakia tobacco grown in the hilly part
of Northern Syria is also celebrated as a cigar-
ette tobacco. This tobacco has a low nicotine
percentage (less than one per cent) and its
peculiar aroma is due to its exposure for nearly
6 months to the smoke of the tree known as
Quercus Ilex. Very choice parcels of these
tobaccos fetch in the open market from $3 to
$5 per Ib. ; lower grades are bought from 25c
per Ib. and up.

The best known grades of cigarettes made
from genuine Turkish leaf are the La Ferme of
Leipzig and St. Petersburg; the Nestor and
Melachrino of Egypt; the Monopol of New
York; and the Dubec of Richmond. In the
Turkish hand-made cigarette there is no flavor-
ing of any kind. In Europe the Turkish cigar-
ettes are usually made by Greeks who are
special adepts at this work.

The paper wrappers are imported from
France or Austria. The native cigarette

136

makers as a rule blend their own leaf and cut
or shred it by hand. An expert workman can
make about 3,000 cigarettes per day.

In the United States, Turkish cigarettes are
of two kinds, imported and domestic. The im-
ported include those purchased already made
from Egypt, England, France, etc. In 1913
the value of cigarettes purchased directly by
the U. S. from Egypt was about $25,000 and
from England $22,000, other countries less. In
1914 the total cost of imported cigarettes (not
including those from Philippine Islands) was
$79,554. The value of such trade is, therefore,
not large. The Turkish cigarettes made in the
States are termed Domestic Turkish, and are
usually hand-made, though not by any means
exclusively so. It appears to be nothing more
than an idiosyncrasy to consider that a hand-
made cigarette is better than a machine-made
one. As in the case of cigars, other things
being equal it would appear that on many con-
siderations, hygienic as well as mechanical, the
balance is in favor of the machine. However,
many still think there is some peculiar talis-
manic virtue in a hand-made cigarette and are
willing to pay a higher price. There is, of
course, a pleasure in making one's own cigar-
ettes, but when they are bought made the ad-
vantage of hand-making is not very apparent.

137

There are many variants of the Turkish
cigarette. Besides the common paper wrapped
variety some have fillers of Turkish tobacco
with Havana or Virginia leaf wrapper; others
have mixed fillers of Turkish, Virginia, Havana
or Perique, two or more or all kinds being
mixed. Each type of cigarette has its own
special votaries. Cigarettes of this variety are
not, however, so popular in the United States
as in other countries where the cigarette is the
most pronounced type smoked.

The American cigarette is generally made of
Yellow Virginian tobacco and is popular all
the world over. The secret of success in good
cigarette making lies in the selection and blend-
ing of the leaf so that the proper strength and
characteristics may be secured. As a general
rule no adulterants of any kind are added to
the tobacco except in some of the very cheap
kinds in which the leaf is sometimes treated with
a glycerine solution in order to give it a sweetish
taste. The solution is quite harmless.

The machinery for the manufacture of cigar-
ettes has been brought to such perfection that
it is quite automatic. The only hand work re-
quired is the feeding of the tobacco into the
hoppers. The cutting, rolling, wrapping, tip-
ping and packing are all done quite mechanical-
ly, the cigarettes being turned out all ready

138

for the smoker. In the large factories the pro-
cesses are under strict hygienic conditions,
which is not usually the case in the small work-
shops where the hand-made goods are prepared.
The various machines used in the manufactur-
ing processes are highly complicated and a
detailed description of them would be too tech-
nical for these pages.

The paper used for wrapping cigarettes has
frequently been the subject of most unwar-
ranted attacks and the most absurd statements
have been made regarding it. Investigation and
analysis of the paper used in the very cheapest
grades of cigarettes by competent authorities
have failed to find anything deleterious to
health. The paper used for this purpose is
made principally in France. It is of the kind
known as rice paper although it has no connec-
tion whatever with rice. It is a vegetable sub-
stance being made usually from the membranes
of the bread fruit tree or else from fine trim-
mings of flax and hemp. The materials are
thoroughly washed and treated with lime and
soda before and after pulping. Careful analysis
are made to see that nothing is left that might
be harmful and the manufacturers use the great-
est care and judgment to see that their product
is as pure and perfect as possible as it is their
interest that it should be so. The paper is ex-

189

tremely thin and light, very combustible, and
gives off very little smoke. These are the only
qualities necessary and there is not the least
reason to use any harmful ingredients, as the re-
quired qualities can be obtained by the ordinary
manufacturing processes. Moreover, the best
paper can be manufactured and supplied at a
very low cost. From France the United States
annually imports about $500,000 worth of
cigarette paper and from Austria about
$120,000 worth.

Most manufactured cigarettes have a protec-
tive tip at the mouth end. This not only keeps
the cigarette intact but prevents the tobacco
from being wetted by the saliva. As already
stated, nicotine is soluble in water, and its en-
trance to the mouth in this form is thus
obviated. The tips are made of various sub-
stances, cork, straw, goldleaf, cherry wood,
etc., in fact any water-proof substance that is
harmless, nonadherent and smooth can be used.

Cigarettes must according to the law of the
U. S. be put up in packages of 5, 8, 10, 15, 20,
50 or 100, and the packages must not contain
any lottery or chance ticket nor any indecent
picture.

Much criticism, that is to a large extent
groundless, has been directed against the habit
of cigarette smoking. It has been shown by

140

many investigators that when not carried to
excess the cigarette is the safest method of
using tobacco. The reader is referred to the
remarks regarding cigarettes in the chapter
respecting the effect of tobacco on the human
system; but it may be as well here to quote a
recent editorial from one of the leading repre-
sentative medical journals of the United States,
the opinion stated in which should go far to-
wards removing the absurd prejudice against
the cigarette.

From the New York Medical Journal of
July 25, 1914 (Editorial) :

"Particularly do the uninformed enjoy an
attack on the cigarette ; it is cheap ; it is small ;
and its patrons, numerous as they are, yet form
an insignificant minority in our immense popu-
lation. Therefore, the cigarette and its users
are fair game for cheap and silly sneers ; sneers
which are capable, however, of cowing an entire
legislature, as in Georgia at this moment. Yet,
beyond cavil, it has been proved scientifically
that of all methods of using tobacco, cigarette
smoking is the least harmful. Some months ago
the Lancet undertook a careful laboratory
study of the various ways of consuming tobacco,
with the result that it was found that the cigar-
ettes, Egyptian, Turkish and American, yielded
the least amount of nicotine to the smoke

141

formed; the cigar came next in point of harm-
lessness, while the pipe overshadowed the cigar
to the extent that from 70 to 90% of nicotine
was said to exist in its smoke.

"As to the paper of cigarettes the attacks

are simply preposterous.

#*#*###

"Men are well within their rights in forbid-
ding cigarette smoking and other pleasures and
distractions to their employes; it is another
matter when they seize an opportunity to com-
pound with vices they have a mind to, by damn-
ing one they're not inclined to, especially when
the latter affords solace and recreation to mil-
lions perfectly capable of judging what is and
what is not good for them. In Europe where
a good deal of logical thinking still prevails,
there is probably not one smoker of distinction
in any walk of life who does not include the
cigarette in his nicotian armamentarium."
(See references end of Chapter XV)

142

CHAPTER XV

SNUFF

How MADE. QUALITIES. DESCRIPTION OF
KINDS.

SNUFF

A century ago snuff taking was the principal
form in which tobacco was used. The custom
pervaded all classes of society and it was used
by both sexes. The habit has to a very large
extent died out; and it is rarely now that
one sees a snuff box in use. Nevertheless there
is still a very large trade in snuff manufacture,
and it is used very extensively in many coun-
tries. It will surprise many to know that about
24 million Ibs. of snuff are manufactured and
used annually in the U. S. and that within re-
cent years the percentage of increase in the use
of this form of tobacco has been higher than in
the case of cigar, cigarette or pipe smoking
kinds. The value of the snuff manufactured an-
nually is appraised for revenue purposes at
about 6 million dollars.

The process of the manufacture of snuff or
tobacco powder, is essentially based on long and
thorough fermentation as all bitter substances,
acid and essential oils, as well as a large part of
the nicotine, must be removed.

Strong, coarse tobacco is suitable for the
purpose, the darker types of Virginian and
Tennessee tobaccos being used. Strong tobacco
does not necessarily contain a high percentage
of nicotine as is usually supposed. Strength

145

has nothing to do with nicotine content; but
whatever amount of nicotine the tobacco pos-
sesses, at least one-half must be removed by fer-
mentation. As a general rule tobacco leaf
which is at least 2 years old is used and this is
submitted to a further fermentation process of
a special kind for a period varying from 2 to 6
months. When the fermentation process is com-
plete, the tobacco, while still in leaf and un-
powdered, is technically known as snuff. There
are two principal kinds of snuff and there are
many varieties of each kind principally differ-
ing in flavor and minor qualities.

The two kinds of snuff are known as Wet and
Dry. These terms are due to the difference in
the mode of manufacture.

In making wet snuff, the tobacco leaves are
ground up into grain form before the fermenta-
tion takes place. It only becomes snuff when
the fermentation is completed.

In the dry kind the grinding does not take
place until after the fermentation is completed,
when the fermented leaves are thoroughly dried.

The grinding is then done in a muller similar
to a mortar and pestle — this operation being
conducted by machinery on a large scale. After
grinding the snuff is put through a sieving pro-
cess and is then sent to the seasoning depart-

146

ment, thus occupying from 2 to 6 months or

even longer.

Various flavors — attar of roses and such

like — are added to give the snuff different scents

and flavors.

The various names under which brands of

snuff are put up are survivals of names applied

to snuff made by methods no longer in vogue :

SCOTCH SNUFFS are all dry. There are various
kinds — strong, plain, sweet, salt, high-
toast, etc.

MACCABOY is a semi- wet snuff.

SWEDISH SNUFFS usually contain a large per-
centage of moisture. The grains are
coarse and usually highly flavored.
Snuff taking is still extensive among
the Swedish people.

RAPPEE is a snuff made after the French
fashion.

REFERENCES (Chapters IX to XV)
U. S. DEPT. OF COMMERCE. BUREAU OF THE

CENSUS. Report of 13th Census, 1910. (Vol.

on Manufacturers, 1912-1913.)
U. S. DEPT. OF COMMERCE AND LABOR. BUREAU

OF CORPORATIONS. Report of the Commissioner

of Corporations on the Tobacco Industry. Vol.

I, 1909, Continued.

147

IVENS, W. M. Brief and argument in certain ap-
peals from the Circuit Court of U. S. for South-
ern District of New York. (Tobacco Monopoly,
1911.)

HOAGLAND, I. G. The Tobacco Industry. In
Quarterly of the National Fire Protection Assn.,
1907. Vol. I, Nos. 2 and 4.

JACOBSTEIN, M. The Tobacco Industry in the
U. S. New York, 1907.

148

CHAPTER XVI

SMOKING PIPES

HISTORY. MATERIALS USED IN MAKING. MEER-
SCHAUM. BRIAR ROOT. AMBER. SPECIAL
KINDS OF PIPES. CARE OF PIPES.

149

PIPES

The history of tobacco smoking pipes began
with the discovery of tobacco by the Spaniards.
How long before that event they were used is
not known, but that they were used by the
Indians and others for a long period is quite
clear from many items of evidence. The reader
who desires information concerning pre-Colum-
bian tobacco pipes is referred to the Pipes and
smoking customs of the American Aborigines,
by J. D. McQuire, based on the material in the
U. S. National Museum 1889, and other similar
.archaological works.

The first mention of pipes in literature ap-
pears to have been made by Oviedo in 1535 in
his work La historia general de las Indias
(Part 1). In this there is a small wood cut
which is the oldest known picture of a pipe.
This pipe was shaped like a Y — the two ends
of which were placed in the nose and the to-
bacco leaves in the stem. The smoke was inhaled.
Oviedo says that this pipe was called "Tabaca"
from which the name tobacco was probably de-
rived. Admiral John Hawkins was the first to
mention the pipe in English literature in 1564.

Raleigh's famous smoking feat did not take
place until 1586.

151

The Indian pipes were principally of clay and
this material was used in England for the first
pipes made there and continued in sole use for
about 250 years. From England it came to
New England, with the first colonists. The
Spaniards of South America did not generally
use pipes. Meerschaum as a pipe making ma-
terial was not known in Europe till 1723. It
came about in this way: There was then in
Pesth (Austria-Hungary) an honest old shoe-
maker, Karl Kowates, who, when he was not
making or mending shoes, made pipes. Count
Andrassy, was one of his pipe patrons. The
Count while on a mission to Turkey in 1723
was presented with a lump of meerschaum.
The lightness and porosity of the material sug-
gested to him that it would be a very suitable
substance for a pipe bowl and on his return to
Pesth he handed the lump to Karl to make a
pipe of it. It seems Karl made two, one for the
Count and one for himself. But Karl did more
than that. The nature of his shoe work made
his hands waxy and he noticed that wherever the
pipe was waxed by his hands it turned into spots
of clear brown color. He thus discovered the
coloring qualities of meerschaum. Karl's first
pipe is still preserved (it is said) at Pesth.

The new material became very popular and it
spread from Austria all over pipe-smoking
Europe. 152

Wooden pipes do not appear to have come
into use till the early part of the 19th Century.

There is a good deal of interesting lore con-
cerning early clay pipes into which it is not
proposed to enter here. It will be interesting,
however, to note that in William Penn's land
transactions with the Indians, 300 clay pipes
(probably English make) were one of the
articles of barter.

The earliest clay pipe stems were about 9
inches long. The long stem pipes with glazed
ends were introduced about the year 1700 and
were known as "Aldermen." The pipe known
as the "Churchwarden" with a very long, thin,
curved stem which was typical of a leisurable
smoke did not come into use till about 1819.
In those days smokers did not commonly carry
pipes around with them. When a man arrived
at an inn or tavern he ordered a pipe and to-
bacco, just as he ordered his dinner. The
"Cutty" or "Aberdeen" with the short stem was,
however, used by those who needed a pocket
pipe.

It is very surprising how little changes the
pipe has undergone. The original pipe was a
simple bowl and stem, and the best pipe today
is a plain bowl and stem; for although hun-
dreds of devices and all kinds of patents have
been tried, the true smoker prefers the simple

153

plain pipe which offers no obstacle to the clear
drawing of the smoke from the burning tobacco.

The materials used for pipes differ in various
countries. Pipes are made of clay, porcelain,
wood, metal, glass, ivory, horn, cane, bamboo,
stone, etc. There is no know material which in
the opinion of smokers equals genuine meer-
schaum as a material for pipes. This is on ac-
count of its lightness, its coolness, its absorbing
qualities and its capabilities of high polish and
assumption of a beautiful color when used from
soaking the essential oils of the tobacco. Its
friability, however, renders it more suitable for
use as a home pipe than for a work-a-day pipe.

For the work-a-day and knock-about pipe
the wooden pipe with short stem is without a
rival. The qualities which are essential for a
wooden pipe are many and it is difficult if not
impossible to get any material that will aflswer
all of them. The wood for such a pipe must be
hard and practically incombustible, yet light.
It must be sapless and inodorous so that when
heated the fragrance of the tobacco would not
be mingled with that of the wood and be lost.
In addition it must be a good absorber, cool
and have beauty of grain and be susceptible of
a high polish and must not be brittle. The
wood known as briar root possesses these quali-

154

ties to a greater extent than any other wood
known. It will be described in more detail later.

Myall, a native Austrian wood of a very dark
color, hard and of good grain has many excel-
lent qualities for pipes, but is brittle.

Maple, junipe and cherry and several other
woods are used to a limited extent.

MEERSCHAUM

Meerschaum is a light, porous, clayey sub-
stance composed of magnesium, oxygen and
silicon. It is chemically described as a hydrated
silicate of magnesia and its chemical formula is
Mg Si2 04 + 2H20.

The work meerschaum is composed of two
German words, i. e., Meer, the sea; and Schaum,
foam, and literally means "the foam of the
sea." A popular belief being that the substance
was petrified sea foam.

The circumstances under which meerschaum
came to be used for smoking pipes have already
been detailed. Meerschaum occurs as a mineral
more or less scattered all over the world, but
the largest quantities and probably the best
qualities occur in Asia Minor. In the United
States, the mineral is found in South Carolina.
Other mines occur in Spain, Greece and Moroc-
co. The principal mines in Asia Minor are
situated about 250 miles southwest of Constan-

155

tinople, on the plains of Eskishahr. Meer-
schaum has been in use for sundry purposes in
the Orient for many centuries and the mines of
Asia Minor have been worked for at least 1,000
years. The result is that they are now ap-
proaching exhaustion. The area in which the
mineral occurs principally is small, about six
square miles, and in this area many thousands
of pits are worked. The soil is alluvial and in
these deposits the meerschaum is found in soft
lumps and nodules having no definite or regular
shape. It also occurs in veins among the Ser-
pentine rocks and marls. Although it is soft
when taken out of the ground it rapidly hardens
when exposed to the air. It is roughly shaped
and cleaned at the mines and from thence sent
to the dealers who further prepare it by waxing
and polishing and put it on the market in the
conditions in which it reaches the pipe makers.
The principal European depots for meerschaum
are Constantinople and Vienna. It is usually
packed in boxes containing about 50 Ibs. each
and sells for from 50c to $4.00 per Ib.

The lumps on reaching the manufacturers
are first cut with a band saw into suitable sized
blocks according to the size and shape of the
pipes desired. These blocks are then thorough-
ly soaked in water until they are thoroughly
saturated. The soaking renders the material

156

soft and soapy and gives it the consistency of
cheese, so that it is then easily shaped into the
desired form which the pipe is to take. It is
then dried and hardened again and on comple-
tion the bowl is hollowed out and the stem
drilled. If the pipe is a plain one without
carving it is finished on a lathe and filed ready
for polishing. It is also threaded for the mouth-
piece. The pipe is then sent to the drying room
for such time as is necessary to expel all mois-
ture. The final treatment for the smoothing
of the surface is done by fine sandpaper and
other special substances, then immersing in
melted white beeswax for three to five minutes
and finally the giving of a high polish with
precipitated chalk, cotton and flannel being the
usual rubbing materials used.

Meerschaum by its nature is particularly
adapted for carving. The hand carving of such
pipes requires artistic and dexterous craftsmen,
who are experts in this particular class of work.

There are various imitations of meerschaum.
One is made from burnt gypsum soaked with
lime in a solution of gum arabic. This forms a
hard, creamy plaster and is capable of receiving
a highly smooth and polished marble-like sur-
face.

Another form of imitation is made of a hard-
ened plaster of Paris highly polished and tinted

157

in a solution of gamboge and dragon's blood,
being afterwards treated with paraffin or stearie
acid. All cheaper grades of meerschaum pipes,
holders, etc., are made of this or similar com-
pounds and it is very hard for the average
smoker to distinguish them as the ordinary
tests will not suffice. The absorption and color-
ing qualities are about the same. Such imita-
tions cost about half as much as the genuine
article or even sometimes less.

It should be added that the chips and dust re-
sulting from the working of the genuine meer-
schaum are bonded together with a solution and
moulded and this is also sold as meerschaum.

The number of genuine meerschaum pipes
annually manufactured is probably much less
than one-half a million, while there are probably
three or four times as many imitations.

BRIAR ROOT

As we have seen briar root is found to be the
most suitable wood for pipe smoking. The
word briar is not named from wild briar. The
word is a corruption of the French name La
Bruyere, meaning the heather shrub of that
name which grows along the Mediterranean
coast of France, Spain and neighboring coun-
tries. It is the root of this shrub which is the
substance used. The shrub is especially cul-

158

tured for the purpose of pipe making; but the
area in which the best briar root grows is very
limited. It takes considerable time and the re-
sult is that the supply of the most suitable wood
is far below the demand. The cultivation of the
briar root is a simple matter. It consists mere-
ly in pruning the growth as much as possible
so as to encourage and strengthen the roots.

The very best qualities of briar root come
from Corsica and the neighborhood of Leg-
horn. It is very finely grained, hard and tough,
does not char and heats slowly.

When full grown and ready for the market
the wood is rough sawn into blocks, varying in
size from 3 inches square up, according to the
market sizes required, and allowed to season.
When fully seasoned the blocks are packed in
boxes each containing from 200 to 300 of these
blocks. They are then sent to the dealers or
direct to the pipe factories as the case may be.

In the factory the blocks are sorted and then
undergo a sweating process in steam vats for
ten to twelve hours. This steaming gives the
wood the familiar brown-yellow tint of the
natural briar root uncolored. After sweating
the blocks are sent to the drying room as all
traces of moisture must be removed. This
usually takes several months. For pipe making
the workman selects his block and roughly trims

159

it to size. It is then placed in the frazing ma-
chine. This usually has three cutters revolving
at very high speed, making several thousand
revolutions per minute. The center cutter
shapes out the block and the outer knives cut
away the wood on the outside so as to form the
block roughly into the shape of a pipe bowl and
stem. This is then placed in a special lathe for
cutting irregular forms. It is usual to fit in it
a metal pattern of the particular shape chosen
for the pipe. A circular cutting tool is set in
motion and the briar block, which turns with
the metal pattern, is mechanically cut to the
exact shape of the pattern. After cutting, the
pipe passes to the sandpapering machines where
both inside and outside are thoroughly treated,
and it gets a first polishing or smoothing on a
pumice stone wheel. The next process is the
boring of the stem which is done in a drilling
machine by a steel wire having a cutting top
rapidly turned by a lathe. The thread on the
end of the stem for the mouthpiece is formed
by a special machine. The pipe is then ready
for polishers and finishers. It is first sand-
papered four times, twice with rough and twice
with fine on revolving wheels. Unless the wood
is to be left its natural color, it is dropped into
a vat of stain until it acquires the color desired.
After drying it is ready for "buffing." A "buff"

160

is a wheel made of many layers of cloth, leather,
etc., which revolves very rapidly. For pipe
buffing these buffs are usually Tripoli buff,
sheepskin buff, muslin and cotton flannel buff.
The Tripoli takes off any sediment held by the
edges of the grain. The sheepskin buff burns
the color fast into the wood. The muslin and
cotton bring out the grain and gives the wood
its final delicate lustre and finish, which are
done when the stem and mountings have been
put on. The pipes are then ready for final
stamping with name and packing. The process
is much the same with all other hard woods.
Pipe factories are found in most countries.
French briar pipes are justly celebrated, but
the American pipes are better made.

Within recent years calabash has come into
vogue to a large extent as a pipe making ma-
terial. The calabash is a South African squash
and has a special softness of flavor. The curved
stem end of the calabash is used, being lined
with plaster of Paris, and quite a large trade
has sprung up in South Africa in growing
calabash for the pipe trade, the principal point
being Cape Town.

THE PIPE STEM

It is very important that suitable material be
selected for the mouthpiece of the pipe. In fact

161

from many points of view the mouthpiece is the
most important part of the pipe for the smoker,
because damage to the lips must be particularly
avoided, and a defective, rough, or badly made
mouthpiece is apt to cause damage. There are
three very important qualities which the ma-
terial must have: (1) It must be hard enough
to resist indentation from the teeth and yet
not feel gritty. (2) It must be capable of re-
ceiving a perfectly smooth surface and of re-
taining it under the action of saliva. (3) It
must not be a rapid heater so that it will not
burn the lips, or crack or splinter under action
of heat. Other very desirable qualities are
toughness, beauty of appearance and freedom
from taste or odor under all circumstances of
use.

Amber has a unique place in fulfilling these
conditions. Amber is a fossil gum or resin, the
juice of pine trees, which in course of time has
become petrified like coal.

Amber is found is various parts of the world,
but is more plentifully found along the sandy
shores of East Prussia bordering on the Baltic
Sea. This area was in time long past the site
of pine forests. The amber is found very often
to occur with lignite or brown coal. It is dug
out of the cliffs or mined like coal out of the
ground. Sometimes it is washed in from the

162

sea. In size it varies from the size of a pea to
lumps as large as an orange. When first dug
up it is usually of a pale yellow color, but this
becomes darker on exposure. The manufacture
of commercial amber is a government monopoly
in Prussia. The pieces are all melted down at a
temperature of about 550° F., and then after
purification it is cast into slabs about % inch
to 1% inches thick and four inches to eight
inches long, in which form it is sold to dealers.
There are two qualities, opaque and transpar-
ent, the opaque being the tougher. The cost
varies considerably, the inferior kinds being
sold for $2.00 per pound, and the finest speci-
mens cost up to $60.00 per pound.

By far the largest quantity of amber used for
ordinary pipes is imitation amber. The manu-
facture of this is a trade secret. It is so good
and fulfills its purpose so well that only experts
can distinguish it from genuine amber. There
are many substitutes for amber.

Good vulcanite, except for the matter of ap-
pearance is little inferior to amber as mouth-
piece material. Cut vulcanite is cool and
smooth, but moulded vulcanite is liable to be
rough to the lips and should be avoided. Vul-
canite mouthpieces are usually sold already
finished direct to the pipe makers.

163

Except for the matter of brittleness unglazed
clay is a most excellent pipe stem. Clay is
usually cool and very absorbent of the acrid
oils occurring in the distillation of tobacco.
When the end of a clay stem is protected by a
rubber band, it forms a very good mouthpiece.
Bone and other materials are also used as
mouthpieces. Ebonite is used, but is objec-
tionable because it spoils the flavor of the to-
bacco. Celluloid is a dangerous substance and
should not be used as a pipe stem.

The smoker should avoid biting the mouth-
piece as it roughens it. It is far better to dis-
card a mouthpiece when it becomes indented,
rough or worn in any way. A damaged mouth-
piece should on no account be used when the
lips are chapped or lacerated because the irrita-
tion may, if continued, lead to ulceration and
tobacco juice is not beneficial to skin lesions.

SPECIAL PIPES

German pipes are, as might be expected, the
most correct in scientific principle. The pipe
has two bowls the upper of which is for the
tobacco. This fits into a socket which allows
the oils and aqueous solutions due to the dis-
tillation to pass into the lower bowl, very little
getting into the stem. The bowls are usually
of porcelain and the long curved stem is of wood
mostly cherry.

164

The Dutch pipe is similar to the German ex-
cept that the stem is long and straight which
allows the bowl to rest on the ground. The
German pipe is usually held in the hand by the
lower bowl. In Turkey and Oriental countries
the water pipe is used. This form of pipe
originated in Persia. The pipe consists of a
receptacle for the tobacco, which has a perfo-
rated bottom. This holder fits into a cup from
which a hollow tube leads into a jar containing
water. The tube passes through the stopper of
the jar and descends almost to the bottom of
the water. Another tube, the inhaling tube,
also passes through the stopper of the jar, but
does not reach to the surface of the water. On
drawing through the inhaler a vacuum is created
in the air space above the surface of the water
in the jar which induces suction through the
other tube below the water level. The smoke
therefore bubbles through the water and is
cooled before it reaches the mouth of the
smoker. It, however, requires a considerable
amount of effort to draw the smoke through.

Water pipes are used extensively among the
batter classes of the East. Some of them are
very gorgeous affairs, the bowls being of the
richest crystal and the fittings gold or silver set
with gems. Sometimes they have several smok-
ing tubes so as to accommodate more than one

165

smoker. The water pipe used by the Shah of
Persia is said to be worth $400,000.00.

In Turkey the water pipe is known by the
name of Hookak. In Egypt it is called Nar-
geeleh (or Narghile) because the water vessel
is usually a cocoa nut for which the Arabic
name is Na'rghee'leh. The Hookak usually
stands on the floor and is ponderous, with many
smoking tubes. The Nargeeleh is a hand pipe.

In Eastern countries, however, besides the
water pipe the ordinary clay bowl pipe is used
to a very large extent, being fitted with a wooden
stem from 3 to 5 feet in length. All these pipes
are essentially home pipes, as it is not habitual
with the Eastern people to smoke except when
seated.

In China both sexes commonly smoke pipes —
a water pipe made of brass is usually smoked
by the richer classes. The poorer classes use a
clay pipe with a bamboo stem.

The principal importation into the United
States of foreign made pipes and smokers'
articles is from Austria, England and Germany.
The latest government statistics show that from
England $278,000, from Austria about $280,-
000, and from Germany about $139,000 worth
of such goods are annually imported. These
are principally pipes. Cigarette paper, briar
root, etc., are not included in these figures.

166

The total importation value in 1912 (exclusive
of duty) from Europe was $1,478,000.

THE CAEE OF PIPES

An experienced smoker lays down the follow-
ing rules for the care of pipes. The rules apply
whether a man uses one or half a dozen pipes:

(1) When a pipe is used for the first time
wipe out the bowl with a cloth. Then thorough-
ly wet or dampen it. Before the moisture
evaporates fill the pipe. Light evenly and be
careful not to burn the rim with the lighted
match. The tobacco being damp next the wood
will not redden there, hence the wood will not
char but a sooty film will form.

(2) Ashes should be allowed to remain in
the pipe till thoroughly cooled. Then emptied.
The object of this is to allow the liquid residue
to soak into the pores of the new wood.

(3) Do not scrape the inner surface of the
bowl. The thin coating of carbon (the "cake")
which is formed on it is a nonconductor of heat
and prevents the wood from overheating or
cracking. It keeps the pipe cool and is a good
absorber.

(4) After half a dozen smokes the rule of re-
moving the ashes should be reversed. They
should be removed promptly after smoking.
Blow through the mouthpiece after smoking.

167

By this time the inner surface of bowl is suf-
ficiently soaked and coated and continuation
makes it acrid and sodden.

(5) Always allow your pipe to cool and dry
before resmoking. Use pipe cleaners and pipe
spoon for cleaning. When the "cake" becomes
too thick part of it may be removed but always
leave a layer next the wood. Be careful not to
scrape the surface of the bowl.

(6) A pipe should not be used continuously
for more than a few weeks or a month. It
should then be cleaned and allowed rest unused"
for a while. It is well to allow it to hang where
the sunlight can play on it. Acrid matters will
dry out and the pipe will be sweet when smoked
again. It is a good plan to pack the bottom
of the bowl with powdered chalk when it is
resting.

When a pipe tastes acrid it requires more
than ordinary cleaning. If one has the oppor-
tunity a most excellent way is to blow steam
through it, first removing the mouthpiece. An-
other way recommended by a smoker who says
it is most efficacious is to fit a cork into the
bowl of the pipe. Make a hole in the cork, into
which the nozzle of a soda siphon will fit snugly.
Direct the mouthpiece into some emptying ves-
sel and force about a wine glass of the soda

168

water from the siphon through the pipe. It
will clean it out effectively.

If you are smoking a meerschaum and desire
it to color well and evenly it is a good plan to
use a false upper bowl to fit inside the bowl of
your pipe. The rim of fire where the tobacco
is burning makes the pipe bowl too hot and does
not allow that part to color. The false bowl
will prevent this. Some smokers think that
covering a meerschaum bowl with chamois will
cause it to color well. The chamois will not
aid the coloring but it will protect the bowl
from being touched by the hand during the
process and thus avoiding a spotty effect, par-
ticularly if the hand should be moist or greasy.
During the progress of the coloring the pipe
should never be allowed to get too hot. The
time required to color a pipe depends on the
tobacco used. If it is a rich oily tobacco, the
time necessary is shorter than with a dry to-
bacco.

Imitation meerschaum of the cheaper kind
are sometimes artificially colored by the makers.
This is done by boiling the pipe in an oily solu-
tion of nicotine, the formula for which as given
in the American Druggist, V. 58, is :

Crude nicotine (oil of tobacco)=§ i.

Olive oil=|j ii.

Yellow wax=3 viii.

169

The pipe is kept in the boiling solution from
10 to 15 minutes and rapidly absorbs it. The
surface is capable of a high polish.

REFERENCES

PENN, W. A. The Soverane Herbe: a History of
Tobacco. London and New York, 1901.

FAIRHOLT, F. W. Tobacco; its History and As-
sociations. London, 1876.

170

CHAPTER XVII

EFFECTS OF TOBACCO SMOKING ON
THE HUMAN SYSTEM

PHYSICAL EFFECTS. OPINIONS OF MEDICAL MEN

QUOTED AND DISCUSSED

171

EFFECTS OF TOBACCO SMOKING ON
THE HUMAN SYSTEM

It is a matter of very great importance for
the user of tobacco that he should have clear
information regarding the beneficial and harm-
ful effects of tobacco on the human mind and
body. There are very few matters which have
been the subject of such varied opinions; such
exaggeration and misconception. Those who
are opposed to the use of tobacco have not
hesitated to ascribe to it every form of evil,
physical, mental and moral. Insanity, epilepsy,
cancer, malignant throat disease, blindness,
heart disease and a host of other diseased con-
ditions are traced to tobacco smoking by its
enemies. On the other hand the users of to-
bacco are scarcely less vehement in holding that
no harmful effects follow, but ascribing all
kinds of virtue as resulting from its use. It is
not our object in this chapter to justify or
recommend the use, or to advise the avoidance
of tobacco ; we think it is a matter that the in-
dividual should decide for himself. Moreover,
we think that no general rules governing all
cases can be laid down, but that each individual
must judge for himself whether the use of to-
bacco is justified in his own particular case or
not, taking into consideration all the circum-

173

stances that affect him. The important thing
is that he should possess clear and correct in-
formation with regard to the effects of tobacco
as far as such have been scientifically deter-
mined; and from the observation of its effects
on his own organism to determine whether in
his own case the practice is beneficial or other-
wise and to what extent it may, be pursued if
he desires to smoke.

We, therefore, purpose to submit the facts
which have been determined by the most careful
scientific investigators and others of high stand-
ing, who, from their experience in the investiga-
tion of the causes of disease, are best qualified
to offer opinions which may be accepted as
authoritative.

A perusal of the vast amount of literature
both for and against the use of tobacco brings
out certain points very largely. First, in the
case of the opponents, the most sweeping state-
ments are made without a particle of scientific
proof in support of them, by persons who are in
no way qualified to make such statements.
Statistics are quoted most recklessly and ac-
cepted as conclusive, although in most cases
there is no logical connection between the mat-
ter of the statistics and the absolute effects of
tobacco. If there is a question of* a certain
condition, it is not sufficient to show that the

174

person suffering from it was a user of tobacco
and to allege, therefore, that tobacco was the
cause of the condition. It must be shown con-
clusively that no other circumstances than the
use of tobacco could have caused this condition.
Dr. T. W. Jenkins, of Albany, N. Y., (New
York Medical Journal, 1915, V. 102, p. 355),
who was awarded a prize by this leading medical
journal for his essay on tobacco smoking says:
"The first thing to bear in mind is that con-
sidering the large amount of tobacco used very
little harm results, and care should be taken
not to incriminate tobacco when the troubles
under observation may be due to other causes."
Secondly, among the investigators themselves
who have made impartial inquiries about the
effects of tobacco, there is sometimes a wide dif-
ference of opinion in the interpretation of re-
sults and in the relation of cause and effect.
Thus most varied opinions exist on the subject
of nicotine. The result is that it is difficult for
the average man to come to a satisfactory con-
clusion on the subject; for it cannot be said
that the scientific knowledge of the effects of
tobacco smoking on the human system as pre-
sented to us today is final or sufficiently well
determined to enable definite and true conclu-
sions to tie arrived at.

175

Thirdly, there is the widespread error of
ascribing the evils of the abuses of tobacco to
the use of tobacco. This matter of the use and
abuse of tobacco cannot be put too clearly.
Most medical investigators have based their
results clearly on the excessive use of tobacco.
It is a very rare thing to find a medical investi-
gator drawing attention to any harmful results
following the moderate use of tobacco, and it
appears a just statement to make that the
majority of men use tobacco in moderation. It
appears to be true that excessive smoking is
harmful and is capable of producing deleterious
effects on the respiratory and nervous systems
in man, but ifc has never been scientifically
proved that the moderate use of tobacco has any
particularly harmful effects. Moreover, it is
well-known to the medical profession and so
stated constantly that in many cases where the
use of tobacco has produced bad effects on the
eye, nerves, etc., its use is contra-indicated, ow-
ing to the condition of the subject due to other
causes and that such results would not occur
in a normally healthy subject. Therefore, be-
cause tobacco when used excessively or when
used by persons who are not constitutionally
fitted for it, produces bad effects, it is not
logical to argue, as many opponents of tobacco

176

smoking do, that the use of tobacco is univer-
sally harmful.

Fourthly, the conclusions arrived at by some
investigators, are based on experiments made
on animals, and it appears quite open to criti-
cism, and is in fact disproved by common ex-
perience, that such results will follow when ap-
plied to man. Hinging on this is the question
of immunity and toleration. The human system
will easily after use tolerate effects which at
first it rebels against. This may easily be seen
in muscular and other efforts. Let a man who
is constantly leading a sedentary life suddenly
walk 10 miles. The result is almost prostration
and he will not recover from it for a consider-
able time. Let him, however, commence by
walking a mile or two and gradually at each
walk increase the distance, and in a short while
he will be able to walk 10 miles without feeling
any fatigue. Similarly running or other rapid
exercise to a person not used to it will produce
such rapid disturbances in the respiration and
circulation as even to be fatal, while the sea-
soned athlete may perform such feats without
the least ill effects.

To take animals or persons who have never
before used tobacco and to argue or conclude
that the effects of tobacco smoke on them are
the effects of tobacco on smokers generally is

177

absurd. Yet such experimental results are very
often made the basis of denunciation of tobacco
smoking.

Finally most investigators have made their
inquiries for the exclusive purpose of discover-
ing the evil effects of tobacco smoking. They
proceed to their work with a biassed mind.
They have already assumed that the habit is
harmful and they simply want to find out how
much harm they can discover. They are pre-
judiced from the beginning. It is to this class
of investigator that Dr. John Aikman refers to
(New York Medical Journal, Oct. 30, 1915),
when he says : "In reading the literature on the
use of tobacco we are impressed by the fact that
much of it is written by persons greatly op-
posed to the use of the plant, and naturally
prejudiced." It is quite conceivable that a man
may investigate the evil effects which follow
from wearing clothes and shoes and he could
undoubtedly find some evil effects ; but the users
of such articles could very justly say that the
beneficial results of such habits more than out-
weighed the demonstrated harm that might
occur. And then the user of tobacco might say
that the beneficial effects of smoking more than
compensated for any slight harm that may hap-
pen. For tobacco has undoubtedly many excel-
lent effects, and no one knows this better than

178

the smoker himself. He will readily admit that
excess is bad. He will readily admit that the
use of tobacco is not suitable to immature per-
sons, or in fact to many other persons, but he
insist that in the majority of cases, it is not
only practically harmless but that it has many
desirable qualities, for that is proved by his
own experience and the experience of millions
of other smokers in all ages and under all con-
ditions.

We will now proceed to consider some of the
effects which have been ascribed to tobacco
smoking and give expressed opinions concern-
ing them.

PHYSICAL EFFECTS OF TOBACCO SMOKING
The principal deleterious effects on the hu-
man system ascribed to the use of tobacco are :

(a) Throat diseases.

(b) Disturbance of vision.

(c) Heart troubles (smokers' heart).

(d) Disturbance of the digestive organs
(dyspepsia, etc.).

(e) Disturbance of the nervous system.

(f) Disturbance of nutrition.

As regards (a) throat diseases, the following
is the opinion of Dr. H. Reik of the Johns Hop-
kins University, surgeon to the Baltimore Eye,
Ear and Throat Hospital, as expressed by him

179

in the Boston Medical and Surgical Journal,
Vol. 162, p. 856, 1910:

"There is not one scintilla of evidence that
malignant disease of the throat is due in any
way to the use of tobacco ; and if it be admitted
that carcinoma (cancer) of the lip or tongue
has been produced by smoking, it is clearly
not tobacco, but traumatism (i. e., injury) from
the stems of the pipe or other tobacco con-
tainer that is responsible.

"It does not appear or at least has not been
proven that tobacco causes any definite charac-
teristic lesions of the nose, throat or ear."

Dr. Reik is a man of high standing in the
medical profession. His opinion is clear and
unmistakable and it is presumed he has seen
thousands of cases of nose and throat diseases
and knows what he is talking about.

Dr. Reik refers to the question of so-called
smokers' cancer. Cancer is a disease which at-
tacks all kinds of people and may occur in
widely different parts of the body. The causa-
tion of this disease is not known to the medical
profession but what is known about it is that it
usually occurs on the site of some previous in-
jury. Thus cancer .may occur on the tongue
as the result of the constant irritation of a
jagged broken tooth.

180

Dr. I. C. Bloodgood (Boston Medical and
Surgical Journal, No. 2, 1914), who has ex-
amined 200 cases of lip cancer says that smok-
ing is a common factor, the disease when occur-
ing being usually on the site of a neglected and
ulcerated smoker's burn. The burn may be a
charring of the skin due to a very hot pipe stem
or burning cigar stem. He says, moreover,
that if the burn is not continued and there is no
other injury, this defect may heal without evi-
dence of ulceration.

Similarly a cancer may be the result of con-
tinual use of a broken or rough pipe stem or
from using a pirty pipe stem on a broken skin.
All these are clearly matters which the average
smoker easily and usually avoids. It is, how-
ever, clear that tobacco itself is in no way
responsible for cancer, and no responsible
medical writer on the subject alleges that it is.

Most of the medical writers who have in-
scribed injurious physical effects on the nerv-
ous system, heart and sense organs, to excessive
tobacco smoking have stated that these effects
are due to the toxic action of the alkaloid
nicotine known to exist in tobacco. There is
a wide difference, however, in the results ob-
tained by different writers as to the amount of
the nicotine in tobacco which finds its way with
the tobacco smoke. Moreover, some of the in-

181

vestigators who have done very careful work do
not consider that nicotine is the toxic element,
but the substance called pyridine which is de-
rived from it.

Dr. Bush (quoted below) referring to this
matter says:

"From a review of the literature it would ap-
pear that extensive studies had been made as to
the effects on living organisms of the alkaloid,
nicotine. From such studies a great number
of writers, especially laymen, have adopted the
hasty conclusion that tobacco smoking entailed
like results.

"Comparatively few studies have been made
of the effects of tobacco smoking on human be-
ings ; and such as have been made fail to state
if the tobacco used or the smoke produced was
examined for nicotine or its congeners. The
absence of an examination necessarily causes
some doubt in the causative faction of the
phenomena. Some authors are rather inclined
to conclude that nicotine alone is the pathogenic
factor in tobacco smoking, but since the pres-
ence of nicotine per se in tobacco smoke is de-
batable and since other toxic substances are
demonstrable, it would seem as if the whole sub-
ject still remained open for investigation."

The nicotine contained in ordinary tobacco,
according to many authors, ranges from about

182

1 to 8 or 9 per cent. Lee's investigation {Jour-
nal of Physiology, 1908, p. 335) found that
about half of the total nicotine was present in
the smoke — according to Lee the pyridin seemed
to be entirely without influence.

Lehmann (Archiv fur Hygiene, 1909, p. 319)
found that from 80 to 90% of the total nicotine
in a cigar or cigarette was to be found in the
smoke. He found also that in the case of cigars
about 10 to 18% of the nicotine in the smoke
is absorbed by the smoker and that cigarette
smoke absorbed by the smoker contains a less
proportion of the nicotine in the tobacco than
is the case with cigars. The general opinion
is, however, that about one-seventh of the nico-
tine in the tobacco will be found in the smoke.

Entirely at variance with these results are
those obtained recently by A. D. Bush, M.D.,
Instructor of Physiology in the University of
Vermont (New York Medical Journal, March
14, 1914), and those obtained in the laboratory
investigation by the London Laucet. Bush
made long and extensive investigations on the
effects of tobacco smoking and criticised the
results of previous workers. He shows very
clearly that in many cases the conclusions
drawn by them as regards nicotine contained in
tobacco smoke are either entirely erroneous or
that the deductions made from the investiga-

183

tions were not warranted by the facts observed.
He points out the fact that most writers on the
subject have overlooked the fact of the great
discrepancy between the possible effects aris-
ing from the administration of the amount of
nicotine in a cigar and the actual effect pro-
duced on the smoker of the cigar. He asks this
pertinent question : "If a cigar contains 0.085
grains nicotine, and if one-seventh of the nico-
tine of the tobacco is present in the smoke and
if but .004 grains is capable of causing death,
why does the smoker not absorb enough nicotine
to cause his demise?"

As a result of his careful experiments, Bush
found that although nicotine was present in all
the samples of tobacco tested there was no
nicotine whatever found in the smoke, except
in the case of cigarettes and in this case only
traces were found. The reason of this is given
as due to the rapid burning of the cigarette
which did not allow sufficient time for the com-
plete decomposition of the nicotine. Pyridinc
was, however, found in the smoke of all tobacco
burned. Pyridine is only one-twentieth as
toxic as nicotine. Bush concluded, therefore,
that pyridine and not nicotine is the toxic fac-
tor in tobacco smoke. The same fact was stated
several years ago by Rideal (Disinfection and
Preservation of Food, London and New York,

184

1903, p. 254), who says: "Tobacco smoke,
contrary to popular belief, does not contain
nicotine, which is decomposed by the heat;
but pyridine and its homologues and the bene-
ficial effects of tobacco in many cases of asthma
must be attributed to this latter."

The Lancet investigation (see Lancet, Ap. 6,
1912, pp. 944-947) was mode because "a recent
review of numerous analysis of tobacco which
have been published from time to time raises
some doubt as to whether the results given cor-
rectly represent the actual alkaloidal contents
of the tobacco." Moreover, to find the relation-
ship of the true amount of nicotine in any
tobacco to that in the smoke produced by the
combustion of that tobacco, and any modifica-
tion caused by the method of smoking.

The investigation was conducted under the
strictest conditions, the most recent methods of
chemical research being employed.

The following table (given by the Lancet)
shows the nicotine contents of various tobacco
samples and the percentage of nicotine in the
smoke :

J85

Description of
Tobacco.

Virginian Cigarettes (Sample 1) .. 1.40 0.74 0.12

Virginian Cigarettes (Sample 2) .. 1.60 0.60 0.06

Caporal (French) Tobacco 2.60 2.20 0.95

Turkish Cigarettes 1.38 0.51

Egyptian Cigarettes 1.74 0.21

Pipe Smoking Mixture (1) 2.85 2.20 2.25

Pipe Smoking Mixture (2) 2.81 1.53

Pipe Smoking Mixture (3) 2.04 0.23

Perique Tobacco 5.30 1.27 0.57

Cavendish Tobacco 4.15 3.85

Latakia Tobacco 2.35 1.20

Havana Cigar 0.64 .... 0.20

From this analysis it appears that pipe mix-
tures contain the largest amount of nicotine in
the tobacco (2.04-2.85%). Egyptian and
Turkish cigarette tobaccos come next (1.38-
1.74%). Virginian cigarette tobacco shows
similar figures (1.40-1.60%). French tobacco
(Caporal) contains 2.60%, and Perique 5.30%.
For all practical purposes the tobaccos con-
sumed by the public according to this report
seldom contain more than 3% of nicotine and
generally less, the average being about 2%,
which is much lower than previous writers lead
us to expect.

The cigarette, whether Egyptian, Turkish
or American, yields the least amount of its total

186

nicotine to the smoke formed, while the pipe
yields a very large portion (in some cases be-
tween 70 and 80%) of its nicotine to the smoke.
Analysis of cigar smoke gives figures midway
between the two.

With the results of Bush and the Lancet
before him the user of tobacco will be better
able to judge of the opinions of those who des-
cribe the effects of nicotine on the vision, heart,
digestive organs, etc., as likely to be the results
of tobacco smoking.

Thus the disturbance of vision ascribed to
tobacco smoking is called tobacco amblyopia.

Dr. W. S. Franklin of San Francisco (Calif.
State Jour, of Med., 1909, V. 7, p. 85), says
that to produce this disease it is necessary to
smoke daily from .75 to 1.0 gms. of pure nico-
tine. If 17% of the nicotine of tobacco is car-
ried in the smoke, in order to absorb that quan-
tity 7 or 8 cheap domestic cigars, 10 or 11
Cubans or 60 cigarettes should be smoked. Now
very few smokers consume this amount and ac-
cording to Bush, and the Lancet, and others
there is no such percentage of nicotine in the
smoke.

To the use of tobacco is ascribed an acid
dyspepsia — this, however, is noticed more par-
ticularly in habitual chewers and in this case
the nicotine not being burnt has no chance of

187

being decomposed. All writers have agreed that
chewing is the worst way that tobacco can be
used. Dr. R. V. Dolbey says: (Northwest
Medicine, 1909, V. 1 p. 99).

"In chewing, quantities of watery extract of
tobacco are swallowed and taken down with
the food containing a large percentage of nico-
tine and causing severe dyspepsia. While to-
bacco juice solution in the laboratory kills in-
testinal bacteria, excessive tobacco chewing
does not have this effect on the human body
owing to the fact that the gastric and pan-
creatic juices act on it and alter it."

Dr. I. S. Gilfilian discusses the effects of to-
bacco on the heart in the St. Paul Medical
Journal, July, 1912, p. 338. He says that the
important part whether organic changes in the
cardio-vascular system may be produced by
tobacco is still doubtful, and that it has never
been shown that smokers suffer more from or-
ganic heart disease than nonsmokers.

General opinion is that smoking lessens the
pulse rate and slightly increases the blood pres-
sure, and that it is a cause of arterio-sclerosis.

With regard to arterio-sclerosis, Dr. A. Lor-
and of Carlsbad who is a world-wide authority
on the effects of toxic substances on the blood,
says in his book, Old Age Deferred (English
translation, 1910, p. 367) :

188

"Clinically we have observed the great fre-
quency of arterio-sclerosis in great smokers, but
we do not think that two or three light cigars
a day, but never before meals, can do any harm
save in exceptional cases. Indeed there are a
few instances of persons living to be over 100,
notwithstanding the fact that they were
smokers — a fact contrary to the observation
of Hufeland who pretends that he never heard
of such a case. The famous English painter,
Frith, who died in October, 1909, used to smoke
6 cigars a day, and Mr. F. of Chartres, in
France, passed last year his 100th birthday in
spite of his having taken snuff all his life."

If there were any serious lesions caused in the
human system by the continued use of tobacco
we might naturally expect that life insurance
companies would take notice of it, but hear
what they have to say {Medical Record, New
York, July 12, 1913) :

Dr. H. G. Turney, at the meeting of Life
Insurance Medical Officers Association, London,
January, 1913, said that as far as observation
and study of the literature went he did not con-
sider that there was much evidence that the
habit of smoking can be convicted of any seri-
ous effect on the mortality table. One must
confess rather to a feeling of surprise that the
life-long absorption of so potent a drug as

189

nicotine by a large proportion of the male
population should not be accompanied by more
obvious results in the way of serious injury to
the cardiac muscle than appears to be the case.

Dr. A. Marvin of the Department of Pharma-
cology, Vermont University, made numerous ex-
periments on the effects produced by tobacco.
In the cases of the respiratory system, he states
that in rapid smoking the respiratory rate is
increased, due more to the effort than to the
drug. In deliberate smoking there is very little
effect. In the digestive system the effects pro-
duced were, increased flow of saliva and stimula-
tion of the mucous membrane of the stomach
and intestines. Marvin did not find any import-
ant symptoms of systemic irregularities except
where there was excessive use of tobacco. He
says : "Tobacco produces, when used to excess,
symptoms in a very small per cent and often it
is only one factor in producing the conditions
observed." A very cautiously expressed and
noncommittal opinion.

It is to be remembered that of the percentage
of nicotine in tobacco smoke only a small por-
tion is drawn into the smoker's system. The
greater part passes off again in the smoke
passed out; also that the products of combus-
tion of tobacco include acqueous solution as

190

well as smoke ; it will not probably be questioned
that some of this watery solution is drawn into
the mouth as well as the smoke and probably
contains minute quantities of nicotine or its
derivatives.

The smoker may obviate any slight harmful
effects of these substances by care. If he is a
cigar smoker he must avoid chewing or sucking
the butt end of the cigar in which the acqueous
solution finally gathers, and he would find it
better to smoke long thin cigars which afford
a small area behind the burning point for the
collection of acqueous vapor and give a better
combustion. Judged from these viewpoints the
best and most expensive thick cigar is likely to
be more harmful than the very worst kind of a
cigarette, for although there may be a much
smaller percentage of nicotine in the cigar to-
bacco, a much larger proportion of it may reach
the mouth of the smoker through the water pro-
duced by combustion, in the case of the cigar
than in the case of the cigarette.

Every cigar and cigarette smoker should use
a holder for the reason stated. The cigarette
from the nicotine point of view is the least ob-
jectionable form of smoking. In fact expert
opinion is recognizing that unless where, tlu»
smoke is inhaled cigarette smoking if not ex-
cessive is probably harmless. It is hard, of

191

course, to kill a popular prejudice, but we have
to deal with demonstrated facts not prejudices.
In the case of inhalation of cigarette smoke the
danger is from carbon monoxide gas and not

m nicotine.

When the difference of opinion amongst
authoritative investigators are discounted their
general results will be found to agree very well
with the general facts observed by all users of
tobacco. What they see is that probably
seventy per cent of the adult male population
under all conditions and circumstances use to-
bacco within limits of moderation. They see
around them men who have for many years
used it, and they do not observe any particular
harmful results in the user of tobacco compared
with the nonuser. Men as a rule are not more
nervous, more subject to heart troubles or age
troubles than women, who as a sex, do not use
tobacco. Smokers do not deny and never have
denied that the abuse of tobacco is harmful.

The general view that both scientific investi-
gators and popular observation is able to sup-
port is well expressed by Clouston, who is a
world known authority on nervous and mental
disease. (See Hygiene of Mind, 3rd Ed. Lon-
don, 1906, p. 260.)

"If its use is restricted to full grown men, if
only good tobacco is used not of too great

192

strength, and if it is not used to excess, then
there are no scientific proofs that it has any
injurious effects, if there is no idiosyncracy

against it Speaking generally, it

exercises a soothing influence when the nervous
system is in any way irritable. It tends to calm
and continuous thinking and in many men pro-
motes the digestion of food.

"Tobacco, properly used may, in some cases,
undoubtedly be made a mental hygienic."

Mann (Brit. Med. Journal, 1908, V. II, p.
1673), expresses a similar opinion thus : "Most
men if they choose to smoke can do so within
certain limits without injury to health. Some
men can exceed such limits with apparent im-
punity. The extent of the limitation must be
determined by each man for himself."

193

CHAPTER XVIII

THE BENEFICIAL EFFECTS OF
TOBACCO

ITS DISINFECTING ACTION. PROTECTION AGAINST

INFECTIOUS DISEASE. PSYCHOLOGICAL

EFFECTS OF SMOKING.

195

THE BENEFICIAL QUALITIES OF
TOBACCO

In the previous chapters the possible harm-
ful effects of using tobacco have been dealt with
at length. In this chapter we shall deal shortly
with some positive beneficial effects.

There is very little doubt that tobacco is a
strongly protective agent against infection
from disease. Its germicidal qualities are well-
known and recognized. It is now recognized by
medical writers that the mouth is one of the
principal, if not the principal channel of in-
fection for many infective diseases. The cavi-
ties of the teeth are the breeding places of hosts
of pathogenic bacteria, of which there are about
100 different varieties arising from decaying
food and other sources. These destructive
agents, many of them highly pathogenic, easily
find their way from the mouth through various
channels to the inside of the body. Many in-
fective organisms floating in the air are drawn
into the mouth in the act of respiration and this
is a common method of falling a victim to con-
tagion.

The effect of tobacco juice on the bacteria of
the human mouth was investigated by Dr. W.
D. Fullerton and is reported by him in the
Cleveland Med. Journal 1912, page 585.

197

In his experiments Fullerton used tobacco
juice obtained from the human mouth by chew-
ing plug tobacco. He also used a solution of
smoke obtained from a well seasoned pipe.
These were first thoroughly sterilized in order
to obtain a pure natural mixture of tobacco
and saliva. Cultures of well-known species of
bacteria were made using every laboratory pre-
caution so as to obtain accurate results.
Specimens of these bacterial cultures were then
submitted to the action of the tobacco juice.
It was found that exposure for one hour killed
or rendered innocuous 15 to 98 per cent of the
bacteria ; exposure for 24 hours acted similarly
on from 84 to 100%. Dr. Fullerton gives his
opinion, from his results, that it seems that a
pipeful of tobacco was more toxic to bacteria
than one chew; but chewing tends to loosen
retained food particles, foci of bacteria, etc.,
and much of this is ejected from the mouth.
Fullerton's work agreed very well with the re-
sults obtained by other workers in the same line
of investigation. In Miller's Micro-organisms
of the Human Mouth, p. 246, it is stated that
the organisms of the mouth lead only a miser-
able existence in a mixture of an infusion of
tobacco, sugar and saliva ; and that the smoke
of the last one-third or the first one-fourth of a
Colorado Claro cigar sterilized ten cubic centi-

198

meters of beef extract solution which had been
richly inoculated with bacteria from decayed
teeth. Arnold, Lancet (London, 1907) re-
ports similar experiences with some of the most
virulent types of infective bacteria.

Both nicotine and its derivative pyridine as
well as the tarry oils resulting from tobacco
distillation are strong and effective disinfect-
ants ; and formaldehyde, one of the most power-
ful germicides known, is so formed. Trillat,
Annales de VInstitut Pasteur (Paris), Vol. 19,
p. 722, shows that 100 grams of pipe tobacco
will yield .063 grams and 100 grams weight of
cigar .118 grams of formaldehyde. Also that
a dilution of 1/1000 formaldehyde is germicidal
to all bacteria although it has very little dele-
terious effects on man.

** As far as can be ascertained there has not
been very much investigation for the purpose of
demonstrating the actual results of clinical ex-
perience regarding the antiseptic qualities of
tobacco in the case of smokers, but facts, so
far as they have been recorded, bear out the
experiments. Rideal Disinfection and Preser-
vation of Food (London and New York, 1903)
states that the investigations of Tessarini
showed that tobacco smoke passed over the or-
ganisms of human cholera and pneumonia killed
them in from 10 to 30 minutes. He also states

199

that the Cigar Manufacturers Association of
Hamburg reported that in the cholera epidemic
of 1892 in that city, only 8 out of 5,000 em-
ployes in the cigar factories there were at-
tacked by the disease and that there were only
4 deaths. Professor Wenck, of the Imperial
Institute of Berlin, has published an account of
this cholera epidemic (see Laucett francaise,
Paris, 1912, p. 1425). His conclusions favor
the preservative action of tobacco. It was
clearly shown that slightly moist tobacco was a
fatal germicide for the cholera bacillus; all
microbes die in it in 24 hours. The examination
of cigars made in Hamburg during the epidemic
showed that they were absolutely free from
bacilli. Wenck asserts also that cholera mic-
robes die in % hour, 1 hour, and 2 hours after
having been placed in contact with the smoke
of Brazilian, Sumatran and Havana tobacco.
The fumes of tobacco will besides kill in five
minutes the cholera microbes obtained from
saliva. Fullerton already quoted examined a
small number of mouths (74) in the Johns
Hopkins Hospital at Baltimore. Of those who
did not use tobacco in any form a larger per-
centage showed signs of dental caries and decay
of an advanced stage than in the case of tobacco
users. Similarly in the case of women who
never used tobacco ; and, although there was a

200

much greater care and cleansing of the teeth,
yet the percentage of decay and disease was
higher than in the case of men using tobacco.
Fullerton says, "The smoking or chewing of
tobacco is decidedly germicidal. Chewing, by
exercising the teeth, helps nutrition and elimi-
nates pathological agencies both by destroying
them in situ and by removing them in the ex-
pectoration." Rideal (already quoted) men-
tions that Dr. Burney, the senior medical officer
of Greenwich Hospital, London, asserts that
the tobacco smoking inmates of that institution
enjoyed comparative immunity from epidemics.
From these opinions and examples it seems
quite clear that whatever portions of the de-
composition products of tobacco reach the
mouth and mix with the saliva, or propagate
themselves in the immediate surroundings of the
smoker, are likely to have extremely good ef-
fects. It would be easy to multiply these
opinions but there is no use laboring the argu-
ment. There is a matter, however, it will do
no harm to mention here. Today it is being
gradually recognized by the medical profession
that the conditions which lead ultimately to gas-
tric and intestinal ulcer including appendicitis
are entirely due to infection. At the 1912 meet-
ing of the British Medical Association this was
clearly manifested and some of the leading

201

authorities in England pointed out the import-
ance of the mouth as a focus of infection in
such diseases. Now if this is so, it is at once
apparent how important tobacco as a mouth
disinfectant and germicide becomes ; and it may
incidentally throw some light (otherwise un-
explained) on the fact constantly observed that
in persons under 30 years old these diseases are
far more common amongst women than in the
case of men. The use of tobacco is not asserted
as a reason, but it may be.

With regard to other beneficial effects —
Clouston, Fullerton and Marvin, state that the
moderate use of tobacco has a beneficial effect
on the digestive system as in general it causes
an increased flow of saliva and gastric juice
which helps in the digestion of food; it also
stimulates the muscles and mucous membrane of
the stomach and intestines. The sedative effects
of tobacco on the nerves is a preventative of
nervous dyspepsia and is valuable for the pro-
motion of good digestion.

While much has been written on the effects
of excessive smoking on the nervous system little
has been said of the good effects of moderate
smoking. Every smoker realizes that the sooth-
ing effects of tobacco on the nerves is perhaps
its most valuable property. Clouston's opinion,
already quoted (and none could be better), is

202

that "tobacco exercises a soothing influence
when the nervous system is in anyway irritable ;
it tends to calm and continuous thinking."
Fullerton says, "It gives a composure and feel-
ing of well-being which are beneficial to mind
and body." Of these facts there can be no
doubt because they are matters of common daily
observation and experience. Most smokers find
a solace and quieting influence from their eve-
ning smoke after the worries of a troublesome
day which no other agent can give them. The
effect produced may be partly psychological
but that does not matter. Indeed the strenu-
ousness of life in the age in which we live seems
to demand such a help and nothing appears to
supply the want so efficiently, so pleasantly,
and with less harm, than a quiet smoke. It puts
the smoker at peace with himself and at peace
with others. Bush found in his investigations
on the mental effects of tobacco on college stu-
dents that there was a temporary loss of ten
per cent in mental efficiency in certain faculties
of the mind. This is probably true enough
though his results are not quite conclusive. On
the other hand many men find that they can
think more clearly and more consecutively when
helped by a smoke. Indeed they smoke when

they have a knotty problem to solve. The

I

203

point need not be argued; all smokers will
agree with it.

Judged from a psychological standpoint the
effects of tobacco are entirely favorable. To
the sleepless, the worried, to him who is troubled
in mind or vexed in spirit, the pipe or cigar is
a never-failing remedy to soothe and cheer. It
is the feeling of betterment which it engenders
and the spirit of good will which tobacco creates
that are responsible for its universal use by men
differing widely in grade and condition of life
as well as in mental caliber; it reaches the com-
mon springs which move humanity ; its qualities
are those which have made the pipe a symbol of
peace and a bond of fellowship and union be-
tween man and man from Pole to Pole.

From a general summing up of the opinions
which have been quoted the question might
finally be asked, "Is tobacco on the whole harm-
ful or beneficial to its users?" The answer
seems to be this: "Tobacco to the extent used
on the average has some slight injurious ef-
fects and some slight beneficial effects on the
physical system. It is an excellent preservative
agent against contagious and infectious disease.
Mentally its effects are overwhelmingly bene-
ficial." In every particular case a man must
judge for himself, taking account of his indi-

204

vidual idiosyncrasies and conditions whether the
use of tobacco is beneficial to him or otherwise.

REFERENCES

Lancet. London, 1906. Vol. I, p. 984. The
germ-destroying properties of tobacco.

ARNOLD, M. B. On the effects of the Exposure of
Tobacco Smoke on the growth of pathogenic
micro-organisms. Lancet. London, 1907. Vol.
I, p. 1220.

MURRAY, J. C. Smoking; when injurious, when
innocuous, when beneficial. London, 1871.

LEZARS, I. The use and abuse of Tobacco. Phila-
delphia, 1883.

205

CHAPTER XIX

MISCELLANEOUS

REVENUE, TAXATION, ETC., IN CONNECTION WITH

TOBACCO. FREE IMPORTS. DISEASES OF

TOBACCO. TOBACCO FLAVORS.

FORMULAE.

207

NOTES

The "per capita" consumption of tobacco
in the U. S. has increased from 1.6 Ibs. in 1863
to between 5 and 6 Ibs. at the present time.

At the present time the United states collects
about 70 million dollars annually from domestic
taxation on manufactured tobacco ; and, in ad-
dition, about 25 million in import duties. The
actual total income from tobacco in 1912 was
96 million dollars. For the fiscal year ending
June 30, 1913, tax was paid on the following
"withdrawn for consumption":

Cigars weighing more than 3 Ibs. per thous-
and, 7,699,037,543.

Cigars weighing less than 3 Ibs. per thousand,
1,033,778,160.

Cigarettes weighing more than 3 Ibs. per
thousand, 18,194,311.

Cigarettes weighing less than 3 Ibs. per
thousand, 14,276,771,160.

Snuff, Ibs., 33,209,488.

Tobacco, chewing and smoking, Ibs., 401,-
362,620.

In France, Spain, Austria, Italy and other
countries the government has a monopoly over
the manufacture and sale of tobacco products.

209

Purchase of leaf in the U. S. is made through
government agents.

The quantities of tobacco which may be im-
ported "free of duty" into European countries
is as follows:

Austro-Hungary — 12 cigars, 35 grams to-
bacco.

Belgium — None.

Bulgaria — 50 cigars, 50 cigarettes, 50 grams
tobacco.

Denmark — None.

Egypt — 25 cigars, 100 cigarettes, 200 grams
tobacco.

France — 30 cigars, 300 cigarettes.

Germany — Enough for immediate use.

Great Britain — 12 cigars, 20 cigarettes.

Holland — None.

Italy — 6 cigars, 15 cigarettes.

Norway — 100 cigars.

Portugal — None.

Russia — 100 cigars, 100 cigarettes, 100
grams tobacco.

Spain — None.

Sweden — None.

Turkey — None.

In U. S. 50 cigars and 300 cigarettes may be
imported free.

210

Small variations in the cost of manufacture
(including the cost of leaf), which do not ex-
ceed 10%, are usually borne by the manufac-
turer, and do not affect the price to the con-
sumer. But increase in taxation, either in-
ternal revenue or tariff, usually occasions a
diminution in consumption as it invariably in-
creases the cost.

THE DISEASES OF TOBACCO DUE TO INSECT
PESTS, ETC.

Tobacco, from the seed bed to the storage of
the manufactured products, is subject to at-
tack by insects, etc., and vigilance must at all
times be exercised to keep it free from such
harmful influences.

Only a few of the principal agencies attack-
ing tobacco will be mentioned here as the sub-
ject is of more interest to the specialist than to
the smoker. The growing plant is particularly
subject to Cut-worm disease and Horn- worm
disease. Cut-worms are the larvae of several
species of moths. They injure the young, ten-
der plant and feed on the leaves. Horn-worms
are the larvae of the Sphinx Moth. 2 or 3 will
ruin a plant in one day.

Stored tobacco is subject to many diseases.
Bud caperpillars, the leaf-miner or split-worm

211

and the Tobacco flea beetle are minute beetles
which attack it. Mosaic disease, Frog-eye or
Leaf-spot are probably bacterial diseases.

In addition, tobacco, particularly during the
curing process, is subject to pole-burn, pole-
sweat, or house-burn, stem-rot, white-vein, and
various forms of mould, all these being prob-
ably due to bacteria.

For additional information see:
U. S. DEFT. OF AGRICULTURE. Farmers' Bulle-
tin, 120.

HOWARD, L. 0. The principal insects affecting
the tobacco plant. Washington, D. C., 1900.
U. S. DEPT. OF AGRICULTURE. Bureau of
Entomology. Bulletin 65.

SPECKLED OF SPOTTED CIGARS
Many smokers of cigars have the idea that
there is some special virtue in a cigar that
shows specks or spots of discoloration in the
leaf. As a matter of fact such spots have
nothing whatever to do with the quality of the
tobacco. The occurrence of such spots is ac-
counted for differently. Some say the spots
are due to certain bacteria which attack the
leaf either when growing or fermenting and
this most probably is the correct view. Others
say that the spots are due to rain drops which,

212

sprinkled on the leaves, act as lenses and con-
centrate the rays of the sun, thus causing
a burning of the leaf in such spots. Some
think the spots are caused by a worm. On
account of the prejudice of smokers for
speckled cigars dealers have been known to
produce this appearance in the leaf artificially.
There are different methods although resort is
not often had at the present time to this prac-
tice as the belief in this sign is no longer as
prevalent as formerly. The following are ex-
amples of such cigar speckling preparation,
the chief ingredient being some active oxidiz-
ing agent:

Cigar speckling fluid:

(Method 1.) Powdered Ammonium Carbon-
ate and a concentrated solution of (H2 O2).

Dissolve one part of the Ammonium Carbon-
ate in 25 parts of the (H2 O2). Touch the
cigar with this in spots with the end of a
pointed stick. This gives the appearance of
speckled Sumatran leaf.

(Method 2.) The following method is said
to be used by a large firm :

Sodium Carbonate — 3 parts.

Chlorinated Lime — 1 part.

Mot Water— 8 parts.

Dissolve the washing soda in the hot water,
add the chlorinated lime, and heat to the boiling

213

point. When cool decant and cork tightly.
This is sprinkled over the tobacco. — From
American Druggest, Vol. 33, p. 328.

Specks are sometimes caused by fluids used
to destroy insects which attack the cigar after
manufacture.

TOBACCO FLAVORING ESSENCES

In the chapter treating of the manufacture
of smoking and chewing tobacco it was stated
that the tobacco leaf was often treated by cer-
tain flavoring essences. The following are
quoted as examples of such essences :

Cascarilla Bark — 1 ounce.

Fluid Extract Valerian — 1 ounce.

Tonka Bean — 2 drams.

English Rum — 3 ounces.

— From Pharmaceutical Era, V. 21, 1899,
p. 252.

The following essences are said to be used in
France and Germany:

(1) For every 1,000 kilos, of tobacco take
4 kilos, of purified potash; 5 kilos, table salt;
10 kilos, canella water; 10 kilos, rose water; 5
kilos, melilotte water; 2.8 grams tonka bean;
pulverized. Color the whole with 4 grams Eng-
lish red. Add when the tobacco is cut up.

(2) 12 kilos, soda; 4 kilos, salts of tartar;
10 kilos, canella water; 10 kilos, rose water; 5

214,

kilos, melilotte water; 2.8 grams tonka bean;
4 kilos, simple syrup ; 5 kilos. French brandy ;
6 kilos, red sandal wood. — From Pharmaceuti-
cal Era, V. 24, p. 67.

CIGAR FLAVORS

Although the best cigars are made from the
natural leaf and depend solely on its flavor and
aroma, in the inferior article manufacturers
sometimes resort to flavoring fluids.

The following examples of cigar flavoring
fluid formulae are taken from the Pharmaceuti-
cal Era, V. 24, p. 455 :

Formula 1.

Extr. Vanilla— % gal.

Alcohol and Jamaica Rum, — each, % gal.

Tinct. Valerian — 8 ounces.

Carraway Seed — 2 ounces.

English Valerian Root — 2 ounces.

Bitter Orange Peel — 2 ounces.

Tonka Bean — 4 drams.

Myrrh — 16 ounces.

Formula 8.

Valerianic Acid — 3 drams.
Acetic Ether — 40 minims.
Butyric Ether — 10 minims.
Alcohol — 4 pints.

215

Formula 3.

Fluid Extr. Valerian — 1 ounce.
Tinct. Tonka Bean — 8 ounces.
Alcohol — enough to make 16 ounces.

FORMULA TO IMPROVE THE BURNING QUALITIES
OF TOBACCO

2 Ibs. of Saltpeter.

Half gallon of Alcohol (100% proof).

1 gallon Port Wine.

9 gallons Lukewarm Water.

Mix these ingredients thoroughly together,
and add to every 100 Ibs. weight of tobacco.

OVERCOMING DESIRE FOR TOBACCO
(From The American Druggist, V. 51, 1908.)
Kalometzer (Bulletin Medical, 1907) states
that rinsing mouth with solution of silver
nitrate (% of 1% strength) will overcome the
desire.

PREVENTING INJURIOUS ACTION OF NICOTINE

A process for the treatment of tobacco
leaves preventing in a way injurious action of
nicotine and of acrid empyreumatic acid pro-
ducts, was devised some years ago by Professor
Gerold of Halle. His process is thus described :
He employs for 8 kilograms of tobacco leaves

216

containing the usual percentage of nicotine a
decoction prepared by boiling 15 grams of
tannic acid with 1% kilograms of water until
the weight is reduced to one kilogram ; then 30
grams of the essential oil of origanum vulgare
are added, after which the decoction is im-
mediately removed from the fire. Having stood
for some minutes the mixture is filtered and
allowed to cool to about 16° C., when the
preparation is ready to be spread over the
previously weighed tobacco. When the absorp-
tion of this mixture by the tobacco leaves is
completed, they are subjected to slight pres-
sure and moderate heat, after which they are
ready for the manufacture of the various to-
bacco products.

Tannic acid is a well-known antidote for
nicotine poisoning, and it is claimed for Gerold's
process that while the undistilled nicotine is
neutralized in its toxic qualities only by the
tannic acid, that this does not influence at all
its peculiar odor nor most of its other charac-
teristics.— From the Pharmaceutical Era, July
27, 1899, p. 144.

Havana cigars are generally better if smoked
fresh; domestic cigars are better if allowed to
age in the box several months before using.

217

Remember that the phosphorus or sulphur
of a match may spoil the flavor of a fine cigar.
Be careful when you are lighting it to use only
the edge of the match flame.

If the total number of cigars smoked an-
nually in the United States were placed end to
end they would encircle the whole world more
than twenty times.

218

INDEX

Air Curing of Leaf 66

Amber 162

American Production of Tobacco Other Than in

U. S 35

Analysis of Tobacco 55

Asia, Production of Tobacco in 31

Bacterial Diseases, Effects of Tobacco on ... 197

Blends of Tobacco, How Made 78

Briar Root 158

Cancer and Tobacco 180

Chemical Constituents of Tobacco 55

Chewing Tobaccos 128

Cigar and Cigarette Holders, Value of .... 191

Cigar Business in U. S 96

Cigar Flavors 215

Cigar Leaf Tobacco Grown in U. S 119

Cigarette Paper 139

Cigarette Smoking, Criticisms of 140

Cigarettes, American 138

Cigarettes, Kinds of 134

Cigarettes, Nicotine in Smoke of 187

Cigarettes, Statistics 133

Cigarettes, Turkish 135

Cigarettes, Turkish, Manufactured in the U. S. . 137

Cigars, Classification of 104

Cigars, Composition of 113

Cigars, Desirable Qualities of 113

Cigars, Hand-made . 101

Cigars, History 95

Cigars, Imported Kinds, in U. S 114

Cigars, Machine-made 103

Cigars, Manufactured in U. S 117

Cigars, Speckles or Spots on 212

219

Cigars, Statistics of Production and Consumption in

U. S 96

Cigars, Various Terms Regarding 107

Coloring Meerschaum Pipes 169

Consumption of Tobacco in U. S 92

Cuban Cigar Leaf 118

Cuban Tobacco 35

Curing of Tobacco Leaf 63

Digestive System and Use of Tobacco .... 202

Diseases of Tobacco Leaf 211

Disinfecting Action of Tobacco 199

East Indian Tobacco 38

Europe, Production of Tobacco 32

Exportation of Tobacco from U. S 91

Eyes and Use of Tobacco 189

Fermentation of Tobacco, Action of Microbes . . 81

Fermentation of Tobacco, Chemistry 80

Fermentation of Tobacco Leaf 79

Flavoring Essences 214

Flue Curing of Leaf 65

Hand-made Cigars 101

Havana Cigars 115

Holders for Cigars and Cigarettes, Value of . . 191

Infection, Value of Tobacco Smoking Against . . 197

Insects Affecting Tobacco Leaf 211

Life Insurance and Tobacco 188

Machine-made Cigars 103

Manufactured Products of Tobacco in U. S., Sta-
tistics 89

Meerschaum 155

Microbes, Action in Fermentation of Tobacco . . 81

Mind, Effects of Tobacco Smoking 202

Mouthpiece of Pipes, Importance 161

Nerves, Effect of Tobacco Smoking on .... 202

Nicotine 57

220

Nicotine, Amount in Tobacco Smoke . . . . . 183

Nicotine Contents of Tobaccos 185

Nicotine Effects on Human System 182

Open Fire Method of Curing Leaf 65

Packing of Tobacco Leaf for Market 69

Perique Tobacco 50, 125

Philippine Cigars 117

Pipe Smoking Tobaccos, Kinds of 124

Pipe Smoking Tobacco, Qualities of 123

Pipe Stem, Importance . . . . . . . . . 161

Pipes, Briar Root, Making of 159

Pipes, Care of 167

Pipes, History of 151

Pipes, Importation of, Into U. S 166

Pipes, Materials Used in Making 154

Pipes, Meerschaum, Coloring 169

Pipes, Meerschaum, Making of 156

Pipes, Special Kinds of 164

Plug Tobacco for Chewing 128

Potash, Importance in Tobacco 59

Psychological Effects of Tobacco Smoking ... 202

Rehandling of Tobacco Leaf 77

Revenue Derived from Tobacco 209

Shade Grown Tobacco 25

Smoke, Tobacco, Nicotine in 187

Snuff, Manufacture, Statistics and Kinds . . . 145

Soils, Influence on Quality of Tobacco .... 22
Suchsland's Experiments With Bacteria on Tobacco

Leaf 81

Sumatran Cigar Leaf 118

Teeth and Tobacco 201

Terms Used in Cigar Trade 107

Throat Diseases Due to Use of Tobacco .... 179

Tobacco, Analysis of Contents 55

Tobacco, Botanical Information 15

221

Tobacco, Burning Qualities of 216

Tobacco, Culture 21

Tobacco, Denicotianized 216

Tobacco, Effects of on Body 173

Tobacco, Exportation from U. S 91

Tobacco, Flavoring Essences 214

Tobacco, Free Importation in Different Countries . 210

Tobacco, History 18

Tobacco Leaf, Prices of 71

Tobacco Manufacturing Industry, Capital, etc. . . 89

Tobacco Plant, Varieties 16

Treatment of Leaf Before Manufacture .... 82

Turkish Tobacco 34

United States, Production of Tobacco .... 41

Varieties, Botanical of, Tobacco Plant .... 16

Varieties of American Grown Tobacco Leaf . 44, 46

Vulcanite, as Pipe Stem Material 163

Warehouse System of Sale of Tobacco Leaf . . 70

Water Pipes 165

Yellowing of Tobacco Leaf 27

222

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