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AUTHOR
THE
THE SNAKES. OF
SOU PE AFRIGA
THEIR VENOM
AND THE
TR BoA TM BNE
OF SNAKE BITE
hen ae a /
BY
F. W. FITZSIMONS, F.Z.S., F.R.MS.
Ere
NEW EDITION
T. MASKEW MILLER
CAPE TOWN & PRETORIA
LONGMANS, GREEN, AND CO.
39 PATERNOSTER ROW, LONDON
NEW YORK, BOMBAY, AND CALCUTTA
Igi2
[Copyright|
15 66795 Wnt |
BY THRE SAME AUTHOR
THE
MONKEY - FOLK] OF =s0UTH
AFRICA
PRICE 5s. NET
LONGMANS, GREEN, AND CO.
39, PATERNOSTER ROW, LONDON, E.C.
NEW YORK, BOMBAY, AND CALCUTTA
PRINTED BY WILLIAM CLOWES AND SONS, LIMITED
LONDON AND BECCLES
PREFACE
OUTSIDE the realm of science little is known about snakes, and
still less of their venom. The most innocent snakes are con-
founded with the most venomous.
Beyond a few isolated contributions to various journals,
there is no current literature on the snakes of South Africa,
their venom, and the treatment of snake bite. The Kafir and
Hottentot traditions and beliefs have been handed down and are
accepted as facts by Colonists, hence erroneous ideas and beliefs
prevail in regard to snakes, their venom, and the treatment of
snake bite, and in consequence large numbers of useful lives are
cut off annually—lives which, in the majority of cases, might
have been saved. I have met many people who have been more
or less invalided for life through the ignorant treatment applied
for snake bite. A man of my acquaintance, in Rhodesia, was
bitten on the hand by a venomous serpent. His friends immedi-
ately ligatured his arm in several places, poured two bottles
of whisky down his throat, and then belaboured him unmercifully
with sjamboks with the view of keeping him awake, the idea being
that, if he were allowed to sink into a state of coma, he would
die. The man was six months in hospital. His arm, owing to
the long-continued application of the ligature, became gan-
grenous and had to be amputated. The lining membrane of his
stomach was severely burned, and much of it irretrievably
destroyed by the strong sprit, and to-day this man is minus his
right arm, and is, moreover, an incurable dyspeptic.
Again, the scientist Fontana, nearly a hundred years ago,
conclusively proved that the outward and inward use of
ammonia, as well as injecting it direct into the veins, was
utterly useless as a curative agent for snake bite. Yet, from
that time to the present day, the belief in its antidotal power
in cases of snake bite has been and is well-nigh universal.
Vv
vi THE SNAKES OF SOUTH AFRICA.
Here in South Africa the native population for generations
past has had unquestioning faith in the antidotal effects of
a substance known as zibiba. This belief is also commonly
accepted among colonials. Yet this substance, when I sub-
jected it to a careful series of experiments, was proved to be
valueless as an antidote. In fact, it in no way even retarded
a fatal issue.
If the results of these experiments had been contributed to
a scientific publication only, this baseless belief would, perchance,
not have been contradicted for many years.
The same argument holds good in regard to the Boomslang,
which is a snake common all over South Africa, and which has
been universally regarded as non-venomous, or only to so slight
a degree as not in any way to be feared by man. If the results
of the experiments which disproved this belief had been confined
to a scientific journal or technical book, this popular belief would
not have been dissipated.
I have not enlarged upon the experiments which I have con-
ducted from time to time during many years past, except when
calculated to serve a useful end. Many experiments were under-
taken with a view of testing the accuracy or otherwise of asser-
tions made in regard to the venom of snakes, its nature and
effects.
The pioneers of investigation into the nature of snake
venom were Doctors Fayrer, Brunton, and Rogers, in India ;
and Dr. Weir-Mitchell, in America. On the foundation laid
down by these men, a number of scientists have been busily
building.
There is a strong tendency among specialists in the various
departments of zoology to create new species on altogether in-
adequate grounds. This is already leading to considerable
confusion, and will result in greater chaos in the future. The
slightest variation in a species seems sufficient for its separation
into a sub-species or a new species, little or no effort being made
to ascertain if the variation is constant.
In many lines of investigation I have found that the varia-
tions which have induced scientific men to create a new species
are by no means constant. I will give one instance in point.
The Simocephalus Genus of snake which was formerly repre-
sented by one species in South Africa was divided into two
PREFACE. vil
distinct species, because in one or two specimens certain head
scales and the ventrals differed in shape and number. S. capensis
is supposed to be distinguished by the “ frontal being a little
shorter than the parietals ; two postoculars ; ventrals 203-241.”
Simocephalus nyass@é is distinguished from the former by the
“ Frontal being much shorter than the perietals ; a single posto-
cular ; ventrals 171—-185.”’
I have found these characters are by no means constant.
In some specimens the postoculars and frontal agree with S.
capensis, while the number of ventrals agree with those of the
other species, and visa versa. I have at this moment a specimen
five feet two inches long before me, which has one postocular and
210 ventrals. The frontal is very much shorter than the parietals.
It will then be noticed that while the number of ventrals indicate
that it is S. capensis, the other characters point to it being S.
" nyasse.
This volume is the outcome of many years of practical study
of the snakes of South Africa, in their haunts, in captivity, and
a long series of experiments with their venom.
The majority of the illustrations are from direct photcgraphs
of living snakes, and specially prepared anatomical preparations.
If I should succeed in arousing an increased interest in this
branch of Nature Study and in stimulating others to enlarge
upon the knowledge collected, my object in writing this book
will be fully attained.
THE AUTHOR.
Port Elizabeth Museum,
Jan., 1912.
PREPATORY NOTE
OnE of the great obstacles to a popular study of Natural History
in a comparatively new country is the absence of books specially
devoted to the forms of life one encounters. The naturalist in
the older countries of Europe and in the United States, whether
he be on land or by the sea, whether interested in birds, reptiles,
fishes, shells or insects, has ready at hand popular works,
beautifully illustrated, describing all the forms he is likely to
collect. From these he readily attains the satisfaction of identify-
ing his specimen, and then learns something of their habits and
structure, and thereby becomes stimulated to further endeavour.
In newer countries such knowledge, even if available, is in such
a form as to be of assistance only to the specialist, not to the ordi-
nary observer with but a general interest in the forms of life
around him.
The reason for this is not far to seek. In the newer country
nature students are few, pioneering work has to be done by them
in the technical description of the many new forms encountered,
or the trained investigator is obliged by force of circumstances
or from a sense of duty to devote his abilities to the many pressing
questions of practical and economic importance. The more
human, cultural side of natural history comes with the maturity
of a country, and flourishes only where some of its followers reach
the stage of leisured reading.
The difference is strongly enforced when one endeavours to
introduce the study of nature into schools. In the older countries
a crowd of writers at once begin to adapt the facts of nature to
the intelligence of the young and to provide the teacher with
material arranged in suitable form. A school literature of
natural history becomes available. In the newer countries the
teacher is at once faced with the difficulty of an absence of the
raw material of facts, and unless capable of supplying this from
his own iraining and experience, can make no progress. Before
1X
x THE SNAKES OF SOUTH AFRICA.
much advance can be made the specialist student of Nature
must have contributed his share.
It is considerations like the above which lead one to view with
satisfaction the production of such a work as the present, devoted
to the popularization of a group of animals familiar, unfortunately
at times too familiar, to all in South Africa. For years the writer
has made a special study of snakes, their habits and instincts, and
has done much to popularize a rational interest in them and other
groups of animals; indeed, it may truly be said that no one in
South Africa has within recent years more successfully laboured
to bring the facts of Nature in an attractive form before a people
naturally responsive to them. It is much to be hoped that the
book will succeed in stimulating a still wider and more intelligent
interest in this special group of animals, and also give encourage-
ment to the production of further works devoted to other groups
These will then serve as so many means for introducing Nature
knowledge to the rising generation in an attractive form, as
well as for supplementing the experience already gained by
those of more mature age.
J. E. DUERDEN.
Rhodes College, Grahamstown,
Cape Colony.
NOTE.
SoutH AFRICA, in a zoological sense, is that portion of Africa
south of the Zambesi and Cunene rivers. It is true that the
boundary is a very artificial one, but it is convenient, and serves
a good and useful purpose. Great numbers of the species of
living creatures which inhabit various parts of South Africa also
occur further north.
The distribution of each species of snake mentioned in this
volume is given so far as it is at present known. We are con-
stantly adding fresh localities to species of snakes. Because a
snake is not recorded as occurring in any given place, it must
not be assumed that it does not occur there. There are a great
many portions of South Africa which remain well-nigh unex-
plored from a zoological point of view. Since the publication
of the first edition of this volume, many new localities for snakes,
and several new species, have been discovered. People who are
resident in the wilder parts of South Africa can do much to further
our knowledge of the distribution of South African snakes
by placing collections of them in spirit and forwarding them to
one of the public museums of the country. The Government
permits all specimens for the museums in South Africa to be
carried free by rail or post.
The nomenclature in this volume is according to the cata-
logue of snakes in the British Museum, compiled by that well-
known authority G. A. Boulenger.
It is also from this source I obtained the scientific descrip-
tions of the Genera and Species which are, in the majority of
cases, copied verbatim.
In giving the lengths of the various species of snakes, a general
average of those measured has been taken. It is not claimed
that the measurements given are the maximum lengths attain-
able by any of the South African snakes. Snakes of the same
x1
xil THE SNAKES OF SOUTH AFRICA.
species differ materially in coloration and length in the different
parts of South Africa, especially so where climatic and other
conditions are largely dissimilar.
The first edition of this book was hurriedly written up from
my notes, at a time when I was busy also with many depart-
ments of other work, and for that reason I crave the indulgence
of critics for a necessarily immature product.
But this first edition has now been carefully revised, extensively
altered, and enlarged, and the results of later experiments and
experiences added, as well as a considerable number of illustra-
tions of value.
The Author and Publisher wish to acknowledge gratefully
their obligations to the following: The British Museum (Natural
History), Authorities for the use of blocks from the British
Museum, Catalogue of Snakes, also for Mr. Boulenger’s classifica-
tion of Snakes from the same source; Messrs. Blackie for the
use of certain illustrations from their Physiology; Sir Ray
Lankester and Messrs. Constable and Company, Ltd., London ;
Messrs. F. W. Warne & Co., for kindly allowing the use of
illustrations from their ‘“‘ Royal Natural History’; Messrs.
Funk & Wagnall for diagrams; Messrs. Harmsworth; Prof.
Seeley for his pictures ‘‘ Dragons of the Air”; Messrs.
Harmsworth, for illustrations from their ‘“‘ Natural History,”
and “‘ Children’s Encyclopeedia.”’
CONFENTS.
CHAPTER I.
PAGE
Classification and Evolution of Snakes . : g 3 : . I-II
CHAPTER II.
History, Distribution, and General Habits of Snakes ; : 12-49
CHAPTER III.
The Blind Burrowing Snakes (Typhlops and Glauconia). List of the
South African species, habits, colouration, average length, and
distribution. The South African Pythons, their life history,
description, and various anecdotes . : é 50-79
CHAPTER IV.
The Aglypha, or Solid-toothed non-venomous snakes. List of the
South African species, their habits, colouration, average length
and distribution . ; c . . : 3 : 80-114
CHAPTER V.
Opisthoglypha or Back-fanged snakes, all of which are venomous.
These snakes are in the transition stage of fang and poison gland
development. List of the South African species, habits, coloura-
tion, average length and distribution ‘ A : : II5—-155
CHAPTER VI.
The Proteroglypha or Front-fanged typically venomous snakes of the
Hydrophine and Elapine Sub-families, viz. the Sea Snakes,
Cobras, Mambas, Coral Snakes, Garter Snakes, etc. List of the
South African species, habits, colouration, Seer length and
distribution : ‘ F F 156-212
CHAPTER VII.
The Solenoglypha section of the Proteroglypha or Front-fanged
venomous snakes, viz. the Adders and Vipers—Family Viperide.
List of the South African species, their habits, colouration,
average length and distribution F : 213-245
Xili
XIV THE SNAKES OF SOUTH AFRICA.
PAGE
CHARTER Lit
Snake Charmers. A Port Elizabeth Snake Catcher. Can snakes
fascinate their prey ? What really happens. Heroism of birds.
Wrong conclusions. Captive snakes and birds. Paralyzed
with fear. Hypnotism. Advice to Campers Out. Horse hair
ropes. Snakes and their mates. Catching live snakes. How
to collect and preserve snakes. Kafir superstitions. An
exciting incident. Feeding snakes on liveanimals . : 246-282
CHARTER eile.
HuMAN PHYSIOLOGY.
The brain and nervous system. The blood and how itis made. The
science of health. A self-acting pump. Elixir of life. How we
poison our blood. White corpuscles that eat up disease
microbes. The Lymph and Lymphatics. How venom gets into
the blood ; : ‘ ; - : Z 283-308
CHAPTER X.
ALLEGED SNAKE BITE CURES.
Results of experiments with a large number of so-called antidotes 309-341
CHAPTER:
Poison apparatus of snakes. Snake venom, its nature and effects 342-381
CHAPTER XII.
The Scientific treatment of snake bite. Permanganate of Potash.
Results of Experiments. Serum Treatment . : >. 382—437
CHAPTER XIIT.
Latest Systematic List of South African Snakes for the use of
Museum Curators and Scientific Students. By Dr. G. A.
Boulenger, F.R.S., V.P.Z.S., of the British Museum . » 439-460
CHAPTER XIV.
Items of Snake Knowledge. Miscellaneous Information - 461-478
Index . : F : : : : : : : : 535
> |
ADDENDA.
A. EXPERIMENTS AT THE GOVERNMENT VETERINARY RESEARCH dl
LABORATORIES, PRETORIA . : - - : : 5 Altsii
B. VENOM OF THE SCHAAPSTEKER ‘ 3 : : : . 484
C. More ABouT RINGHALS . : F : : ‘ : . 488
D. A BooMSLANG BITE : ‘ , : : ‘ F - 490
E. THE ISOLATION OF MADAGASCAR AND AUSTRALIA . C 7 402%
F. Potency oF MAMBA VENOM . c : : : ; - 494
G. ANAPHYLAXIS : : : : 2 : F : 7) 407)
H. INTRAVENOUS VERSUS SUBCUTANEOUS INJECTION OF SERUM - 500
I. THE SALINE SOLUTION. AN EMERGENCY MEASURE . ; 502
J. InyJEctTING AMMONIA FOR SNAKE BITE . : : : - 504
K. Wuy Do SNAKES’ Fancs DIFFER IN LENGTH ? EXPERIMENTS . 509
L. ITEMS oF SNAKE KNOWLEDGE : : : : ; . 510
IELUSFRATIONS IN -ADDERND ES
A. Python . : : J - 82
B. Boomslangs in cage ait Pact Elizabeth Nisei ; 2 eA Os
C. Schaapsteker’s head and fangs : ; : : : . 488
D. A handful of Schaapstekers . : : : : - Or
E. Homalosoma snake and young 5 3 : . : - 493
F, Ringhals Cobra shamming death . : : - 495
G. Ringhals Cobra with hood expanded and epeenafede : 7 2498
H. Ringhals Cobra rearing, showing side and back view : a5 0L
I. Boomslang inflating its throat : : . : é - 503
J. a with body inflated . : : j ; ; . 505
K. a and its eggs . F ‘ 507
1s 7 showing close view of inflated feck saa body 3 oo jLE
M. Egg-eating snake and eggs : 3 5 - : : Se te!
xV
XVi THE SNAKES OF SOUTH AFRICA.
N. Herald or Red-lipped snake after swallowing a large toad . ; ‘315
O. Ringhals Cobra with eggs - : : : ; : 2 556
P. Feeding a Puff Adder with meat. : : ‘ : epee ly,
Q. A remarkable Cape Cobra c ; : Be nls:
R. A young Cape Cobra, showing dark ane Pate 5 : oe LO
S. Claws and bones of the rudimentary hind legs of pythons . <- §200
T. (1) Olive-black House snake . : é : : 2 Ae ay
T. (2) Ditto : : ; : ; : AP eG py
U. ~~ Puff Adder in Ae: of gialng : E : ; ; i e523
We Blind Burrowing snake : ; : ; : - 524
W. = Snipping off the fangs of a Puff Aaner : : : : 525
X. Skulls of snakes ; : 3 ; 4 . 526
Y. (1) Collecting venom from a Putt Rader ; ; : : es 7/
Sien(2) ditto : : ; : : : : ‘ .* 528
‘Y¥.1(3) ditto : : ; : ‘ : : - 529
Y. (4) Feeding a Puff Rader : : : : : : . 530
Y. (5) A cannibal Puff Adder : 4 é : : : 5 5B
Z. Catching snakes on the veld . : : : - 532
THE
SNAKES OF SOUTH AFRICA.
CHAPPER Ss.
CLASSIFICATION.
SNAKES belong to the great class of living creatures known as
reptiles, which include all the living orders of crocodiles, turtles,
tortoises, and lizards. The frog and salamander orders are,
generally speaking, also reptiles, but owing to certain important
differences in their anatomy they are separated into a class
called Amphibia, from the Greek word Amphibios, which
means “‘ leading a double life,’ because these creatures live both
on land and in water.
All living creatures are classified into classes, orders, sub-orders,
genera, and species, according to their anatomy. All creatures
of the same species are practically identical, not only in their
anatomy, but also in their colouration and habits. If a species,
owing to various circumstances, such as a difference in food,
climate, the presence or absence of enemies, etc., should become
slightly modified in colouration or structure, we term it a variety,
or sub-species. For instance, our well-known Bushbuck (Tvage-
laphus) has been divided into several sub-species, because it is
found to differ slightly in colour and shape in the various districts
of South Africa.
The Boomslangs, or Tree Snakes (Dispholidus), are in every
case anatomically similar, but differ considerably in their coloura-
tion, even in the same districts. They are separated into six
varieties, so in describing them we refer to them as variety A,
variety B, and so on.
B
2 THE SNAKES OF SOUTH AFRICA.
WHAT CLASSIFICATION MEANS.
To give a clearer idea of what we mean by classification, we
will take the Boomslang or Tree Snake as an example. We will
assume it is the first time I have seen or heard of a Boomslang.
I know at a glance it belongs to the Ophidia or snake order. I
examine its teeth and discover it possesses a set of grooved
teeth longer than the rest, set a good way back in the upper jaw,
therefore I know it belongs to the division of snakes known as the
Opisthoglypha, which means snakes with hind fangs. Then I
count the number of the upper and lower teeth and note the
shape and number of the shields on the head, and reckon the
number of rows of scales round the body. After examining
the shape of the head and body, its colouration, etc., I identify
it and classify it as follows :—
ORDER: Ophidia.
Division : Opisthoglypha.
FamiLy: Colubride.
SuB-FAMILY : Dipsadomorphine.
GrENus: Dispholidus.
Species: Dispholidus typus.
COMMON NAME: Boomslang or Tree Snake.
DISTRIBUTION : Tropical and South Africa.
When any new thing, whether a microbe or a large creature,
is discovered, it is carefully examined and classified immediately.
Without this system of classification it would be impossible to —
make any progress in science. In every department of human
activity, classification is necessary. If you went into a museum
and wanted to find a certain flesh-eating animal—a Leopard or
a Mungoose, for instance—you would not look for it among the
hoofed animals or the fishes. You would expect to find it among
the group of creatures classified as Carnivora.
A synonym in natural history means a scientific name, as of
a genus or a species, superseded or discarded, as by the law of
priority.
When any new creature is discovered, it is given a scientific
name, and recorded.
The latest recognized scientific name for the Boomslang is
Dispholidus typus, but in 1832 it was known as Dispholidus
lalandii ; in 1837, as Dendrophis colubrina; in 1841, as
EVOLUTION OF BIRDS. 3
Bucephalus capensis ; in 1849, as Dendrophis pseudodipsas ; and
Dispholidus typus is the name by which it is now known. The
others are synonyms.
THE EVOLUTION OF BIRDs.
The birds of the present day do not seem to have anything
in common with reptiles, and it would seem absurd to think they
have evolved from such dissimilar creatures. However, it is
generally believed that their remote ancestors were reptiles,
because men of science have found the fossil remains of birds in
various strata of rocks, which show them in the transition stages,
half reptile and half bird. So close is the relationship between
reptiles and birds that the late Professor Huxley says, ‘‘ Birds
can be aptly termed modified reptiles.”’
Snakes can therefore claim relationship with our beautiful
feathered friends.
It would seem, that, many millions of years ago, some kinds
of reptiles, owing doubtless to changes in their surroundings
which made it difficult to procure a sufficiency of food, and being
beset by enemies, were modified in their structure according to
the great law which Darwin called the ‘‘ Law of the Survival of
the Fittest.” As the long ages rolled past, these reptiles slowly
but surely evolved into birds with feathers. Everything upon
this earth seems to be subject to a great law of the Creator, which
we term evolution. Even in the study of the science of Astro-
nomy we find this great law at work. In everything upon this
little speck we call Earth, as well as in the mighty Universe, it
is quite apparent there is an intelligent, all-powerful Force or
Will at the back, that great mysterious power—God the Creator.
It is not for us to lay down dogmatically and ignorantly the law
as to how the mighty Creator should or should not create what
we see around us here, and in the heavens, by means of our
physical senses.
EVOLUTION OF REPTILES.
Reptiles came into existence upon this earth long ages before
the birds and mammals, which are both highly-evolved creatures,
warm-blooded and possessing more highly specialized organs,
4 THE SNAKES OF SOUTH AFRICA.
nervous systems and brains than the reptiles. In the very early
strata of sedimentary rocks, dating back millions of years ago,
and known in science as the Ordovician System, we find the fossil
remains of very low forms of backboneless creatures, such as
worms, jelly-fish, molluscs, etc. Then, as we ascend into the
strata of rocks known as the Silurian System, we find more
highly-evolved creatures, such as fish without bony backbones,
Fic. 1.—These are Flying Reptiles—the ancestors of birds. They lived millions of years ago.
Their fossil remains have been found preserved in the oolitic rocks. Some of them measured
18 feet across the expanded wings. (From ‘‘ Extinct Animals ’”’ by Sir Ray Lankester.
Messrs. Constable & Co., London.)
or backbones composed of cartilaginous matter. These are
known as the Silurian fishes, of which our present-day Shark
Family is an example.
As we slowly ascend we find the fishes gradually becoming
more highly developed or specialized ; and when we reach what
is known as the Devonian System, or, in other words, the time
in the earth’s history many millions of years ago when the old
Red Sandstone was deposited as sediment and formed into hard
rock, we discover the higher order of scaled fishes with real true
backbones of hard bony matter. These were the first to evolve
into what we term vertebrata, z.e. forms of life with backbones.
EVOLUTION OF REPTILES. 5
Their ancestors were backboneless, but were slowly evolving
a bony structure. We find, too, in the Silurian period
already referred to that the creatures we call Silurian fish
abounded, and that these fish were the link between the true
mailed or scaled fishes with backbones and their more remote
ancestors of the Ordovician Epoch.
Later we find some of the denizens of the ocean beginning to
take to land and develop-
ing reptile characteristics,
and throughout that vast
period of time, known as
the Carboniferous Period,
when what is now coal was
living vegetation upon the
surface of the Earth, the
reptiles were slowly but
surely evolving from Am-
phibians to true reptiles
of a higher order. When
we come to the Mesozoic
Period we find fossil re-
mains in more or less pro-
fusion of great dragon-like
reptiles, some of which were
Fic. 2.—The fossil remains of a real bird known as
nearly a hundred feet long. the Lizard-tailed bird or Archgopteryx. It was
4 found in the Solenhofen limestone of Bavaria.
These fossil remains have This strata of rock dates back to the Jurassic
Period. This means that this bird lived on the
been put together, and surface of the world millions of yearsago. This
2 is a more recent creature than the Flying Rep-
are now to be seen in tiles, having doubtless evolved from them.
The Archeopteryx was feathered. The back-
some of the great mu- bone, however, does not terminate at the root
: of the tail like the birds of to-day, but extends
stums i1n Europe and the entire length, the feathers jutting out at the
America sides, From specimen in Berlin Museum.
As we ascend to the Mesozoic Period into the Tertiary Period,
we find these great reptilian creatures showing signs of change
and becoming more like true mammals in shape. During this
Epoch we find the first fossil remains of true mammals, viz. the
Ariinoitherium, Dinoceras, Tetrabelodon, Three-toed Horse, and
others. Ascending higher into the most recent strata known as
the Pliocene, we find the fossil remains of such animals as the
Mastodon, Woolly Rhinoceros, Irish Deer, Giant Sloth, and Mam-
moth, the immediate descendants of which are now living upon
some of their
THE SNAKES OF SOUTH AFRICA.
These creatures will, however, not be replaced by higher
the surface of our Earth. As the ages roll on many of the species
of animals now living will in turn become extinct ;
remains will be covered up and serve as evidence to future races
of men.
(‘haja9ag 497{P)
(‘azis “Jeu YUeAVS-9UQ) ‘oIsseanf{ oy} []BO aM YOTAM ATOYSIY S,p[TOM oq} UL ported ay} 3utmnp poysodap sea ajze[s sIyL
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forms of their kind, for man will eventually overrun the whole
of the habitable earth, and all of the large fauna will either
become extinct or be domesticated for man’s use or pleasure.
EVOLUTION OF REPTILES.
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(‘daq2ag 404)
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UOT} OY} UO 90} Y}INOF dy} JO JUaUIdoJeAap SNOpusuUter} ey} A}0N “aInjord snoyaoid ay} UT UMoYs afydey surépy ay} Jo uoyajays ay .—'S “914
THE SNAKES OF SOUTH AFRICA.
EVOLUTION OF REPTILES. 9
RELATIVE LENGTHS OF EPOCHS.
TERTIARY. 1600 ft.
CRETACEOUS, 2500 ft.
JURASSIC, 5000 ft.
TRIASSIC, 3000 ft.
PERMIAN, 1500 ft.
CARBONIFEROUS.
12,000 ft.
DEVONIAN. 4000 ft.
SILURIAN,
7000 ft.
ORDOVICIAN,
15,000 ft.
CAMBRIAN,
12,000 ft.
ARCHAZAN OR
PRE-CAMBRIAN,
Extent unknown.
PLATE II. This diagram gives a rough
idea of the crust of the earth. The section
named Pre-Cambrian is partly composed of
the igneous fire-formed rocks. This is the
base or bottom strata. Below this is white-
hot liquid lava.
The Cambrian is stratified rock. It was
formed after the earth was cool enough for
the gases in the air to condense and fall as
water on the earth. This water formed the
oceans. Stratified, or in other words Sedi-
mentary Rocks, are made by Sand, Silt, Ooze,
etc., falling to the bottoms of oceans, lakes,
and rivers. In this Cambrian formation we
find the first forms of organic life, such as
the very lowest types of ocean creatures.
There is no trace of vegetation, fish, reptile,
bird, or animal life.
As we enter the Ordovician, we find fossil
remains of Marine Scorpions, Crabs, and other
Crustaceans, but no fish or land life.
Proceeding to the Silurian, we come across
traces of higher forms of ocean life, such as
the Silurian Fishes. As we emerge into the
Devonian we discover fossil remains in
abundance of the higher scaled fishes, with
true backbones and hard skeletons. Still
proceeding upward, we enter the great Car-
boniferous Period. It was during this Epoch
that the surface of the land was covered with
a vast growth of rapidly-growing vegetation
of fern-like and mossy nature.
All vegetation grew with fungus-like
rapidity, without any periods of rest, for
there were no alternate hot and cold seasons
then. The earth itself and the waters were
warm and steaming; the air was charged
with warm water vapour.
This vegetation lived, died, formed thick
layers, and to-day we dig it up as coal and
burn it. It represents so much stored-up
heat, energy, and sunshine. This is how the
all-wise Creator provided for our needs.
During the Carboniferous Period, the first
land animals began to evolve in the shape of
Amphibians, which developed later into true
reptiles.
As we pass upward through the other
layers to the Earth’s surface, we find reptiles
gradually evolving into warm - blooded
animals, such as birds and mammals.
The most recent life upon our world is
Man, the Masterpiece. He is the latest pro-
duction, and the highest. To-day he is very
lowly in comparison to what he will be in ages
to come.
It must be clearly understood the various
stratified rocks do not now lie evenly over one
another all over the earth. They are more
or less broken, tilted, cracked, and upheaved
by the intrusion and pressure of molten rock
from below, and the natural shrinkage due to
the progressive cooling of the Earth’s crust.
THE SNAKES OF SOUTH AFRICA.
IO
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asoq} JO SUTeWar [ISSO
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d shozajuoqied oy} sulinp odeospur] [eepl UY—"9g “OI
REPTILES LIVING AND EXTINCT.
?
know, there have been nine great orders of
As far as we
reptiles, five of which are e
existing.
xtinct, leaving only four orders still
REPTILES LIVING AND EXTINCT. II
) Crocodiles.
2) Dinosaurs (extinct).
) Flying Dragons (extinct).
) Tortoises and Turtles.
) Pleisosaurians (extinct).
) Lizards and Snakes.
) Fish-lizards (extinct).
) Beaked Lizards or Tuateras.
(9) Mammal-like Reptiles (extinct).
The beaked Lizards or Tuateras are extinct, with the exception
of one solitary species (Sphenodon punctatum) which inhabits
New Zealand. These lizards grow to the length of two and a
half feet, and can claim to be the last survivors of the race.
CHAP R=.
HISTORY AND DISTRIBUTION OF SNAKES.
ACCORDING to the history of the stratified rocks of the Earth,
and the countless number of fossil remains of animal and vege-
table life which are treasured up within their substance, men of
science believe that living creatures existed upon this earth
millions of years ago.
Fossil remains of snakes have been found in the later Cre-
taceous and early Tertiary periods in the world’s history.
The fossil remains of a snake twelve feet long, of the Python
family, was unearthed at Stepney. Remains of extinct speci-
mens of Boa Constrictors twenty feet in length were found at
Bracklesham. The backbones are perfect. They belong to the
fossil genus Palgophis. In later deposits during the Tertiary
Epoch, fossil remains of a venomous snake were discovered.
In the lower Tertiary deposits of North America, the fossil
remains of great numbers of snakes have been found.
In the Western States of America the remains of different
species of Boa Constrictors and other kinds of snakes have been
found in the freshwater Eocene deposits.
Fossil snakes have also been found in the Tertiary deposits
of India. Portions of the backbone and head of an extinct
species of Python (Gigantophis garstini) have been dugup. From
the size of the fossil remains it is estimated this species of Python
attained a length of fifty to sixty feet, which is the largest serpent
so far known.
The Cretaceous strata of rocks, when not pushed up by volcanic
eruptions, etc., are at a distance of about 2600 feet below the
Earth’s surface. Their age can be roughly estimated at about two
and a half millions of years. This means that it is over two
millions of years ago since these rocks were deposited as mud and
ooze, at the bottoms of rivers, lakes, and oceans. In the rock
HISTORY AND DISTRIBUTION. 13
strata below the Cretaceous we find no traces of fossil snakes,
so we naturally conclude snakes were evolved from reptiles with
legs about this period, or Epoch, in the history of the Earth.
From Cretaceous times up to the present, snakes have evi-
dently been on the increase, not only in numbers, but species
judging by the comparatively few fossil snakes found. There
are at present about 1500 species or kinds of snakes scattered
over all the countries of the world, with the exception of New
Zealand, where they have never been known to exist. Snakes
are most abundant in the tropical and semi-tropical portions of
the globe, in districts where forests and rank vegetation abound,
for it is there they find an abundance of food and suitable shelter,
as well as the necessary warmth to quicken their sluggish vital
forces.
Extinct species of snakes of the Cobra family have been found
in the Lower Miocene in Germany. Others of non-venomous
species have also been discovered in the same formation. In
Turkey and America fossil remains of snakes of the Crotaline
sub-family have been unearthed.
SNAKES AND LIZARDS.
In outward appearance the limbless lizards resemble snakes
in possessing tapering snake-like bodies, and being destitute of
legs. Nobody would mistake a lizard with legs for a snake,
but to those people who have not made a study of the anatomy
of snakes and lizards, those lizards which are destitute of legs are
invariably mistaken for snakes.
The general appearance of any ordinary snake is such that
any one of average intelligence will immediately recognize it as
a snake. There are, however, families of snakes known as the
Typhlopiude and Glauconiide, which are very worm-like in
appearance, and might easily be mistaken for legless lizards or
worms. In fact, the older naturalists classified them as lizards.
Snakes differ from lizards in the following ways :—
(1) The two parts of the lower jaw are attached in front by
elastic ligaments, permitting the separation of the two halves of
the lower jaw, for the purpose of permitting large prey to be
swallowed. In the lizards these bones are solidly united in
front.
14 THE SNAKES OF SOUTH AFRICA.
(2) The upper jaw and palate in the vast majority of snakes
are more or less movable, which, with the distensible lower jaw,
allows the snake to swallow comparatively large prey.
(3) The tongue can be completely withdrawn into a sheath
in the mouth.
(4) The presence of additional articulations to the vertebre.
(5) Nosnakes possess movable eyelids. There is a fixed trans-
parent scale over the eye.
(6) Snakes have no external opening to the ear.
Eves, Ears, AND TONGUES OF SNAKES.
Snakes have no eyelids. The eye is protected in front by a
transparent scale, in appearance like a watch-glass, which is
firmly attached to the surrounding scales of the skin. The eye
is thus protected from all external injury, unless, of course, this
window pane gets broken. The eyes themselves are movable to
a limited extent. Little glands secrete tears, which are for the
purpose of lubricating the eyes, the fluid being drained off into
the cavities of the nose by two little channels or ducts. Odd-
coloured eyes are sometimes seen in snakes. This is particularly
noticeable in the house snakes (Boodon).
The ears of snakes have no external opening, but beneath the
skin is an intricate mechanism which registers the sound-vibra-
tions and conveys them to the brain ; and in spite of having no
external ear openings, snakes have very fair hearing. They hear
mainly by vibrations carried through some solid substance such
as the ground. Sharp, high-keyed sounds have an exciting effect
upon snakes. The tongue of a snake is black, except towards
the root portion, which is flesh colour. It is bifid, which means
forked. The tongue is exceedingly sensitive, and is used mainly
as a feeler. It is quite innocent of any “stinging ’’ powers.
When at rest it is contracted, and withdrawn into a sheath in
the centre of the lower jaw.
A day or two previous to the skin-shedding process, the eye
scales become opaque, and the snake is temporarily blind, but
can find its way about fairly well by means of its very sensitive
tongue. I have satisfied myself of this on many occasions, by
observing captive snakes. At these times when touched, snakes
THE ANIMAL LADDER. OF
Gee
ee eee =
Fic. 7.—1. The Animal Ladder of Life, showing the gradual development of ocean life to Amphibians, *
reptiles, birds, and mammals (Children’s Encyclopedia). When the creatures of the ocean began to
take to land habits, it seems they divided into two great branches. One branch evolved the Mammals
such as the Kangaroos, Antelopes, and Apes. Mammals are creatures which are warm-blooded
and suckle their young. The other branch evolved on from Amphibians to Crocodiles, Turtles,
Lizards, Snakes, and lastly birds. af
2. This is acommon South African Lizard, which has lost its legs. It has two tiny rudimentary front legs.
The back legs have vanished. On dissection, the pelvis only isfound. This lizard is in the inter-
mediary stage of development between a lizard and asnake. There is another common South
African Lizard (Acontias meleagris), which burrows in the ground. It has lost all vestiges of legs, but
has a rudimentary pelvis, shoulder girdle, and movable eyelids, so it is still called a Lizard.
16 THE SNAKES OF SOUTH AFRICA.
lunge out wildly with gaping jaws, but owing to their semi-blind
condition their aim is not accurate.
When molested, a snake darts out and vibrates its tongue,
evidently with the purpose of intimidating its enemy.
CHANGING THE SKIN.
Snakes change their skins several times a year before reaching
the adult state. Adult snakes usually only change their skins
once, sometimes twice during a season, sometimes only once in
two seasons. At least, this is so in captivity, as I have had ample
opportunity of ascertaining. The first skin-shedding process
takes place a few days after birth.
Fic. 8.—Cast skin of head and neck of snake. Note inverted eye scales, like watch glasses
with concave side uppermost.
The shedding or casting of the old skin begins at the lips.
The skin around the mouth curls up, and by pushing itself against
twigs, crawling through tufts of grass, etc., the snake gradually
draws itself right out of its skin. This comes off inside out, like
a tight glove being pulled off the hand from the wrist portion.
The cast skin is often perfect, without a crack, tear, or loss of
a single scale—even the transparent eye scales come away. The
main reason why snakes cast their skins is to provide for increased
growth. The skin of a snake does not grow with the growth of
the body, as is the case with warm-blooded animals. So, when it
CHANGING THE SKIN. 17
begins to get too tight, it is discarded. In the case of adult
snakes, it is thrown off when it gets shabby, dirty, and injured.
Naturally before the old skin is shed, a new skin has formed
beneath, and the snake on emerging from its old covering looks
clean, silky and bright, the markings and colours showing up to
perfection. The new skin, for some hours, is thin, soft, and
sensitive, particularly so immediately after the casting process.
I tried once to assist a captive snake to shed its skin, and somehow
pulled too fast or clumsily the skin it was casting, which resulted
in the new skin beneath being badly torn, and exposing the flesh.
Fic. 9.—A Boomslang in the act of casting its skin amongst the branches of a tree. The
snake’s tail-end has not yet been withdrawn from the old skin.
The old skin, when being shed, is not actually loose. The
operation of shedding the skin is similar to pasting down a strip
of ribbon with a strong adhesive, and slowly peeling it off again
before it is dry. The old skin of the snake adheres closely to the
new one beneath, but seems to peel off very easily. Snakes in
captivity should have tufts of grass, bundles of twigs, or loose
stones in their cage to provide the necessary frictional resistance
in the skin-casting process.
Cc
Fic. 10.—5A. Egg of a Python (Python seb@), weight 54 0z., Size of
5B.
SNAKES’ EGGS.
a Goose Egg. 2. Egg of a Boomslang or
Egg of Brown Water Snake (Ablabophis
4. A young Brown Water
Tree Snake (Dispholidus typus), size of a Pigeon’s Egg. 3.
rufulus). More elliptical than that of the Boomslang. Same bulk.
Snake, hatching out. 5. Egg of Green Water Snake (Chlorophis hoplogaster). Same size and shape
as No. 3. 6. The ‘‘shell” ofa snake’s egg. It is not hard and brittle, it is soft and tough, 7. Egg
of a Night Adder (Causus rhombeatus). 8. Showing the progressive development of the embryo of a snake.
A pile of Snakes’ Eggs, and the broken skin of another. These are the Eggs of the Brown House Snake
(Ablabophis rufulus), two-thirds natural size. The “shell” is soft, tough and leathery. The contents
are of a very light yellow colour. There is no separate yolk and albumen (white).
OVIPAROUS, OVO-VIVIPAROUS AND VIVIPAROUS. 19
OVIPAROUS, Ovo-VIVIPAROUS AND VIVIPAROUS.
Some kinds of snakes lay eggs, and others give birth to young.
Some species lay eggs which are quite fresh and are hatched or
incubated outside the body, usually by the heat generated by
their surroundings, such as decaying vegetation, manure, or the
sun-heated ground. Certain snakes are believed to coil round their
eggs and incubate them, but this is uncertain, except in the case
of the Python. Those snakes which lay eggs which have not
started incubating are known as oviparous snakes.
Some snakes lay eggs which have been more or less incubated
before being laid. In certain cases the young are almost fully
developed inside the eggs when they are laid. In others there
are varying stages of
development of the
young. These are
known as ovo-vivipar-
ous snakes, which
means ‘“ producing
eggs which are more
or less incubated inside
the parent’s body.”’
There are yet other
snakes which give birth
to fully developed
young. In these cases
the eggs are developed
full size within the
Fic. 11.—Night or Demon Adders hatching out. Two
parent’s body, and they are out, others are seen in the act of breaking the egg
a ‘ shells.
incubate there until
the young are completely developed. They are then born, each
enveloped separately in a transparent membraneous bag, which
their active struggling ruptures. Viviparous means giving birth
to living young.
The temperature of a gravid snake is slightly increased,
otherwise the embryos or foetal young would not develop satis-
factorily. In the wild state the gravid female lies as often as
possible in the sunshine. In captivity she invariably lies on the
part of the floor where the sun happens to shine.
At the Port Elizabeth Museum the sun only shines for an
20 THE SNAKES OF SOUTH AFRICA.
hour or so daily into the cages, owing to their situation. In
consequence the female puff adders frequently produce their
young in an incomplete state of development. In others the
embryo dies and the egg hardens, resulting in the death of the
parent.
Practically speaking, then, snakes are oviparous and_ vivi-
- parous, that is, some lay eggs and others give birth to young.
SENSE OF SMELL AND BREATHING APPARATUS.
The sense of smell in snakes is very well developed, as will
be seen on dissection of the apparatus of thenose. In the family
of grass snakes this sense of smell is particularly good.
Snakes are thus enabled to find their prey and guard against
their enemies by the senses of sight, touch, smell, and hearing.
Snakes breathe by means of lungs. The left lung is much
smaller than the right one, and in most cases it is quite rudi-
mentary, or entirely absent. In some snakes the right lung
reaches from the neck fully two-thirds of the way down the body
of the snake. The lung is a sort of long hollow tube or bag, with
thin walls, in which are embedded the cells and blood vessels
which take up the oxygen of the inspired air. _ Snakes, owing to
their low temperature and slow blood circulation, do not require
to breathe as frequently, or inhale such pure air as birds or mam-
mals. The breathing is slow and quiet, except when the serpent
is alarmed or enraged, when it will inhale a great volume of air
and expel it forcibly, producing the characteristic hiss.
HISSING.
The hissing of a snake is caused by the long sac-like lung
being inflated with air, which is forcibly expelled through the
glottis and nostrils, causing that well-known hissing sound which
warns us of the proximity of a snake.
The Puff Adder makes the loudest and most prolonged hiss of
any South African snake. Hissing is the only sound snakes are
capable of producing, except the American Rattle Snakes, which
have a horny substance in loose sections or segments at the end
of the tail, which, when shaken, emits a hollow kind of rattling
noise.
PROGRESSION. 21
When alarmed, snakes hiss with the object of frightening off
their enemies. If snakes were not able to make their presence
known, they would be frequently trodden upon and injured by
the various creatures of veld, forest, and mountain. For long
ages the wild animals have, from bitter experience, learned
instinctively to avoid snakes. The instinct has been so strongly
developed that it is transmitted from parent to offspring. This
instinct persists in a greater or lesser degree, even in domesti-
cated animals whose ancestors, perhaps for scores of generations,
have never seen a snake.
An animal will often manifest the wildest alarm at sight of
a snake, or on hearing a snake hiss, although it has never before
come in contact with one of these reptiles. This power of trans-
mitting experiences is a wonderful provision of Nature, for if
every living creature had to learn entirely by personal experience
to avoid its enemies, and find out what kinds of foods were whole-
some, or the reverse, a great number of species would rapidly
become extinct. Venomous snakes invariably give a warning
hiss, if suddenly and unexpectedly approached or trodden upon.
If the latter should occur, they instinctively bite.
Nature has therefore evolved the power of hissing as a means
of protection to the snake, and as a warning to other creatures
that a reptile capable of inflicting serious mischief upon them is
in dangerous proximity.
PROGRESSION.
Snakes progress or crawl about by means of their ribs and
belly scales. The backbone of a snake is wonderfully constructed,
and is capable of being twisted and curved in a great variety of
ways without fear of dislocation. There are a great many joints
to the backbone, often as many as three hundred. To each of
these sections a pair of ribs are attached, one on each side. The
heads of the ribs are loosely attached to the backbone sections,
and they can thus be moved forwards and backwards with the
greatest of ease. The extremities of the ribs are attached to the
scales or horny shield-plates of the abdomen. When the snake
crawls, the ribs along one side of its body move forward, the edges
of the scales gripping the rough surfaces of the ground, tree, or
whatever the snake may be crawling over. Then the ribs on the
22 THE SNAKES OF SOUTH AFRICA.
opposite side are brought parallel with the other set, dragging up
the hinder part of the body, and propelling the upper or anterior
part. All this is done so smoothly and equally that the snake
crawls with the greatest ease, and moreover is exceedingly
graceful inits movements. A snake cannot crawl upon a perfectly
(1)
Fic. 12.—1. A snake crawls over the ground like this, propelled by its abdominal shields,
the tips of which grip uneven surfaces.
2. The erroneously popular idea of how snakes progress over the ground.
smooth surface, such as a sheet of polished plate glass, and can
only succeed in wriggling in a helpless sort of way. The scales
of ‘snakes partly overlap each other. The abdominal shields can
be partially raised by certain muscular attachments.
THE TEETH.
Snakes’ teeth are recurved ; that is, they are curved inwards
towards the throat. Non-venomous snakes, with the exception
of the blind burrowing snakes, have two rows of small teeth in
the upper jaw, and one row in the lower jaw. The teeth are not
set in sockets in the jaw, but are fastened to the bone by cartilage.
If, on examination, these teeth be found to be all solid, without
any trace of grooving, then the snake is certain to be quite non-
venomous. But in a great number of snakes with two rows of
upper teeth it will be found that one, two, and even three of the
teeth in the outer row, usually about half-way back in the jaw,
are longer than the rest, and more or less grooved. Such snakes
should always be regarded as venomous to a greater or lesser
degree. The Boomslang or Tree Snake (Dispholidus typus) is one
FANGS OF SNAKES.
Fic. 13.—1. The Upper
Jaw of a South Afri-
can Python (Python
sebe) showing the
double row of solid
re-curved teeth. 2.
Side view of the skull
of a Python (Python
seb@), showing the re-
curved teeth. There
is an outer and an inner row
in the top jaw. These teeth
are solid. The Python is
non-venomous, The skull
is that of a nine-foot Python.
3. Lower jaw of a Python
(Python sebe) showing the
re-curved teeth. 4. Dissected
head of a Puff Adder (Bitis
arietans) showing the active
pair of poison fangs, the
duct, and the poison gland
which lies beneath, and
behind theeye. 5. The erect fangs of a Puff Adder.
These are raised to the proper angle for striking.
When the mouth is closed the fangs are depressed
and lie along the jawbone. 6. The fangs of a Puff
Adder showing the protecting membraneous sheath.
When at rest the fangs are enveloped in this sheath.
7. Head and fangs of the Cape Cobra (Naia flava).
They are small, sharp, and grooved. 8. The poison
gland, duct and fang of a Puff Adder. 9. The
anterior maxillary bone of a Puff Adder dissected
out, showing the duplicate sets of fangs attached.
There is this number on each side of the upper jaw.
10. Skull of a Puff Adder showing the active pair
of fangs, and the next pair which would work for-
ward and take the place of the former if they were
drawn, or otherwise lost. 11. Head of Mamba
(Dendraspis angusticeps)
showing the fangs, duct
and poison gland. The
fangs are deeply grooved,
and exceedingly sharp.
12. Head of a Boom-
slang or Tree Snake
(Dispholidus typus)
showing fangs and
poison gland. The
gland is set close to the
root of the fangs. There
is no long duct. 13. Skull
of a typical harmless snake
showing the rows of solid
teeth. 14. The bifid tongue
of a snake.
No. 5 is a type of the Protero-
glypha, or front-fanged
snakes. These are all
venomous.
No. 12 is a type of an Opistho-
glypha, or back - fanged
snake. The snakes of this
division are in the transition
stage of fang development. They are more or less
venomous. No. 13 is a type of the Aglypha or
solid-toothed snakes. This division of snakes are all
quite non-venomous.
4B. 1. Fang of a Puff Adder. 2. Fang of a Cape
Cobra. 3. Fang of a Ringhals or Spitting Snake
(Sepedon hemachetes). 4. Fang of a Boomslang.
5. Fang of a Herald or Red-lipped Snake (Leptodiva
hotambeia), 6. of a Schaapsteker (Trimerorhinus
rhombeatus).
4c. A set of Puff Adder Fangs showing the front
active fang, and the duplicates. They are in various
stages of development. These were dissected from
one side of the jaw. A similar number are found
on the opposite side of the jaw.
24 THE SNAKES OF SOUTH AFRICA.
of these latter, and it was shown, on experimentation, to be
highly venomous.
The study of the fangs of snakes clearly shows the operation
of the great law of Evolution.
THE CIRCULATION OF THE BLOOD.
The heart of a snake has three cavities—one ventricle and two
auricles, not two of each, as is the case with all warm-blooded
creatures. The heart pumps the blood through blood-vessels in
the ordinary way. The blood corpuscles are both red and white,
as is the case with the higher animals. The red corpuscles are
elliptical, flattened, and bi-convex. The circulation of the blood
is very sluggish, and its temperature is much below that of the
mammal class of animals. Hence the reason they are termed
“cold-blooded.”’ Reptiles are all “ cold-blooded,” and mammals
are without exception, “‘ warm-blooded.”
The circulation of the blood of snakes being very sluggish,
they do not require nearly so much oxygen as do animals of the
warm-blooded class such as mammals and birds, hence the reason
they are able to live and thrive in air charged with carbonic acid,
gas, and other gaseous impurities given off by decaying vegeta-
tion and stagnant water. Snakes, if entirely deprived of air,
will continue to live, in many instances, for several hours. I
have seen ordinary land snakes, such as the Puff Adder, sink
themselves in a shallow pool and remain immovable at the
bottom for nearly half an hour. I sat one day and watched a
Python for one and a half hours lying coiled up at the bottom of
a clear spring of water, without once raising its nostrils to the
surface. If corked up in a bottle of water, a snake will die in
one or two hours as a general rule. When swimming upon the
surface of water, a snake inflates its lung, which makes it very
buoyant. When swimming upon the surface they wriggle with
a wave-like motion. I have watched snakes stretched out
motionless upon water, apparently lying on it as lightly as a cork,
sunning themselves in the hot rays of the midday sun. On being
alarmed, they instantly sank out of sight without any apparent
muscular effort. This is accomplished by expelling the air from
the long, tube-like lung, whereupon the body sinks, being then
denser than the water.
THE USE OF SNAKES. 25
THE PoIson FANGS.
In the typical venomous snakes, the outer row of upper teeth
has vanished, with the exception of fangs, more or less large,
and set in the front part of the upper jaw. These fangs are
either deeply grooved or hollow, and are connected by a channel
or duct with the poison glands, which secrete the venom. The
poison glands, with but one or two exceptions, lie one on each side
of the head, just below and back of the eyes. These glands are
almond-shaped, and vary in size according to the species of snake.
In the Puff Adder they are about the size of a small almond.
The venom is secreted by the cells composing the gland, and is
H
Usb
a
ANATOMY OF THE HEAD OF A VENOMOUS SNAKE.
Fic. 14.—A. Duct from the poison gland, the end of which is bent upon itself and
resting in the hole at the base of the fang into which the venom is squirted.
B. Digastric muscle which opens the jaw.
C. Poison gland.
D. Point of junction of the squamosal and quadrate.
E. Anterior temporal muscle.
F. Posterior temporal muscle.
H. The bifid tongue.
I. Lower jaw in which some solid re-curved teeth are set.
d. Trachea or windpipe.
expelled through the duct, down the grooved or hollow fangs
into the punctures when the snake bites. The venom is driven
out of the glands by the construction of certain muscle fibres
which compress the glands violently.
THE USE OF SNAKES.
In hot countries, insects, reptiles, batrachians, and rodents
swarm. The snakes are the natural enemies of these creatures,
and act the part of Nature’s agents in checking their too rapid
26 THE SNAKES OF SOUTH AFRICA.
increase. Owing to snakes not being so dependent on oxygen
as the more highly-evolved creatures, they are able to exist
where most birds of prey and carnivorous animals would die.
They are, by virtue of their specially modified organism, able to
penetrate into the morasses, jungles, swamps, and dense over-
grown vegetation of the tropics where the smaller reptiles swarm
in vast numbers. These latter reptiles reproduce their kind at
a very rapid rate, and if not preyed upon by many enemies
would rapidly become a plague.
Snakes are active agents in keeping down the numbers of
these quick-breeding creatures, as well as those pests known as
rats and mice. Owing to their long tapering bodies, snakes are
enabled to penetrate into the innermost haunts of these destruc-
tive rodents and swallow parents and their young.
Snakes are frequently found in and about the dwellings of
man, attracted thereto by the presence of rats and mice ; and in
the autumn they find some cosy place in the thatch, under a
floor, down a hole, in a stack of timber, dung heap, or fodder, in
order to hibernate during the winter months.
ENEMIES.
Snakes breed very rapidly, and in consequence they, too,
have many natural enemies. Birds of prey and many of the
smaller carnivorous animals feed upon their young, and frequently
attack and devour grown snakes. Many species of snakes are
cannibals, and do not hesitate to swallow their own young or
those of others.
There are several species of mungoose, meercat and muishonds
in South Africa, all of which readily devour snakes. None of
them are, however, immune from snake venom. These little
animals rely upon their quickness and activity in avoiding
being bitten when attacking a venomous serpent. The nature
of their hair is also a protection. I have frequently kept the
different kinds of mungoose and meercats in captivity and
introduced snakes into their cages. If the cage happened to
be rather small, the animal would show much alarm, but when
given a large roomy cage in which to operate, no fear was shown.
In the ‘“‘Cambridge Natural History’’ volume on Reptiles, it
ENEMIES. 27
is stated that ‘‘ several well-known mammals and birds are im-
mune by nature against snake venom, but most of them avoid
being bitten. Some birds induce the snake to strike and bite
frequently into their spread-out wings. Such more or less
common creatures are the Mungoose, Hedgehog, Pig, Secretary
Bird, Honey Buzzard, Stork, and probably other snake-eaters.”
None of these creatures are immune to snake venom. If
the venom is injected under their skins artificially, or naturally
by a snake, they die just as rapidly as other animals. The hedge-
hog, owing to its spine-covered body, is not likely to be bitten
when attackingasnake. Pigsarenotactuallyimmune. Ifasnake
should drive its fangs into the thick layer of fat under the skin
of a pig, there is little probability of its being absorbed, unless
at such an exceedingly slow rate that the animal suffers little
or no inconvenience. Pigs, which are allowed to range in a semi-
wild condition under natural conditions, develop a tough leathery
hide, which the fangs of snakes cannot easily penetrate. I have
found that if snake venom is injected into the tissues of a pig,
among the capillary blood vessels and lymphatics, the venom
is absorbed and produces characteristic symptoms of snake
venom poisoning, as in other animals. The Secretary Bird, when
attacking a snake, defends itself with its spread-out wings, which
it holds in front of it like a shield. The instant the snake lunges
at the quills, the bird throws the wings violently forward, casting
the snake backwards with great violence. If the reptile should
appear to be dazed, the bird at once seizes it by the neck in its
powerful bill, and, with a severe nip, crushes the backbone, and
thus incapacitates the snake. These birds often use their long
stilt-like legs like arms, beating the snake to death with a quick
succession of blows. The feet and legs of the Secretary Bird, as
far up as the knee joint, are hard, brittle, horny, and so well-nigh
impervious to the fangs of a snake.
Snake-eaters all owe their comparative immunity to death
from snake-bite to their agility, methods of attack, and natura]
defensive coverings.
DUELS WITH SNAKES.
The following instance will illustrate how the Mungoose attacks
and destroys snakes. The Mungoose (Herpestes pulverulentus)
28 THE SNAKES OF SOUTH AFRICA.
manoeuvred around the snake, and the instant he saw his oppor-
tunity, made his spring, and with lightning-like rapidity seized
the reptile in his jaws, crushed its vertebre, and sprang away
again. So quick were his movements, my eyes could hardly
register the details. After eyeing the snake with his little, keen,
black, wicked-looking eyes for a period, he was evidently satisfied
the snake was incapable of further fight, as it evidently was, for
it was apparent that its body was paralyzed by the injury to the
backbone. He again leapt upon it, but this time retained his
hold, and having mangled the head, chewed it from the body and
swallowed it. Being then satisfied that the dangerous part of his
foe was safely disposed of, he leisurely dined off the remainder of
Fic. 15.—The Muishond or Stink Cat (Zorilla striata), who boldly attacks, kills and devours
the most venomous of snakes.
the body. Removing the Mungoose, I replaced it with a hungry,
Slender-tailed Meercat (Suricata tetradactyla), and introduced a
large Puff Adder. The Meercat darted about nervously for a
while, ran quickly forward, dodged the stroke of the snake, and
seizing it by the neck, crushed the vertebra. Then the Meercat
deliberately nipped it in various parts down the spine, before
starting to eat it, evidently with the intention of smashing the
backbone and thus preventing the snake from wriggling about.
A Striped Muishond (Zorilla striata) was then experimented
ANIMALS THAT EAT SNAKES.
Fic. 16.—These are a few of the natural enemies of South African Snakes.
centre are Meercats (Suricata tetradactyla). The one on the left is the Bushy-tailed Meercat, called
The two small animals in the
the Geel or Rooi Meercat by Colonists (Cynictis penicillata). The animal on the right is the Grey
Mungoose or Pepper and Salt Cat (Herpestes pulverulentus). None of these animals are naturally
immune to snake venom. They escape being bitten by their extreme activity, and the thick nature of
their hair and under-fur.
30 THE SNAKES. OF SOUTH AFRICA.
with. I placed a Cape Cobra in its cage. The Muishond instantly
ran into a cornereand faced the snake, which was on guard with
raised body and hood expanded, ready to do battle with his foe.
Suddenly the Muishond darted into another corner of the cage.
Like a flash the snake swerved and again faced him. The
Muishond repeated the manceuvre, but the snake was not to be
flanked. He faced his foe every time. Finding these tactics
of no avail, the Muishond began badgering the snake by snapping
and snarling at him. At last the reptile,.in a fury, lunged fiercely
forward. His intended victim nimbly sprang aside, thus avoiding
the blow, and before the snake could recover himself the Muishond
seized him by the back of the neck, and holding on tenaciously,
inflicted serious damage by lacerating his victim’s flesh. His
endeavour was, evidently, to crush the snake’s backbone, which
he very soon did. Heseemed to know quite well that the Cobra
was now helpless, for he let go and rested a few moments. Then,
seizing the reptile’s head, he chewed it up and swallowed it,
and then satisfied his appetite on a portion of the body.
Hearing a grunting noise near a mimosa tree, under which
a friend and I had camped out for the night in the Natal bush-
veld, we took a small bull’s-eye lantern, and proceeded cautiously
to investigate. Presently a shrill, ear-splitting yell broke the
stillness of the forest. Flashing the light of my lantern in
the direction of the noise, there, within two yards of us, was a
striped Muishond, with his paws firmly planted on an adult
Black-necked Cobra (Nata migricollis). The Muishond stood
facing us menacingly, daring us to approach, and making the
forest ring with his sharp penetrating yells, launched out at
us at intervals. Thinking he had intimidated us sufficiently,
he began, with a succession of low growls and snarls, to eat
the still-living snake, eyeing us suspiciously with his keen
little eyes all the time.
After satisfying our curiosity, we retired and left the plucky
little fellow to finish his well-earned meal in peace.
I have allowed Meercats (Suricata tetradactyla), Striped
Muishonds (Zorilla striata), Grey Mungooses (Herpestes pulveru- _
lentus), and the Large Grey Mungoose (Herpfestes caffer) to be .
bitten by Puff Adders or Cape Cobras, or injected with their
venom. In every instance these animals died of the usual symptoms
of snake venom poisoning in from ten minutes to several hours
DUELS WITH SNAKES. 31
in time, according to the size of the snake, its species, its con-
dition, time of year, or quantity of venom artificially injected.
A Grey Mungoose, which I had in captivity, once fought and
killed a Puff Adder. However, the snake, with a last expiring
effort, lacerated the lip of its foe with one of its fangs. The
Mungoose dropped the snake, retired to a corner, and after a
short time began to mope. It died in seven hours. The reason
that it lingered so long was because only a small quantity of
venom had been discharged into the wound.
-On another occasion a Puff Adder was introduced into the
cage containing a Striped Muishond. The Muishond made a few
feints, then darted.at the snake before he could recover himself,
aiming a terrific blow at the adder. Although the Muishond
crushed the snake’s head in its sharp teeth, immediately the
reptile was released it struck out blindly and bit the Muishond
on the skull. The latter retired to a corner and faced the snake,
but died in forty-five minutes after.
The Rev. Father Bruno, of Kolbe, Cape Colony, informed
me that he and some friends witnessed a fight between a Cape
Cobra (Naza flava) and a Muishond. The latter circled round the
snake, who stood with reared body and expanded hood, after
the manner of all cobras when irritated. Eventually the snake
seemed to get bewildered or tired with turning round so frequently
and at such short intervals, for a cobra will never allow attack
in the rear if he can avoid it. Lunging forward, he failed to
recover himself in time, and the Muishond had him by the neck
and quickly shattered his backbone with its sharp teeth. As
in the former instance, it first ate the snake’s head, and then
dined off the body.
When in Natal I possessed an old Tom Cat, who was a mighty
Nimrod. He scoured the neighbouring forest nightly. When-
ever he made a capture of anything worth while, the old fellow,
who was a great pet of mine, came scrambling in through my
open bedroom window and, after laying his prize upon the floor,
he would set up a musical crooning noise, like cats do when they
call their kittens. He seemed quite pleased when I got out of
bed, lit the lamp, and inspected his prize. Many a time I have
obtained really good specimens for my collections in this way.
Sometimes he would bring in snakes still writhing and wriggling.
Just before dusk one evening, I was wandering round with old
32 THE SNAKES OF SOUTH AFRICA.
Tom at my heels, when a Puff Adder let out a hiss. Tom sprang
forward and faced the snake. Knowing he was well able to take
care of himself, and that he was by no means a tenderfoot, I
moved back a few paces and watched. He started by making
feints at the snake, which induced it to strike out furiously.
Old Tom seemed to be a mass of the finest springs. The agile
manner in which he sprang about and avoided the fierce forward
lunges of the snake filled me with admiration for him. After
about fifteen minutes the snake began to tire. Tom knew it
too, full well, for he now began to grow bolder, and struck two
or three severe blows with his forepaw. Once more the snake
lunged with gaping jaws and erect fangs. Missing its aim, its
head struck the earth with a thud. It was evidently spent, for
it made no attempt to draw back in readiness for another lunge.
Tom quickly finished it off by delivering a smashing blow
with his forepaw, which seemed to daze the reptile, for it allowed
the cat to seize it by the neck without showing further fight.
Dragging the snake’s body along, my plucky old hunter laid it
at my feet, purring with evident pride.
A few months after this event, Tom came home one evening
with a tremendously swollen head. He had evidently tackled
a snake which proved more than a match for him. We did all
we could for him, but he died within two hours.
SNAKES EATING EGGS.
A story was published some years ago in a boys’ journal, of
a Cobra which disturbed a setting hen and swallowed five of her
eggs. The Cobra was killed, the unbroken eggs removed from
its interior, and replaced in the nest. Those eggs, in due time,
hatched out into fine healthy chicks.
Unlike the generality of snake stories, this one happens to
be true. I have the pleasure of knowing the gentleman who owned
the hen and the eggs. He was farming in Bechuanaland, and
had procured a setting of a specially good strain of Black Minorca
eggs at considerable expense from Capetown. Observing the hen
walking about the farmyard in an unusually excited condition
and wondering why she did not return to her eggs, he got anxious,
and went to the hen-house and peeped into the box containing
the eggs. A large cobra, with a fierce hiss, made a ferocious lunge
CONSTRICTION. 33
at his face. My friend, being young, active, and quick-witted,
dodged the stroke. Summoning assistance, he returned to
find the cobra making the most desperate efforts to disgorge
several eggs, the shape of which could plainly be seen in
the reptile’s body. The eggs, however, were too smooth,
slippery, and heavy for the disgorging mechanism of the snake
to grip and expel, so the robber, perforce, was held captive,
because the five eggs in its stomach weighted him effectually
down. Rigging up a noose, my friend got it round the snake’s
head and carefully dragged it forth. An assistant seized the
tail ; my friend placed the heel of his heavy boot on the reptile’s
head and smashed it. Then, taking out his penknife, he cut open
the cobra’s abdomen and recovered his property. Washing the
slimy mucus off the eggs, they were replaced in the nest, and the
hen was coaxed to return. These five eggs hatched out all right,
and the chicks grew up into five fine Black Minorcas, one of which,
for many years, was cock-in-chief of the farmyard fowls.
Snakes cannot suck eggs, but some snakes swallow eggs whole,
the powerful digestive juices dissolving the egg-shell usually within
twenty-four hours. Sometimes the remains of the shell are cast
up, or perhaps it is completely dissolved or broken up very fine
and passed with the excreta. The Boomslang (Dispholidus
typus) I have frequently observed to swallow birds’ eggs, which
lodged in its stomach, the fragments of the shells of which, if at
all hard, were cast up the following day. Pigeon’s eggs frequently
remained whole inside the snake for a couple of days.
There is, however, a species of true egg-eating snake which
has been provided by Nature with a special set of enamel-tipped,
tooth-like bony projections in the throat, for the purpose of
sawing through egg-shells and releasing the contents, which are
squeezed down the throat of the snake, the crushed shell being
spat out afterwards.
CONSTRICTION.
Some of the slightly venomous and the majority of the non-
venomous snakes kill their prey by constriction. The snake,
with unerring aim, makes a dart, seizes its prey by the head,
usually the nose, and instantly coils around it, crushing its life
out within a few minutes. Two coils, sometimes three or more,
are thrown round the body of the prey. A well-known authority
D
34 THE SNAKES OF SOUTH AFRICA.
states that snakes never throw more than two coils round their
prey. This is not true. The number of coils depend upon the
size of the victim. The constricting power of snakes is very
great. J have held Mole Snakes by the neck between my finger
and thumb, allowing them to throw their coils round my wrist.
Within five minutes the hand would grow cold and numb, the
blood circulation having been almost entirely stopped by the
pressure of the snake’s constrictor muscles upon my wrist. The
constricting power of the African Python is tremendous. I have
seen a Duiker Buck squashed by a Python into a sausage-like
shape within ten minutes.
So rapidly is the victim seized and constricted that the eye ~
can barely follow the various movements. The snake remains
quite motionless until the prey is within striking distance. Then,
with a movement so rapid that the eyes can but distinguish a
sort of blur, the serpent seizes its victim, had next instant its
coils are doing their deadly work.
So swiftly and silently does a snake strike and constrict, that
the nimble quick-witted rat and mouse, or the active bird are
powerless to escape. I have frequently seen House Snakes seize
mice which were leaping past them at top speed.
Hearing a squeak under the table when I was once having my
evening meal, I looked to see what was the matter. A House
Snake had seized and was constricting a mouse. For years I
kept these House Snakes, which are quite non-venomous, in my
house, not only because I was fond of harmless snakes, but because
they were of practical use, for those snakes were better than any
house cat in keeping down the mice. Finding my House Snakes
too small to tackle big rats, I tamed a Mole Snake, and let him
loose under the floor. Within a month the rats had evacuated
the premises. After I was married, my snaky pets had to go,
not because my wife objected, for she knows much about snakes
and rather likes them, but because we could not manage to keep
any servants. Theservant class in Natal are kafirs as arule, and
allraw kafirs have a holy horror of snakes. It is of no use trying to
convince them that any snakes are harmless. To them the bite
of a snake is thought to be death for certain, unless some kafir
‘“mooti”’ is taken.
One day we were feeding a captive Python. It was rather
a bulky fellow, a little over sixteen feet in length. One man held
REMARKABLE EXPANDING POWER OF JAWS. 35
it by the neck between his knees, which is a convenient way to
force open the jaws and ram down the lumps of meat or dead
rats. The second man held the snake near the tail-end, to prevent
it wrapping itself round the person who was feeding it against its
will. Somehow familiarity breeds contempt, or I suppose the
man who was responsible for the tail of the python thought its
fighting days were over. Anyway, he allowed it to get its tail
free, whereupon in his attempts to recover it the snake managed
to throw a coil right round the man’s neck. Hearing a weird
sort of gurgling sound, the fellow in front threw a glance over his
shoulder, and saw his friend lying on the ground with his tongue
hanging out of his mouth, the blood-vessels of his face swollen,
and his eyes bulging almost out of their sockets. So tight was
the Python’s grip that great force had to be employed to remove
the coil from the almost-strangled man’s neck.
REMARKABLE EXPANDING POWER OF JAWS.
Snakes, with the exception of those of the burrowing and more
or less worm-like kind, possess the power of expanding their
jaws to a remarkable extent. The power varies a good deal, but
seems to be possessed in about the same degree by most kinds
of snakes. In all other vertebrate creatures the two portions of
the jaw-bone are knit solidly together in front. On the contrary,
these two parts in snakes’ jaws are attached by strong but elastic
ligaments. The skin of the head, neck, and body is elastic also,
and the various bones composing the skull are loosely attached.
The whole mechanism of the head, in fact, is of such a nature
that expansion of all the parts is easy.
Snakes never chew their food. When about to swallow a
comparatively large victim, the snake usually starts operations
at the head. The jaws are lapped over the nose. By slow degrees
the body of the victim is forced into the mouth by powerful
forward movements of the snake’s body muscles, assisted by the
jaws, which grip the prey, and by means of the recurved teeth
force it down into the throat. The whole swallowing process is
a succession of gulps. Gaping its jaws to their utmost capacity,
the snake pushes forward, taking a fresh grip and worrying the
victim’s body as far down as possible. Then there is a short
rest, followed by another expansion of the jaws and the same
36 THE SNAKES OF SOUTH: AFRICA.
contraction of the muscles of the head. Slowly, but surely, the
prey is seen to vanish from sight. When the hindquarters have
disappeared into the throat of the snake, the task is easy. The
muscles of the body set up a series of contractions which force
the creature down the gullet into the stomach tube. When it
gets to the middle part of the snake where the real stomach is
situated, the victim’s body goes no further, until digested or
disgorged. Sometimes a snake will seize a large rat, toad, or
frog and begin by swallowing one of the hind legs. Finding that
eventually he cannot make much progress, he rejects the swallowed
leg and moves round to the head and begins again.
Fic. 17.—A Puff Adder swallowing a large Barn Rat. Note how the snake makes use of
his fangs to help to get the body of his victim into his mouth,
I have seen a Puff Adder in captivity swallow three rats in
succession. So powerful were its digestive juices that it com-
pletely digested them all. Boomslangs will, at times, swallow
seven to a dozen frogs in rapid succession. When the prey
is of small bulk, it is quickly swallowed. A Puff Adder takes
from half an hour to a full hour, and sometimes longer, to swallow
a large rat.
POWER OF DISGORGING PREY.
It is popularly supposed that snakes cannot release their
prey once it is well within their jaws, owing to the nature of their
teeth, which are curved backwards. On the contrary, when
alarmed or irritated, a snake invariably disgorges its prey, either
SNAKES’ CLIMBING POWERS. a7
during the swallowing process or after. A snake, when in the
act of swallowing a bulky victim, is in a helpless state, for its
jaws are distended enormously, and it is, moreover, unable to
crawl away. Therefore it can neither defend itself nor effect its
escape. So, if danger threatens, the victim is instantly disgorged.
Snakes in poor condition often swallow prey so bulky that the
gastric juices are unable to dispose of it, and the snake gets indi-
gestion. Anyway, if the process of digestion is not proceeding
satisfactorily, the victim is disgorged.
In captivity, when several snakes are kept in the same cage,
it is a common occurrence for two of them to start swallowing a
toad, frog, or rat from opposite ends. When their noses meet
at the centre of the victim’s body, one of the snakes usually
reverses his swallowing mechanism and disgorges the portion
he has succeeded in getting into his throat and mouth. Some-
times both stubbornly hold on. In this case the larger or more
active snake laps his jaws over the other’s head, and calmly and
deliberately pushes him, as well as the object of dispute, down his
throat. He then retires to a cosy corner, if he be not too bulky
to move, and dozes for a week or two until his digestive juices
have dissolved his huge meal.
I was lying hidden in a clump of thick bush one day, watching
a big yellow Cobra swallowing arat. Iwas not the only watcher,
however, for it seemed a Mungoose had been carefully keeping
the snake under observation, waiting until the reptile had the
rat well within its jaws, when like a flash it sprang from the thicket
upon the helpless snake, and with a vicious bite smashed the
Cobra’s backbone at the neck. Hearing me move, it vanished.
I examined the snake and found the vertebre of the neck quite
broken, and the surrounding flesh mangled.
SNAKES’ CLIMBING POWERS.
Most snakes are excellent climbers, although the majority of
the species pass most of their lives upon the ground. The Cobras,
Puff Adders, Night Adders, Schaapstekers, Herald Snakes, Water
Snakes, and many other South African kinds climb trees with
ease. In the snake cages at the Port Elizabeth Museum there
are branches of trees fitted in, on which the snakes climb. The
only snakes which never attempt to climb trees are the Burrowing
38 THE SNAKES “OF SOUTH AERICA:.
Snakes and House Snakes. Mole Snakes in captivity never attempt
to climb. Occasionally, in the wild condition, I have found them
basking in the sun on the tops of creeper-clad shrubs.
The snake, whose natural home is in trees, such as the Mamba,
Boomslang, and Bird Snake, glides with tremendous rapidity
through the foliage, appearing barely to touch it in their rapid
flight. In fact, they seem at times to glide through the branches,
twigs, and leaves without touching them. These Tree Snakes move
by gripping the twigs, bark, and branches with the sharp corners of
their abdominal shields, which are, in turn, worked by means of
the ribs and muscle attachments. The snake’s body is twisted
in and out, under and over the branches and twigs. Snakes
never climb by coiling round a branch as is often depicted in
pictures.
Puff Adders ascend trees occasionally, but only under excep-
tional circumstances. Sometimes during heavy rains their
haunts get flooded, whereupon they climb up the nearest tree.
Occasionally they make their home in a patch of dense bush, which
may perhaps cover acres of land. Being unable to get to the
beloved sunshine on the ground, they ascend the trees on warm
sunny days and lie among the twigs at the tops and bask in the
warm rays. Puff Adders frequently do this in the forest belt
known as the “ Dene,’ Port Elizabeth. This forest is very
dense. The trees were planted by Government with the object
of fixing the drifting sand which threatened to cover up the
southern portion of Port Elizabeth.
Pythons are expert climbers, although they are usually of
such huge bulk. They follow the arboreal Vervet and Samango
monkeys to their leafy lairs and levy toll upon them in the even-
ing by lying motionless among the leafy twigs and darting out
with gaping jaws, like an arrow from a bow, when the monkeys
are passing on their way to bed.
SNAKES’ Foon.
Snakes prey upon many kinds of living creatures, chief among
which are rats, mice, birds and their eggs, toads, frogs, lizards,
insects and their larve. Many kinds of snakes eat their
young, and other species of snakes, when opportunity offers.
Pythons, of course, being so large, prey mostly upon Monkeys,
20)
SNAKES SWALLOWING THEIR PREY.
Fic. 18.—On the left is a Brown House Snake (Boodon lineatus) constricting a half-grown Barn Rat.
The snake is 2 feet r inch long. It is just proceeding to swallow the rat. It is starting at the nose.
The illustration on the right is a Red-lipped or Herald Snake, 2 feet in length, in the act of
swallowing afrog. This picture is taken from life.
40 THE SNAKES OF SOUTH AFRICA.
Cane Rats, Hares, and Dassies, as well as the smaller antelopes and
the larger birds.
Each species of snake has its own favourite food. The Puff
Adder and Cobra prefer toads, rats, mice, and lizards ; Water
Snakes like fish and frogs; Tree Snakes prefer birds, birds’ eggs and
their young, chameleons and other tree lizards. Ringhals are
partial to toads; Schaapstekers to lizards; House Snakes to
young rats and mice; Egg-eating Snakes to fresh eggs; Mole
Snakes like rats and moles.
Snakes, in the wild state, probably never eat any creature
which they might find already dead. They hunt living prey.
In captivity they can occasionally be induced to eat dead animals
and reptiles, but not often. After the snake has become fairly
tame and used to its surroundings, it will sometimes seize and
swallow a dead creature which is dangled in front of its nose, or
gently laid there. Sometimes we suspend the dead bodies of
birds, rats, mice, frogs, or toads, by a fine silken thread from the
top of the snake-cage. The slightest vibration causes the bodies
to twist and turn. In this way the snakes are deceived into the
belief that the creatures are alive, whereupon they seize and
devour them. Snakes can easily be tamed and taught to take
food from the fingers. Several of the live snakes at the Port
Elizabeth Museum are fed by an assistant in this manner. A
friend of mine had a tame Boomslang which took chameleons
and frogs from his fingers. It was so tame that he allowed it
out of its cage. It delighted to explore the room. If a stranger
entered, or there happened to be any other cause for alarm, it
instantly sought refuge in its cage. When my friend held a
chameleon up in front of the cage, the Boomslang would work
itself up into a tremendous state of excitement. When the
door was opened, it darted out like a flash, threw a coil or two
of its tail round my friend’s neck and arm, and gently took
the chameleon into its mouth and proceeded forthwith to
swallow it.
In those days we considered Boomslangs to be practically
harmless, and in consequence handled them freely. However,
our safety lay in our habit of always being gentle in handling
snakes. It is the only way to tame them. Even the sluggish
and surly Puff Adder can be tamed by frequent handling, but I
always prefer to remove his supply of poison fangs, of which he
ADAPTATION TO CIRCUMSTANCES. 41
has several duplicate sets in each jaw, previous to starting Puff
Adder or Cobra taming experiments.
ADAPTATION TO SURROUNDINGS.
Adaptation of habits and colouration to surroundings is
possessed in greater or lesser degree by all living creatures. This
provision of Nature operates in two ways. It serves as a pro-
tection against enemies. On the other hand, it is of immense
service to flesh-eating animals in capturing their prey. The
tree-climbing snakes are so alike in colouration to the branches
and foliage that they have little difficulty in getting within
striking distance of birds. I have seen Tree-snakes remain per-
fectly rigid, twisting their bodies to represent tree branches, and
have watched birds hop right up to them, and even perch upon
their bodies, mistaking them for twigs. A bird once within
striking distance of a Tree Snake has very little chance of escape,
so rapid are the snake’s movements. I have seen Boomslangs
and Green Mambas make off into small trees scantily clothed
with leaves and instantly vanish from sight. On close inspection,
they would be found to be entwined among the branches, rigid
and still, relying upon the blending of their colouration with
their surroundings to escape detection.
The colour of nearly all snakes blends with their surroundings.
A Puff Adder, for instance, lying upon the leaf and twig-strewn
earth is practically invisible to any one not specially on the look-
out for it.
In the various parts of South Africa snakes of the same
species vary more or less in colour to suit the nature of their
surroundings. The natural habitat of the Boomslang is in trees
and shrubs. Its body is, therefore, specially evolved for climb-
ing and rapid gliding movements through dense foliage. In the
Eastern Province of the Cape Colony I have frequently seen and
captured Boomslangs of a chocolate-brown colour on the ground.
When alarmed they invariably glide off and seek refuge down
holes, among refuse, or shrubs. I have not yet discovered them
in trees.
Mr. James Williams, the man who captures snakes for me,
tells me that he nearly always finds these chocolate-coloured
42 THE SNAKES OF SOUTH AFRICA.
Boomslangs on the ground. Occasionally he has found them
in shrubs, but their usual habit is to hunt for their prey, which
consists mainly of lizards, lying on the ground.
These chocolate Boomslangs are of the same species as the
others. They vary only in colouration, induced by their altered
habits. Green, or greenish-yellow, banded with black, being
conspicuous upon the brown earth, dead leaves, and stones, wise
Nature has adapted them to their surroundings by changing
the colour of their skins. This adaptation of colouration of the
various creatures to their surroundings is wonderful and
mysterious. It is most certainly not induced by any thought-
power, or desire in the snake’s brain. It is abundantly
evident there is a protecting force or Law at work which
operates without any conscious desire or wish on the part of
the creatures whom it seeks to benefit, by making them as in-
conspicuous as possible to their enemies and their intended prey.
This great Natural Law is quite impartial, as are all the Laws of
God. It makes the colour of one creature blend so perfectly
with its surroundings as to enable it to steal upon its intended
victim unawares, but it also seeks in a similar manner to render
the intended prey as inconspicuous as possible. This is one of
the methods by which Nature forces all living creatures to
exert themselves mentally and physically. It is only by
mental and physical activity that the evolution of life
proceeds.
FRESH-WATER SNAKES.
The Fresh-water Snakes haunt the vicinity of rivers, pools, and
marshes, swimming and diving with the greatest ease and grace.
They live mostly upon aquatic creatures such as tadpoles, frogs,
and fish. Specimens kept in captivity readily seize and eat
small live fish placed in their water-pan. These snakes do not
live habitually in the water. In fact, they only enter the water
in search of prey. If a frog or fish be seized in the water, the
snake will swim to land with it. I have seen Green Water Snakes
carry frogs several yards up a sloping bank. The snake holds
its prey in its jaws and raises the head and fore part of the body
off the ground when thus employed.
HIBERNATION. 43
SALT-WATER SNAKES.
These snakes inhabit the ocean, and feed upon fish and other
marine creatures. They are all very venomous. These Salt-
water Snakes are distinguished from all other snakes in having a
keel-like tail, flattened at the sides, which they use as a propeller.
They possess no fins and are true snakes, and therefore real sea
serpents. As far as is known, they are all viviparous. The
gravid female visits the shallow waters of rocky coasts and
gives birth to her young in the rock pools. Sea snakes are usually
brilliantly coloured. They are seldom found in mid-ocean.
MIGRATION.
Snakes do not migrate from one locality to another, unless
forced by hunger or a change in their surroundings, such as an
unusually heavy rainfall, rendering the ground more or less
marshy, or the slow change brought about by the prolonged
droughts which occur from time to time in various districts.
They always remain in the same locality as long as food is pro-
curable. Most species have some favourite spot to which they
retire when desiring to rest, or to escape from their enemies.
. HIBERNATION.
Snakes usually hibernate during the colder months of each
year. They do this for two good reasons. Food is scarce during
the winter months. Snakes are largely dependent for their
vitality on the temperature of the surrounding air, their bodies
being unable to accommodate themselves to rapid changes of
temperature owing to the very slow circulation of their blood
and consequent low normal temperature. In the tropics and in
favourable situations in temperate climates, snakes often remain
active all the year round. In certain localities in South Africa
several species of snakes do not hibernate. Others hibernate
only when the days are very chilly, but if a warm breeze should
blow, and the temperature of the air rises a few degrees, they
will often issue out of their lurking places to bask in the sunshine.
I have examined snakes quite stiff and rigid, and apparently dead
44 THE SNAKES OF SOUTH AFRICA.
with the cold, but on the application of heat they soon regained
all their vigour and vitality.
The live snakes in the Port Elizabeth Museum cages are most
active when the air is warm, and grow torpid in proportion to
the lowering of the temperature of the air. When their cages
are artificially heated they immediately revive.
If a snake should find a cosy retreat, and provided there is
sufficient sustenance in the neighbourhood, he will make that
spot his headquarters, from which he will issue forth when hungry
and scour the neighbourhood in search of food ; or else bask in
the warm sunshine ready to beat a retreat on the least sign of
danger. When the leaves begin to fall and the air grows chilly,
a drowsy feeling begins to pervade his body which warns him it
is time to seek out a cosy shelter for his long sleep. So he crawls
into the innermost recesses of his lair, or seeks out a better one.
Coiling himself up, he sinks into a condition of torpor.
Most species of reptiles have the power of suspending anima-
tion and lying in a death-like trance through the winter months,
when the food on which they live is either very scarce or quite
unobtainable. When animation is more or less suspended, an
exceedingly small quantity of food-material is used up to keep
the creature alive; whereas if it were active all the winter, it
would require an abundant supply. This would mean that most
species of reptiles would die of starvation. Those which had found
enough food to tide them over till the summer season would not
be in sufficient numbers to keep down the armies of living creatures
which constitute the diet of reptiles. Thus would the balance of
Nature be upset.
PARASITES ON SNAKES.
Snakes are frequently infested with parasites. Ticks often
fasten themselves upon the skin between the scales.
There once occurred an unusual mortality amongst the collection
of live snakes in the Port Elizabeth Museum, which are kept in
a long row of cages each four feet square and the same height,
with plate-glass on the four sides. Noticing minute parasites
upon one of the dead snakes, I made a microscopical examination
of them, and found they were a species of lice somewhat smaller
THEY HABITS OF SNAKES: 45
than fowl lice. On close observation of the living snakes I dis-
covered they were all swarming with these tiny vermin, which
harboured under and between the scales. I immediately caused
the snakes to be thoroughly oiled all over, and the cages washed
out with disinfectant. We were never again troubled with lice,
The parasites had doubtless been introduced by a snake which
had, in the wild state, been infested with them.
THE HABITS OF SNAKES.
When we study the habits of various creatures, we find that
their customs are regulated by their food supply, the necessity
for avoiding enemies and climatic conditions.
Snakes come forth in search of their prey, both during the
daytime and at night. During the heat of the day they issue
from their various retreats to bask in the sun’s warm rays, for
their blood is cold, and they love the heat. It means life and
vitality to them. Tree Snakes hunt mostly during the day-
time, both among the foliage and upon the ground, for their
food. The Cobra, Puff Adder, Ringhals, and various other snakes,
whose chief diet consists of toads, rats, and mice, usually issue
forth toward sundown, and actively scour the neighbourhood,
knowing that the creatures on which they prey are in the habit
of going out about that time and during the evening. When
the temperature of the air is fairly warm, snakes may be seen at
any hour of the day or night. As a rule, they do not wander
much on dark nights, but in the warm moonlight they are in-
variably out looking for food.
Snakes strongly dislike cold and wet, and on the approach of
rain, or if the temperature of the air falls, they hasten away to their
snug retreats, and await the return of bright and warm weather.
Beetles, slugs, and other insects, which constitute the chief
food of toads, invariably go out about sundown to feed upon
other insects or vegetation. The toads, knowing this, come out
from their lairs at these times. The crafty Cobra, knowing he
is most likely to find a good fat toad for his supper about sundown,
also comes forth and spies around. Because the vegetation is
damp and succulent after sunset, the insect prefers to eat it
at that time. The toad comes out and eats its prey, and the
46 THE SNAKES OF SOUTH AFRICA.
Cobra comes along and swallows the toad. Lastly, man follows
and captures or kills the Cobra.
The habits of the same species of snakes differ in accordance
with their environment. In some localities snakes are never
seen at night, because the air is invariably cold after sundown.
In other localities it is just the reverse.
Finding themselves under strange and abnormal conditions
when placed in cages, most snakes refuse to eat, although
they will regularly drink water and actively crawl around.
I have never succeeded in keeping Schaapstekers, Grass Snakes,
or Sand Snakes alive for more than six months in ordinary
cages indoors, or in other situations where there was a lack
of sunshine.
It is only occasionally that Boomslangs will take food. The
majority take no notice if chameleons, lizards, or nests contain-
ing fresh pigeons’ and other birds’ eggs are placed in their cages.
Puff Adders will eat a rat on occasion. As likely as not it will
be disgorged the following day. Frequently they strike and
kill the rats, but take no further notice of them. Mole Snakes
invariably refuse all food. House Snakes, Green Water Snakes,
Brown Water Snakes, and Night Adders eat freely in captivity.
The House Snakes eat mice; the other three species prefer
frogs.
Snakes, if kept in an enclosure twelve or more feet square,
out in the open air, with suitable cosy corners, nooks, and crannies
provided, and plenty of fresh water, will live, thrive, and breed.
In such a large enclosure many species of snakes may be kept
together. It is true they sometimes swallow each other, but
that is not of much consequence if they are of common species,
for they can easily be replaced. The only really aggressive
snakes are the Cobras, especially those species which grow to a
large size, such, for instance, as the Cape Cobra (Nava jlava).
These big fellows are bold, active, and aggressive, and often
deliberately attack other snakes. However, after being a few
months in captivity, they calm down, and will not interfere, as
a rule, with other species of snakes, except the smaller kinds,
which they attack, overcome, and swallow when hungry.
The only drawback I have found in keeping a large number
of different species of snakes in one large enclosure is that if one
should seize and begin to swallow a toad, etc., another will often
THE HABITS OF SNAKES. 47
come along and start operations at the opposite end of the
victim, and thus in many cases one snake is swallowed by
another.
Of course, it is not desirable to keep the bulky Python with
the other kinds of snakes. He is an inoffensive fellow, but his
huge bulk, which he cannot help dragging along with him, is
apt to injure snakes over which he might happen to crawl. Also
he has a habit of poking about and endeavouring to thrust him-
self out of sight into small holes and crannies, and in this way he
makes chaos of the little interior arrangements of the enclosure
designed for the convenience of the smaller reptiles.
A snake-house should be so situated as to be well sheltered from
wind and rain, and so arranged that the sun may at all times
of the day, from sunrise to sunset, shine into some portion of it.
Great care should be taken that the snakes have cool places into
which to retire when the sun is very hot and the atmosphere
rises to blood heat. Free access to air must be given, so that the
snake-house may not get unduly heated.
I once lost a large collection of snakes by allowing the air to get
too hot inside the snake-house. The sun heated the glass and
wooden partitions, which naturally had the effect of raising the
temperature of the air considerably. Every snake perished with
the heat, although they were not subjected to direct sunshine.
Testing the degree of heat with a thermometer, I found the air
registered a hundred and six degrees Fahr.
If you hold the belief that snakes are very tenacious of life,
abandon that belief, for they are not. When mangled they may
twist, writhe, and squirm for many hours, but nevertheless a
snake is very easily killed. A slight injury will cause death, not
necessarily at once, but perhapsa week ora month later. At the
Port Elizabeth Museum I used to wonder why we had such a great
mortality amongst our live snakes which were sent us by kind
friends in various parts of the country. On skinning them my
assistant discovered various discolourations, showing that they
had been struck or otherwise knocked about when being captured.
At first I used to dissect out the fangs, and sometimes the maxil-
lary bone on which they are fixed. I found that in the majority
of cases abscesses formed which caused the snake to cease eating.
When fed artificially the mouth invariably bled, the abscesses
grew worse, and the snakes pined and died.
STUDY PLATE FOR SCIENTIFIC STUDENTS.
Fic. 19.—1. (A.) The scales of the back. 0.0. Parietal shields. V. Interparietalshield. F. Anterior and
posterior frontal shields. S. Supraocular shield. R. Rostral shield.
2. N.N. Nasal shield. L. Loreal shield. A. Preocular shield. P. Postocular shield. U.U. Upper
labial shields. T. Temporal shields. M. Mental or median lower labial. C. Chin shields.
3. (A.). The abdominal plates or shields which are movable. These are used in locomotion. Their
edges grip uneven surtaces. B. The chin shields. C. Lower labialshields. D. Upper lip.
IDENTIFICATION OF SNAKES. 49
In some experiments which I conducted with a view of ascer-
taining if certain species of snakes were immune to Puff Adder
venom, I allowed the adder to bite them, either in the neck or
somewhere about the abdomen. In nearly all cases the bitten
snakes died a week or so later. However, I subsequently dis-
covered that the deaths were caused not by the venom, but by
the actual mechanical injury caused to the internal parts of the
bitten snakes, by the large fangs of the Puff Adders.
IDENTIFICATION OF SNAKES.
In the identification of the species of snakes the colouration
is a most uncertain guide. The systematic Zoologist examines
the dentition to ascertain to what division the
specimen belongs. There are three main divisions,
viz. the AGLYPHA, or solid-toothed non-veno-
mous snakes ; the OPISTHOGLYPHA, or hind-
fanged, more or less poisonous snakes ; and the
PROTEROGLYPHA, or front-fanged, typically
venomous snakes.
After finding out what family, sub-family, and
genus the specimen is a member by means of
the general formation of the body, scales, and
shields, the zoologist identifies the species by
examining the shields on the head and abdomen.
The number and shape of the head and abdominal
shields differ in the various species of snakes. |
Sometimes they merely slightly differ in a species. a aren are an
In these cases we term it a sub-species, if the Smei4e AN ox,
tend from throat
; 1 to vent.
difference is observed to be constant. OE
1 some snakes this
If you compare the head shields of two apne
different species of snakes, you will notice they covers the vent,
. : % ‘ is divided. _ In
differinshape. If the abdominal (ventral) shields _, othersitis entire.
5 F , C. Sub-caudal.
are counted they will differ in number. So also These ae
: 3 some snakes al
will those from the vent to the end of the tail in two rows ; in
: others in a single
(sub-caudals). In some species of snakes the shield row.
(anal) over the vent is divided. Inothersitisentire. Soalso with
the sub-caudals. In some snakes they are in one row, and in others
they are in two rows. Their number also differ with the species.
E
CHAPTER Ti:
THE BLIND BURROWING SNAKES.
(Blind Delgend Slang.)
FAMILY I.—TYPHLOPID&.
THESE snakes are small and worm-like in appearance, with
cylindrical bodies and blunt tails. They are covered with tiny
closely-fitting scales, and their eyes are more or less rudimentary.
They burrow in the ground, especially in soft loamy and sandy
soils, and feed upon small lizards, ants, larvee, worms, beetles and
other insects. They are usually found under stones, loose soil,
and decaying leaves and wood. Occasionally, after a shower of
rain, they appear above ground in search of insects, which issue
forth from their retreats at this time. The jaws of this family of
snakes are not capable of much distension, as is the case with the
more highly evolved or specialized snakes, consequently they
cannot swallow large prey. Their upper jaws are armed with
small, sharp teeth, but the lower jaws are toothless. They are all
quite non-venomous and can be safely handled. They make nice
pets, and soon grow very tame, and thrive if kept in a box con-
taining sand in which they may burrow, and supplied with water
and insects, especially ants and their larve. If the cage be
placed out in the sun they come up to the surface to bask, their
bodies glittering like burnished metal.
All the different species lay eggs, which are large in proportion
to the size of the snake. This family of snakes, and the following
family (Glauconid@) constitute the link between the more highly-
specialized snakes and lizards from which snakes have evolved.
There are over 100 species or kinds of Typhlops snakes inhabiting
various parts of the world, ten of which live in South Africa, south
of the Zambesi. These Burrowing Snakes still possess rudiments
THE BLIND BURROWING SNAKES. 51
of a pelvis, which indicates that their remote ancestors had legs.
Those ancestors, in fact, were lizards. The fact that these snakes
have blunt tails and the vent situated almost at the end, has given
rise to the popular belief in “‘ Two-headed ’”’ Snakes. When ex-
amined casually they certainly have the appearance of possessing
a head at opposite ends of the body.
Genus TYPHLOPS.
A single Genus in South Africa.
MEY LO} SHES SPECIES:
1. TYPHLOPS VERTICALIS.—Snout rounded ; 22 or 24 scales round the body.
Preocular much narrower than the ocular, in contact with the
second and third labials; diameter of body 42 to 45 times in
total length.
SKULLS OF TYPHLOPS OR BLIND BURROWING SNAKES.
Fic. 21.—(1) Side view showing situation of teeth. (2) Skull viewed
from above. (3) Skull showing roof of the mouth and row of teeth.
ee are the only teeth a Typhlops Snake has. (Brit. Mus. Cat.
nakes.)
2. TYPHLOPS FORNASINII.—Snout rounded; 22 or 24 scales round the
body. Preocular a little narrower than the ocular, in contact
with the second labial only ; diameter of body 23 to 30 times
in total length.
3. TYPHLOPS MOSSAMBICUS.—Snout with obtusely angular, not trenchant,
THE SNAKES OF SOUTH AFRICA,
horizontal edge; 24 scales round the body. Preocular in con-
tact with the second and third labials; diameter of body 30
times in total length.
- TYPHLOPS ANCHIET&.—Snout with obtusely angular, not trenchant,
horizontal edge ; 30 or 32 scales round the body. Preocular in
contact with the second labial only ; diameter of body 24 times
in total length; eye not distinguishable.
. TYPHLOPS BIBRONII.—Snout with obtusely angular, but not trenchant,
horizontal edge; 30 to 34 scales round the body. Preocular in
contact with the second labial (rarely second and third) ; diameter
of body 28 to 36 times in total length ; eye distinct.
. TYPHLOPS DELALANDII.—Snout not hooked (in profile). Snout with
sharp, trenchant, horizontal edge; 28 to 30 scales round the
body ; diameter of body 35 to 50 times in total length.
. TYPHLOPS MUCROSO.—Snout not hooked (in profile). Snout with
sharp, trenchant, horizontal edge ; 30 to 38 scales round the body ;
diameter of body 25 to 35 times in total length,
. TYPHLOPS DINGA.—Snout with sharp, trenchant, horizontal edge.
Snout not hooked (in profile) ; 34 to 40 scales round the body ;
diameter of body 42 to 46 times in total length.
. TYPHLOPS SCHLEGELII.—Snout with sharp, trenchant, horizontal edge.
Snout not hooked (in profile) ; 40 to 44 scales round the body ;
diameter of body 25 to 30 times in total length.
. TYPHLOPS SCHINzI.—Snout hooked. Snout with sharp, trenchant,
horizontal edge; 24 to 26 scales round the body; diameter of
body 45 to 57 in total length.
EYPHEOPSs:
Ten Species in South Africa.
. TYPHLOPS VERTICALIS. The Yellow-brown Blind Snake. Geel-bruin
Slang.
Synonym—Onychocephalus verticalis.
Colour—uniform brownish-yellow.
Average length—6 to 8 inches.
Distribution—Western Province of Cape Colony.
. TYPHLOPS FORNASINII. East African Blind Snake.
Colour—bluish or greyish. Anal region yellowish.
Average length—6 to 8 inches.
Distribution—Delagoa Bay ; Portuguese East Africa.
. TYPHLOPS MOSSAMBICUS. Mossambique Blind Snake.
Synonym—Onychocephalus mossambicus.
Colour—Dark brown ; lower surface of head and anal region vellowish.
Average length—6 to 7 inches.
Distribution—Zululand ; Northwards to Portuguese Fast Africa.
4. TYPHLOPS ANCHIET#. Anchieta’s Blind Snake.
Colour—Pale yellow, with greyish-brown blotches.
Average length—®6 inches.
Distribution—Transvaal ; Angola.
5. TYPHLOPS BIBRONII. Variously known as the Blind Snake; Two-
headed Snake; Ground Snake; Aard Slang; Tweekop Slang.
Synonym—Onychocephalus bibronit.
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pullg 24} se uMouy
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CNV SHMVNS
SNIMOMANA ANITA
54 THE SNAKES OF SOUTH AFRICA.
Colour—Brown above ; yellow on the underparts.
Average length—1 foot to 1 foot 6 inches.
Distribution—Common throughout South Africa. Not recorded north
of the Zambesi.
6. TYPHLOPS DELALANDII. Delalandi’s Blind Snake.
Colour—Pale brown above each scale, with a darker central spot ;
yellowish on the under-
parts.
Average length—1 foot.
Distribution—Occurs all over
South Africa. Not re-
corded north of the Zam-
besi.
7. TYPHLOPS mucROosSO. The Vari-
able Blind Snake.
Synonym — Onychocephalus
mucyroso.
Colour—Upper parts variable in
colour ; lower parts uniform
yellowish.
Average length—1 foot to 1 foot
6 inches.
Distribution — Transvaal; De-
lagoa Bay; Rhodesia;
Zambesi Regions; North
to East and Central
Africa.
8. TYPHLOPS DINGA. The Rusty-
red Blind Snake.
Synonym — Onychocephalus
dinga.
Colour—Rusty red above, with
confluent black spots.
Average length—z feet to 2 feet
6 inches.
Distribution — Southern Rho-
desia; Portuguese East
Africa.
9g. TYPHLOPS SCHLEGELII. Schlegel’s
Blind Snake.
HEADS AND TAILS OF TYPHLOPS Synonym -— Onychocephalus
SNAKES, SHOWING ARRANGE- schlegelit.
MENT OF SCALES. Colour—Uniform olive - brown
Fic. 23.—3c. Head and lower jaw. | above, or parti - coloured
3d. Taig ne the SDE at the tip B. yellow and olive-brown, the
5a. ead vlewe rom above. 7 . .
55. Head viewed from the side. latter colour forming ir-
5c. Head viewed from below. regular blotches; lower
ante ne are ae ve parts uniform yellow.
ent is at part marke . yes are covere Bah .
byscales. (From Brit. Mus. Cat. Snakes.) Average length 1 foot 6 inches
to 2 feet.
Distribution—Southern Rhodesia; Portuguese East Africa; Central
Africa.
10. TYPHLOPS SCHINZI. Black-spotted Blind Snake.
Colour—Yellowish above, with small black spots.
Average length—8 inches.
Distribution—Northern parts of Cape Colony ; Little Namaqualand.
THE BLIND BURROWING SNAKES. 55
FaAMILy II. GLAUCONIDZ.
These snakes are very similar in general structure to the
former family (Typhlopideg), and their habits are more or less
alike. They are placed in a separate family because they are
anatomically somewhat different, viz. they have teeth in the lower
jaw only, the upper jaw being quite toothless. They possess four-
teen rows of scales round the body. The typhlops snakes, on the
contrary, have teeth in the upper jaw, but none in the lower
jaw, and they have at least eighteen rows of scales round their
bodies. The Glauconide snakes are blunt-tailed like the former
family, and are, like their cousins, often popularly termed ‘“‘ Two-
Fic. 24.—A lifeesize Glauconia or Blind Burrowing Snake (Glauconia nigricans).
headed Snakes.’ People have occasionally brought snakes to
me, and were in a very excited state, claiming to have discovered
a snake with a head at each end of the body. In all cases they
turned out to be Blind Burrowing Snakes. Like the former
family, the Glauconide are all quite non-venomous, and make
most interesting pets. These Burrowing Snakes are very useful
in the economy of Nature in keeping down the too rapid increase
of insect life.
There are about thirty species of these snakes, six species of
which are known to inhabit South Africa.
56 THE SNAKES OF SOUTH AFRICA.
Genus GLAUCONIA.
A single Genus in South Africa.
GBS VINO) WNaNe. Sees),
I. GLAUCONIA NIGRICANS.—Supraocular present. Rostral separated from
the supraocular by the upper part of the nasal; diameter of
body 40 to 60 times in total length.
2. GLAUCONIA CONJUNCTA.—Supraocular present. MRostral in contact
with the supraocular; Rostral not more than twice the width
of the nasal, extending to, or slightly beyond a line connecting
the posterior borders of the eyes. Diameter of body 47 to 60
times in total length.
SKULLS OF GLAUCONIA SNAKES.
Fic. 25.—1. Side view showing the teeth in the lower jaw. There are
none in the upper jaw.
2. Skull seen from above.
3. Skull seen from below showing toothless palate. A. Lower jaw.
(Brit. Mus. Cat. Snakes.)
3. GLAUCONIA GRACILIOR.—Differs from the former in having the diameter
of the body go to 110 times in total length. Body very slender,
4. GLAUCONIA SCUTIFRONS.—Supraocular present. MRostral, very large,
at least twice as broad as the nasal and extending beyond a line
connecting the posterior border of the eyes; diameter of body
50 to 80 times in total length. Snout rounded.
5. GLAUCONIA DISTANTI.—Supraocular present. Snout with preoral part
concave, appearing slightly hooked in profile.
6, GLAUCONIA LABIALIS.—No supraocular. In all the other species the
supraocular is present.
THE AFRICAN PYTHON. a7,
GLAUCONIA.
Six Species in South Africa.
1. GLAUCONIA NIGRICANS. Black Blind Snake. Zwart Blind Slang.
Synonyms—Typhlops nigricans ; Stenostoma nigricans.
Colour—Brown or blackish, with scales edged with lighter.
Average length—6 inches.
Distribution—Both provinces of Cape Colony; Natal; O. R. C.,
Transvaal.
2. GLAUCONIA conjyuNcTA. The Intermediate Blind Snake.
Synonyms—Stenostoma conjunctum ; Stenostoma nigricans ; Stenostoma
groutit. This species connects G. nigricans with G. scutifrons.
Average length—6 inches.
Distribution—Both provinces of Cape Colony; O. R. C.; Basutoland ;
Natal; Zululand; Transvaal; Northwards to East Africa.
3. GLAUCONIA GRACILIOR. The Slender Blind Snake.
Colour—Uniform brownish-black.
Average length—S8 inches.
Distribution—Western Province, Cape Colony.
4. GLAUCONIA SCUTIFRONS.
Synonyms—Stenostoma scutifyons ; Glauconia latifrons.
Colour—Brown or blackish above ; whitish beneath.
Average length—6 to 8 inches.
Distribution—Eastern Province of Cape Colony; Natai; Zululand:
O. R.C.; Transvaal; Southern Rhodesia; Northwards to Angola.
5. GLAUCONIA DISTANTI. Distant’s Blind Snake.
Colour—Uniform blackish, the borders of the scales lighter.
Average length—s5 to 6 inches.
Distribution—Transvaal; Bechuanaland; Southern Rhodesia.
6. GLAUCONIA LABIALIS.
Distribution—German South West Africa.
THE PYTHON OR ROCK SNAKE (PYTHON SEB).
Famity III. Bomp@. GENUS PYTHON.
The Python belongs to a family of snakes known as the
Boide. There are nine species or kinds of Pythons, three in
Africa and the rest in the Malay Archipelago, India and Aus-
tralasia. Belonging to the same family is another sub-family of
snakes called Boas, chief among which is the terrible Anaconda
of Amercia, which is stated to attain a length of thirty-six feet.
None of these Boa-constrictors inhabit Africa.
THE AFRICAN PYTHON.
The South African Python, also known as the Natal Rock
Snake (Python seb), is common in the Southern portion of Africa,
mostly towards the East side. In West Africa it is replaced by
58 THE SNAKES OF SOUTH AFRICA.
another species known as the West African Python (Python regius),
and in South West Africa by Anchieta’s Python (Python anchiet@).
The Rock Snake or Python is fairlycommon in Rhodesia, Natal,
Zululand and Eastern Transvaal. I have also obtained specimens
from Bechuanaland.
The statements in regard to the length attained by these
Fic. 26.—Head and neck of a South African Python (Python sebe).
Pythons is very conflicting. Sir Andrew Smith, in his “ Zoology
of South Africa,’’ mentions one twenty-five feet long, which he
personally examined and measured. I have examined a consider-
able number, and the longest was twenty feet. The average length
seems to be about sixteen feet, the circumference at the thickest
part being about eighteen inches.
1. PYTHON SEB#. The South African Python, also known as the Natal
Rock Snake.
Synonyms—Coluber sebe ; Hortulia natalensis.
Colour—Pale brown above, with dark brown, black-edged, more or less
sinuous cross bars which are usually connected by a continuous,
or interrupted dark stripe running along each side of the back ;
sides with large spots, and finely dotted with black; a large tri-
angular dark brown blotch occupying the top of the head,
bordered on each side by a light stripe, beginning at the end of
the snout above the nostril, and passing abpve the eye. A dark
stripe on each side of the head, and a dark sub-triangular blotch
below the eye; upper surface of tail with a light stripe between
two black ones. Belly spotted and dotted with dark brown.
Average length—16 feet. Said to attain a length of 25 feet.
Distribution—Natal; Zululand; Eastern Transvaal; Eastern portion
of Bechuanaland; Southern Rhodesia; Portuguese East Africa;
Tropical Africa.
A PYTHON AND ITS SKELETON.
Fic. 27.—The African Python or Natal Rock Snake. (After Smith.) These snakes attain a length of 20
feet and over. Colour, light brown, with irregular cross bands and squares of dark brown.
Yellowish beneath, usually spotted and dotted with dark brown. 2. The complete skeleton of
a South African Python (Python seb@) 16 feet in length. This skeleton was prepared at the Port
Elizabeth Museum, and is on exhibition there. It is bored and wired throughout. Note the huge
number of ribs, and sections of the backbone.
60 THE. SNAIGES, OF SOUTH AFRICA:
THEIR HAUNTS AND DIET.
Pythons frequent moist rocky valleys, plantation and bush-
covered lands, and are rarely found far from water. Their prin-
cipal diet is birds, mammals, such as Dassies, Hares, Cane Rats,
the smaller antelopes, monkeys, etc.
Along the coastal districts of Natal there are extensive sugar-
cane plantations, where these Pythons delight to dwell, as there
is abundance of food in the shape of Cane Rats, otherwise known
as Ground Pigs (Thryonomys swinderenianus). These Cane Rats
attain the size of full-grown Dassies or Rock Rabbits. They are
not real rats. Their nearest relation is the porcupine. These
Cane Rats are very destructive to the sugar-cane, so the planter
regards the Python as his best and most useful ally.
When seeking food the Python usually lies in ambush in some
place where animals are likely to pass. When the intended
victim is within striking distance, the snake lunges forward, seizes
its startled victim in its jaws, which are armed with fairly large
re-curved teeth. Then with lightning-like rapidity its body is
thrown around the terrified, struggling animal, which is rapidly
crushed to death.
SWALLOWING THE PREY.
The snake begins at the head and swallows the body, after the
manner of other snakes, as previously explained. If the captured
animal be large, the snake crushes it so effectually that it is
converted into a sausage-shaped mass, which naturally makes
the swallowing process ever so much easier.
During deglutition the salivary glands are very active, and
an abundance of saliva is excreted which enables the snake to
swallow the prey with comparative ease. The snake does not,
however, smear its victim with saliva before starting to swallow
it. The saliva only comes in contact with the portion of the prey
which is within the mouth. Sometimes a little escapes from the
sides of the mouth. Snakes never “slime” their prey previous
to swallowing it.
The popular belief that snakes cover their prey with a slimy
secretion previous to proceeding to swallow it, is incorrect.
What evidently gave rise to this belief, is the custom of snakes
to disgorge their prey if irritated or alarmed. Naturally the
SWALLOWING THE PREY. 61
cast-up body of the victim is covered with a slimy secretion
with which it became covered during the swallowing process,
and while in the digestive tract.
pee. . . : , * & ee
eR Be Se ES ow we mute &
sie:
Fic. 28.—A South African (Python sebe) 17 feet in length, basking in the
sun. Photographed in its native habitat.
A large Python can swallow an animal the size of a full-grown
Duiker Buck (Cephalophus grimmi). When out hunting one day
in Natal with a friend, we came across a huge Python in a small
62 THE SNAKES’ OF SOUTH AFRICA.
cave at the foot of akrantz. After killing it, we dragged its body
out into the light, and discovered that a pair of Duiker Buck
horns were sticking fully an inch and a half through its ribs and
skin. It had evidently swallowed the buck, horns and all, and
the latter worked their way through the skin. The Python
would probably not have died through the injury. These reptiles
have such powerful digestive juices that the whole body, bones
and all, of the buck, would have been digested, and the horns
would eventually have dropped out. Ona second occasion I was
present when a Python was killed, with the horns of a Duiker
Ram sticking out of its skin. In this case the skull had evidently
been dissolved by the snake’s gastric juices, for the horns came
away very easily when pulled, leaving two small round holes in
the snake’s side, which doubtless would have healed in a very
short time.
One day when lying under the shade of a big forest tree near
Table Mountain, in Natal, I heard the terrified cries of an animal.
On emerging from the bush, I saw a Python with a Duiker Buck
in its deadly folds. Having no gun, I converted the branch of a
tree into a cudgel, and rushed up the incline at the snake. How-
ever, on seeing me approaching, it quickly disengaged its jaws,
unwound its coils, and made off amongst the bush-covered rocks,
leaving the buck in a dying state upon the ground.
On another occasion my Fox Terriers gave tongue. Climbing
over rocks and stubbly bush in the direction of the sound, Isawa
Python of average size with head and neck distended enormously.
On seeing me it made desperate efforts to disgorge, but its jaws
were so dreadfully stretched that it was seemingly powerless to
reverse its mechanism. I rapidly tied one end of a stout cord
round the snake’s middle, and the other end to a tree, and ran
back to get a strong linen bag from a satchel, which hung from my
saddle. Returning, I found the Python had succeeded in dis-
gorging its prey, which was a half-grown Duiker. The reptile
was worked up into a great state of excitement by the badgering
of the terriers, and his inability to escape. Holding out the
spread-out bag, the Python lunged forward and seized it. The
snake’s recurved teeth got entangled in the material, and without
a moment’s delay I enveloped its head, and then seized it by
the neck. Wrapping the bag round its head, I tied it with a cord.
I sat down and waited patiently until the Python had expended
CAPTURING A PYTHON. 63
its strength in blindly tumbling and rolling around. At last it
ceased to fight. It felt it was vanquished. I advanced and
. carefully removed the bag which was blindfolding it. Opening
the mouth of it, I thrust in its head. Instantly it began to
crawl forward, thus aiding me in bagging it.
Slinging the bag over my shoulder, I staggered off with nearly
a hundredweight of Python.
My pony was an old trusty friend and companion of countless
excursions, and was used to the sensation of various kinds of
wriggling things on his back, so he did not mind when I strapped
my load to the saddle and led him along to my Dutch friend’s
farm, five miles distant.
PYTHONS ON THE WATCH.
The favourite haunt of the Python is the rocky, wooded
valleys, in the vicinity of water. They love water, and delight
to wallow in it, often lying submerged for hours, with only the
nostrils above the surface.
They are excellent climbers, twisting in and out amongst the
branches. The popular idea is that snakes climb by twisting
their bodies in spiral fashion round the branches after the manner
of a rope being twisted, strand above strand round the trunk of
a tree. This is not so. No snake ever climbs in this manner.
These huge Pythons often lie along the branches of trees with
their stony-looking, unwinking eyes fixed upon the ground below.
If something good to eat comes along, the snake simply drops
upon it, the end of the tail gripping tight to the branch, or to a
twig. When the animal is large and strong, the Python prefers
some leverage for its tail in the shape of a shrub, branch, tuft of
grass, or a projection of rock, to give its body muscles more
power to act. As a rule, however, these snakes just envelop
their prey with their folds, and then proceed to squeeze the life
out of it.
CAPTURING A PYTHON.
Pythons are not venomous ; they are destitute of poison fangs
or poison glands.
The teeth of Pythons are all quite solid, without any signs of
64 THE - SNAKES “OF “SOUTH APRIGCA:
grooving. They are re-curved, which means they are curved
backwards. These teeth are capable of inflicting a nasty wound.
I was trying to capture a Python one day amongst some rocks
Fic. 29.—Desmond FitzSimons, aged five years, holding
a young Python which his daddy had just captured
on some adjoining rocks.
in one of those beauti-
ful tropical - looking
valleys, so abundant
in Natal. I got it
cornered, and tried to
get a noose over its
head. In desperation,
I suppose, it made
a fierce lunge and
seized my left hand in
his great jaws and held
as tight asa steel rat
trap. I yelled out to
my companion, but he
was away in the bush
somewhere. Fearing
the Python would
want to take the
liberty of embracing
me, I dragged my
hand out of its mouth,
the hand, of course,
being minus most of its
epidermis. You want
to know what I did
then? Well, I bolted
down the rocks. After
my friend had band-
aged my hand, we
crawled up again and
shot the Python, and
retrieved my _ gun,
satchel, and hat.
Pythons become
very tame and docile
in captivity. For many years past I have kept them in cages.
I had one big fellow eighteen feet long, and so tame did he
THEY HANKERED AFTER HIS GALL. 65
become that one day I coiled him round a lady’s neck and waist,
and photographed her with the python.
A SENSATION.
This Python escaped one night, and I solemnly warned a
relative to keep the fact a dead secret. She confided the fact toa
neighbour, binding her to strict secrecy, but of course that secret
was known in a very short while over the whole neighbourhood.
Anyhow, for a month or two nobody would venture out of doors
in that suburb after dark. Whenever little Tommy or Mary
were a little late in coming home from school, their mothers were
in horrible suspense lest the Python had interviewed them en
voute. Whenever any domestic animals were missing, of course
the Python got the blame. Why, they even blamed it for doing
away with a man. It seems Mr. suddenly disappeared from
his home, and no trace of him could be found, and the poor old
Python was blamed, but I knew that man had a shrew of a wife,
with a dreadful temper, who preferred gossip to looking after
her domestic affairs, so I guessed the reason of his disappearance.
Tury HANKERED AFTER HIS GALL.
The Kafirs believe that the gall of a man who has killed a
Python will confer on the person who swallows it wonderful
vigour, courage and longevity.
Prior to the advent of Europeans into South Africa, and the
introduction of their irksome laws, the kafir who was known to
have killed a Python stood little or no chance of living to an old
age. The Chief of the tribe coveted his gall. So did others, but
they lay low, for they well knew that to thwart the desires of the
Chief meant retaliation, swift, sure, and cruel, upon themselves.
Now, when any of the old-time powerful native chiefs coveted
anything, he got it by fair means or foul, ifit were at all procurable.
Summoning the Witch-doctor he declared, with many groans,
exclamations, and lamentations that he felt ill, frightfully ill, and
raising his voice aloud, proclaimed that he had been bewitched.
F
66 THE SNAKES OF SOUTH AFRICA
Then in a whisper to the Witch-doctor he named the man whose
gall he coveted, adding that he was the fellow who had killed a
Python. The cunning and unscrupulous Witch-doctor instantly
took the hint. Going forth, she proclaimed in exaggerated and
excited language, and with wild gestures, that the Chief had been
bewitched. The men of the tribe were, in due time, summoned,
and commanded to sit ina circle. The apparently sick chief or
Fic. 30.—An Indian Python constricting an antelope. The squeezing power of a large
Python is enormous. The ribs of the victim are crushed and the body elongated.
It is then swallowed head first. (From Warne’s Royal Natural History.)
king is brought forth and laid upon a mat, supported and attended
by a bevy of his wives.
Then the serious part of the business begins. The Witch-
doctor, with horrible yells and mutterings, bounds into the circle.
A weird and repulsive-looking object she generally is. She is
not necessarily old and shrivelled. On the contrary, those I
have seen were usually stalwart women of unusual height, with
a commanding, bold aspect.
The face is smeared with daubs of white, and other paints.
Strings of the claws of birds, bones of human beings and animals,
Fig. 31.—Two South African Pythons on the rocks in their native habitat. These were photographed as
they were trying to escape up the rocks. One is 14 feet, the other 15 feet 6 inches inlength. They
fought savagely when we tried to capture them.
68 THE SNAKES OF SOUTH AFRICA.
bits of medicinal bark, and small bladders filled with various
substances are suspended round her neck and waist ; her wool is
long, unkempt, and adorned with many blown-out gall bladders
of animals. Sometimes her whole person is decorated with a
miscellaneous array of gruesome-looking things.
Crouching down, she crawls around, sniffing each man. Then,
working herself into a kind of frenzy, her features become dis-
torted, she writhes, twists, mutters, yells. In fact she does
everything in her power to inspire awe, reverence, and deadly
fear in the minds of the onlookers, each of whom is already in an
abject state of terror, lest he should be the victim of her atten-
tions. Eventually, with a succession of yells, she leaps high
into the air, and with her wand, points to one of the men in the
circle. Those in his vicinity instantly shrink away, in horror,
from him. The hitherto terrified savages, now become ferocious
and demoniacal, and gather around the victim, uttering the most
appalling threats. However, the Witch-doctor knows her busi-
ness. She wants the man’s gall for the Chief; so, commanding
the men to retire, she consults the Chief. Announcing that he
has given instructions as to the disposal of the man, he is dragged
off and done to death in a horribly brutal and agonizing manner.
In due time the dead man’s gall is privately conveyed to the
Chief by the Prophetess, who then receives an ample reward.
These “ smelling out ’’ cases were of frequent occurrence in olden
times. If any of the Chief’s cattle should sicken and die, if any
one should get ill from any cause, if misfortune in any shape or
form should visit the tribe, this gruesome “‘ smelling out ”’ business
was usually resorted to in order to unmask the wizard with the
evil eye, who by his bewitching powers had caused the trouble.
If the good folk in the Mother Country knew the conditions
under which the natives of South Africa lived before the advent
of the Dutch and the British, they would have less to say about.
the “ poor, ill-treated, down-trodden, sweated blacks.’”’ A former
Chief Magistrate of East Griqualand writes me as follows : When
I came to Tembuland in 1876 there was living here a white man
named King, who was married to a native woman. This man
had killed a very large Python in the Dwesa forest. On informa-
tion received from his wife through her relatives, he was assured
that the chief Kuli was secretly laying plans to do him to death and
secure his gall, so he precipitately fled. In those days a refugee
AN EXCITING ADVENTURE. 69
from a neighbouring tribe was as securely protected as such
people were in the old Highland clans.
The Python is the most popular “ familiar”’ of the Kafir
Witch. On this ground alone the average Kafir would never
dream of interfering with it.
These ‘“‘ Witch-doctors”’ may be of either sex. Colonists
usually make no distinction in the name.
AN EXCITING ADVENTURE.
I was staying at the farm of a Boer friend, and one morning
accompanied him down to his rabbit hutches to help feed the
rabbits ; and in one of those hutches we found a sixteen-feet
Python asleep, with a big Belgian hare inside of it. It had
squeezed itself between the iron bars, swallowed the rabbit,
and finding it could not get out, made itself comfortable and
dozed off. We shoved it into a sack, and I rode a twenty-mile
journey home, with it strapped to the front of the saddle. On
the way it got alarmed, and began to struggle. My pony turned
his head, sniffed the sack, and next instant shot across the hillside
at break-neck speed. The sack got loose and fell. However,
when my frisky pony had worked off his surplus energy, I re-
turned, packed up my sackful of Python, and wended my weary
way homeward. My troubles were not over, for on arrival home
late in the night I told my native groom to take off the sack and
put it on the ground and stable the pony. Presently I heard a
most awful yell, and rushing out, was just in time to see my Python
making off into the darkness, and the Kafir lying on his back
bawling at the top of his voice in Zulu for his mother and his
father, as is their custom when frightened, or in pain. It seems
the silly fellow, in removing the sack from the saddle, went and
undid the cord binding up the mouth of the sack. At least, that
was his explanation. The real fact was he thought there was some
buck meat inside the sack, and wanted to make sure, so as to be
prepared to beg some when I came out again to see if my horse
had been rubbed down and properly fed, as was my custom. I
never saw that Python again, but somehow the news got about,
and I was voted a pest and a nuisance, and people talked of
petitioning Government to remove me from the neighbourhood.
70 THE SNAKES OF SOUTH AFRICA.
PyYTHON’s EGGs.
In the wild state, when the female Python desires to lay her
eggs, she selects some secluded spot amongst tangled brushwood
down an Aard-vark hole, or in one of the innermost crevices of a
rugged krantz. She lays her eggs in a heap, coils her body
Fic. 32.—A South African Python about to swallow a Klip Dassie (Procavia capensis),
which it has captured and constricted. (vom Warne’s Royal Natural History.)
around them, fold above fold, with her head on top, completely
concealing the eggs. During the incubation period, the snake’s
temperature rises, which seems to be a provision of Nature for
the hatching of the eggs. I am by no means sure whether the
eggs would not hatch just as well, if laid in some warm, moist
place, and left to incubate by themselves, as is the case with most
other egg-laying snakes One reason which undoubtedly prompts
AN ADVENTURE. at
the female Python to coil around her eggs is to protect them from
being eaten by wild animals, such as mungooses, rats, and mice,
and by Nilotic Monitor Lizards, otherwise known as “‘ Leguans,”’
or “ Iguanas.”
One blazing hot summer day in Natal, we came across a Python
basking in the sun. On seeing us approach it vanished down a
hole, which proved to be that of an ant-eater, otherwise known
as an Aard-vark (Orycteropus afer), which is an animal as big as
an adult pig. We filled the entrance with boulders, and wandered
away. Returning anon with some muscular Zulus, we dug
vigorously for a couple of hours or so. Eventually we came
across the snake coiled up in front of a pile of eggs at the end of
the hole, in the lair formerly occupied by the Aard-vark. We
captured the mother Python alive, and counted the eggs, which
numbered forty-eight. Breaking open two we found them to be
partly hatched. There were indications which showed the
Python had been lying coiled up in front of its eggs for some
time.
We kept a large Python in captivity in the Port Elizabeth
Museum, during the month of November, and it laid a batch of
forty-four eggs. These eggs were elliptical and about the size of
those of a goose, and contained a yellowish substance similar to the
yolk of fowls’ eggs, but lighterincolour. They weighed 53 ounces.
The “ shell ”’ was not hard and brittle like the shells of birds’ eggs.
It was soft and leathery in texture, and creamy-white in colour.
When the young Pythons hatch out, the mother takes no
apparent heed of them, and moves off, her maternal duties being
ended. The young scatter in different directions, their instinct
impelling them to seek for food, which at this time consists of
small fry in the shape of mice, rats, birds, lizards, frogs, etc.
AN ADVENTURE.
One day, when meandering wearily along with a gun under
my arm amongst the rugged, rocky, shrub-covered mountains in
Natal, I kicked my toe against something soft and tumbled over
on to it, when, to my horror, that big soft mass began to wriggle
and uncoil, and for a moment or two I saw nothing but a succes-
sion of huge coils. Then those coils resolved themselves into the
form of a great Python about twenty feet long. He made off
72 THE SNAKES OF SOUTH AFRICA.
into the bush as fast as his ribs and scales would propel him,
evidently as much terrified as I was. When I was able to collect
my thoughts I looked around for my gun and hat, and wandered
off, calculating whether the Python could have managed to
swallow me whole.
THE PYTHON AND THE COCK.
Sitting on the stoep of a Dutch farmhouse listening to the
tales of a tough old Boer hunter, a rooster suddenly began to
cry out in evident distress, down amongst the foliage in the garden.
We made off in the direction of the sound, and there in a shady
glade was a tremendous Python doing his mightiest to constrict
the fowl. The rooster’s head was sticking out in one direction,
his tail in another, and his legs and wings were north, south, east
and west. The Python had him enveloped in his great coils,
but the fowl’s body was so comparatively small, and the Python
so large, that he somehow could not get a sufficient grip to squash
the rooster, and in the meantime the cock was crying out for aid,
assisted by his wives, who kept at a safe distance and cackled.
We darted back to the house, procured a mealie sack, and from
three points of the compass stalked the Python like stealthy Red
Indians. A signal was given, and we simultaneously rushed in
and assaulted him. In his bewilderment he raised his head to
take in the situation. Before he could decide how to act, the
Dutchman clapped the mouth of the sack over the Python’s’
head ; his son and I threw ourselves on the huge body, and after
about fifteen minutes’ tumbling and rolling around, we managed
to get him safely lodged inside the sack, which he almost filled.
We kept this Python alive in a cage in the grounds of the Natal
Museum for a long time.
BucK-HwunTING INCIDENT.
At the big buck hunts in Natal, it is the practice to gather
together from fifty to a hundred kraal natives, with their dogs.
These natives would spread themselves out crescent-fashion and
enter the dense bush, and we fellows with the guns would go away
BUCK-HUNTING INCIDENT. 73
ahead and keep on the gui vive for any bucks that broke cover.
At such hunts, Pythons are frequently killed. The dogs locate
them in the bush, and bring them to bay. At one of these hunts
a big torpid-looking fellow broke away and came crawling
sluggishly over the rocks. We killed him, whereupon two or,
three of the natives became very officious in volunteering their
Fic. 33.—An African Python swallowing a bird. (From Warne’s Royal Natural History.)
services in skinning him for me without the usual fee, so I willingly
agreed. When they were taking the skin off, one of them pulled
the remains of a Duiker Buck from the snake’s interior. It was
a pulpy shapeless mass, covered all over with slime. The Kafir
laid it carefully aside. I inquired: ‘‘ What are you going to do
with that?” ‘“‘ Eat it, boss.” ‘‘ What! eat that slimy thing
—ugh!” “Yes, boss, why not? It’s good meat. We will
wash it in the stream and skin it, and have a feast to-night.”
74 THE SNAKES OF SOUTH AFRICA.
A CraFrtry PyTHON.
I was fortunate enough once to witness a most remarkable
occurrence. I was lying concealed in the midst of some tangled
scrub near a still pool in a densely wooded valley, studying the
habits of various species of birds, and all was as silent as the grave,
with the exception of the occasional twittering and calls of birds.
Suddenly a Red Natal Duiker Buck (Cephalophus natalensis)
emerged from amidst the leafy shrubs, right opposite to where I
lay. It cautiously and timidly looked around to make sure all
was safe, stooped and began drinking. Suddenly the water was
lashed into foam. Considerably startled, I rushed to the edge
of the pool, and there at the other side was a Python in the shallow
water with the buck in its coils. The struggle was fearful, but
it ended in the snake smothering the antelope. When the
victim ceased to resist, the snake laboriously dragged it to the
shore, and after resting awhile, constricted it afresh, evidently
to elongate the body to make the swallowing process as easy as
possible, and then began eating atthe head. After the head, neck
and shoulders had disappeared down the snake’s throat, I carefully
crept round through the bush, and pouncing upon the Python,
smashed its head and backbone with a quick succession of blows
from a stout stick.
The Python had evidently submerged itself in the water, and
was effectually concealed from view by the various water plants.
On the approach of the buck it had silently sunk its head under
the level of the surface of the water, and when the buck bent
its neck to drink, those cruel re-curved teeth had seized it, and
next instant the victim was in the deadly coils of the serpent.
We ate some of the buck at our camp that night, and a leopard
sneaked off the rest. However, we got even with it next day,
for we traced it to its lair with the aid of our fox-terrier dogs,
killed it, and took its hide off as a trophy.
PYTHONS SWALLOWING PEOPLE.
I have read and heard may travellers’ tales about Pythons
swallowing people, but I have never known of a case which was
thoroughly authenticated. I have been told scores of times by
FEEDING A PYTHON. 75
natives, prospectors and hunters of instances, but I always took
them cum grano salts.
One instance, however, came within my experience which
might have resulted in a Jonah-like performance. A plucky
little Kafir boy, of twelve years, attacked a Python with his
kerrie. In endeavouring to deal it a blow on the head, it got a
grip of his leg with its tail, and was instantly round his body.
His cries brought us to the spot. We unwound the Python, and
beyond a dreadful fright, the boy was little the worse, except for
a bite on the shoulder. The snake was only twelve feet in
length. If it had been larger it would have, doubtless, crushed
the boy’s ribs before our arrival.
Pythons will show fight when wounded or cornered, and at
these times it is distinctly dangerous for a man, if alone, to tackle
them.
A friend of mine wounded a Python, and in his excitement
rushed forward to despatch it, but it came at him with gaping
mouth. He involuntarily put up his hands to save his face. The
Python seized his hand, and in his terror, my friend dragged back
with all his might, and, before we could release him, the sharp
re-curved teeth lacerated his hand dreadfully. The wounds
eventually healed all right.
FEEDING A PYTHON.
Pythons in captivity as a general rule refuse to eat, and
consequently they have to be fed artificially. At various times
we have had live Pythons at the Port Elizabeth Museum, but in
no single instance have we ever succeeded in inducing them to
eat. At the Natal Government Museum we also kept Pythons,
but were obliged to feed them artificially. I kept them for years
at my residence, with like results. However, I have found lately
they will if kept cosy and warm, often seize and swallow young
chickens and fowls. Then after some time they will readily
seize, constrict, and devour rabbits, guinea pigs and rats. None
of these creatures show the slightest alarm at the presence of a
Python in the same cage. When captured and constricted death
is rapid and painless. At the Port Elizabeth Museum it was our
practice to feed them once a fortnight. The Python was carried
outside. One man seized its tail, another the middle part of
76 THE SNAKES OF SOUTH AFRICA.
its body, and a third held it by the neck, opened its mouth and
gently pushed lumps of raw meat down its gullet with the aid of
a smooth, rounded stick. The second man meanwhile worked
Fic. 34.— Feeding a Python at the Port Elizabeth Museum. This Snake is 16 feet in length.
the meat down to the middle part of the snake. After about ten
pounds of beef had been lodged in the snake’s stomach, a ligature
was applied above the meat—that is, between the meat and the
snake’s mouth. This was to prevent the snake disgorging the
WHAT THE PYTHON DID. 77
food, as it would otherwise have done every time. The snake
was then placed out in the warm sunshine for half a day, the
ligature was removed, and it was then put back into its cage
again until next feeding time.
CROCKERY-SMASHING PYTHON.
When out hunting one day in Natal we captured a Python,
about seventeen or eighteen feet long. My Dutch friend brought
it in next day to me in a mealie sack. He dumped it down in
my chemical room at the Museum, the walls of which were covered
with shelves on which hundreds of jars of specimens in spirits,
and lots of empty glass jars, were stored. We could not get a
cage ready that day for the Python, so, thinking he would be
safe in the sack till the following day, I locked him up and went
home.
WHAT THE PYTHON DID.
You want to know what the Python did? Why, he somehow
or other got out of the sack during the night, and explored every
inch of each shelf in the room, seeking some hole through which
to escape. Finding none, he coiled himself up in a ball on the
topmost shelf and went to sleep. He left an odd bottle here and
there on the shelves, thinking I might need a few, but all the rest
had been pitched in a heap on the floor. We let him sleep for
half a day, until we had sorted out all the specimens from the heaps
of broken glass which half filled a cart, then we tackled him.
We thought we were going to have quite an exciting time, but we
were woefully disappointed, for the Python was as drunk as a
medieval fiddler. What! a Python drunk? How did he get
drunk? Why, quite easily. Those bottles he knocked down
from the shelves were full of methylated spirit, and the con-
centrated fumes of alcohol in that closed-up room got into
his blood through absorption from the air breathed by him.
When he got sober he found himself imprisoned in a wire
cage, where he was forced to do a year’s solitary confinement.
Then he escaped, and a newspaper reporter finding it out,
he reported in the leading daily paper a marrow-freezing
account of how Pythons swallow people as easily as we dispose
of oysters.
78 THE. SNAKES: OF SOUTH AFRICA.
FASTING POWERS.
Pythons have been known to fast for at least two years. I
have kept Pythons in captivity which lived from six months to
a year and a half without food. I did not purposely starve them.
I offered them their natural food from time to time, but never
succeeded in inducing them to eat. I dare say those I kept
would have lived much longer, but I did not care to see the
creatures starve to death, so began feeding them artificially. I
must admit, however, that after a year and a half of starvation,
they did not appear to be much emaciated. Although snakes
will fast a long time, they will die, as a rule, after a few months
if deprived of water, except during the winter months, when they
will frequently coil up in a warm corner of their cage and lie
dormant for three or four months.
RUDIMENTS OF LEGS.
Most Pythons still retain traces of the legs their remote
ancestors possessed, but
gradually lost, because
they did not use them
sufficiently. On exami-
nation, two horny spurs
will be found near the
vent, which are the ex-
ternal rudiments of hind
legs. Internally a por-
tion of the pelvis bone
still remains. Pythons
are doubtless the de-
scendants of huge pre-
historic lizard-like crea-
tures which lived upon
Fic. a5 aber of the flattened skin of a South African the surface of. + the
ython showing the claws and bones which ae C
indicate that the remote ancestors of Pythons earth millions of ry ears
possessed legs. (From British Museum Guide.
Reptiles.) ago.
STUPID INDIFFERENCE.
Once I had a Python in captivity, and the perverse thing
would not eat. I introduced a big barn rat into its cage. The
PYTHONe STEAK. 79
rat showed no fear of the snake. I allowed it to remain for a
couple of weeks, feeding it regularly. The rodent invariably
sought refuge within the Python’s coils when alarmed ; and at
other times would sit on top of the coiled-up Python, and busy
itself cleaning its whiskers. One morning I was astonished to
observe that the flesh had been eaten for several inches along the
back of the snake near the tail, exposing many sections of the
backbone. The rat had evidently dined off the Python during
the night, and the beast had seemingly not resented the liberty,
for the rat was sitting in a corner with an expression of content-
ment upon his cunning visage. Now, although the Python had
not tasted food for fourteen months, this extensive wound healed
up completely.
PYTHONS IN CAPE COLONY.
Pythons could not have been very common in Cape Colony,
at least in fairly recent geological times, as most parts are not
particularly favourable to their existence. The old Hottentots
and Bushmen, however, when questioned, declare that they
existed when they were boys, in the warm, moist regions of the
Colony. However, they are now supposed to be extinct within
the borders of the Cape Colony. It is possible, however, that
there may be a few individuals left. They seem to be fairly
plentiful in the neighbourhood of Palapye Road, in Bechuanaland,
as Mr. Paul Jousse has sent me several from that locality.
PYTHON STEAK.
Snakes are really good wholesome food, and Python steak
grilled in the red glowing wood fire of the hunter’s camp is not
to be despised. One day when hunting, we killed a Python,
and two of our men, who were a mixture of several breeds—the
Hottentot element predominating—after skinning the reptile,
carried the carcase off to camp. When we arrived many hours
later, gameless and famishing with hunger, our men were all
squatting round a fire, each one with a lump of Python flesh impaled
upon the sharpened point of a freshly-cut stick, and holding the
meat in the fire. It smelt so savoury that I set the example and
ate a piece, and liked it so much that I tried another piece, for
it was really nice, tender and juicy.
CHAPTER Ix sv.
DIVISION AGLYPHA. THE SOLID-TOOTHED SNAKES.
Famity IV. COLUBRIN.
SUB-FAMILY I. COLUBRINZ.
THERE are about 1000 species or kinds included in this sub-
family of snakes, scattered over the various temperaté and
tropical regions of the world. Of this great number only twenty-
eight species inhabit South Africa. All of this sub-family are
known as the Aglypha, because their teeth are quite solid,
showing no traces of grooving. They are consequently all
non-venomous, and should not be interfered with, for they do
an immense amount of service in ridding the country of rats,
mice, and noxious insects. Some species are oviparous, that is,
they lay eggs. Others are viviparous, which means they give
birth to young.
After reading this book and carefully studying the pictures
showing the heads and teeth of the three typical kinds of snakes,
viz. the solid-toothed non-venomous snakes; the back-fanged
more or less venomous snakes ; and the front-fanged, typically-
venomous snakes, it should be quite easy for any student, by
means of a strong magnifying glass, or low power microscope,
to identify a snake of any of these three divisions. If grooved
or hollow fangs are found in the front of the top jaw, then the
snake is one of the typical venomous kind. If there are two or
three grooved fangs at the posterior end of the upper row of teeth,
the snake belongs to the back-fanged kind, which are all more or
less poisonous. All those snakes possessing solid teeth, without
any pronounced grooving, are as harmless as lizards, as far as
venomous properties are concerned.
THE SOLID-TOOTHED SNAKES. 81
SuB-FAMILY COLUBRIN.
SYNOPSIS OF THE SOUTH AFRICAN GENERA,
This sub-family ave without grooved fangs in the upper jaw. Their teeth
ave quite solid. No trace of poison glands.
1. GENUS TROPIDONOTUS.—Scales smooth in 19 rows. Pupil round ;
posterior maxillary teeth longest; internasal not entering the
nostril ; snout rounded.
2. GENUS PsEuUDASPIS.—Scales smooth in 27 to 31 rows; internasal
entering the nostril; snout with vertical sides, more or less
prominent. Pupil round. Posterior maxillary teeth longest.
a
CAA hy
A
K
nt
>
(pelt
Fic. 36.—Skull and teeth of a typical snake of the non-venomous division
(Aglypha). i ; ‘ }
1. Skull showing the teeth in both jaws, all of which are without grooves.
2. Top of the skull and lower jaw (C).
3. View of roof of mouth showing the two rows of upper teeth.
(A.) Maxillary teeth. (B.) Palatine teeth. (Brit. Mus. Cat. Snakes.)
3. GENUS ABLABOPHIS.—Scales smooth, in 19 rows; Pupil vertically
elliptic ; anal entire. Frontal at least once and a half as long
as broad ; maxillary teeth equal.
. GENus Lampropuis.—Scales smooth, in 19 to 23 rows; frontal broad
and short ; posterior maxillary teeth shortest ; Pupil vertically
elliptic or sub-elliptic. Anal entire.
5. GeENus Boopon.—Scales smooth in 23 to 33 rows, with apical pits ;
anterior maxillary teeth strongly enlarged. Vertically elliptic
pupil. 18 to 24 maxillary teeth.
6. GENUS LyCoPHIDIUM.—Scales smooth, with apical pits in 15 or 17
rows. Tail short (sub-caudals not more than 50 pairs). Pupil
vertically elliptic ; rostral small ; anterior maxillary teeth longest.
G
aS
82 THE SNAKES OF SOUTH AFRICA.
7. GENUS PRosyMNA.—Scales smooth, in 15 or 17 rows. Pupil vertically
elliptic ; rostral very large, with angular horizontal edge; pos-
terior maxillary teeth strongly enlarged. Maxillary bone short
with 7 or 8 teeth.
8. GENUS HomALosoma.—Scales smooth in 15 rows. Pupil round;
rostral small; nasal single; anterior maxillary teeth longest.
Maxillary short, with ro to 12 teeth. Tail short, sub-caudals in
two rows.
9g. GENUS CHLOROPHIS.—Scales smooth with apical pits in 15 rows.
Tail long (sub-caudals more than 80 pairs) ; pupil round ; posterior
maxillary teeth longest. Sub-caudals not keeled, and in 2 rows.
10. GENUS PHILOTHAMNUS.—Scales smooth with apical pits, in 13 or 15
rows, disposed obliquely, at least on the anterior part of the body.
Sub-caudals keeled and notched, like the ventrals. Tail long.
II. GENUS SIMOCEPHALUS.—Scales keeled, without pits, in 15 or 17 rows ;
those of the vertebral row enlarged and bi-carinate; anterior
maxillary teeth longest. Pupil vertically elliptic.
12. GENUS DasyPELTIS.—Scales in 23 to 27 rows, laterals very oblique,
and with serrated keels; teeth very small and few. Pupil
vertically elliptic.
Genus TROPIDONOTUS.
Two Species in South Africa.
KEY SO HE SPE ChES:
Ventrals 162-180 ; anal entire .. SC .. Lvopidonotus levissimus.
Ventrals 131-149 ; anal divided 50 .. Lvopidonotus olivaceous.
I. TROPIDONOTUS L&viIssimMuS. Watermeyer’s Black Snake.
Synonyms—Natrix levissimus ; Grayia lubrica.
Colour—Dark shining black above, a narrow yellow line on either side
of the head behind the eye; below, yellow, with a narrow ill-
defined dark line running the whole length of the body along
the centre of the ventrals. The two outer rows of scales spotted
and blotched with black.
Average length—3 feet.
Distribution—Eastern Province, Cape Colony; Natal.
2. TROPIDONOTUS OLIVACEOUS. Banded Olive Snake. Olyfen Slang.
Synonym—Coronella olivacea.
Colour—Olive or brown above, with a more or less distinct darker
vertebral band 4 or 5 scales wide, bordered on each side by a
series of whitish dots; flanks and ends of ventrals olive ; upper
lip yellowish, the sutures between the shields black; ventrals
yellowish, sometimes edged with olive.
Average length—2 feet.
Distribution—Southern Rhodesia ; North to Tropical Africa.
Genus ABLABOPHIS.
One Species in South Africa.
Scales smooth with apical pits, in I9 rows.
Frontal at least once and a half as long as
broad; maxillary teeth equal .. a .. Ablabophis rufulus.
THE SOLID-TOOTHED SNAKES. 83
1, ABLABOPHIS RUFULUS. Olive-brown Water Snake. Olyfen-Bruin
Water Slang.
Synonym—Coronella rufula.
Colour—Uniform dark olive-brown or blackish above; upper lip and
lower parts, light pink.
Average length—2z feet, to 2 feet 6 inches.
Distribution—Occurs all over South Africa. Has not been recorded
north of the Zambesi.
Genus LAMPROPHIS.
Four Species in this genus, all of which inhabit South Africa.
KEY lO LHe SPECIES:
Scales in 23 rows. Internasals a little shorter
than the prefrontals; loreal a little longer
than deep + ae ws oe .. Lamprophis aurora.
Scales in 23 rows. Internasals much shorter
than the prefrontals; loreal at least nearly
twice as long as deep .. . Lamprophis inornatus.
Scales in 23 rows. Internasals longer than the
prefrontals ; loreal as mee as eon or a
little longer than deep . Ss A .. Lamprophis fiskii.
Scalesin Ig rows .. a3 ; .. Lamprophis fuscus.
1, LAMPROPHIS AURORA. The Night Soe: Nacht Slang.
Synonym—Coluber aurora.
Colour—Olive or pale brown above, uniform or speckled with black ;
the scales of the vertebral series bright yellow or orange ; lower
parts white.
Average length—z feet.
Distribution—Both provinces of Cape Colony ; O. R. C., Transvaal.
. LAMPROPHIS INORNATUS. The Brown Snake. Bruin Slang.
Colour—Uniform brown above; brownish white below.
Average length—1 foot 6 inches.
Distribution—Both Provinces of Cape Colony.
. LAMPROPHIS FISKII. Fisk’s Snake.
Colour—Lemon yellow on the five median rows of scales, with large
blackish-brown spots forming a single series anteriorly, a double
alternating series posteriorly. Head lemon yellow above, with
symmetrical blackish-brown markings, viz. an oblique band
on each side of the occiput, a horseshoe-shaped band passing
through the eyes and across the snout, and a bar across the
frontal. Lateral scales of body and tail brown in the centre
and yellowish-white on the borders. Upper lip and lower parts
white.
Average length—tr foot 6 inches.
Distribution—Western Province of Cape Colony.
. LAMPROPHIS FuscuS. The Yellow-lipped Snake. Geel-lip Slang.
Colour—Uniform brown above ; upper lip, two outer rows of scales and
lower parts yellowish.
Average length—z feet.
Distribution—Western Province of Cape Colony.
84 THE SNAKES OF SOUTH AFRICA.
Genus BOODON.
Four Species in South Africa.
KEY lO) tHE SPECIES:
Scales in 23 or 25 rows. ‘Three labials entering the eye.
Two postoculars ; preocular not extending to upper
surface of head ; ventrals 175-196 ve ;
Scales in 23 or 25 rows. Three postoculars; preocular
extending to upper surface of head; ventrals
I96—210 Sc oe ac oe ae 5
Scales in 27 to 33 rows. Ventrals 192-237. Two
(rarely three) labials entering the eye; two pairs
of chin shields in contact with each other .. Boodon lineatus.
Scales in 27 to 33 rows. Three labials entering the
eye; only one pair of chin shields meeting on the
median line .. o:0 xe oa af .. Boodon mentalis.
1. BooDON INFERNALIS. Olive-brown House Snake. Zwart Huis Slang.
Colour—Olive-brown above ; lower parts whitish.
Average length—z feet 6 inches.
Distribution—Both provinces of Cape Colony; Natal; O. R. C.,
Transvaal; Southern Rhodesia; East Africa.
2. Boopon GuTtatTus. Spotted House Snake. Stippel Huis Slang.
Synonyms—Lycodon guttatus ; Alopecion annulifer.
Colour—Yellowish-brown above, with several rows of reddish-brown
spots with umber-brown borders, the two rows of spots along
the middle of the back almost circular, and largest; a dark
brown blotch on each side of the back of the head, and a pair of
dark longitudinal streaks on the nape; under-parts pale yellow.
Average length—1 foot 6 inches.
Distribution—Both provinces of Cape Colony.
3. Boopon LINEATUS. Brown House Snake. Bruin Huis Slang.
Synonyms—Lycodon geometricus ; Boodon geometricus.
Colour—Reddish brown above, uniform or variegated with yellowish,
with or without a yellow lateral streak; side of head light, the
brown of the upper surface ending in a point on the snout, with
a dark brown lateral streak passing through the eye, and dark
spots on the labials ; or head dark brown, with two more or less
distinct light lines on each side. Lower parts yellowish.
Average length—2 feet 6 inches.
Distribution—Common all over South Africa ; Extends north to Tropical
Africa.
4. BoopoyN MENTALIS. Striped House Snake. Streep Huis Slang.
Colour—Pale brownish above; two yellow lines on each side of the
; head ; lower parts white.
Average length—1 foot 6 inches.
Distribution—Damaraland.
Boodon infernalis.
Boodon guttatus.
Genus LYCOPHIDIUM.
Two Species in South Africa.
KEY TO THE, SPECIES:
Ventrals 164-208 Re im as .. Lycophidium capense.
Ventrals 146-156 ee “6 es .. Lycophidium semiannulis.
THE SOLID-TOOTHED SNAKES. 85
1. LYCOPHIDIUM CAPENSE. Cape Wolf Snake, Kaapsche Wolf Slang.
Synonyms—Lycodon capensis ; Lycophidion horstockit.
Colour—Brown, purplish or olive above; sides of head speckled or
vermiculate with whitish.
Varieties—
A. Brown or dark purple above, the lateral scales tipped with whitish ;
lower parts whitish.
B. Dark purplish brown above and below, lateral scales and ventrals
with a whitish edge ; throat white (Port Elizabeth).
C. Dark grey above, the scales edged with blackish ; two series of black
spots along the back, the anterior confluent into crossbars ; throat
white; ventralsand sub-caudals blackish-brown, edged with whitish.
Average length—tr foot 6 inches,
Distribution—Eastern Province of Cape Colony; O. R. C., Transvaal ;
Southern Rhodesia; Natal; Zululand; Delagoa Bay, and
northwards to Tropical Africa. (Moist, damp localities among
dead leaves, and under decaying logs.)
. LYCOPHIDIUM SEMIANNULIS. Northern Wolf Snake.
Colour—Greyish blue or purplish above, with irregular black cross-
bars; snout and sides of head yellowish, speckled with black ;
blackish-brown beneath, the shields edged with yellowish.
Average length—1 foot.
Distribution—Zululand ; Portuguese East Africa.
iS)
Genus SIMOCEPHALUS.
Two Species in South Africa.
KEY TO THE SPECIES.
Frontal a little shorter than the parietals ; two
postoculars ; ventrals 203-241 =: .. Simocaphalus capensis.
Frontal much shorter than the parietals ; a single
postocular ; ventrals 171-185 ve .. Simocephalus nyasse.
I. SIMOCEPHALUS CAPENSIS. ‘Three-cornered or File Snake. Driekant
Vijlslang.
Synonym—Heterolepis capensis.
Colour—Brown above, upper lip, middle of vertebral scales yellowish ;
yellowish or white beneath. Two rows of blackish blotches the
whole length of the body at ends of abdominal shields present in
adults.
Average length—+4 feet.
Distribution—Natal; Southern Rhodesia; Delagoa Bay; Portuguese
East Africa ; Central Africa.
2. SIMOCEPHALUS Nyass@. Northern Three-cornered or File Snake.
Noordelijke Driekant Vijlslang.
Colour—Blackish-brown above, paler brown below, the chin and the
lateral ventral keel yellowish.
Average length—4 feet. Attains a length of 5 feet.
Distribution—Natal; Transvaal; Delagoa Bay; Portuguese East
Africa ; Central Africa. :
Genus PSEUDASPIS.
Genus is represented by one Species only.
KE YSTO; tHE SPECIES:
Scales smooth in 27 to 31 rows. Internasal entering
the nostril; snout with vertical sides, more or less
prominent ae ae 56 5 ae .. Pseudaspis cana.
86 THE SNAKES :OF SOUTH AFRICA.
1. Ps—EuDASPIS CANA. Mole Snake. Zwart Slang; Lui Slang; Molslang.
Synonyms—Coluber canc; Covronella cana; Coronella phocarum ;
Duberria cana; Cadmus cunetformis.
Colour—The young are pale brown above, with dark brown white-
edged spots forming four longitudinal series; sometimes a
darker vertebral line; lower parts yellowish or purplish brown,
uniform or spotted with black.
4000404207
PitdJta)?) Ad
Fic. 37.—Head and neck of the harmless Mole Snake (Pseudaspis cana).
(From Harmsworth’s Natural History.)
Adults are very variable in colour, brown or reddish, with
more or less distinct spots; often uniform dark brown or shiny
black.
Average length— 4 feet. These snakes sometimes attain a length of
over 7 feet.
Distribution—All over South Africa ; North to Angola and British East
Africa.
Genus CHLOROPHIS.
Four Species in South Africa.
KEY TO THE SPECIES:
Ventrals without keels. Two labials entering the
eye ; sub-caudals 85-107 = = .. Chlorophis hoplogaster.
Ventrals with distinct lateral keels. Two labials
entering the eye; a single anterior temporal ;
sub-caudals 77-114 ac eG Ph .. Chlorophis neglectus.
THE SOLID-TOOTHED SNAKES. 87
Ventrals with distinct lateral keels. Two labials
entering the eye; usually two superposed
anterior temporals ; sub-caudals 114-140 .. Chlorophis natalensis.
Ventrals with distinct lateral keels. Three labials
entering the eye; sub-caudals 94-133 .. Chlorophis irregularis.
I. CHLOROPHIS HOPLOGASTER. Green Water Snake. Groen Water
Slang.
ES aoiynis heafilia hopolgaster ; Chlorophis oldhami; Pithothamnus
hoplogaster.
Colour—Uniform bright green, sometimes with an olive tinge above
greenish-yellow on the underparts.
Average length—3 feet.
Distribution—Cape Colony; O. R. C., Transvaal; Natal; Zululand ;
Rhodesia ; East and Central Africa.
2. CHLOROPHIS NEGLECTUS. East African Green Snake.
Synonyms—Pithothamnus neglectus ; Ahetulla neglecta.
Colour—Green above; greenish-yellow beneath. Some specimens have
purplish-brown blotches on the anterior part of the body.
Average length—3 feet.
Distribution—Southern Rhodesia; East Africa; British Central;
Africa.
3. CHLOROPHIS NATALENSIS. Natal Green Snake. Natalsche Groen
Slang.
Synonyms—Dendrophis natalensis ; Philothamnus natalensis.
Colour—Olive-green above, usually some of the scales with a white spot
on the outer border, and the skin between the scales black ;
greenish white below.
Average length—3 feet.
Distribution—Generally distributed over South Africa ; North to Central
Africa.
4. CHLOROPHIS IRREGULARIS. Northern Green Snake. Noordelijke Groen
Slang.
Synonyms—Coluber irregularis ; Philothamnus irregularis ; Philotham-
nus guentheri.
Colour—Green or olive above, scales often with a white spot at the
base, with or without a black upper border; skin between the
scales black ; sometimes with black spots or irregular cross-bands
on the anterior part of the body ; greenish-yellow below.
Average length—3 feet.
Distribution—Southern Rhodesia ; North to Tropical Africa.
Genus PHILOTHAMNUS.
A single Species in South Africa.
KEY-~ TO: RHE SPECIES.
Scales in 15 rows. Ventrals 169-207, anal
divided. Sub-caudals keeled and
notched ie ae Be Philothamnus semivariegatus.
I, PHILOTHAMNUS SEMIVARIEGATUS. Bush Snake. JBosch Slang.
Synonyms—Philothamnus punctatus ; Dendrophis semivariegatus ; Abe-
tulla bocagii ; Leptophis punctatus.
Colour—Green or olive above, with or without black spots or cross-bars ;
greenish-yellow below.
88
THE SNAKES OF SOUTH AFRICA.
A. Irregular black cross bars ; some of the scales with a whitish spot.
B. No black spots or bars ; some of the scales with a whitish spot.
C. With black spots, at least on the anterior part of the back.
D. Spots and bars absent or very indistinct.
Average length—3 or 4 feet.
Distribution—Delagoa Bay ; Portuguese East Africa.
Grenus PROSYMNA.
Five Species in South Africa.
KY Ohi ES SPECIES:
Scales smooth in 15 rows. Internasal paired;
two superposed anterior temporals .. .. Prosymna sundevallit.
Scales smooth in 15 rows. Internasal single; a
Scales smooth in 15 rows. Ventrals 131-153;
Scales smooth in 15 rows. Width of the frontal
single anterior temporal. Width of the frontal
not half the width ot the head ; ventrals 167;
sub-caudals 50 .. she Prosymna frontalis.
sub-caudals 19-34 . Prosymna ambigua.
more than half the width of the head; ventrals
169-185; sub-caudals 38-49 .. ns .. Prosymna bergeri.
Scales keeled in 17 rows; a single internasal .. Prosymna jani.
I.
PROSYMNA SUNDEVALLII. Coppery Snake. Koperachtig Slang.
Synonyms—Temnorhynchus sundevallii ; Rhinostoma cupreum; Tem-
norhynchus frontalis.
Colour—Pale brown above, each scale edged with darker; head
yellowish, with a more or less distinct brown band between the
eyes and a large dark brown crescentric blotch bordering the
parietals posteriorly ; two rows of small brown spots along the
back ; uniform whitish inferiorly.
Average length—1 foot.
Distribution—Both provinces of Cape Colony; Natal; Orange River
Colony ; Transvaal.
. PROSYMNA FRONTALIS. Northern Coppery Snake.
Synonym—Temnorhynchus frontalis.
Colour—Very similar to the former.
Average length—1 foot.
Distribution—German South West Africa; Angola.
. PROSYMNA AMBIGUA. Grey-Spotted Coppery Snake.
Synonym—Ligonirostva stuhlmannt.
Colour—Blackish above, each scale usually greyish in the centre ; lower
parts whitish or brown.
Average length—1 foot.
Distribution—Zululand; German South-West Africa; Southern
Rhodesia; Angola; East Africa.
. PROSYMNA BERGERI. West African Coppery Snake.
Average length—1 foot.
Distribution—German South-West Africa.
. PRosyMNA JANI. Black-headed Coppery Snake.
Colour—Pale reddish-brown above; the greater part of the upper
surface of the head and nape black, leaving a pale sponton,
each supraocular and a cordiform one on the middle of the nape ;
a black cross bar on the neck, followed by a double series of black
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HARMLESS GREEN SNAKES. (After Smith.)
Fic. 38.—x. Eastern Green Snake. Natalsche Groen Slang (Chlorophis natalensis). Average length 3 ft.
Eye large. Body long. Colour: Parts above are bright green, sometimes olive tinge. Usually
some scales have white spot on outer border, and skin between scales is black. Parts below are
greenish-white. Distribution: All over South Africa. More abundant eastwards. 2. Northern
Green Snake. Noordelijke Groen Slang (Chlorophis irregularis). Average length 2-3 ft. Eye large.
Body tapering. Colour: Green or olive above, scales often with white spot at base, with or without
black upper border. Skin betweenscales black. Sometimes black spots or irregular cross-bands on upper
part of body. Greenish-yellow below. (Brit. Mus. Cat. Snakes.) Distribution: Rhodesia to Central Africa.
go THE SNAKES OF SOUTH AFRICA.
spots along the anterior two-thirds of the back; yellowish-white
below.
Average length—1 foot.
Distribution—Zululand ; Portuguese East Africa.
HOMALOSOMA.
Two Species in South Africa.
KEY 420. fHE SPECIES:
Ventral 115-144 .. oc oc Ait .. Homalosoma lutrix.
Ventrals 97-110 .. 3e “ec Homalosoma variegatum.
I. HOMALOSOMA LUTRIX. The Homalosoma Snake.
Synonyms—Coluber lutrix ; Homalosoma shiranum.
Colour—Colouration very variable; under-parts and lower surface of
tail uniform yellowish in the middle, and greyish on the sides,
usually with a regular lateral series of black dots.
The following is the description of the various varieties :—
A. Pale Brown or yellowish above, with a vertebral seriés of black
dots ; greyish olive or plumbeous on the sides, which are limited
above by a series. of black dots ; lateral ventral dots large.
B. Reddish brown above, blackish olive on the sides, greyish towards
the belly ; a fine black vertebral line ; lateral ventral dots large.
C. Like the preceding, but the vertebral line and the ventral dots
indistinct.
D. Uniform olive brown above, passing to greyish on the sides; the
lateral ventral dots very small.
E. Reddish brown or brick red above, grey on the sides; lateral
ventral dots well marked. (Eastern Prov. C. C.)
Average length—1 foot.
Distribution—Western and Eastern Provinces of Cape Colony ; Natal ;
O. R.{C.; Transvaal; Rhodesia; North to East and Central
Africa.
2. HOMALOSOMA VARIEGATUM. The Variegated Snake. Bont Slang.
Colour—The colour varies.
A. Dark brown above, with irregular lichen-like, brownish-white
variegation.
B, Olive-brown above, with three series of dark brown spots. Under-
parts in both varieties reticulated black and whitish.
Average length—1 foot.
Distribution—Zululand ; Delagoa Bay; Portuguese East Africa.
bastiezd
SUB-FAMILY ,RHACHIODONTIN Az.
Genus DASYPELTIS.
A single Genus in South Africa.
Scales in 23 to 27 rows, laterals very oblique and with serrated keels;
teeth rudimentary.
DASYPELTIS SCABRA. The Egg-eating Snake or Eier Vreter, or Eier Slang.
Synonyms—Coluber scaber ; Anodon typus ; Rachiodon scaber ; Tropi-
donotus scaber. Dasypeltis inornata.
OLIVE-BROWN WATER SNAKE. gI
Colour—The colouration varies considerably according to the locality of
the species—
A. Vertebral spots elongate and more or less confluent into a zig-zag
vertebral band; a black stripe along upper surface of tail;
under-parts spotted with blackish.
B. A dorsal series of large squarish or rhomboidal dark spots, sepa-
rated by light intervals, alternating with a lateral series of spots
or cross bars; under-parts spotted or dotted only at the sides.
C. Pale reddish-brown above with the markings very much effaced.
Intermediate between B. and F.
D. Dorsal markings as in B. but ventrals edged with blackish,
E. Dorsal spots confluent with lateral ones, forming cross bands ;
belly unspotted.
F. No spots or markings of any kind (Natal).
Average length—3 feet.
Distribution—Generally distributed over South Africa ; ranges as far
north as Sennar and Sierra Leone.
OLIVE-BROWN WATER SNAKE.
(Ablabophis rufulus.)
This well-known snake is common in suitable localities all
over South Africa. It is invariably found in the neighbourhood
Fic. 39.—An Olive-brown Water Snake. (After Smith.)
of swamps, vleis, and the banks ofriver and pools. Itis an expert
swimmer and diver, as well as climber. In captivity it prefers
frogs to any other food, showing great expertness in their capture.
I have, on several occasions, observed these Olive Water Snakes
chase frogs into the water and dive down and secure them at the
92 THE SNAKES OF SOUTH AFRICA.
bottom of the pond. In captivity they will seize and devour
live fish. In the neighbourhood of Port Elizabeth they are
common. We have a dozen or more at the Port Elizabeth
Museum which thrive well on their diet of frogs. They attain
an average length of about 2 feet. The under-parts are of a
beautiful light pink tint, which rapidly fades to a yellowish hue
when a specimen is placed in alcohol.
These snakes when constricting their prey will often throw as
many as five coils round it.
THE GREEN WATER SNAKES.
There are four species of Green Water Snakes, or Groen Water
Slangs, as the Dutch call them. Two species are common in
the southern parts of South Africa, and the other two in the
northern parts near the Zambesi. In Natal these Green Water
Snakes are frequently mistaken for Green Mambas, for although
partial to water they are in reality Tree Snakes living largely in
the foliage of trees, since they are expert climbers. These
Water Snakes have long tapering bodies and large eyes. They
frequent marshes, ponds, rivers and damp localities in search of
frogs, which are their favourite food. They swim and dive with
the greatest ease, and cause much alarm to bathers by popping
up almost under their noses. They are perfectly harmless,
being quite destitute of poison glands or poison fangs. If one
of these snakes should capture a frog or fish in the water it swims
ashore, and holding its head some inches above the ground, glides
up the bank, and, finding a suitable place, swallows its prey.
The Green Water Snakes are equally expert at swimming, diving,
climbing and travelling on the ground.
I kept some Green Water Snakes and Boomslangs in the same
cage. One day one of the latter swallowed a Water Snake.
After about twenty minutes I forced the Boomslang to disgorge
its victim. When thrown up, the Water Snake was none the
worse, and instantly glided off and almost immediately afterwards
caught a frog and swallowed it.
THE HousE SNAKES.
There are four species of snakes known as House Snakes, classed
under the genus Boodon. The Olive-Black House Snake, and
THE HOUSE SNAKES. 93
the Brown House Snake, are the two best known. They are called
House Snakes because they are so frequently found in and about
the dwellings of man, attracted thereto by the presence of mice
and young rats on which they feed. In return for this great
service men ignorantly kill them at sight, although they are as
harmless as any innocent lizard. These snakes are simply
invaluable about farmhouses, and are much more serviceable
than cats, for they can follow the destructive little rodents right
down to their secret hiding-places. House snakes are quite
harmless, and it would be well for all farmers to learn to identify
them with a view of protecting and shielding them from harm,
In the House Snake the farmer has a very valuable ally against
his enemies the rats and mice.
Late one night at a certain dwelling in Port Elizabeth, close
to my house, there was
a great commotion.
It seems three of the
inmates returned
about midnight from a
party. Arriving on
the landing half-way
up, they saw the form
of a snake by the light
cast by the candle.
Holding a_ con-
i Fic. 40.—A tame Brown House Snake swallowing a
sultation, the three Weune deaarue
retired below to seek
weapons. Meanwhile the landlady, hearing the unusual com-
motion, sallied forth, accompanied by her two daughters.
Cautiously peering down the stairs, they descended step by step.
Without previous warning, a loud hiss struck upon the strained
ears of the ladies. The form of a snake rapidly vanishing from
view behind a pedestal, caused such a succession of shrieks that
I bounded out of bed, hurried on a dressing-gown and rushed
out of my house to the rescue, fully believing some burglars
were committing murder. I did not knock. I just went in.
Cautiously stealing up the stairs were three young men armed with
weapons. I was much relieved to learn the trouble was only a
snake.
By the time it was killed there was many a dent in the hat
94 THE SNAKES OF SOUTH AFRICA.
stand in the hall, and sundry ugly cuts in the wallpaper caused by
the wild blows aimed at the reptile.
Hauling the mangled body out in triumph, one of the fellows
declared he would take it to the museum the following day.
I quietly assured them it was only a common Brown House
Snake, that it was perfectly harmless, as harmless as a lizard, and
that it was evidently intent upon catching mischievous, thieving
mice.
House snakes soon become quite tame, if gently handled at
frequent intervals. Those in our cages are taken out, and while
being held in the hand, they take dead mice from the fingers, and -
swallow them.
One evening when walking in St. George’s Park, at Port
Elizabeth, I attempted to capture a snake, which I noticed on
the path. In the darkness I bungled, and the reptile bit my hand.
I felt the sting of its teeth. Being too dark to identify the
species, I seized it firmly and hurried off to the nearest electric
light. J was much relieved to find that, instead of a Night
Adder, it was a harmless Brown House Snake. Now, if I had
known nothing about snakes I should probably have rushed off
for help in a great state of alarm and nervous dread, and doubtless
have been dosed with some popular snake bite remedy, and ever
afterwards advocated it as a cure for snake bite.
Mucu Apo ABouT NOTHING.
The following appeared in a certain Cape Colony newspaper,
and was telegraphed all over the country :—
“Our Louwsburg correspondent writes :—An extraordinary
affair occurred last night, when the inmates of the local gaol—
situated four miles away—were thrown into commotion by the
entrance of a snake into one of the two cells which a paternal
Government has provided for the accommodation of prisoners
and witnesses alike. About 1I p.m. one of the prisoners heard
a rustling noise near him, and, thinking it was a mouse, put out
his hand to drive it away. His fingers came into contact with the
body of a snake, and immediately he was bitten on the hand.
The shouts of the prisoners brought out the warders, but when
they entered the cell the snake had already retired into its hole.
The bitten man was suffering severely, and a messenger was
Fic. 41.—Spotted House Snake.
3
1
4
a
“ee:
HARMLESS HOUSE SNAKES. (After Smith.)
Stippel Huis Slang. (Boodon guttatus.) Average length 14 ft. Colour:
ws of reddish-brown spots, two rows of spots along middle of
back almost circular. A dark brown blotch on each side of back of head, and pair of dark longitudinal
streaks on nape. Under-parts pale yellow. (Brit. Mus. Cat.Snakes.) Distribution: Cape Colony. 2. Brown
House Snake (Boodon lineatus), and young specimen of same. Bruin Huis Slang. Average length
24 ft. Colour: Brown above, uniform, or variegated with yellowish, lateral streak passing through eye.
Head dark brown with two more or less distinct lines on sides. Lower parts yellowish. (Brit. Mus.
Cat.Snakes.) Distribution: All over South Africa, N. to Cent. Africa.
Yellowish-brown above, with several ro
96 THE SNAKES OF SOUTH AFRICA.
immediately despatched for the District Surgeon. Fortunately,
the snake was not of a kind whose venom acts promptly, for the
messenger had to ride four miles, and the doctor four miles
ere medical assistance could be rendered to the sufferer.
Dr. Wildish took with him the anti-venom discovery of the
Pasteur Institute, and its effects have so far been successful.”’
Subsequently, water was poured down the hole where the snake
was seen to disappear, and behold! out crawled a half-drowned,
harmless Brown House Snake.
THREE-CORNERED OR FILE SNAKES.
These snakes, although found in most parts of South Africa,
seem to be rather rare everywhere. Although large and formid-
able-looking, they are perfectly harmless. Their average length
is three to five feet. They are not easily mistaken for any other
genus of snake owing to their peculiar vertebral or backbone
scales, which, at first sight, gives these snakes a triangular
appearance. The row of scales along the backbone are bi-
carinate, which means double-keeled. These scales have a
groove longitudinally down the centre. The colour of the skin
in the groove is yellow, forming a long line from the head to the
tail of the snake. These backbone scales are rounded and larger
than those on the rest of the body. The colour of the upper
parts is usually brown. The edges of the abdominal shields and
lower half of last row of body scales are blotched, forming
two rows extending the whole length of the body. The
head is blackish in colour. Two species are officially
recognized in South Africa, viz. Simocephalus capensis and
Simocephalus nyass@. The reason for separating them into
two species was because S. capensis was supposed to have two
postocular shields and 203-241 ventrals, and S. nyasse only a
single postocular and 171-185 ventrals. However, I do not
agree with the separation of Simocephalus into two species.
I have examined several specimens and find that the above
characters which are supposed to distinguish them, are not
constant. In some there are two postocular shields and 170 to
180 ventrals. In others a single postocular and 203 to 240
ventrals, thus proving that these characters cannot be relied
upon. I have found the same thing to hold good with other
1. THE BUSH SNAKE. 2. THREE-CORNERED OR FILE SNAKE. (After Smith.)
Fic. 42.—Bush Snake or Bosch Slang (Philothamnus semivariegatus). Average length 3-4 feet. Large
eye, slender shape, tapering tail. Colour varies in different specimens. The variations are: (a) Colour
above, green or olive, with irregular black cross bars; some scales with whitish spot. Greenish-
yellow below. (b) No black spots or bars ; some scales with whitishspot. Ground colour green above,
and yellowish below. (c) With black spots, at least on anterior part of back. (d) Spots and bars
absent, or very indistinct.—(Brit. Mus. Cat. Snakes.) Note.—The prevailing colour is always green or
olive green, and yellowish below. 2. Three-cornered Snake or Vijlslang (Simocephalus capensis).
Average length 3 ft. Colour: Dark brown above, with olive shade. Upper lip and scales along top of
backbone yellowish. Light yellow below.
H
98 THE SNAKES OF SOUTH AFRICA.
species of snakes. This constant creation of new species in
Zoology is being carried to an extreme and will doubtless create
endless confusion and labour in the future, if continued. In
the case in point the difference is merely a matter of variation
which is by no means constant. Naturally, if a large series
should be examined, and if the difference should be seen to be
constant, then there is justification for the creation of a new
species, not otherwise.
The generic name Simocephalus has been previously used for a
genus of Crustaceans, and will require to be altered.
THE MOLE SNAKE.
ALSO KNOWN AS THE ZWART SLANG, LUI SLANG, MOL SLANG.
(Pseudaspis cana.)
The Mole Snake is widely distributed over South Africa.
It varies considerably in colour. Some specimens are shiny black,
others brick red, or brown spotted with black. The Mole Snakes
‘ and House Snakes can be regarded as typical examples of non-
venomous snakes, Young Mole Snakes are brown, with irregu-
lar black markings. Many of these about two feet long are light-
brown with wavy black markings on the back, and are also spotted
and blotched with white. Adults are usually found most
abundantly about the haunts of moles, mole-rats, field-rats and
vlei otomys, in sandy soil, sparsely covered with scrubby bush.
The young haunt stony hillocks, and rough, rock-strewn ground,
in pursuit of lizards, on which they mostly feed. In captivity,
Mole Snakes usually refuse all food. Occasionally I have induced
them to eat, and have observed them constrict and swallow moles
and rats.
Mole Snakes, when surprised, will show fight, boldly facing
the intruder and making desperate lunges in his direction, with
gaping mouth and slightly raised body. This habit of raising
the fore part of the body and head, and general outward similarity
to the Cape Cobra, causes them to be mistaken usually for the
latter. Apart from the difference in the formation of the teeth
and scales, Mole Snakes can easily be distinguished from cobras.
Their heads are narrow, and join the body without any narrowing
at the neck region. Their bodies are nicely rounded (cylindrical),
MOLE SNAKES. (After Smith.)
Fic. 43.—The Mole Snake (Pseudaspis cana), also known as the Zwart Slang and Lui Slang. Average length
3 to4 feet. Mole Snakes vary remarkably in colouration. This illustration shows the black variety, the
brown spotted variety, and the young. There are six pronounced varieties of colouration which are as
follows: 1. Glossy black, shading into purple on the under parts. No trace of spotsormarkings. (Zwart
Slang.) 2. Brown, covered with blackish, irregular, more or less rounded markings. Under-parts yellowish.
3. Uniform dark brown. Lighter on the under-parts. No trace of markings. 4. Brick red in colour,
covered with more or less rounded blackish markings. Under-parts yellowish. 5. Half-grown young.
Sometimes like No. 2 and No. 3. I have examined specimens from Eastern Province of Cape Colony
which are light brown, with a succession of lateral markings from the tip of the tail to the head. These
are made up of alternate black and white spots. The spots over the backbone are the largest, and
form a continuous line of black, running lengthwise. 6. Young, from birth to 3 months of age.
Brown, with wavy cross-markings of blackish. These markings are edged with white, and the whole
form four longitudinal series.
100 THE SNAKES OF SOUTH AFRICA.
and not flattened like those of the cobras. They possess no power
of elevating the skin of the neck in the form of the well-known
“hood” of the cobra. If any snake expands a hood, and at the
same time raises its head and the fore part of its body above the
ground, you may rest assured it is one of the venomous cobra
family.
MOLE SNAKES ARE HARMLESS.
The Mole Snake is quite non-venomous. It always kills its
prey by constriction. The power which it can exert is very
great. I have frequently held. Mole Snakes between my finger
and thumb, and allowed them to coil round my wrist. Ina few
minutes the blood circulation was arrested, and the hand grew
cold and numb, so great was the power of constriction exerted
by the snake.
In captivity Mole Snakes rarely climb. They only seemed to
do so when exploring their place of confinement, just after being
placed therein. After a day or two they never attempt to climb
the branches in the cage, and most of the time he buried in the
sand with the head protruding, which they instantly withdraw
if disturbed. In the wild state I have occasionally found them
high up above ground in thick creepers, such, for instance, as
the honeysuckle, grenadilla, and creeper-covered bushes. It
is a common sight to see Mole Snakes basking in the sun near
rat or mole holes, into which they instantly retire if disturbed.
The Mole Snake is viviparous, giving birth to a great number
of young, usually from thirty to forty-five.
We procured one which measured seven feet three inches, and
it gave birth to eighty-four young, which is the maximum number
ever recorded. This specimen was, however, much larger than
the average of Mole Snakes, which are usually from three to four
feet in length.
It is a grave mistake to kill Mole Snakes, for they are as harm-
less as lizards, and are the farmer’s great allies, aiding him most
efficiently in killing off those pests the rats, mice, and mole
rats. They eat the useful little insect-eating mole, but that is a
small matter in comparison to the great amount of good they
accomplish.
IoL
MOLE SNAKES ARE HARMLESS.
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102 THE: SNAKES OF SOUTH AFRICA.
HARMLESS SNAKES.
It is unnecessary to notice in detail each of the Solid-toothed
Snakes, the names of which are given above. They are, one
and all, perfectly non-venomous, possessing no vestiges of poison
glands, and their teeth show no signs of grooving.
It is very desirable that the general public should become
acquainted with the different species of snakes in order that the
present indiscriminate slaughter of these innocent and exceed-
ingly useful reptiles should be checked. Through lack of know-
ledge of the habits and ways of these creatures of the earth, a bitter
warfare has been waged against them, and great numbers of
species of exceedingly useful reptiles have been, and are being,
exterminated.
THE EGG-EATING SNAKES.
SUB-FAMILY II. RACHIODONTINZ.
THE EGG-EATING SNAKE OR EIER VRETER.
(Dasypeltis scabra.)
The Egg-eating Snake is truly a remarkable creature, and
serves to bring forcibly home to us the wonderful and awe-
inspiring workings of Nature. In the study of Nature we see
the operation of a mighty All-Wise Intelligence. It reveals to us
the fact that there are great and mighty forces at work which we
call Laws, and through the operation of these great forces or
Laws, the Creator works. The student of Nature sees the results
of the operation of this mighty Power or Intelligence in everything.
In the Egg-eating Snake we have a living example of how Nature
takes away that which is no longer required, or which through
neglect or indolence is not used. We also see how wonderfully
she provides for the altered habits and environment of the
creatures of the Earth. YH
The only species which represents this sub-family of Colubrine
snakes is the Egg-eating Snake of Africa. It is different from all
other snakes in having only five very rudimentary teeth in the
upper jaw, and four in the lower jaw, situated about the centre
part of the mouth. In fact, practically speaking, its jaws are
MOLE SNAKES CONSTRICTING RATS.
Fic. 45.—The snake seizes the rat by the nose, whenever possible, and throws a couple or three coils round
its body. So powerfully does it constrict, that the rat is unable to breathe, and dies rapidly. The snake,
after constricting its prey in the manner seen in the picture, lies perfectly quiet for a few minutes,
and then proceeds to swallow the victimwhole. The coils are, at this time, somewhat loosened, but
remain in a position ready for instant contraction, should the prey show any signs of life. It is stated in
certain scientific books that snakes only throw two coils round their prey ; this is not so, at least with
South African constricting snakes. The number of coils depends upon the size of the victim. I have
seen as many as five coils thrown round the prey. [Photograph taken from life at the Port Elizabeth
Museum.]
104 THE SNAKES OF SOUTH ARKICA:
toothless. The Egg-eating Snakes vary a great deal in colour-
ation, according to the district in which they are found. On
account of such differences, they have been divided into six
varieties. Four out of the six varieties are found south of the
Zambesi, the other two occurring in Central and Northern Africa.
The sub-family name applied to the Egg-eating Snake is Rachto-
dontineg, which means having enamel-tipped tooth-like pro-
jections in the spine, penetrating the gullet. These snakes are
found in all parts of South Africa, but are nowhere common.
Their average length is three feet.
EVOLUTION OF THE EGG-BREAKING MECHANISM.
In proportion to the degree in which this species of snake
took to feeding upon eggs, its teeth dwindled in size and number,
and to-day it only possesses a few, which are quite rudimentary,
and cannot be detected unless the snake’s jaws be dissected.
In the act of swallowing eggs, teeth were of no use to the snake ;
in fact, they were a distinct hindrance, so Nature took them away,
and specially provided for the altered habits of this creature in
a most wonderful and unique manner. It reads almost like a
fairy tale, but it is nevertheless true that the Egg-eater actually
has teeth in its backbone. For all practical purposes they are
teeth, but in a strict scientific sense they are little bony pro-
jections jutting out from the backbone of the neck. They
project forwards, and downwards into the gullet, and are tipped
with enamel. There are about thirty altogether. The smaller
“teeth ’’ start from the base of the skull, and in full-sized snakes
continue for two and a half to three inches down the backbone,
terminating in six or seven others a little more prominent, and
more freely coated with enamel. These larger “ teeth ”’ are for
the purpose of sawing through strong hard shells which the smaller
teeth cannot negotiate. Below these, there are seven bony
projections almost a quarter of an inch long. These are not
tipped with enamel. They, like the others, project into the
gullet, pointing at an angle towards the mouth. When the
snake swallows an egg, it, by means of these projections,
keeps the egg in position until it is sawn through by the other
teeth. They are also used as an aid in helping the snake to
cast out the crumpled egg-shell, and ensuring that no pieces
oS
EGG-EATER AT WORK.
Fic. 46.—An Egg-eater doing his best to find a way into a Weaver bird’s nest. This is the nest of Smith’s
Weaver Bird (Sitagra capensis) which youngsters know as a Bottle Fink. This crafty Fink builds its
nest at the extreme end of a branch, so that its enemies, the wild cats and snakes, may not be able
toreachit. Asan additional security, it makes a long tube to the nest so that, even if a cunning serpent
should reach its home, as was the case in this instance, it could not get inside, because if it tried to
climb down the tube, it would fall off to the ground. The second picture shows an Egg-eater robbing
the nest of a Warbler in an ‘‘ Evergreen” bush, his head and neck are inside the nest. The third picture
shows an Egg-eater, from Natal. This specimenis 2 feet 10 inches long. Its upper parts are of a dull
reddish-brown colour, with a slight tinge of olive. The under-parts are light yellow. This is one of the
varieties of Dasypeltis scabva. In the corner of the picture is seen a portion of the backbone, and
also a section of the gullet, showing a few of the gular teeth protruding.
106 THE SNAKES OF SOUTH AFRICA.
should sip down into the stomach. There is no other species
of snake in the world which possesses these wonderful backbone
or gular teeth.
EGG-SWALLOWING PROCESS.
The expanding elastic-like power of the Egg-eater’s lower jaw
and skin of the throat is really immense, as will be noticed in the
illustration. The snake seizes the egg at one end and proceeds
to swallow it by a succession of slow and deliberate gulps,
accompanied by a pushing-forward movement of the body.
In fact, the snake’s mouth seems just to spread slowly over the
egg, so smoothly and evenly does the process act. When
the egg has been worked down into the throat, the snake raises its
head and neck an inch or two above the ground, and by working
its backbone backwards and forwards, saws the egg-shell right
through longitudinally, just as a person would do with a very
fine fret-saw. Then the neck-muscles are put into operation,
and the snake moves its neck from side to side, constricting the
egg until all the contents have been squeezed out and down the
gullet. Then raising its head a little higher, the Egg-eater spits
out the crumpled shell.
An Egg-eating Snake with a head the breadth of a man’s
forefinger can swallow a bantam’s egg. The largest varieties can
manage an ordinary domestic fowl’s egg.
EGG-EATERS IN CAPTIVITY.
Egg-eating snakes are interesting reptiles to keep in captivity.
Unlike most other snakes, they are not only quite non-
venomous, but, having no teeth, other than a few rudimentary
ones in the mouth, they are unable even to scratch the skin.
Knowing this, they never attempt to bite when handled, even
when first captured, as do many non-venomous snakes.
No species of snake is more interesting to observe and study
than the Egg-eater in captivity. He is different from the usual
snake, as he has a gentle, innocent look about him. After being in
captivity for a month or two, and gently handled at intervals, he
seems to become affectionate with whoever fondles him. However,
I fear a snake’s tiny spot of a brain is not sufficiently evolved to
EGG-EATERS IN CAPTIVITY. 107
be capable of disinterested affection. The reason why snakes grow
to like being handled and carried about in a person’s pocket, is
because of the warmth, which is exceedingly pleasurable to them.
The normal temperature of a snake is many degrees below that of
our bodies. Moreover, their temperature largely depends on
that of the atmosphere with which they are surrounded. They
generate heat so slowly within themselves that, unlike us, their
vital organs are quite unable to adapt themselves to a sudden rise
or fall of the temperature of the air.
So, when held in the hand, the warmth of our skin imparts an
enjoyable and pleasant feeling to a snake ; therefore, if gently
handled, snakes soon lose all nervousness and fear, and will lie
contentedly in the hand, or make explorations up the sleeves,
down the back, and all around the body, popping out occasionally
to take their bearings.
This reminds me of an amusing incident. One of my Egg-
eaters was a special favourite, because he was so tame that he
took eggs from my fingers, and when I allowed him to wander
about my person he always seemed reluctant to be taken back
to his cage. He was real company for me in my study. It
made me less lonely to feel him crawling up my trouser leg,
exploring my back, diving down my neck, or suddenly
popping out of my sleeve to see what I was up to. My aunt
had a standing grievance against me, because I so rarely
put in an appearance in the drawing-room when she had
visitors.
Once she was having some special friends in the evening
to see her, so I promised I would join the party. Taking a
walk around the grounds, to see if my Zulu servant had fed
my small menagerie of domesticated wild animals, and after
taking down a pet Python which I allowed to crawl up
a tree in the yard to bask in the warm sunshine and dream
dreams all day long of his former free, wild life in the rocky
forest-clad, moist valleys of the Eastern Transvaal, I meandered
in to my study, took out my Egg-eater snake, and, after
fondling him for a few minutes, pushed him into my pocket
to get warm. I was startled presently by the voice of my
aunt at the door complaining of my unsociable and selfish
conduct. With many regrets, I hurried after her, and was soon
absorbed in conversation with her friends, or rather answering
Fic.
AN EGG-EATER ROBBING A NEST.
47.—This plate illustrates a very pathetic incident. (1) Shows a Cape Quail on its
eggs, and its mate keeping it company. (2) Shows the approach of an Egg-eating
Snake. The quail is seen reluctantly retiring before this formidable enemy. ‘The snake
proceeds to make a meal of the eggs. (3) The snake an egg in its mouth. (4) The
snake is busy sawing an egg in its throat.
THE ROBBER ESCAPING. THE QUAIL’S GRIEF.
Fic. 48.—Continued.—(5) Having eaten the eggs, the wily serpent retires to the foliage. (6) The mother
and father quails return to find crumpled up egg shells. _In illustration (7), the Cape Colony variety of
the Egg-eater is shown, in comparison with the Night or Demon Adder (Causus rhombeatus). The top
one is the Night Adder. Although they are both brown with black markings, the Egg-eater can
easily be distinguished. His body is not so flat or broad as that of the Night Adder. It tapers more,
the black markings are different in shape, the scales are rough, and the iris of his eye is white, whereas
that of the Night Adder is black. Why! The easiest way to find out is to open the mouth and feel
with your finger inside. If no teeth, it is a harmless Egg-eater. Ifa couple of fangs should stab you,
then it is a venomous snake. This bird’s-nest robbing Egg-eater met with a violent end. One day
he got out of his cage, and a tame Secretary Bird gobbled him like a worm (8).
AN EGG-EATING SNAKE DINING.
Fic. 49.—Here we have a wonderful picture taken from life, the only known one of the kind in the world.
This is an Egg-eating Snake (Dasypeltis scabra) in the Port Elizabeth Museum. We placed an ostrich
egg before it, but it realized it was useless attempting to swallow it. We then (23B) put a fresh fowl’s
egg before it, and it at once proceeded to swallow it. 23C shows it getting the end into its mouth.
In 23D the egg is well on the road. Now comes the wonderful part, for, in the next picture, we see
the snake busy sawing the shell with those marvellous “teeth ’ mentioned in the text. In 23F the
shell is collapsing and the reptile is working its neck-muscles from side toside to crumple up the shell
in as small a space as possible, and at the same time squeezing the contents down its throat,
THE SNAKE CASTS UP THE SHELL.
Fic. 50.—Continued. Behold him casting up the crumpled egg-shell. In 16C (figure three) we see him coiling
The last picture shows the skull, and part of the back-bone of
himself up for a nap after his meal.
an Egg-eater. The sharp enamel-tipped sawing apparatus, in appearance like a long row of teeth, is
There is one on each section of the backbone. They
seen on the lower portion of the backbone. ]
protrude into the top portion of the gullet. The rather long projections at the opposite end to the
skull are not enamel-tipped. They hold the egg in position whilst the sawing operation is in progress.
LE2 THE SNAKES OF SOUTH AFRICA.
the variety of questions asked me, and listening to some wonderful
snake stories which I was assured were perfectly true.
Just when an old lady was in the middle of a thrilling tale
about a dreadfully venomous snake darting at her with open
mouth and long forked tongue, I was startled to observe her face
take a dismal hue. Her eyes were fixed in a glassy stare, and
her jaw hung limp. Starting from my seat, I prepared to
advance to her aid, when with a scream she lurched back-
wards. I glanced hastily around, and was about to summon
the other ladies to come and help, when my words were checked
by observing them rush with gestures of terror out of the
room.
Just then my aunt threw light upon the bewildering affair by
ordering me to leave the room instantly, and take away my
loathsome snakes. Then it all came like a flood of light into my
mind. It seems as I was listening intently to the old lady talking,
that Egg-eater, which I had forgotten all about, suddenly popped
his head and a few inches of his body out into the full glare of
light, from under the neck portion of my coat. That explained
the whole mystery.
I retired again to my studies abashed.
EGG-EATERS ARE CRAFTY SNAKES.
The Egg-eater is not altogether a fool. Youcannot trick him
about things which his ancestors for untold generations have
learned from experience and transmitted to him in the form of
a remarkably acute sense of smell, which is very necessary for
him in his profession of an egg-eater. Being short of fresh
pigeons’ eggs once, I went to my cabinet and took the clean
blown shells of a few doves’ eggs. Beating up the contents of
a fresh fowl’s egg, I syringed it into the empty shells, and care-
fully pasted tiny bits of tissue paper over the holes. Placing
these in the Egg-eaters’ cage, I watched, expecting the snakes
to swallow them as they always did the other eggs. First one
Egg-eater advanced. Touching each egg gently in turn, with
the tip of his nose or the point of his forked tongue, he crawled
away in disgust. Another and yet another eagerly advanced,
repeating the performance and duly retired. I began to get
EGG-EATERS ARE CRAFTY SNAKES. 113
interested. Leaving the eggs, I returned ina few hours’ time to
find them still there. For two whole weeks these eggs remained
in the cage untouched, although I refrained from giving the
snakes any others. Then, procuring some fresh pigeons’ eggs
I put them into the cage. The snakes approached, touched
them with their noses or tongue and instantly began to swallow
them. I tried this experiment a second time with the same
result. Frequently I have noticed that the snakes would eat
some of the eggs given them, but reject the others. On breaking
the latter open I always found them either addled, or with a
more or less developed young bird inside. I could never induce
an Egg-eater to swallow an egg, other than a fresh one.
The Egg-eater is an expert climber, and his sense of smell
being acute he is able to discover birds’ nests with the greatest
facility. It seems that he possesses a peculiar kind of smell-
sense which enables him to detect the proximity of eggs. The
odour given out by eggs evidently has an affinity for his sensitive
nerves of smell. If an old, empty bird’s nest be placed in the
cage of an Egg-eater he takes no notice of it, unless perhaps
occasionally for the purpose of utilizing it as a cosy bed. How-
ever, if fresh eggs be placed within it, he instantly detects their
presence, although hidden from sight.
If the Egg-eater had to depend entirely upon his senses of
sight and hearing, he would procure but a lean living, for birds’
nests, as a general rule, are effectually concealed from view.
Having a toothless mouth and a special set of egg-sawing
tools in his gullet, this snake is able to subsist mainly, if
not entirely, on birds’ eggs. It is probable, however, he will
swallow the young of birds, as well as various soft-bodied creatures,
such as lizards, worms, and various /avve. But I have not ascer-
tained for certain if he eats the living young of birds, for, some-
how, I could never harden myself sufficiently to rob innocent
parent birds of their young, and allow these little creatures to
be swallowed or otherwise perish miserably, for, having studied
their ways and habits in their native homes, I have grown to
love birds.
Most Egg-eaters are light brown, spotted and lined with black,
and are, in consequence, frequently mistaken for Night Adders
(Causus rhombeatus). In Natal and along the East Coast, the
colour is invariably a uniform pale reddish, or olive-brown above,
I
II4 THE SNAKES OF SOUTH AFRICA.
with no black spots or markings. This sub-species is known as
Dasypeltis inornata,
This variety of colouration in the same species of snake in
the different parts of South Africa, leads to considerable confusion
in the public mind. If any one is in doubt about the identity
of an Egg-eater, open its mouth, and if no teeth are present,
then he may be certain it is a true Egg-eating snake, and quite
harmless.
CHAPTER? ¥-
DIVISION OPISTHOGLYPHA.
(The Back-fanged Snakes.)
SUB-FAMILY III. D1IPSADOMORPHINAE.
Tuis third sub-family of the Colubrines belongs to a division or
series of snakes known as the Opisthoglypha, which means a
class of snakes with the posterior (back) maxillary teeth
grooved. There are about 300 species of them to be found in
the temperate and tropical parts of the world, with the
exception of New Zealand.
This family of snakes possesses one or more pairs of grooved
teeth situated in the upper jaws, midway between the front and
base of the jaws. They are set in the posterior or back maxil-
lary bone, which is more or less movable. Above these grooved
teeth there are glands which secrete a venom sufficiently strong
to paralyze prey preparatory to swallowing it. Owing to the more
or less rudimentary appearance of these glands, and the absence
of ducts, etc., as in the typical venomous snakes, it has been
assumed by naturalists that all this sub-family of snakes are
practically non-venomous as far as man is concerned, the fluid
secreted not being thought of sufficient quantity or quality to
affect animal life seriously, other than the small creatures on
which these snakes prey.
This belief has recently been shown to be erroneous,—at least,
in the case of two of these Back-fanged Snakes, viz., the Boom-
slang (Dispholidus typus) and Schaapsteker (Trimerorhinus rhom-
beatus) of South Africa, an account of which is given later on.
The Back-fanged Snakes should all be regarded as venomous
to a greater or lesser degree, and liberties should therefore not
be taken with them.
116 THE SNAKES OF SOUTH AFRICA.
These snakes stand midway between the harmless solid-
toothed (Aglypha) and the typically-venomous snakes which,
without exception, have the fangs placed in the front of the jaw,
and properly connected up with poison glands and ducts.
The Opisthoglypha snakes have grooved fangs, which are
situated so far back in the jaw that wounds cannot readily be
inflicted with them.
I have always found that these Back-fanged Snakes will never
attempt to bite unless in self-defence. I have frequently handled
most of the South African species, including the now dreaded
Boomslang, and they never showed any disposition to bite.
When kept in captivity for six months or more, and habituated
to the presence of human beings, they can be picked up and
caressed, and show little or no fear. However, when attempting
to capture them in the wild state they show fight, and will bite
if opportunity offers. Some of these Back-fanged Snakes are
arboreal, others terrestrial, although all are fairly good
climbers.
There are twenty-six species or kinds of this Back-fanged
family of snakes in South Africa, south of the Zambesi and
Cunene Rivers.
SuB-FAMILyY DIPSADOMORPHINZ.
SYNOPSIS OF THE SOUTH AFRICAN GENERA.
This sub-family of the Colubyine Snakes have grooved fangs at the posterior
end of the upper jaw. They are, without exception, more or less
venomous.
GreNus PyTHONODIPSAS.—Maxillary teeth 13, third to sixth longest,
followed after a very short interspace, by a large grooved fang ;
second to fifth mandibular teeth strongly enlarged, fang-like.
Head distinct from neck; eye moderate with vertically elliptic
pupil; nostril directed upward, pierced between a nasal and
a supranasal; parietals broken up into small shields. Body
cylindrical ; scales smooth or very obtusely keeled, with apical
pits in 21 rows; ventrals rounded. Tail moderate; sub-caudals
single.
GENUS TARBOPHIS.—Maxillary teeth 10 to 12, anterior longest gradually
decreasing in size posteriorly, and followed after an interspace
by a pair of enlarged, grooved fangs situated below the posterior
border of the eye; anterior mandibular teeth strongly enlarged.
Head distinct from neck; eye moderate with vertically elliptic
pupil. Body cylindrical or slightly compressed ; scales smooth,
oblique, with apical pits, in 19 to 23 rows; ventrals rounded.
Tail moderate ; sub-caudals in two rows.
GENUS
GENUS
GENUS
GENUS
GENUS
GENUS
GENUS
DIVISION OPISTHOGLY PHA: bi oy)
LEeptTopirA.—Maxillary teeth 15 to 18, gradually and feebly
increasing in length, followed after an interspace by a pair of
enlarged grooved teeth situated just behind the vertical ot
the posterior border of the eye; mandibular teeth, anterior
slightly enlarged. Head distinct from neck; eye large with
vertically elliptic pupil; posterior nasal concave. Body cylin-
drical or moderately compressed ; scales smooth or faintly keeled,
with apical pits in 17 to 25 rows; ventrals rounded ; sub-caudals
in two rows.
CHAM2ToRTUS.—Maxillary teeth 12, gradually and feebly increas-
ing in length, followed after a short interspace, by a large grooved
fang situated below the posterior border of the eye; mandibular
teeth sub-equal. Head distinct from neck; eye large with
vertically elliptic pupil ; posterior nasal concave ; loreal entering
the eye. Body compressed; scales smooth with apical pits,
in I7 rows; ventrals obtusely angulate laterally. Tail long ;
sub-caudals in two rows.
AMPLORHINUS.—Maxillary teeth 12 or 13, gradually increasing
in size, followed by an enlarged, grooved tooth; mandibular
teeth sub-equal. Head distinct from neck; eye moderate with
round pupil; nasal semi-divided. Body cylindrical; scales
smooth or feebly keeled, with apical pits, in 17 rows; ventrals
rounded. Tail moderate; sub-caudals in two rows.
TRIMERORHINUS.—Mazxillary teeth 10 to 12, sub-equal, followed
after an interspace by a pair of enlarged, grooved fangs, situated
below the posterior border of the eye; anterior mandibular teeth
strongly enlarged. Head distinct from neck; eye moderate, with
round pupil; nostril crescentric, between two nasals and the
internasal. Body cylindrical; scales smooth, with apical pits, in
17 rows; ventrals rounded. Tail moderate; sub-caudals in two
rows.
RHAMPHIOPHIS.—Maxillary short, with 6 to g teeth gradually
increasing in length and followed, after an interspace, by a
pair of very large grooved fangs situated below the eye ; anterior
mandibular teeth longest. Head distinct from neck, with
projecting snout; rostral large, hollowed out beneath; eye
moderate with round pupil; nostril crescentric in a divided
or a semi-divided nasal. Body cylindrical; scales smooth,
with apical pits, in 17 or 19 rows. Ventrals rounded. Sub-
caudals in two rows.
PSAMMOPHIS.—Maxillary teeth 10 to 13, one or two in the middle
much enlarged, fang-like, preceded and followed by an inter-
space, the last two, large and grooved and situated below the
posterior of the eye; anterior mandibular teeth very strongly
enlarged. Head distinct from neck, with angular canthus
rostralis; eye moderate or large, with round pupil; frontal
narrow. Body cylindrical; scales smooth, more or less oblique,
with apical pits, in 1m to Ig rows; ventrals rounded. Tail
long; sub-caudals in two rows.
DisPHOLIDUS.—Maxillary short, widening behind, where it arti-
culates with the forked ectopterygoid; teeth small, 7 or 8,
followed by three large grooved fangs situated below the eye;
mandibular teeth sub-equal. Head distinct from neck, with
distinct canthus rostalis. Eye very large with round pupil;
nasal entire. Body slightly compressed; scales very narrow,
oblique, more or less strongly keeled, with apical pits, in 19
118 THE ‘SNAKES OF SOUTH APRICA.
or 21 rows; ventrals rounded or obtusely angulate laterally.
Tail long ; sub-caudals in two rows.
GENUS THELOTORNIS.—Maxillary teeth 16 or 17, gradually increasing
in length, followed after a short interspace by two or three
enlarged grooved teeth situated below the posterior border
of the eye; anterior mandibular teeth strongly enlarged. Head
distinct from neck. Eye large, with horizontal pupil; nasal
entire. Body cylindrical, very slender. Scales narrow, very
oblique, feebly keeled, with apical pits, in 19 rows; ventrals
rounded. Tail long; sub-caudals in two rows.
Skull of Dispholidus typus.
(Brit. Mus. Cat. Snakes.)
Fic. 51.—Skull of typical Back-fanged Snake.
1. Side view showing the position of the fangs (B).
2. Top of head and lower jaw (C).
3. Roof of the mouth (A). Showing position of the fangs at posterior
end of outer row of upper teeth.
The inner row of teeth are the palatines.
GENUS AMBLYODIPSAS.—Maxillary very short, with 5 teeth gradually
increasing in size, and followed, after an interspace, by a large
grooved fang situated below the eye; mandibular teeth decreas-
ing in size posteriorly. Head small, not distinct from neck ;
eye minute, with round pupil; nostril in a single very small
nasal; no internasals; no loreal; no preocular; no anterior
temporal. Body cylindrical. Scales smooth, without pits, in
I5 rows; ventrals rounded. Tail very short, obtuse; sub-
caudals in two rows.
GENUS CALAMELAPS.—Maxillary very short, with 3 or 4 _ teeth
gradually increasing in size and followed, after an interspace,
by a large grooved fang situated below the eye , anterior mandi-
bular teeth enlarged. Head small, not distinct from neck ;
DIVISION OPISTHOGLYPHA. Ig
eye minute, with round pupil; nostril in a divided or semi-
divided nasal; no loreal; no preocular; no anterior temporal.
Body cylindrical. Scales smooth, without pits, in 17 or 19
rows. Ventrals rounded. Tail very short, obtuse; sub-
caudals in two rows.
GENus MacreELaps.—Maxillary short, with 4 moderately large teeth,
followed by a very large grooved fang situated ‘below the eye ;
anterior mandibular teeth enlarged, third to fifth longest. Head
small, not distinct from neck; eye minute with round pupil ;
nasal divided; no loreal; no preocular; prefrontal entering
the eye. Body cylindrical; scales smooth, without pits, in
25 or 27 rows; ventrals rounded. Tail short ; sub-caudals
single.
GENUS APARALLACTUS.—Maxillary short, with 6 to g small teeth
followed by a large grooved fang situated below the eye;
anterior mandibular teeth longest. Head small not distinct
from neck ; eye small, with round pupil ; nasal entire or divided
no loreal. Body cylindrical; scales smooth, without pits, in
I5 rows; ventrals rounded. Tail moderate or short; sub-
caudals single.
Genus PYTHONODIPSAS.
This Genus is represented by a single Species.
(For Scientific Description, see Synopsis of Genera of the Dipsadomorphine.)
1. PYTHONODIPSAS CARINATA.—Keeled Snake: Driekant Slang. (Kiel
Slang.)
peice nat caioured or pale buff above, with a double alternating
series of square grey spots, a few of which may coalesce to form
transverse bars; lips with vertical grey bars; lower parts
white.
Average length—Two feet.
Distribution—Damaraland ; Zambesi Regions.
Genus TARBOPHIS.
A single Species in South Africa.
KEY STO) THiP SSPE CIES:
Scales in 19 rows; anal divided. Three labials
entering the eye. Ventrals 206-242 .. Tarbophis semiannulatus.
I. TARBOPHIS SEMIANNULATUS. TigerSnake. Tijger Slang. (Tier Slang.)
Synonyms—Telescopus semiannulatus.
Colour—Yellowish or pale brown above, with 24 to 34 dark brown
or blackish transverse rhomboidal spots or cross-bars on the
body ; head without any spots or markings; yellowish-white
beneath.
Average length—2z feet 6 inches.
Distribution—Natal ; Basutoland ; Orange River Colony ; Transvaal ;
Delagoa Bay; Portuguese East Africa; Central and East
Africa.
120 THE SNAKES OF SOUTH AFRICA.
Genus LEPTODIRA.
A single Species in South Africa.
ISD NY AMO) AMNANS, SPACES.
Anal entire ; scales in 19 (exceptionally 17) rows ; :
ventrals 144~-180; sub-caudals 32-54 .. Leptodiva hotambeia.
1. LEPTODIRA HOTAMB@IA. The Herald or Red-lipped Snake. Roode-
lip Slang. (Rooi-lip Slang.) : a
Colour—Brown, olive or blackish above, uniform or with whitish
dots, like fly’s eggs, more apparent when skin is stretched. A
black band on the temple, usually connected with its fellow
across the occiput ; upper lip bright red, or orange red ; under-
parts whitish.
Average length—2 feet. :
Distribution—General all over South Africa; North through Tropical
Africa to Senegambia and Nubia.
GENuS CHAMATORTUS.
This Genus is represented by only one Species.
(For scientific description see the Synopsis of Genera of the Dipsadomorphine.
I. CHAMATORTUS AULICUsS. The Cross-barred Snake.
Colour—Brown above, the back with numerous whitish, dark-edged
cross-bars, the sides spotted with whitish ; head whitish, spotted
and marbled with brown, and with a brown streak on each
side passing through the eye; labials edged with brown ;
beneath white.
Average length—2z feet 6 inches. ‘
Distribution—Transvaal ; Southern Rhodesia ; Portuguese East Africa ;
East and Central Africa.
Genus AMPLORHINUS.
A single Species in South Africa.
KEY TO THE, SPECIES.
Scales in 17 rows, feebly keeled on the
posterior part of the back and at the
base of the tail. Ventrals 133-140;
anal entire; sub-caudals 60-86. Ros-
tral moderate ; nostril in single semi- ;
divided nasal .. as xe .. Ampblorhinus multimaculatus.
1. AMPLORHINUS MULTIMACULATUS. Cape Many-spotted Snake. Kaapsche
Stippel Slang. ;
Colour—Olive or brown above, with two more or less distinct yellowish
stripes and longitudinal rows of black spots; bluish-grey or
olive beneath. Some specimens uniform bright green above,
and lighter green beneath.
Average length—1 foot 6 inches.
Distribution—Cape Colony ; Transvaal (High veld).
DIVIStON-OPISTHOGLY PHA. 121
Genus TRIMERORHINUS.
Two Species in South Africa.
KEY TORE SPECIES.
Eye as long as its distance from the nostril... Tvimerorhinus rhombeatus.
Eye shorter than its distance from the nostril Tvimerorhinus triteniatus.
1. TRIMERORHINUS RHOMBEATUS. Rhombic or Spotted Schaapsteker.
Bont Schaapsteker.
Synonyms—Coluber rvhombeatus ; Psammophis longementallis.
Colour—Colouration variable. Greyish, yellowish or pale olive-brown
above, with brown black-edged markings which may form
three or four longitudinal series of round or rhomboidal spots,
or be partially or entirely confluent into three undulous or
straight longitudinal bands; a yellow vertebral line sometimes
present ; a dark band on each side of the head passing through
the eye, widening behind and often joining its fellow on the
occiput, sometimes broken up into spots; upper lip yellowish-
white, uniform or with black spots ; tail with three dark stripes ;
lower parts white, dotted or spotted with bluish grey or black.
Average length—2z feet to 2 feet 6 inches. Attains a length of 3 feet.
Distribution—Both provinces of Cape Colony ; Orange River Colony ;
Transvaal; German South West Africa; Southern Rhodesia ;
Angola.
2. TRIMERORHINUS TRITHNIATUS. * Striped Schaapsteker; Streep or
Gestreepte Schaapsteker.
Synonym—LKhagerrhis triteniatus.
Colour—Greyish or pale brown above, with two or three dark brown,
black-edged bands originating on the head and extending to
the end of the tail, the outer passing through the eye, the verte-
bral sometimes rather indistinct or absent; a fine yellowish
line sometimes divides the vertebral band; the sides below
the bands white with a pale brown or red streak running along
the outer row of scales ; upper lip and lower parts white.
Average length—2 feet 6 inches.
Distribution—Occurs all over South Africa; Common near Port
Elizabeth ; North to the Equator.
Genus RHAMPHIOPHIS.
A single Species in South Africa.
KEY tO vEh. Seb Guns:
Snout short, pointed. Scales in 17 rows.
Ventrals 155-168. Anal divided.
Sub-caudals 31-40. Rostral large .. Rhamphiophis multimaculatus.
I. RHAMPHIOPHIS MULTIMACULATUS. Damaraland Many-spotted Snake.
Stippel Slang.
Synonym—Coronella multimaculatus ; Dipsida multimaculata ; Rhager-
rhis multimaculata.
Colour—Pale buff or sandy grey above, with three or five series of
regular brown spots, the vertebrals broader than long; a A-
shaped brown marking on the occiput; an oblique brown
streak behind the eye ; lower parts white.
Average length—1 foot 6 inches to 2 feet.
Distribution—Northern parts of Cape Colony ; Orange River Colony ;
German South West Africa.
122 THE SNAKES OF SOUTH AFRICA.
GENusS PSAMMOPHIS.
Ten Species in South Africa.
KEY OL DLE SPECIES:
Scales in 17 rows ; ventrals 154-198. Anal
entire; two preoculars; sub-caudals
81-104 .. - Bie afc .. Psammophis notostictus
They
Ss.
s have slender cylindrical bodies, tapering tails and narrow head
Fic. 52.—The Cross-marked Snake (Psammophis crucifer).
are back-fanged snakes and poisonous, but not to any great extent.
The snakes of the Psammophis genu
Scalesin 17 rows; Ventrals154-198. Anal
divided (rarely entire). Preocular ex-
tensively in contact with the frontal ;
forehead concave; two labials enter-
ing the eye a xs a: .. Psammophis furcatus.
DIVISION OPISTHOGLYPHA. 123
Scales in 17 rows; Ventrals 154-108.
Preocular narrowly in contact with
or separated from the frontal.
Two preoculars ; rostral considerably
broader than deep, 8 upper labials, 3
entering the eye Psammophis transvaaliensis.
Scales in 17 rows; Ventrals 154-198. 9
upper labials, 2 entering the eye .. Psammophis trigrammus.
Scales in 17 rows; ventrals 154-198. 9
upper labials, 3 entering the eye.
Snout nearly twice as long as broad ; %
anal divided ; sub-caudals 109-127 .. Psammophis bocagit.
Seales in 17 rows; Ventrals 154-198. A
single preocular; rostral as deep as
broad or slightly broader than deep ;
two labials entering the eye. Frontal,
in the middle, narrower than the sup-
raocular ; sub-caudals 90-116 .. Psammophis sibilans.
Scales in 17 rows; Ventrals 154-198
Frontal in the middle nearly as broad
as the supraocular; sub-caudals 64-95 Psammophis brevirostris.
Scales in 15 rows. Preocular extensively
in contact with the frontal; Ventrals
165-177 56 ae ee .. Psammophis jalle.
Scales in 15 rows. Preocular not reaching
the frontal ; Ventrals 136-155 .. Psammophis cructfer.
Scales in 13 rows. Ventrals 141-155 .. Psammophis angolensis.
Es
nN
PSAMMOPHIS NoTostictus. Dapple-backed Sand Snake. Appel Bont
Zand Slang.
Colour—Pale brown or olive above, with a pair of more or less dis-
tinct lighter stripes, and with or without small black spots ;
each vertebral scale often yellow in its posterior half; head
with dark spots but no longitudinal streaks; upper labials
and usually pre- and postoculars yellowish white; anterior
labials often spotted with black; lower parts and whole or
part of outer row of scales yellowish white, or olive with lateral
yellowish stripe ; anterior ventrals often with small black spots.
Average length—z feet 6 inches to 3 feet.
Distribution—Both provinces of Cape Colony ; Orange River Colony ;
Basutoland ; German South West Africa; Angola and Lower
Congo.
. PSAMMOPHIS FURCATUS. Fork-marked Sand or Grass Snake; Whip
Snake; Vurk-merk Zand Slang. (Vurk-gemerkde.)
Synonym—Psammophis monoliger.
Colour—Brown above, the scales edged with darker, a narrow yellow
vertebral line bifurcating on the occiput, its branches extending
to the anterior border of the frontal shield; a broader yellow
streak on each side, from the eye to the end of the tail; upper
lip, lower half of the outer row of scales, and lower parts yellowish
white with or without an interrupted blackish line on each side
of the ventrals.
Average length—3 feet.
Distribution—Both provinces of Cape Colony ; Orange River Colony ;
Transvaal; Southern Rhodesia; German South West Africa ;
North to Angola and Lower Congo.
124 THE SNAKES OF SOUTH AFRICA.
3. PSAMMOPHIS TRANSVAALIENSIS. Gough’s Sand Snake.
Colour—The seven middle rows of scales dark brown, tipped or edged
with black. The top third of the row of scales fifth from middle
of back, black; lower two-thirds of fifth row and upper two-
thirds of sixth row, cream-coloured; outer third of this row
black. The seventh and eighth rows dark brown, almost black
at the tips. Upper half of outer row black; lower cream.
A black line along each side of the ventrals, the space between
the black lines yellow. Lips and chin cream, with black dots
and markings; a black line runs along the upper edge of the
labials, across the rostral. Upper surface of head light brown
with darker black-edged markings, a lighter transverse band
on the nape. The yellow lateral stripes originate at a short
distance from the head, the portion of the neck anterior to
them with indistinct cross bars.
Average length—2 feet 6 inches.
Distribution—Transvaal.
Fic. 53.—Head and neck of a Sand Snake, also known as a Whip Snake
(Psammophis furcatus).
4. PSAMMOPHIS TRIGRAMMUS. Namaqualand Sand Snake.
Colour—Pale olive above, yellowish posteriorly, the scales on the
vertebral line black-edged, forming a stripe posteriorly; a
rather indistinct dark lateral stripe running along the outer
row of scales; upper lip, pre- and postoculars yellowish white ;
lower parts and lower half of outer row of scales yellowish white,
the ventrals clouded with olive in the middle.
Average length—3 to 4 feet.
Distribution—Namaqualand.
5. PSAMMOPHIS BOCAGII. Bocage’s Sand Snake.
Colour—A broad, reddish-brown black-edged vertebral band seven
scales broad separated from the sides, which are grey or reddish
brown, by a yellow streak; a black line along the middle of
the outer row of scales; head with rather indistinct yellow,
black-edged cross-bars; a black line along the upper border of
the labials, which are dotted with black; lower half of outer
row of scales and lower parts pale yellow, with a black line on
each side.
Average length—3 feet.
Distribution—Southern Rhodesia; Angola.
DIVISION OPISTHOGLY PHA. 125
6. PSAMMOPHIS SIBILANS. Hissing Sand Snake; Blaas Zand Slang.
8.
Synonyms—Coluber sibilans ; Psammophis thomast.
Colour—Colour very variable.
A. Olive or brown above, the scales mostly black-edged ;
a more or less distinct narrow yellow vertebral line and a broader
yellow streak along each side of the back; head with yellow,
black-edged longitudinal streaks in front, and transverse ones
behind, which markings, however, may become very indistinct
in the adult; upper lip yellowish white, uniform or with a few
brown or black dots on the anterior shields ; lower parts including
the lower half of outer row of scales yellowish white, uniform or
with a faint brown lateral line.
B. Asin A, but no trace of a light vertebral line.
C. Uniform brown or greyish-olive above, the markings on
the head very indistinct ; upper lip and lower parts, including
lower third of outer row of scales, uniform yellowish white. |
D. Brown or olive above, with lateral streaks and head
markings as in A. Vertebral line absent or reduced to a series
of yellow dots, one on each scale; upper lip with brown or
black dots; lower parts including lower half of outer row of
scales, white, with a continuous or interrupted black longitudinal
line on each side of the belly.
E. Uniform brown or olive above, with more or less distinct traces
of the markings on the head; upper lip yellowish, with brown
or blackish dots; lower parts including lower third or lower
half of outer row of scales, yellowish, with a brown or black
line on each side of the belly.
F. Olive above, which colour extends down to the ends of
the ventrals, uniform or dotted with blackish, or with most of
the scales black-edged ; sometimes in the young with traces of
light longitudinal stripes ; upper lip yellowish, spotted or speckled
with black; belly yellowish or pale olive, uniform or dotted
with black on the sides, the dots sometimes confluent into longi-
tudinal lines.
Average length—4 feet. Some specimens attain a length of over
5 feet.
Distribution—Both provinces of Cape Colony; Natal; Zululand ;
Transvaal; Southern Rhodesia; North through Tropical Africa
to Egypt.
. PSAMMOPHIS BREVRIOSTRIS. Short-snouted Sand Snake. Kort-snoet
Zand Slang.
Synonym—Psammophis sibilans.
Colour—Brown or dark olive on the back (7 rows of scales), pale olive
on the sides down to the ventrals, the two shades separated by
a more or less distinct lighter streak; a yellowish black-edged
spot usually present on each vertebral scale; head uniform
olive brown in the adult, in the young with a yellowish streak
along the frontal, and yellowish cross-bars behind; yellowish
white beneath, with a series of olive or blackish dots or short
streaks along each side.
Average length—4 feet. Some specimens attain a length of over
5 feet.
Distribution—Both provinces of Cape Colony; Natal; Zululand ;
Transvaal; Angola.
PSAMMOPHIS JALL&. Sand Snake.
Distribution—Southern Rhodesia.
(26 THE SNAKES OF SOUTH AFRICA.
g. PSAMMOPHIS CRUCIFER. Crossed Grass Snake. Kruis Gras Slang.
Synonym—Coluber crucifer.
Colour—Pale olive or brownish above, with a black-edged dark verte-
bral band, three scales wide which extends to the head, giving off -
one or two transverse bars on the nape, and enclosing a light
spot or streak on the suture between the parietal shields ; sides
of head with large dark blotches, the pre- and postoculars
yellowish ; a more or less distinct band along each side of the
body, with a white streak below it on the lower half of the outer
row of scales and the outer ends of the ventrals; lower parts
yellow or reddish orange, uniform or finely speckled with blackish
with a dark streak or series of small spots on each side.
Average length—z feet.
Distribution —-Both provinces of Cape Colony; Basutoland ; Natal ;
Zululand ; Orange River Colony ; Transvaal.
10. PSAMMOPHIS ANGOLENSIS.
Synonyms—A mphiophis angolensis ; Coluber crucifer ; Ablabes home-
yevi ; Dromophis angolensis.
Colour—Pale olive above, with a dark olive or blackish vertebral
stripe three scales wide, finely edged with black and yellow ;
head dark olive in front; blackish behind, with three yellow
transverse lines, the first behind the eyes, the third behind
the parietal shields; two black cross-bands may be present on
the nape of the neck, separated by a yellowish interspace ;
labials and preoculars yellowish white; one or two more or
less distinct dark lines or series of dots along each side; lower
parts whitish.
Average length— 2 feet.
Distribution—Orange River Colony; Angola; East and Central Africa.
Genus THELOTORNIS.
This Genus is represented by one Species.
KEY TO THE SPECIES.
Scales in 19 rows, feebly keeled. Ventrals 147-181. Anal divided.
Sub-caudals 117-170. Pupil horizontal; eye large; body slender.
Tail very long and slender.
1. THELOTORNIS KIRTLANDII. Bird Snake; Vogelvreter Slang.
Synonym—Leptophis kirtlandi.
Colour—Greyish or pinkish-brown above, uniform or with more or less
distinct darker and lighter spots and cross bands; head green
above, with or without some patches of pinkish, speckled with
black and a pinkish black-dotted streak on each side of the head,
passing through the eye ; upper lip cream-colour or pink, uniform
or spotted with black; one or several black blotches on each
side of the neck ; greyish or pinkish beneath, speckled or striated
with brown.
There are two varieties, which are coloured as follows :—
A. Head uniform green above and on the sides; black
blotches usually forming cross bands on the neck.
B. Head with black dots above and on the sides; no cross
bands on the neck.
Average length—+4 feet.
Distribution—All over South Africa in forest clad parts, excepting Cape
Colony ; Northwards to East and Tropical Africa.
DIVISION: OPISTHOGLYPHA. 1Z7
Genus DISPHOLIDUS.
This Genus is vepresented by one Species.
KEY TO THE SPECIES.
Scales keeled in 19 or 21 rows. Eye very large. See
synopsis of genera of Dipsadomorphine .. .. Dispholidus typus
1. DISPHOLIDUS TyPUS. Tree Snake or Boomslang.
Synonyms—Bucephalus typus; Dispholidus lalandu ; Bucephalus
capensis ; Dendrophis pseudodipsas.
Colour—tThe colour is variable. The colourations of the various varieties
are as follows :—
A. Brown above, upper lip and lower parts yellowish or greyish ;
young with darker and lighter spots, and the belly speckled
with brown.
B. Olive-brown above, yellowish beneath, scales and shields edged
with blackish.
C. Green above, uniform, or scales narrowly edged with black.
D. Green or olive above, all the scales and shields edged with black ;
head often much spotted with black.
E. Black above, each scale with a yellowish or greenish spot; head
spotted or marked with black ; ventrals and sub-caudals yellowish
edged with black.
F. Uniform black above, blackish grey beneath.
G. Brownish-black above. Light yellow beneath. The abdominal
shields blotched with dark brown on their sides, and edged with
a narrow line of brown.
Average length—4 to 5 feet. Some specimens attain a length of over
6 feet.
Distribution—Common all over South Africa in bush-clad localities;
North to Tropical Africa. .
Genus AMBLYODIPSAS.
This Genus is represented by one Species.
KEY TO THE ‘SPECIES.
Scales in 15 rows. No internasals; sub-caudals in two rows; head
small, not distinct from neck. Refer to synopsis of the genera of
the sub-family Dipsadomorphine.
1. AMBLYODIPSAS MICROPHTHALMA. The White-lipped Snake.
Synonym—Calamaria microphthalma.
Colour—Dark brown above ; uppewtlip, two outer rows of scales, outer
ends of ventrals, and lower surface of head and tail white; a
dark brown stripe along the middle of the belly.
Average length—1 foot 6 inches.
Distribution—Zululand ; Portuguese East Africa.
Genus CALAMELAPS.
Two Species in South Africa.
KEY, TO EHE SPECIES:
Scales in I9 rows; ventrals 161-174 .. ae .. Calamelaps warreni.
Scales in 17 rows; ventrals 133-134.. ae .. Calamelaps concolor.
128 THE SNAKES OF SOUTH AFRICA.
I. CALAMELAPS WARRENI. Warren’s Snake (recently discovered).
Colour—Uniform plumbeous grey.
Average length—tr foot.
Distribution—Zululand.
. CALAMELAPS CONCOLOR. Purple-glossed Snake.
Synonyms—Choristodon concolor ; Calamelaps miront.
Colour—Greenish black above, with a purple gloss; pale blackish
purple beneath, the shields margined behind with livid white.
Average length—1 foot.
Distribution—Natal, Caffraria.
tN
Genus MACRELAPS.
There is only one Species in this Genus.
NPY LO EEE SEB CIES:
Scales in 25 or 27 rows ; no preocular. Refer to synopsis of the genera
of the sub-family Dipsadomorphine.
1. MACRELAPS MICROLEPIDOTUS. Natal Black Snake. Zwart Slang.
Synonym—Uriechis microlepidotus.
Colour— Uniform black.
Average length—2z feet 6 inches.
Distribution—Eastern parts of Cape Celony ; Natal.
Genus APARALLACTUS.
Two Species in South Africa.
KEYSTO THE SPECIES.
Nasal divided ; ventrals 153-180 Bs .. Aparallactus guentheri.
Nasal entire ; ventrals 138-166 ote .. Aparallactus capensis.
. APARALLACTUS GUENTHERI. Guenther’s Snake.
Synonym—Uriechis capensis.
Colour—Blackish brown above, a little lighter beneath; chin and
throat yellowish white ; a deep black collar, edged with yellowish
white in front and behind, narrowly interrupted on the throat.
Average length—1 foot.
Distribution—Southern Rhodesid® Angola; East and Central Africa.
2. APARALLACTUS CAPENSIS. Black-headed Snake. Zwart-kop Slang.
Synonyms—Elapomorphus capensis ; Uriechis capensis.
~ Colour—Yellow or pale reddish brown above, with or without a blackish
vertebral line, yellowish white beneath ; upper, surface of head
and nape black, with or without a yellowish cross-bar behind
the parietal shields, the black of the nape descending to the
sides of the neck; sides of head yellowish, the shields bordering
the eye, black.
Average length—1 foot.
Distribution—Eastern parts of Cape Colony; Orange River Colony ;
Basutoland; Zululand; Transvaal; Southern Rhodesia; East
Africa,
Bixee 8
Sry
“ Sm oe a
TSHOM ae
EAA
|
|
|
j
Fic. 54.—(36 A.) Thecoiledsnake top right of picture is a Striped Schaapsteker (Streep or Gestreepte
Schaapsteker). Average length 2feet. Grey or pale brown colour above, two or three dark brown
black-edged bands on head extending to tail, the outer passing through eye. Often a fine yellowish
line running along backbone. Upper lip and lower parts white. Thin snake in centre, 4 Grass or
Sand Snake, or Whip Snake. Average length 3 feet. Tail brittle, easily breaks. The two larger
snakes and smallone are Spotted Schaapstekers. (36) Spotted Schaapsteker. Average length 2 feet.
Greyish or pale olive colour above, black-edged or brown markings. Tail has three dark stripes.
K
130 THE SNAKES OF SOUTH AFRICA.
THE SCHAAPSTEKERS, GRASS SNAKES, AND SAND SNAKES.
The Schaapstekers, or Sheepstickers, are well known to all
South African colonists. Their favourite haunts are the grassy
stunted-shrub-covered districts, dry plains and veld. On the
Karroo they are common. They are frequently found on the
grazing grounds and about the sheep kraals, drawn thither by
the lizards, beetles, larvae, and other living creatures which
accumulate in and about the excrement of sheep and cattle.
Now and again a villainous Cobra, or Ringhals, gets irritated at
the presence of sheep grazing on his hunting grounds, and bites
one or two. The cobra is a crafty fellow, and can take good care
of himself. After doing all the damage he can amongst the sheep,
he retires discreetly to his hole, or into the tangled bush. The
farmer, or his herdsman, comes along, finds the dying sheep, and
seeing Schaapstekers about, immediately concludes they are the
guilty parties, hence the name Schaapsteker, which means
‘« sheepsticker.”’
They are delicate snakes, and do not thrive well in captivity,
unless the conditions under which they are kept are such as they
were accustomed to in the wild state.
The Schaapstekers, Grass Snakes, and Sand Snakes mai rarely
attempt to bite unless roughly handled or trodden upon. More-
over, being Back-fanged Snakes, their bite is not much to be
feared, unless they take a full mouthful of bare flesh, and are
allowed to retain their hold for a few seconds in order to worry
the flesh. A bite from any of these Back-fanged Snakes through
the sleeve or trouser would, in most instances, not develop any
poisonous symptoms at all. Even if a barefooted person should
tread upon a Schaapsteker, and it bit him, the chances are that he
would only be slightly poisoned, for the first instinct of a bitten
person is to jump aside, or instantly shake the snake off; so, it
is apparent that in most cases of bites by ordinary Back-fanged
Snakes, there is little real risk.
My snake collector, Mr. James Williams, has such a contempt
for them that he sometimes brings me a pocket-full, and pulls
them out with his bare hand, one by one. Now and then
he is bitten. He instantly sucks the wound, and makes a couple
of slight cuts over the punctures and rubs in a few permanganate
crystals. Sometimes he feels a slight headache for an hour
THE SCHAAPSTEKERS, GRASS SNAKES, ETC. 131
afterwards, but no alarming poisonous symptoms have so far
manifested themselves.
I have experimented with the Spotted or Rhombic Schaap-
steker, and find that a full bite on the bared thigh of a rat will
cause death in two hours. Fowls bitten by full-sized Schaap-
Fic. 55.—A Rhombic or Spotted Schaapsteker (T. rhombeatus) photographed from above
just after laying a batch of eggs in the Port Elizabeth Museum.
stekers died in from seven to ten hours. For the first couple of
hours the fowls seemed none the worse. Then drowsiness slowly
set in, which was progressive, terminating in paralysis and death.
Post-mortem examinations showed all the organs to be apparently
normal. There was no sign of hemorrhage anywhere. It was
evident death was due to paralysis of the nerve centres.
132 THE SNAKES OF SOUTH AFRICA.
The Back-fanged Snakes, known as the Grass Snakes and
Sand Snakes (Psammophis), are, if anything, less venomous than
the above-named Schaapsteker. Half-sized specimens when
allowed to bite fowls, produced only slightly poisonous effects.
When full-sized specimens were allowed to bite fully and worry
the flesh for a few seconds, the fowls died, usually in from eight
to twelve hours. After going to press I conducted another
series of experiments with the venom of the Schaapsteker ; the
results of which are seen in the Addenda at the end of this
book.
A BATTLE—AND THE RESULT.
One day I introduced a Lineated Schaapsteker Snake, two feet
three inches long, into a cage containing an Olive-black House
Snake, which was two feet five inches in length. The latter began
to investigate the intruder with his black-forked tongue, which
he vibrated incessantly. He was evidently working himself up
into an excited condition. Presently he made a lightning-like
grab, and instantly lapped his jaws over the head of the Schaap-
steker. He gripped tenaciously, but made no attempt at con-
striction. The victim, realizing his danger, coiled, lashed, and
struggled mightily. After tumbling over and over, and tying
and untying themselves in a series of knots, the Schaapsteker
began to weaken. The House Snake still kept the same grip.
His jaws had not shifted in the least. He made no attempt
to get the head of his victim further into his mouth.
After holding on thus for over an hour, he proceeded slowly
to swallow the, now limp, Schaapsteker. I timed him, and found
he took four and a half hours before the end of his victim’s tail
disappeared down his throat. Then he yawned half a dozen
times. Opening the cage door, I lifted him carefully out and
placed him in cotton wool in a cosy little box, and left him to his
slumbers, for he was now torpid and helpless. I peeped in at
him every day, but, beyond raising his head and sticking out his
tongue at me, he made no attempt to move. In five days’ time
he began to revive, and moved around at times; but he had not
yet completed the digestion of his victim, for, on feeling his ribs,
I could detect the remains of the Schaapsteker in his digestive
tract. However, in seven days’ time the Schaapsteker had
“(snqwjnovuryjnm srydorydumyy) oyeus po}j0ds-Auey purjeremed “ghz ‘(snqwynovmynu snurysojdup) syeus poe}jods-Auey| edeg "yre—'oS “O1y
(‘yqms 4a") “SHAVNS GHLLOdS-ANVN
134 THE SNAKES OF SOUTH AFRICA.
been completely digested, and the now plump and sleek House
Snake became as active as ever.
THE RED-LIPPED OR HERALD SNAKE. ROODE-LIP SLANG.
(Leptodiva hotambeia.)
This is one of the best-known and most wide-spread snakes
in Africa. It is found from the Cape, right away through the
continent to the northern states of Africa.
It is known in the Eastern Province of the Cape Colony as the
Herald Snake, being named such by Mr. J. M. Leslie, who was
the first to discover it in these parts. It was named in honour of
the Eastern Province Herald.
The Herald Snake haunts gardens in the vicinity of houses,
taking refuge under pieces of timber, old tubs, rubbish, etc. It
usually ventures out about sundown, and may frequently be seen
on garden paths and public roads on moonlight nights. If
attempts be made at capture, it will bite fiercely. If trodden
upon it will instantly bite. Its fangs, however, are set far back
in the jaw, and are comparatively small, so it is seldom any
serious harm results from a bite. The food of these snakes
consists of mice, small garden toads, lizards and insects. The
average length of the Herald Snake is about two feet. It is
olive-brown in colour, sometimes uniform, but usually the upper
parts are flecked with tiny white dots, in appearance like flies’
eggs. These are very apparent when the skin is distended. The
under-parts are whitish. Two broad bands of shiny purplish-
black run from the snout to the base of the head, where they
join. The upper lip is a bright coral red or orange red. No
other South African snake has these red streaks along the upper
lips, and they consequently serve as a sure means of identi-
fication. .
It is one of the back-fanged snakes, with the venom glands in
the transition stage. I have experimented on fowls and rabbits,
both by forcing it to bite them, and also by pounding the glands
in water and injecting them under the skin. The animals, in
all cases, showed signs of poisoning to a greater or lesser degree,
according to the size of the snake and the season. The bitten
animals invariably recovered after appearing more or less lethargic
for a day or two.
THE RED-LIPPED OR HERALD SNAKE. 135
In{some recent experiments with a large freshly caught
Herald Snake, some of the bitten fowls died about twelve
and can easily be
his body, which
and the tiny white specks scattered over
He is a poisonous back-fanged snake,
dy to make a forward lunge.
black head,
be@ia).
de of defence rea
Leptodira hotam
shiny purplish-
al-red upper-lip,
He is in the attitu
Ss
y his cor
look like flies’ eggs.
de
—The Herald or Red-lipped Snake (
recognized b
Fic. 57
hours after the snake was allowed to obtain a full grip and press
its fangs well home for about twenty seconds. A monkey which
136 THE: SNAKES. /OF -SOUTH AFRICA.
was bitten moped for a day and a half, but recovered
eventually.
When allowed to bite through ordinary trouser cloth, and if
not permitted to hang on, the fangs of Herald Snakes and
Schaapstekers in most instances failed to penetrate the flesh. Itis
not because the fangs are not sufficiently long. The reason is
that with back-fanged snakes the poison fangs are at the back
of the upper jaw. It is, therefore, necessary for the snake to
ensure a mouthful before he can succeed in driving the fangs
fully home.
Persons must never take liberties with any of these back-
fanged snakes. Under ordinary conditions the momentary bite
of most of this family of serpents is not likely to have very serious
results, especially so if the punctures be scarified and rubbed with
permanganate of potash. It must be remembered, however, that
if allowed to bite and hold on, they will work sufficient venom
into the flesh to cause serious symptoms of poisoning, and often
death results.
Although the venom of a snake may not be in sufficient
quantity to destroy life by its direct action upon nerve centres
or blood, it is quite likely that it may be the indirect cause of
death by setting up a state of sepsis, or ordinary blood-poisoning.
Those addicted more or less to the habit of drinking alcoholic
liquor are strongly predisposed to contract blood-poisoning, and
die as the result of the injection of even a fractional dose of
snake venom into their blood.
THE BOOMSLANG OR TREE SNAKE.
(Dispholidus typus.)
A CANNIBAL.
This is the snake which recent events have made famous in
South Africa. Recently, one bit an assistant in our Museum,
with nearly deadly effect; then another in our collection
of living snakes deliberately swallowed another of its own
species, almost as big as itself. These incidents caused heated
discussions everywhere, as, in the first place, the Boomslang has
been regarded as a non-venomous snake, and, secondly, it has
hitherto been believed that when snakes swallow each other it
A CANNIBAL. 137
is of the nature of an accident—-as, for instance, when two
snakes seize and attempt to swallow a frog, rat, or other prey,
neither caring to let go, the bigger snake naturally engulphs
the smaller. In the case of the Boomslang referred to, the act
was deliberate in every sense of the word.
Some live frogs were introduced into the cage containing five
of these tree-snakes, one of which managed, by superior agility,
Fic. 58.—A Cannibal Boomslang. Photographed from life at the Port Elizabeth Museum.
He is in the act of taking another mouthful of his victim.
to capture and swallow several of the frogs, much to the annoy-
ance of one of its fellows. The latter worked itself into a state
of great excitement, and attacked its companion viciously, seizing
it in various parts of the body. Eventually it gripped the other
firmly by the neck and gradually worked its head forwards until
it reached the other’s jaws, whereupon it began deliberately to
swallow it with a succession of spasmodic gulps, accompanied by
heaving, forward movements.
After a lapse of twenty minutes it had swallowed one-half of
the struggling, writhing victim. I then had it removed and photo-
graphed, and, during the process, so intent was it upon the work
138 THE SNAKES OF SOUTH AFRICA.
it had in hand, that the swallowing process went merrily on, and
the photograph shows it in the act of raising its jaw in order to
take another mouthful. Being desirous of preserving these °
specimens as evidence of the occurrence, I removed a little
tobacco-juice with a feather from a dirty pipe and passed the
feather between the jaws of the Boomslang.
Almost instantly a curious vibratory thrill passed through the
snake from head to tail, the muscles relaxed, and the snake lay
a lifeless mass within two minutes of the introduction of the
tobacco-juice, demonstrating the rapid prussic-acid-like action
of this poison upon the vital functions.
This Boomslang was of the striped, black and yellowish-green
variety, measuring four feet nine inches, whilst the victim was the
brown variety three feet eleven inches long.
WHAT NATURALISTS SAY.
The Boomslang is placed in the British Museum Catalogue
of Snakes by G. A. Boulenger in the family Colubrine, series
Opisthoglypha, sub-family Dipsadomorphine. The definition of
the Opisthoglypha is ‘‘ a division of snakes with one or more of
the posterior maxillary teeth grooved.’ Most, if not all, are
regarded as poisonous to a Slight degree, sufficiently so only for
paralyzing their prey before deglutition.
Now, this is a very important point to bear in mind, viz., one
of the Opisthoglypha has been classified in many text-books of
science as practically a non-venomous snake, or one not at all
dangerous to man. It is my present intention to prove the
opposite.
Sir Andrew Smith, in his “‘ Zoology of South Africa,” remarks :
“ As this snake, in our opinion, is not provided with a poisonous
fluid to instil into wounds which these fangs may inflict, they
must consequently be intended for a purpose different to those
which exist in poisonous reptiles. Their use seems to offer
obstacles to the retrogression (retention) of living animals, such
as birds, etc., while they are only partly within the mouth ; and
from the circumstances of these fangs being directed backward
and not admitting of being raised so as to form an angle with the
edge of the jaw, they are well fitted to act as powerful holders
when once they penetrate the skin and soft parts of the prey
NO ORDINARY VENOM GLANDS. 139
which their possessors may be in the act of swallowing. Without
such fangs escapes would be common ; with such they are rare.”
He goes on further to say: ‘‘ The natives of South Africa
regard the Boomslang as poisonous, but in their opinion we cannot
concur, as we have not been able to discover the existence of any
glands manifestly organized for the secretion of poison. The
fangs are enclosed in a soft, pulpy sheath, the inner surface of
which is commonly coated with a thin glairy secretion. This
secretion may possibly have something acrid and irritating in
its qualities, which may, when it enters a wound, occasion pain
and even swelling, but nothing of greater importance.”’
This belief is held by naturalists to the present day, viz., that
the back-fanged division of snakes possessed these posterior
fangs only for the purpose of aiding them in retaining their
struggling prey, and as an extra aid in the swallowing process.
Sir Andrew Smith’s explanation that the sticky fluid observed in
the fang capsules was merely capable of exerting a paralyzing
influence upon such creatures as small birds and lizards has up
to now been the opinion of zoologists.
Naturally, I accepted this generally current belief, and, in
consequence, I and my assistants freely handled these snakes,
taking no precautions against being bitten, deeming such to be
superfluous until, ‘like a bolt from the blue,’ Mr. James
Williams, my assistant, was bitten, and came within a hair’s-
breadth of losing his life.
No ORDINARY VENOM GLANDS.
I carefully dissected the heads of several Boomslangs. In every
case I discovered a small gland on each side of the head, lying
immediately behind and above the grooved fangs. It could clearly
be seen that it had a connection with the cavity at the root of the
grooved fangs, and that it was the gland which secreted the
sticky fluid in the sheath enveloping them.
The next step was to ascertain if the organ was really a
gland capable of secreting any fluid, whether venomous or not.
Dr. Robertson, of the Veterinary Institute at Grahamstown,
made a microscopical examination of its structure, and reported
it to be undoubtedly glandular and capable of secreting. Sub-
sequent experiments by myself bear out this opinion, and,
140 THE SNAKES OF SOUTH AFRICA.
moreover, under the microscope, a sticky, colourless fluid, identical
with that found in the sheath, was observed in the structure of
the glands, and was pressed out upon the microscopical slide with
the tip of a lancet. Small pieces of these glands were cut up and
inserted under the skin of rabbits, and slight pressure applied
for an instant. Within fifteen minutes the rabbits were dead.
Fic. 59.—Life-sized head of a Boomslang, showing the situation of the fangs. The gland lies
above and behind. It is coloured black. The venom oozes from its base through a hole
in the jawbone into the fang capsule or sheath, and is forced down the grooves in the
fangs.
This is a type of the Back-fanged Division of Snakes.
One was stricken with complete paralysis within five minutes of
the insertion of the fragment of gland.
BOOMSLANGS ARE HIGHLY VENOMOUS.
These and other experiments, mentioned in detail a few pages
further on, conclusively prove these glands to be capable of
secreting a very virulent venom, and that the glands produce the
glairy sticky fluid within the sheaths enveloping the fangs. The
A MAN BITTEN. 141
poison-glands are comparatively small—a fifth the size of those
of a Puff Adder. That they secret a venom, potent and virulent,
in proportion to their size, does not admit of a doubt. Sir Andrew
Smith claims that the fangs are
simply used for the retention of
the prey, such as birds, which
would otherwise escape. This is
partly, but not wholly so. When
a Boomslang seizes a live bird, it
grips with great tenacity. The
bird struggles frantically for a
minute or two, and is then over-
come by the potent action of the
venom injected through the snake’s
grooved fangs. It then leisurely
proceeds to swallow the bird,
feathers and all. Boomslangs
never constrict their prey.
A Man BITTEN.
During November, 1907, we
had occasion to transfer our col-
lection of live snakes to their new
apartments, and Mr. Williams was
carrying a large variegated Boom-
slang when it suddenly buried its
teeth in the muscles of his bared
forearm, just below the elbow-
joint. It gripped with great
power, and held on firmly. We
disengaged its jaws, and I sug-
gested treating the wound, but
he would not hear of such a
thing, and believing, as I did at
the time, that it was practically
a non-poisonous snake, I did not insist.
Fic. 60.—This is Mr. James Williams,
who was bitten by a Boomslang, referred
to in the text. The parts, coloured
black, were the portions of his body
where the blood flowed out through the
walls of the*blood vessels, and accumu-
lated in the tissues, causing dark purple
patches, which were very much swollen
and inflamed. The right eye and the
surrounding tissues were immensely
swollen, disfiguring Williams’ face
almost beyond recognition. In fact, the
man presented a terrible and never-to-
be-forgotten sight. Blood oozed from
his mouth and nose. Hemorrhage
also took place in his stomach and
bowels. His recovery was little short
of miraculous. It was evidently due
to his vigorous constitution, the result
of very abstemious habits.
The wound smarted
a little, and he went on working. Within an hour a throb-
bing headache had manifested itself, accompanied by oozing of
142 THE SNAKES OF SOUTH AFRICA.
blood from the mucous membranes of the mouth, followed by
vomiting.
Meanwhile the wound was slowly oozing blood, and the
muscles in the vicinity were somewhat swollen. He was then
taken to Dr. Bruce, who declared him to be suffering unmis-
takably from the effects of virulent poison, which was seriously
affecting the blood and mucous membranes. During the night
Williams’ condition gradually became more alarming, and he
was taken to the Provincial Hospital the following day in a
state of utter collapse. He steadily grew worse, and blood
oozed continuously from all the mucous surfaces, viz. the mouth,
nose, stomach, bladder, and bowels. Then the blood began to
accumulate in the tissues, and caused large blackish-purplish
swollen patches under the skin. One eye and its surrounding
tissues, both forearms for two-thirds their length, a portion of
the abdomen, hip, and thigh, were all charged with extra-
vasated blood, presenting a dreadful sight. Other parts, in-
cluding portions of the back, left eye, and cheek, were slightly
discoloured.
The venom of the Boomslang evidently contains a poison
which acts upon the endothelial cells lining the capillaries. This
action is particularly characteristic of the poison of the Cvotaline
(Rattlesnakes), and is most marked after poisoning by the
South American vipers of the genus Lachesis, and S. African
adders.
Flexner has given the name “ hemorrhagins”’ to the con-
stituents of poisons possessing this action, and regards them as
special cytolisins for endothelial cells.
BETWEEN LIFE AND DEATH.
Williams rapidly grew worse after the second day in hospital,
severe abdominal pains setting in and inability to retain even
water in the stomach. From this time he rapidly grew worse,
and on the evening of the third day after being bitten I went to
the hospital, accompanied by Mr. William Armstrong, J.P., who
took what he believed to be his dying deposition, the doctor
declaring him to be in an extremely critical condition, which
might result in death before the morning. He lingered on in
ANOTHER INSTANCE. 143
this state, bordering between life and death, till about the sixth
day, when a slow improvement began to manifest itself. From
this time onward his condition rapidly improved, and in three
weeks he was discharged from the hospital still in a weak,
debilitated state, and although he gradually regained strength, he
had relapses of slight bleeding from the mucous membranes of
Fic. 61.—The Boomslang which bit Williams. It died about six months afterwards, and 1s
now pickled in a tank of spirit.
the mouth, and one eye was occasionally affected. Even three
months after the accident, slight discolouration in the tissues
surrounding one of his eyes showed itself for a few days. Apart
from this, he has otherwise entirely recovered his health and
strength, thanks to the skilful treatment in the first instance by
Dr. Bruce, followed by the effective treatment whilst in hospital
under the care of Drs. Pottinger and Wallace.
ANOTHER INSTANCE.
Some years ago a local gentleman was bitten by a Boomslang,
and died a few days later, but the general belief was, and is, that
he died of blood-poisoning consequent upon pricking and irritating
the wound with some foreign substance. A well-known gentle-
man, who saw him shortly after being bitten, says: ‘‘ I questioned
him as to whether he had experienced any effects from the bite,
and he certainly gave me to understand that he had not, and
attributed the whole trouble to the rash use of a needle, and
making too deep a puncture with it. He told me that he felt
144 THE SNAKES OF SOUTH AFRICA.
quite well as far as his health was concerned, and I was surprised
to hear a few days afterwards that his death was attributed to
the bite of the Boomslang ; I had always been under the impres-
sion it was a case of ordinary blood-poisoning.”’
I have made very careful inquiry into this case, and it seems
the gentleman at first showed no very apparent signs of constitu-
tional disturbance, but subsequently symptoms set in very similar
to those exhibited by Williams, viz. oozing of blood from the gums
and extravasation of blood into the tissues on various parts of
the body, then death. This would seem to indicate that in this
case there was a smaller dose of venom discharged into the
wounds than was the case with Williams, which took a longer
period to manifest its effects. Medical men who saw the gentle-
man before he died declare his symptoms were by no means those
of ordinary blood-poisoning. The medical man who attended
him informs me there is no doubt at all about the fact that he
died of the effects of the venom of the snake which bit him.
I closely cross-questioned Williams, and he admitted that
within half an hour of being bitten he felt a curious, restless,
dizzy, and languid feeling, but refused at the time to own it, think-
ing it to be due to some other cause, and believing so fully that
a Boomslang was perfectly harmless. However, in Williams’
case the symptoms were such as to leave no possibility of a doubt
that he suffered directly and unmistakably from some extremely
potent venom, and local medical opinion was unanimous on this
latter point.
THE EXPERIMENTS.
It now became imperative to demonstrate whether Boomslangs
were really venomous or not, as this individual case of Williams
would not by any means be accepted by scientific men as proof
positive. Naturalists and others handle these snakes and make
pets of them under the belief that they are non-venomous, and,
moreover, in the public interest this question had to be decided
for all time, especially so as the Boomslang is one of the commonest
of South African snakes.
The following are the results of the experiments :—
A large brown female Boomslang was held by the neck
and induced to bite the bared thighs of three fowls in quick
THE EXPERIMENTS. 145
succession. The first fowl died in thirteen minutes, the second
in fifteen minutes, the third in three hours and four minutes.
A variegated male Boomslang bit the bared thighs of two
fowls within the space of one minute. The first fowl died in nine ~
minutes, the second in forty-five minutes.
A fowl bitten slightly lived two days and died, the wound
oozing blood, and the mucous membranes of the mouth being
inflamed and congested.
A variegated (greenish-yellow and black) Boomslang bit a
fowl on the thigh. I killed the snake and injected some of its
blood into the victim. No curative effect followed. The fowl
died in twelve minutes.
A brown Boomslang bit a fowl on the thigh. I killed the
snake and injected contents of its gall into the fowl, which died
in eleven hours.
Another fowl was bitten and injected with the serum of the
blood of the snake that bit it. No curative effect ; it died in
fourteen minutes.
A brown female Boomslang bit a duck on the thigh. Pro-
gressive exhaustion ; slight oozing of blood in mouth; rapid
heart’s action ; paralysis ; death in seventeen minutes.
A second duck was bitten by the same snake immediately
after the first one. Same symptoms; died in thirty-five minutes.
A variegated Boomslang bit a duck on the neck. Within
three minutes it fell on its back completely paralysed ; it remained
still for another five minutes ; struggled feebly when touched.
Died in nineteen minutes.
A variegated Boomslang bit a large cock fowl on the comb.
Blood oozed from the cock’s nostrils one minute after being
bitten. It began to mope, then suddenly sprang four feet straight
up into the air and fell a dead mass, three minutes after being
bitten.
The glands of a variegated Boomslang were rubbed up with a
_ little water and injected with a hypodermic syringe into a vein in
a live and active Cape Jackal. The animal died before the needle
could be withdrawn. It perished as quickly as if shot through
the head with a bullet. The venom, being injected into a vein,
reached the heart almost immediately, and instantly paralysed
its action.
146 THE SNAKES OF SOUTH AFRICA.
CONCLUSIVELY PROVED.
These experiments were repeated over and over again with
all varieties and both sexes of Boomslangs. In all cases death
occurred within twenty minutes of the first bite; the fowls and
ducks which were subjected to the second bite from the same snake
usually lived from fifteen minutes to two hours ; not a single fowl
recovered.
The fowls and ducks seemed to suffer little or no pain beyond
irritation at the seat of puncture fora minute ortwo. Within two
or three minutes they showed unmistakable signs of collapse
and with a spasmodic jerk or two would suddenly expire.
A few higher animals of greater vital tenacity were also ex-
perimented with, and the characteristic slow oozing of blood
from the fang-punctures and mucous surfaces was noticeable, as
was the case with Williams. The animals in every case gradually
grew worse, and after about twelve hours were chloroformed,
it being evident they were slowly sinking under the potent effects
of that subtle, death-dealing venom.
EXPERIMENTS TO SAVE HUMAN LIFE.
Some folks will regard these experiments as cruel, but they
were conducted in order that human life might be saved, for in
no other way could I have rapidly and conclusively demonstrated
to the public that the Boomslang is not only venomous, but
exceedingly so. I can go further, and claim that the venom of
the Boomslang is equal in its death-dealing power to that of the
dreaded Cobra (Naia flava) and Ringhals (Sepedon hemachates).
I forced these snakes (Cobra and Ringhals) to bite several fowls
by baring the thigh and holding the snakes’ heads between
finger and thumb close up against the flesh.
In all cases I made the snake give a second bite to make
absolutely sure a lethal dose had been injected. The fowls all
died in from five to twenty minutes—the average being fifteen
minutes. In most cases fowls bitten twice on the bared thigh by
Puff-Adders (Bitis avrietans) survived from four up to twelve hours,
some recovering completely. The majority bitten by Night-
Adders (Causus rhombeatus) were very sick for a couple of days,
then recovered, one or two dying after twelve hours.
HOW BOOMSLANGS BITE. 147
It will be seen by the results of the above experiments that
the bite of the Boomslang destroys the life of a fowl just as
rapidly as that of the Cobra, and that the venom of the Puff-Adder
is in comparison very slow in its action and not so virulent.
How BooMsLAncs BITE.
There are two reasons why the Boomslang does not always
inflict a venomous bite. The fangs are grooved and comparatively
small, and if the bite is delivered through clothing the venom is
absorbed by the material, and the fangs barely scratch the flesh.
Secondly, the fangs are set half-way back in the upper jaw, and
are three in number on each side, exactly under the eyes, and
naturally, unless the Boomslang’s grip be full and complete, these
fangs do not penetrate the flesh. During my experiments, I
observed that the Boomslang in every case took as good a grip
as possible on the animal, then almost instantly, with a heaving,
forward movement and disengagement of the teeth of the upper
jaw from the victim’s flesh, it would take a fresh and more secure
hold, the upper jaws in which the fangs are set being capable
of being pushed downwards, exposing the fangs and forcing their
points forward ; the jaw then closes with a snap, and the snake
worries the flesh, with the evident intention of forcing the venom
into the punctures, as well as enlarging them for the freer ingress
of the poison.
A medical correspondent from Barkly, Eastern Province of
Cape Colony, wrote me that a short time ago he lost a favourite
dog from a bite by a Boomslang. The dog attacked the reptile,
which bit its foe on the leg. The dog died a few hours after being
bitten.
A stock farmer at the Vaal River told me that one of his oxen
was bitten on the lip bya large Boomslang. The ox was eating
the foliage of a tree, and had evidently disturbed the snake.
The herd-boy saw the affair, and called the farmer, who was at
his waggon, a little distance away. He says he saw and shot the
snake, which was a variegated variety of Boomslang. He applied
what is known as “‘ Jesse Shaw’s”’ cure, but the ox died three-
quarters of an hour after.
Since the publication of the first edition of this book I have
148 THE SNAKES OF SOUTH AFRICA.
received several accounts from well-known farmers, and two by
medical men, of natives being bitten by Boomslangs which, with
the exception of two of the cases, terminated in death.
An instance was related to me by a gentleman who is a keen
naturalist. He says he was quite unaware that the Boomslang
was venomous. In fact, he was inclined still to be sceptical,
owing to an experience which he had with this species of snake.
Being anxious to capture one alive, one day he pursued a large
Boomslang of the variegated variety, which escaped up a small
tree. There being no other trees near, the snake ascended to
the top, and, on his approach, showed fight. In attempting to
seize it, the reptile bit him severely on the forefinger. Grasping
the snake by the neck, he quickly unhooked its small recurved
teeth, which were embedded in his skin. No symptoms of poison-
ing set in, although his finger bled a little from the various
punctures. He regarded this as proof that the Boomslang was
non-venomous. The fact of the case was, the snake, in its
haste, merely gripped the finger of the man with the front portion
of its jaws, and did not succeed in getting its fangs into a suitable
position to drive home before it was dragged off the flesh.
BOOMSLANGS AND THEIR HABITS.
)
The word “‘ Boomslang”’ is Dutch, and means Tree Snake.
Boom = tree, and Slang = snake.
Boomslangs vary considerably in colouration, as will be noticed
on reference to the description of the colouration of this species
of snake given at the beginning of this chapter, in the list of the
snakes of the back-fanged division.
The round and long tapering body of the Boomslang is
specially adapted for gliding swiftly and silently through the
foliage of trees. Like other snakes, Boomslangs tend to vary in
colouration according to their environment and habits. In
districts more or less bare of forests and wooded kloofs, Boom-
slangs are gradually taking to a terrestrial mode of life. Not
being able to gain sufficient food in the trees and shrubs, they are
compelled to take to the ground and hunt frogs, lizards, ground
birds, and various other creatures. In consequence of this modi-
fication of environment and habits, their colour undergoes a
<«
BOOMSLANGS AND THEIR HABITS. 149
change, eventually developing into uniform chocolate or light
purplish brown, which is eminently suitable, blending perfectly
So long as they do not slip their heads from between your fingers you are safe.
A FEW BOOMSLANGS JUST CAPTURED.
Fic. 62.—This is how to hold live venomous snakes.
with the earth, dead leaves, branches, stones, etc., over and
through which they hunt their prey. When the skin of a brown
variety of Boomslang is distended, most of the scales are seen to
150 THE SNAKES OF SOUTH AFRICA.
be tipped with bluish white, which has a very beautiful appear-
ance. These spots are, however, not always present.
The favourite food of the Boomslang consists of chameleons,
birds and their fallow young, andeggs. The latter are swallowed
whole, the powerful gastric juices of the snake dissolving the
shell.
My captive Boomslangs often swallowed pigeons’ eggs, which
remained in their stomachs intact, sometimes for twelve to
twenty-four hours. In one instance a snake swallowed two
pigeons’ eggs, which remained unbroken in its stomach for
three weeks. The reptile, being in poor condition at the
time, its gastric fluid was evidently too weak to dissolve the
shell. When the eggs were removed after the death of the snake,
I noticed the shell had been somewhat roughened by the action
of the acid fluids of the snake’s stomach.
Chameleons, other tree lizards, caterpillars, and various
larve are sought after and eaten by Boomslangs. So closely
does the colour of these reptiles’ skins blend with the foliage, that
I have known birds to hop upon their bodies, mistaking them for
branches. These snakes can imitate the branches of a tree to
perfection. The body is contorted and twisted amongst the
leaves, and is perfectly rigid. For hours a Boomslang will lie
amongst the leaves and twigs, its large unwinking eyes keenly
on the alert. If an unwary bird should approach within striking
distance, the forepart of the snake’s body is shot out as swiftly
as a stone from a catapult, and next instant the bird, struggling,
is in its jaws. Ina minute or two the victim ceases to move,
for the deadly venom has paralysed its nerve centres. Then the
snake assumes a comfortable position, and swallows its prey.
When a Boomslang is seen by birds in the vicinity of their
nests, they become intensely alarmed and excited, flying rapidly
to and fro, hopping from twig to twig, fluttering their wings
and making various other excited demonstrations. Hearing the
noise, other birds come along and join in the effort to scare away
the intruder. The snake is in no way alarmed. It remains
as still as a statue, its head drawn back and its body at an angle
suitable for a rapid and long forward thrust. Presently one
of the birds, in wild excitement, approaches within striking
distance. Instantly, with unerring aim, its body is launched
forth and a bird loses its life.
BOOMSLANGS AND THEIR HABITS. 151
Once a Boomslang seizes its prey, it is loth to let go. Holding
on, it makes no effort to Tswallow or constrict its victim. It
in
Fic, 63.—A brown variety of Boomslang dissected to show how the
eggs lie. Theseeggs are fully developed, and were being laid when
the snake was killed to obtain this picture. The shapeless-
looking white substance about the eggs is fatty tissue.
knows only too well the power of the fluid which is distilled by
the glandsinits head. It is well aware that the venom will rapidly
reduce the struggling prey to a limp, dead mass, easy to swallow.
152 THE SNAKES OF SOUTH AFRICA.
Boomslangs are timid creatures, and will on the slightest
alarm make off into the dense bush. They are fond of descending
to the ground and sunning themselves on some dry exposed bank
or patch of ground. The variegated variety of Boomslang, when
alarmed, instantly glides up a tree or into the tangled bush. On
the contrary, the brown variety usually has a hole in a bank, or
a crevice amongst rocks, a pile of dead brushwood, or some
such shelter into which to retire.
One day I was riding over the veld, when a Boomslang of the
yellowish-green and black variety darted across my path and
took shelter in a small thorn tree about five feet in height,
sparsely covered with narrow, feather-like leaves. I could see
through the small tree quite easily, for it was only about three or
four feet in diameter. J walked round and round the bush, and
examined it up and down for some minutes without seeing a
trace of the snake. Then, starting at the bottom, I searched
every twig systematically with my eyes, and followed each
branch to its end. Eventually, half-way up the tree, I saw the
snake. Its body was contorted and twisted at exactly the
angles at which the branches and twigs jutted out. The yellow-
green of the skin blended perfectly with the leaves, the effect
being considerably heightened by its black, uneven cross
markings. Approaching within two feet, I eyed it for a time,
and not once during that time did it make the slightest move-
ment. When I attempted to capture it by putting a bit of
string with a noose at the end round its neck, it got angry, and
sought to intimidate me by puffing out the throat, making its
head look twice or more its natural size.
After being captured and kept for some hours in a dark bag,
most Boomslangs will permit themselves to be freely handled
without showing any disposition to bite. However, if one should
suddenly touch your face or bare hand or arm with its nose, it
instantly bites, and holds on till you forcibly remove it. If
handled carefully and gently, they will rarely bite.
The sex of a Boomslang cannot be determined by the colour
with any degree of certainty. I used to think that the female of
the yellowish-green variety was not so yellowish as the male,
but recently I have examined a large series of them, and find
them all to be males. All the chocolate coloured ones so far
examined have been females.
153
BOOMSLANGS AND THEIR HABITS.
Toads
y eat frogs.
Boomslangs will readil
In captivity,
“Surypooy-Ay]Iu ourovaq sAeAe seyeos Ao oY} SoU} eset} 1V
‘ajeos ofa anbedo oy} 9J0N "UTS S}I pays 0} yNOGe sem IO ysourdo} oy,
“YIOM YoIRASAI IOF poyoesjsqe oq 0} ynoqe st uOosIod YOIYM Wor ssuv[suIoog OAT] FO [N¥puey V— ‘hg ‘O17
they will not touch. Many refuse all food, and have to be fed
154 THE SNAKES OF SOUTH AFRICA.
artificially by syringing the beaten-up contents of fowls’ eggs
down their throats and then putting them gently down, else
they will vomit the food. The best way is to hold the snake
in your hand for five minutes or so after feeding it, and then lay
it very gently down in a warm cage.
Dead frogs and bits of raw meat may be pushed gently into
the snake’s throat and worked down with the fingers.
Boomslangs descend to the ground to lay their eggs, which
are usually placed under a thick layer of fermenting leaves or
vegetable mould under tangled bushes. At other times the eggs
may be laid in a Starling’s nest in a hole ina bank, or among
the tangled roots of a forest tree. Warmth and moisture are
necessary for the incubation of the eggs. On hatching out, the
young Boomslangs almost immediately take to an arboreal life,
and lead an existence entirely independent of their parent.
The Boomslangs which are green, or variegated green and
black, are strictly arboreal. The brown varieties are more or
less terrestrial in their habits. For some considerable time I had
a Boomslang alive which was intermediary between the variegated
green and the dark-brown varieties. This specimen was blackish
above, through which traces of greenish-yellow were visible in
places. The “ blackishness”’ on the back shaded off on the
sides and abdomen to yellowish green. The specimen was a
female, and laid thirteen eggs during the month of October.
On several occasions brown Boomslangs have laid batches
of eggs varying in number from a dozen to twenty-three,
containing a yellowish fluid, with no sign of incubation
having already begun. The eggs are laid during midsummer,
usually October, November, and December. On many occasions
I have noticed the Boomslangs, which I have kept in captivity,
swallow domestic pigeons’ eggs whole. These eggs are not
crushed in the throat, as is the case with the Egg-eating Snake
(Dasypeltis). They lodge in the stomach and remain there until
the gastric juices dissolve the shell and release the contents, which
sometimes takes several days.
CONCLUSIONS,
The Boomslang is a member of the Opisthoglypha or Hind-
fanged snakes, which have hitherto been regarded by some
CONCLUSIONS. 155
authors as non-venomous, and others as only very slightly
venomous. Now, the fact of the Boomslang having been proved
to be very highly venomous shows that at least one of this class
of Hind-fanged snakes possesses highly-specialised venom capable
of destroying human life, therefore it is reasonable to assume a
good many of the others would be found, on investigation, to
be equally venomous. Until each individual snake of this class
has been carefully experimented with, it would be unwise to lead
the public to infer they were either harmless, or only venomous
to a very slight degree. This opens up a wide field for experi-
mental work, for there are over three hundred species of the
Back-fanged Division of Snakes in the various snake-infested
countries.
Norte.—Further information and illustrations about Boomslangs will be
found in the Addenda at the end of this book.
CHAPTER Vi.
SuB-FAMILY I1V.—HYDROPHIN2.
Division II].—PROTEROGLYPHA.
THE Sea Serpents belong to the division of snakes known as the
Proteroglypha, so called because they have fangs in the front
part of the upper jaw. These fangs, which are set in the anterior
maxillary bone, are deeply channelled or grooved, the sides of
the channels showing a tendency to unite and form a complete
perforated or hollow tooth similar to the hollow fangs of the
Viper family. These are the typical poison fangs. Independent
Fic. 65.—Head and neck of the poisonous Black and Yellow Sea
Snake of the African Coast (Hydrus platurus).
of the fangs there is a set of small solid teeth, also set in the front
part of the upper jaw.
The sub-family Hydrophine are all Sea Snakes. There are
about fifty-five species or kinds known.
All are highly venomous, except one single species (Distiva
HABITS OF SEA SNAKES. 157
sempert), which is only found in a fresh-water lake at Luzon, in
the Philippines.
The Sea Snakes can be distinguished com all other snakes by
the flattened oar-like tail, which is used as a rudder and propeller,
for they have no fins.
Sea Snakes shed their skins very frequently, but the old skin
Shull of Hydrus platurus.
Fic. 66.—Skulls and poison fangs of Black and Yellow Sea Snakes (Hydrus platurus). There
are two fangs in each jaw (Brit. Mus. Cat. Snakes.)
peels off in pieces, and does not come away entire, as is the case
with their terrestrial cousins.
HABITS OF SEA SNAKES.
Although living in the water, they breathe air. Their nostrils
are situated on the top of the snout. Most species are brilliantly
and beautifully coloured. Their food is fish and other marine
creatures. Although most species are helpless, and perish if cast
158 THE SNAKES OF SOUTH AFRICA.
up on shore, there are some which make frequent inland excur-
sions, sometimes to considerable distances over the land, usually
at night, when the vegetation is moist. Sea Snakes are most
abundant in the Tropical portions of the Indian Ocean and
Western Pacific. Some species congregate in great shoals, and
swarm in the cracks and crannies of ocean rocks which are sub-
merged at high tide. If poked with a stick they bite viciously,
after the manner of venomous land snakes. *
SUB-FAMILY HYDROPHIN.
The various Geneva and Species of Sea Snakes belong to the above sub-family.
They are all very venomous, possessing grooved fangs at the anterior end
of the upper jaw.
Genus HYDRUS.
This Genus is represented by only one Species.
KEYS lO) TESS PE ClEs:
Rostral as deep as broad or a little broader than deep; frontal large,
at least as long as the snout or the parietals, one or two pre- and
two or three postoculars ; one or two suboculars sometimes present ;
temporals small and numerous; seven or eight upper labials, second
in contact with the prefrontal, fourth, fifth; or fourth and fifth
usually entering the eye; chin shields small and indistinct; 45 to
47 scales round the body, smooth in the female and young ; laterals
and ventrals rough, with one, two, or three small tubercles in the
male.
1. HypRus PLATURUS. Black and Yellow Sea Snake.
Synonyms—Anguis platurus ; Hydrus bicolor ; Pelamus bicolor ; Pela-
mus platurus.
Colour—Markings very variable.
A. Yellow, with brown, black-edged cross bands; black bars between
the cross bands, on the sides of the belly.
B. Anterior third of the body with a black dorsal stripe; further
back a series of transverse dorsal rhombs on the back, and black
spots on the sides and belly.
C. Dorsal region black; sides and belly yellow, with a lateral series
of black spots which may be partly confluent into a stripe; tail
with dorsal and lateral spots.
D. Dorsal region black, ventral region brown, the two separated by
a yellow lateral stripe ;_ tail spotted as in the preceding.
E. Black above; sides of belly yellow; the two colours do not
blend. There is a distinct line of demarcation. Tail spotted
as in the preceding.
F. Yellow, with a black vertebral stripe, broken up into spots poste-
riorly ; no lateral spots on the body or tail.
G. Yellow, with a vertebral band and spots on the tail pale brown
or olive.
Average length—z feet.
Distribution—Coast of South Africa; Indian Ocean and Tropical
Pacific.
BLACK AND YELLOW SEA SNAKE. 159
BLACK AND YELLOW SEA SNAKE.
(Hydrus platurus.)
The only species of Sea Snake which inhabits the ocean about
the coasts of South Africa is the Black and Yellow species. It is
often seen in the shallow pools amongst the rocks on the sea-
shore, left stranded there by the out-going tide. It is very
necessary that the general public should become acquainted with
the appearance of this snake, as many fatalities have occurred
Fic. 67.—The Black and Yellow Sea Snake (Hydrus platurus) which lives in the ocean, and is
often left stranded in the rock pools along the South African Coast. It is highly venomous.
(Royal Natural History.)
by people mistaking it for an eel and catching hold of it. A
naval officer was thus bitten recently, and lost his life. He died
four hours after the bite. Another instance is recorded of a sailor
being bitten and dying in two and a half hours after. A coloured
man once brought me one in a tin containing sea water. He
said he had caught it in a small pool on the beach. ° He foolishly
pulled it out of the tin, remarking what a fine eel it was. Before
160 THE SNAKES OF SOUTH AFRICA.
I could warn him it had bitten his hand, but I instantly ligatured
his arm, scarified the wound, rubbed in permanganate of potash,
and injected serum. He recovered.
This species of Sea Snake is black above, and bright yellow
beneath, the two colours being distinctly separated—the line of
demarcation being very pronounced. Some specimens have a
profusion of black spots over the abdomen, and the tail is mottled
whitish and black. The average length is two feet to two feet
six inches.
The poison apparatus of all the Sea Serpents is highly special-
ized, like that of the Cobra.
I have frequently found these snakes cast upon the shore of
Algoa Bay, or in pools left amongst the rocks by the outgoing
tide. They have also been recorded from Durban Bay, Simons-
town, False Bay, and Table Bay. I have several times tried to
keep these snakes alive in an aquarium, but they always died
after a few days. I have no doubt, however, that they would
live and thrive in a properly constructed aquarium if the water
was kept at about the temperature they are accustomed to.
Hydrus platurus is divided into seven varieties, owing to the
differences in colouration in the different localities it inhabits.
The one marked Variety E, is the kind we find at Algoa Bay.
_ THE PROTEROGLYPHA OR FRONT-FANGED SNAKES.
COBRAS, MAMBAS, CORAL SNAKES, GARTER SNAKES,
Ere:
SUB-FAMILY—ELAPINZ.
This important sub-family of Colubrine snakes include the
most dreaded of all snakes, viz., the Cobras and Mambas.
There are about one hundred and forty species known, which
are scattered over the Southern part of North America, Central
and South America, Africa and Southern Asia to Australia.
These highly-venomous snakes belong to the division known as
the Proteroglypha, having fangs set in the front part of the upper
jaw, in the bones known as the anterior maxillary bones. The
fangs are usually deeply grooved or channelled. In some cases
the sides of the grooves show a tendency to unite and form
== ELAPINAE.
FRE Nava.
GMP CROTALINAE.
MAPS SHOWING THE DISTRIBUTION OF TYPICAL VENOMOUS SNAKES.
Fic. 68.—rx. Distribution of the Colubrine family of snakes, viz. Africa, Southern Asia, to Australia,
Central and South America, The true Cobras (Naja or Naia) inhabit Africa, Southern Asia
and the Malay Archipelago only.
2. The parts coloured black show the distribution of the Viper, otherwise known as the Adder
family of snakes. This does not include the sub-family of Pit Vipers known as Crotaline.
3. The parts coloured black show the distribution of the Pit Vipers to which the Rattlesnakes
belong (Crotaline).
New Zealand is the only country in the semi-tropical regions in which snakes do not occur.
There are snakes in Madagascar of the Aglypha and Dipsadomorphine kinds, but no
Proteroglypha or front-fanged snakes.
M
162 THE SNAKES OF SOUTH AFRICA.
hollow fangs. In some, this union of the two edges of the channel
is well advanced, having firmly united in places. These snakes
all possess a highly-specialized poison apparatus.
Most species of the Elapine are viviparous.
There are fourteen species or kinds of snakes belonging to
the above sub-family which inhabit South Africa south of the
Zambesi.
SYNOPSIS OF THE GENERA.
Genus Nata.—Maxillary extending beyond the palatine, with a pair of
large grooved poison-fangs, and one to three small faintly-grooved
teeth near its posterior extremity ; mandibular teeth, anterior
the longest; head not, or but slightly, distinct from the neck ;
eye moderate or rather large, with round pupil; nostril between
two nasals and the internasal; no loreal. Body cylindrical ;
scales smooth without pits, disposed obliquely in 15 to 25 rows
(or more on the neck); ventrals rounded. Tail moderate ;
sub-caudals all or greater part in two rows.
GENUS SEPEDON.—Maxillary extending forwards beyond the palatine,
with a pair of large grooved poison fangs; no other maxillary
teeth ; mandibular teeth, anterior longest. Head not distinct
from neck ; canthus rostralis distinct ; eye moderate with round
pupil; nostril between two nasals and the internasal ; no loreal.
Body slightly flattened; scales oblique, keeled, without pits,
in I9 rows; ventrals rounded. Tail moderate; sub-caudals
in two rows.
Genus ASPIDELAPS.—Maxillary extending forwards beyond the palatine,
with a pair of large, grooved poison fangs; no other maxillary
teeth; mandibular teeth, anterior longest. Head _ slightly
distinct from neck; eye moderate with round or vertically
elliptic pupil; rostral shield very large, detached on the sides ;
nostril between two or three nasals, and the internasal; no
loreal. Body cylindrical; scales oblique, smooth or keeled,
without pits, in 19 to 23 rows; ventrals rounded. Tail short ;
obtuse. Sub-caudals in two rows.
Genus ELapEcHis.—Maxillary bone extending forwards as far as the
palatine, with a pair of large grooved poison fangs, followed by
two to four small teeth; mandibular teeth anterior longest.
Head not distinct from neck; eye small with round pupil ;
nostril between two nasals; no loreal. Body cylindrical ; scales
oblique, smooth, without pits, in 13 to15 rows. Ventrals rounded.
Tail very short ; sub-caudals all or most in two rows.
Genus Homoreraps.—Maxillary extending forwards beyond the palatine,
with a pair of large poison fangs, pterygoids toothless ; mandi-
bular teeth few, sub-equal. Head small, not distinct from neck ;
eye very small with round pupil; nostril in a single nasal; no
loreal. Body cylindrical; scales smooth without pits, in 15
rows; ventrals rounded. ‘Tail short; sub-caudals in two rows.
No postfrontal bone; prefrontals widely separated from each
other and in contact with the parietals, excluding the frontals
from the orbital periphery.
PROTEROGLYPHA OR FRONT-FANGED SNAKES. 163
Genus DENDRASPIS.—Maxillary bone curved upwards, with a strong
posterior process directed backwards and outwards; a pair
of large poison fangs, not fissured, not followed by other teeth ;
a large fang-like mandibular tooth, followed by a considerable
toothless space. Head narrow, elongate; eye moderate, with
round pupil; nostril between two shields; no loreal. Body
slightly compressed ; scales smooth, narrow, very oblique, without
pits, in 13 to 23 rows; ventrals rounded. Tail long; sub-caudals
in two rows,
Fic. 69.—Skulls of typical snakes of the Front-fanged Elapine sub-family.
I. Side view showing the fangs and rows of harmless teeth.
A. Anterior maxillary bone to which the fangs are attached.
2. Back of skull and lower jaws.
3. Roof of mouth.
B. Poison fangs.
C. Lower jaw. (Brit. Mus. Cat. Snakes.)
Genus NAIA. (TyPIcAL CoBRAS.)
Four Species in South Africa.
iE YO GEE SPECIES:
Sub-oculars separate. the eye from the upper labials.
21 or 23 scales across neck, Ig or 21 across middle
of body Ss ae als ae
Sub-oculars separate the eye from the upper labials.
17 scales across neck, as well as across body .. WNaia anchieta.
Naia hae.
164 THE SNAKES OF OUDE ARICA
Third, or third and fourth upper labials entering the
eye. Sixth upper labial largest, and in contact
with postoculars ; 23 scales across neck .. .. Nata flava.
Third, or third and fourth upper labials entering the
eye. Third upper labial deepest, sixth not in
contact with postoculars ; 23 to 29 scales across
MAES Sic oe ae Seo ee 3 .. Naia nigricollis.
. Nata HAIE. Egyptian or Banded Cobra. Koper Kapell.
Synonyms—Coluber hate ; Cevastes candidus ; Naja haje.
Colour—Yellowish or olive to dark brown or black above, uniform or
with darker or lighter spots; lower parts yellowish, with a
brown or black band on the neck, or dark brown to blackish ;
head sometimes blackish.
Colouration varies as follows :—
A. Brown above, yellowish beneath, with or without brown spots.
B. Dark brown above, with yellowish spots ; dark brown beneath.
C. Blackish brown above and beneath.
Average length—5 feet.
Distribution—Natal ; Zululand ; Transvaal; Rhodesia; Delagoa Bay ;
Northwards to Palestine.
2. NAIA ANCHIET#. Anchietas’ Cobra; Anchietas’ Kapell.
Colour—Brown to blackish above; end of snout and sides of head
yellow; yellow or pale brownish beneath, with or without
brown spots, and with a brown or black cross-band under the
neck.
Average length—5 feet; attains a length of seven feet.
Distribution—North West Rhodesia; German South West Africa ;
Angola.
3. NatA FLAVA. Cape Cobra ; Geel Kapell; Bruin Kapell ; Spoeg Kapell
(Spuug).
Synonyms—Vvpera flava ; Naja nivea-; Naja nigra.
Colour—Colour variable. There are five distinct varieties :—
(1) Uniform gamboge yellow usually with a few scales coloured
reddish-brown.
(2) Reddish-brown and yellow, the former predominating.
(3) Very dark umber approaching to black. A few scales coloured
yellow.
(4) Light olive brown with a tinge of dull yellow. Some are dun
colour with a shade of olive yellow.
(5) Shiny purplish-black. For fuller description see account of
Cape Cobra.
Average length—>5 feet; attains a length of nearly 7 feet.
Distribution—Whole of Cape Colony; German South West Africa.
Black variety does not occur in Eastern parts of Cape Colony.
4. NAIA NIGRICOLLIS. Black-necked Cobra; Zwart-nek Kapell.
Synonym—Vipera haje.
Colour—Colour paeaiie as follows :—
A. Brown or olive above, some or all of the scales black-edged, the
skin between the scales black; yellowish beneath, the ventrals
speckled or edged with brown or blackish ; lower surface of
neck with black cross bars. (Mossambique variety.)
B. Uniform brown above, yellowish beneath ; lower surface of neck
brown in the adult; young with a broad black ring round the
neck,
PROTEROGLYPHA OR FRONT-FANGED SNAKES. 165
C. Dark olive to black above ; lower surface of head and neck black ;
sub-caudals and posterior ventrals black, the remainder black
and yellow.
Average length—5 to 6 feet; attains a length of over 7 feet.
Distribution—All over South Africa, excepting the Southern parts of
Cape Colony ; Northwards to Senegambia and Upper Egypt.
Genus SEPEDON= Yew oli ale
This Genus is vepresented by one Species.
Scales strongly keeled, without pits, in I9 rows;
ventrals 116-150; anal entire. Sub-caudals
33-44 nf of ae Sepedon hemachates.
I. SEPEDON H4@MACHATES. The Pmehale or Spitting Snake. Ringhals
Slang.
Synonyms—Coluber hemachates ; Vipera hemachates; Naja hema-
chaetes ; Aspidelaps hemachates.
Colour—Black above, spotted, variegated or irregularly barred with
pale brown or yellowish-white ; or brown spotted with black ;
black beneath, usually with one or two whitish cross bands on
the neck.
A. Jet black above and below, with a white cross band on the throat.
Sometimes the white band is entirely absent, or else only slightly
developed.
Average length—z feet 6 inches to 3 feet.
Distribution—Cape Colony ; Natal; Zululand ; Orange River Colony ;
Basutoland ; German South-West Africa; not recorded from
Rhodesia or north of Zambesi.
Genus ASPIDELAPS.
Two Species in South Africa.
KY OLE SPECIES:
Internasals in contact behind the rostral; third
and fourth upper labials entering the eye ;
scales all smooth ; ventrals 146-176 .. Aspidelaps lubricus.
Internasals separated by the rostral; fourth
upper labial entering the eye; scales on
posterior part of aes keeled ; _ ventrals
115-135 . ae .. Aspidelaps scutatus.
1. ASPIDELAPS LUBRICUS. ee seni Koraal Slang.
Synonyms—Natrix lubrica ; Coluber latonia; Elaps lubricus; Naja
lubrica.
Colour—Orange or red with black annuli, which are slightly angular
on the back; a black bar below the eye; sometimes a black
cross bar between the eyes, and an oblique band on the temple ;
upper surface of head sometimes entirely black.
Average length—1 foot 6 inches to 2 feet.
Distribution—Both provinces of Cape Colony ; Orange River Colony;
German South-West Africa; Rhodesia; Zambesi Regions.
166 THE SNAKES OF SOUTH AFRICA.
2. ASPIDELAPS scuTATUS. Shield Snake. Schild Slang.
Synonyms—Cyrtopsis scutatus ; Naia fula-fula.
Colour—Pale greyish-brown above, with transverse dark spots or cross
bands; head and about two inches of the neck black; chin
and throat white, separated by black irregular blotches ; under-
parts whitish.
Average length—1 foot 6 inches to 2 feet.
Distribution—Natal; Orange Free State; Transvaal; Delagoa Bay ;
Southern Rhodesia ; Portuguese East Africa.
Genus ELAPECHIS.
Three Species in South Africa.
KEY lO) CHES SPECIES:
Portion of rostral visible from above, not half
as long as its distance from the frontal,
which shield is a little shorter than the
parietals; diameter of eye less than its
distance from the nostril in the adult. Scales
in 13 rows. Snout broadly rounded .. Elapechis guenthert.
Fic. 70.—Head and neck of the Coral Snake (Aspidelaps lubricus).
Colour, coral-red or ornage-red, banded with black. A rather
large shield curving back from the nose.
Scales in 13 rows. Portion of rostral visible
from above, at least half as long as its dis-
tance from the frontal, which shield is much
shorter than the parietals; diameter of eye
less than its distance from the nostril in the
cValiuillin
= ih es OO eo ‘ .
ad
reen streaked laterally
The degrees of
o
dS
Others are yellowish-
Others again, are uniform green.
or purplish-brown.
with black.
200 THE SNAKES’ OF ‘SOUTH “AFRICA:
light and shade, climate, colouration of the surroundings, and
nature of the diet, seem the most likely factors in determining
this variety in colour.
A DIFFICULT PROBLEM.
The diversity of opinion is very great as to whether the Green
Mamba changes colour when it attains the full adult stage. Many
colonists assert most positively that the Green Mamba has never
been known to attain a length over nine feet, and that no Black
Mamba has ever been seen of a lesser length than eight feet.
Some say the green variety changes colour, others assert the con-
trary, while others claim to have seen and killed young specimens
of both varieties. However, I usually found on inquiry that most
of the opinions were put forth without any actual knowledge.
Other persons confused different species of snakes with the Mamba.
A well-known gentleman living at Stamford Hill, Durban,
writes to me as follows: ‘‘ Mambas are generally found amongst
roots and rubbish, especially the exposed roots of the bamboos,
which have been grubbed round and left after having been cut
down. Those I have seen have been from eighteen inches
upwards, and when disturbed will attack at once. They make
straight for you.”
Matthew Bedlington, Esq., of the Berea, Durban, says:
“Some eighteen months ago I saw a young Black Mamba about
five inches in length. Colour glossy black, eyes disproportionately
large, and very glittering. Again, only a few months ago, I killed
a young Black Mamba, length seven inches. About the same
time two Black Mambas were killed, length eight feet each. I
have not seen or heard of a Green Mamba exceeding eight feet,
while Black Mambas of twelve feet and upwards are common.”
The late Mr. C told me that he was once out shooting
attended by a Kafir, when the latter, who happened to be some
distance in front, ran back shouting ““ Mamba, Baas!”’ and Mr.
C ——— saw the snake chasing the native, but, owing to the
man’s position, he was unable to shoot. The Mamba reared
up and struck the Kafir at the back of his neck, and he shortly
afterwards died. I merely mention this incident as proof of the
statement that a Black Mamba will chase a person.” (The
A DIFFICULT PROBLEM. 201
gentleman referred to was a prominent citizen of Pinetown,
Natal.)
Mr. W. A. Lutman, of Durban, writes: ‘‘ I have had con-
siderable experience with Mambas in my various shooting ex-
peditions, being bitten on one occasion by a Green Mamba, and
on several occasions I have killed Black Mambas under six feet
long. It is quite true that the Green Mamba when aged, turns
colour, but not anything like the colour of the Black Mamba.
The colour is something like steel blue, such as is seen on clock
springs, turning, as the snake gets older, to dark navy blue, but
only along the back, the sides retaining sufficient green to dis-
tinguish the snake. The natives assert that both the Black and
the Green Mamba, on attaining a certain age, develop a crest of
feathers on their heads. For this I cannot vouch. I have shot
both green and black; the last Green Mamba that 1 shot
measured nine feet two inches, and was just turning steel-blue at
the back of its neck ; no sign of feathers. The last Black Mamba
I shot measured seven feet four inches, and was, I believe, laying,
or had already laid eggs, because it chased me, and it was only
by a lucky shot that I was prevented from being bitten.”
Mr. H. W. Bell-Marley, of Durban, who is a keen observer,
and who has had much experience of Mambas, says: “ The first
signs of this snake losing his green coat is between eight and nine
feet, when, instead of his being brown, he is of a greenish-brown
colour, which soon changes as he ages to black. I think when he
is eleven feet in length he is what we might term an adult, or at
his largest dimensions.”
H. W. James, Esq., of Zwelle Estate, Verulam, Natal, savs :
“T have lived for many years in this part of Natal, which is fully
supplied with Mambas. My parents have also resided here since
the early sixties. I can certainly state, both from hearsay and
also from my own experience, that Mambas of the green variety
grow to a large size, and I have myself shot one over nine feet in
length, and my parents killed one in the early days which, when
measured, proved to be fifteen feet long. As regards Black
Mambas, a few years ago I found a newly-hatched lot of just one
dozen, and as lately as January of this year (Ig10), when cutting
cane, killed one nine feet long, and a few minutes later, within a
yard or two, killed a young one of about two feet long.”
202 THE SNAKES OF SOUTH AFRICA.
A District NATIVE COMMISSIONER’S EVIDENCE.
John L. Knight, Esq., District Native Commissioner, District
No. 1, Natal, writes me the following interesting and seemingly
convincing letter: ‘“‘ The individual habits and characteristics
of the Black and Green varieties of Mambas are so distinct,
numerous, and marked, as to leave no manner of doubt in my
mind whether the Green Mamba ever changes and becomes a Black
Mamba. The Green Mamba spends the most of its life in the
boughs of trees, and I cannot call to mind ever having seen one
on the ground, until killed. On the other hand, I have never
seen a Black Mamba in a tree.
“T have probably killed, or seen killed, as many of each
variety as any person in South Africa, having lived in ‘ Mamba
country’ practically all my life. I have killed, or seen killed,
Black Mambas measuring about eighteen inches in length up to
fully twelve feet, and the only difference in colour is that the full-
grown creature in colour is slightly deeper black.
“On the other hand, I have had the same experiences with
Green Mambas, the latter, however, never reaching so great a
length as the Black—say not more than eight feet to nine feet.
In this case also the only difference in the colour being that the
larger ones are a slightly deeper green than the young ones.
“When both black and green have recently sloughed, their
colour is brighter, and approximates nearer to the young of each
variety. I have seen and had many cases of Mamba bite by
both varieties come under my notice—the bitten consisting for
the most part of natives, with a few Europeans, and also animals,
such as horses and cattle. When the bite has been by the Black
Mamba the result is almost invariably fatal. When by the Green
Mamba, it is seldom, if ever, fatal. There is a somewhat mythical
snake in Natal and Zululand, known to the natives as Indhlonhlo,
said to have a feather in its head. Europeans believe this to be
only a very old Black Mamba, whose head has become tinted
with a grayish powdery pigment, which, at a distance gives the
optical delusion of a feather.”
A Durban lady, whose father was an enthusiastic amateur
naturalist, and whose special hobby was the collection of specimens
of snakes preserved in spirit, and who naturally was well acquainted
CRESTED MAMBAS. 203
with the different species of snakes found in the vicinity of
Durban, writes me as follows :—
“During our travels, we once found a mass of eggs of some
sort. Father, thinking they would probably turn out chameleons,
or something equally harmless, kept them till they hatched. We
watched the gradually darkening mass, having a peep every day,
until one day, on lifting the lid of the box they were in, out popped
thirteen very lively ‘ Black Mambas ’—quite black. As far as
I can remember, they were about four to six inches in length.
My father knows a Black Mamba when he sees one, so do my
brothers. There is a black snake very like the Black Mamba,
but it is distinguished from the Mamba by its tail and shiny
coat.”
CRESTED MAMBAS.
The natives of Zululand and Natal firmly believe there is a
Mamba possessing a feathered crest, which it spreads out like a
fan when disturbed. Many colonists also hold this belief. For
years I was on the look-out for a snake with some sort of a crest,
but in vain. Believing that most popular beliefs and legendary
tales have, or had, some foundation in fact, I was quite prepared
to believe that there might be a snake with elongated scales or
something of the sort on its head. Mr. H. W. Bell-Marley’s
explanation is as follows :—‘‘ I am told by the natives near the
kloof that there is an old Mamba that has been there since their
fathers’ time, and lives by himself, being most vicious. When
he is angry he raises his head and spreads a feather behind. For
some time I tried to find out what they alluded to, as it was a
common belief amongst all, and given me quite bona fide. One
day, when looking for some Sun Birds, I heard a rustling close by,
and was just in time to raise my breech-loader and fire at a
retreating Mamba. I shot him badly in the neck and head, and
found, although he did not exceed thirteen feet, that he was quite
black in appearance, and the scales behind the head, for four
inches down in line, had so grown together that they formed a
ridge or crest. Some of the scales were larger than others. The
Mamba was the largest I had killed so far, and the oldest, judging
by its appearance. This ridge of skin and scales was evidently
204 THE SNAKES OF SOUTH AFRICA.
the origin of the belief of the feather-crested snake. It would,
I suppose, when the snake raised its head, spread into a file,
giving him the appearance of wearing a feather. The snake when
casting his skin had been unable to rid himself of the neck-skin,
and this had accumulated for years. It must be sometimes a
source of great annoyance to the owner, making him vicious. I
showed the natives this skin, but they would not be convinced
about its being an explanation of the feather business. They
told me their fathers wouldn’t kill the Mamba, as it would have
provoked the wrath of the mighty Umtagati (God).”’
This explanation of Mr. Marley’s seems to offer a fairly reason-
able explanation, but it is not, I think, the one which accounts
for this widespread belief amongst the natives of the existence
of a Crested Mamba.
Mr. W. F. Jones is a gentleman who has lived for years in
those parts of Zululand most frequented by Black Mambas. He
has hunted them daily for the purpose of collecting their venom
for scientific purposes. He has been responsible for the deaths
of many hundreds. He writes me as follows :—‘‘ It may not be
generally known, but Black Mambas have the power of apparently
inflating the greater portion of the body and neck. The neck is
not distended in the manner of the Cobra family, but the sides
appear to be compressed together so that when seen straight on,
this section of the body presents the appearance of a narrow
ridge. When viewed sideways it gives the creature with its
very small head a grotesque appearance. The full distension is
rarely resorted to. It moves deliberately and even awkwardly,
and quite unlike itself when the distension is complete, and it
would be a very dangerous proceeding to molest one at such
times. A nine to twelve foot Mamba at this time looks twice its
usual girth, and is a startling object. Before there is time to
recover from the surprise, the snake has achieved its purpose,
and vanished. This is merely a temporary ruse to cover retreat
over ground exposed to the view of an intruder. The moment
the snake is out of sight the body assumes its usual outline, and
either glides off rapidly, or remains perfectly still and intensely
vigilant. Undoubtedly, the snake wishes you to believe it has
gone to ground, and it is safest that you should so believe, and
cross it no more for that day. Though it is a comparatively
rare occurrence for the Black Mamba to assume this guise, the
KILLED BY A BLACK MAMBA. 205
fact must frequently have been observed by the Zulu, who has
mistaken the semblance of size for the bodily reality. This is
sufficient to account for the ex-
aggeration they betray when
recounting their experiences of
these reptiles.”
Mr. Jones’ explanation seems
to explain satisfactorily the
origin of the belief in Crested
Mambas.
I have killed and been present
at the killing of many, but have
not been fortunate enough to
witness the phenomenon de-
i Lr. Ss. reve Fic. 83.—Skull and poison apparatus of
scribed by Mr Jone Howey — a green variety of Mamba (Dendraspis
I noticed that one which I kept angusticeps). The Mamba has a dupli-
: AA Sa cate pair of fangs. Poison gland is
in captivity, when irritated, seen behind the eye. It is connected
< with the base of the fang by a tube or
assumed this flattened appear- duct.
ance to a certain degree.
The Boomslang has a somewhat similar habit. When
unusually excited, it dilates its throat considerably, giving the
head a weird and uncanny appearance. In the Addenda at the
end of the book, photos recently taken show this wonderful
phenomenon.
KILLED BY A BLACK MAMBA.
Some of the favourite resting places of Mambas are the
branches of thick-foliaged trees. Entwining themselves amongst
the twigs they lie perfectly still. They frequently select branches
of trees overhanging the Kafir paths which wind through the
forests in various directions. These Kafir paths are made by the
natives, who always walk single file. They are merely tracks
worn by the feet of the natives. Many a native has met his
death by being bitten on the head, neck, or shoulders whilst
passing under a branch in the foliage on which one of these
venomous snakes lay concealed.
One day, when out buck-hunting, I was leisurely riding along
a Kafir path in the outskirts of a forest, when suddenly a black
streak shot out from a clump of stunted bush a few yards ahead,
and next instant I saw it was a great Black Mamba, and that it
had buried its fangs up to the hilt in a burly Zulu’s bare shoulder.
206 THE SNAKES OF SOUTH AFRICA.
The native, with a hoarse yell, bounded into the air, fell,
recovered himself, and rushed away at full speed down the path.
Making a detour to avoid the snake, I came upon the man, ten
minutes later, in the throes of death.
_ Naturally, in all cases death would not have been so startlingly
sudden, but the man received a full bite in the shoulder-muscles
by a large and vigorous snake, and running at such great speed
the blood coursed with tremendous rapidity through his blood
vessels, and quickly carried the venom to every part.
Another day when out on horse-back, away in the wilds of
Natal, I noticed a movement in a large tree overhead, and detected
a Green Mamba. Moving further away, I sent a charge of No. 6
shot at him. Down he tumbled on to the grass, but alas! my
favourite terrier dog darted forward at the wounded snake, and
was instantly bitten in the side. 1 quickly killed the reptile, and
attended to the dog, but in spite of every effort to save his life,
he died in fifteen minutes. |
The Mamba does not deliberately take up a position in a branch
overhanging a Kafir path with the intention of viciously biting
some unwary passer-by. He is either there with the purpose of
sunning himself, to escape from the terrible closeness of the forest
air on a hot summer’s day, or with the object of watching out for
ameal. These Kafir paths are much frequented by small rodents
and forest birds, and it is these which the Mamba is anxious to
secure for a meal. Naturally, if lying concealed amongst the
foliage of a low branch, andif suddenly aroused from slumber, or
approached too closely or actually brushed against, when he is
lying wide awake, and intent upon watching for prey, the Mamba
will strike.
The stroke is invariably fatal, for it is received usually upon
the head, neck, or shoulders.
A favourite position assumed by the Black Mamba when
sleeping, is a coiled-up attitude upon some twigs, with the head
tucked away under or between one or two folds of the body. In
this position it will lie for hours, relying upon its protective
colouration to escape detection. At these times it may easily
be approached and secured alive with a large butterfly net, if
the branch should happen to be in a situation easy of silent
approach, and sufficiently near to the ground. The slightest
vibration of the branch, or the cracking of a twig will cause it
THE KING OF SOUTH AFRICAN SNAKES. = 207
instantly to awake, whereupon it silently glides out of sight
among the fohage.
On these occasions if you happen to be between the reptile
and its retreat, the chances are you will be bitten. The snake
gives you no time to think. The thinking and acting must be
simultaneous. A sudden uncoiling, a blur, and next instant the
smart of the venom is felt in face, arms, or legs. An impotent
struggle of the will against the subtle, paralyzing power of the
venom, then the cold chills of death are felt stealing through the
frame, followed by oblivion and death.
A FAITHFUL Doc.
Near the Tugela River, a Zulu girl was once busy with her duties
of rolling up the sleeping mats and brushing out the hut which
was the usual circular grass structure, when, to her horror, a large
Black Mamba dropped out of the thatch on to the floor. The
girl screamed and crouched in a corner, the snake being between
her and the small door. Just at that critical instant her pet dog
rushed in through the doorway, and, seeing the Mamba advancing
upon the girl, he instantly tackled it. The Mamba rained blow
after blow upon the dog, who grimly held the snake between his
jaws. In a minute or two the venom began to exert its well-
known deadly effects. The faithful dog staggered and collapsed,
but, with a last expiring effort, he so effectually mangled the
snake that it was powerless to escape or attack the girl, who
slipped past it and escaped.
THE KING OF SOUTH AFRICAN SNAKES.
Many and varied are the stories told of the terrible Mambas.
Sitting within the cheerful glow of camp fires, after a day’s tough
riding and climbing, I have passed many a happy hour listening
to thrilling, if legendary tales, of the evil powers and fierce
aggressiveness of the Mamba. I think there is no happier
life than to live for months at a time away from all the
cares, bickerings, conventionalities, and empty vanity with
which town life is so permeated, and with a companion or
two, a favourite horse, a few affectionate and devoted dogs,
208 THE SNAKES OF SOUTH AFRICA.
and a couple of trusty Zulu servants, to go right into the wilds,
away from all civilization, and live surrounded by Nature, and
study the ways of her creations.
So great is the dread of the Mamba in the native mind, that
if one be known to inhabit any particular locality, few, if any,
natives will venture there. In fact, a wide detour is always
made. As a general rule, the more we learn about snakes and
their ways, the less fear we have of them. This is usually not so
with the Mamba. The more one learns of his ways, the greater
grows the dread of him. He, without doubt, is the king of snakes
in South Africa. For quickness, aggressiveness, and the deadly
nature of his venom, he has no equal.
After two or three encounters with large Black Mambas, I
learned to be wary. I found that even a gun was not always a
protection, so quick and sinuous were his movements. A Black
Mamba should never be attacked in the bush or long grass. I
have frequently startled Mambas out of a nap on the Kafir paths
in the bushy parts of Natal. Sometimes they would glide off
and away into the undergrowth, but as likely as not the Mamba
would slide up a shrub at the side of the path, and remain on the
defensive. If astone be thrown at him, or if he be wounded, he
will, as likely as not, make straight at his aggressor, and with
body raised, bite him.
I once lost a Zulu servant in this way. He had lost most of his
superstitious fear of Mambas, having been with me on many
expeditions, and witnessed numbers of these reptiles being killed.
Disregarding the advice of the other natives, he ventured up a
kloof in search of a duiker buck which was seen to enter. He
came back, foaming at the mouth, and gasping out the word
“Mamba!” and, pointing to the upper part of his thigh, he was
seized with terrible convulsions and died. I mourned for long
over this boy, for he was so true, so brave, so simple, so devoted.
Yes, there is no savage upon the face of the earth to equal a real
uncivilized Zulu of the kraal type, unstained and free from the
degrading and soul-blighting influences of the lower stratum of
humanity often inhabiting towns.
The quickness of movement, grace, and ease with which the
Mamba glides about in his native habitat is very lucidly summed
up by Mr. W. F. Jones, of Zululand. ‘‘ The Mamba is essentially
partial to trees, and thorns make no difference to the ease of its
A FARMER’S EXTRAORDINARY EXPERIENCE. 209
movements. Our large dongas are matted in places with a
dense network of bramble-like growths, which extend search-
ingly in long, sinuous branches, which are studded with
formidable thorns, curved like the claws of a cat. Whatever
road he elects to take, whether on the top or along and
through this cruel maze of brake, it is the same to this graceful
creature. To see a startled Mamba making for his home along
the crown of one of these thickets is a marvel of perfected
movement. The small head, with its full prominent eyes, the
long body, partially raised and sweeping from side to side with a
forward throw, so swift and sudden as to bewilder one into
believing that the creature is bounding along with ten-feet gaps
between the curves. And as the tail disappears into the dark
cavity edging the donga, there follows immediate stillness and
peace. But, on the first sunny day, some person steals along with
a gun charged with No. 6 shot, and midway in the passage home
this time there is a sharp decisive pause. Weare using smokeless
powder, and, without taking the eye off the line of the barrels,
the lightning turn of the head can be followed as it darts viciously
back at the gaping wound halfway down the body. Realizing
its impotence, it strikes hither and thither at leaf or branch.
In a few moments we see the jaws opening widely, the writhe of
the contorted body showing the clean white belly, and we know
that the end of so much beauty and menace has come.”
A FARMER’S EXTRAORDINARY EXPERIENCE.
Mr. T. Braithwaite, senr., had (says the Natal Witness) a
most remarkable experience at his farm “‘ Gracelands,”’ in Muden,
on Wednesday last. To have a snake up the leg of one’s trousers
is a most unenviable experience, and to stand perfectly calm and
still while it remained in such close proximity was an act of
amazing presence of mind. The story is best related in Mr.
Braithwaite’s own words :—
“T sent two natives to clear an irrigation furrow with sickles.
They returned after the lapse of about one hour, and informed me
that they were afraid to continue working there, as they had seen
a large green Mamba in the vicinity. I took my D.B. and went
back with them.
““ We searched some time without success, the grass and other
P
210 THE SNAKES OF SOUTH AFRICA.
herbage being very long and luxurious, when suddenly I felt a
great commotion in my left trouser leg, and knew at once that a
snake was there. Another snake at the same time darted away
from my feet.
“The one in my trousers went up as far as the pocket, and
then turned downwards. I could see by the shape it gave my
trousers, and feel by its strength, that it was no small one.
‘“T kept perfectly still, and called to a native who was a safe
distance away to come and catch hold of the snake’s tail and jerk
it out. But he would not come. The snake then poked its
black snout and shining eyes out below my trousers. On looking
at it I discovered that I was treading on it about a foot from the
end of its tail.
“I gently raised my foot, and the reptile immediately glided
away, and so quickly that I could not get a shot, although my
gun was at the ‘ ready.’
“We afterwards found and shot one of the two snakes, a
greyish-green Mamba, about five and a half feet long, but
whether it was the one who had ‘ worn the maister’s breeks,’ I
cannot say.”
The following appeared in the Eastern Province Herald,
june 27th, LOrt -——
YounGc SURVEYOR’S SAD DEATH.
“The many friends of Mr. Claud (‘Punch’) Moller, who until
recently played full back for the Gardens Rugby Football Club,
Capetown, were grieved to hear of his death from the bite of a
Mamba. The sad event occurred some sixty miles from Malapyre,
Bechuanaland, and details of the occurrence have just come
to hand.
“Mr. Moller left Capetown for Rhodesia some two months back,
on a surveying trip, as assistant to Mr. Hector M. Shaw, Govern-
ment Land Surveyor. On Sunday, the 11th inst., he and Mr.
Shaw were sitting at a camp table alongside of the wagon, writing
letters. Young Moller had just finished a letter to his mother
when he heard a shot fired close to the camp. Knowing that the
natives were in search of another buck, the skin of which would
complete the required number to make a kaross which he wanted,
Mr. Moller folded the letter with the remark to Mr. Shaw:
THE RUSH OF THE MAMBA. 211
‘ Please address this to my mother,’ and grabbing his gun, he
started for the spot where the natives had fired the shot. About
sixty yards from the camp, and a few yards away from where the
natives stood, Moller had his eyes fixed on the latter when he
suddenly put his foot on a large black Mamba snake, measuring
over six feet long. In a moment the snake reared and put its
fangs in his foot above the left ankle. Moller, with presence of
mind, cut away the part bitten with a penknife, and tightly tied
a bootlace above the wound and another strap below the knee.
Mr. Shaw came upon the scene immediately, and two more
ligaments were put on. Everything possible was done, and
remedies were applied as well. Moller apparently recovered,
and the poison was stayed. Preparations were then made to
go into Malapyre, but just as they were starting, some six or
seven hours afterwards, Moller’s left side suddenly became
paralyzed, and in a few minutes he had expired.” A full
account of this sad case is given in the Addenda at the end of
the book.
THE RUSH OF THE MAMBA.
The Black Mamba, as a general rule, has some secure retreat
to which it decamps when alarmed. If a Mamba be surprised
when out in the open, and if you happen to be between it and
its retreat, it will not rush off in an opposite direction, as most
animals would do, but will instantly dart off at terrific speed,
apparently charging right at you. If a Mamba should act in
this manner, and if you are not prepared to defend yourself,
your safest plan is to sprint off without an instant’s delay.
Whilst travelling at great speed, a Mamba can strike right
and left with consummate ease, without apparently abating
its speed in the slightest. To stand in the path of a Mamba
rushing off to its lair, is fraught with the gravest danger,
even if wellarmed. Atsuch times the nerves are none too steady,
and it is as likely as not that even an expert with the gun will
miss his aim. There is no time for reloading, and often not even
time to take a second aim should the gun be a double-barrelled
one, before the snake has swept past, and in the passing deposited
its death-dealing venom.
When making off through the bushveld, the Black Mamba,
with a rapid and continuous succession of forward propulsions,
212 THE SNAKES OF SOUTH AFRICA.
glides over the stubble, the head and anterior part of its body
being sometimes several feet off the ground. When a bush fire
is raging Mambas may be seen escaping in this way at a swift
pace. Viewed at a distance they seem to be gliding over the
tops of the long grass and low shrubs. Cases are on record of
men being bitten as high up as the thigh, when mounted on
horseback.
DISTRIBUTION.
The Mamba (Dendraspis angusticeps) is very abundant
throughout the wooded districts of Natal, Zululand, Eastern
Transvaal, British Bechuanaland, Rhodesia, and north to Central
Africa.
Another species of Mamba has recently been discovered in
the Transvaal by Dr. Gough. It is named Dendraspis Mamba.
This makes two species found in South Africa.
CHAPTER: VIE
THE PROTEROGLYPHA OR FRONT-FANGED SNAKES
(SOLENOGLYPHA.)
FAMILY V.—VIPERIDZ.
ADDERS, VIPERS AND PIT-VIPERS.
THE Viper family of snakes, with one or two exceptions, are
different in appearance to those of the Colubrine family, to which
Fic. 84.—The life-size head and poison fangs of the typical viper of South Africa, viz.
the Puff Adder (Bitis artetans).
the Cobra belongs. They have flat heads, usually more or less tri-
angular, bodies thick and plump, and tails short. All are venomous.
214 THE SNAKES OF SOUTH ‘AFRICA.
Apart from the outward form, the Viperine snakes differ from
the Colubrines in the formation of the upper jaw bones. The
maxillary bones in which the fangs are set are mobile, allowing
erection and depression of the poison fangs, which are large,
re-curved and hollow, like the needle of a hypodermic syringe.
Behind the front fangs several duplicate sets of fangs are stowed
away, graded in size down to mere specks. These are the Viper’s
reserve set of weapons. If the front active pair of fangs be
shed or lost accidentally, the first pair of the reserve set take their
place, and become connected with the ducts communicating
with the poison glands. The supply of these reserve fangs is
indefinite. If those which are visible are removed, others develop.
NUMBERS AND DISTRIBUTION.
There are about forty-two species of Vipers, and sixty-four
species of what are known as Pit-Vipers. The Vipers inhabit
Africa, Europe and Asia. The Pit-Vipers are unknown in Africa,
but occur all over Southern Asia, Central and South America.
The Rattle-snakes of America are Pit-Vipers. They are termed
such because of a pair of deep pits in the fore part of the head,
between the eyes and nostrils. The Pit-Vipers are classified
under the Sub-Family Crotaline. In South Africa we have
ten species or kinds of Vipers.
SYNOPSIS OF THE GENERA.
GENuS Causus.—Head distinct from neck, covered with symmetrical
shields; nostril between two nasals and the internasal; loreal
present ; eye moderate, with round pupil, separated from the
labials by suboculars. Scales smooth or keeled, with apical
pits, oblique on the sides, in 15 to 22 rows; ventrals rounded.
Tail; short, sub-caudals in two rows or single.
Genus Bitis.—Head very distinct from neck, covered with small im-
bricate scales; eye moderate or rather small, with vertical
pupil, separated from the labials by small scales; nostrils
directed upwards, or upwards and outwards, pierced in a single
or divided nasal, with a deep pit or pocket above, closed by a
valvular, crescentric supranasal. Postfrontal bone very large,
in contact with the ectoptergoid, which has an outer, hook-
shaped process. Scales keeled, with apical pits, in 22 to 41 rows ;
lateral scales in some species slightly oblique; ventrals rounded.
Tail very short ; sub-caudals in two rows.
Genus ATRACTASPIS.—Poison fangs enormously developed ; a few teeth
on the palatines, none of the pterygoids. Head small, not dis-
tinct from neck, covered with large symmetrical shields. Nostril
between two nasals; no loreal. Eye minute, with round pupil.
Postfrontal bone absent. Body cylindrical. Scales smooth,
without pits, in 17 to 37 rows; ventrals rounded. Tail short.
NUMBERS AND DISTRIBUTION. 215
GENus CAUSUS.
Two Species in South Africa.
KEY TOMES SPE CEES:
Snout obtuse, more or less prominent; ventrals
120-155. Poison glands considerably elon-
Causus vhombeatus.
gated Ne es 3 ee e
Snout pointed, prominent, more or less turned up
at the end; ventrals 113-125 .. a .. Causus defillippir.
Fic. 85.—The venomous Hornsman or Horned Adder (Bitis caudalis) of the sandy
inland parts of South Africa (two-thirds natural size).
I. CAUSUS RHOMBEATUS, Night or Demon Adder. Nacht Ader (Adder).
Synonyms—Sepedon rvhombeatus ; Distichurus macuiatus ; Aspidelaps
vhombeatus.
Colour—Olive or pale brown above, rarely uniform, usually with a
dorsal series of large rhomboidal or V-shaped dark brown spots
which may be edged with whitish; usually a large dark j-shaped
marking on the back of the head, the point on the frontal, and
216 THE SNAKES OF SOUTH AFRICA.
an oblique dark streak behind the eye; labials usually dark-
edged; lower parts yellowish white or grey, uniform, or the
shields edged with black.
Average length—2z feet.
Distribution—All over South Africa; North to Tropical Africa.
2. CAUSUS DEFIILIPPII. Snouted Night Adder. Snoet Nacht Adder.
(Gesnoet Nacht Adder.)
Synonyms—Heterodon defillippii ; Causus rostratus.
Colour—Grey or brown above, vertebral region darker, with a series
of large rhomboidal or V-shaped dark brown spots; a large
A-shaped dark brown marking on the occiput, the point on the
frontal; an oblique dark streak behind the eye; upper labials
dark edged; yellowish white beneath, uniform, or with small
greyish-brown spots.
Average length—1z foot 6 inches.
Distribution—Griqualand; Natal; Zululand; Transvaal; Southern
Rhodesia ; East and Central Africa.
Fic. 86.—Head and neck of the poisonous Night or Demon Adder
(Causus rhombeatus).
Note the triangular blackish mark on its head.
Genus BITIS.
Six Species in South Africa.
KEY TO. THE SPECIES:
Nostrils directed upwards ; scales in 31 to 41 rows .._ Bitis arietans.
Nostrils directed upwards and outwards; scales in 21
to 31 rows. Supraocular region not raised, with-
out horn-like scales ; sub-caudals well developed
and smooth in both sexes. Outer row of scales
smooth .. ihe: 5% a Be .. Bitis peringueyi.
Same as the former except that outer row of scales are
keeled .. ay itiie Bitis atropos.
Supraocular region raised, without horn-like scales ;
sub-caudals well developed and smooth in both
sexes .. ae ss ae ta “te .. Bitis inornata,
NUMBERS AND DISTRIBUTION. 217
Supraocular region usually with horn-like scales ;
Sab cwadals: in females, small and _ scale- like,
more or less distinctly keeled. Two or more
supraorbital horns .. aie Sis be .. Buitis cornuta.
Supraorbital region with only one horn-like erect scale.
Sometimes it is not present ac ee .. Bitis caudalis.
I. BITIS ARIETANS. Puff Adder; Pof Adder.
Synonyms—Vipera arietans ; Cobra lachesis ; Clotho arietans ; Echidna
arietans.
Colour—Yellow, pale brown, or orange above, marked with regular
chevron-shaped dark brown or black bars pointing backwards,
or black with orange or yellow markings; a large dark blotch
covering the crown, separated from a smaller interorbital blotch
by a transverse yellow line; an oblique dark band below, and
another behind the eye; yellowish white beneath, uniform, or
with small dark spots.
Average length—2z feet 6 inches to 3 feet. Attains a length of 5 feet.
Distribution—All parts of South Africa. Northwards through Tropical
Africa to Arabia.
2. BITIS PERINGUEYI. Peringuey’s Adder.
Synonym—Vipera pervingueyt.
Colour—Pale buff or greenish olive above, with three longitudinal
series of grey or blackish spots, the outer ocellar, enclosing a
white centre; head sometimes with a trident-shaped dark
marking on the crown, followed by a cross and two large markings
on the occiput ; whitish beneath, with small dark spots.
Average length—z foot.
Distribution—Kalahari ; German South-West Africa; Angola.
3. Biris aTropos. Berg Adder.
Synonyms—Coluber atropos ; Cobra atropos ; Vipera atropos ; Clotho
atropos ; Echidna atropos.
Colour—Brown or greyish brown above, with four longitudinal series
of large dark brown, black and white edged spots, formed by
the breaking up into two of the two series of sub-circular spots ;
a continuous or interrupted whitish streak running between,
and dividing the spots on each side of the back, and another
lower down on the sides; two large dark markings on the head,
from the nape to between the eyes; an oblique, light, dark-
edged streak from behind the eye to the mouth; belly grey or
brown, spotted with darker.
Average length—1 foot 6 inches.
Distribution—Both provinces of Cape Colony; Basutoland; Griqua-
land; Orange River Colony; Natal; Zululand; Transvaal.
(Mountainous regions, as its name implies.)
4. BiTIs INORNATA. The Cape Puff Adder. Kaap Pof Adder.
Synonyms—Echidna inornata ; Vipera atropoides ; Vipera inornata.
Colour—Variable.
A. Dark yellowish-brown above, with faint traces of darker markings,
brownish-yellow beneath, with a few dark dots; head marbled
with dark brown.
B. Brown above, with two dorsal series of dark brown, black-edged
spots.
C. Reddish brown above, marked as in Bitis cornuta.
Average length—18 inches.
Distribution—Both provinces of Cape Colony. (Very uncommon.)
218 THE SNAKES OF SOUTH AFRICA.
= J)
6.
BITIS CORNUTA. Hornsman or Horned Adder ; Hoornsman.
Synonyms—V pera cornuta ; Vipera armata ; Cerastes cornuta ; Clotho
cornuta ; Cerastes lophophrys.
Colour—Greyish or reddish brown above, with dark brown spots, often
edged with whitish, disposed in three or four longitudinal series,
with or without light spots between them ; head with more or
less distinct symmetrical markings; an oblique dark streak
from the eye to the mouth ; yellowish white or brownish beneath,
uniform or spotted with dark brown.
Average length—r foot to 1 foot 6 inches.
Distribution—Both provinces of Cape Colony, including British Bechu-
analand ; German South-West Africa. (Partial to sandy regions.)
BiTIS CAUDALIS. Horned Puff Adder. Hoorn Pof Adder. Also
called Hornsman.
Synonyms—Vipera ocellata; Cerastes ocellatus; Vipera caudalis ;
Cerastes caudalis ; Vipera schneidert.
t
—— |
Fic. 87.—Head and neck of the Horned Adder (Bitis caudalis).
A pair of erect horn-like scales on the head. Body
rough-looking and dingy. Head flat and broad.
Colour—Pale buff, reddish or sandy grey above, with two series of
brown spots with light centres, and frequently a vertebral series
of narrower spots ; the spots may be edged with yellow ; yellowish
white beneath, uniform or with small blackish spots on the sides.
Average length—14 inches.
Distribution—Eastern Province of Cape Colony; Orange River Colony and
Transvaal; Southern Rhodesia; German South-West Africa; Angola.
Bitis GaBonica. The West African Adder. :
Synonyms—Cerastes nasicornis ; Echidna gabonica; Vipera rhino-
cevos ; Clotho rhinoceros ; Bitis rhinoceros.
Colour—Brown above, with a vertebral series of elongate, quadrangular
yellowish or light brown spots connected by hour-glass shaped
dark brown markings. A series of crescentic or angular dark
brown markings on each side; head pale above with a dark
brown median line; a dark brown oblique band behind the
eye, widening towards the mouth. Yellowish beneath, with
small brown or blackish spots.
Average length—3 to 4 feet. ;
Distribution—Amatongaland ; Damaraland ; South Central Africa.
Fic. 88.—The internal organs of a Puff Adder (Bitis arietans). (1) Figure on the left, the lung. The
dark line running down over the surface is the windpipe. The airentry is at t marked A. Higher
up at B is top of lung. C is entrance to the windpipe. D is the ende ortion which snake can
protrude from the jaws in order to breathe when swallowing large prey, which causes great distension
of jaws. (2) Gall bladder. (3) Liver. (4) Heart. (5) Figure on right, the whole dig
The top is entrance to gullet leading from mouth down to stomach, which is the largest portion in
centre. Lower portions marked E are intestines. The slightly larger part at end of bowels is the
cloaca, and vent. Central figure is a Puff Adder laid open. (1) Fang. (3) Lower jaw. (6) Poison
gland. (7) Tongue. (9) Windpipe. (10) The stomach (coloured white) showing gullet leading down
from mouth. The black-looking parts on which it rests are masses of yellowish fat. (11) Beginning
of the intestines (covered with fat). (12) Heart. (13) Veins and arteries. (14) Lung (coloured
black). White streak along it is the windpipe. (15) Entrance of windpipe into bottom of lung.
(16) Liver. (17) and (18) Intestines. These are enveloped in fat. (19) Vent. (If the numbers
appear indistinct, use a small magnifying glass.)
THE SNAKES OF SOUTH AFRICA.
iS)
iS)
o
Genus ATRACTASPIS.
Two Species in South Africa.
IIB NG- IO) Walle Sie aCINS Sy
Ventrals 221-260 .. ee 5 sie .. Atvactaspis bibronit.
Ventrais 199 ne ae Atvactaspis duerdent.
I, ATRACTASPIS BIBRONII. Oviparous Adder. Ei-leggend Adder. (Eier-
leggend slang.)
Synonyms—Atractaspis inornatus ; Atvactaspis ivregularis.
Colour—Dark purplish-brown above, yellowish or pale brown beneath.
Average length—2 feet.
Distribution—Cape Colony; Orange River Colony; Griqualand ;
Natal; Zululand; Transvaal; German South-West. Africa ;
Angola; Delagoa Bay; Portuguese East Africa.
2. ATRACTASPIS DUERDENI. Duerden’s Adder.
Colour—Cream coloured above, lighter below.
Average length—trz foot 6 inches.
Distribution—North-East Kalahari.
THE PuFFr ADDER.
(Bitis arietans.)
ZuLvU: tbhululu.
The Puff Adder is South Africa’s typical viper, being one of
the commonest and most widespread snakes in the sub-continent.
It is exceedingly venomous and dangerous to man, owing to its
habit of haunting the vicinity of dwellings, enticed thither in
search of rats, mice, and chickens. It is quite a common occur-
rence to find Puff Adders actually crawling about the rooms.
One day a lady at Walmer, a suburb of Port Elizabeth, went
to her kitchen-dresser for a dish, and there amongst the plates
was a large live Puff Adder. Aided by her daughter, she captured
it alive, and brought it in triumph to me.
Once I was staying with a friend for a few days one winter in
Natal. He and his wife proposed a walk. She retired to put
on her bonnet, when presently she rushed forth and fell into her
husband’s arms in a fainting condition. It seems a venturesome
Puff Adder had gained access to the house, found the wardrobe
door ajar and no lid on the bonnet box, and forthwith settled
himself to hibernate for the winter in the bonnet, evidently
congratulating himself on finding so cosy a place.
>
H.B. Walter
is arietans)
a).
Bnake—Ringhals Slang (Sepedon hamachaetes).
THE TYPICAL VENOMOUS SNAKES OF SOUTH AFRICA.
Ls
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Lists
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ic va
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M
ad
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UR Ae
A
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Easrren Province Heraut Nour process, from a fatntin. y Miss H. B. War
Boomstang or Tree Snake (Dispholidus typus 2. Brown variety of Boomslang or Tree Snake (O/spholidus typus). 3. Puft Adder—Pof Adder (8K
arietan.
1
4. Night Adder--Nacht Adder (Causus rhombeatus). 5, Coral Snake —Koraal Slang (Aspidelaps /ubricus). 6. Hornsman or Horned Adder (Bitis cornuta)
7. Black and Yellow Sea Snake—Zwart en Geel Zee Slang (Hydrus platurus). 8. Mamba or Tree Cobra, black variety (Dendraspis anqusticeps)
9. Mamba or Tree Cobra, green variety (Dendraspis angusticeps). 10. Cape Cobra, yellow variety—Geel Kapell (Naia flava). 11. Ringhals or Spitting 3nake
Ringhals Slang (Sepedon hamachaetes).
H. 8. \alTo 1)
HOW THEIR. YOUNG ARE BORN. 221
THE HIss OF THE PUFF ADDER.
It can hiss loudly, and many a man has cause to be grateful
that Nature has provided the Puff Adder with that mode of warn-
ing his enemies..
The Puff Adder hisses by drawing air into its sac-like lung
and forcing it out rapidly through the glottis and nostrils. These
and most other snakes have only one active lung, which is in the
form of a long bag. The second lung is rudimentary.
THE FANGS.
The dentition of the Puff Adder is elaborate. The poison
fangs are long and powerful. They are hollow, not grooved
like those of the Cobra family. Naturally, if such large
fangs were fixed solidly in the jaw like those of the Cobra, the
snake could not close its mouth. Nature has provided against
this, and furnished it with fangs with hinges. The fangs are
set in the anterior maxillary bone, which can be moved backwards
and forwards like a hinge . So, when the mouth closes, the fangs
lie along the sides of the upper jaw, enveloped in a protecting
sheath, known as the mucous capsule or vagina dentis. The
small teeth in the back part of the upper jaw, and in the lower
jaw, are for the purpose of helping to hold the captured prey, and
aid in forcing it down the gullet. They are solid and harmless
teeth, as far as venom is concerned. To render’ a Puff Adder
harmless the front fangs and the duplicate sets must all be
removed, as well as the anterior maxillary bone, otherwise more
will develop in time.
How THEIR YOUNG ARE Born.
Eggs are developed within the body of the female Puff Adder.
These grow full size and incubate within the body. They lie in
two long rows on each side of the backbone. Each snake is
enveloped by a thin transparent skin. There are two vaginas,
which join at the vent. The young lie one above the other along
these vaginal tubes. They are born fully developed, and come
forth coiled up within a transparent membraneous sac, which
their active struggling soon ruptures, and they crawl away and
henceforth lead an existence quite independent of the mother.
222 THE SNAKES OF SOUTH ?AFRICA.
The young Puff Adders average seven inches in length at
birth. They are venomous as soon as born, and will strike fiercely ;
if irritated. Mice bitten by them died within a few minutes. I
have made them bite full-grown rats, which died in half an hour.
A friend was bitten on the hand by a young Puff Adder a day or
two old. His arm swelled, and there was a good deal of con-
stitutional disturbance, but he recovered in a few days.
During April of 1910, five Puff Adders gave birth to young in
the Port Elizabeth Museum. Three of the Adders brought forth
the whole of the young alive. The other two gave birth to many
fully-developed ones, as well as about a dozen only two-thirds
Fic. 89.—(1) The egg of a Puff Adder. These eggs develop inside the snake, and lie in two long rows. They
incubate within the body of the parent. (2) A young Puff Adder just born, but only partly developed.
In the front is seen some of the egg still unabsorbed. The embryo is enveloped in a membraneous
bag. (3) A young Puff Adder, fully developed, just born. It is struggling out of the transparent
membraneous sheath in which it was born. Its headis protruding. (4) A young Puff Adder, half an
hour after birth, 74 inches long. One hour after birth it bit a rat. The rat was dead in fifteen
minutes. °
matured. I have frequently noticed on dissecting Puff Adders
that the young are not always developed to the same degree.
Sometimes the eggs fail to incubate. In this case they harden,
and are sometimes passed out. In other cases they remain in
the snake, and their presence eventually kills her.
Puff Adders have given birth to young a great many times
in our snake cages at the Port Elizabeth Museum during the
months of March, April, and May. This would lead us to conclude
that the development of the eggs and incubation period within the
mother is about six or seven months, as the Puff Adders begin
coming forth from their winter retreats mostly during October
PUFF ADDERS IN CAPTIVITY. 223
in this district, and it would be about this time impregnation of
the female would take place.
I have noticed that captive Puff Adders are active in the
pursuit of the females in October, November, and December,
and that during the autumn they show no inclination.
Young Puff Adders will live in apparent health for as long as
three months after birth without food. They also grow larger
in girth and increase in length sometimes by as much as two
inches. I have noticed this on several occasions. I have at
present a batch under observation. They refuse all food. It is
now two months since they were born, and yet they do not show
any signs of emaciation. Some have increased half an inch,
others up to one and a half inches in length. All are slightly
larger in girth than when born.
On the 24th June, 1911, I captured a large female Puff Adder,
which appeared to be gravid. I killed the reptile, and, on opening
it, found eleven fully-developed eggs lying in a row along one
side of the backbone and sixteen on the other. I carefully
examined these eggs, but could not find the slightest signs of an
embryo. Whether they were impregnated or not I cannot say.
June is mid-winter in South Africa, and if these eggs were 1m-
pregnated then it must have occurred during the previous
autumn, as this snake was hibernating when I secured it.
In July another large female Puff Adder was captured, which,
when killed, and opened was found to contain twenty-four fully-
developed eggs. They lay in two equal rows on each side of the
backbone. There was a good deal of fat in flaky masses covering
the eggs, although the winter was well advanced. There was
no signs at all of the eggs having been impregnated. It seems
to me to be very likely that at least in the case of Puff Adders,
the eggs develop during the period of hibernation, as snakes are
invariably very fat and in excellent condition late in the autumn.
Then, when the female issues forth in the spring, she is im-
pregnated by the male, and the eggs forthwith begin to incubate.
I have found that Puff Adders always give birth to their young
in the autumn.
Purr ADDERS IN CAPTIVITY.
These snakes in captivity thrive if kept in natural conditions,
but unless they have plenty of sunshine, and the temperature of
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HOW THEY KILL. THEIR: PREY. 22,
OL
the air in the cage be warm, they become sluggish, refusing all
food, and die of starvation. After swallowing a rat, a Puff Adder
will rarely take food again for at least a month. I have succeeded
in keeping Puff Adders alive for considerable periods by artificially
feeding them. An oiled rubber tube is slipped down the reptile’s
throat and the contents of fowls’ eggs are squirted down into the
stomach by means of a syringe. The rubber tube can be dis-
pensed with, and the nozzle of the syringe inserted into the
snake’s throat. An easy plan is to insert the tube of a glass
funnel into the reptile’s throat and pour the liquid food into the
funnel. If it does not run down freely, it may be worked down
by manipulating the snake’s throat with the fingers.
How THEY KILL THEIR PREY.
A Puff Adder can swallow the largest of barn rats with ease.
Whenever a live rat is introduced into a cage containing Puff
Adders, whichever of them is in a mood ‘or feeding will wait till
the rat approaches sufficiently close, then, with a swinging side
stroke of lightning-like rapidity, the fangs are driven home.
Although rats are exceedingly nimble, the stroke is so rapid that
the rodent has no time to spring away. Disengaging its fangs, the
snake keeps the rat in view, but makes no attempt to capture it,
evidently well aware its victim is incapable of moving far away.
The stricken rat runs about at random in a dazed sort of way for
a minute or two, then the back legs become paralyzed, and the
victim rapidly dies. The instant the victim ceases to move, the
snake leisurely advances, investigates with its sensitive forked
tongue, and finding the head, forthwith begins the swallowing
process, which, in the case of a very large rat, lasts about half
an hour.
Rats, when introduced into a cage containing venomous
snakes, show little or no fear. On several occasions I have
allowed rats to remain with Puff Adders and other venomous
snakes overnight, and in the morning discovered one, sometimes
several, snakes dead, and parts of their bodies eaten, the rats
sitting in corners or on the branches in the cage, quite contented,
and fast asleep. Rats will even kill the fierce Cobra at times.
When a venomous snake bites its prey, the nervous system
is rapidly benumbed, and all sensation lost ; therefore, practically
speaking, the victim does not suffer pain.
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Soyeus [etoves usyM suaddey uayyo Suryy Jo 410s SUL ‘St9PPY YN OM} uaamjoq reM jo nq Y— TO Ory,
JoT OF asNfot Y}Oq JT *1a}v918 ay. AQ PaMoT[eAs sour
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GRUESOME “SIGH: 227
The favourite food of the Puff Adder is rats and mice. He
will, when his choice food is scarce, eat toads, lizards, and other
creatures. When making a meal of a toad, the Puff Adder
simply seizes it by the head, without bothering to strike it first,
and proceeds to swallow it alive.
A MODERN JONAH.
One day, away in the wilds of Zululand, I was sitting in a
dreamy mood on an ant heap, when out of a shrub hopped a
toad followed by a Puff Adder, which seized it. My natural
prompting was to rescue the toad, but my investigating instinct
got the better of me, so I just sat still and watched the snake
swallow the toad. It took about half an hour, because the latter
was a big one. At last it finished, and yawned several times,
like the man who dines not wisely, but too well. Then my turn
came, and I shot him. With my hunting knife I carefully dis-
embowelled him, disinterred the toad, and laid it on the ground.
It was an elongated thing of the nature of a sausage, covered all
over with slime.
Presently the slimy object moved. It inhaled a breath of
air. It got broader. Its limbs began to come back into their
natural positions, and it sat up, opened its eyes and looked
around in a dazed sort of way. Then it gave a few preliminary
jumps, and finding its limbs to be serviceable, hopped off into
the bush, apparently not a bit the worse for its Jonah-like
adventure. This incident happened many years ago, and since
then I have had similar experiences on several occasions. A
toad is a reptile, and very tenacious of life, and can exist for a
considerable time without breathing. It is not possible for any
warm-blooded creature, such as a mammal or bird, to exist alive
after being swallowed by a snake, because immediately the breath-
ing is arrested the creature dies.
A GRUESOME SIGHT.
Once I observed an enormous swarm of those dreaded pests,
the Red Ants. They seemed to be actively employed, so I went
closer, and discovered they were swarming over a Puff Adder.
The snake was wriggling and struggling furiously. I retired out
of the way of the ants, of which I had already very painful
228 THE SNAKES OF SOUTH AFRICA.
Fic. 92.—1. Puff Adder braced up and on the defensive ready for a forward thrust.
2. The first movement in the act of striking. The head and anterior part of the bodyis thrown
backward with lightning rapidity.
3. Then with gaping jaws the snake makes a rapid forward stroke.
4. If he does not succeed in driving his fangs home in the object aimed at, he falls the whole length
of his body, as seen in this picture.
THE SEXES. 229
experiences, and sat down on a fallen tree to watch. In about
an hour the ants had cleaned every particle of flesh from the
snake’s skeleton, leaving it beautifully white and clean.
. A TJERRIFYING EXPERIENCE.
When out seeking for a Cheetah or Hunting Leopard, which
had been carrying off the farmers’ stock in the neighbourhood,
my two Dutch friends and I cast ourselves down upon the grass
under a tree, for the sun was very hot. I was busy looking over
my notes, and my friends were meditatively smoking their
pipes, when one hoarsely whispered, ‘“‘ Hendrik, don’t move!
Don’t move an inch, I say!” I glanced at his face. It was
deathly white. Following his gaze, a shiver of fear crept over
me, for there, with its head and a foot of its body up the
other Dutchman’s trouser-leg, was a Puff Adder. The other
man was a hardy old Boer, whom I had seen in many a
tight fix, but who never for an instant lost his nerve. He
silently, and with a swift movement, seized the reptile’s tail,
gave a terrific jerk, and sent it hurtling a score of yards away.
Then he picked up his gun, sought out the snake, and shot it.
PuFF ADDERS VARY IN COLOUR.
Puff Adders vary considerably in coloration, although the
shape of the markings is always the same. The nature of the
surroundings seems to determine the shade of colour. The
prevailing colour is dull brown, with yellow markings. Just
after the skin-casting process they are at their best. The markings
are then bright yellow. A large female Puff Adder, which was
captured amongst some town refuse near Port Elizabeth by Mr.
J. Williams, had the usual brown ground colour, but the markings
were all pure white instead of yellow. There was not a trace of
yellow on the snake. Two others have been captured.
THE SEXES.
In the great majority of snakes there is no outward sign by
which the sexes of snakes may be determined. A male snake
may be distinguished by firmly pressing the thumb or finger on
the under part of the tail-region, two inches below the vent.
Continue to press firmly, and at the same time slowly slide the
230 THE SNAKES OF SOUTH AERICA.
finger or fingers up towards the vent, whereupon, if the snake
be a male, two roundish, slender, soft-looking appendages will
protrude themselves. In average-sized snakes these are about
two inches long. If the snake be dead, then, instead of pressing
the fingers as stated, cut open the skin on the underpart, from the
vent towards the tail. Partly remove the skin and lay the flesh
bare. If a male, these two vascular, elongated bodies will be
observed lying side by side, reaching up to the lower edge of the
vent. These are the male generative organs. In the female
they are lacking.
FATALITIES.
The number of deaths from the bites of Puff Adders is con-
siderable, especially amongst the native population. European
Fic. 93.—1. Male Puff Adder. 2. Female Puff Adder (Adults). 3. Young Female Puff Adder just
born. 4. Young Male ditto. In the male the tail is more elongated ; that of the female comes
to a rather abrupt end. The distance from the vent to the end of the tail is greater in the male
than in the female.
children are often bitten and die. Children are far more likely
to be victims than adults, for the reason that, when playing, they
rush about excitedly and tread upon Puff Adders before these
reptiles are able to emit their characteristic warning hiss. When
disturbed, the Puff Adder endeavours to escape observation by
coiling up and lying still. If trodden upon, or if the foot be placed
near one when in such a position, it immediately delivers a
powerful forward stroke. The head is drawn back with a jerk
to gain more power for the forward thrust, the mouth gapes
enormously, and in the twinkling of an eye the long, curved
poison fangs are buried deep in the victim’s flesh. There is,
FATALITIES. 231
indeed, a poor chance of recovery if a Puff Adder succeeds in
driving both his fangs home and getting a grip, which he assuredly
will do, if he possibly can. He knows full well that if he can
succeed in hanging on for a few seconds, he will be able to drive
the whole of his stored-up venom into the wounds. A full
discharge of venom will often amount to ten drops, two or three
of which are sufficient to cause death in a robust man.
The little daughter of a farmer friend of mine lost her life by
the bite of a Puff Adder. She trod upon the tail of the reptile,
whereupon it made a fierce lunge, striking her leg just behind
the knee. One of the fangs lacerated an artery, and the parents,
not knowing what to do, she rapidly bled to death.
In Natal, a native labourer was once gathering up a pile of
brushwood. A Puff Adder happened to be lying concealed
beneath it. The instant his hand touched the reptile, it struck
and buried its fangs inhisarm. Withakoarse cry, he summoned
his fellow-labourers, but within two minutes of being bitten, the
man was dead. The post-mortem showed that one of the snake’s
fangs had penetrated the vein which lies just beneath the skin
on the inner side of the elbow. A charge of venom had been
injected therein, which caused almost instant clotting of the blood,
and death. Happily, such cases of direct injection of venom into
a vein by a snake are uncommon.
I was driving a two-horse Cape cart one day along a country
road, followed by my two fox terriers. Presently I spied a Puff
Adder sluggishly crawling across the road about forty paces
head. One of my terriers, seeing it, made a dash, but, failing
to swerve aside sufficiently, the reptile coiled, and shot forward
like a released steel spring. The force of the blow knocked the
dog on his side. However, he was quickly up, and attempted to
run off, but the snake held on firmly. By this time the horses
had taken alarm, and attempted to bolt. Three minutes later,
when I had succeeded in pulling them up, the stricken terrier
came bounding up to me, apparently all right. Without the
slightest warning, however, he suddenly turned a somersault,
gave a few gasps, and lay dead.
The snake had evidently discharged a large dose of venom
into him, which caused clotting of the blood, and consequent
rapid death.
Fic. 94.—30A. Puff Adders (Bitis arietans) basking in sunupon the sand, Port Elizabeth. 30B. Puff
Adder in act of swallowing arat. Another coiledupasleep. 30c. A Berg Adder (Bitis atropos). 30D.
Night or Demon Adders (Causus rhombeatus) basking in sun upon the sand, Port Elizabeth—from life.
THE NIGHT OR DEMON ADDER. 233
THE NIGHT OR DEMON ADDER.
(Causus rhombeatus.)
ZULU : INHLANGWANA.
The range of the Night Adder is very widespread in South
Africa. Moist, vegetation-covered localities are its favourite
haunts. It is frequently found about and in the habitations of
man, owing to its fondness for mice, which haunt dwellings,
especially old outhouses, piles of wood, and refuse. It scours the
kitchen garden in search of the common garden toad. Many a
time I have surprised a Night Adder in my garden in Natal
almost choked with the effort to swallow a great fat toad, too
large even for the distensible maw of a snake. I found one of
these snakes dead one day, with a large toad firmly wedged in
its mouth. The reptile, in its efforts to swallow the toad, had
evidently stretched its skin so taut that it was powerless to
disgorge the victim, and so died of suffocation. The toad was
still alive, but in a very feeble condition. I put it aside, but it
died shortly afterwards. Toads, although susceptible to the
venom of snakes, owing to their sluggish blood-circulation and
tenacity of life, sometimes live for days after being bitten
by a venomous snake. Frogs, on the contrary, die almost
instantly.
When the Night Adder finds himself in a house in his
quest for mice, he seeks to conceal himself in whatever place
is handiest. Consequently, where Night Adders are com-
mon, as in Natal, it is quite an everyday occurrence to find
them in cupboards, under beds, chests of drawers, and various
other hiding-places in houses. When turning out lumber from
old outhouses, I have often killed a dozen Night Adders, and
many scores of young ones.
I have always found these snakes to be exceptionally in-
offensive. Unless hurt or irritated by rough handling, or very
much frightened, they never attempt to bite. Those which |
have kept in captivity became so tame that if lifted up gently
they showed no disposition whatever to bite.
One day I was helping my men to renew some fencing-posts,
which those pests, the “‘ White Ants” (Termites) had eaten up.
Kneeling down, I thrust my hand into a hole from which an old
234 THE SNAKES OF SOUTH AFRICA:
post had been withdrawn, and pulled out a handful of rubbish,
amongst which a Night Adder was coiled. It did not attempt
to bite. The one idea was to escape. One of these snakes
nearly got its fangs into my hand one day. Riding across the
veld, I spied the cast skin of a snake in a tuft of grass. Dis-
mounting, I examined it, and seeing that it was unbroken, J
determined to secure it.
Inch by inch I disengaged it, when, simultaneously as I
pressed something soft, I heard a hiss. A dark body shot
forward, and, with a thud, its forepart struck the ground violently.
A Night Adder was in the act of casting its skin, and when
I inadvertently pinched its tail, it waxed wrathful. It aimed
straight enough, but my hand was not there, for I had jerked
it away.
THE VENOM OF THE NIGHT ADDER.
The Night Adder is greatly dreaded, the prevalent belief being
that a bite from one of these snakes will certainly prove fatal
unless antidotal measures are promptly taken.
After a series of experiments on animals I have found that
its venom, although potent, is not nearly so powerful as that of
the Cobra, Mamba, Puff Adder, or Boomslang. Animals bitten
by Night Adders usually recovered completely after moping for
two or three days. Local swelling and more or less hemorrhage
took place. In recent experiments I found that when a large,
well-nourished Night Adder was allowed to bite the leg of a fowl
or rabbit, and retain its grip for two seconds, the victim died in
from half a day to a day. In the majority of the cases when
the snake was allowed to bite fully, but not to retain its hold,
the animals recovered in a couple or three days. A strong,
vigorous man would not be likely to die if bitten by one of these
snakes in the ordinary way.
In the Eastern Province Herald, February, 1911, the following
account of the death of a well-known man ‘in these parts is
reported ;—
“Private telegrams were received in town early yesterday
morning conveying the sad news of the demise of Mr. R. C.
Parkin, of Bluegum Avenue, one of the oldest and most respected
farmers in the district.
NIGHT ADDER LAYING EGGS.
Fic. 95.—A Night or Demon Adder (Causus rhombeatus) at Pt. Elizabeth Museum, laying Eggs. It
laid 14 eggs, and remained several days, until disturbed by the assistant. Eggs are laid mostly in
Noy., Dec,, and Jan., and hatch about March,
236 THE SNAKES OF SOUFH AFRICA.
“ It appears that at about eleven o’clock on Tuesday morning,
Mr. Parkin was bitten in the thumb by a Night Adder, and follow-
ing the usual course adopted in such cases, he immediately pro-
ceeded to suck the poison out. This seemed to have the desired
effect, and to all appearance it seemed as though the puncture
had been a slight one.
“Later in the afternoon, however, his face and head com-
menced to swell up, and Mr. Parkin’s condition became exceed-
ingly alarming. Every possible deterrent available was tried,
but to no effect, and death ensued at seven o’clock in the
evening.
“Tt is thought that some of the poison injected by the fangs
of the Adder sucked from the wound had re-entered Mr. Parkin’s
system by means of a scratch or bruise in the mouth or tongue,
but this is mere surmise.”’
On making inquiries, I ascertained that Mr. Parkin’s head
and throat were greatly swollen, and the muscles of the mouth,
eyelids, and face were paralyzed. The throat continued to swell,
and he eventually died of suffocation. If an air-tube had been
inserted in the windpipe below the swelling, his life might have
been saved, as the swelling would gradually have subsided.
There can be little doubt that the deceased gentleman was
suffering at the time from inflammation of some portion of the
lining membranes of his mouth, or perhaps the teeth were decayed
or the gums ulcerated or otherwise injured, which allowed
some of the venom to be absorbed. These parts are so intensely
susceptible to the action of venom, that a very small quantity
will cause extensive swelling of the mouth and throat. In
medical literature, cases are recorded of men dying of suffocation
caused by extensive swelling of the throat consequent upon the
sting of a hornet, wasp, or bee, which had been accidentally
swallowed with some beverage, and, in passing, stung the back
of the throat.
If sucking is resorted to in cases of snake bite, when the
person is not sure his mouth is in good condition, he should put
a tiny pinch of crystals of permanganate of potash in the palm
of his hand, spit on them, mix and lick it, just previous to applying
his mouth to the wound. The permanganate will kill any venom
sucked up. Of course, if permanganate is rubbed into the
wounds, and if they are subsequently sucked, there will be no
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238 THE SNAKES OF SOUTH AFRICA,
danger of the venom being absorbed by the mouth, for the
sucked up venom will be mixed with blood, mucous, and per-
manganate. The presence of the latter will render the poison
harmless.
An acquaintance of mine was bitten on the little finger by a
Night Adder. He instantly undid a bootlace and ligatured the
finger at the base. Sitting down, he scarified the wound, and
started sucking it. The snake bit him at Io a.m. in his garden.
At 3.30 p.m. we found him still sucking the wound. He said
that he had been sucking it at short intervals ever since being
bitten. He was in a state of partial collapse, which I attributed
to nerve shock, believing as he did that a bite from a Night Adder
was almost certain to terminate fatally. The following day he
had recovered, but the finger suppurated, and refused to heal
for four months. A year later it again broke out, and a large
dark scab formed over the site where the snake had bitten him.
The skin of the whole finger sloughed off, and the wound healed.
The following year it again broke out and did likewise. The
third year the same thing occurred, but to a lesser degree. Since
then there has been no recurrence of the symptoms.
In cases of bites by Puff Adders I have known the same thing
often occur. The popular belief is that this periodic ulceration
at the site of the bite will continue until the death of the snake
which inflicted the bite. This, of course, is quite without
foundation. The origin of this superstition can be traced to the
natives, who are firm believers in it. I have known Kafirs to
seek for days for the snake which had bitten one of their friends,
in order to kill it, so that the wound would quickly heal.
REMARKABLE POISON GLANDS.
With perhaps two or three exceptions, venomous snakes have
their poison glands situated at the sides of their heads, just beneath
and behind the eyes. The glands are almond-shaped. The Night
Adder is an exception to this general rule. Its poison glands are
very long, and lie on each side of the backbone of the neck-region
communicating with the poison fangs in the mouth by means of
the usual duct, which is also unusually long. The illustration (Fig.
96) shows this apparatus.
The Night Adders are the most interesting of all South
ERRATA. 239
African snakes to keep in captivity. They are bright and active
and become very tame, and, moreover, unlike most other snakes,
they will feed very freely. I have kept several for many years,
some of which have grown considerably since their capture.
They are fed upon frogs and toads.
There is always great danger of treading upon and getting
bitten by Night Adders, because they are very sluggish, and do not
make much effort to get out of the way, often preferring to lie
quiet, seeking to escape observation by that means. The danger
is increased by their habit of lying across pathways, their colour
harmonizing with that of the ground. They are termed Night
Adders because they usually issue forth from their lairs about
dusk.
Although belonging to the Viper family, the Night Adders
are oviparous; that is, they lay eggs. Those I have kept in
captivity laid batches of eggs varying in number from a dozen to
twenty-five, during the summer months. None of the eggs
showed any signs of incubation. The parent in most instances
coiled round her eggs and remained there several days, but
eventually abandoned them owing to being repeatedly disturbed
by the other snakes, and the attendant who cleaned out the cage
and renewed the water in the water-vessel. In nearly every case
the parent showed the desire to incubate the eggs, and from this
I infer they often remain coiled round the eggs, until they are
incubated, in the wild state. The eggs of snakes can easily be
hatched by placing them in damp earth and putting them in a
chicken incubator. A farmer gave me some Night Adder eggs
which he ploughed up in a field. I placed them in a box of damp
earth and dead leaves and left them out in the sun. Ina month’s
time they hatched out.
ERRATA.
In the ‘‘Cambridge Natural History on Amphibia and
Reptiles,’ by Gadow, page 638, there is the following: “ All
the Viperide are very poisonous, and all except the African
Atractaspis are viviparous.”
Fayrer, in his “‘ Thanatophidia of India” says: “ All the
Viper family of snakes, as their name implies, are viviparous.”
The Atractaspis snakes, viz. the Oviparous Adder and
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THE HORNED ADDER, OR HORNSMAN. 241
Duerden’s Adder, lay eggs, but the Night Adder (Causus rhom-
beatus) does also. Doubtless the other species of the Genus
Causus are also oviparous.
THE HORNED ADDER, OR HORNSMAN.
The Hornsman is a small adder with the characteristic
flattish body and broad head of the Viperine family of snakes.
These vipers are usually about a foot to one foot six inches in
length. There are two species, the only notable difference
between them being that the one known as Bitis cornuta has two
or more erect horn-like scales over each eye, while the other,
which is known as Bitis caudalis, never has more than one erect
horn-like scale over the eye. The former occurs in the sandy
districts of the Western Province of the Cape Colony and north-
wards to German West Africa. The latter is found in the midlands
of both provinces of Cape Colony, and extends to Rhodesia. They
have a habit of burying their bodies in the loose sand, the head
only being above. In this position they will lie for hours, often
for a whole day on the watch for lizards and other small creatures
on which ‘they feed. Being practically invisible when thus
concealed, they are especially dangerous to the bare-footed native,
who is bitten the instant he places his foot upon one, unless he
luckily happens to step right upon its head. Even then the
chances are the snake will extricate its head in time to deliver a
bite before the foot has been withdrawn. These snakes are
capable of inflicting a bite which will cause death to a man.
However, the chance of a fatal issue is considerably less than if
bitten by a Puff Adder or Cobra. This adder gets its name of
Hornsman from the fact of its having two or more erect scales
on its eyebrows, which look like tiny horns. They give birth to
young, usually a dozen to sixteen in number, in the early autumn.
Unless kept in captivity in a large cage out in the open in
which plenty of sand is strewn, these snakes will not live, as they
refuse to eat,and die in a short time. They are, moreover, very
susceptible to a change of environment. I have obtained scores
of them (Bitis caudalis) from the Karroo and endeavoured to
keep them alive at Port Elizabeth without success. The atmo-
sphere is evidently too moist for them. The dry sandy wastes
are their natural habitats.
R
THE SNAKES OF SOUTH AFRICA.
Fic. 98.—The venomous Berg Adder (Bitis atropos) which inhabits the
mountainous parts of South Africa.
THE ATRACTASPIS. VIPERS. 243
THE BERG ADDER.
(Bitis atropos.)
The Berg Adder, as its name implies, is a snake which inhabits
mountainous regions.
This Mountain Adder inhabits the mountain ranges of the
whole of South Africa. In these parts it is frequently met
with out on the bare hillsides prowling round in starch of lizards
on which it principally feeds. When the occasion presents itself,
the Berg Adder will devour the fallow young of birds which build
their nests upon the ground. The chicks of the Mountain
Partridge or Francolin frequently fall victims to this crafty
Adder, who lies as still as the stones and earth which he so closely
resembles. Mice, rats, the larger larve of insects, etc., are also
eaten by it. The Berg Adder is as venomous as the Puff Adder.
I have never succeeded in keeping these snakes alive for long in
captivity. Unless kept under strictly natural conditions, and
in a climate similar to that of their native home, they, like many
other species of snakes, decline in health, refuse to eat, and die.
At the Port Elizabeth Museum I have tried many times to keep
Berg Adders alive by artificially feeding them. The temperature
of the air was warm enough for their requirements, their cage was
large and cosy, but there was something wrong. It was evidently
the change from a high altitude and dry crisp air, to the moisture-
laden air of the seaside.
THE ATRACTASPIS VIPERS.
These snakes, although classed with the Viper family, are
altogether different in shape from most other members of this
family. Their bodies are cylindrical, head small and not distinct
from the neck, eyes very small, and scales smooth and close-
fitting. In fact, any one is apt to mistake these vipers for harm-
less Blind Burrowing snakes (Typhlops), for, in addition to their
outward appearance being somewhat similar, their habits are
more or less the same as those of the Blind Burrowing snakes, or
Acontias or Legless Burrowing Lizards. There are eleven species
of these Atractaspis snakes in Africa, two of which inhabit South
Africa, viz., the Oviparous Adder and Duerden’s Adder.
A remarkable thing about them is the development of their
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fangs. The fangs are abnormally developed, so much so that I
do not think it possible for the jaws to be opened sufficiently wide
for the snake to inflict a bite. Most of the solid teeth have dis-
appeared, or are in a rudimentary condition. There can be little
doubt but that these Atractaspis vipers once had the general
appearance and habits of other members of the family, but
owing to their taking to burrowing habits, their outward form has
gradually been undergoing a change, and doubtless in course of time
the fangs will disappear or become considerably smaller. Owing
to its habit of burrowing, this genus of snake is seldom found.
The Atractaspis Vipers furnish us with an illustration of what
Darwin means by the Evolution of species. Here we have a
Viper which, through changing climate and other conditions, took
to burrowing habits. The whole anatomy of the creature has
been slowly modified to suit its new environment.
Fic. 100.—358. Fangs of an Atractaspis Adder. Its nose is sharp and hard, and suited for digging
in soft ground, and its body is smooth and formed for gliding through loose earth and sand
with the minimum amount of resistance and friction.
CHAPTER Vit:
SNAKE CHARMERS.
SNAKE charmers have existed for long ages in India. They are
referred to in ancient Sanskrit books.
The typical dress of a snake charmer is yellow clothes and a
great turban. The musical instrument which they allege is
an indispensable adjunct in charming snakes is a double pipe
mounted on the dry shell or rind of a calabash or gourd. It is
known as a “ Tubri.’”” The sound produced is somewhat similar
to that of the Highland bagpipes.
Snakes are very susceptible to strong vibrations of sharp
penetrating sound. The effect of the high-keyed notes produced
by the snake charmer’s instrument, causes intense uneasiness and
alarm in wild snakes. Even snakes which have been kept for
a long period in captivity, and which have been habituated to the
sound, will invariably become active and assume a defensive
attitude when this instrument is played.
When released from its dark prison in the snake charmer’s
basket, a Cobra will always rear, expand its hood, and be in-
stantly on the defensive, if sharp and shrill music be played near
it. The onlookers imagine the music has charmed the snake.
The snake charmer fully understanding the ways and habits of
- the Cobra, can therefore anticipate its movements. By swaying
the instrument and his body from side to side, he can apparently
make the serpent imitate his movements. This swaying of the
reared portion of the snake’s body is natural to the Cobra. When
reared and on the defensive, the Cobra carefully watches his enemy
and follows his every movement. By sitting on the ground in —
front of a reared Cobra and gently swaying the body from side
to side, anybody can made the reptile do likewise. When a Cobra
is alarmed, his first instinct is to face his aggressor and continue
SNAKE CHARMERS. 247
facing him, for the snake is well aware that he is at a serious
disadvantage if taken in the rear. If you start walking round a
Cobra you will find he will face you all the time. He carefully
turns his body to time with your degree of speed. By walking
round and round a Cobra for some time, he can be completely
exhausted.
I have, many times, succeeded in doing with Cape Cobras
what the Indian snake charmers do with their Cobras, but the
snakes were by no means charmed or hypnotized, for the simple
reason, as already stated, that it is a natural habit of the Cobra
to follow any sudden or rhythmic movements of the hands, head,
or body. The snake charmers usually render the snakes they
handle harmless by removing their fangs, by either snipping them
off or dissecting out the anterior maxillary bone to which they
are attached. This latter operation prevents any subsequent
development of fangs.
I have examined the collections of snakes of a considerable
number of snake charmers, and found that most, and sometimes
all the snakes belonged to the harmless species.
The snake charmers always positively refused to allow me to
examine the mouths of the reptiles, hypocritically pretending that
I would be bitten and die.
However, the fangs are not always removed. It is a fact that
the more daring and fatalistic snake charmers freely handle the
deadly Indian Cobra. These men are, from long observation,
thoroughly acquainted with the natural movements of this snake,
and are exceedingly dexterous in the use of their hands, for they
all practise the conjuring art, which mainly takes the form of
deceiving the eye by the rapid movements of the hands.
Although apparently careless in handling these deadly
serpents, the snake charmers are, nevertheless, keenly on the
alert, knowing full well that a bite will probably result in death.
Many cases are on record of snake charmers having lost their
lives by being bitten by the snakes they professed to charm.
These men profess to charm snakes from houses and other
retreats. What they really do is to conceal one or more snakes
about their persons, the fangs of which, of course, they have care-
fully removed previously. Sleight-of-hand work being their pro-
fession, they invariably find it an easy matter to withdraw one of
the concealed snakes and surreptitiously place it in the spot
248 THE SNAKES OF SOUTH AFRICA.
desired. Then the charming begins and the snake is discovered.
These snake charmers often have allies who place a snake in the
spot required prior to the advent of the charmer.
When a snake charmer is kept under careful and close scrutiny,
these snake-charming operations fail. A gentleman tells how
he detected one of these men. Raising a great noise he declared
to his Indian servants that a Cobra was in his study. He sent a
messenger to the village snake charmer to come immediately and
charm out the snake. He arrived in due time and began opera-
tions by playing upon his pipes at intervals, and poking about
amongst the furniture. Suddenly he began playing vigorously
in a corner of the room, near some bundles of books and magazines
on the floor. From amongst them the head and neck of a Cobra
reared itself. The gentleman advanced and flourished a stick,
pretending he was anxious to kill the reptile. The charmer
interfered and barred the way, declaring that he wanted to capture
the snake and keep it alive. He was firm in his refusal to permit
the gentleman to advance. Then, stooping down, he began
blowing his pipes again, and the instant the Cobra reared he seized
and transferred it to a bag amidst the horrified exclamations of
the Indian servants. Needless to say the alarm was a bogus one.
The snake was one which had been secretly dropped by the
charmer when he was fussing about the room on his hands and
knees.
When one becomes familiar with the habits and ways of snakes,
and if due care is exercised in handling them, there is little real
risk of being bitten. For twenty years past I have freely handled
snakes, and have only been bitten a few times, but the bites have
never been full ones. Naturally one is apt to become careless
when frequently handling snakes, and so reasonable precautions
are neglected.
To those more or less unacquainted with snakes, these reptiles
are regarded with extreme horror, and the most ludicrous beliefs
are entertained in regard to them; so much so, that any one
handling venomous snakes freely, and apparently in a careless
way, is thought either to exercise some hypnotic power over the
creatures, or else he is taking appalling risks. Snake charmers,
knowing this, take advantage of it. The traditional love of
serpents for music is a myth. The only effect music has is to
frighten, irritate, or excite the curiosity of snakes. A snake will
THESPORD, ELIZABETH SNAKE CATCHER... 249
frequently protrude its head from its place of concealment in a
hole, crevice, or amongst the herbage when shrill music is played,
or even the clinking of a chain, or beating a steel triangle. Sounds
of high pitch excite it. Low muffled sounds or the beating of a
drum it pays little or no heed to.
THE PorRT ELIZABETH SNAKE CATCHER.
The snake charmers of India would pale into insignificance
when compared with Mr. James Williams, the Port Elizabeth
Snake Catcher, who for some years past has captured venomous
snakes for my experiments, and for exhibition in the Port Eliza-
beth Museum. He makes no pretence of exercising any hypnotic
power over these reptiles. From the very beginning he evinced
a keen interest in snakes. Nothing pleased him so much as to be
helping with my experiments. He gloried in holding venomous
snakes between his finger and thumb while I extracted their
venom for experimental purposes. He is an Irishman, and
like the majority of that nationality, always willing to take big
risks.
He knows all about the ways and habits of the local snakes, and
therefore can find and capture snakes almost at any time. I
must admit, however, that the doings of Mr. Williams, and his
absolute fearlessness, in fact I may say recklessness, startle
even me. As will have been read elsewhere (on p. 141), he was
once bitten by a Boomslang and lay apparently dying for a
couple of weeks, with huge dark purple patches caused by
hemorrhage, all over his body. He lay there suffering agonies
of pain, due to acute inflammation of the mucous surfaces of his
bowels and other parts, and for a considerable time after rising
from his sick-bed he felt the after-effects.
Yet James Williams will come sauntering along to me, and
with a tired and indifferent voice observes: “‘ Sir, I managed to
catch two fine Boomslangs to-day.” Diving his hand into a
satchel or linen bag, he forthwith drags out the writhing, struggling
reptiles, and allows them to twist and coil about his arms and
neck. He just smiles and remarks that Boomslangs seldom bite
if they are handled gently when they have once been captured
and kept for a time in a dark bag.
O THE “SNAKES OF SOULE -APERICA:
bo
Un
He brings along Puff Adders, Cobras, Ringhals, Night Adders,
and in fact every kind of snake obtainable in Port Elizabeth
district. As often as not he has his pockets stuffed full of live
snakes, which are prevented from escaping by the lapels being
pinned down. If pins are not available, he utilizes the sharp
thorns of the Mimosa tree.
Long ago I carefully instructed him what to do in case of
being bitten. He instantly sucks the wound if there be no abra-
sions of skin in his mouth. Meanwhile, he is feeling for his pen-
knife, with which he scarifies the flesh over the punctures, rubs
them full of permanganate crystals and immediately applies a
ligature at a convenient place between the wound and the heart.
He then encourages the wound to bleed by manipulating the
surrounding flesh with his fingers, and if the snake be a very
venomous one, such for instance as a Ringhals, Cape Cobra, or
Puff Adder, he severs two or three of the veins in the ligatured
leg or arm as the case may be and thus lets out some of the
poisoned blood before taking off the ligature. Then the ligature
is momentarily loosened at intervals, until, after an hour or so, it
is discarded.
When assisting with experiments and artificially feeding our
captive snakes, he has been bitten three or four times ; but, owing
to prompt treatment, he got off with only slight constitutional
disturbance in each case. I have not yet had occasion to resort
to the injection of anti-venine serum. True, he needed it badly
when he was bitten three years ago by a Boomslang, but unfortu-
nately none was at hand.
BENT ON COLLECTING.
Williams sets out, armed with a forked stick about five feet
in length, and a rather large linen bag similar to an ordinary
pillow case, and tramps the country for a score of miles, visiting
all the favourite haunts of snakes. A serpent once sighted has
little chance of ultimate escape. Even the swift Boomslang is no
match for him. Knowing its habit of darting into the thick
foliage and vanishing in an instant, he cautiously stalks it as it
lies basking in the sunshine out in the open upon the ground.
With a swift rush he is upon it. Before the bewildered snake can
Z 251
BENT? ON COLLECTING.
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252 THE SNAKES OF SOUTH AFRICA.
put its three hundred odd ribs and scales in motion to effect its
escape, he has secured it. If it should succeed in getting into
the bush, he follows without a second’s delay, plunging headlong
in its wake. The very impetuosity of his onslaught is a safeguard,
for the snake is usually too bewildered or terrified to think of
turning upon him to bite. Swinging his captive round and
round by the tail, he opens the mouth of his bag and drops
the dizzy reptile therein. Picking up his stick he resumes his
quest.
Spying a Puff Adder or Cobra vanishing into the thick tangled
scrub, he springs forward, grabs its tail, and carefully pulling it
out gives it a few swings round his body at arm’s length, and then
bags it. Puff Adders he has a great contempt for. He lays hold
of the tail, and without any preliminary swinging drops the reptile
into his bag. All the snakes captured during the day’s excursion
are consigned to the same receptacle.
The next morning he brings them along to me. “ Well,
Williams, any luck yesterday ?”’ “‘ Yes, I got a few.’’ Opening
the mouth of the bag, and drawing out a Puff Adder by the tail,
or with his finger round its throat, and his thumb pressing its
neck just behind the head, he holds it up for inspection, observing,
“Tt’s a beauty, isn’t it?” He heeds not my warnings. I
continually assure him he will die a miserable death from snake
bite one day, away out upon the lonely bush-veld; but he merely
smiles and says that he has got to die some day anyway, so as
well from the bite of a snake as sickness or old age.
Whenever Indian snake charmers visit Port Elizabeth,
Williams amuses himself by stepping out from the assembled
crowd of onlookers, picks up and examines the dentition of the
snakes which the Indian has been charming, and which he has
assured the people are highly venomous. Finding the snakes to
be of the harmless species, or the fangs removed, he thrusts his
finger into the mouths of two or three.
Indian snake charmers in Port Elizabeth have a bad time when
Williams is about, for, somehow, coins do not flow in so readily
from the onlookers when they find out the snakes are, after all,
quite harmless.
On evening during a lecture on snakes to farmers, who firmly
believed that every snake was venomous, Williams handled a large
number of non-venomous Mole Snakes and House Snakes. At
The
Fic. 102.—Williams has returned from a snake hunt, and is showing me his captives.
snakes at his feet are Puff Adders; in his right hand, Mole Snakes; in his left,
Boomslangs.
254 THE SNAKES OF SOUTH: AFRICA.
the conclusion of the lecture I counted sixteen bites on his bared
arms, hands, and neck.
AN AMERICAN SNAKE CATCHER.
I was much amused to read an illustrated article in a well-
known magazine of the “ daring and perilous ”’ exploits of a snake
collector in America. This brave man who “ ran the most appalling
risks ”’ of death from snake bite, issued forth on his snake-catching
excursions clothed in a leather shirt, a pair of tough leather
breeches, top boots, gauntlet gloves and a mask. What a brave
man he was, and what a perilous occupation was his! Williams,
the South African snake catcher, sallies forth in a cotton shirt,
slouch hat, rolled up sleeves, and as likely as not a pair of thin
khaki trousers. Occasionally he wears leather gaiters. These
latter he dons for protection against the thorny shrubs which
abound in the South African veld, more than as a safeguard
against snake bite.
CAN SNAKES FASCINATE THEIR PREY ?
That snakes are able to exercise some power of mesmeric or
hypnotic power and so paralyze the movements of their intended
victims, is almost universally believed throughout the Western
world, except amongst those few naturalists who have made a
close study of the subject. Popular literature is teeming with
anecdotes and essays on the power of snakes to fascinate birds,
small mammals, and even human beings.
In all literature, ancient and modern, frequent references are
made to snakes. In Egypt there are many ancient carvings of
the Egyptian Cobra on the old ruins of a past civilization.
The fact that a snake carries a subtle, potent fluid, and an
apparatus by which, at any moment, when least expected, a death
wound may be inflicted, has caused mankind to invest snakes with
the most magical and diabolical of powers, leading to snake-
worship and the belief that serpents are the incarnation of all that
is evil and demoniacal. The Cobra is an object of veneration and
superstitious dread even to-day among the natives of India.
CAN SNAKES FASCINATE THEIR PREY ? 255
Owing to the death-dealing powers of serpents, and the heredi-
Fic. 103.—The
contents of Williams’ bag—Puff Adders, Boomslangs, Mole Snakes, Cobras.
tary influence upon our minds of the beliefs and fears-of our
256 THE SNAKES -OF SOUTH -APRIGA.
ancestors, we have come to regard snakes with the profoundest
awe and dread. Writers have not been slow to profit by this
universal interest in snakes and their venom, and thrilling anec-
dotes and other writings have been the outcome. Remarkably
interesting and imagination-stirring articles have frequently been
written on the powers of fascination supposed to be exerted by
snakes.
Practically all the popular beliefs in regard to snakes have very
little foundation in fact. This belief, however, is so widespread,
and its truth insisted upon so strongly, that many naturalists
have unquestioningly accepted it as true, and recorded it in
literature as being a fact.
Now, I have had much experience of snakes, and have made it
my business to observe carefully their habits and ways, both in
their natural condition in the wild state and in captivity, and in
no instance have I ever known a snake to fascinate an animal in
the manner it is alleged they do.
I have seen Boomslangs and Mambas many a time in trees,
surrounded by a crowd of fluttering, chattering, excited birds.
The birds were not fascinated by the snake ; they were endeavour-
ing to intimidate it in order to frighten it from their haunts.
WHAT REALLY HAPPENS.
Carefully concealing myself one day, I watched a Mamba
(Dendraspis angusticeps) surrounded by several chattering birds,
mostly Bulbuls and Flycatchers. The snake, with elevated head,
and body bent in a favourable position for a forward spring,
remained amongst the branches as immovable as the Sphinx, its
lidless, unwinking, shiny eyes giving forth a stony stare. Pre-
sently a Bulbul, which had worked itself up into a frenzy of excite-
ment, fluttered within striking distance. Like a stone from a
catapult, the head and forepart of the snake shot forward,
and next instant I saw the struggling bird in the serpent’s
jaws. The rest of the birds instantly fled. Now, the snake did
not throw out any mysterious, mesmeric or hypnotic power.
It simply awaited its opportunity, cool and collected, and
captured an excited and venturesome bird. The bird was
THE HEROISM OF BIRDS. 257
evidently unaware of the power of the snake to propel its coiled-
up body. I once saw a Green Mamba coiled up on a branch, and
quick as thought, propel itself full length, and seize a bird in its
jaws, meanwhile gripping the branch with its tail. The instant
it seized the bird it swung head downward until the victim ceased
to struggle. The snake then raised itself, assumed a comfortable
position, and swallowed its prey.
Birds, with few exceptions, have highly impressionable. and
excitable nervous organizations, as is proven by their hot blood,
quick circulation, fine texture brain, and intricate nervous
system. Now, we all know how birds will mob an owl which
ventures into their haunts during the daytime, but we never think
of investing the owl with any powers of fascination.
Birds recognize snakes as their enemies, and if a bird discovers
a snake in its haunts, particularly in the vicinity of its nest, it
instantly sets up a shrill chattering and flies and hops excitedly
round the intruder. Its cries and actions attract its mate and
other birds, until eventually there may be as many as a score
around the snake. Their noisy demonstrations are sometimes so
great, and their demeanour so threatening, that the serpent loses
nerve and retreats, much to the relief and satisfaction of the birds
who pursue him for some distance.
In most cases, however, the serpent remains immovable until
one of the birds, in the excitement of the moment, or braver than
the rest, approaches within striking distance.
It is quite possible, and even very probable, that a bird may
work itself up into such a frenzy of excitement, as temporarily to
lose the power of flight, and so fall a victim. Others, in their
frenzy, may actually rush at the snake, particularly so if in
defence of their homes and young.
THE HEROISM OF BIRDs.
I have witnessed several instances of the heroism of birds
in defence of their eggs and young. In Natal, one hot mid-
summer day, I lay on my back resting under the shade of a
great forest tree. Hearing a noise above, I looked up, and high
up in the branches I espied a pair of Sparrow Hawks near their
nest endeavouring to beat off a Green Mamba, which was evidently
S
258 THE SNAKES OF SOURS. AFRICA:
intent upon securing their eggs or babies. Presently the snake
reached the nest, whereupon one of the hawks flew fiercely at the
serpent and gripped it with claws and bill. Instantly the snake
struck out, again and again, and threw a coil or two round the
bird. Down came the two, hurtling through the branches to the
ground. The bird was either killed by the fall or the snake’s
venom, but its powerful claws were still embedded deep in the
reptile’s flesh. The snake struggled fiercely to release itself, but
before it could succeed I killed it.
On another occasion, hearing a noisy clamour in a tree, I crept
silently forward and saw a Boomslang or Tree Snake approach a
nest and seize a fluffy baby bird. The youngster screamed and
struggled frantically, whereupon the parent bird, in a frenzy of
fury, flew at the snake. The reptile dropped the young bird, but,
alas! it instantly gripped the brave mother. I ran forward,
but the crafty serpent glided off amongst the leafage and vanished
from sight with its victim.
WRONG CONCLUSIONS.
The ground-frequenting venomous snakes, such as the Cobras
and Vipers, invariably strike their prey and immediately release it,
knowing the potent action of their venom, and realizing the stricken
creature will be quickly overcome by the poison. When a rat is
introduced into a cage containing a Puff Adder or Cobra, the snake,
after striking the victim, releases it, and contents itself with
keeping it under observation. The rat, after being struck, grows
dizzy, runs here and there at random, and is quickly overcome by
the virulence of the venom. Often the bitten creature is instantly
paralysed.
Now, if a bird, whilst feeding upon the ground, is struck by a
venomous snake which has been lying in ambush, the victim
invariably flies up to the nearest branch or twig; screams,
flutters, sways unsteadily, and within a few minutes, being no
longer able to retain its hold, flutters down dying to the expectant
snake below, which in all probability, is intently watching its
movements. Sometimes, after being bitten, the bird instantly
loses the power of flight, and remains on the ground in front of the
snake, fluttering and screaming.
HE WAS PARALYZED WITH FEAR 259
Seeing a bird in either of these positions would seem to the
casual observer proof positive that it was being fascinated by the
snake.
If a rat is cornered by a snake it often loses all presence of
mind, and facing the reptile it simply squeals. This, however, is
more usually the case after the snake has bitten it.
If a water snake should swim toward a frog sitting on the
bank, the latter, whose dominant instinct is to dive into the water,
becomes paralyzed with fear, and, sitting still, it emits a series of
squeaks.
CAPTIVE SNAKES AND BIRDS.
British and European birds, having no snake enemies, are in
consequence not at all afraid of these creatures. If placed in the
same cage with snakes, they will confidently hop amongst the
reptiles, and even perch on their bodies.
If birds of this country be placed in an aviary with snakes, they
show little or no alarm if they are able to fly up to perches out of
the reach of the snakes. After a few days they get quite indifferent
to the presence of the reptiles, and will not hesitate to feed upon
the ground within a few inches of their enemies. Perches have
been so arranged that the birds were just out of reach of the snakes,
and in no single instance did any of the various species of snakes
ever exercise any fascinating power over them. Any bird which
became over-confident and approached within striking distance
was invariably bitten if the snake was in a mood for eating. If
not, the birds were not molested. Practically all the popular
beliefs about snakes in South Africa are more or less untrue.
Most, if not all, of these erroneous beliefs have originated from
the natives. If they were all collected they would fill a large
volume, and provide entertaining reading to lovers of fiction.
HE WAS PARALYZED WITH FEAR.
A friend had just arrived from the Homeland. I took him
out to show him the luxuriant semi-tropical vegetation which is so
profuse in Natal. Meandering along a kafir track through a
forest, I paused for a moment to examine a curious insect. On
260 THE “SNAKES: OF “SOUTE! AFRICA:
stepping forward again, I noticed my friend was standing stiff
and still. Then my eyes caught a glint of yellow, and a blackish
patch. Yes, it was a Black-necked Cobra or Imfezi (Naia
nigricollis) with forepart of body reared nearly two feet vertically,
and hood fully expanded. There it stood, rigid, except for a
slight, gentle movement from side to side. Its shiny black eyes
Fic. 104.—A juvenile snake charmer. This is Desmond
FitzSimons and his collection of pet Mole and
House Snakes.
were intently fixed upon my friend. Becoming alarmed for my
friend’s safety, I hastened forward and killed the snake with my
staff.
Glancing at the young man’s face, I was amazed to observe that
it was fixed and set, the eyes staring rigidly in the direction of the
Cobra.
I grasped his arm and shook him, whereupon a tremor ran
through his frame, and, with a gasp and a succession of deep sobs,
he collapsed and lay quite limp.
HYPNOTISM. 201
When he had sufficiently recovered, he told me he had never
seen a snake in the wild state before. He had only seen half-dead
looking specimens behind thick sheets of glass in a Zoo. When
he suddenly saw the form of a six-foot Cobra, with hood expanded,
facing him threateningly, he instantly lost all power of movement.
He said he seemed to freeze. He essayed to cry out, but his
tongue and larynx were paralyzed. In fact, the sudden shock
and fright had temporarily paralyzed the nerve centres in his brain
which controlled the movements of his muscles. He was un-
conscious to all else but the Cobra. Its keen shiny eyes and
threatening aspect monopolized his senses. In a dim far-off way
he wondered when it was going to bite.
The man was certainly completely fascinated, but the con-
dition was induced by the sudden shock of extreme fright to
his nervous system, not by any hypnotic power exercised upon him
by the snake. The sight for the first time of a large Cobra, with
hood expanded, and reared ready to deliver a deadly thrust,
shocked his motor nerve centres into a state of temporary paralysis.
HYPNOTISM.
It is quite possible for a person to induce a condition of self-
hypnosis by focussing or concentrating his mind upon some object,
such as a bright coin, or staring fixedly at the reflection of his
eyes in a mirror and suggesting to himself that he is growing
sleepy, more sleepy, asleep. He may not be able to induce a con-
dition of actual unconsciousness in this way, but this concentra-
tion of the mind and repeated suggestion of sleep will make him
very susceptible. Self-suggestion is a great aid in helping to
overcome bad habits and nervous diseases. I have known
people, who, by intently watching some object and excluding
everything else from their minds, lose all power of movement.
They remained, sometimes for half an hour, staring fixedly, and
when the condition of hypnosis passed off, or when aroused by
being shaken, they declared they either could not remember
anything, or had only a glimmering of consciousness after con-
centrating for five minutes upon whatever object was selected.
There is no reason to doubt that this condition can be induced
262 THE SNAKES OF SOUTH AFRICA.
by intently watching a snake, particularly so if it be a Cobra
reared, with expanded hood, keenly fixing the watcher with its
shiny, black, unwinking eyes. Many individuals are very sensi-
Fic. 105.—Some live snakes of different species.
,
tive to self-induced hypnosis, as well as suggestions or mesmeric
passes by another person. Because there are individuals who can
intentionally or unintentionally lapse into a hypnotic condition,
this is no argument in favour of a snake possessing hypnotic
HYPNOTISM.
power. It may certainly be the
negative cause of self-hypnotiza-
tion.
Apart from actual hypnotism
and acute paralyzing fright, some
persons’ minds are so constituted
that when faced with a sudden
and unexpected emergency they
lose all self-control, and act in a
variety of ways. Some remain
rigid, with bulging eyes. Others
become hysterical; others again
gibber and talk utter nonsense.
The lower animals are apt to act
similarly.
It must be borne in mind that
humanfolk, as a_ general rule,
regard snakes with extreme dread
and horror, and when unexpectedly
confronted by one, the working
power of all the brain centres is
apt to become temporarily para-
lyzed, as is frequently the case with
lower animals when suddenly faced
by a much-dreaded foe.
One night I spread my tired
body under my blankets near our
camp fire, and in stretching my
legs to get the blankets all round
me, my leg touched something cold,
which hissed. I shot out of my
blankets like the release of a
coiled steel spring. The cause of
the bother was a Cobra who
had made himself comfortable
among my blankets. I learned
from that experience to shake
out my bed-clothes carefully before
lying down on the veld.
One day I thrust my hand and
Fic. 106.—A Boomslang in the act of swallowing his sister at the Port Elizabeth Museum.
264 THE SNAKES OF SOUTH AFRICA.
arm into the nest-hole of a Spreeuw (Starling) in a bank. Instead
of my fingers touching the eggs as I expected, they closed
around a snake’s body. He was evidently too cramped up to
bite quickly, but I never put my arm into a Spreeuw’s nest-
hole again !
ADVICE TO CAMPERS OUT.
Snakes strongly object to the smell of disinfectants. When
snakes are kept in captivity, great care has to be taken when
disinfecting their cages to allow the smell to evaporate before
putting the snakes back into the cages, for the fumes given out
will in all likelihood kill them. Those who have occasion to
camp out in tents should dip a piece of rope or plaited cloth in
sheep dip, creosote, or carbolic acid, and lay it round the outside
of the tent. This will prevent venomous snakes, spiders,
scorpions and centipedes from crawling inside.
HOoORSEHAIR ROPES.
When a boy I revelled in the stories of the adventures of the
cowboys and frontiersmen of the backwoods of America; and
used to read that these men often carried a horsehair rope with
them, and regarded it as a valuable possession. When camping
out at night, they would lay it in a ring upon the ground and lie
down and sleep within that magic circle, quite confident that no
venomous serpent would molest them. They had not the slightest
idea why the hair rope should prevent serpents from creeping in
under their blankets and snuggling up for warmth about their
persons, but they, nevertheless, had firm faith in the serpent-’
repelling properties of their hair ropes.
Naturalists ridicule the idea of the hair rope being efficacious.
Now, just let us review the evidence. A plaited horsehair rope is
bristling with hundreds of little hair-points sticking out in all
directions. A snake progresses by means of his ribs, which are
worked by sets of muscles. Each pair of ribs is attached to one
of the abdominal shields. These shields or scales are moved
forwards, and elevated for the purpose of gripping the ground or
whatever surface the snake may be crawling over. Now, each
COW-MILKING SNAKES. 265
time the shield or scale is moved forward, the tender skin between
it and the next one is exposed, so when a snake tries to pass over
the rope, the little bristles prick his stomach, and if he were foolish
enough to crawl right over that rope he would be pricked all
along his body, from his neck to his tail. Naturally, if a snake
made the attempt to crawl over a hair rope and got pricked, he
would instantly turn back.
At other times, doubtless, the snake would investigate the
rope with his sensitive forked tongue, and ascertain by that means
it was not a desirable object to pass over.
So, you see, there is good reason after all for believing that
hair ropes are useful to keep snakes out of our tents and other
sleeping-places, when out in the veld or bush.
COW-MILKING SNAKES.
Farmers have often told me about snakes sucking the teats of
cows. I have read many accounts in books, in newspapers, and
have before me several letters by well-known farmers who posi-
tively declare that there is no doubt at all about the truth of it.
Some of them declare they actually witnessed Cobras and Ringhals
sucking cows’ and goats’ teats. The belief is very general. It
puzzles me. I do not say it is untrue, but I cannot bring myself
to believe it. The thing is apparently so unreasonable. It
would require a great deal of evidence to establish it as a fact.
Now, when you come to think it out, it seems very absurd
to think a snake would be able to suck milk from a cow’s udder.
In a physiological sense it is practically impossible. Venomous
_ snakes would, in most cases, at least scratch the udder and cause
poisoning. A snake is very low in the scale of intelligence. And
such an act as sucking a cow’s udder implies a good deal of intelli-
gence. Animals all have more or less an instinctive dread of snakes.
In most of the accounts there is a serious flaw. It is invariably
stated that the cow or goat comes home milkless. Now, even a big
Cobra could not swallow more than about half a pint of milk. If
it did, the milk would be forced out again by the natural pressure
of the distended skin, muscles, and ribs. I have tried it on captive
snakes. I injected various quantities of milk. So long as I held
them in my hand head upwards, and body hanging, the milk was
266 THE SNAKES OF SOUTH AFRICA.
retained, but as soon as they were placed on the ground, most of
the milk ran out of the mouth.
I have often been told that snakes were killed, and the milk
came out when their bodies were smashed up. What really took
place, I expect, was, when the snake’s body was shot to pieces or
pounded with sticks or stones, the eggs which were in it, got
smashed, and the creamy-white contents were mistaken for
clotted milk.
SNAKES AND THEIR MATES.
In South Africa the belief is widespread that if a snake is
killed its mate will, sooner or later, appear upon the scene of the
tragedy, and wreak vengeance upon the slayer. So strong is
this belief that if a venomous snake should be killed in or
near a dwelling, the occupants are in a state of nervous dread
for many days afterwards. In Natal many a time my native
servants have positively refused to kill a snake, fearing lest its
mate would seek them out during the darkness of the night, or lie
concealed in some lurking place and deal them a revengeful fatal
thrust.
Like most popular beliefs, this particular one has some slight
foundation in fact. It is a case of facts being misinterpreted and
grossly exaggerated.
During the summer season, which is the time when snakes lead
an active existence, they are frequently found in pairs, or the
male may be observed in search of the female. When a snake is
killed near a habitation, the occupants, believing the mate will
turn up on vengeance intent, either make a careful search of the
neighbourhood, or else are keenly on the alert. If the mate should
be somewhere near, it will probably be found. Any one who has
hunted snakes in a systematic manner, knows that when these
reptiles are not specially sought for, they are seldom seen.
Naturally if a systematic hunt be organized for the supposed mate
of a slain snake, one of the same species is likely to be discovered
somewhere in the vicinity.
Snakes find their mates mainly by the sense of smell. A male
snake is able thus to follow the spoor of a female for considerable
distances. I have frequently watched Puff Adders and Night
Adders which I kept in captivity in large enclosures, following in
CATCHING LIVE SNAKES. 267
the wake of a female which had vanished from sight. Wherever
the female crept, the male would be observed following. She
would creep into some crevice or tuft of herbage and be quite
concealed from view, yet the male would be seen slowly creeping
along the track which she took.
S. W. Smith; Esq., J.P., of Griquatown, told me an interesting
experience in this connection. He said a female Puff Adder was
killed in his flower garden under a geranium bush. The following
day a male Puff Adder was seen and killed within a few feet of the
spot where the female had been killed. Mr. Smith says that he
and a native traced the spoor of the two snakes in the soft sandy
soil for a couple of hundred yards and found that the male had
followed the trail of the female, his spoor blending most of the
time with that made by the female. This occurrence was quite
fresh in Mr. Smith’s mind, it having taken place shortly before he
saw me. He says he knows the spoor of a Puff Adder in the sand,
and is positive the two spoors were not made at the same time,
for one was partly obliterated and the other quite fresh.
CATCHING LIVE SNAKES.
Unless the snake collector is quite certain of the identity of
snakes he should not take liberties when capturing them.
If you know for certain they are of the harmless division such as
the Mole Snakes, House Snakes, Green Water Snakes and others,
then you may boldly advance and seize them. The only damage
they are capable of doing is to puncture the skin slightly with their
numerous small solid teeth. To avoid being bitten, hold a hand-
kerchief in front of the snake, and when it bites the material,
instantly seize it by the neck.
Venomous snakes may be safely secured by pinning them down
to the earth with a long stick with forks at the end of about an
inch or so in length.
If a snake is pinned down with a forked stick to the ground he
is quite powerless, and can then be gripped by the neck and trans-
ferred to a bag or box. Grip the neck just at the base of the head.
Then let go the stick with the other hand and grasp the reptile’s
tail. It is then utterly powerless. It is risky to hold a venomous
snake by the neck and allow it to coil round the hand and arm. By
268 THE SNAKES OF SOUTH AFRICA.
the leverage thus obtained it can sometimes jerk its head free,
and before it is possible to shake it off, it may have the opportunity
of inflicting two or three bites. On the other hand, if you are
holding the snake’s tail in one hand, and if by chance the head
should slip from the fingers of the other hand, the reptile can
be instantly dropped or cast away before it is possible for it
to bite.
A snake when gripped by the neck just behind the head
cannot possibly turn and bite.
When dropped into a bag, the captive snake does not struggle.
It coils up and lies quite still. It makes no attempt to bite
through the bag.
Puff Adders may be safely approached from behind and
noosed, as shown in the illustration. It is not true that they are
able to bite by casting themselves backwards. The idea has
arisen through the habit of the Puff Adder of throwing back his
head and portion of the body to obtain a greater impetus in order
to cast himself forward when about to bite. Be careful when
standing in front of a Puff Adder, especially if he be coiled up, for
he is able to cast himself forward the full length of his body and
even a little further. .Keep at least twice the length of his body
from him.
q
Fic. 108.—He opens its mouth. The operators then stand well back, as the snake often
struggles fiercely, and venom is often forcibly squirted from the fangs. To avoid this
getting into the eyes, the snake’s mouth is turned sideways. Then the glass syringe is
charged with the beaten-up contents of eggs or milk. The nozzle is pushed into the
snake’s throat and the contents squirted down. Sometimes two or three doses are given.
A glass funnel may be used instead of a syringe.
272 THE SNAKES OF SOUTH AFRICA.
How TO PRESERVE SNAKES.
The preservative fluid commonly used is ordinary methylated
spirit ; Cape Dop brandy, or any other kind of strong alcohol, will
do. Lay out your specimen, abdomen uppermost ; make an
incision of one to two inches along the middle part of its abdomen
longitudinally. Search for and remove the gall. On reference to
the illustration of dissection of a Puff Adder you will find the
locality of the gall. It is a roundish bag of greenish-yellow fluid
attached to the liver. If there be anything in the alimentary
(food) tube, remove it. It is not necessary to remove the gall-
bladders of small snakes. It is advisable to do so with large
specimens, as gall frequently escapes into the spirit and discolours
it. The next operation is to inject some spirit into the snake’s
body, through the incision. An ordinary glass syringe will do.
Plug up the incision with cotton-wool, and, if necessary, bring the
edges together with a few stitches. After washing the snake
clean, place it for a couple or three days in a jar or bottle of spirit
to soak. The object of this preparatory pickling is to allow of
the spirit taking the place of the natural water of the snake’s body.
The reason snakes so frequently go bad in pickle is because this
precaution is not observed. The water from the snake’s body
naturally weakens the preservative fluid, and sooner or later the
specimen decays. The permanent specimen jar or bottle should
be of clear glass, and with a glass stopper if possible. For private
collections ordinary round bottles will serve the purpose. In
museums these are no longer used, as they distort the specimens.
Jars with flat sides are better. Do not cram the specimen into
the bottle carelessly. Arrange its body neatly in coils. Open
the jaws and erect the fangs, if the snake be a venomous one.
Fill your bottle up with spirit and cork it. Your next business is
to write its name, the locality where it was captured, and the
date. Affix the label on the bottle and write the same date on a
small neat tag and drop it into the bottle in case the other label
should pull off and get lost. This isan important detail. Valuable
collections have been rendered practically valueless by neglecting
to do this. Keep a catalogue of your specimens, and write
down everything of interest connected with them. Write all the
interesting information about them which you can cull from
books or discover by personal observation. If you cannot
273
HOW TO PRESERVE SNAKES.
*SOHCUS d[OJ[ SUL} SUOWIISZ}1,J PUOUISIG Io}sey JO ouos o1e ssay,—'6or “917
“AOLIATION TNOHHINOA V
274 THE. SNAKES OF SOUTH AFRICA.
identify your specimen, take or send it to the nearest museum,
and ask for information. The best plan is to collect two specimens.
Keep one for yourself, and send the other to a museum as a
donation, and ask the museum officials to let you know its name.
If they cannot identify it themselves, they will send it to some
authority on snakes, who will be able to tell them.
First of all, learn to recognize the three great divisions—the
solid-toothed, harmless snakes, the intermediate, back-fanged
snakes, and the typically, venomous, front-fanged snakes.
In the preservation of snakes, a wood-spirit known as formalin
is frequently used. It is sold by all chemists. It has the advan-
tage of being quite colourless, and it does not dissolve out the
colouring matter of the specimen to the same extent as does
alcohol. However, it often partly dissolves the bones of the
specimen, making it useless for dissection at any future time. I
have kept various reptiles in formalin for fifteen years, and they
are to-day as fresh as ever. The exposed fangs of the snakes,
however, crumbled away when touched. The lime-dissolving
power of formalin can be neutralized by reducing its acidity, viz. by
adding a little colourless solution of lime (lime-water), and keeping
the specimens in a feeble light. The less light which reaches the
specimens the better, as light bleaches them. The collection
may be kept in a dark cupboard or on a shelf in a feeble light,
or with a curtain on rings hanging in front. Formalin, if used,
should be diluted. For the preservation of snakes, add ten
to fifteen parts of water to one of formalin. It can be diluted
to a greater extent if the specimen has had a preparatory soaking
for a few days, as mentioned above. ,
To skin a snake with the intention of stuffing it, the best plan
is to turn it inside out by removing the skin from around the lips,
working it down to the neck, and slowly drawing it off. Then
dust it over with a preservative mixture consisting of one-third
white arsenic and two-thirds burnt powdered alum, and carefully
turn the skin right side out again. Fill the body with fine saw-
dust to the proper dimensions, insert a piece of putty into the
neck, and replace the skull, after winding a little cotton wool on
it to replace the muscles and glands which have been removed.
Putty or modelling clay. is, however, better than cotton wool.
Fasten the lips with tiny pins or a few stitches, as naturally as
possible. Put in a pair of artificial eyes, mould the body into its
ied out into the warm sunshine.
ike to be carr:
They 1
Tic. 110,—Some of the author’s tame Mole Snakes.
276 THE SNAKES OF SOUTH AFRICA.
natural shape, coil it in the position desired, and leave it aside to
dry. When quite stiff and dry, take out the pins or stitches from
the lips, clean off any loose bits of clay, etc., and give the whole
skin a coating of gold-size varnish. Place it upon a board prepared
for the purpose, and finally put it in a glass cabinet or case. A
nice attractive stand can be made by imitating the natural sur-
roundings of the snake.
If you dip the snake’s head in a solution of permanganate of
potash before beginning to skin it, and during the process, there
will be little, if any, danger of getting poisoned. A safer plan
when skinning a venomous snake is to make a longitudinal
incision in the throat a few inches from the head. Skin round
the body, then sever it and skin off the neck and head first. Then
remove the body portion of the snake.
Flat skins may be made by ripping the abdomen from chin
to end of tail and removing the body. Rub the preservative
mixture on the inner side of the skin and tack it out on a plank,
until dry. Then turn it over and give it a coating of gold-size
varnish. When quite dry, roll up and put away.
To make a skin permanently proof against the attacks of moths
and mites, steep it for ten minutes or so in methylated spirit, or
ordinary alcohol in which a pinch of powdered corrosive sublimate
(Bi-chloride of mercury) has been dissolved. It is best to have
a stock bottle of it. Take a pint of methylated spirit and put as
much powdered corrosive sublimate into it as will lie heaped on
a three-penny piece. Shake, and allow to stand for a day. It
is then ready for use. Instead of soaking the skin in the solution,
it may be painted on with a brush. Be sure that both sides of
the skin are well painted. This substance will cure a skin as
well as render it insect proof. It is a capital preparation to
poison beetles, butterflies, etc., with, before pinning them out in
your cabinet. Corrosive sublimate is a poison, so be careful to
label the bottle suitably.
KAFIR SUPERSTITIONS.
The Kafirs are intensely superstitious. The instinct of
reverence when rightly trained, and guided by an educated
intellect, strongly impels the individual to be genuinely and
KAFIR SUPERSTITIONS. 277 |
truly reverent and religious. It gives a strong desire for, and
belief in, continued existence after physical death.
In the Kafirs this emotion runs riot. It impels them to
perpetrate the most diabolical cruelties.
They believe that the spirit of a dead Kafir has the power of
influencing the survivors of his own family for good or evil. So
far the belief is reasonable enough, but the Kafir family believes
that if cattle, goats, fowls, etc., are sacrificed to this spirit relative,
Meee +
Fic. 111.— Applying the test to see if the snake is obsessed by the spirit of
a beloved relative or a foe. (After J. G. Wood.)
then their spirits go to him and help swell his herd of spirit cattle,
etc., in the shades below. He does not mind his friends feasting
upon the flesh of the sacrificed animal. All he covets is the
spirit of the creature. If he considers that his friends on earth
are neglecting him, he pays them a visit, and afflicts them
or their domestic animals with disease. If the disease should
be severe, then the relatives imagine that nothing short of the
sacrifice of a cow or ox will appease the indignant deceased
relative. If the sickness should be a minor one, then a goat is
thought to be adequate. Sheep never seem to be used for these
sacrifices.
278 THE SNAKES ‘OF SOUTH * AFRICA.
These dissatisfied or revengeful spirits sometimes come in
their own form, but usually they appear in the form of some
such creature as a snake. Ifa snake should enter a Kafir’s hut,
he concludes that it is possessed by the spirit of a friend or foe.
To determine satisfactorily for what intent the spirit has visited
him, he takes a stick, and covering his face with one hand, lays
the stick gently over the back of the serpent. If it should not
show any sign of anger or resentment, he is assured it is the spirit
of a beloved dead ancestor. If this is the case, he instantly goes
forth and sacrifices an ox, if he has one to spare. If not, a goat
or two serves the purpose. He argues that the spirit of a dead
ancestor would not take the trouble to visit the earth and appear
to him, unless as a warning to be more careful in future, and treat
him with greater respect by offering sacrifices more frequently
to him.
If the serpent should show irritability or anger, the Kafir makes
up his mind it is the spirit of an enemy who is intent upon doing
him some grave hurt. He therefore abandons the hut, at least
for a period. As a consequence of this belief, Kafirs, as a rule,
have a strong dislike to killing snakes in the vicinity of their
dwellings, for fear they may be offering an insult to a dead
ancestor, who will revenge himself upon them. If the snake
should be possessed of the spirit of a foe, and be killed, the
hatred of that enemy is increased an hundred fold.
Contact with Europeans, however, is rapidly undermining
these old traditions and beliefs of the Kafirs.
On an occasion when I was camping out at a Kafir kraal, a
Puff Adder crawled through the doorway into the centre of the
hut. The usual testing took place to ascertain if it were an
ancestor, or a bitter enemy. It proved to be the former. The
friends of the owner of the hut gathered around him, and brought
all their influence to bear upon him to sacrifice a cow forthwith.
I ridiculed the whole affair, and told him that his friends were
trying to scare him into killing a fat cow so that they might
participate in a glorious feast. I offered to kill the snake and
bring the penalty upon myself. No, he would not permit that,
because his dead ancestor would be doubly furious with him
for allowing a white man to interfere and insult him. The
simpleton was utterly terrified by the forecastings of his friends,
if he did not appease the ancestor with the spirit of a good cow.
AN EXCITING INCIDENT. 279
Consequently, that night there was much feasting and _beer-
drinking in the kraal.
AN EXcITING INCIDENT.
A friend of mine, who was formerly a magistrate in a certain
part of South Africa, was rather interested in snakes, so much so
that he collected the venom from every poisonous snake he killed.
He used small-pox vaccine tubes for storing it in.
Being in a country district, he always kept a good supply of
small-pox vaccine’ on hand for the use of the District Surgeon
when periodically vaccinating the natives of the district. It
seems that it was a constant source of annoyance to his wife
to see his private office in such an untidy condition. One day,
when her husband was away on a hut-tax collecting tour, she
thought she would give him a pleasant surprise on his return ;
so she had his office thoroughly cleaned up—its first cleaning for
years. Of course, she did not know the difference between snake
venom and small-pox vaccine, so she mixed the lot together.
Next morning the District Surgeon turned up, helped himself
to some tubes of small-pox vaccine from the box, and went off.
In a week’s time, the magistrate returned. He was duly informed
of the visit of the medical man, but attached no importance to
the incident. Several days later he killed a large Cobra, and,
collecting its venom on a bit of glass, proceeded to his office to
put it into one of the phials, and found they had vanished.
Rushing off with more haste than dignity, he inquired of his
wife if she had seen them. “Oh yes!” said she. “I put them
all together! They are in the drawer with the rest.’”” Then the
magistrate’s hair stood on end, and a cold sweat broke out from
every pore. He was speechless. Regaining his senses he dashed
off to the office, and tremblingly examined the contents of the
drawer. Unfortunately, he could not remember how many
phials he had which contained snake venom. He knew by this
time the District Surgeon would have done all his vaccinating,
and therefore it was useless to take any steps. Besides, he did
not know where the medical man was. He told me that for a
couple of weeks he lived in a state of nervous dread and mental
agony unspeakable. However, not hearing of any mysterious
deaths among the Kafirs of the district, he grew calmer. He says
280 THE SNAKES OF SOUTH AFRICA.
he kept the incident a dead secret, and not even the District
Surgeon knew about it. He does not know to this day whether
one or more phials of his venom may not be lurking in some
District Surgeon’s drawer. Moral—always be careful to label
poisonous substances !
FEEDING SNAKES ON LIVE ANIMALS.
It is popularly supposed that if rats, mice, rabbits, guinea-
pigs, wild birds or domestic fowls are placed in a cage containing
live snakes, that they will suffer agonies of fear. This is not so.
Wild birds, when introduced into a snake cage, immediately
fly out of reach of any snakes which may be present ; but if their
food is placed upon the ground, they will after a few hours
readily fly down and begin eating, utterly oblivious of the presence
of their enemies. In a few days they take no notice at all of the
snakes, and even hop about on their bodies. However, it is not
pleasant to contemplate that such lovely and bright little creatures
should be devoured by these reptiles. I could never bring myself
to feed snakes with live birds, although there is no actual cruelty
involved.
Rats, mice, rabbits, guinea-pigs, and fowls, when put into a
snake cage, are timid at first, owing to the strangeness of their
surroundings, but in a very short time they are quite at home,
and do not show the least fear of the snakes. If a snake, such
for instance as a python, is disposed to dine, with a sudden
and unexpected movement he seizes his victim, and next instant
his deadly coils have done their work, and it is limp and dead
—killed so rapidly that death is practically painless. All
constrictor snakes kill their prey very rapidly. A rat will be, per-
chance, nibbling some food, and the spectator sees an instant
later a confused mass of coils, and realizes a snake has the
rat in those coils, and already its life is fast ebbing away. If
the snake be a venomous one, the poison rapidly benumbs the
victim, and, although it may not die immediately, it does not
suffer any pain beyond a momentary smart when the fangs
penetrate the skin. The venom has the property of narcotizing
the sensory nerves.
Although snakes may be kept alive in captivity for prolonged
FEEDING SNAKES ON LIVE ANIMALS. 281
periods by artificially feeding them, such a plan is not nearly so
satisfactory as allowing them to kill and eat their food in a natural
Fic. 112.—The Royal Python (Python regius) of Senegambia and Sierra Leone.
way. The mortality among artificially fed snakes is great. When
made to swallow against their will, the food frequently fails to digest,
putrifies in the alimentary canal, and so poisons the reptile.
282 THE SNAKES OF SOUTH AFRICA.
Others develop abscesses in the mouth, from which they usually
die. However, snakes kept for public exhibition in Zoological
Gardens and elsewhere, should on no account ever be fed when
the public are present, especially children, for such sights only
generate an unwholesome morbid curiosity, and besides, there
is the semblance of cruelty, if not the actual reality. Many
things must be done which are very unpleasant, and go against
one’s natural inclinations, but when called upon to perform such
duties they need never be paraded unnecessarily.
If a snake can once be induced to eat of its own accord, there
is no further difficulty, for it afterwards feeds freely if the air in
its cage is genialand warm. Sucha snake, if placed in a cage with
others which have previously refused to eat, will often induce
them to make a beginning.
CEA PPE dows
THE BRAIN AND NERVOUS SYSTEM.
In order to understand clearly what has been written in this book
Zi
Fic, 113.—The brain, spinal cord and nerves which run
to every part of the body. They are the telegraph
wires of the brain, and form a vast network all
over the body. (From Blackie’s Physiology.)
on the effects of snake
venom and _ the treat-
ment of snake bite, some
elementary knowledge of
the circulation of the
blood, the digestive
organs, brain, and_ ner-
vous system is essential.
A chapter on human
physiology, therefore, has
been introduced, as the
aim of this book is to
make knowledge of
snakes, their venom, and
> the treatment of snake
bite, as practical and as
understandable as _ pos-
sible to the average man
and woman living in
countries swarming with
venomous snakes.
Owing to lack of
knowledge of the circula-
tion of the blood, the
digestive apparatus, the
brain, nervous system,
etc., methods in the treat-
ment of snake bite are em-
ployed which are utterly
ridiculous, alarming, and manifestly absurd to those possessing
284 - THE SNAKES OF SOUTH AFRICA.
an elementary knowledge of physiology. The patient is often
liberally dosed with drastic drugs in large quantities—drugs
which a doctor would hesitate to prescribe even in small doses.
Many other methods even more harmful and pernicious are resorted
to, and worthless so-called snake bite remedies command a
ready sale among the ignorant.
THE FUNCTIONS OF THE BRAIN.
The brain is the source of all thinking and feeling powers
possessed by us. All intelligence lies in what is known as the
grey matter, which is composed of a layer of greyish cells, which
covers the entire brain.
The body is a machine with marvellously intricate machinery,
but it is utterly devoid of intelligence. It is merely the medium
through which the brain operates upon physical matter. The
body carries out the commands of the brain or mind. When we
see the dead body of a man, we do not say it is the man himself.
We say it is his dead body. The spirit which worked the cells
of the brain, which in turn operated upon the various parts of
the body, has fled, never to return. The bacteria of decay then
assume command, and convert the body back to its original
elements.
The driver of the wonderful human machine is the brain,
which is enclosed in the skull. The brain is divided into two
parts, the main portion being known as the Cerebrum. The other
part is the Cerebellum, which lies at the base of the skull, behind
the ears. Both the Cerebrum and the Cerebellum are divided
into two parts, which are known as hemispheres. These parts
are united at the base by nerve fibres. The brain is really a great
mass of nerve matter. The average weight of the brain of an
adult male is about forty-nine and a half ounces, and forty-four
ounces in females.
The brain is covered, first by the skull, then with a tough
membrane known as the Dura Mater. This membrane is charged
with blood vessels which supply nourishment to the brain and
skull.
Under this tough covering is a delicate membrane, not unlike
a fine spider’s web in appearance, known as the Arachnoid
membrane. Yet another membrane envelops the brain; it is
known as the Pia Mater. It lies right upon the substance of the
THE SEAT OF INTELLIGENCE. 285
brain, and is composed mainly of blood vessels which run down
into the brain matter.
The right side of the brain supplies the left side of the body
with nerves, and vice versa. This is why an injury to the motor
centres of the right side of the brain will paralyse the body on the
opposite side.
THE SEAT OF INTELLIGENCE
When all the membranes covering the brain are removed, its
surface is seen to be covered with deep depressions. This is due
Fic. 114.—Section of the human brain showing one hemisphere of the Cere-
brum and Cerebellum. The part on the right is the forehead portion.
Note the foldings or convolutions. (From Blackie’s Physiology.)
to the foldings of the outer layers of brain matter. These foldings
are known as convolutions. The object of these depressions and
foldings is to provide as large a surface as possible, without unduly
enlarging the brain and skull. This extensive surface is covered
with a layer of nerve cells of a greyish colour. The thickness of
the grey matter is determined by the degree of mental evolution
of the individual. This layer of microscopically small cells of a
greyish colour, which is usually only about the eighth of an inch
thick, gives rise to every thought, every desire, and every emotion
286 THE. SNAKES: OF SOUTH AFRICA:
which stirs us, every hope and ambition which thrills us, the
glow of love which goes out from us, the pain, the anger and
the worries of life. Yes, all these and more, have their birth in
the groups of cells which are formed in this thin grey layer which
covers our brain like a cloth.
THE HUMAN BRAIN.
Fic. 115.—1. The layer of Grey Matter composed of tiny cells where all intelligence, emotions
and desires have their origin. This is the ‘‘ Book of Life ’’—the phonographic record.
2. Interior portion of the brain composed of vast numbers of nerve fibres which conduct
messages to and from the Grey Cells.
3. The Cerebellum or Little Brain cut in half to show nature of its substance. It is the seat
of various physical functions and the amative desires.
4. Top of the Spinal Cord known as the Medulla Oblongata showing nerves branching out
from it.
5. Top of Medulla Oblongata known as the Bulbs. This and the former are strongly affected
by Cobra venom.
6. The Cerebrum (left hemisphere) showing the convolutions or foldings of its surface.
7. Right side or hemisphere of the brain.
The grey cells which envelop the brain-substance follow the
convolutions down into all their foldings. This wonderful grey
coating is known as the Cortex, which means bark.
AN ELABORATE TELEPHONE SYSTEM. 287
The inner part of the brain is whitish-cream in colour, and is a
vast mass of nerve fibres for the transmission of the commands of
the grey cells to the various parts of the body.
According to phrenology, there is a special centre in the brain
for the manifestation of each of the great variety of thoughts,
desires, and emotions, in addition to the nerve centres which
control all movements, etc., of the body, and which carry out
Fic. 116.—Brain cells which are paralysed and destroyed by poisons such as snake venom, narcotic
drugs and alcohol. The one to the left is a healthy normal cell, showing the nucleus clear
and distinct, The next one is swollen and sickly. The third is dead, the nucleus having been
entirely destroyed.
the commands of the brain centres. These latter are called by
phrenologists the Psychical Brain Centres.
AN ELABORATE TELEPHONE SYSTEM.
The grey matter of the brain is a great collection of groups of
nerve cells, each group having a special function to perform in
controlling and directing the vital functions, and the generation
of thoughts, emotions and desires. From each group of grey
cells, nerve fibres run out and are connected up with other
brain groups and nerves running to the various parts of the
body.
The marrow or spinal cord enclosed in the backbone is the
main cable from the brain. From this great cord, which can be
compared to a telephone cable composed of great numbers of
wires, nerves—just like telephone wires running out at intervals
288 THE SNAKES OF SOUTH. AFRICA.
from a telephone cable branch off, divide and sub-divide, until
Fic. 117.—The human _ power
house (the brain) and the
main cable or spinal cord,
showing the large telegraph
wires or main nerves which
run out from it, dividing and
sub-dividing all over the
body. (From Blackie’s Phy-
stology).
the whole body, from the tips of the
toes to the crown of the head, is a com-
plete network of nerves. These are the
telephone or telegraph wires of the brain.
Within the brain, as it were, the intel-
ligent operator lives ; the nervous system
is his means of communication with the
remotest parts of his body. From his
dwelling-place within the skull, he can
control every part of the human engine
to the very smallest detail.
The world-famous medical author,
Dr. J. H. Kellogg, says—
“The brain is the great centre from
which emanates the nerve force which
vitallizes and energizes every part of the
body. It is the seat of government in
the vital domain, the nerves being its
servants through which it receives in-
formation of the external world, and by
means of which it is able to execute its
mandates in all parts of its province,
even extending beyond itself and the
limits of the body, and operating upon
external things through the medium of
its instruments.”
SNAKE VENOM AND THE NERVE CELLS.
Every nerve thread, when examined
under a microscope, is seen to be com-
posed of a number of nerves, all of
which are enclosed in a sheath. In fact,
every nerve thread is a bundle of nerves
bound together and carefully sheathed.
The nerves themselves are composed of
tiny cells of nervous matter.
It is these cells which are poisoned when snake venom gets
into the blood. The venoms of the different kinds of snakes
HOW OUR BLOOD IS MADE. 289
do not all have the same pathological effect. One kind of venom
will have a specially poisonous effect upon certain groups of
nerve cells and nerve centres, while another kind of venom will
exert little or no poisonous, paralyzing influence upon those
nerve centres, but will act with powerful effect upon some other
groups. For instance, Cobra venom poisons the nerve centres
which control the automatic movements of the lungs. Puff
Adder venom does not have this effect. This venom and that
of the Boomslang act powerfully on the nerve endings and blood-
vessel walls, causing more or less extensive hemorrhage into the
tissues.
A strong man is far more difficult to overthrow than a weak
one. So, too, is the nervous system and brain. If you have
strong, healthy nerve and brain cells, snake venom or disease
microbes will be far less likely to kill than if the brain and nerve
cells are weak, sickly, or inflamed.
The chief cause of this unhealthy condition of the cells of the
brain and nerves, is the habitual indulgence in alcoholic liquor.
It has been established as a fact in science, after exhaustive
experimentation and observation, that alcohol poisons, weakens,
distorts, inflames, and kills these cells.
How our Btioop 1s MADE—A MARVELLOUS PROCESS.
It is blood which builds up the tissues of all living creatures
upon our world, ourselves included. It is the blood which supplies
every particle of nourishment required for our bones, muscles,
brain, nerves, nails, and hair.
Where does the blood come from, and how is it made? Yes,
we all know it is made from the food we eat, and the water we
drink—but how? Has it never struck you that the process
must be a marvellous one which converts beef, potatoes,
bread, and all our foods, into blood? It is the digestive
apparatus which performs this wonderful feat. The lowest
forms of animal life upon our world are tiny creatures which
live in the ocean. They are simply living stomachs. We human
folk, too, are stomachs—with appendages.
Well, now let us carefully trace the journey taken by our
dinner, and see what becomes of it.
290 THE SNAKES OF SOUTH AFRICA.
THE SALIVARY GLANDS AND TEETH.
We are provided with incisor or front teeth for biting and
tearing our food ; and molars for the purpose of carefully grind-
ing up the food before it is swallowed. True, we have canine
teeth, with which our primitive ances-
tors fought their enemies, before they
evolved the idea of using branches of
trees as clubs, and stones as weapons.
The instant food enters the mouth, the
salivary glands pour out their secretion,
which is known as saliva. This saliva
is very important, for it performs a
work which the stomach is unable to
do. The saliva has the power of
changing the starchy parts of the food
into quite another substance. In fact,
it partly digests and prepares it for
another process which will take place
later in the stomach and bowels.
It is very important that we should
chew up our food thoroughly before
swallowing it. Parents should take
the greatest possible care of their
children’s teeth. The teeth should
be cleaned, and the mouth washed
every morning, and at bedtime. The
mouth-wash should contain some anti-
septic. Opa is one of the best. Three
or four drops in a wine-glass of water
is sufficient. Without good teeth, the
food cannot be properly prepared for
BiG, 116 The |, Whole digestive’ thestomach. Good teeth and a healthy
apparatus of a human being.
It is about 30 feet in length. id’
(From Black's Physiology) Stomach are a child’s great asset.
THE STOMACH. ~
When the food is swallowed, it goes down a long tube called
the gullet or Gsophagus. The instant it enters the stomach,
the gastric nerves receive a stimulus, and digestion begins. The
stomach is a large, hollow, muscular bag. Embedded in its
THE INTESTINES. 2g
inner walls are millions of tiny glands which are known as gastric
glands. These little glands become excited, and pour out a
sticky juice, which is known as gastric juice. It oozes out, just
like perspiration upon the skin. The muscular walls of the
stomach are meanwhile twisting, writhing, and turning, with
the object of swishing and swirling the food round its inner walls,
so that the gastric juice may be washed off. This gastric juice
mingles with the food,
and begins to break it
up. The churning
process goes on for
four to five hours,
until the whole of the
food has been broken
up into a creamy-
looking, liquid mass.
It then passes out into
the first part of the
intestine, called the
duodenum. Its pre-
sence excites certain
nerve ends, which
cause the bile from the
gall bladder to run
out into the food.
The secretion known
as the pancreatic juice,
manufactured by the
pancreas or melt, is
also poured into the
food for the purpose
g 6 Fic. 119.—The organs of the human body, in situ, the
of completing its abuse of which induces disease, sarering and pre-
digestion mature death. (From Blackie’s Physiology.)
THE INTESTINES.
By a sort of squeezing process performed by the muscular walls
of the intestines or bowels, and which is known as the peristaltic
movement, the food is worked slowly down. As it proceeds, more
juices are poured out to complete the digestion of any parts of
292 THE SNAKES OF SOUTH AFRICA.
the food which may have escaped perfect digestion by the other
fluids. Then the food is ready to be taken up and converted
into blood. In the inner walls of the bowels there are millions
of tiny mouths, which greedily suck up the digested food. These
little suckers are called lacteals. There is another set known
as venous absorbents. Some of the absorbed food is carried
to the liver to be filtered and purified before finding its way into
the blood stream. The portion which does not need to be acted
upon by the liver, is carried through a long slender tube known
as the thoracic duct, and poured into a large vein.
CONVERTED INTO BLOoop.
The liquid food mingles with the venous blood and eventually
pours into the right side of the heart, and is pumped up into the
lungs. Here a marvellous change takes place. The air we
breathe contains a large amount of oxygen, if it be fresh and pure.
This oxygen gas instantly combines with the venous blood,
and a lightning-like chemical change takes place. The food
is changed into living blood, which is made up of tiny discs
known as corpuscles, which float in a fluid substance we call
serum. The blood is then returned to the heart, but this time
to the left half. From here it is pumped all over the body
through vessels known as arteries. These divide and subdivide
until they become mere threads, so tiny that they are invisible
to the naked eye. These are known as capillaries. So numerous
are they that you cannot prick your flesh anywhere with the
finest needle-point without rupturing several of them.
HEALTH LAWS.
There are laws governing every department of Nature. To
disobey any of these natural laws means punishment in some
shape or form. These laws work automatically. Whether
violated wilfully or ignorantly the punishment is the same.
There is no escape. We may perhaps escape the consequences
of the breaking of man-made laws, but not the laws of God.
They are self-acting.
Science is finding out more about these great natural laws, and
how they work. In proportion to our knowledge of the workings
HEALTH LAWS. 293
of Nature’s laws, so shall we be able to avoid suffering and sorrow.
If a man knows there are treacherous bogs at each side of the
road he is travelling, he will be doubly careful to keep from
straying off the road. If we have been instructed in the
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a oe WL
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Fig 0 Fig. W. Fig. 12
Fic, 120.—1. One of the most common species of bacteria which
cause suppuration (Micrococcus pyogenes).
2. Spheroidal bacteria arranged in pairs (Diplococcus).
3. Spheroidal bacteria grouped in cuboidal masses (Sarcina).
4. Spheroidal bacteria grouped in chains (Streptococcus). These
produce erysipelas.
5. Diplococci slightly lance-shaped and surrounded by a
capsule. These cause acute pneumonia.
6. The bacteria which cause typhoid fever.
7. Bacilli with cilia.
8. These bacilli with spores produce lockjaw.
g. The bacilli of consumption.
1o. The bacteria of diphtheria.
11. The microbes of Asiatic cholera.
12. The microbes of recurrent fever. (From Standard Dictionary.)
knowledge that certain habits and acts are violations of natural
laws, and that punishment in some form is bound to follow, the
fear of consequences, if no higher motive, will keep us in the
straight path. The very things most essential for every grown
294 THE SNAKES OF SOUTH AFRICA.
up boy and girl to know are usually concealed from them.
Surely it seems a most essential thing for boys and girls to be
taught how to keep the mechanism of their bodies in good
going order. Have you ever seriously asked yourself the question,
‘““Why do I eat certain foods, and swallow certain drinks? Are
they good or bad for me? Do they suit my constitution, my
habits of life, and do they contain the right elements of food-
material necessary for the nourishing of brain, bone, and
muscle ? ”’
THE SCIENCE OF EATING.
The science of eating includes not only the study of the food
values of the various articles of diet, and how to prepare them.
It is necessary also to understand the physiology of digestion ; to
know exactly what takes place after the food is swallowed.
If we make a study of this, we shall find out just how long it takes
the various kinds of food to digest. We shall know that well-
cooked rice is digested in an hour and a half. Pork from five to
six hours, and possibly not at all if the stomach is not strong.
We shall know that an average meal takes about five hours to
digest, and that to swallow fresh food when the last meal is still
digesting, will sooner or later weaken the strongest digestive
system, because it is a violation of a natural law.
WHAT A FAMOUS PHYSICIAN SAYS.
In this connection, it will not be out of place to quote what
Dr. J. H. Kellogg, a famous medical author, says: ‘“‘ Eating
between meals is a gross breach of the requirements of good
digestion. The habit many have of eating fruit, confectionery,
nuts, sweetmeats, etc., between meals, is a certain cause of
dyspepsia. No stomach can endure such usage. Those who
indulge in this mannner, complain of little appetite, and wonder
why they have no relish for their food, strangely overlooking
the real cause, and utterly disregarding one of the plainest laws
of Nature. This evil practice is often begun in early childhood.
Indeed, it is too often cultivated by mothers, and the would-be
friends of the little ones, who seek to gratify them by presents
of confectionery and other tit-bits of various sorts. Under
A LIVING, SELF-ACTING PUMP. 295
such a regimen it is not singular that so many thousands of
children annually fall victims to stomach and intestinal diseases
of various forms. In great numbers of cases early indiscretions ~
of this sort are the real causes of fully developed dyspepsia of
later years.”
A Livinc, SELF-ACTING PUMP AND THE ELIXIR OF LIFE.
Poets and lovers wax eloquent about the heart, as though
it were capable of thought. We love with our heart, so we are
told. Well, the heart, in reality, is nothing more or less than a
self-acting pump, composed of four chambers, and has not any
sense at all. Love is the rousing into activity of certain brain
centres. The heart is a power-
ful muscle, or rather a combi-
nation of muscles. The two top
chambers are the auricles, the
bottom ones are the ventricles.
The purpose of the heart is to
pump the blood through the
body. The human heart, in
size and shape, is almost identi-
cal with that of a pig’s heart.
The heart is situated just under
the breast bone, in the chest
cavity, which is known as the
Fic. 121.—A section of the human stomach
thorax. It is turned slightly to whichis the most abused and overworked
i part of the mechanism of the body.
the left side. (From Blackie’s Physiology.)
The weight of the heart averages 8 to Io ounces in women,
and 10 to 12 ounces in men. We really have two hearts joined
together. The right side of the heart is for the purpose of
pumping the blood up into the lungs. The left side is for driving
it all over the body, hence the reason that the ventricle on the
left side is three or four times as thick as that on the opposite
side, because it has to pump the blood to the most distant parts
of the body ; whereas its companion only has to drive the blood
a very short distance. The Dugong, a warm-blooded animal
which lives in the ocean, and which has given rise to the mermaid
myth, has two hearts, quite separate.
296 THE SNAKES OF SOUTH AFRICA.
THE ELIXIR OF LIFE.
Connected with the heart is an endless system of tubes,
which carry the blood all over the body.
The blood is the elixir of life. The stomach, with the aid
of the liver, pancreas, bowels, and lungs, changes the food
which we eat into blood, in a most marvellous way. The blood
is composed of tiny bodies, known as corpuscles and a watery
fluid known as Liquor Sanguinis. There are red, and there are
Fic. 122.—Exterior view of the human heart and the great
blood vessels. The heart has four chambers—two auricles
and two ventricles. (From Blackie’s Physiology.)
white corpuscles. The red corpuscles are those which make
the blood appear red. They and the Liquor Sanguinis carry
food to every cell of the body. In fact, they are living food—
the elixir of life. They renew the wasted cells. They are the
builders. As quickly as the cells of the body are broken down,
so they build up more. The white blood corpuscles are also
known as Phagocytes or Leucocytes. They attack and eat up
disease microbes, and repair wounds.
THE CIRCULATION OF THE BLOOD. 297
THE CIRCULATION OF THE BLOOD,
Now, let us follow the blood as it comes rushing along from
the various parts of the body, and pours itself into the right
auricle of the heart.
From this chamber it is forced down into
the bottom chamber, on the same side, and is prevented from
rushing back by a wonderful
system of valves, which allow
it to rush down, but not back
again. From the ventricle,
the heart-muscles pump the
blood up into the lungs.
Here it spreads out into
smaller and smaller tubes,
until they are so small they
cannot be seen with the
naked eye. This blood,
which the heart has pumped
into the lungs, is_ called
Venous blood, because it is
full of poison gathered up
from all over the _ body.
The body is _ constantly
burning. The cells which
compose it are dying in mil-
lions every second of life.
Their dead bodies fall into
the blood and are carried
away to the heart and
pumped into the lungs. Now,
when we take in a breath of
fresh air, we breathe in a
quantity of gas, known as
oxygen.
sacs.
Fic. 123.—From the artery the blood runs
into smaller and smaller channels, so
small that they can only be seen with a
strong microscope. They again run to-
gether and pour their contents into a
vein. (From Blackie’s Physiology.)
The lungs contain millions of little hollow bags, known as
Around these, the tiny blood vessels are embedded. They
are gorged with blood. Their walls are very thin, so that when
the air rushes into these tiny bags, the oxygen is sucked up into
the blood through the thin walls of the blood vessels.
It in-
stantly mixes with the poisons in the blood, and a wonderful,
298 THE SNAKES OF SOUTH AFRICA.
and marvellous change takes place. It is no longer oxygen. It
has combined with the poisons, and has changed them into a gas.
This gas is called carbonic-acid gas, or carbon-di-oxide. This
we breathe out, and thus get rid of many of the poisons in our
blood. This air we breathe out is poison in a gaseous form. If
we could condense it, we should see a mass of putrid filth.
Now, think carefully over this wonderful mechanism which
God has provided for the casting out of poisons, and purifying
Fic. 124.—The pipes which carry air to and from the lungs.
They divide and sub-divide and penetrate to every part
ofthelungs. They terminate in little bags orsacs. There
are millions of them. (From Blackie’s Physiology.)
our blood, and remember if you want your blood to be pure,
you must breathe fresh air. You cannot get fresh air, if you
live indoors, and shut out the pure air. You are breathing
poison when you do this. You are re-breathing your own breath,
or that of other people, and poisoning your blood, instead of
purifying it. Remember always to breathe pure, fresh air.
Flood your dwellings, offices, and workshops with it. Fresh
air and cool breezes don’t give a “‘cold.’’ That belief has been
exploded. ‘‘Colds’’ are caused by the attacks of microbes
HOW WE POISON OUR BLOOD. 299
which can only breed in your throat, when your blood is
impure.
A REMARKABLE CHANGE.
When the oxygen has combined with the poisons in the
blood and removed them in the form of carbonic acid gas, the
blood, instead of being a purplish colour, is now bright red. It
has been changed from venous blood, to arterial blood. It is
now pure again, loaded with oxygen. The tiny blood vessels
gradually merge one into another, like a multitude of little rivulets
running together. Larger and larger become the vessels or tubes,
until they all merge into great channels through which the blood
is poured into the auricle or top chamber of the left side of the
heart. From here, it is pumped down into the ventricle or bottom
chamber, and with a mighty throb, the heart drives it all over
the body. It rushes out, dividing and sub-dividing into smaller
and smaller channels, until they are so small that a strong micro-
scope is needed to see them. Through the walls of these tiny
blood vessels nourishment is supplied to the cells of the body,
and the dead used-up material absorbed ; so that, as.it slowly
makes its way along, it gives off all the nourishment it is capable
of for the time being, and with its load of poison, it hurries away
back to the heart, to be pumped once again into the lungs, to
be re-vitalized, cleansed, and purified by the oxygen in the air
we breathe.
How WE POISON ouR BLOoop.
There are more ways of poisoning our blood than breathing
impure air. A good many of the liquids and foods which we
swallow also poison the blood. People make themselves ill by
eating wrong foods, or too much food, and instead of fasting
they swallow great quantities of poisonous drugs. Drugs should
not be taken, unless by a physician’s orders.
If the foods which we eat are not thoroughly digested they
ferment and become putrid, especially animal food, in the
bowels. The liquid portion of this putrid mass is sucked up by
little vessels known as lacteals, and poured into the blood, fouling
and poisoning it. The phagosytes or white blood corpuscles are
300 THE SNAKES OF SOUTH AFRICA.
thus benumbed, and rendered incapable of killing off disease
microbes, which multiply and cause a disease peculiar to their
species or kind. If you disregard the laws of eating and drinking
then you should not blame Providence if the machinery of your
body gets out of gear, and disease microbes attack it.
How To KEEP YouR BLooD PURE.
The first essential is to breathe plenty of oxygen, and inhale
deeply. A great many people get into the habit of breathing
in a very shallow way, inflat-
ing only a portion of their
lungs. Boys and girls who
have flat chests should be
compelled to take systematic
club, dumb-bell, or other suit-
able physical exercises for en-
larging the chest and lung
capacity. The exercises should
not be discontinued until the
chest becomes convex.
Practise deep breathing
until it becomes a habit. Sit
in a chair with a straight back,
bolt upright. Slowly breathe
as much air into your lungs as
you are able to force down.
Retain it till you count five,
then slowly exhale it. Con-
tinue this for fifteen minutes,
twice a day if possible. At
first you will feel a_ trifle
Fic. 125. Rough diagram showing how the giddy with the unaccustomed
blood circulates through the body. Poison- gqmount of oxygen which gets :
laden blood runs to the heart from all 5 A
over the body. Itis then pumped into jnto your blood, but this soon
the lungs and purified by the air we
breathe. It returnsto the heart to be wears off. Breathe through
again pumped to the remotest corners of "i ;
the body. (From Blackie’s Physiology.) your nose. It is a microbe
and dust filter, and warms the air also.
EATING AND DRINKING. 301
EATING AND DRINKING.
Be careful to eat good, plain, wholesome foods. It takes an
ordinary meal fully four to five hours to digest. While food is
digesting no more should be put into the stomach, therefore
three meals a day are sufficient, unless of course in cases, under
a medical man’s care, where special measures are necessary.
The ancient Greeks and Persians only ate twice daily. The
Fic. 126.—These are the Phagosytes which help to make up the blood of our
bodies. They look like bits of jelly, and are so small that it requires a powerful
microscope to see them.
The top roy is what they look like when they are swimming in the liquid part of
the blood.
A. This is the nucleus from which radiates the life-principle of the
phagosyte.
B. This is a tiny cavity which holds liquid.
The second row shows a Phagosyte attacking, seizing and digesting a disease
microbe.
There are countless millions of Phagosytes in our blood. They attack and eat
up disease microbes which get into the blood. They repair wounds and build up
parts of the body.
C. This is a disease microbe.
Alcohol and the nicotine in tobacco shrivels up and kills these microbe-killing
phagosytes when it gets into the blood. Those it does not kill, it cripples.
Romans did likewise, until they grew into luxurious ways of
living.
When there is anything wrong with the digestive organs or
their appendages, such as ordinary indigestion, catarrh, bilious-
ness, or constipation, then careful dieting or a temporary fast
is necessary, else the blood will be rendered foul by the poisons
released from the decomposing food.
302 THE SNAKES OF SOUTH AFRICA.
EXERCISE.
Regular exercise of the body in the fresh air daily, is neces-
sary to increase the heart’s action ; and to draw the blood into the
muscles, and thus relieve the congestion of the brain and internal
organs which occur when the muscles are not regularly used.
The increased circulation drives the blood with greater speed
through the sluggish capillaries, and carries an increased amount
of poison out of the body. The nervous system is also aroused,
the internal organs become more active, and an all-round improve-
ment thus takes place.
To keep the blood pure, and to have good sound health, it
is necessary to eat plain, wholesome food at regular intervals
only. Lead a temperate life, abstaining from all that which
is harmful. Breathe fresh air. Be out as much as possible
in the sunshine. Take plenty of exercise out of doors. Breathe
deeply and develop the chest.
How Foop, DRINK, AND POISONS ARE CONVEYED TO THE CELLS
OF THE HUMAN Bopy.
The blood in our arteries is charged with the digested food
which we eat, and the liquids we drink, as well as the oxygen
gas we breathe. But how does this food, drink, and oxygen
get into contact with the countless millions of tiny cells which
compose our bodies? The blood, as we know, is enclosed in
channels or tubes. These tubes divide and sub-divide until
they form an exceedingly fine network of tiny blood vessels so
thickly permeating the flesh, that the finest needle-point cannot
puncture the skin without penetrating and tearing a great many
of them. But how does the nourishment in the blood get out-
side the membraneous walls of the vessels which enclose it ?
Imagine, if you can, a great swamp full of rushes, reeds, and
grasses. This vegetation sends out roots in all directions, which
permeate the ooze in a fine network. Imagine this network of
roots to be the blood vessels in your body, and the water which
surrounds those roots on all sides to be a colourless fluid known
as lymph. This water-looking lymph saturates the tissues of
the body and surrounds the capillary blood vessels. You all
know what lymph is. It is the watery, colourless fluid which
THE LYMPHATICS. 303
accumulates under the skin, and forms blisters when you get
badly sun-burned.
WHAT THE LYMPH DOES.
Well now, a most marvellous thing occurs within our bodies.
This lymph which saturates the body like water in a bog, sucks
from the blood its oxygen and digested nourishment through
the walls of the blood vessels, and so feeds the cells of our
bodies. Our bodies are burning all the time. We are con-
stantly using up the cells of our bodies. They burn away in
countless millions every instant of time, and are replaced by
new cells created from the nourishment supplied indirectly by
the blood, and directly by the lymph. The dead cells, when
burned up within the body, take the form of carbonic acid.
This gas is sucked up by the lymph, and through the walls of
the tiny capillary blood vessels. The latter carry it away in-
stantly to the larger veins which in turn pour into yet larger
ones still, until the poison-laden blood reaches the heart. This
human pump then forces it up into the lungs where it is changed
by the oxygen gas we inhale. The poisons are thus breathed
out and escape from the body.
THe LYMPHATICS.
Now, you wonder, perchance, how the watery lymph, laden
with impurities, is drained away. Like a thick network, count-
less numbers of tiny tubes spread out under the skin, and amongst
the tissues. These are known as lymphatic vessels, because
they carry lymph. The blood vessels are unending. They pro-
ceed from the heart, divide and sub-divide until they form a
fine network of tiny tubes. These small blood vessels have no
blind or open endings. When their work is done in supplying
the lymph with their load of nourishment, and when they have
sucked up as much poisonous dead matter as they can in the
form of gas, they begin to run together, forming larger and yet
larger channels which conduct the blood back to the heart to
be once again pumped into the lungs. On the contrary, the
lymphatics have open mouths. The lymph, which saturates
the tissues, is drained off by these little lymphatic tubes, the
open mouths of which suck it up and hurry it along into larger
304 THE SNAKES OF SOUTH AFRICA.
and larger lymphatic vessels, until at last it is poured through
two big tubes in the neck into two large veins, and thence to
the heart to be pumped, along with the venous or impure blood,
into the lungs to get rid of its load of poison.
How SNAKE VENOM IS SUCKED UP.
This vast network of absorbent lymphatic vessels and capil-
laries, which spread out under the skin, and in all directions
Fic. 127.—This drawing serves to show how an artery breaks up into
small channels which are called capillaries. They are so small that
they cannot be seen except with a powerful microscope. After nourish-
ing the cells, they run together again, and form what is known as a vein.
The little bodies in the spaces are the cells of the tissues. They are sur-
rounded bylymph. The black lines are the Lymphatics which have open
mouths to suck up the lymph and all it might contain, and carry it away
to the blood.
A. Artery. V. Vein. L. Lymphatics.
through the tissues of the body, sucks up any fluid which may be
injected, or otherwise find its way under the skin, or into
the muscles. Drugs are frequently administered thus. They
find their way more rapidly and efficiently into the general
circulation when hypodermically injected, than if swallowed.
Ordinary cases of blood poisoning occur in this manner. The
poison is sucked up from the wound. Microbes of various
diseases gain an entry into the blood also in this manner, hence
the reason why all wounds, and even slight abrasions of the
DESTROY THE VENOM AT ONCE. 305
skin, should be cleaned and dressed with a germ-killing substance,
such as boracic acid.
When a snake drives its fangs through the skin, the venom
is discharged into the watery lymph and amongst a close net-
work of lymphatic tubes, the absorbent mouths of which are
intensely irritated by the venom. Being thus stimulated, they
and the small blood vessels rapidly suck it up. In a
marvellously short space of time it is distributed throughout
the body by means of the blood vessels. Not being convertible
into a gas by the lungs the latter have little or no power of ex-
pelling it with the exhaled breath, as is the case with ordinary
tissue waste matters.
DESTROY THE VENOM AT ONCE.
Now, it is apparent if the spot where the fangs entered is
well scarified and allowed to bleed freely or sucked, the venom,
or at least some of it, will be washed out or drawn out by suction.
Permanganate of potash kills snake venom, if brought into actual
contact with it, so, it is obvious that if this salt is rubbed into the
scarified part within five minutes of being bitten by a snake,
more or less of the venom will be destroyed in the wound. This
method naturally does not always save the bitten person’s life,
because, when a large and very venomous snake, such as a Cobra,
inflicts a full and complete bite, enough venom is sucked up
within a minute or two into the body, to cause death, although
the permanganate might have destroyed two-thirds or even
more of the quantity injected by the snake.
It is unwise to rely entirely upon permanganate of potash
in the treatment of snake bite, even if it be applied within a
minute of being bitten, especially if the snake be a Cobra,
Mamba, or large Puff Adder. The victim should be injected
with Anti-venine Serum, which men of science now prepare
for the treatment of snake bite, and which is fully discussed
elsewhere in this book. .
A series of experiments which I conducted during the past
ten years all go to show that none of the popular South African
“cures ”’ retard death in the least when applied in cases of snake
bite on animals.
x
306 THE SNAKES OF SOUTH AFRICA.
Knowing how the venom is carried into the general circula-
tion, it will be apparent that a
This is why these glands get tender and swollen
They divide and sub-divide, and form a vast network under the skin and amongst the
when injected under the skin.
Those in the arm converge to the glands in the armpit.
when the arm or hand is poisoned.
Fic. 128.—This network of black lines are Lymphatic vessels which have open mouths and help to suck up snake venom
muscles,
ligature applied above the
wound would considerably
retard the flow of the blood
and lymph into the body.
However, great care must
always be exercised so as
not to allow a very tight
ligature to remain on for
more than half an hour to
an hour, else the limb may
mortify. The ligature should
be slightly loosened for a
moment at intervals, so as
to allow the venom to get
into the circulation so slowly
that the vital functions may
be able to cope with, over-
come, and cast it out before
it can succeed in paralyzing
the nerve centres, and thus
cause death. Much of the
poison-charged blood may
be got rid of in the ligatured
part, by opening one or two
of the veins which look like
blue lines under the skin.
There is no risk of bleed-
ing to death from an ordi-
nary surface vein. It is the
arteries which are difficult to
stop bleeding when severed.
They, however, lie deep down
in the tissues, not just under
the skin, except at places
such as the ankle and skull
where the muscles are thin
or absent. All the blue-looking blood channels seen under the
skin are veins.
HOW VENOM GETS IN AND OUT OF THE BLOOD 307
How VENOM GETS IN AND OUT OF THE BLOOD.
The nourishment and other substances held in solution in
the blood pass out through the walls of the microscopically
small capillary blood vessels into the lymph by means of which
they reach the cells to nourish, paralyze or kill them, according
to the nature of the substance. Now, suppose you take a glass
bottle without a bottom. Over the bottom part stretch a piece
of bladder and tie it securely. Make a solution of sulphate of
copper and place it in the bottle. You will find it will not ooze
through the bladder membrane.
Now place the bottle in a glass of water.
Presently you will observe the water be-
coming blue. This shows that the copper
sulphate is oozing through the bladder into
the water. This is called Osmosis, and
shows exactly how nourishment, poisons,
etc., pass through the walls of the blood
vesseis into the watery lymph by which
they are surrounded, and reach the cells
to rebuild or poison them. At the same
time the water from outside will ooze
through the membrane over the bottom
of the bottle, and mingle with the contents,
until the solution inside and outside the
bottle is of the same density. Now, when
a snake discharges its venom into the
watery lymph amongst the biood vessels
under the skin, a portion of it czes ==
through the walls of the tiny capillary ~ ee
blood vessels and enters the blood-stream.
It is carried along with the blood, and if
it be Viperine (Adder) venom, it will at once begin to attack the
capillary walls and the blood, dissolving the red colouring matter
out of the red corpuscles, and otherwise breaking it up, causing it
to ooze out through the blood-vessel walls and spread in dark
bluish-black patches under the skin, and amongst the muscles. If
it be Cobra venom it will ooze out through the walls of the blood
vessels, and be absorbed by the cells of various nerve centres
in the brain and top of the spinal cord, and poison them.
Fic. 129.
308 THE SNAKES OF SOUTH AFRICA.
If snake venom in solution with water, instead of sulphate
of copper, is placed in the bottle shown in the illustration, it
will not ooze out. But if the bottle is placed in a glass of water
it will begin to ooze through, and vice versa until the water
inside and outside the bottle will be equally poisonous.
It can thus clearly be seen that if snake venom has been
sucked up and has already acted extensively upon the blood
and nerve cells previous to the injection of an antidote, the latter,
even if administered copiously, may fail to avert a fatal issue.
It is obvious that if the nerve cells be extensively poisoned, or
the blood broken up beyond recovery, there cannot be any other
result than death. It is practically impossible for us to judge
whether the patient has passed the border-line or not, unless he
is actually dying and the fact is patent ; therefore in these cases
we always recommend injecting three times the ordinary dose
of anti-venine serum. This serum will be dealt with fully in
the next chapter. Place no reliance upon any quack so-called
cure. If the anti-venine will not save the patient from death,
nothing else will. I wish to impress this fully upon the minds
of readers, for the majority of people have some kind of
worthless cure which they have such faith in, that nothing else
would be used if a case of snake bite should occur.
In places in this volume there may seem to be unnecessary
reiteration. Whenever I have dwelt more than once upon the
same topic it is with the definite purpose of impressing the
minds of readers with matters which are of grave importance.
CHAPTER LX,
ALLEGED SNAKE BITE CURES—RESULTS OF EXPERIMENTS.
In all countries where venomous snakes abound, so-called anti-
dotes to snake bite spring up like crops of weeds upon a rank
soil. In India at least a score of alleged antidotes were largely
advertised and otherwise advocated. Each “cure” had its
adherents, many of whom testified to its power to cure snake
bite. Doctors Fayrer, Brunton, Rogers, and other eminent
experimenters exhaustively tested the alleged antidotes in use
in India, and found them one and all, to be of little or no value.
Colonists in South Africa invariably attach much importance
to the assertions of the natives in regard to alleged snake
bite remedies. This faith has, doubtless, been considerably
strengthened by the crafty ‘“‘ Kafir doctors’ ”’ tactics.
How BELIEFS ARE SPREAD.
,
These ‘‘ doctors” tell of the wonderful virtues of some
favourite remedy for snake bite, and when urged to divulge its
nature, make a profound mystery of it, declaring that fabulous
sums would not tempt them to disclose the secret. Naturally
the inquirer is impressed, more or less. Many of these “ doctors ”’
have accomplices, who pretend to be suffering seriously from snake
bite. With much mystery and fuss, the doctor appears upon the
scene and applies his remedy. The man makes an apparent
rapid recovery, and the “ cure”’ is heralded all over the neigh-
bourhood.. I have, however, met many of these native doctors,
who, I have every reason to believe, had firm faith in the anti-
dotal properties of their snake bite “‘ mooti’’ (medicine).
,
310 THE SNAKES OF SOUTH AFRICA.
APPARENT CURES.
In the past I have treated, and seen treated, many cases of
snake bite. It was in the days when little or nothing was
known of the present approved methods of treatment. I had
strong faith in alcohol, strychnine, ammonia, and one or two
proprietary substances, the active principle of which, I after-
wards ascertained, was either ammonia or strychnine, or both.
Many of the cases so treated were practically ‘“‘ cured” twelve
or twenty-four hours after treatment. I have often seen the
same thing occur when native “ cures’ were applied.
THE REASON WHY.
However, when I began the serious study of snakes and
their venom, I found that.a large percentage of the snakes of
South Africa were non-venomous, many others were only veno-
mous to a slight degree, and others powerfully venomous. Now,
a harmless snake, or a slightly venomous one will, in nearly all
cases, instantly bite if trodden upon or roughly handled. Some
of them are actually vicious, and will lunge fiercely at any one
coming near to them. The commonest place to be bitten is
upon the hand. In gardening work, removing lumber, and in
a multitude of other out-of-door occupations, the hands are em-
ployed in moving, turning over, carrying, etc. If the fingers
should touch a snake, or the hand come within striking distance
of it, the reptile will often lunge with gaping jaws and inflict a
» wound. The victim sees the snake bite him. That is enough
for him. He rushes off in terror, forthwith swallows all the
brandy, whisky, or gin he is able to imbibe, or perhaps other
“cures’’ are applied. If the strong spirit does not poison
him, or cause acute inflammation of the stomach and death,
he recovers and swears ever after that he drank a bottle or
two of spirits and it cured him. If the cure should happen
to be some simple remedy, such as native “ mooti,” or
something else recommended by a neighbour, and he finds he
is none the worse for the bite, he is never weary of advocating
the treatment, whatever its nature might have been, although
in all probability the snake which bit him was one of the harmless
species.
THE REASON WHY. 311
Even when bitten by highly venomous snakes, it does not
follow that death, or even serious illness, will result. If a
poisonous snake should succeed in inflicting a full and complete
bite, and if that snake should happen to be a healthy one of
adult size, then if death does not take place, very serious con-
stitutional effects are bound to follow. Often, however, the
venom, or most of it, is absorbed by the clothing, or the skin is
barely scratched. In other cases a partial bite with only one
fang is inflicted. It is impossible to know for certain whether
any alleged cure is what it claims to be or not, unless tested
under proper conditions. The conditions must be such as to
leave no possibility of doubt as to the identity of the snake used
for the purpose. In experimental work one test is not sufficient.
A series of experiments are necessary.
It by no means follows that a fatal dose, or even a dose suffi-
cient to cause noticeable symptoms of,poisoning, will be injected
even if a snake should puncture the flesh with both fangs. Often
the snake miscalculates his distance, and the venom squirts out
before the fangs penetrate the skin. In these cases only a
fractional dose is injected. At other times a fierce thrust is
made which either misses or strikes the boot or clothing at an
oblique angle. Like a flash a second blow is delivered. This
time the fangs, perchance, are driven home. In such cases as
these the venom would be driven out of the poison glands and
shed by the first thrust, leaving very little for injection by the
second bite. In fact I have often found that the masseter
muscles which squeeze the glands and expel the poison, do not
always respond a second time, unless there is a pause between
the first and second bite.
During the course of my experiments it was abundantly
evident that a bite from a venomous snake did not always mean
the injection of a fatal dose of venom. I will give one instance
from scores in my note book.
A large Puff Adder which had been in captivity five days,
was held by the finger and thumb and allowed to bite the lower
part of the thigh of a Cape Jackal which was as large as a full-
grown Pointer dog. The snake drove both fangs into the flesh.
It bit a second time, but only one fang penetrated halfway.
Five minutes later a second Puff Adder was held to the thigh
of the Jackal. At first it refused to bite, but when its nose was
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Again it bit in exactly the same way,
leaving two punctures which bled slightly.
go, leaving two punctures.
All that day, and for three days following, the Jackal showed
THE QUANTITY OF VENOM INJECTED. 313
no outward symptoms of poisoning. There was no swelling,
and the animal fed as usual, and was as lively as ever.
On the fourth day I extracted three drops of venom from
one of the Puff Adders which had bitten the Jackal. This was
mixed with a_ teaspoonful of pure water and injected into the
muscles of the other thigh of the Jackal, by means of a serum
syringe. One hour later the Jackal was dead. A post-mortem
showed the limb swollen twice its normal size. The flesh
of the whole limb from the toes up to the junction with the
body, was saturated with blood which had oozed through
the walls of the blood vessels into the surrounding tissues.
The muscles of the whole body were more or less stained with
extravasated blood, and the heart was also affected.
The limb was then examined which had been bitten by the
two Puff Adders. All about the sites of the bites the muscles
were much discoloured with blood, which had oozed into the
tissues. This was traced up the leg and half-way along the side.
It was apparent that venom had been injected when the snakes
inflicted their bites, but not in sufficient quantity to cause
swelling or other noticeable symptoms. Now, if I had relied
upon this case as a demonstration of the efficacy of some
favourite “‘ cure,” I should have been altogether wrong in my
conclusions.
THE QUANTITY OF VENOM INJECTED.
When a venomous snake inflicts a full bite he drives his fangs
into the flesh and retains his hold for a moment or two, at the
same time gripping hard. Now, in most cases of snake bite
with human beings and the larger animals, the victim generally
sees the snake lunge and springs away or shakes off the reptile
the moment it bites. If he does not happen to see it strike he will,
on the instant, leap, kick, or otherwise disengage the snake’s
fangs before it is able to grip the flesh and press in a full charge
of venom. I have frequently made snakes bite animals with
the object of demonstrating that if a snake is allowed to get a
full grip and hold on for a second or two, the amount of venom
injected is double and often ten or more times greater than if
the reptile struck and instantly disengaged its fangs. This is
ascertained by observing the length of time the animals survived.
314 THE SNAKES OF SOUTH AFRICA.
In many cases when the snake was allowed simply to puncture
the flesh for an instant, the animal recovered. Often the
symptoms of poisoning were only comparatively slight. In all
cases when a Cobra, Puff Adder, or Boomslang was allowed to
inflict a full bite, death followed. The fangs of the Cobra family
of snakes are short and the channel down which the venom
flows is very small. I have carefully tested and found that the
Cobra, Ringhals, and Mamba, expel their venom at the rate of
about a drop from each fang in one second. With the available
constricting power exerted on the poison glands, the venom is
pressed out with great power, but the channels down which
the venom is forced are so small that it issues in a very fine
stream. The Puff Adder and others of the adder family have
larger fangs, and their venom, moreover, being thinner than
that of the Cobras, they are, in consequence, able to inject it
at a more rapid rate. The reason Nature has not evolved larger
grooves through which to drive a bigger dose of venom into the
victim in the case of the Cobras and Mambas is that it is not at
all necessary, for weight for weight, Cobra and Mamba venom
exceed Puff Adder and other adder venom in its death-dealing
properties. One drop of Cobra venom will kill a large dog in
half an hour, sometimes less. The same quantity of Puff Adder
venom causes constitutional disturbances which are usually re-
covered from.
ALLEGED CURES.
Every native “cure’”’ submitted to me so far has proved,
upon experimentation, to be absolutely worthless. I have also
tested some alleged South African cures, which are proprietary,
with equally disappointing results. An owner of a certain pro-
prietary “cure’’ was very anxious that I should experiment
with it. He evidently had a good deal of faith in it himself. I
intimated that such experiments cost money. I was quite
willing to bear such cost in the interests of science, but I pre-
sumed he would have no objection to allowing me to publish
the results. No, he could not permit such a thing until he first
learned the result. Then he would decide. I asked him in the
event of failure would he be prepared to withdraw his “ cure ”
THE FAMOUS ZIBIBA CURE. 315
from the market? ‘‘ No, of course not.’ Many a valuable life
is lost in South Africa, not to mention stock which have cost
the owner large sums, because of his faith in the efficacy of
these bogus cures for snake bite.
The base of nearly all of these proprietary “‘cures”’ is
strychnine and ammonia. Those drugs, especially the former,
are occasionally of some service as heart and nerve stimulants,
but unless administered very carefully they are apt to do more
harm than good. In cases of Colubrine snake bite (Cobra family),
strychnine in medicinal doses might be of some little service in
rousing the nerve-centres.
A heart stimulant is rarely, if ever, required in serious cases
of snake bite. Cobra venom itself acts as a powerful heart
stimulant. So strongly is the heart stimulated that, for several
minutes after the lungs have ceased to act and somatic (physical)
death has taken place, the heart is stili beating. Cobra venom
tends to paralyze the nerve centres, and strychnine injected
under the skin, or nux vomica swallowed with a little water,
might prove somewhat beneficial. Electric shocks would pro-
bably be more efficacious.
Adder venom, as a rule, acts largely upon the blood,
dissolving out the red colouring matter (hemoglobin) from the
red corpuscles, and relaxing the walls of the blood vessels. It
is, therefore, apparent that a heart stimulant in these cases
would result in the blood being pumped through the vessels
with greater force and pressure, resulting in increased hemorrhage
into the tissues and under the skin.
The base of one of the popular South African proprietary
cures is extract of Male Fern Root. This is an excellent remedy
for tape worm, but not for snake bite.
THE FAMOUS ZIBIBA CURE—RESULTS OF EXPERIMENTATION.
In South Africa, particularly in Rhodesia, Transvaal, Swazi-
land, Zululand, and Natal, there is an alleged native remedy
for snake bite known by the native name of “ Zibiba,” or
“ Sebiba.”’ This cure is, according to the native doctors, an
infallible remedy for snake bite. Natives have absolute faith
in their doctors. These doctors claim their substance to be
316 THE SNAKES OF SOUTH AFRICA.
an antidote ; therefore, in consequence, the same belief is held
by the native population. Large numbers of colonists also have
unquestioning faith in its efficacy.
A certain well-known South African journal, in a leading
article on “‘ Zibiba,” voices the public belief in this substance
as follows :—‘‘ We have been assured by Native Commissioners
and other men of position in the Transvaal that they have per-
sonally witnessed marvellous cures worked by this substance.
A very small quantity—as much as will cover the point of an
ordinary penknife—taken internally, and a little of it rubbed
into the wound and into small incisions on the wounded limb
above the wound, has been known to restore the bitten man to
complete convalescence within twenty-four hours after his con-
dition had been so precarious that he had already become un-
conscious, and also blind from the consequences of a Puff Adder’s
bite.
“Other unquestionable evidence could, if necessary, be adduced
to bear out the assertion that ‘ Zibiba’ is not a mere palliative,
but a sure and indubitable cure for snake bites. From what
plant or substance ‘ Zibiba’ is prepared by the native doctors
is as yet a secret which they have managed strictly to
preserve.”
EXPERIMENTS WITH ZIBIBA.
The Hon. F. W. Reitz, Ex-President of the Orange Free
State, and a former State Secretary of the Transvaal, and Presi-
dent of the Senate of the Union of South Africa, who takes a
keen interest in the quest for a reliable snake-bite antidote other
than serum, sent me a phial of genuine fresh “ Zibiba,”’ to
enable me to carry out a series of experiments. This “ Zibiba,”
on examination through a microscope, appears to be the root
of a plant. The root is finely pulverized, and is of a reddish-
sandy shade in colour. Realizing the unsatisfactory nature of
experiments of this kind on small creatures, such as rats, guinea-
pigs, rabbits, etc., I procured a large male Vervet Monkey (Cer-
copithecus pygerythrus) in the fullest vigour and health. Mixing
a heaping egg-spoonful of “ Zibiba’’ with a piece of banana, I
gave it to the monkey. After an interval of fifteen minutes, a
four-foot Brown Cape Cobra, or Bruin Kapell (Nata flava), which
FURTHER EXPERIMENTS. 317
had been in captivity a year, and was in poor condition, bit the
animal on the tail, one foot from the root, on a spot previously
shaved. Within one minute the site of the bite was scarified
thoroughly, and ‘‘ Zibiba’’ powder rubbed in. Other incisions
were made between the site of the bite and the heart, and more
“ Zibiba’”’ rubbed in. After an interval of two minutes, more
of the remedy was applied to the incisions. Each incision was
smothered with it. As is usual in cases of bites from Cobras,
the animal did not suffer any pain. The only pain was a momen-
tary twinge when the rapid incisions in the skin were made with
a sharp lancet. The animal did not show the least sign of any
inconvenience for fifteen minutes. Then it began to get drowsy.
This was due to the paralyzing action of the Cobra venom on
the nerve centres. This increased progressively until the animal
became unconscious. It died in forty minutes. After breathing
ceased, the heart beat vigorously for five minutes, then gradually
slowed and stopped after another two minutes. This is not
unusual in cases of death from Cobra venom. It has always
occurred in my experience, hence the reason I advocate the
adoption of artificial respiration methods, if breathing should
cease suddenly. On dissection, it was clearly evident the animal
had died of Cobra venom poisoning, and not from any possible
toxic action of the ‘‘ Zibiba.”’ Subsequent experiments. of a
conclusive nature have confirmed the negative results of the
first case. It is unnecessary to give them in detail.
FURTHER EXPERIMENTS.
After the publication of the results of my Zibiba experiments
in the several South African Agricultural Journals, I received
the following communication from a well-known gentleman in
Natal. He wrote: “I have discussed your direct statement
with regard to Zibiba. I have witnessed both animals and human
beings bitten by Puff Adders and Night Adders. In all these
cases Zibiba was used, both internally and externally, with un-
qualified success. I mention this, because I have seen the snakes
which caused the bites, and the antidote, and knew it to be
Zibiba.”’
I procured some of this Zibiba, which was such an infallible cure,
from this gentleman, who assured me he obtained it direct from
318 THE - SNAKES OF SOUTH AFRICA:
a native medicine man. On examination, the stuff appeared
to be exactly the same as that which had been supplied to me
by the Hon. F. W. Reitz, for my first series of experiments.
It is needless to detail the experiments. It is sufficient to
say, although the Zibiba was applied as directed, both internally
and to the incised wound, it did not delay a fatal issue. In no
case did it even prolong life.
Another communication was received from a prominent
farmer in the Transvaal. He stated that all the farmers in his
district carried a “‘ Snake bite cure’ in a small bag sewn to their
belt or braces. The women carried it stitched to a garter.
These people believe the substance to be a certain cure for snake
bite, and in consequence display absolute fearlessness when in
the presence of snakes. He was given a small bag of this cure
and told to carry it about with him always, because it was a
certain cure, provided the wound was scarified, and the powder
rubbed well in, and a small quantity swallowed. He says it is
also believed that if the skin is cut in several places once yearly,
and the powder rubbed in, it will give absolute immunity for
at least a year. My correspondent is prepared to contest this
cure against any other. A sample of this wonderful powder
was sent tome. It turned out to be Zibiba. Again I conducted
a series of experiments, with the same results as before. I carried
out the instructions carefully, viz. putting a little of the Zibiba
at the back of the tongue, scarifying the site of the bite, and
rubbing some of the powder well in. In other cases I scarified
the flesh in three or four places and rubbed the powder into the
cuts. Rubbing some on a piece of meat, I gave it to a Jackal.
After a lapse of fifteen minutes, to give the Zibiba every chance
of being absorbed into the blood, the Jackal was bitten on the
thigh by a Cape Cobra. The site of the punctures was scarified
and smothered with the stuff. The Jackal died in less than an
hour.
FURTHER PROOFS.
Another gentleman from the Transvaal wrote suggesting that
the first sample of Zibiba I experimented with, might not have
been the genuine article. He wrote as follows: “I had a fair
quantity of Zibiba some time back which came from the heart
FURTHER PROOFS. 319
of Swaziland. It turned out to be the real stuff, so I was very
soon relieved of most of it by my neighbours. However, the
following two cases came under my notice which made me believe
it to be the genuine stuff. A neighbour of mine had the misfortune
to be bitten by a Puff Adder, on the instep. He was barefooted.
He ran to his house, a distance of about a hundred yards.
Reaching the dining-room, he practically collapsed. Fortunately,
his Kafir cook was at hand, and on hearing the news, imme-
diately broke a bottle, and with a piece of the glass scarified
right and left across the punctures. He rubbed in a quantity
of Zibiba (not very much), and the bitten man swallowed a
quantity, as much as would cover the point of an ordinary
penknife. Nothing else was done. For two days the leg was
considerably swollen, but on the third, it went down, and the
man in question recovered.
‘The second case was with a dog. , My pointer one morning,
under my very nose, was bitten, also by a Puff Adder, on the
lower lip. He gave a startled yelp, and at once scratched his
head most violently with his fore paws. Within five minutes
his whole body contracted into large bumps, and his head assumed
most startling proportions, so much so that the eyes could not
be seen. As I usually carry Zibiba with me, and a sharp Gillette
Safety Razor blade, I called a boy, who held the dog down. I
examined his head, found two large punctures on the lower lip.
These I scarified and rubbed in Zibiba, and gave him a good dose
also. After two hours he seemed very bad, so I gave him a half
cup of French brandy with a little water, after which he lay
quite still. The next day the swellings on his body were gone.
His head was still a bit swollen, but he was otherwise none the
worse for the bite.
‘These two cases are quite genuine. I have about a sufficient
quantity of this Zibiba left for a cure, which I will willingly
forward if you are prepared to test it upon animals bitten by
Puff Adders. Let the bite be on the hind-quarters, thereupon
immediately scarify the wounds, rub in a fair quantity of the
Zibiba, and give the rest internally. This Zibiba has cured two
cases to my knowledge, and should you be successful, I think
that would be sufficient proof that it is a positive cure.”’
320 THE SNAKES OF SOUTH AFRICA.
THE TESTS.
A small quantity of this Zibiba was procured and forwarded
to me.
A large domestic tom-cat was chosen for the first experiment,
for the reason that cats resist the action of snake venom much
more successfully than any other animal of the same size with
which experiments have been made. A large pinch of the powder
was dropped into the cat’s open mouth, which fell into the throat
and was swallowed. A Puff Adder was then allowed to inflict
one full bite on the upper part of the cat’s back leg. The spot
was instantly scarified, three cuts being made. The wounds
were rubbed thoroughly with Zibiba. After an interval, more
was applied. Later, the wound was rubbed with a third dose.
The cat died in one hour twenty-seven minutes after.
Some of this Zibiba was mixed with the venom of a Puff Adder
and rubbed into a cut in the leg of a fowl. The fowl died in half
an hour. Zibiba was mixed with two drops of Puff Adder venom
and some water and allowed to stand a whole day. The mixture
was rubbed into a cut in a fowl’s leg. The fowl died. Other
experiments followed, with similar results.
A full-grown Vervet or Blue Ape, similar to the one used in
the original experiment with Zibiba, was obtained. I inserted
a fair quantity of the Zibiba powder supplied by Mr. Reitz, and
some of that which was supposed to have cured the man and the
dog when bitten by Puff Adders, into a piece of banana. The
monkey ate the banana. Allowing an interval of fifteen minutes,
I caused a Puff Adder to bite the monkey in the lower part of
the back leg. The site of the punctures was instantly scarified
thoroughly, and the wounds smothered with a mixture of the
two samples of Zibiba. The monkey, within five minutes of the
bite, showed signs of poisoning. The symptoms steadily deve-
loped, until death took place twenty minutes after the infliction
of the bite.
The Puff Adder was a fresh one which I had captured a week
previously. The bite it inflicted was a complete one. It was—
held by the neck and allowed to retain its hold two seconds.
Samples of Zibiba from the Transvaal, Swaziland, and Natal
were mixed together. A teaspoonful of water and six drops of
MISPLACED CONFIDENCE. 321
Puff Adder venom were added. The mixture was thoroughly
mixed and allowed to stand six hours. It was then carefully
strained. The liquid, which was reddish-brown in colour, was
divided into two portions and injected under the skin of the thighs
of two fowls. Both fowls died in less than two hours.
Since writing the foregoing a friend has succeeded in obtaining
a sample of Zibiba from a Kafir medicine man in Swaziland.
He stated it to be the pulverized bark of a root mixed with the
powdered remains of the entire head of an adult Puff Adder. It
seems the head is first thoroughly dried and then pounded with
the bark. This preparation is supposed to be a certain cure
for the bite of a Puff Adder. The directions of the medicine man
were, to place a pinch or two on the tongue and swallow it ; to
scarify the wound and rub some into the cuts. Truly this was
a curious sort of “cure.’”’ A moment’s reflection would make
it clear that the application of the pulverized head of a venomous
snake to a wound would simply increase the poisonous symptoms,
for snake venom does not lose any of its poisonous properties
if dried, unless allowed to decompose before drying it.
However, I experimented with the substance in the usual
way, but, like the other samples of Zibiba, it had no curative
effect. Some was rubbed into incisions made in the legs of fowls
which had not been previously bitten or otherwise injected with
snake venom.
Both fowls showed slight symptoms of viperine poisoning.
MISPLACED CONFIDENCE.
So, it seems after all, the confidence of the public has been
misplaced, and that of the native population as well. “‘ Zibiba,”’
which, since the advent of the white man to South Africa, has
been regarded as an absolute cure for snake bite, has proved to
belong to those many popular “ cures ’’ which have failed utterly
when tested under proper conditions. Personally, I am in no way
prejudiced in favour of or against any alleged remedy. Rightly
or wrongly, I think it a duty to test these alleged snake bite
cures. Itisa pity that it should be necessary that living creatures
should have to be sacrificed that we may be in a position to prove
conclusively whether alleged snake bite remedies are genuine or
not. However, there is no other way we know of. Provided
Y
322 THE SNAKES OF SOUTH AFRICA.
experiments are conducted as humanely as possible, the end, I
think, more than justifies the means. In this case thousands
of colonists and tens of thousands of natives, if not millions, have
absolute faith in the antidotal properties of “‘ Zibiba.” The
inevitable result is that, instead of approved remedies being
applied, such, for instance, as those advocated in this book, this
worthless ‘‘ Zibiba’”’ or some other equally useless stuff is
administered by the victim’s friends, a native “ doctor,’ or
applied by himself. No other treatment is thought to be neces-
sary. Thus valuable human lives are lost—lives which could
easily be saved.
As far as I can ascertain, “‘ Zibiba’’ contains no medicinal
substance which is of a nature to be rapidly absorbed by the
mucous membrane of the stomach, or the absorbent vessels
under the skin. When mixed with snake venom it does not
destroy its poisonous properties. If it has not this effect outside
the body it would not be likely to have the contrary effect within
the body.
KNOWLEDGE IS POWER.
If people would only make themselves acquainted with the
nature of snake venom, approved antidotes, the treatment of
snake bite, the nature of the venom of each species, how to
distinguish venomous from slightly venomous or non-venomous
snakes, fewer deaths would take place amongst human beings
and stock from snake bite, and the almost universal fear and
dread of snakes would be much lessened. So strong is this dread
of snakes and their venom that many cases are on record of
people collapsing and dying after being bitten by non-venomous
snakes. I have not seen cases of people actually dying, but I
have seen them in a state of great nervous collapse simply through
fear and dread, induced by the firm belief that death was likely
to occur,
Zibiba, I am informed, is known by different names in various
parts of the country. What those synonyms are I have been
unable to ascertain. Colonists, or most of them who keep some
of this alleged snake-bite remedy, simply call it “ Kafir
mooti.”’ f
CROFT’S TINCTURE. 323
CROFT’S TINCTURE.
A full-grown Cape Jackal (Canis mesomelas) was bitten by a
Cape Cobra on a portion of the thigh previously shaved. A
rubber tube was thrust into the gullet of the animal and a dose
of Croft’s Tincture, properly diluted, was injected into its stomach
by means of a syringe. The site of the bite was at once scarified
and the undiluted tincture was well rubbed in several times.
The Jackal was dead in twenty-two minutes.
Another Jackal was taken. A dose of Croft’s Tincture was
pumped into the creature’s stomach. After five minutes’ interval,
a Puff Adder was made to bite the animal on the bared thigh.
The wounds were promptly scarified, and the undiluted tincture
rubbed in three times. The Jackal died in seventy minutes.
In February, 1911, Mr. Robert Parkin of Thornhill, near
Port Elizabeth, was bitten on the hand by a Night Adder (Causus
rhombeatus). He immediately sucked the wound, scarified it
and applied pipe oil. Shortly afterwards Mr. Newton appeared,
and administered Croft’s Tincture. Mr. Parkin was bitten in
the morning. He slowly sank and died at 7.30 p.m., notwith-
standing the administration of Croft’s Tincture.
The following is the account of the incident, as related in the
Eastern Province Herald.
“On Tuesday morning, after breakfast, Mr. Robert Parkin
was working in his garden, when a Night Adder bit him on the
finger. He immediately sucked the wound, scarifying same,
and applied nicotine. Shortly afterwards Mr. Newton appeared
and administered Croft’s Tincture; Mr. Parkin appeared to get -
better, but later in the afternoon his face and throat began to
swell, and despite all efforts, he got worse, and expired at 7.30.”
Taking half a spoonful of undiluted Croft’s Tincture I added
three drops of snake venom, and put it aside for several hours.
The tincture to which the venom had been added was then diluted
with water, and a small amount of it injected into the thigh of a
fowl which died of the usual symptoms of snake venom poisoning.
Other tests of a similar nature resulted in the death of the
creature every time. It is therefore apparent that the tincture
in no way destroys the poisonous properties of the venom even
when mixed with it in full strength. If Croft’s Tincture is
incapable of destroying venom when mixed with it in this
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THE ALCOHOL CURE FOR SNAKE BITE. 325
way, it would not be likely to do so if rubbed into a wound or
swallowed. °
THE ALCOHOL CURE FOR SNAKE BITE.
Of the many popular “‘ cures”’ for snake bite, alcohol is one
of the most widespread. In South Africa it is universally
believed to exert a strong curative effect in cases of snake bite.
In Australia and America the popular faith in this substance
is equally strong. Unfortunately, however, when subjected to
careful scientific experimentation alcohol is found to have no
antidotal power in snake venom poisoning. The belief in
alcohol is so strong that if it be at hand, no other means of
averting a fatal issue is thought of. The patient is plied with
brandy or whisky until he is unable to swallow any more. Often
one, two, and three bottles of brandy are given, and as likely
as not without being previously diluted with water. The idea
is that if the patient can be intoxicated, he will be saved. In
cases of snake bite the nervous centres are more or less benumbed,
and the stomach is often incapable of absorbing much, if any
liquid which may enter it. If the nerve centres are already
benumbed by snake venom, the alcohol will naturally fail to
have any effect upon them. If the stomach is inert through
the paralysis of the gastric nerve centres, then all or most of the
alcohol will lie in the stomach unabsorbed. This is why alcoholic
intoxication does not always follow after the administration of
even a whole bottle of brandy. However, if the snake venom
symptoms be only slight, or if the patient is beginning to rally
from the effects of the venom, then the alcohol will begin to
produce intoxication, and the patient will soon be drunk and
incapable. If the alcohol does not succeed in destroying his
life, he will in due course wake up from his drunken stupor,
apparently cured.
The administration of large doses of alcohol to any one
whose body has not been accustomed to strong doses of this
poisonous drug, will either cause death or serious damage. The
delicate lining membrane of the stomach may be so extensively
burned that subsequent inflammation of the stomach may cause
death ; or if recovery should take place, the digestive powers
are ruined for life, owing to the destruction of large patches of
THE SNAKES OF SOUTH AFRICA.
326
The
the mucous surface and peptic glands of the stomach.
“Bunjs Suleq JO soynurm aay uryzM pardde yr ‘wouea oy} Aorjsap [IM aijound aq} Jo ays ey} JaA0 opem SuOISIOUr [JeUIS OFUT
peqqni ysejod jo ajyeuesueulieg
‘satoads UMO S}I JO BSOY} IO F[9S}I ySuIeSe ssayUIIeY st UOTdIOIs v Jo uosIod ayy *sABMApIS pue
SprPMIOF SISNAY} PUB YOU SITY IOAO [1e} SITY SJIa1a aY pazepLAII St UoTdioos ayy UaYAA di} ay} ye JYSII sI Sus ayy “]re} ay} JO pua
oy} ye st snjeredde uostod oy,
*‘poom surAvoap pue souoys Japun yan] yoy suotd109g uLoLyW YINOS snoulouaA are asay,—zEI “91g
The latter
flooding of the blood with strong spirit causes extensive destruc-
tion of the corpuscles of the blood and nerve cells.
THE ALCOHOL CURE FOR SNAKE BITE. 327
are often destroyed in such numbers and the rest so shrivelled
and otherwise damaged, that the functions of the brain are,
ever afterwards, impaired even to the degree of permanent
weakening of the intellect.
All these terrible risks are taken because of the belief that
alcohol cures snake bite.
Alcohol has no curative effect. When brandy or whisky is
mixed with snake venom and injected into animals, the poisonous
properties of the venom are in no degree lessened. The animals
die just as rapidly as if the venom had been injected pure.
Animals have been made incapably drunk with alcohol and
injected with snake venom. Others have been injected with
exactly the same dose of venom, but were not treated with
alcohol. Those previously made drunk died just as soon, often
sooner, than those not so treated. I have measured out doses
of venom and injected it in equal proportions into two animals
at a time. One was then dosed freely with alcohol, the other
was kept warm and left to itself. The creature treated with
alcohol died first. These experiments were repeated several
times.
When snake venom is mixed with absolute alcohol, a white
precipitate is thrown down, but the poisonous properties which
have been thrown out of solution are just as soluble as ever,
and if injected into the blood, exert the same poisonous effects
_as venom direct from a snake. If alcohol had the power of
rendering the poisonous parts of snake venom insoluble, or
changing its nature, then if the blood was saturated with alcohol
it would have some curative effect, but this is not so. Even
overproof spirit does not lessen its poisonous properties when
mixed with it. The only good effect of alcohol in the treatment
of snake bite is its power in somewhat deadening the patient’s
sense of fear and dread. In this connection it is often useful,
for in many cases the shock to the nervous system through fear
is more to be dreaded than the venom. Naturally when the
nervous system is more or less benumbed through shock due to
terror, the vitality is at low ebb, and the natural resistance of
the body to the venom is considerably lessened.
However, large doses are never justified. In fact, the only
times when alcohol is suggested is in slight cases of snake bite,
to blunt the patient’s sense of fear. It is valueless as an actual
328 THE SNAKES OF SOUTH AFRICA.
antidote. In all serious cases, particularly those suffering from
the venom of the Adders, or Boomslang, it is distinctly dangerous
to administer strong doses of alcohol, as it would increase the
hemorrhage into the tissues and under the skin.
HORNIBALL’S PATENT WONDERFUL EXTRACT.
In the Eastern Province of the Cape Colony, “ Horniball’s
Patent Wonderful Extract’ is in great favour as a remedy for
snake bite.
In appearance it is a blackish substance of the consistency
of vaseline. It smells like extract of male fern.
It is stated to be specially efficacious in cases of bites by Puff
Adders.
Taking a quantity of this extract, I diluted it slightly with
water and added two drops of Puff Adder venom, stirred it well
in, and left the mixture for several hours. It was then injected
under the skin of a large fowl. The fowl underwent the usual
symptoms of poisoning by snake venom and died in three-
quarters of an hour. The leg was swollen and saturated with
extravasated blood.
Smaller quantities of snake venom were mixed with the
extract and injected after the mixture had stood several hours.
The fowls died as rapidly as when the same quantities of venom
were injected with pure water.
If this extract can exert no neutralizing effect upon snake
venom when actually mixed with it, even in a concentrated
form, it most certainly will not exert any curative power if applied
to the punctures, and it is not conceivable that it would have
any better effect if swallowed.
THE STOCKHOLM TAR AND FOWL FLESH CURES.
I have always been willing to submit any popular so-called
South African antidote to a fair trial, but some of the ‘ cures ”’
which I have been assured even on oath are absolute antidotes
for snake bite are absurd and ridiculous, showing that those who
believe in them have not even a rudimentary idea of human
physiology. A farmer’s wife called on me one day and said
she wanted me to make it known through the medium of my
329
STOCKHOLM TAR AND FOWL FLESH CURES
She assured
“Science Notes”’ in the press, of a certain cure.
sid ay} [[1} syeaM Jo a[dnoo
(‘afv7 juiupy wo1g) ‘uses oq ued Std ay} JO yINq ey] ‘“poysesip sem
e Iof UOT}Ipuod prd10} e url Avy ay pourp Surry
‘sid & paMoyjeMs pue pornydeo uoyyAq sty~t—'er1
“OL
, had
her district, both white and black
in
me that everybody
330 THE SNAKES OF SOUTH AFRICA.
firm faith in it. Snakes had bitten her, she declared, and she
had proven the remedy to be genuine. ‘‘ All you have got to do
is, if a snake bites you on the foot, to get some good Stockholm
tar and smear a ring of it round your leg on the skin between the
bitten spot and the heart.’ “‘ You see,” said the lady, “ the tar
on the skin prevents the poison going past. It drives it back,
and it runs out with a lot of black blood from the wounds in-
flicted by the snake.’’ This wasn’t all. She had another sure
cure. “If a snake should bite you, catch a fowl or a pigeon,
split it open, and hold its warm flesh to the site of the bite. The
flesh will draw out all the poison.” This latter “ cure’”’ I have
found to be firmly believed in by a large section of the farming
class.
SO-CALLED CURES WHICH KILL.
To the medical man it is alarming how the public swallow
drugs without knowing anything of their properties. Great
doses of most potent medicinal substances are taken with
the object of curing some complaint, or for the treatment of
snake bite. There can be no doubt that considerable numbers
of people are killed, and others ruined physically for life by
swallowing drastic drugs, the properties of which, and their effects
upon the organs and tissues of the body, they are profoundly
ignorant.
In treating cattle, farmers will often make a concoction of
the most poisonous of substances and pour it into the sick beast.
If the animal should eventually recover, the farmer triumphantly
heralds his cure all over the neighbourhood.
Some so-called snake bite antidotes which I have been told
are often administered, would certainly seriously upset the
individual to whom any of them were given, if they did not
actually kill him. One of the antidotes is the drinking of a
mixture of paraffin, Stockholm tar, and salt. Another is pipe
oil, and a bottle of brandy neat.
EAuU-DE-LUCE.
Eau-de-luce at one time was generally believed to be the
finest thing known for the cure of snake bite. It was adminis-
tered by the medical profession. Any one doubting its efficacy
IPECACUANHA, LIQUOR POTASSA, CAUSTICS. 331
would have been regarded as an enemy of mankind, especially
so if he made his opinions public. The faith in this supposed
cure waned as the years went by. Dr. Fayrer, the great experi-
menter with Indian snakes, made full and complete experiments
with this eau-de-luce, and found it to be quite worthless. It did
not delay death in the slightest degree. Experiments which I
have made with South African snakes showed that it was of no
antidotal value. The animals died just as quickly as when no
so-called cure was given. If you have eau-de-luce in your house,
use it as smelling salts, or put it in your private collection of
curiosities, but do not rely upon it to cure cases of snake bite.
A European boy named J. Jackson was bitten on the calf
of the leg by a Black Mamba at Umgeni, near Pietermaritzburg.
A. E. Gayer, Esq., who was present, gives me the details which
are as follows: ‘‘ The boy ran a little way after being bitten.
Two bottles of eau-de-luce were administered to him according
to directions. He suffered agony at first until mortification
started to set in. He died peacefully the evening of the day he
was bitten.”
IPECACUANHA, LiguoR PoTASs#&, CAUSTICS.
Ipecacuanha has long been considered an excellent remedy
for snake bite. It has been carefully tested and found to have
no antidotal value. It may possibly be of some slight service in
secondary treatment, owing to its stimulating effects upon the
liver, bowels, and kidneys. It, however, exerts a depressing
influence upon the heart, which causes a slowing down of the
circulation. When administered to animals into which snake
venom has been injected, it seems to hasten death somewhat.
Ipecacuanha is the dried root of Psychotria ipecacuanha.
The active principle is in the bark; the inner or woody part
contains but little. It is obtained from South America.
Liquor potassz is a solution of potash. This substance has
long been believed to have a curative influence in cases of snake
bite. It has in the past been very extensively used in India
and elsewhere. Applied to the incised wounds it was supposed
to destroy the vitality of the part, and kill the snake venom.
Dr. Fayrer tested liquor potasse as a curative agent against
the bites of Indian venomous snakes. After a long series of
332 THE SNAKES OF SOUTH AFRICA.
experiments he pronounced it to be of no value. In all cases
it did not retard a fatal issue in the least. Its effect is nil when
applied to the bitten parts of animals injected with the venom
of South African snakes. Even if applied within a minute of
the injection of venom it fails to exert any curative influence.
Carbolic acid is largely used in cases of snake bite. If applied
to the incised wounds immediately after the infliction of the bite
it helps slightly to prevent the absorption of the venom. Its
influence, however, is so small that it is, practically speaking,
valueless.
The actual burning of the scarified bitten part with a red-hot
iron, coal, or exploding gunpowder, destroys the venom in the
wounds, but unless done within five or ten minutes of the in-
fliction of the bite it is of no value at all. At best it is a dread-
fully drastic remedy. Dr. Fayrer in experiments with the venom
of the Indian Cobra found that the poison was so rapid in its
action that, although he thoroughly cauterized the wounds with
two white-hot needles plunged into the punctures within a second
of the infliction of the bite, and although he then quickly burned
the flesh with a hot iron and ligatured the limb, the animal died.
I have found the venom of the South African Cobras, notably
that of the Cape Cobra, to be equally swift and deadly under
similar circumstances.
Bluestone is another substance largely used, which is of no
value at all in the treatment of snake bite.
STRYCHNINE AND AMMONIA.
The bases of most proprietary cures for snake bites are
strychnine and ammonia. Neither of these substances is of
any value in neutralizing the poisonous properties of snake
venom. Ammonia is of no use whatsoever when taken in-
ternally, injected into a vein, or applied to the bite. It does not
delay death in the slightest. If mixed with venom it does not
destroy or neutralize its poisonous properties in any way. Ex-
periments have been carried out which conclusively prove that
this is so. Asa stimulant it is not to be recommended.
In cases of Colubrine snake bite (Cobras), strychnine in
medicinal doses administered internally or by injection under
the skin might possibly be of some little service as a nerve
QUININE, TANJORE PILLS, SNAKE’S GALL, ETC. 333
stimulant, although on experimentation with animals I found
it useless. The animals died as rapidly as when no treat-
ment had been administered. Strychnine is a dangerous sub-
stance in the hands of most people. It should never be used,
unless by or under the direction of a medical man or some one
else who thoroughly understands its use, and the exact dose.
Although Fontana nearly a hundred years ago showed that
ammonia was of no value in cases of snake bite, it continued to
be used extensively all over the snake-inhabited world, and is
still being relied upon. The reason is, that scientific discoveries,
as a general rule, are published only in scientific journals which
the generality of people never read, or if they did read them
they would, in all probability, not understand them, owing to
the technical terminology usually employed when writing about
simple facts.
QUININE, TANJORE PILLS, SNAKE’S GALL, VINEGAR, WATER.
Quinine, whether administered internally or applied to the
bitten part, is of no curative value, although it is largely em-
ployed in the treatment of snake bite.
A remedy commonly used in the East, mostly in India, and
known as the Tanjore Pill, has a great reputation as a snake bite
antidote. It is an arsenical preparation. Doctors Fayrer and
Brunton have shown that the belief in this famous cure is without
any foundation.
A popular remedy for snake bite among the colonists and
natives of South Africa is the contents of the gall of a venomous
snake of the species which inflicted the bite. It is firmly believed
that if a person is bitten, the snake killed and the contents
of its gall bladder swallowed, it is an infallible cure.
I have tried this gall remedy on animals, but it does not
retard death in the least. A snake was allowed to bite an animal.
It was then instantly killed, and half the contents of the gall
bladder injected under the skin of the victim, and the other half,
mixed with a little water, was forced into the animal’s stomach
by means of a rubber tube and syringe.
In other cases the bile was administered internally only.
The animals died as quickly as when no remedy had been given.
In other cases the blood of the snake which caused the bite
334 THE SNAKES OF SOUTH AFRICA.
was injected under the skin of the victim. This also was without
curative effect.
Vinegar is another popular remedy which has failed when
scientifically tested.
In Australia the natives have great faith in the water cure
for snake bite. They, or a great many of them, believe that if
the bitten part is immersed in cold water, or better still, if the
whole of the body be submerged for an hour or more, the venom
will be drawn out through the skin. This water cure is believed
in by numbers of Australian colonists. Cold water has no effect
in drawing any substance from the blood through the skin. The
application of hot water, on the contrary, would open the pores
and cause perspiration to issue forth. In this way it is possible
some of the venom might be drained out.
Momentary cold plunges, or dashing cold water over the
skin would have the effect of stimulating the nerves and in-
creasing the activity of the brain and other organs, but beyond
this, cold water can have no actual curative influence in cases
of snake bite.
DRIED SNAKE VENOM CURE.
A medical friend from Bechuanaland writes me as follows:
“Dried snake poison is used by Bushmen as an antidote for
snake bite, as they have implicit faith in its efficacy. I never
saw a case of its being used, but reliable European Kalahari
Desert hunters assured me that with a supply of this they feared
no snake bite; that they had repeatedly used it with the most
satisfactory results. It is rubbed into a scarified surface over
the site of the punctures inflicted by the snake.”
I have heard of this “‘ cure”? in many parts of South Africa.
A sample was sent me. It consisted of the pulverized poison
glands of a Puff Adder. When mixed with water a little was
injected into several animals. They all showed symptoms of
snake venom poisoning, although they eventually recovered,
owing to the small quantity of venom in the solution.
The venoms of all species of snakes, when dry, have exactly
the same poisonous properties as when fresh. In scores of my
experiments I have used the dried venom. Its effects are as
powerful as the venom just extracted from the snake. Even
ROOTS, BARK, AND HERBS. 335
after a great many years its poisonous properties seem in no way
diminished. To rub dry snake venom into a cut with the idea
that it will cure a case of snake bite, is simply idiotic. Such an
action would materially lessen the chances of recovery, for the
simple reason that an extra supply of venom was being intro-
duced into the blood. The venom of one species of snake has
absolutely no neutralizing effect upon that of another. If
several venoms are mixed and injected into an animal it dies
rapidly.
Colonists would be well advised to leave all native “ cures ’
severely alone. Some are harmless enough, but others are dis-
tinctly hurtful and -lessen the chances of recovery. There is
one thing quite certain. If you desire to make the recovery
of a person bitten by a snake impossible, then rub in plenty
of this famous dried venom “cure” in which thousands of
colonists and natives profoundly believe.
c ,
Roots, BARK, AND HERBS.
In all countries where venomous snakes abound the majority
of the popular remedies are preparations of roots, bark, or
herbs.
In the East Indies a plant is largely used in the treatment
of snake bite. It is known as the Mungoose Plant (Ophiorrhiza
mungos) of the order “‘ Rubiacee.”
In North America the following are in great demand—the
roots of Avistolochia reticulata, or Texas Snake Root, Lzatris
spicata and Eryngium acquaticum, known as the Button Snake
Root, also Eupatorium altissimum, or White Snake Root.
The active principles in these roots are substances which
stimulate the skin and kidneys (Diaphoretic and Diuretic).
The various preparations in South Africa, of vegetable origin,
are of no use at all as antidotes to snake venom. Tinctures and
decoctions prepared from them cause various constitutional dis-
turbances. The. main effects are stimulation of the kidneys,
skin, or bowels. If any one is desirous of producing the same
effects as these vegetable preparations which are usually sold
at a high price, he has only to go to a chemist’s shop and ask for
a medicine which increases the action of the skin or kidneys, or
bowels, and for sixpence he will obtain as much as he would
336 THE SNAKES OF SOUTH AFRICA.
otherwise pay Ios. for, with the additional advantage of getting
the stuff in concentrated form and the exact dose.
THE SNAKE BLOOD AND GALL CURE.
There is a widespread belief in South Africa that if the snake
which inflicted the bite can be killed, and its blood or gall obtained,
that either of these will prove antidotes to the venom. The
natives are strong believers in the snake gall cure. The contents
of the gall are swallowed. Usually the gall bladder, with its
contents is swallowed entire. It is regarded as a certain cure.
If a little of the blood of the snake which inflicted the bite, or
even of the same species, be swallowed, it is also reckoned to
be a sure cure. I have given animals the blood and gall, both
internally and rubbed it into the scarified sites of the fang
punctures, but in no case did it have any curative effect.
I have mixed the contents of a snake’s gall bladder with
three drops of its own venom, and injected it into a fowl. I
repeated this. In each case the fowl died. I did the same with
the blood. Drawing the venom from a Puff Adder I then killed
the reptile and collected an ounce of its blood in a wineglass.
To this I added six drops of the venom, taken from the same
snake, and mixed it thoroughly with the blood. The mixture
was allowed to stand for several minutes. It was equally divided,
and injected under the skin of the thighs of two fowls. The
fowls died as rapidly as if the pure venom had been injected.
SNAKE STONES.
Snake stones for the cure of snake bite have, for centuries,
been in great demand. They are regarded by millions of Indians
with awe and reverence. To them it is blasphemy to doubt the
efficacy of a Snake stone. Of all snake bite “‘ cures”’ the Snake
stone is regarded as the most effective. Its power of drawing
the poison out of the wound does not admit of a doubt. The
man who expresses disbelief in its wonderful powers is regarded
with contempt. Such is the belief which has fastened itself
upon millions of minds.
Professor Faraday examined a famous Indian Snake stone
and said: ‘‘ It is a piece of charred bone which has been filled
SNAKE STONES. DOF
with blood, perhaps several times, and then carefully charred
again.”
Doctor Davy examined several of these Snake stones, and
his opinion coincided with that of Professor Faraday. The
monks of Manilla manufacture and supply Snake stones to Indian
merchants, and the trade is very lucrative.
The stones vary in composition. Some are of charred bone,
or merely pieces of chalk, and others are made up of a composi-
tion of vegetable matter. They are all more or less absorbent.
I have not had an opportunity of testing these Snake stones,
but experiments are quite unnecessary, for the field has already
been covered by Doctors Fayrer, Brunton, Rogers, and other
scientific men. It has been conclusively demonstrated that the
application of Snake stones to the site of the bite of a really
venomous snake was of no antidotal value, even when the site
of the punctures was well scarified to allew of the stone adhering
firmly.
It is alleged that the stone, when applied to the site of the bite,
will draw out the venom. This would prove so to a certain
degree, if applied within a few minutes of being bitten, provided
the stones were powerfully absorbent, but they are not so. The
small quantity of blood which penetrates their substance has
little or no influence for good. The advocates of Snake stones
assert that it is not even necessary to scarify the flesh prior to
applying the stone. That the stone has the power of drawing
all the venom out through the two tiny punctures made in the
skin by the snakes’ fangs.
When a snake drives its fangs into the flesh it injects a
quantity of venom which spreads out and is rapidly sucked up
by the numerous absorbent vessels known as Lymphatics and
Capillaries, and hurried away to the heart. If fully bitten by
a large Cobra, enough venom is absorbed into the circulation
within one minute to cause death, unless 30 to 50 cubic centi-
metres of Anti-venine Serum are injected before paralysis of the
nerve centres takes place.
Nothing short of powerful suction with the mouth, a vacuum
tube, or pump, is sufficient to draw out the venom in sufficient
quantity to be of any practical value.
Snake stones being rather expensive, they are naturally in
the hands of the few, consequently if a man is bitten his friends
Z
338 THE SNAKES OF SOUTH AFRICA.
rush off with all speed for the nearest possessor of a Snake stone.
It is in these cases practically impossible for it to be applied
within five minutes or so, therefore even admitting it possessed
the virtues attributed to it, the venom would already have
entered the general circulation, and no amount of suction at the
site of the bite would draw it out again.
The belief in Snake stones, the application of the palpitating
flesh of fowls and pigeons to the site of the bite, and other
popular remedies are dangerous delusions.
When the Dutch first settled at the Cape and established a
Station there as a sort of half-way house in their East Indian
trade, which was conducted by the East Indian Netherland’s
Company, sometime about the year 1652, they brought a few
of these Snake stones from the Indies, principally Malabar.
Some of these stones are, to the present day, in the possession
of old Boer families, whose faith in their efficacy for the cure of
snake bite is unshakable.
SWALLOWING SNAKE VENOM.
It is a general belief amongst the natives, and a large section
of the colonists of South Africa, that, if snake venom is swallowed .
it will confer immunity to snake bite. In consequence the
pigmy Bushmen, Hottentots, and Kafirs, after killing a venomous
snake, cut out its venom glands and swallowed them.
I have met many colonists who were so sure of their immunity
that they offered to allow me to inject them with snake venom.
The offers certainly were tempting, but my conscience and the
law would not permit it.
At intervals during the past ten years or so I have fed various
species of animals, domestic and otherwise, on the venoms of
different kinds of South African snakes. When any of these
creatures were bitten by a snake or injected with its venom by
means of a hypodermic syringe, they died just as rapidly as
animals which had not been fed upon snake venom.
The following is one instance from a score in my note-book.
An adult Cape jackal, the size of a spaniel, was fed for six weeks
with Puff Adder venom. Every second day half a dozen Puff
Adders were forced to bite a lump of raw meat, which was imme-
diately afterwards given to the jackal. On three occasions the
SWALLOWING SNAKE VENOM. 339
Fic. 134.—This is a Jackal Buzzard (Buteo jakal). “ He is a great pest to the farmer because
he is so fond of chickens; but he also kills and devours snakes.
340 THE SNAKES OF SOUTH AFRICA.
venom from six Puff Adders, viz. forty drops, was collected in
a wineglass and mixed with raw meat. This the jackal at once
ate. Whenever a Puff Adder was killed its poison glands were
inserted into a bit of meat and given to the jackal. Puff Adders
were allowed to bite dead birds freely, until the flesh was reeking
with venom. These were fed to the jackal.
Then we decided to apply the test. Surely, we thought, if
swallowing venom will confer immunity, this jackal should be
absolutely proof, for it had during the six weeks swallowed
enough Puff Adder venom to kill a couple of hundred men.
A Puff Adder was held by the neck and allowed to bite the
jackal on the thigh: It bit twice, but only pecked. Refusing
to bite again, we procured another and forced it to bite the same
part of the leg, twice. We did not previously shave the hair,
and although in each case the reptiles punctured the flesh, we
noticed they shed a good deal of venom on the fur, and did not
bite eagerly. One, two, three, four days went by and the jackal
showed no outward symptoms of poisoning. It was as lively
as ever, and ate as usual. No swelling was apparent. “I told
you, Sir,” quoth my now jubilant assistant, “that the jackal
would prove to be immune.” “No, I am not at all satisfied,”
said I. ‘‘ There’s something wrong. Those snakes didn’t
inject enough venom. Come along, we will make sure this
time.” So we forthwith seized a big Puff Adder and levied toll
on his store of poison. Measuring out three drops, I mixed it
with about a teaspoonful of water and injected it by means of
a serum syringe, into the muscles of the unbitten thigh of the
jackal. A Puff Adder was allowed to give one quick bite, but
was not permitted to hang on or worry the flesh. In five
minutes’ time the jackal began to show symptoms of poisoning.
In slightly less than one hour it was dead.
Removing the skin from the thigh and cutting into the flesh,
it was found to be charged with extravasated blood from the
toes right up to the junction with the body. The whole flesh
of the limb was saturated with blood, which had oozed through
the walls of the blood vessels. The limb itself had swollen to
three times its normal size. Opening up the body I found that
blood had oozed out into the muscles covering the abdomen and
ribs, giving them a patchy blood-stained appearance. The
heart-muscles were also affected, small irregular red patches
SWALLOWING SNAKE VENOM. 341
covering them. The lungs were not visibly damaged. Re-
moving the skin from the thigh which the Puff Adders had bitten
without apparently producing any poisonous effects, I found the
muscles in the vicinity of the punctures to be very much dis-
coloured with blood, which had oozed into them. This dis-
colouration was traced up, and half-way along the muscles of
the ribs on one side. Growing fainter and fainter, it disappeared.
It was quite apparent that those Puff Adders had not succeeded
in injecting sufficient venom to cause serious symptoms. If the
jackal had not been dissected, the extravasated blood would
have been absorbed by degrees without any outward symptoms
being apparent. An examination of the jackal’s stomach and
intestines showed them to be perfectly normal. Evidently the
copious internal dosing with venom had not produced any ill- |
effects.
I keep a half-grown Chacma Baboon which, for the past four
months, I have fed at intervals with Cape Cobra venom. The
venom has, so far, produced no poisonous effects, although by
now it must have swallowed something like a quarter of an
ounce of venom.
This is contrary to the prevalent belief among scientific men
in regard to Cobra venom.
Many people think that experiments on animals are not
satisfactory. They seem to think that the human animal is
altogether different in his composition. This is by no means
so. The structure of a human being is exactly the same as that
of a warm-blooded lower animal (mammal). The mechanism
of his body works in the same way in all respects. Like the
various species of lower animals, man differs in shape, but that
does not alter the fact that he is physiologically the same as they
are. Man differs in a physical sense from all lower animals in
having a larger and more complex brain. He has evolved
faculties of the mind which none of the lower animals possess.
True, he has brain organs similar to theirs, but he has added
many more which make him what he is.
CHAPTER AE
SNAKE VENOM, ITS NATURE AND EFFECTS.
VENOMOUS SNAKES AND THEIR POISON.
THE three great sub-families of highly venomous snakes of
South Africa are the Sea Snakes (Hydvophiine) ; the Cobras,
Mambas, Coral Snakes, etc. (Elapine) ; and the Adders (Viperine).
The only Sea Snake which frequents the South African coasts
is the Black and Yellow species (Hydrus platurus) which sometimes
gets stranded among the rocks on the sea-shore, and is usually
mistaken for an eel. In South Africa south of the Zambesi
there are fourteen species or kinds of Cobra (Colubrine), and
eleven of the Adder (Viperine) family.
I. THE AGLYPHA.
There are three great classes or divisions of snakes, viz. those
which have solid teeth without any trace of grooving. These
snakes are all quite non-venomous. They are known as the
Aglypha, which means snakes with solid teeth.
II. THE OPISTHOGLYPHA.
The second division are what are termed Hind-fanged Snakes,
having one or more of the back teeth in the upper jaw more or
less grooved, and possessing poison glands in a more or less im-
perfect or rudimentary state. These snakes are regarded as
either non-venomous, or only venomous to a very slight degree.
They are known as the Opisthoglypha, which means having
the posterior or back maxillary teeth grooved.
III. THE PROTEROGLYPHA.
The third division are the typical highly venomous snakes,
having the grooved or hollow fangs set in the front of the upper
POISON APPARATUS. 343
jaw in the bone known as the anterior maxillary. All this class
are venomous. They are known as the Proteroglypha, which
means snakes with the anterior (front) maxillary teeth grooved
or hollow.
, RESULT OF INVESTIGATION.
Our well-known Boomslang or Tree Snake (Dispholidus typus)
is a member of the Opisthoglypha or Hind-fanged Snakes, which
is generally believed to be at most very slightly venomous—only
sufficiently so to enable it to paralyse its prey before deglutition.
The reasons for this belief are based on the fact of the snakes
of this class possessing imperfectly developed poison glands
which are not connected with the grooved teeth by well-defined
poison ducts, as is the case with the typical venomous snakes ;
hence they are considered to be in a more or less rudimentary
or transition stage.
The results of my experiments with the Boomslang, given in
detail in a former chapter, have, I think, conclusively shown
that one member at least of this class of so-called slightly venom-
ous snakes is as highly venomous as the Cape Cobra or Puff
Adder. It is reasonable, therefore, to assume a good many of
the others would, on investigation, be found to be equally
venomous. Therefore, until each individual of this large division
of snakes has been carefully experimented with, it would be unwise
to lead the public to infer they were either practically harmless
or only slightly venomous. In‘South Africa we have twenty-six
species of these Hind-fanged Snakes so far recorded.
PoIson APPARATUS.
The venom of snakes is secreted by a pair of glands lying on
each side of the skull beneath the skin, situated just under and
behind the eyes. The Night Adder (Causus rhombeatus) is an
exception to this rule. The venom glands are almond-shaped,
and are composed of great numbers of cells. . Within the glands
are cavities known as Alveoli. These are lined with short
columnar cells. In these cavities the venom is stored until
squeezed out by the contraction of the gland by certain muscles.
The glands are termed Racemose Glands because the cells are
344 THE SNAKES OF SOUTH AFRICA.
clustered together like a bunch of grapes—racemose meaning
‘arranged in grape-like clusters.’ These venom glands were
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THE DENTITION OF SNAKES.
Fic. 135.—The skull of a typical non-venomous snake (Boa) and that of a typical venomous snake '
(Crotalus) seen from the side and somewhat from above.
N—Nasal. Prj/—Prefrontal. Fr.—Frontal. Pf—Post frontal. Pa—Parietal. Pe—
Petrostral. Os—Supra-occipital. Sg—Squamosal. Q—Quadrate. H—Ear bone. Pt—
Pterygoid. Px—Pre-maxilla. My—Maxilla. Pal—Palatine. Tr—Transverse bone. 1—
2—3—Bones of lower jaw.
once upon a time ordinary salivary glands, and under that
mysterious law of God which we term Evolution, these harmless
POISON APPARATUS. 345
salivary glands underwent a gradual change, and the fluid they
secrete is now of a totally different character. In scientific
terminology they are “‘ the homologues of the parotid salivary
glands in other vertebrate creatures.”
We find the venom glands and fangs of snakes in various
stages of evolution. In the division known as the Aglypha, we
do not find any trace of grooved fangs or poison glands, The
teeth are all solid. In some of the species a few of the teeth are
fang-like, being longer than the rest, but these also are quite
solid. In the second division of snakes, which are known as
the Opisthoglypha, the fangs are in various stages of develop-
ment, and are situated half-way back in the upper jaw. There
are usually two or three fangs, which are grooved. However,
there are no well-defined poison glands with ducts, consequently
this division of Hind-fanged Snakes has been regarded as practi-
cally non-venomous. The Boomslang (Dispholidus typus) is a
member of this division of snakes.
In the third division, known as the Proteroglypha, we find
the fangs and poison glands in a high degree of development.
All of this class of snakes are known to be venomous to a greater
or lesser degree.
The fangs of the viper family are long and re-curved, and the
bone they are set in is very mobile and works like a hinge. This
provision of Nature is very necessary in order to elevate the
fangs to allow of their points striking the victim at a proper
angle. When the mouth closes, the fangs are automatically
drawn back, and lie along the sides of the upper jaw, enveloped
in a membranous sheath, known as the Vagina dentis.
The fangs of Cobras are small in comparison with those
of the Adders, and are incapable of much movement, such
not being necessary for their effective use. They are received
into a small cavity in the lower jaw when the mouth is
closed.
When the snake’s mouth is closed, the end of the poison
duct becomes disconnected with the hole in the top or base of
the fang, but the instant the mouth is opened to strike, the end
of this duct, by means of an intricate and delicate apparatus,
completes the connection with exactness.
The instant the fangs penetrate the flesh of the victim, the
snake closes his jaws over the bitten part and presses strongly,
346 THE SNAKES OF SOUTH AFRICA.
thus forcing the maximum amount of venom into the punctures.
Many snakes, such as the Puff Adder and Boomslang, hang on
and worry the flesh if allowed.
Inserted into the tough fibrous capsule of the poison glands
are some of the fibres of the Masseter muscles. The instant the
snake bites, these muscle fibres contract powerfully, and the
gland is wrung after the manner of twisting and wringing a wet
rag to remove its moisture. A comparatively large lymph-like
space surrounds the gland, and so permits of this wringing. The
Fic. 136.—The sheathed fangs of a Puff Adder. When lying back in this position they are
enveloped by a protecting membrane or sheath known as the Vagina dentis.
venom which is stored up in the numerous little cavities within
the glands is thus driven with considerable power into the
channels or conducting tubes which communicate with the
bases of the hollow or grooved fangs. It rushes down the grooved
or hollow fangs and issues out in two fine streams.
The bringing together of the end of the poison duct with the
hole at the base of the fang is completed with marvellous exact-
ness. By a wonderful arrangement of muscle-fibres, the harder
the snake presses his jaws when biting, the tighter does the
papilla at the end of the duct plug the hole in the fang. In fact,
POISON APPARATUS. 347
the hole at the base of the fang is actually corked, with the
difference that the papilla cork allows the venom to stream
through it into the grooved or hollow fang and then the other
or both simultaneously until removed. Unless the snake is able
to deliver a full bite and close its jaws firmly over the bitten
part, a full charge of venom is not delivered. It can thus be
clearly seen that recovery may take place without any antidotal
treatment after being imperfectly bitten by a snake whose full
bite is fatal. In this way faith is established in various worthless
so-called snake bite “ cures.”
However, it must be borne in mind that highly venomous
snakes such as Cobras, Mambas, amd Puff Adders, are able to
inject far more venom at a single full bite than is sufficient to
kill a man. An instance in point is given by Dr. Hanna. He
says, ‘‘ The gentleman, who was the writer’s co-worker in India,
was one day cleansing the mucus from the mouth of a Cobra,
which was being held by a snake charmer preparatory to ex-
pressing the poison, when he inadvertently pushed the top of
his thumb against the fang. He fancied that as the Cobra had
not bitten him he had not received any poison, although the
fang had penetrated deeply; he did no more therefore than
suck the wound. In about two hours he had weakness of the
limbs, drowsiness, vomiting, and was unable to feel in his thumb.
and first two fingers. The parts, swelled, and it was only after
considerable time he recovered by energetic treatment with anti-
venine serum. He ultimately lost the top of his thumb as a
result of necrosis and death of the tissues.”
Here we have an instance of a man who was wounded by only
one fang which could not have discharged much venom for there
was no pressure exerted by the snake, yet if the venom had not
been neutralized in time in the man’s blood by the injection of
liberal quantities of anti-venine serum, he would undoubtedly
have died.
Half a drop of Cobra venom is sufficient to kill a man unless
his vital resistance happens to be strong. One full drop is a
fatal dose to any one. In collecting venom for research pur-
poses I have drawn ten drops at a time from a six-foot Cape
Cobra. If this Cobra had bitten a man, and had been allowed
to retain its grip for a couple of seconds, it was capable of in-
jecting something like fifteen to twenty fatal doses into him.
348 THE SNAKES OF SOUTH AFRICA.
Three drops of Puff Adder venom is enough to cause such
extensive hemorrhage into the tissues of a man as to kill
him.
In a man whose blood is altered by habitual indulgence in
alcohol even in moderation, less than a drop would suffice to
kill him. In monkeys which have been given a fair quantity of
alcohol daily for a month, about a quarter of a drop of Puff
Adder venom is sufficient to kill them. They die of hemorrhage
and mortification. Often the site of the injection turns black.
This mortification of the tissues at the site of the entry of the
venom, spreads into the body and causes death.
DISCHARGING VENOM.
It is believed by most naturalists that the act of gaping the
jaws and erecting the fangs causes an automatic action of the
muscles controlling the poison glands forcing the venom out.
This is not so. The poison is not expelled every time the snake
gapes its jaws.
Puff Adders frequently yawn, gaping their jaws widely.
Sometimes both fangs are erected to their fullest extent. At
other times, the snake raises and depresses them in turn. This
is done carefully and deliberately, seemingly for the purpose of
exercise. The occasional raising of the fangs evidently gives
some measure of relief or satisfaction to the snake. It is rare
for Cobras to yawn, except after a meal. The Adders do it at
various times.
When artificially feeding Puff Adders, venom frequently
squirts from the fangs when the mouth is forced open and the
fangs erected. In these cases, the reptiles are naturally in a
state of irritation. This causes the constriction of the glands
the instant the fangs assume the erect posture. At these feeding
times I have collected as much as eleven drops of venom from a
single Puff Adder.
Care has to be exercised at feeding times to hold the snake’s
head in such a position that the fangs point away from the faces
of the operators. My assistant one day received a full charge
of venom over his mouth, moustache, and chin. Luckily, none
entered his eyes, else there would have been trouble.
349
DISCHARGING VENOM.
The venom, on these occasions, is sometimes discharged a
distance of five feet.
One day, a rat was introduced into a cage
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Two were lying sleeping on the
containing several Puff Adders.
top of an old tree stump. The rat, in springing upon the stump,
350 THE. SNAKES OF SOUTH APRICA:
suddenly disturbed their slumbers, whereupon both simul-
taneously struck fiercely at the intruder. Both missed their
aim, and four streams of venom struck one of the plate glass
sides of the cage and ran down the glass. The venom, when
ejected, is watery, more so than that of the Cobra.
In the process of collecting venom by forcing a snake to bite
over the rubber-covered rim of a watch-glass or wine-glass, the
fangs are often erected and remain so, but no venom flows until
the glands are compressed with the fingers.
It was amply demonstrated in this manner that the erection
of the fangs did not cause an automatic constriction of the
masseter muscle fibres. To eject a full charge of venom, the
snake is obliged to grip and compress its head strongly. The jaws
of Puff Adders may be extended to their fullest extent yet
the fangs are not elevated unless the reptile so desires. I have
frequently distended the jaws of Puff Adders and watched them
elevate and depress their fangs. The anterior maxillary bones
to which the fangs are attached are worked independently of any
other parts of the mechanism of the jaws.
Taking twelve Puff Adders, I made each in turn bite over the
thick rim of an ice-cream glass. The instant the rim of the
glass touched the snake’s nose it bit fiercely, both fangs darting
up at the proper striking angle, and then descending with great
violence against the inner side of the glass. Each snake was
made to bite three or four times. The fangs in each instance
would strike the glass and slip upwards towards the rim. Not
even the fraction of a drop of venom was shed by five of the
snakes. One yielded about three drops, and the rest a very
small quantity. From the twelve snakes, I collected seven
drops of venom. I tried this experiment several times and found
that, although the snake bit the side of the glass freely, either no
venom, or only a very small quantity was shed. On the con-
trary, when I covered the top of the ice-cream glass with a
rather thick piece of sheet rubber, these same Puff Adders in
biting through it, shed an average of three to five drops and even
ten drops each, into the glass.
In the former experiments, I was careful to examine the
reptiles’ mouths to see if venom by any chance had been shed
within the mouth, but, with one or two exceptions, there was
not a trace of venom to be seen.
DISCHARGING VENOM. 381
This, I think, clearly demonstrates that, although a snake
may bite with both fangs, yet it does not follow that venom will
be ejected. I have found that if the snake is allowed to bite
He grips as
He has just driven his fangs home in the thigh of a dead fowl.
tenaciously as a bulldog.
138.—This is how a Puff Adder bites.
Fic.
352 THE SNAKES OF SOUTH AFRICA.
through some soft substance like sheet rubber loosely stretched
over the mouth of a wine-glass, a limited amount of venom is
shed, but that if the same snake is allowed to bite into the leg
of a dead fowl or a lump of meat, and provided the reptile is
allowed to grip like a dog and compress its jaws strongly, from
two to six times the amount of venom is discharged, compared
with the amount usually obtained by allowing the snake to bite
through rubber or thin glazed cloth stretched over a glass.
If a man be hungry and you give him a piece of dry cork or
wood to bite or chew, little if any salivary fluid will flow into his
mouth ; but if you give that same man a morsel of appetizing
food to bite or chew, an abundance of saliva will flow, and the
salivary glands will receive a powerful stimulus, and will instantly
exert themselves to manufacture more saliva. So it is, in a
sense, with venomous snakes. By the same pyschological in-
fluence their venom glands, and the nerves which work them,
are roused into intense activity when the snake, with malice
intent, deliberately bites the flesh of an enemy or some substance
which deceives him into that belief or which tends to impart the
same feeling.
Now and then when a snake lunges and misses his aim, the
entire contents of the venom glands are shed, but in these cases
the reptile has been wrought up to the highest pitch of excite-
ment, and in the act of lunging the glands are compressed violently,
there being no time to counteract the impulse imparted, as is
the case with a man who aims a blow with his fist at some object
which dodges just at the critical instant. The man is unable
to counteract the command sent to the muscles of his arm to
deliver a blow.
When a snake is dead, the venom oozes from the fangs on
the slightest pressure on the glands, and can be easily collected
by elevating the fangs and compressing the venom glands.
NATURE OF SNAKE VENOM.
Cobra venom is a slightly acid fluid of about the same con-
sistency as glycerine, and is very similar in appearance. Viperine
venom is more watery than glycerine. However, on exposure
to the air and light, it changes to a light straw-yellow colour.
When exposed to the atmosphere it quickly dries and cracks
/f6
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Fic. 139.—A. Section of a Viperine Fang. 1. Canal through which the venomruns. 2. The
central pulp of the tooth. B. Section of a Colubrine Fang. 1. Groove down which the
venom runs. 2. Central pulp of the tooth. C. Fang of a Viperine Snake. 1. Hole
through which the venom enters the canal. The end of the duct from the poison gland is
connected with this hole. 2. The outlet of the hole near the end of the fang through
which the venom escapes. The outlet is oblique, and is not at the extreme tip of the fang.
3. The direction of the canal through the tooth. 1a. Skull of a Viperine Snake, showing
the position of the bones, muscles, and fang when the mouth is closed. rb. A diagram
showing principle how the fang is worked. In this figure the fang is depressed to
represent the mouth closing. 11a and rrb, Position of the apparatus when the mouth
is opened widely ; the spheno-pterygoid muscle (Pe) is contracted: the Pterygoid (Pt)
is pulled forwards, the transverse bone or Ectopterygoid (Tr) pushes the Maxillary (M)
rotates it, and thereby causes the Poison Fang (J) to assume an erect position. (Di)
Digastric Muscle, contraction of which lowers, or opens the lower jaw. (J) Poison Fang,
(M) Maxillary, (P) Palatine, (Pe) Spheno-pterygoid Muscle, (Pm) Pre-maxillary, (Pt)
Pterygoid, (Q) Quadrate, (Sq) Squamosal, (Ta) Insertion of the anterior temporal muscle,
by contraction of which the mouth is shut. D. The whole poison apparatus of a Viperine
Snake. 1, Articular-maxillary ligament. 2, 3, and 4. Temporal Muscles. 5 and 6,
Constrictor Muscles of Poison Gland. 7. Duct. 8. Outlet of Duct. This is the point
where the venom enters the canal in the fang. 9. Maxillary Bone. ro. The canal
through the fang. No. 5 and 6 are the Constrictor Muscles which wring the poison gland,
and cause its contents to run along the duct into the hollow fang. The mechanism of
Colubrine snakes is the same, excepting that their fangs are usually grooved, instead of
being hollow.
2A
CC
354 THE SNAKES OF SOUTH AFRICA.
like gum, but does not crystallize. The acid, being of a volatile
nature, disappears, leaving the dry venom neutral. Venom
either dry or fluid will retain its toxic or poisonous properties
a great number of years. Dried venom will readily dissolve
in warm water. When kept in solution in water, snake venom
decomposes and loses its poisonous properties in a month or two.
On the other hand, if venom be mixed with glycerine it will
keep indefinitely. Dr. Weir Mitchell kept venom for thirty-two
years, and Dr. J. C. Martin for thirteen years without it losing
any of its poisonous properties. I have also found that after the
lapse of years its effect is just as potent upon animals as when
injected fresh. Snake venom is an albuminous substance of the
nature of the raw albuminous or “ white’’ part of an egg. All
attempts to fully isolate or separate the toxic or poisonous
qualities have so far failed. It is thought that the active
principle is caused by a special arrangement or grouping of the
atoms of the albuminous fluid, forming a solution of poisonous
proteids. Snake venoms are very complex and varied in their
action. The composition, nature, and effects of venoms differ
considerably. Pure Puff Adder venom, if allowed to stand in a
glass tube, deposits a white flocculent mass. The rest of the
venom becomes light amber in colour and sets to the consistency
of jelly a few hours after being drawn from the snake. If mixed
with water and stirred, the white precipitate is dissolved. Cobra
venom remains in a transparent condition.
Dr. C. J. Martin, Director of the Lister Bacteriological Insti-
tute of London, says:—‘‘ The analysis of the physiological
action of venoms has proved them to be made up of a great
many more constituents than would be imagined from their
chemical examination. Different venoms have been found to
contain one or more of the following: (1) A powerful fibrin-
ferment ; (2) an anti-fibrin ferment ; (3) A proteolytic ferment ;
(4) various cytolysins capable of acting upon red blood corpuscles,
phagosytes, endothelial cells of blood vessels, nerve cells, and
the cells of various other tissues. In addition to the above,
various other more remote pathological conditions are induced.”
The various venoms being so different in their combination
or “‘ make up,” it naturally follows that the venoms of various
kinds of snakes would induce symptoms more or less dissimilar.
This is the reason the serum from an animal immunized to the
NATURE OF SNAKE VENOM. 355
venom of only one species of snake fails to act as a sufficiently
satisfactory antidote in all forms of snake bite.
The difference in the constituents of venom is so great that
the venom of each species of snake differs in its action, even with
those belonging to the same genus. For instance, the serum of
an animal rendered immune to the bite of a Cape Cobra (Nava
flava) proved on experimentation to be an antidote to the bite
of this particular species of snake, but only had a partial antidotal
effect upon the venom of another species of Cobra, nearly double
the dose being necessary to neutralize the venom injected.
Tested on animals bitten by Puff Adders, or injected with fatal
doses of their venom, this serum had very little curative power.
The poisonous substances in snake venom may be separated
into three main parts.
(1) NEUROTOXINS, or nerve poisons. These combine with the
nerve cells and paralyse them. Neurotoxins are present in all
venoms, but are most potent in the poison of the Cobra.
The nerve poisons, of some species of snakes, will cause
paralysis of the nerve centres controlling the breathing, resulting
in collapse of the lungs. Each variety of nerve poison acts with
greater or lesser power upon the various groups of nerve centres,
according to its nature. The nerve poison in one species of
snake will cause complete paralysis of a certain set of nerve
centres, while the nerve poison of another kind of venom will
have little or no poisonous effect upon that particular nerve
centre, but will concentrate its benumbing power on‘a group of
nerve cells which the former venom has either not affected at
all, or only to a slight degree.
In severe cases of Cobra poisoning, a certain amount of
structural change takes place in the nerve cells, numbers of them
being broken up and destroyed. However, death is not usually
caused by wholesale destruction of nerve cells, but by the para-
lyzing action of the neurotoxin upon the cells. This neurotoxin
is strong in Cobra venom.
(2) H@&MORRHAGINS, or blood poison. This portion of the
venom acts upon the endothelial cells, phagogytes, and red
corpuscles of the blood. The endothelial cells are the cells of
a membrane which lines the inside walls of blood vessels. The
cells are thin and flat. The venom alters their shape, changes
and expands their structure sufficiently to allow the altered
356 THE SNAKES OF SOUTH AFRICA.
blood to escape through the walls of the blood vessels into the
surrounding tissues. The phagosytes are the white corpuscles
of the blood. They are altered, damaged, and often more or less
dissolved by the action of the hemorrhagin principle in snake
venom. The chief action, however, is upon the red corpuscles
of the blood. The hemorrhagin attacks these corpuscles, dis-
solving out their colouring matter and rendering them spherical
and sticky. This dissolved colouring matter then escapes
through the expanded walls of the blood vessels and finds its
way into the tissues, spreading out under the skin and causing
purple blotches more or less extensive. This escape of blood
into the tissues is greatest near the various small arteries which
branch off and terminate in a fine network of capillaries. The
reason is that, at these points, the pressure of blood upon the
capillaries is greatest.
The broken-up blood also oozes out through the mucous or
lining membranes of the mouth, nose, lungs, stomach, bowels,
and bladder. This blood-destroying poison predominates in
Adder venom. Recent experiments, however, tend to show that
the venom of the Puff Adder acts chiefly if not entirely on the
endothelial cells, and not on the blood corpuscles.
(3) FIBRIN-FERMENTS. These cause the fibrin of the blood
to solidify, which produces clotting. These fibrin ferments are
usually strongest in Viper venoms, although they are present in
lesser or greater degree in the poisons of all snakes.
When human subjects are bitten by Vipers (Adders) this
fibrin-ferment does not cause coagulation of the blood, unless
injected in an unusually large quantity, or direct into a vein
(intravenously). In the latter cases, coagulation of the blood and
death may occur at any instant. When injected direct into a
vein even in small quantity death occurs within a few moments.
However, when the small animals on which snakes feed, such
as rats, mice, or birds, are bitten by Adders, the fibrin-ferment
in the venom almost instantly coagulates their blood, causing
rapid death. This is due to the relatively large dose of venom
injected. In the case of man or the larger mammals, sufficient
of the fibrin-ferment principle in the venom does not usually
enter the blood all at once to cause clotting, as is usual with small
creatures. In the case of Cobras, the neurotoxin or nerve poison
is the principal factor in causing the rapid death of their prey.
NATURE OF SNAKE VENOM. 357
The majority of snake venoms contain all three of the above-
The rat
It drove its fangs home, paused for an instant and withdrew.
tottered a few feet and died.
140.—A male Puff Adder in the act of biting a rat.
Fic.
mentioned poisons. In each species of snake they are not only
different more or less in their physiological action, but they are
358 THE SNAKES OF SOUTH AFRICA.
in varying proportions, hence the reason of the differences in
the effects on the human body and the symptoms arising from
those effects.
The nerve poison (neurotoxin) can be separated from the
blood poison (hemorrhagin) of Cobra venom, by adding lecithin
dissolved in chloroform, with a solution of venom, and shaking
vigorously. The blood-poison combines with the lecithin to
form an active lecithide which dissolves in the chloroform and
can be afterwards precipitated by ether.
The neurotoxin or nerve-poisoning principle of the venom
remains in the liquid solution. The part which has been precipi-
tated, if injected into animals, destroys the red corpuscles of
their blood, inducing hemorrhage into the tissues. Its action is
very rapid, especially when a concentrated solution is used, being
then much more active than before separation from the neuro-
toxin.
Weight for weight, the venoms of the different species of
snakes vary considerably. The venoms of the Mamba, Cape
Cobra, and Boomslang have as powerful poisoning effect as
three times the weight or bulk of Puff Adder, Berg Adder, or
Night Adder venom.
The poisonous effects of all venoms vary according to the
size and vital resistance of the victim. For instance, a cat is of
about the same weight, or even less, than a large fowl or rabbit,
yet its power of resistance to the poisonous action of venom is
considerably greater. A Boomslang was forced to bite the
bared thigh of a domestic cat of adult size, and was permitted to
retain its grip for half a minute. The cat gradually developed
symptoms of poisoning and died in thirty hours. Large cock
fowls and rabbits bitten by the same snake died within fifteen
minutes. An interesting feature of these cases was the different
symptoms. The cat was strongly acted upon by the blood-
poisoning principle of the venom, for the wound oozed blood
all the time, and the mucous surfaces discharged blood ; and after
death, extravasated blood was found in various tissues. On
the contrary, no such symptoms were apparent in the fowls
and rabbits. The neurotoxin or nerve-poisoning principle in
the venom caused almost instant paralysis of the motor nerve
centres. After death, little or no alteration to the blood could
be detected.
EFFECTS OF SNAKE VENOM. 359
It must, however, not be inferred that the cat is as strongly
immune to all venoms, for cats bitten by Cape Cobras died in
fifteen to twenty minutes.
Snakes kept in captivity, unless under strictly natural con-
ditions out-of-doors, and in their native country, do not thrive,
and their venom becomes less in quantity although not usually
poorer in quality. I have noticed that snakes which have been
subjected to different climatic conditions to those of their native
habitat deteriorate the most. In fact, they invariably refuse all
food and die in a short time. Some species of snakes are so
susceptible to a sudden change of environment that they perish
in a month or so, although the temperature of the air be main-
tained at that of their native haunts.
EFFECTS OF SNAKE YENOM.
According to Fraser, about 30 mgrms. (about half a drop) of
Indian Cobra venom is sufficient to killa man. This means that
a full-sized Cobra would be able to eject enough venom at a
single full and complete bite to kill about twenty men.
Dr. Hanna and others state that the Indian Cobra yields as
much as twenty drops of venom. Dr. Hanna mentions having
obtained as much as twenty-eight drops. :
In experiments with the venom of the Cape Cobra I found
that one drop diluted in a little water and injected into the
tissues of the leg of a large monkey killed it in half an hour’s
time. A fraction of a drop was sufficient to kill a rat and
a fowl within half an hour. One drop was sufficient to kill
adult Chacma Baboons within three hours. Judging from the
effects of Cobra venom on the higher animals such as monkeys,
I consider that one full drop is a fatal dose for a strong
healthy man. This fact makes the treatment of snake bite a
most complicated one. It will clearly be seen that if a Cobra or
Mamba should succeed in delivering a full bite, many times a
fatal dose is likely to be injected; therefore, in spite of prompt
applications of permanganate of potash, ligatures and _ the
injection of serum, the victim might die. The only hope in
these cases is the copious intravenous injection of anti-venine
serum.
Cobras and Mambas are far more to be dreaded than Vipers
360 THE SNAKES OF SOUTH AFRICA.
because their venom acts so rapidly on the nerve centres, often
causing death or reducing the person bitten to a condition im-
possible of recovery before there is time to apply any remedial
measures.
However, the venoms of all snakes of the Colubrine family do
not act in this rapid way upon the nerve-centres in the brain
and medulla. The venoms of many act primarily on the blood
and secondarily on the nerve centres, as for instance in the case
of the Boomslang, which is a member of the Colubrine family,
although in classification it is placed in a sub-family with other
back-fanged snakes.
When a dose of viper venom is injected into a vein, even if
the quantity be small, death rapidly results from clotting of the
blood, chiefly in the pulmonary arteries. In animals, if a small
fraction of a drop is injected direct into a vein, death quickly
follows from clotting of the blood caused by a poisonous principle
in the venom known as Fibrin-ferment.
In these cases no remedial measures are of any avail.
The venoms of the different species of snakes differ con-
siderably in the blending of the nerve poisons (neurotoxins),
blood poisons (hemorrhagins), and blood-clotting poison (Fibrin-
ferment). This being so, the symptoms vary more or less
widely. The venoms of two different species of snakes which
apparently produce the same outward physiological effects are
found, when examined, to be more or less dissimilar in their
composition. However, when the victims are subjected to
post-mortem it will be discovered that the venom of one snake
has produced internal effects considerably different from the other.
The venoms of the Colubrine (Cobra) family of snakes and
the Viperine (Adder) family differ most widely in their nature
and effects. Generally speaking, we can say that the venom
of the typical Cobra family of snakes acts rapidly and chiefly on
the nerve-centres, causing rapid paralysis and death ; while the
venom of the Adders, although causing severe nerve depression,
exerts a powerful poisonous influence on the blood and walls of
blood vessels.
Snake venom, when mixed with ammonium sulphate or
absolute alcohol causes the poisonous substances (proteids) to
be separated. These fall to the bottom but retain all their
original poisonous properties.
EFFECTS OF SNAKE VENOM. 361
The solution (filtrate) is not poisonous. The poisonous
principles of the venom which have been precipitated, if injected
under the skin of an animal, will cause death just as rapidly as
if the pure unaltered venom had been injected. It will thus be
seen that alcohol, even if it were possible to drink it in the
absolute or pure form, would not destroy the venom in the
slightest.
Fic. 141.—1. Unsheathed Poison Fangs of a Puff Adder in act of striking. 2. Erected fangs
of a Puff Adder covered with the membraneous sheath (Vagina dentis) which protects
them from injury. When the mouth is closed the fangs lie within these sheaths along
the jaw. 3. The dissected head of a Puff Adder showing the erect fangs, the poison
bag or gland, and the channel along which the venom runs to the hollow tooth. The
black patch under the eye is the poison gland. 4. Fangs of a Cape Cobra. Note how
small they are in comparison with those of the Puff Adder. 5. Cape Cobra’s head, back
view. 6. Dissected head of a Boomslang, showing the poison fangs and gland. Note
how far back in the jaw they are. The black spot at the back of the fangs is the gland.
There is no duct or channel leading from it. The venom oozes into a sheath at the
base of the grooved fangs. 7. The bifid or forked tongue of a snake. Snakes do not
sting with their tongues.
The venoms of all snakes are rendered harmless after boiling
several hours. Adder poison is destroyed more or less after a
few minutes’ boiling, but Cobra venom resists the action of heat
much longer. When boiled in solution with water, or raised to
a temperature of 70° to 80° C., snake venom throws down a
white flocculent precipitate. After the removal of this sediment
362 THE SSNAKES (OF SOUTH OAPRICA.
the solution is found in the case of Cobra venom to be quite
or almost as deadly as before boiling. Several hours’ boiling,
however, entirely destroys the poisonous properties of Cobra
venom.
It will thus be seen how very sensitive the venoms of Adders
are to heat when in solution, and how strongly Cobra venom,
under similar conditions, resists heat.
Venom, in a dry condition, may be heated to 100° C. or a
little over without any alteration in its poisonous properties.
If a blood vessel be punctured and the venom enters the
circulation direct, the effect is practically instantaneous, and
death occurs within a few moments. I found when the venoms
of the Boomslang and the Cape Cobra were injected direct into
the veins of animals, they were stricken with death as swiftly as
if shot through the brain. In one instance death occurred while
the dose was being injected.
However, in cases of snake bite, the venom is usually deposited
in the muscular tissues and is absorbed by the small capillary
blood vessels and lymphatics adjacent to the bitten part, and
finds its way into the general circulation at a much slower rate.
The symptoms of snake bite vary according to the quantity
of venom absorbed, and its nature.
Dr. C. J. Martin states that “‘ Feeding an animal with snake
poisons, even when the diet contains daily one hundred times
the fatal dose, does not produce any symptoms of poisoning,
provided there be no abrasion of the mucous membranes.”
For several years I have at intervals experimented in this
manner, administering fifty times a fatal dose of venom daily for
several days, without any apparent bad effect. I have fed rats,
fowls, cats, dogs, jackals, mungooses and monkeys on the venoms
of South African snakes without any symptoms of poisoning
ensuing.
It is a common practice of the Kafirs and Hottentots to
swallow snake venom under the mistaken belief that it renders
them immune to snake bite.
The South African Bushmen poisoned their arrow heads with
snake venom for the purpose of killing animals for food. They
were in the habit of eating the animals killed in this way without
previously draining out any of the blood, and only partially
cooking the flesh, often eating it practically raw. All they did
EFFECTS OF SNAKE VENOM. 363
was to cut out and throw away the discoloured flesh around the
site of the poisoned arrow wound.
The blood of an animal which has died of snake bite will kill
if introduced into the blood of another. Dr. Fayrer transmitted
the venom through three animals with fatal results. That is,
he injected venom into one animal. Then he inoculated the
second animal with the blood of the first. When this second
animal was dying he took some of its blood and injected it into a
third animal. All three died.
The venom of a snake can be absorbed into the blood through
the delicate membranes of the eye and cause death, as in ordinary
snake bite. There is danger of this happening with the Ringhals
or Spitting Snake. If death does not occur, serious damage to
the eyes or permanent blindness might ensue.
Venom acts on cold-blooded animals, viz. reptiles, but not
so rapidly as is the case with warm-klooded creatures. Birds
and small animals usually die within a few minutes of being
bitten by a very venomous snake.
Dr. Fayrer says the venom of adult deadly snakes does not
affect each other. This is only sometimes so, not by any means
always. Experiments in proof of this are detailed elsewhere in
this book.
On several occasions I have removed the poison glands from
dead Cobras and Puff Adders after the bodies had become
slightly stale, sufficiently so to give off a disagreeable odour.
The venom was squeezed out of the glands and injected into
fowls under the skin of the thigh and wing. No poisonous
symptoms followed. I concluded from these experiments that
after the death of a snake the venom rapidly deteriorates and
entirely loses its toxic properties when decomposition of the flesh
of the reptile begins.
Dr. Giinther says: “‘ The degree of danger depends but
little on the species of snake which has inflicted the wound, but
rather on the bulk of the individual, on the quantity of its poison,
on the temperature and on the place of the wound.”
On the contrary, there is a considerable difference in the
poisonous properties of the venoms of the different species of
snakes. The venom of a Cape Cobra or Mamba, for instance, is
swift and sure. That of the Puff Adder is slow in comparison.
In toxic power, one drop of the venom of the Cape Cobra, Mamba,
364 THE SNAKES OF SOUTH AFRICA.
and Boomslang is equal to two or three drops of Puff Adder
venom. Fayrer, Brunton and several others claim that Cobra
venom is as poisonous in its action when swallowed as when
injected under the skin.
I have experimented upon a variety of animals, including
Chacma Baboons, by introducing the venoms of the various
South African snakes into their food. In no case were they
affected in the slightest degree. The venoms of all the typically
poisonous snakes were used. The Cape Cobra and the Puff
Adder, being typical representatives of the Colubrine and Viperine
families of snakes, their venoms were selected chiefly for these
experiments. Thirty drops of freshly-drawn Cobra venom
introduced into about an ounce of food was given on several
occasions without any poisonous symptoms supervening.
If venom taken into the stomachs of such highly evolved
animals as Baboons produces no poisonous effects, it is fairly
safe to assume that it would act similarly in the healthy human
organism. In fact, this has been sufficiently demonstrated by
the fact that the Bushmen of the past ate the venom-poisoned
flesh of animals.
An Australian scientist, in a recent article on the Snakes of
Australia, declares positively that the venom of the Colubrine
(Cobra) family of snakes is rendered harmless by the gastric
juices when swallowed, but that Viperine (Adder) venoms, on
the contrary, are not so destroyed. Gadow states that, with the
exception of Cobra (Colubrine) venom, all venoms are not ab-
sorbed by the mouth or alimentary canal, unless there be
abrasions.
On the contrary, Drs. C. J. Martin, G. Lamb, and Weir
Mitchell, all of whom are recognized authorities on snake venom,
declare that all venoms are destroyed by the gastric and pan-
creatic juices. Some are acted upon by the gastric juices ;
others, which these juices have no power to neutralize, are
rendered harmless by the pancreatic fluids.
VENOM Is DIGESTED.
Snake venom when swallowed is completely digested by the
digestive juices. It has been frequently demonstrated that the
secretion of the Pancreas, known as the pancreatic juice, which
VENOM IS DIGESTED. 305
pours into the Duodenum during the process of digestion, com-
pletely destroys snake venom. This pancreatic juice, when
taken from an animal and mixed with snake poison, will com-
pletely destroy its toxic or poisonous properties if heated to the
normal temperature of the body. In fact, the venom is digested
and chemically changed. Careful analysis of the excreta of
animals fed with snake poison has failed to show any trace of
venom, therefore it must have been destroyed by the digestive
juices, or else absorbed into the blood unchanged, in which case
it would have set up characteristic symptoms of snake venom
poisoning.
It is, however, unsafe for human beings to swallow venom,
as the digestive organs of the majority in civilized communities
are in anything but a healthy state, and it is quite possible a
state of catarrh of the inner walls of the stomach or intestines
may exist. Then, again, if the digestrve organs be weak, the
gastric and pancreatic juices may not be sufficiently abundant
or concentrated to digest the venom, which would pass down
into the intestines, and may possibly get absorbed into the blood.
If the stomach be ulcerated or otherwise inflamed, snake
venom is capable of finding its way into the blood through these
inflamed surfaces. In this case it will have the same effect as
if injected direct into the blood.
In most cases of serious illness the digestive apparatus is
rendered torpid to a greater or lesser degree. This means that
the Liver, Pancreas, and gastric glands secrete little or no di-
gestive fluid; consequently, if venom is swallowed at such a
time, it is either only partially neutralized, or not acted upon
at all. If it should pass the stomach and enter the small
intestines without being previously digested by these glandular
secretions, especially the pancreatic juice, it will probably be
sucked up by the tiny mouths known as Villi, millions of which
line the intestine walls. In due time it will find its way into
the blood and cause poisonous symptoms, the same as if it
had been absorbed in the ordinary way in cases of snake bite.
This can be demonstrated by introducing snake venom direct
into the small intestines of animals, when in an empty condition.
Cobra venom in this way is absorbed and acts more rapidly than
Adder venom.
C. J. Martin mentions that paralysis of the lungs can be
366 THE SNAKES OF SOUTH AFRICA.
rapidly induced in animals by introducing a few drops of Cobra
venom into the fourth ventricle of the brain.
Two DIsTINcT CLASSES OF VENOM.
Although there is a difference in the action of the venom of
each species of snake, we find there is a general similarity in the
symptoms produced by the venoms of all snakes.
The greatest difference is with the two families of venomous
snakes, viz., the Colubrines and Viperines. The Colubrine snakes
include our well-known Cobra, Ringhals and Mamba. The
Viperines include all the Adders. These two families comprise
all the very venomous South African snakes, with the exception
of the Boomslang, which has only recently been shown to be a
highly-venomous snake and which is classed in a sub-family of
Colubrines. There is a marked difference in the symptoms pro-
duced by Colubrine venom and Viperine venom.
ACTION OF COLUBRINE VENOM.
Colubrine (Cobra family) venom acts directly and speedily
upon the nervous system. Viperine venom is slower, and
operates both upon the nervous system and blood. If a fatal
dose of Cobra venom be injected direct into a vein, it is speedily
carried to the heart, instantly stopping the action of that organ,
and causing death in a few moments. A dose injected into a
vein in the thigh of a dog caused instant death. This effect,
however, is only produced when the venom is injected direct into
the veins. When Cobra venom is injected into the tissues, as
invariably happens in ordinary cases of snake bite, the poison is
absorbed less rapidly, and instead of stopping the heart’s action:
it has a contrary effect, stimulating it into increased activity.
The venom acts directly upon the nervous system, causing
gradual cerebro-spinal paralysis. Ifa fatal dose has been intro-
duced and absorbed into the blood, the nerves controlling the
automatic action of the lungs are paralyzed, and breathing
ceases, although the heart is unaffected and continues beating
for some minutes, which clearly shows its vasomotor nerve
centres are unaffected by the venom. The lungs having ceased
SYMPTOMS OF COBRA VENOM. 367
to act, the blood quickly becomes charged with carbonic acid,
due to the accumulation of the waste products of the body.
This vitiated blood quickly stops the beating of the heart, and
extinguishes life. The object of breathing is to inhale air, the
oxygen in which combines with the blood, burning up and con-
verting the impurities contained therein, giving off in the process
carbonic acid gas, which is breathed out. The importance of
this blood-purifying process is so great that if the lungs cease to
act, death or a trance-like condition ensues within a few minutes.
Now, in the treatment of a patient bitten by a Cobra, Ringhals
or Mamba, be very vigilant. If the breathing should suddenly
cease, instantly resort to artificial breathing and keep it up until
the patient breathes of his own accord. If necessary, continue
this artificial breathing process for a couple of hours. In dealing
with the treatment of snake bite later on, artificial respiration
methods will be more fully explained. °
SYMPTOMS OF COBRA VENOM.
The special principle known as neurotoxin or nerve poison
seems to be particularly strong and active in Cobra venom.
This neurotoxin causes structural changes and paralysis of
various groups of nerve cells in the spinal cord and medulla.
However, when death ensues within four or five hours after the
injection of the venom, no changes in the nerve cells take place,
death being due to rapid paralysis of the main nerve centres.
Cobra venom also acts upon the blood cells, but its principal and
most dangerous action is on the nervous system.
The general symptoms of Cobra poison are according to
Dr. C. J. Martin more or less as follows :—‘‘ Burning pain at seat
of wound, followed by sleepiness and weakness in the legs after
half an hour. Then profuse salivation, paralysis of the tongue
and larynx and an inability to speak. Vomiting, incapability
of movement. The patient seems to be conscious, but is unable
to express himself. The breathing becomes difficult. The
heart’s action is quickened. The pupil remains contracted and
reacts to light. At length breathing ceases, with or without
convulsions, and the heart slowly stops. Should the patient
survive, he returns rapidly to complete health.”
368 THE SNAKES OF SOUTH AFRICA.
Cobra venom contains an anti-fibrin ferment, and prevents
the coagulation of the blood. This is not, however, by any
means the case with all Colubrine snakes.
Cobra venom, when diluted one in ten million with water, is
a heart stimulant if injected under the skin or into a vein.
VIPERINE VENOM.
The venom of Viperine snakes, of which our Puff Adder,
Horned Adder, and Berg Adder are examples, differs considerably
in its physiological action from that of the Cobra (Colubrine)
family. The neurotoxins or nerve poisons in it are not nearly
so potent in their action as is the case with the nerve poisons in
Cobra venom. But, whereas Cobra venom causes increased
action of the heart and consequent increased blood pressure,
Viperine venom slows down the pulsation of the heart and
circulation of the blood. This narcotic power of the venom
extends to the general nervous system, bringing about a state of
nerve depression more or less severe according to the amount of
venom injected.
Cobra venom acts powerfully upon the nerve centres con-
trolling the breathing functions, and tends to stop the action of
the lungs. Viperine venom, on the other hand, exerts no special
effect upon these nerve centres.
GENERAL TENDENCY OF VIPERINE VENOM.
The tendency of Viperine venom is to produce a gradual and
general paralysis of the nerve centres which causes a feeble action
of all the vital functions. If the dose injected be a fatal one,
this slowing-down action progresses steadily but surely until
death takes place. The venom of Viperine snakes contains a
powerful poison known as a fibrin-ferment causing the blood to
clot. If the venom be injected direct into a vein in sufficient
quantity in reptile, mammal or man, coagulation or clotting of
the blood takes place, followed rapidly by death.
However, when the venom is injected into the muscular
tissues as is usually the case in bites from snakes, the poison is
not absorbed with sufficient rapidity to cause coagulation until
after death.
HAMORRHAGE INTO THE TISSUES. 369
NATURE’S RESISTANCE.
Nature sets up a resistance against all foreign substances
when introduced into the body, endeavouring to overcome and
cast them out again. In those cases where she fails, the dose
has been too large, or the vitality and mechanism of the body
is more or less impaired by disregard of the laws of hygiene.
The habitual indulgence in alcohol is a potent factor in the
breaking down of the natural inherent power of the body to
withstand and overcome any form of disease or poisoning.
Habitual moderate drinkers of alcoholic liquors succumb rapidly
even to a small dose of snake venom—a dose not sufficient to
produce serious symptoms in a non-drinker. Animals dosed
with alcohol for a few months, given in regular doses, died
rapidly when injected with a small dose of snake venom, showing
clearly that alcohol destroys the inherent vital resistance to
snake venom, as medical science informs us it does with all
forms of disease or ordinary blood-poisoning.
H#MORRHAGE INTO THE TISSUES.
A characteristic action of Viperine venom is to cause he-
motrrhage into the tissues in various parts of the body. A toxic
property in the venom acts upon the walls of the capillary blood
vessels, causing expansion of their cells, or, to put it in scientific
terms, ‘a dissolution of their continuity.” This effect of the
venom upon the walls of the blood vessels allows the blood to
ooze through and into the tissues, causing purplish blue patches
under the skin. The escape of blood through the walls of the
capillaries is always greatest near the small arteries owing to
the increased blood pressure at these places. The effect of
Viperine venom upon the circulatory system seems to be three-
fold—the red corpuscles are in most cases acted upon, causing
them to release their hamoglobin or colouring matter, and to
distort and alter their natural shape; the phagosytes or white
blood corpuscles are more or less broken up; the cells composing
the walls of the smaller blood vessels are caused to expand,
allowing the blood to escape into the surrounding tissues.
2B
370 THE SNAKES OF SOUTH AFRICA
H4MORRHAGE AND MORTIFICATION.
In Viperine poisoning, such as is occasioned by the bite of the
Puff Adder, there is always grave danger of death supervening
from gangrene or extensive suppuration, owing to the hemorrhage
into the tissues in various parts of the body. Death may occur
from these causes a week or more after the infliction of the bite.
The hemorrhage or extravasation of blood into the tissues occurs
more or less extensively in patches, causing bluish-black dis-
colouration. There is also- oozing of blood from the mucous
surfaces of the mouth, lungs, bowels, kidneys, bladder and
stomach; and sometimes suffusion of blood into the brain
tissues. If this latter should take place death follows at once.
I have many times examined natives with large cavities in
the calves of their legs, due to the sloughing away of the flesh
around the site of the bite of a Puff Adder. Other cases have
come under my observation where the flesh sloughed to a certain
extent, around the part bitten, then healed, only to break out
again later and discharge a quantity of matter, and remain in a
suppurating condition for a month or two, and finally heal. This
suppuration and subsequent healing of the wound occurred at
intervals, in one case extending over a period of three years. In
this latter case most of the calf of the man’s leg had sloughed
away. Yet he eventually recovered.
VIPERINE POISON SYMPTOMS.
The symptoms of Viperine poisoning are as_ follows :—-
Intense but not prolonged smarting, discolouration, and swelling
at the site of the fang punctures. Within twenty minutes the
venom begins to bring about constitutional symptoms such as
giddiness, and irregular fluctuating pulse. The skin grows cold
and clammy, the pupils of the eyes are dilated, followed by intense
nausea and vomiting, often accompanied with evacuations from
the bowels. If death fails to take place within twelve hours, the
swelling becomes more extensive. If the bite be on the lower
part of the leg, the swelling gradually extends upwards and into
the body. At the same time hemorrhage from the walls of the
capillary blood vessels takes place, causing purple patches, more
o- less large, to appear in various parts of the body. Oozing of
371
VIPERINE POISON SYMPTOMS,
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372 THE SNAKES OF SOUTH AFRICA.
blood from the gums, lining membrane of bowels and bladder
also occurs.
If the patient survives this stage, any extensive escape of
blood into the tissues may set up mortification or gangrene, and
death may take place two or three weeks after the bite. But once
the danger point has been passed, however, the patient rapidly
becomes mentally active and cheerful, and recovery quickly follows.
How To CoLLEcT SNAKE VENOM.
One of the best ways to collect quite pure snake venom for
purposes of experimentation and chemical analysis is to procure
a large and strong watch-glass, as convex as possible. Obtain a
piece of sheet rubber or thin glazed cloth, preferably the latter.
Stretch this loosely over the rim of the concave side of the
watch-glass, bunch it up and tie it at the centre of the convex
side. Hold the live snake by the neck, the forefinger of the
right hand (unless you are left-handed) round its throat, and the
thumb pressed firmly on the back of its neck, just behind the head.
Seize the tail firmly in the left hand. If the watch-glass can be
fitted into some fixture, all the better andsafer. Failing this, an
assistant holds it with his fingers and presses its edge against
the front of the lower jaw of the snake. The reptile instantly
bites, its fangs penetrate the stretched rubber or cloth, and
the venom is discharged on the concave side of the glass. If
it should show a desire to grip firmly and hold on, quickly
transfer the tail of the snake to the free fingers of the right
hand. Then, with two fingers of the left hand, gently but
firmly, press each side of the head behind the eyes, working
your finger-tips forward. In this way you will succeed in press-
ing out most of the venom remaining in the glands. Put the
snake away, and repeat the process in a day or two. Remove
the rubber from the watch-glass and allow the venom to dry on
the glass by placing it in a current of air, or in some warm, dry
place. Use the same glass repeatedly until sufficient venom has
been collected to make it worth while to transfer it to a bottle
with a good tight cork. Before putting the venom into the
bottle, be sure that it is perfectly dry, else it will decompose and
lose its poisonous properties. It may be very effectually dried
in a desiccator over calcium chloride. It dries rapidly at 16° to
HOW TO ‘COLLECT SNAKE -VENOM.
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374 THE SNAKES OF SOUTH AFRICA.
20° C, The calcium chloride sucks up the moisture in the air and
makes it very dry. Just previous to transferring the dry venom
to a bottle for storage, it would be advisable to dry (desiccate) it
with calcium chloride. However, in South Africa I have never
had occasion to use calcium chloride. The air dries the venom
rapidly. Then, if the stopper of the bottle is a good one,
the venom will keep dry indefinitely. With Puff Adders
and most other Vipers, a wine-glass is better than a watch-
glass, owing to the long fangs rendering it more or less difficult
to operate with so shallow a receptacle as a watch-glass. More-
over, it is much safer.
Another method, which was employed in India by Dr. W.
Hanna, M.A., M.B., is explained as follows :—Having shaken
or pulled the snake, be it Cobra or Viper, out of the box
to the ground, he allows it to make off, and following, he grasps
its tail with his left hand and elevates it, so that the snake is
unable to turn upon him—it simply hisses loudly.
He allows it to steady its head on the ground, and while so
doing, he gently but firmly places a strong slender stick across its
neck, pinning its head down. He now lowers his left hand
and places the tail under his naked left foot, and with the
left hand grasps the neck firmly, close to the head, the stick
keeping the head steady until he has accomplished his object.
By taking the tail in his right hand he has now complete control
of the snake. His first object is to take the poison from the
snake. After washing the mouth (if mucus or dirt be present)
with a fine stream of water from a wash bottle, the snake man,
steadying the tail under his toes, compresses the poison glands
gently and gradually, with the thumb and forefinger of his right
hand. The poison is forced along the ducts, and issues from the
mouth in drops; these are received into a clean watch-glass
held underneath.
If a snake is freshly killed, the glands may be dissected out
and the duct tied. Unless this operation is carefully and gently
performed, nearly all the venom will be squeezed out and lost.
It is better to remove the skin from the nose, raise the poison
ducts with the tip of a penknife, tie them with fine thread, and
then proceed to remove the glands. If the poison ducts be tied
in this manner, little or no venom will be lost.
If the glands are quickly dried and stored in a well-corked
375
HOW TO COLLECT SNAKE VENOM.
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376 THE SNAKES: OF SOUTH APRIGA.
bottle, the dry venom with which they are charged will remain
active indefinitely.
The quantity of venom collected at one time from a freshly
caught six-foot Cape Cobra varies from six to ten drops—some-
times a little more. When the weather is moist and warm, the
glands seem to be most active. A snake, which has been kept
in captivity, even for only a few days and which has been handled
freely, will not give nearly so much venom as one freshly caught
and operated on at once.
The reason is, the latter is in a fierce state of anger and fear.
This condition is exceedingly favourable for the rapid secretion
and ejection of venom. Snakes, when often handled, become
increasingly passive, even refusing to bite under the strongest
provocation. I have frequently, with finger and thumb, opened
the jaws of snakes and placed them over the rim of the rubber-
covered glass, but they persistently refused to bite. The only
thing to do in these cases is to elevate the fangs with a bit of
pointed wood and compress the head and manipulate the poison
glands. Mechanical pressure of the glands is not nearly so
successful in expelling the venom as the natural action of the
Masseter muscle fibres which wring the glands, when the snake
desires to bite. In very large freshly caught Cobras, as much as
fifteen drops of venom may be collected within ten minutes by
allowing the reptile to retain its hold, meanwhile irritating it
now and then by rubbing its nose with a bit of blunt stick. Dr.
Hanna mentions having obtained as much as_ twenty-eight
drops of venom from a fresh Indian Cobra. In captivity he
found the same species of snakes only yielded from five to ten
drops.
I was holding an average-sized Puff Adder by the neck on my
table when, with an unexpected tug, it jerked its head free and
aimed a blow at my left hand which I succeeded in jerking away
in time. The snake’s head struck the table with a loud thump
and a quantity of venom was ejected upon the glossy American
Leather cover. I collected eight drops and calculated that two
or three more drops remained which could not be removed from
the cloth. The average quantity of venom obtained from a
large freshly caught Puff Adder is about ten drops by allowing
it to discharge venom voluntarily and by squeezing the glands
with the fingers. Puff Adders, after being kept in captivity for
HOW TO COLLECT SNAKE VENOM. BVH
two or three months, yield an average of four or five drops of
venom. Sometimes only a drop or two can be obtained. I
have noticed that when a snake makes a full bite on a living
animal, usually no poison oozes out of the punctures. The
reason is that the venom is driven into the tissues with great
force, and at the same time the punctures are plugged by the
fangs, consequently the venom spreads out into the tissues
around the wounds. This being so, it is desirable, if an attempt
is being made to suck out the poison by mouth suction, that the
flesh be previously well scarified over the site of the punctures.
Of course, while the knife is being got ready, the punctures
should be sucked meanwhile, as this retards the absorbing power
of the capillary blood vessels and lymphatics, which lie in a
thick network under the skin and among the muscles.
Snake venom is slightly acid. Sometimes it is found to be
more or less alkaline. This is due to admixture with the secre-
tions of the mouth. Cobra venom is intensely bitter. Viper
venom is more or less tasteless. The specific gravity of Cobra
venom, according to Martin, averages 11°10 ; that of the Daboia
(Indian Adder), 10°77. The amount of solids contained in these
two venoms corresponded with the specific gravity—the per-
centage of solids in Cobra venom averaged 31°5 and in the poison
of the Daboia 244. C. J. Martin states that the variations are
considerable in the case of the Cobra, being from 23 to 38 per cent.
Pure venom, when examined microscopically, reveals nothing.
If it be contaminated with the fluids of the snake’s mouth,
salivary corpuscles, bacteria, and epithelial cells are seen.
Snake venom, if kept in solution with pure glycerine or in a
dry condition, will keep indefinitely. Cobra venom, when dry,
presents a cracked appearance like gum and looks like little
yellowish scales. Viper venom cracks up into needle-like pieces
which radiate from the centre of the dry mass of venom. When
scraped up it has the appearance of yellow sugar.
EFFECT OF THE VENOM OF ONE SNAKE UPON OTHER SNAKES.
The venom of the Puff Adder apparently has no poisonous
effect upon those of its own kind or species. I have frequently
forced adult Puff Adders to bite themselves without any ill-
effects. I have injected Puff Adder venom into others of the
378 THE SNAKES OF SOUTH AFRICA.
same species several times without any poisonous symptoms
supervening. In three separate instances I collected six drops
of venom from fresh Puff Adders and injected it without effect.
Collecting a full charge of venom from an adult Puff Adder,
I mixed it with a little water and injected it under the skin of the
snake I had drawn it from. It produced no poisonous symptoms.
I repeated the experiment with two other Puff Adders, with like
results.
Puff Adders occasionally die when bitten by snakes of other
species such as the Cobra, Ringhals, Mamba and Boomslang.
Extreme internal hemorrhage occurred in two bitten by a
Boomslang. However, it is only now and then that Puff Adders
die when bitten by other venomous snakes. I have several
times injected Puff Adders with Cape Cobra venom, and in other
cases allowed the reptile to inflict a full bite in the tail region. I
have injected five drops at a time under the skin of a Puff Adder
without poisonous effect. This means that in these cases the
Puff Adders withstood enough Cobra venom to kill six or more
men.
It will thus be seen that the venom of the Puff Adder is not
poisonous to those of its own species, or even if one be allowed
to bite itself, or if its venom be collected and injected hypo-
dermically into it. This would seem to indicate that the blood
of a Puff Adder should be an antidote to its own venom, and
others of its species. Strange to say this is not so. Collecting
the venom from a Puff Adder I measured out three drops, and
killing the snake, I took half an ounce of its blood and mixed the
three drops of venom with it and allowed it to stand five minutes.
Stirring it well, I injected it under the skin of the thigh of a fowl.
The fowl died in four hours. Other tests ended similarly. Mixing
the-gall of the same snake with two drops of the venom, I in-
jected it into another fowl. The fowl died in six and a half
hours.
CAPE COBRAS AND RINGHALS.
I have demonstrated by repeated experiments that the venom
of the Cape Cobra produces inflammation of the tissues and
eventual death in those of its own species when the venom is
injected under the skin or when another of its own species is
allowed to deliver a full bite. Cobras which were forced to bite
CAPE COBRAS AND RINGHALS. 379
themselves also died, but with adult specimens death did not
take place for a week, or even two or three months.
For some considerable time we have kept a large collection of
live snakes at the Port Elizabeth Museum. In one cage we had
seven Cape Cobras of the yellow and brown varieties. These
snakes ranged from four feet to six feet five inches in length.
One day they were stirred up by the introduction of a fresh
specimen and began to fight fiercely with each other. They
were all bitten, some several times. The bites were mostly
about the head and neck.
Three lingered for a week and died. One lived a month.
The other three survived for nearly four months. During the
whole time their heads were swollen and inflamed, particularly
in the region of the venom glands. After four weeks the scales
were shed from the head and the inflammation increased. The
eye scales grew opaque and the reptiles became blind. They
remained in this condition till death took place—no new scales
forming.
Subsequent experiments conclusively proved that the venom
of the Cape Cobra was invariably fatal to those of the same
species, causing necrosis and death. Young specimens died
within a few hours to a day or two of being bitten or injected.
The adults survived for one week to three or even four months.
The heads in all cases swelled, the shields were shed and the
mouth became inflamed. Usually from two weeks to a month
after being bitten or injected, the eye scales became opaque.
I conducted several experiments with the Ringhals Cobra.
On four occasions I allowed an adult Ringhals to bite the tail end
of another of the same species, after scraping away the scales
from the part. I also made two bite themselves and injected
one withits own-venom. In none of these cases did any poisonous
symptoms follow. I also allowed Puff Adders, Boomslangs, and
Night Adders to bite Ringhals snakes in the tail region, but in
no case did any of them seem the worse.
Being desirous of knowing if the venom of the Ringhals
would have any poisonous effect upon non-venomous snakes I
made one bite a Mole snake several times, drawing blood. The
Ringhals was a large specimen of the black variety. No bad
effects followed, although I kept the Mole snake for several
months afterwards.
380 THE SNAKES OF SOUTH AFRICA.
I once also. caused a Puff Adder to bite a Cape Cobra in the
tail region. It gave two full bites, driving its fangs deep into
the flesh. Care was taken that the bite should be in the muscles
between the vent and the tip of the tail, as sometimes the mechani-
cal injury of the large fangs of a Puff Adder will cause death, if
the bite should be over the parts containing the vital organs.
The bitten snake died the following day. On two subsequent
occasions I diluted eight drops of Puff Adder venom with a little
pure water. Dividing this mixture into portions I injected it
under the skin of two Cape Cobras, each four feet in length.
The Cobras showed no symptoms of poisoning and continued to
remain in their normal condition during the six weeks they were
under observation.
The experiments on non-venomous Mole snakes were some-
- what contradictory. Two adult Cape Cobras bit two Mole
snakes, each four feet in length. The bites were full ones,
being in the muscles of the tail region on spots from which the
scales had been removed. The Mole snakes did not develop any
symptoms of poisoning.
Taking two more adult Mole snakes I allowed large yellow
Cape Cobras to bite them effectually in the tail region. I then
made two small incisions and introduced some Cobra venom on
the point of a penknife. The Mole snakes died within fifteen
hours. One died in twelve hours and the other in fourteen
hours. Careful dissection showed no traces of hemorrhage.
Some other experiments followed which showed that sometimes
Mole snakes died after being bitten, but more usually they
exhibited no symptoms of poisoning.
Non-VENOMOUS SNAKES.
The venom of the Cape Cobra is usually fatal to small snakes
of the non-venomous species. Frogs die almost instantly.
Toads linger a long time and often make a complete recovery.
Mole snakes as a rule are not affected by the venom of poisonous
snakes. If an exceptionally large dose be injected they some-
times die. When six drops of Cobra or Puff Adder venom was
injected under the skin on the middle part of the back of the
snake it was generally fatal.
NON-VENOMOUS SNAKES. 381
I injected six drops of Puff Adder venom into a large Mole
snake, four feet six inches long. The injection was made in the
middle part of the back under the skin. The Mole snake survived
three days and died. Another lived nine days. If a large dose
(six drops) is injected right into the abdominal cavity, it is in-
variably fatal.
A Mole snake was also bitten by a variegated variety of Boom-
slang in the muscles of the back a few inches above the tail, on
a spot from which the scales had been scraped off. The Boom-
slang was allowed to hold on for three or four minutes and worry
the flesh. The venom shed on the skin was then scraped up and
rubbed into a cut in the back of the Mole snake. No poisonous
effects followed.
GHAPTER Xi.
THE SCIENTIFIC TREATMENT OF SNAKE BITE.
PERMANGANATE OF POTASH—RESULTS OF EXPERIMENTS—
THE SERUM TREATMENT.
EXPERIMENTS by Doctors Brunton, Fayrer, Rogers, Martin,
Lamb, Richards, Lacerda, and other eminent authorities show
that perchloride of platinum, chloride of gold, and permanganate
of potash are all chemical antidotes to the venom of snakes.
It was found that if any one of these three salts was mixed with
an equal weight of venom it instantly neutralized it. Perman-
ganate of potash being the cheapest and easiest to apply was
selected, carefully tested, and found to have the power of imme-
diately destroying the toxic properties of snake venom. It was
found to be equally effective with the venom of a great number
of venomous snakes—in fact all kinds of venom. By experi-
mentation I have found it kills the poisonous properties of the
venom of all South African snakes, and that of venomous insects.
The potash was mixed in equal proportions with various snake
venoms and injected direct into the veins and tissues of animals,
and no symptoms of poisoning followed. This has been tested
on various species of animals by many other experimenters.
In the work on the “ Poison of Venomous Snakes,” by
Doctors Brunton, Rogers, and Fayrer, there is the following
interesting account of some experiments by Dr. V. Richards :—
“In the winter of 1881 a number of experiments were made
by Dr. Vincent Richards, who found, like the previous experi-
menters, that Cobra venom was completely destroyed by per-
manganate of potash when mixed with it in vitro, so that death
did not follow the injection of the mixture either hypodermically
or into a vein. He found also that when Cobra poison was
injected into a dog and the injection made either immediately
or after an interval of four minutes into the same part by a
hypodermic injection, of a solution of permanganate of potash, no
PERSISTENLY TESTED: 383
symptoms of Cobra poisoning resulted, but after the develop-
ment of symptoms of Cobra poisoning, permanganate of potash
failed to have any effect whether injected locally, into a vein,
or both.”
These results were also obtained by Lacerda (Couty and
Lacerda, Comptes Rendus, Vol. xcii., p. 465), and by Richards.
PERSISTENTLY TESTED.
Many experimenters at first were very discouraged and
inclined to think permanganate of potash was of no practical
value, for it was found that when rabbits, pigeons, and fowls
were injected with venom and the wounds immediately scarified
and permanganate rubbed in, the creatures in most cases died.
It must, however, be borne in mind that these species of animals
are extremely susceptible to the poison of snakes, and that in
these experiments, doses of venom averaging from five to fifty
fatal doses had been administered at one injection. Such a
comparatively large quantity of venom being introduced caused
enough to get into the general circulation to kill these highly-
susceptible animals, in spite of the permanganate neutralizing
the venom not yet absorbed from the site of the injection. It
was noted, however, that the application of the permanganate
delayed death in most instances.
Much more satisfactory results were obtained with animals
of a higher order whose bodily organizations were more akin to
that of human beings, such, for instance, as monkeys, cats, and
dogs. Dr. Lauder Brunton and several others found that cats
recovered when permanganate was rubbed into the incisions
made over the site of the injection, although ten ordinary fatal
doses of venom had been given, or in other words enough venom
was injected at a dose into each cat to kill ten cats, and when
permanganate was applied the animals recovered.
These experiments were carried out extensively, and in all
but two or three cases the animals recovered.
In Dr. Brunton’s experiments the venom was first injected,
a ligature applied, the flesh over the site of the injection deeply
scarified, and permanganate rubbed into the tissues. After five
minutes the ligature was removed. The animals experimented
on received an average of five to ten ordinary fatal doses at a
single injection, yet they recovered.
384 THE SNAKES OF SOUTH AFRICA.
In experiments which I conducted, the results were more
or less similar to the above. I found that in all cases when
symptoms of poisoning had started, the local application of
permanganate was of no use, a fatal dose of venom having
evidently got into the circulation before the application of the
permanganate.
A MAN BITTEN.
Mr. James Williams, a temporary assistant at the Port
Elizabeth Museum, captured a full-sized Berg Adder (Bitis
atropos) and brought it to me. In carelessly handling it the
snake succeeded in imbedding its fangs in the ball of his fore-
finger, and gripped with great tenacity and power. He tore it
away, and in doing so the fangs slit the flesh, leaving a spurt of
venom along the slit. It was evident a good dose of venom had
been injected, for the pain was very intense, and the wounds
began to grow congested almost immediately. Within five
minutes I had ligatured the wound and injected a solution of
permanganate of potash into and around the punctures. I then
scarified the wounds and forced as much blood out as possible,
and in half an hour’s time I removed the ligature. The arm
swelled somewhat, the glands under the armpit were tender and
swollen, and there was slight constitutional disturbance. Within
two days all symptoms of poisoning had subsided, and the man
was quite well.
On another occasion he and I were artificially feeding some
Puff Adders when one got partly loose and made a drive at his
hand, imbedding one of its long fangs in the ball of his thumb.
Within two minutes I scarified the wound and rubbed in per-
manganate crystals. A ligature was applied, and as much blood
as possible forced out of the wound by manipulating the thumb.
’ Williams then sucked the wound for five minutes, and I removed
the ligature. The symptoms of poisoning which followed were
slight.
VARIOUS EXPERIMENTS.
It is quite unnecessary to mention my various experiments
in extenso. I found that when permanganate of potash was
immediately rubbed into free incisions made over the site of
the injection of snake venom, or the direct bites of venomous
VARIOUS EXPERIMENTS. 385
snakes, recovery frequently took place when higher animals
were experimented on, Success was in proportion to the quantity
of poison injected, the time which had elapsed between the appli-
cation of the remedy and the time of the injection of the venom.
If the potash was applied five minutes or more after the injection
of venom, it was unsuccessful, and death always occurred. In
every case animals showed absolutely no signs of poisoning
when I injected a mixture of venom and permanganate. In
many instances I mixed fifty times a fatal dose of Cobra venom
with a little permanganate and injected it without any poisonous
effect.
The permanganate of potash was found to be useless in the
case of highly susceptible animals such as fowls and rabbits,
these creatures often dying within five minutes after the entry
of the venom into their tissues. On experimentation I found
that fowls and rabbits died rapidly if even a very small dose
of venom was injected into them—a dose not nearly sufficient
to cause death in higher animals. They were particularly
susceptible to Cobra, Ringhals, and Boomslang venom, usually
dying within ten minutes—sometimes instantly. It was
apparent that when these animals were bitten, enough venom
was at once taken up into the blood vessels to cause death, hence
the reason the potash did not avert a fatal issue.
This can be better realized when it is learned that a Cobra
is able to inject a hundred or more fatal doses into a small
animal at a single full bite. In experiments on Vervet monkeys
and half-grown Baboons with Cape Cobras I found that if a full
bite was inflicted, it was useless ligaturing and applying perman-
ganate to the scarified wounds. The reason was that sufficient
venom got absorbed to cause death before it was possible to apply
any treatment for the purpose of retarding the absorption of the
venom, or destroying it in the wound. A full bite is understood
to mean when the snake grips like a dog and holds on for a few
seconds.
Judging from these experiments, it is reasonable to conclude
that if a person be bitten by a venomous snake, and if he rubs :
permanganate of potash into incisions made over the site of the
punctures and a ligature applied within five minutes of the in-
fliction of the bite, and if proper secondary treatment is carried
out, he would, in most instances, recover. It must be remembered,
2C
386 THE SNAKES OF SOUTH AFRICA.
however, that some people die of blood-poisoning even if an
exceedingly small quantity of venom should enter their bodies,
particularly if they are of intemperate habits.
CouTYy AND LACERDA.
Drs. Couty and Lacerda carried out a series of experiments
with permanganate of potash and snake venom, and found that
this salt not only destroyed the poisonous properties of the
venom when mixed with it, but also proved an antidote when a
one per cent. solution was injected into the tissues at the site
of the injection of the snake venom.
They also found that when both permanganate and venom
were separately injected into a vein, no symptoms of poisoning
followed; but if the venom got a start and had already pro-
duced symptoms of poisoning the injection of permanganate
into a vein had no curative effect. The same result occurred
when venom was injected into the tissues and the salt injected
after symptoms of poisoning had begun to manifest. Dr.
Vincent Richards’ experiments and those of Drs. Fayrer, Brunton,
and many others bear out the findings of Couty and Lacerda.
However, it has recently been shown that the injection of
solutions of permanganate of potash direct into the veins may
cause serious harm if not death, therefore injections of this salt
direct into the blood-stream are apparently unsafe.
THREE IMPORTANT FACTS.
Three very important facts to be remembered are: perman-
ganate, if swallowed, has no effect at all upon snake venom
which has got into the blood. If injected into a vein after
symptoms of poisoning have set in, permanganate of potash
has no antidotal effect. If injected or rubbed into the tissues
at the site of the wound ten or more minutes after the infliction
of the bite, it is of little or no use as an antidote.
POWER OF PERMANGANATE OF POTASH.
A large Cobra, Ringhals, Mamba, or Puff Adder is capable
ABSORPTION OF VENOM. 387
of injecting many times a fatal dose if the bite be full and com-
plete, but as I have already pointed out the snake does not always
get an opportunity of driving both its fangs right home into the
flesh of a human being.
However, experiments by Dr. Brunton and other well-known
investigators have shown that although even ten fatal doses be
injected into a cat or monkey, if the wound be instantly scarified,
treated with permanganate of potash and ligatured, recovery
usually took place. The only conclusion we can arrive at from
the results of these experiments and those of a similar nature which
I have conducted is, that if a human being be bitten by a veno-
mous snake, and even ten ordinary fatal doses of venom injected,
the person would recover if promptly treated with permanganate
of potash and ligatures. I cannot, however, claim that the
prompt application of permanganate and ligatures always saved
the lives of the bitten animals. About sixty per cent. recovered.
Those not treated always died. The animals which usually died
were those fully bitten by Cobras or injected with fifteen or more
fatal doses of their venom.
ABSORPTION OF VENOM.
It has been asserted that the venom, after injection into the
tissues, enters the circulation so rapidly that local applications
would be futile. This has been proven to be the case with such
animals as fowls, rabbits, and guinea pigs, whose organizations
are extremely sensitive to the venom of snakes, but not neces-
sarily so with higher animals, except, of course, when a vein
is punctured, or an unusually large dose of venom is injected.
When venom is injected into the tissues, for the first few
seconds rapid absorption takes place, owing to the intense
irritation of the venom on the walls of the capillary blood vessels
and the mouths of the lymphatics.
However, the tissues around the punctures quickly become
congested, and absorption of the venom then occurs more slowly.
The application of permanganate of potash not only destroys
all the venom it actually comes in contact with in the wounds,
but owing to its cauterizing action, the power of absorption from
the parts thus treated, is practically stopped.
145.—A. Section of the human skin, highly magnified.
. A hair showing its root and oil gland.
. One of the pores of the skin showing the sweat gland at the end. There are millions of
these in the skin.
. The Epidermis or outer skin in which there are no nerves or blood vessels. It is made
of tiny scale-like cells.
. The Malpighian layer of skin on which lies a layer of cells containing colouring matter
or pigment. In coloured folk this is where the pigment lies.
. The nerves of sensation, showing the bulbous end just under the skin.
. The Dermis or under skin, which is full of tiny blood vessels and absorbent lymphatic
vessels. These suck up snake venom when it is injected. :
. Layer of fatty cells which lie under the Dermis, and which also is full of small blood
vessels and lymphatics.
. Muscle or red flesh which lies beneath the skin, and which also is full of blood vessels and
lymphatics.
. Blood vessels and lymphatics which divide and sub-divide, and which suck up snake
venom,
The fang of a snake.
. The Epidermis or outer skin.
. The under skin or Dermis and layer of fatty cells. This is teeming with tiny blood vessels
and lymphatic channels.
. The muscles or red flesh beneath the skin.
. These tiny dots show where the snake venom is usually lodged when a snake drives its
fangs home. The force with which the venom is discharged causes it to spread in the
tissues, hence the reason why it is essential to scarify the site of the punctures freely
before rubbing in permanganate of potash.
A FACT TO BE REMEMBERED. 389
EXPERIMENTS.
When venom was injected direct into the veins of animals,
death always took. place within a few minutes. The animal
would often drop dead immediately after the injection. However,
if the same quantity was injected into the muscles, death did
not usually occur for hours, sometimes days.
These experiments conclusively prove the venom is not all
instantly absorbed, as some writers so positively assert.
The experiments of Doctor Brunton and other eminent men
have also demonstrated this to be a fact, for it was found that
the animals often recovered if the seat of the injection of venom
was scarified and permanganate of potash applied within five
or ten minutes after the injection of the venom.
A Fact TO BE REMEMBERED.
It must be distinctly understood that permanganate of potash
is not an antidote. It is of the nature of a “ First Aid Treat-
ment.” It will destroy any venom it actually comes in contact
with if rubbed into incisions made over the site of the bite.
It is absolutely useless unless applied immediately after the bite.
If the snake’s fangs happen to penetrate a vein and the venom
be discharged therein, the poison is instantly carried into the
general circulation, and local applications of permanganate of
potash would be valueless. This permanganate salt should
always be carried, so as to be available for first-aid treatment.
But ‘‘ anti-venene” serum should be in the home of every farmer,
so that a cure may be available. The permanganate of potash
should not be relied on too much. It is practically useless as a
treatment for snake bite in domestic animals, for it is seldom
an animal is seen to be bitten. The first indication which causes
suspicion of snake bite is local swelling, trembling, and exhaus-
tion. If serum be at hand and the animal injected freely with
it, its life would be saved, even many hours after the infliction
of the bite. Unless, of course, the damage done to the nerve
centres and blood is too great to make recovery possible.
In scarifying the site of the bite the incisions should be made
freely, because the venom is injected so forcibly, that it often
spreads out under the skin for about half an inch around the
site of the fang punctures. Then again, a snake may, when
390 THE SNAKES OF SOUTH AFRICA.
biting, drag the loose skin of the bitten part so much that most
of the venom will be shed perhaps half an inch from the site
of the punctures. So, to guard against these eventualities, be
careful always to scarify freely so that the permanganate will
come into contact with all the venom. ;
THE SERUM TREATMENT FOR SNAKE BITE. RESULTS OF
SCIENTIFIC EXPERIMENTATION.
Failing to find any antidote to snake bite amongst known
medicines, either vegetable or mineral, men of science began
investigations in another direction. Quite independent of each
other, Doctors Fayrer and Calmette conducted a series of experi-
ments with snake venom.
Animals, preferably horses, were injected with minute doses
of Cobra venom, and on the symptoms of poisoning subsiding, a
larger dose would be injected. This immunizing process was
carried on from one to two years, the dosage being progressively
increased until 50 to 200 fatal doses could be injected at one
dose without any apparent harmful effect. Some of the blood
of the horses was then withdrawn, the serum separated and
injected into animals bitten by snakes of the same species to
the venom of which the horses had been rendered immune.
The effect was magical, for almost instantly the venom was
neutralized, the symptoms subsided, and the animals recovered.
It is well known in medical science that any poison, however
potent, if taken into the human body in.carefully graduated
doses, confers a peculiar mysterious tolerance to that particular
poison. The same holds good with all medicinal substances.
After repeated dosage the ordinary prescribed quantities fail
to have the desired effect. An acquaintance of mine was a
victim of the opium habit, and took sufficient opium in the
course of the day to kill twenty men not accustomed to its use.
Inveterate smokers will take into their bodies daily sufficient
nicotine and other tobacco poisons to kill off half a dozen non-
smokers. Naturally, however, if poisonous drugs be persistently
introduced into the body, they, in time, will shatter the toughest
constitution. Two drops of the oil from a tobacco pipe placed
upon a dog’s tongue will kill it within one minute. A few
specks of strychnine will have the same effect. Tobacco oil
RENDERING ANIMALS IMMUNE. 391
(nicotine) from a pipe stem will, if a small quantity be placed
in a snake’s mouth, instantly paralyze it. It grows utterly limp
and ceases to breathe, but sometimes revives in about an hour's
time. This fact should be remembered by collectors.
RENDERING ANIMALS IMMUNE.
The following extract, written by Dr. J. G. McPherson on
Dr. Fraser’s experiments with the immunization of animals,
will give an idea of the process of rendering animals immune to
the bites of snakes :—‘‘ Having ascertained the minimum dose
required to cause the death of an animal, he started below that
amount and gradually increased the dose after intervals of ten
days. By this process of gradual increases in the dose of snake
poison, he found the animal receiving as much at one time as
fifty times the amount of the miniraum lethal (fatal) dose,
without it causing any perceptible bad effects. In the mean-
time, Professor Fraser has not carried his experiments of quantity
further than fifty times a fatal dose at one time; but still when
he had got to that point the animal was receiving in a single
dose without being affected, enough venom to kill fifty animals
of the same size and weight. One of the animals which he had
treated by this gradual increasing quantity had in two months
received enough poison to kill 370 animals of equal size and weight,
supposing that each just got the minimum fatal dose He
then described a second series of experiments in which he used
the blood serum of these animals which had been immunized, as
an antidote for the venom. He mixed an equal part of this
blood serum and venom together, and injected the mixture
into a fresh animal. This produced no poisonous effect, the
serum counteracting the toxic properties of the venom. Next
he injected some of the immunized blood serum, which he has
named ‘anti-venene, into a fresh animal, and then some
venom afterwards, but the serum hindered any action of the.
venom.
“Then he took another fresh animal and injected venom,
waiting till symptoms of poisoning were manifest ; at once he
injected his anti-venene, and put a stop to any further action of
the poison. All this points to the conclusion that the blood
serum of an animal that has been able to stand fifty fatal doses
392 THE SNAKES OF SOUTH AFRICA.
with impunity at a time by the increasing dose process, is really
an antidote to the poison of snakes.”’
However, subsequent experiments have shown that this anti-
venene is a perfect antidote only to the venom of the species of
snake to which the animal was rendered immune.
VENOMS DIFFER IN THEIR ACTION.
The venom of every species of poisonous snake, as has already
been pointed out, is different in its composition, although its
various parts cannot be chemically separated as efficiently as
we would wish.
We have, however, abundant evidence of this fact by extensive
observations of the effects of the different venoms on animals.
In Australia a professional snake-catcher rendered himself
immune to the bite of a common highly venomous snake, and
in the presence of men of science allowed himself to be bitten
repeatedly. No poisonous symptoms supervened, although the
bite from this particular species of snake would, in most cases,
cause rapid death in any one not immunized.
This man acting under the impression that in consequence
he was immune to the venom of other species of snakes, once
carelessly handled a Denisonia superba, but was bitten, and died
the following day.
How TO BECOME IMMUNE.
A man can, with patience, render himself immune to the
bites of venomous snakes. For instance, if he desires to be
immune from the venom of a Puff Adder and Cape Cobra, it
would be necessary for him to inject under his skin an exceedingly
small dose (the fraction of a drop) of the mixed venoms of these
two snakes, and after the lapse of a fortnight or longer, inject a
slightly larger quantity, and continue the process every two weeks
with increasingly large doses, until he is able to tolerate enough
venom at a dose as would kill half a dozen men. The operation
would, however, be very tedious and prolonged, and would have
to be repeated over again with the venom of other species of
venomous South African Snakes if he desired to be quite immune
to the venoms of them all. If, however, a man was immune
to the venom of the two typical representatives of the great
snake families, viz. the Cobra and Puff Adder (Colubrine and
HY PER-SENSIBILITY. 393
Viperine), he would not be likely to die if bitten by any other
species of South African venomous snake. Such experiments
are fraught with danger, for if the individual be in the habit
of drinking alcohol, or if, through over-eating or indulgence in
a too free meat. diet, his blood should be in an inflammatory and
impure condition, then blood poison would as likely as not set
in at the point of the injection, and if death did not occur, sloughing
of the flesh, more or less extensive, would supervene.
VARIETY OF VENOMS.
The venoms of many of the Indian, Australian, American
and African snakes differ widely in their poisoning properties,
and therefore it is clear that the serum treatment of snake bite
is beset with many difficulties. However, if the authorities in
each of these countries set themselves in real earnest to immunize
animals to the venom of the most poisonous of the snakes of the
country, a first-class serum of high anti-toxic power could be
prepared and sold to the public. The greatest difficulty seems
to be the collection of sufficient venom for the purpose.
HYPER-SENSIBILITY.
A remarkable and mystifying fact in the immunizing of
animals against snake bite by the injection of graduated doses
of venom is, that when an animal becomes highly immune and
is able to tolerate a very great number of ordinarily fatal doses
without showing any symptoms of poisoning, this high degree
of immunity often becomes suddenly reversed, and a condition
of extreme sensitiveness (hyper-sensibility) to snake venom
sets in, and the animal will succumb even to a very small quantity
of venom.
There seems to be a point beyond which tolerance to any
poison cannot go, and some sudden physiological change takes
place, doubtless in the cells of the brain, the nerves, and the
constituents of the blood, making the body susceptible to the
toxic action of only a small quantity of the poison to which
the system was hitherto immune, even when given in very large
doses.
It is ever thus in scientific research, when one mystery is
solved others arise, and so it will be to the end.
394 THE SNAKES OF SOUTH AFRICA.
COLLAPSE THROUGH FEAR.
A case came under my observation of a native woman who
was bitten on the calf of the leg by a large Mole Snake (Pseu-
daspis cana) which she took to be a Cobra. Now, in spite of
the fact of the Mole Snake being quite harmless, the woman
rapidly collapsed, and much alarm was expressed at her con-
dition. I was called and found her in a condition of nervous
collapse, the circulation sluggish, pulse feeble and heart’s action
dangerously slow. Her skin felt cold and clammy, and she
shivered. Glancing at the snake which had bitten her, and
which her friends had subsequently killed, I realized at once
it was a case of shock due to fear. Mixing a little permanganate
with water, I made her drink it, and told her it would positively
cure her within a few minutes. I repeated the suggestion
several times that she was “ getting better, much better.”’ In
ten minutes’ time she was on her feet, declaring she was quite
cured, and marvelling at the magical powers of the “ antidote ”’ I
had given her. Next day I found myself to be an “ Inkos
m’kulu ”’ (Big Chief) amongst her tribe.
Another case occurred of a European woman who was bitten
on the hand by a slightly veriomous snake, and it was doubtful
if the little grooved back teeth had even scratched the skin,
However, she showed alarming symptoms of nervous collapse,
and was dosed by her friends with brandy till she was senseless.
She fortunately recovered from the alcoholic poisoning after
two weeks of severe gastric inflammation, due to the action of
the strong spirit on the delicate mucous lining of her stomach.
Wuy PEOPLE RECOVER.
During the hottest season of the year the venom of snakes
reaches its highest degree of virulence, waning in toxic power
and quantity as the chilly weather approaches.
Full-grown snakes are naturally more likely to inflict a fatal
bite than young specimens. The venom of snakes in good
vigorous health is far more poisonous and abundant than of
those in poor condition. The venoms of different species of
snakes vary considerably in toxic power, a full and complete
bite of some species would rarely cause death in a healthy man,
whilst such a bite given by a Cobra, Ringhals, Mamba, or Puff
ANTI-VENOMOUS SERUM. 395
Adder would mean certain death, if prompt and energetic
treatment was not resorted to. In striking at the clothed leg
of a man, a good deal of the venom is usually arrested by the
clothing, which also prevents the fangs being driven fully home.
This is especially so with the Cobras and Mambas which have
comparatively short grooved fangs. In other cases only one
fang penetrates the flesh, or perchance the skin is only scratched.
It will thus be seen that even if no treatment be applied a large
percentage of cases would recover.
FirzSimons’ SNAKE BITE OUTFIT.
I have found from long experience that the vast majority of
people, other than medical men and veterinary surgeons, do not
know how to handle a serum syringe, and regard the process of
injecting serum as quite beyondthem. ‘Chey seem to be nervous
and lack confidence in themselves, even after the process has
been carefully explained, unless it be done by actual demonstra-
tions or carefully prepared illustrations, accompanied by simply-
worded instructions.
During my lecturing tours, many a farmer has shown me
a bottle of anti-venomous serum which he has treasured up for
years, and in many cases had no syringe at all, or perhaps
produced a large rusty veterinary syringe, or a small ordinary
hypodermic one.
Twenty years of such experiences have convinced me that
to make the serum treatment for snake bite of real practical,
lasting value to the general public, and especially to the farming
community, it is essential that a thoroughly effective and com-
plete outfit be available. As there is no really efficient serum
outfit for the treatment of snake bite known to me, I have
patented a complete first aid and serum treatment outfit, with
an illustrated booklet of instructions which any child can under-
stand.*
ANTI-VENOMOUS SERUM.
Anti-venene, anti-venom, and anti-venomous serum are all one
and the same substance.
* See advertisement of “ FitzSimons’ Snake Bite Outfit,” by the dis-
tributing agent, at the end of this book.
396 THE SNAKES OF SOUTH AFRICA.
Of course anti-venomous serum has its limitations. It will
not perform miracles. It has the power of neutralizing the
poisonous properties of snake venom if mixed with the poison in
sufficient quantity. If injected into the blood it will destroy the
poisonous properties of the venom therein, in proportion to the
amount injected.
Now, it is quite apparent that if the nerve centres have been
poisoned and benumbed beyond the possibility of recovery,
or if the blood corpuscles be broken up, and extensive hemorrhage
into the tissues has taken place, the injection of anti-venene
would be useless. However, it is practically impossible to
know for certain if the venom has acted upon the nervous
system, brain and blood, sufficiently to make death a cer-
tainty, therefore while life remains the anti-venene should be
injected.
In all cases where serious symptoms of poisoning have
developed, the anti-venene should be injected direct into a vein
so that it may enter the circulation with the least possible delay,
for at such a critical time every moment is precious. When
life’s forces are slowing down, the absorbent or sucking-up
power of the small blood vessels (capillaries) and lymphatics is
sluggish, and in some cases suspended.
If the fangs of a venomous snake should puncture a vein
and venom be discharged therein, the poisonous effects are
so rapid that death takes place in spite of the injection of anti-
venene. In fact in these cases the patient is usually dead
before the serum can be injected, even if it be at hand. Fortu-
nately such cases are not common.
Anti-venene, if injected, will render a man more or less immune
to snake bite for several days. Its antidotal power, however,
grows less daily. In no case does it confer any degree of
immunity for more than three weeks. Hunters and others who
are about to run grave risk of snake bite, would do well to inject
themselves previously with a dose or two of anti-venene. Some-
times a sort of nettle rash appears about the sites of the injections.
This, however, need occasion no alarm. It will pass off in a few
days.
Anti-venene is a watery fluid, and when injected, is absorbed
and mingles with the natural serum of the blood. Many have
expressed fear lest its injection might do harm if introduced
PENNY WISE AND POUND FOOLISH. 397
into a person and it happened that the snake which bit him was
a harmless one. It does no harm at all.
Many also imagine that so large a quantity of serum as a dose
of 25 c.c., viz. ounce, cannot possibly get absorbed into the blood
from under the.skin. On the contrary, large quantities of fluids
are capable of absorption into the blood in this way. In serious
cases of poisoning by acids when the stomach is so severely
burned as to make it impossible for the patient to swallow,
water is injected under the skin. Instances are on record in
medical literature of as much as four pints of water being
absorbed in this way in a day.
PENNY WISE AND PouUND FOooOLIsH.
I would strongly advise that in all vases of snake bite when
even slight poisonous symptoms have manifested, that at least
two doses of anti-venene serum of I0 c.c. each or one dose of
25 ¢.c. be injected in several places under the skin of the arms
and legs, or better still direct into a vein. It is always pre-
ferable to err on the right side. An extra dose or two will
frequently turn the scale from otherwise certain death to life
and health.
The lack of intelligence of some people is really surprising:
Rather than expend a few shillings on a reliable remedy for
snake bite, they trust to the most absurd methods of treatment,
or pin their faith to some worthless popular proprietary “ cure,”
or a mysterious Kafir mixture. Others are content to stock a
single dose of serum, trusting to luck that it will effect a cure.
Some foolishly rely entirely upon the local application of per-
manganate of potash and ligatures.
20 or 25 c.c., at least, of anti-venene and a serum syringe
should be in the home of every country resident, and others
whose occupations take them where there is risk of being bitten
by a venomous snake. In fact, all who can afford it should have
as much again handy, and when a case of snake bite occurs,
inject a dose, direct into a vein for preference, and then carefully
watch the effects. If the patient seems to be growing worse,
inject the second dose, then if it be possible for him to recover,
he will soon begin to rally.
398 THE SNAKES OF SOUTH AFRICA.
The serum should be kept in a cool dark place—the cooler
and darker the better. It should be examined every now and
again, and if the fluid be observed to be getting increasingly
milky or opaque in appearance, it is a certain sign that it is
going bad. It must then be thrown away as it is useless, and
a fresh supply obtained. If kept cool and in a dark place, it
ought to keep good for several years. I have had a bottle for
five years, and it is still in good condition.
When kept for some time and not moved, a slight flaky
sediment forms at the bottom of the bottle. This is not a sign
of deterioration. The sediment will readily re-dissolve if the
bottle be shaken. If the cork be withdrawn or tampered with
in any way the content of the bottle must be thrown away as
it will not keep if air gets to it, for it contains no chemical
preservatives.
The anti-venene is sterilized and, provided no bacteria gain
entry, there is no reason why it should not keep indefinitely.
But, although it may not actually go bad, there is every reason to
believe it deteriorates in strength the longer it is kept, as is the
case with the anti-toxin serums in use in the treatment of various
diseases. The fresher the anti-venene is the better, therefore
it is advisable to obtain a fresh supply every eighteen months
or two years. If the previous supply should still appear to be
souud, then do not throw it away. Keep it also for use, as you
cannot have too much of it. You may need three or four doses
at anytime. A valuable human life, or stock costing large sums
of money, may be saved by a liberal injection of the anti-
venene, even if bitten fully by the deadliest South African
serpent.
Valuable stock, and a considerable number of human lives
are annually lost in South Africa, from snake bite. It is there-
fore a necessity to have some means at hand by which this
mortality may be checked. Hardly a farmer in the country
has not had serious losses in stock from the bites of venomous
snakes.
The universal faith in one or more of the many popular,
so-called cures, prevents reliable measures being taken to combat
the effects of snake venom. Elsewhere in this volume the
results of experiments with most of those remedies have been
given. He who pins his faith.to any of them is unwise. His
THE SERUM TREATMENT AND ITS LIMITATIONS. 399
faith is misplaced in spite of apparent recoveries from snake
bite after the administration of one or other of these “ cures.”’
THE SERUM TREATMENT AND ITS LIMITATIONS.
The serum treatment for snake bite is yet initsinfancy. Many
difficulties beset the path of the scientific investigator. The
main obstacle is the difficulty of obtaining sufficient venom,
and the extreme care which is required to be exercised in the
process of rendering animals immune. Even with the greatest
care, the horses and mules which are usually used as subjects do
not survive the ordeal. At other times frightful ulcers form at
the seat of the injection of venom, and frequently the flesh
sloughs away more or less extensively. The aim is to make the
animal immune to as large a dosage of the mixed venoms of
various species of snakes as possible.
For instance, the serum from a horse which has been rendered
immune to a hundred ordinarily fatal doses of venom is twice
as strong in its venom-killing powers as the serum from a
horse which is immune to fifty ordinarily fatal doses of venom.
Every year progress is made, and there can be little doubt
that before long a better method of immunizing animals will
be discovered, and a much stronger anti-venom serum will be
prepared.
The anti-venene now prepared is the only substance which’
is of any value in destroying snake venom after it has entered
the blood circulation. The more copiously it is injected the
better chance there will be of recovery. If the venom has begun
its onslaught upon the nerve centres or blood, or both, liberal
quantities of serum will need to be injected to overtake and
neutralize its death-dealing powers. I would advise medical
practitioners to inject not less than 25 c.c. direct into a vein
if symptoms of poisoning have already set in, and to inject a
second dose after an interval. Those, other than medical men,
should carefully practise injecting water into dead animals’
veins and under the skin, so that they may know exactly what
to do and how to do it should occasion arise. A dead plucked
fowl is a good subject to practise upon. If a little permanganate
is added to the water previous to injection under the skin, it
400 THE SNAKES OF SOUTH. AFRICA:
will prove a good object-lesson in showing just how the serum
would spread, if injected.
Knowledge makes a man confident. It is the lack of knowing
just what to do when faced with an emergency that makes him
“lose his head.”’
Anti-venene serum is the only substance for secondary
treatment recommended by science as possessing curative value
in cases of snake bite, and which can be injected under the
skin without any risk. There is an element of risk in injecting
it direct into a vein. This will be explained later.
If bitten by an unknown snake, it is advisable to inject a
dose of serum if any be at hand. It will do no harm if the snake
should happen to be a harmless one, and will serve the purpose
of allaying the nervous dread of the bitten person. It is at times
difficult to distinguish the symptoms produced by nerve-shock
exhibited by most people bitten by snakes, and the real symptoms
of snake venom poisoning, especially that of the Cobra which
acts mainly upon the nervous system.
THE TREATMENT OF SNAKE BITE.
What to do if bitten.
The most practical thing to do if bitten by a snake is to
prevent the absorption of the venom into the general circula-
tion. If a large dose of venom should get into the body it will
be pumped by the heart to the remotest parts. So we must
immediately attack the venom at the spot where it has been
injected.
There is very little chance of preventing at least some of the
venom getting into the blood circulation, but that will not matter
provided a fatal dose has not been absorbed. Every moment
is precious, as the venom after its injection under the skin is
being greedily sucked up through the walls of the tiny blood
vessels and absorbent lymphatic channels.
Knowing that permanganate of potash destroys any venom
it may actually come in contact with, it is presumed you will
have some at hand. A sharp penknife and a small tube or
pill-box full of permanganate should be carried by everybody
who runs any risk of snake bite. In a country like that of South
THE TREATMENT OF SNAKE BITE. 401
Africa every country resident should have some permanganate
and a penknife upon his person. Then, if he or any of his
native labourers, or stock should get bitten by a snake, curative
measures can be promptly taken. Brunton’s First Aid instru-
ment is usually carried. This, however, is not a satisfactory
instrument for the reason that with the lancet the punctures
cannot be deeply and freely scarified without using undue force,
which is likely to snap the lancet or make unsatisfactory cuts.
Secondly, the permanganate is apt to be spilled and lost at the
critical moment by unscrewing the wrong end in error, or
bungling when removing the capsule. For bites by long-fanged
snakes, the lancet is of small practical value. To meet the
need, I have patented an instrument which has a sharp folding
blade with a receptacle in the handle for the permanganate.
This instrument, being of the nature of a small ordinary penknife,
can be carried in the waistcoat pocket and can be utilized as a
ACTUAL SIZE
Fic. 146.—Brunton’s “ First Aid ”’ instrument.
penknife, with the additional advantage of having the perman-
ganate included in case of emergency. This instrument is
supplied with ‘“FitzSimons’ Outfit’? already referred to, or
separately if desired.
We will presume that you have been bitten upon the leg a
few inches above the ankle. Without one instant’s delay, make
three or four cuts about a quarter of an inch deep, and half
to three-quarters of an inch long, over each fang puncture.
There can be no difficulty in finding it, for there will be consider-
able smarting, and the punctures will be slightly discoloured.
If the bite be actually on the muscles, then cross cuts should be
made in addition to the others, as no harm can very well be
done. When, however, the bite is upon the back of the hand,
wrist, or front surface of the foot, cross cuts should never be
made, or you will probably sever one or more sinews and
cripple the hand or foot permanently.
Open the incisions with your fingers and fill the wounds
Za
402 THE SNAKES OF SOUTH AFRICA.
with permanganate crystals and rub them vigorously in. A
good plan is to spit on the hollow palm of your hand, pour some
permanganate crystals into the fluid, work it into a paste and
then rub it into the wounds. If a friend be at hand he must be,
meanwhile, applying a ligature, or else you can be doing this
while he attends to the scarifying and permanganate applica-
tion. The ligature must be applied between the wound and
the heart at a spot best calculated to compress the blood vessels
(veins) and lymphatics. If bitten,on the foot or ankle-region, a
ligature just above the knee is best. If on the forearm or hand,
Fic. 147.—The ligature is best applied above the knee, because there is only one bone, con-
sequently the pressure is more uniform all round the leg. The black crossed lines above
the sock are the incisions over the site of the fang punctures.
apply the ligature above the elbow joint. To tighten the ligature,
a strong twig, a lead pencil, or a broken walking-stick, should be
inserted in a loop in the ligature and twisted up as tightly as the
patient is able to bear it. Tie the stick against the leg or arm
as the case may be, to prevent it reversing itself after you let it
go. If a syringe be handy, a teaspoonful of solution of per-
manganate with water may be injected obliquely under the skin
over the site of the fang punctures.
It is a doubtful point whether the scarifying and application
of the potash, or the ligature should be applied first. If the per-
manganate can be applied almost instantly, then it is preferable
THE TREATMENT OF SNAKE BITE. 403
to scarify and apply it first. If there is any delay, or if no
crystals be at hand, then instantly affix the ligature. A good
plan is to jerk out your handkerchief and tie it as tightly as you
can with your hands, and then scarify the punctures and apply
your potash. . Afterwards the ligature can be tightened to a
greater degree by the insertion of a stick.
If a friend is at hand, then both operations may be carried
out simultaneously.
As a general rule, if a ligature can be applied within a minute
Fic. 148.—If bitten by a snake between the wrist and elbow apply a
ligature as shown here. If on the hand apply an additional ligature
on the wrist, or at the base of a finger if one should be bitten. The
long dark lines show the course of the larger veins under the skin.
The short dark lines indicate the site of the bite.
of the infliction of the bite, it is best to affix it first, then apply
the potash as soon after as possible. Everything depends upon
expertness and promptness.
After the permanganate has been applied, and the limb
ligatured, press and rub the parts about the incisions with the
fingers, with a view of forcing out as much blood as possible.
The severing of two or three small veins in the ligatured member,
helps to get rid of the poisoned blood. If there should be no
THE SNAKES OF SOUTH AFRICA.
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THE TREATMENT OF SNAKE BITE. 405
permanganate at hand, apply a ligature instantly, and scarify the
site of the bite. If there are no cuts, abrasions or ulcers in the
mouth or on the lips, the wound can be safely sucked. If the
part bitten be laid open and well cauterized by flashing gun-
powder in the wound, some of the venom may thus be destroyed.
This, however, is useless unless done within five to ten minutes
of the infliction of the bite. Ammonia and tobacco juice are
useless,—the latter is dangerous.
There is no possibility of bleeding to death if any of the
surface veins are severed. The veins are the blood vessels
which carry the venous blood to the heart. The blood moves
along sluggishly in them. On the contrary, the blood in the
arteries courses along at a great rate, and if one of these vessels
be cut, the blood squirts out powerfully in jets. Nature, however,
SQUARE KNoT GRANNY KNoT
Fic. 149.—When you tie a knot do not make a Granny Knot, or else it will be sure to slip and
come loose. Tie the Square Knot like this. The harder it is pulled the tighter it will
get. It cannot slip.
has carefully guarded these important blood-vessels from injury
by burying them deep in the tissues. The only places where
arteries come near the surface are where they pass over the ankles
and skull. The blue lines just under the skin are all veins.
In the ligatured limb they will stand out like cords. Select two
or three of those which apparently lead from the vicinity of
the bite, and make small longitudinal incisions in them. Never
cut them across. Cut along the course of the vein. By bleeding
the ligatured limb, some of the poison will be got rid of. A
vein, unless a very large one, will usually stop bleeding itself
after a time. If not, then place a little hard pad over the
bleeding part and bind it down tightly.
Elevating the limb will often stop the bleeding, or sewing
up the wound with two or three fine stitches.
If a snake should inflict a bite upon the face, head, neck or
406 THE SNAKES “OF SOUTH AFRICA.
trunk, scarify the punctures freely to make as much blood as
possible flow out, and then apply permanganate of potash. If
a friend be at hand, get him to suck the wound if no permanganate
be available. Before sucking, the punctures should be scarified
to facilitate the withdrawal of the venom.
Bear in mind, especially, that there is grave danger of-
mortification of the limb setting in, if a ligature is left on too
long. After half an hour, or as soon as you have applied potash
and bled the limb, slacken the ligature very slightly for just
one instant, and tighten up again. Repeat this operation every
five minutes or so for half an hour to an hour. The object of
this is to allow only a small quantity of the poisoned blood at
a time into the body and thus give Nature’s resistant forces a
chance to cope with, overcome, and expel the poison before a
fresh supply enters. Should there be a good deal of venom in
the blood of the ligatured limb, it is obvious that if allowed all
at once to rush into the body, it would be likely to overcome
Nature’s resistance and cause death.
About a yard of strong rubber of about the calibre of a
lead pencil makes a splendid ligature, as, then a stick can be
dispensed with. The rubber grips the flesh uniformly all round
the limb, and if twisted round a couple or more times as tightly
as possible, its constricting power would be very great.
MorE REMARKS ON LIGATURING.
In Figs. 147 and 148 it will be observed only one ligature
is applied. This, as a general rule, is sufficient, but if enough
material is at hand to convert into several ligatures, it is desir-
able to be more thorough, and apply ligatures as shown in the
accompanying illustrations. When a snake bites, it injects
venom into the muscular tisue. In the case of the Puff Adder
the fangs may penetrate about half an inch. In these cases it
will be necessary to scarify the punctures to that depth. Asa
general rule, it is advisable to make the cuts about a quarter of
an inch deep. The venom often spreads out in the tissues, hence
the necessity of freely cutting the site of the bite so that the
permanganate of potash, when rubbed in, may reach all the
venom, or most of it. Now, when snake venom is injected into
the tissues it is rapidly sucked up by millions of tiny blood-vessels
LIGATURING. 407
MORE REMARKS ON
Fic. 149A.—If bitten by a venomous snake on the fingerscarify the site of the punctures as
The same applies to
here shown, not across the finger lest you sever the sinews.
the second illustration. In the third, the bite is on the muscles of the forearm. In
this case the cuts may be criss-crossed. The reasons why more than one ligature is
desirable are mentioned in the text.
408 THE. SNAKES OF SOUTH AFRICA.
called Capillaries, and vessels known as Lymphatics, which carry
lymph. It is, therefore, obvious that if a ligature is applied as
close above the punctures as possible, it will tend to delay the
absorption of the venom and confine it to that region of the limb.
Then, if another is applied higher up it will act as a second safe-
guard. A third ligature would also tend to help. The use of
two or three ligatures is highly desirable in cases of poisoning
by all the species of snakes whose venom acts mainly upon the
blood and its vessels—such snakes for instance as the Boomslang
and the Adder family, which includes the Puff Adder, Horned
Adder, Berg Adder, and Night Adder.
I have recently arrived at this conclusion after experiments
on animals. I found that by applying a ligature just above the
site of the bite I was able to prevent the venom acting upon the
muscles above the ligature. Now, for instance, if a man were
bitten on the instep and he applied one ligature above the knee
the muscles of the leg from the foot to the ligature would probably
be charged with extravasated blood, which later might result
in mortification of the limb.
In applying a ligature, the object is to prevent the return
of the venous blood and lymph from the site of the entry of the
venom. The object is not to constrict an artery.
In conclusion, it must be borne in mind that ligaturing and
applying permanganate of potash is of little or no antidotal
value if not applied within fifteen minutes of the infliction of the
bite. In the majority of cases if not applied within five minutes,
death will ensue, should a fatal dose of venom happen to have
been injected.
Ligaturing is at best but a first-aid, temporary measure,
the object being to gain time for other remedial measures, such
as the injection of anti-venomous serum, which is, as I have
already mentioned in this book, the only antidote recognized
by science, and the only one which I have found to be of value
among all those with which I have experimented.
THE SERUM TREATMENT—METHODS OF INJECTION.
The next thing to do is to procure and inject an anti-venene
serum with the least possible delay.
With a suitable serum syringe inject the serum under the
METHODS OF INJECTION 409
skin of the arms, abdomen and legs for preference. The point of
the needle should be pushed about an inch in an oblique direction
under the skin, and the serum injected into the tissues. The skin
of the abdomen, buttocks, thighs and forearms are also suitable
sites. It is less painful to inject into the buttocks and abdomen
than the arms. Always choose a part where the skin is loose
and flabby. Never push the needle deep down into the muscles.
Take hold of the skin with your fingers, pull it up in the form
of aridge, and run the needle in from one end. After the injection
carefully withdraw the needle with a rapid movement, put your
finger on the puncture and press for a moment along the direction
traversed by the needle. This prevents any serum escaping from
Fic. 150.—Injecting the serum into the forearm with a serum syringe. The skin is held up,
the needle inserted, and the serum forced in. Always inject upwards toward the root of
the limb.
the needle-puncture. A Io c.c. or 20 c.c. serum syringe can be
used. A neat little syringe can be obtained to hold eighty drops,
and it is sufficiently large to contain enough serum to inject at
one spot. The syringe in ‘ FitzSimons’ Snake-bite Outfit”’ is
specially designed to suit the purpose. Be careful not to use a
small hypodermic syringe, as the aperture of the needle is so
small that it is likely to get clogged. After using a syringe, boil
the needle in water in which some borax has been added. The
borax will prevent subsequent rusting of the metal. Always see
that your syringe is scrupulously clean.
A bottle containing 25 c.c. (cubic centimetres) should be
injected in two or three places. Two to three teaspoonfuls of
410 THE SNAKES OF SOUTH AFRICA.
serum may conveniently be injected at one spot. More may be
introduced under the skin in one place, but it is absorbed more
rapidly when injected in several places. The arms and legs are
usually selected because the skin does not adhere firmly to the
muscles on those parts, and it is therefore easier to inject the
serum under the skin. Moreover, it circulates much _ better.
After the serum has been injected, gently rub the injected part
to make the serum dissipate under the skin.
If the bite has been promptly treated with permanganate
and the part ligatured within five minutes of being bitten and
no symptoms of poisoning have set in, then 20 or 25 c.c. anti-
Fic. 151.—Injecting serum under the skin of the thigh. Always thrust the needle point up
towards the body. Do not inject into a ligatured limb below the ligature.
venene may be injected. But if, after an interval, dangerous
symptoms appear, then inject a second dose, and even a third
or fourth. It can do no harm, and will probably make all the
difference and save the life of the patient. At such critical times
it is extremely false economy to withhold an extra dose or two
of serum. Always bear in mind that the more you inject, the
better the chance of a complete recovery.
If serious symptoms of poisoning have set in before the applica-
tion of the serum, it should be injected direct into a vein so that
it may be carried as rapidly as possible throughout the circulation.
METHODS OF INJECTION. AII
When symptoms of poisoning have begun to appear, it means
that the poison has started its deadly work of benumbing
the nerve cells, or destroying the blood, or both; therefore it is
imperative that there should be as little delay as possible in
bringing the serum into actual contact with it. Anti-venene
serum, if injected direct into the blood-stream, is considerably
stronger in its power of neutralizing the venom than if injected
under the skin. This must be carefully borne in mind.
To medical men and others, experienced in the use of a serum
syringe, I would recommend that in all cases the serum be
Fic. 152.—Injecting serum into a vein in the forearm. Select
one of the surface veins at the back of the hand, arm or
leg. Push the needle point into the vein along its course,
and slowly inject. Always inject the serum upwards in
the direction of the heart.
injected direct intoa vein. Farmers and people who have had no
experience in handling a serum syringe would do well to practise
on animals by injecting salty water. It will do the animal no
harm and will establish confidence in the operator; for if no
air-bubbles or sediment be forced into the vein, no injury can
possibly result. Use a syringe with a transparent barrel.
Before selecting a vein for injection, apply a temporary
ligature to make the veins bulge. When the needle is inserted,
draw out a little blood into the syringe to make certain the vein
has been punctured, remove the ligature and inject the serum.
412 THE SNAKES OF SOUTH AFRICA.
Inject the serum slowly but forcibly. Here I would
warn the operator to see that no air-bubbles or particles of solid
sediment are injected into the blood, as they might cause serious
mischief, and even death. It is safest to strain the serum if it
is to be injected direct into a vein. Draining it through butter
muslin will do. Remember the syringe should be completely
filled with serum so as to allow no space for air. Do not inject
the whole of it. Leave a little in thesyringe. This will prevent
any chance of air-bubbles being injected. It is well to put a
piece of butter muslin in the box with the serum so as to be
ready for use.
In drawing up the serum into the syringe, pull the piston rod
slowly. Do not jerk it up rapidly, because air is likely to get in.
Sometimes the knob of the piston rod does not fit the barrel
sufficiently tightly to cause a full charge to be sucked up. But
it usually gets tight enough when a little serum is taken up, as
the fluid causes it to expand. If it remains unsatisfactory,
remove the rod and wind a little cotton thread round it to make
it fit more tightly.
Of course, the syringe and needle must be scrupulously clean.
Sometimes a kind of nettle rash appears when the venom has
been injected, but this need cause no alarm. It will disappear
in a day or two.
If the serum be injected direct into a vein in sufficient quantity
before any symptoms of poisoning have set in, it will neutralize
the poison and no poisonous symptoms will appear. On the
other hand, if alarming symptoms of swelling, nausea, clammy
skin and lethargy have set in before the injection, then at
least double the usual dosage of serum must be injected. In
these advanced cases 40 or 50 c.c. of serum should be immediately
injected. Still a further dose of 25 c.c. should be injected, if
the symptoms are very grave. Provided sufficient serum has
been injected, and if the patient’s nervous system is not para-
lyzed, or his blood damaged beyond recovery, then he should
begin slowly to mend. From hour to hour he will improve,
until complete recovery takes place. If there be extensive
swelling it will slowly disappear. It will in no case subside all
at once.
The effect of the anti-venene, when injected in sufficient
quantity, is to stop the development of any further symptoms of
EXPERIMENTS WITH ANTI-VENENE SERUM 413
poisoning. Therefore it is apparent that if the patient is not
already too far gone to make recovery possible, he should quite
recover.
TREATMENT OF ANIMALS.
The treatment of snake bite in animals is the same as that in
the human subject. It has, of course, to be modified according
to circumstances, and the kind of animal treated. Do not
attempt to force the syringe-needle through the thick parts of
the hide. Select the soft parts on the inner portions of the
thighs and forelegs, for injection. In the treatment of cattle, a
larger and stronger syringe is preferable, such as those used by
veterinary surgeons.
Animals, when injected with ten fatal doses of venom, will
not develop serious symptoms of poisoring, if the serum treat-
ment be given directly afterwards. If injected in sufficient
quantity into a vein after unmistakable signs of poisoning
have set in, the serum checks the symptoms and saves the
creature’s life.
As a general rule, snakes are not seen to inflict a bite on
animals, unless it be a dog. Invariably in the case of cattle,
sheep, goats or ostriches, the attention is first drawn to the
swelling and hemorrhage, or a more or less paralyzed con-
dition of the creature. If the bite be that of a Puff Adder
there will be swelling arising from the site of the entry of the
venom. Ifa Cobra, there will be little or no swelling. In both
cases the victim will stagger or lie upon the ground in more
or less an exhausted condition ; therefore in nearly, if not in all
cases, it is best to inject the serum direct into a vein. The same
quantity of serum should be used as that recommended for a
man. An extra dose is advisable for larger animals such as
cattle and horses.
EXPERIMENTS WITH ANTI-VENENE SERUM.
Mr. T. Norsworthy, the station master at Thornygrove,
Somerset East, who is an enthusiastic advocate of scientific
methods for the treatment of snake bite, determined personally to
test the anti-venene serum which is now prepared by bacteriolo-
gists for the treatment of snake bite.
414 THE SNAKES (OF SOUTH AFRICA.
Procuring a kid (goat) five months old, he allowed a large
Puff Adder, which had been freshly caught, to bite it upon the
thigh. The snake gripped hard and hung on, worrying the flesh
for one minute. It was then removed, and a bottle of anti-
venene containing 25 c.c., which is almost an ounce in bulk, was
injected under the skin of the bitten animal. It died in an hour.
In this case the snake bit fully, and was permitted to retain its
hold for the space of a minute. Being a fresh snake, something
like eight or ten drops of venom must have been injected. Two
drops of the venom were sufficient to kill the kid within a few
hours. One dose of anti-venene serum was not sufficient to
neutralize enough of the venom in this instance to avert a fatal
issue.
I explained this to Mr. Norsworthy, and he decided to try a
more satisfactory test.
Taking a tough old goat, an adult male Puff Adder which had
been in captivity a few weeks, was induced to bite it. It struck
the goat on the hind leg just above the hoof and instantly with-
drew. It struck again near the same spot. Both bites were
of the nature of pecks. The snake did not grip or retain its hold
for more than an instant.
About an hour later the limb began to swell from the site
of the punctures. The swelling gradually extended upwards and
along theabdomen. The leg swelled to three times its normal size.
The goat was bitten at 11 a.m. and was kept in a warm shed.
At 7.30 p.m. hemorrhage began near the site of the bites and
up the limb. At 7 a.m. the following morning, the swelling
had extended all along the abdomen and between the forelegs,
and the hemorrhage had spread nearly all over the body, the
swollen skin being now purplish-black owing to the extensive
hemorrhage through the walls of the capillary blood-vessels.
The goat remained in this condition until it died twenty-six
hours twenty-five minutes after being bitten. It fell down
on the ground one and a half hours before death and did not
rise again. Yet it ate food at intervals until shortly before
it died.
BITTEN AND INJECTED WITH ANTI-VENENE.
Mr. Norsworthy also recently caught a female Puff Adder,
which was allowed to bite the hind legs of an old goat
OTHER EXPERIMENTS. 415
at 1m a.m. Four full bites were given. The snake was al-
lowed to retain its hold and firmly grip and worry the bitten
parts.
Two bottles of anti-venene serum were then injected in
several places under the skin of the inner parts of the legs and
between the shoulders. Each bottle of serum contained nearly
an ounce, viz. 25 c.c. Shortly after being bitten, the leg swelled
slightly. After six hours the leg swelled somewhat more and
the sites of the bites looked inflamed. The goat seemed in its
usual health and continued so. After eight or nine hours, the
swelling began to subside. There was no sign of hemorrhage
under the skin. The goat made a complete recovery. Mr.
Norsworthy informs me that several prominent farmers witnessed
these experiments, and all agreed that the bites inflicted were
full and complete ones. In fact, Mr. Norsworthy complained
that they were too exacting.
A freshly caught adult Puff Adder is capable of injecting at
least ten drops of venom at a single bite. When a snake is in a
state of extreme anger, as was the case with the one which bit
the goat, the glands manufacture venom at an exceedingly
rapid rate, therefore it is fairly safe to assume that the snake
injected ten to fifteen drops of venom into the goat, two of
which were sufficient to kill it.
Mr. E. Burls, a well-known farmer who witnessed the experi-
ment and whois the owner of the goat, writes to Mr. Norsworthy
as follows :—‘* The goat has quite recovered. I defy any one to
detect anything wrong with her. You can safely tell FitzSimons
that the serum cured her. She had a rough time of it, but that
was, I believe, owing to her having four bites, and the broken
teeth at the fourth bite were not taken out.”
OTHER EXPERIMENTS.
I have made a good many experiments with this anti-venene,
which is stated to be the strongest and best for the treatment of
bites given by all species of venomous snakes. It is said to be
particularly powerful in its power of neutralizing Puff Adder
and other Viperine venoms.
I found that if a Puff Adder was allowed to deliver one full
bite on the leg of a full-grown Chacma baboon or a large dog,
416 THE SNAKES OF SOUTH AFRICA.
and if 50 c.c. of anti-venene was immediately afterwards injected
under the skin, the animals recovered, although a certain amount
of hemorrhage and swelling occurred. The animals were some-
times in a state of nerve depression for a couple or three days.
If five drops of Puff Adder venom were injected with a syringe
under the skin, and a dose of 25 c.c. of anti-venene was
injected in a similar manner before poisonous symptoms had set
in, the animals recovered in most instances, although in all cases
they showed symptoms of poisoning such as hemorrhage,
swelling, and nerve depression. The hair in most cases came
off for several inches around the site of the injection of the
venom, and the skin was shed, along with dried blood and dead
tissue.
When 25 c.c. of anti-venene were injected direct into
a vein immediately after the injection of the venom into the
tissues, the only parts affected were the vicinity of the punctures.
One of the animals was killed after it had apparently made a
complete recovery, and it was found that there was rather
extensive hemorrhage about the site of the entry of the venom
and along the leg for some distance. By the appearance of the
tissues, it was evident the dead blood was being absorbed, and
the injured tissues were beginning to assume their normal
appearance.
When 25 c.c. of serum (nearly one oz.) were injected direct into
a vein after symptoms of poisoning had set in, the animals in most
instances recovered, although they seemed to have rather a bad
time. But after pronounced signs of poisoning appeared, I
found that, although the injection of 25 c.c. in several places
under the skin delayed death, it did not in the majority of
instances, avert a fatal issue.
From these experiments, therefore, I was convinced that
unless two doses, each of 25 c.c., were injected direct into
a vein, death would often occur in the. human subject, if very
serious symptoms of poisoning had already set in.
The smaller animals always died if a Puff Adder delivered a
full bite, or if five or six drops of the venom were injected into
the muscles with a syringe followed by an injection of 25 c.c. of
anti-venene direct into a vein. In these cases, 25 c.c. of the
anti-venene was evidently not sufficient to overtake and neutralize
enough of the venom to save the lives of the creatures.
EXPERIMENTS ON FOWLS. 417
Experiments with anti-venene on animals bitten by Cobras,
or injected with their venom, were less satisfactory, the reason
being that the venoms of these snakes act so rapidly on the
nerve-centres of the smaller animals, destroying life before the
serum could combine with and destroy the poison. If four drops
of Cobra or Mamba venom were mixed with 25 c.c. of the anti-
venene and injected into the leg of a dog, or an average-sized
monkey, it did not avert a fatal issue. If a Cobra or Mamba
(green variety) delivered one full bite and was allowed to retain
its hold for a few seconds, the injection under the skin of two
doses, viz. 50 c.c. of anti-venene, rarely prevented death.
From the results of these and many other experiments, I
would strongly advise that 30 to 50 c.c. (cubic centimetres) of
anti-venene be injected in these cases into the human subject.
In fact, in the treatment of very serious cases of Cobra, Ring-
hals, and Mamba bite, as much as I00 c.c. (roughly 34 ounces)
may be injected. In the great majority of cases I have no
doubt that 50 c.c. or even 25 c.c. would save the life of the
bitten person, as it is not often that a snake is able to deliver
a full bite and 1aject a maximum amount of venom. However,
it may do so, and it is as well for everybody to know, that
50 c.c. of anti-venene may possibly not suffice to effect a
cure.
EXPERIMENTS ON FOWLS.
As already mentioned, the anti-venene which is especially
strong in its power of neutralizing Puff Adder venom, was again
experimented with on fowls. I made a freshly caught adult
Puff Adder bite through a piece of sheet rubber stretched over
the mouth of a wineglass, and thus obtained exactly six drops
of venom, absolutely pure. I mixed this with 25 c.c. of anti-
venene which had just been received from the laboratory and
was in the freshest possible condition, being perfectly transparent.
The mixture was thoroughly stirred up and allowed to stand
for one hour. It was again stirred up and divided into two
equal parts. One part was injected into the muscles of a full-
grown healthy fowl, namely, in both thighs and under one wing.
The other half was injected in a similar manner into another
fowl.
aos
418 THE SNAKES OF SOUTH AFRICA
This was done at Ir a.m. Five hours later, one fowl began
to sicken, and its injected wing hung rather loosely. The other
fowl seemed quite sound. The following morning both fowls
seemed sickly weak. I examined them and found that the
injected thighs and wings were swollen to nearly twice their
normal size, and considerable hemorrhage in those parts had
taken place.
For three days the fowls remained in about the same con-
dition, when one recovered its normal cheerfulness and seemed
well. I examined it and found that the swellings had sub-
sided, and the vicinity of the injections were not so purplish as
before. Three days later the parts were greenish-yellow in
appearance, indicating that the dead blood under the skin and
in the muscles was being rapidly re-absorbed.
The other fowl did not fare so well. Evidently it had re-
ceived a slightly larger dose of venom than the other fowl, or
else it was more susceptible to the poison. Both its limbs
became paralyzed, owing mainly to extensive hemorrhage under
the skin of the thighs.
On the sixth day after the injection, it began to recover
the use of its legs. I then killed it and made a careful
examination. I found that the skin on both thighs was dead
and came away when I pulled it, revealing a mass of coffee-
coloured matter, practically dry, underneath. This was the
residue of the blood which had oozed out of the blood-vessels.
The flesh under this, for nearly a quarter of an inch deep, was
dark brown, and in a jelly-like condition. Beneath this layer
the flesh was perfectly sound. The healing processes were well
proceeding, and the fowl] would have, no doubt, made a complete
recovery. On examination, the flesh of the breast was stained
with blood in small patches, owing to slight hemorrhage through
the capillary blood-vessels of those parts.
DEDUCTIONS.
Similar experiments were repeated, with more or less the same
results. It is obvious that three drops of Puff Adder venom
is a fatal dose for any fowl. In fact, one drop is sufficient if
injected into the muscles. From the results of these experiments,
INJECTING ANTI-VENENE DIRECT INTO VEINS. 419
then, it is certain that the anti-venene destroyed a considerable
quantity of the venom, otherwise the fowls would, in every case,
have certainly died. However, it was clearly evident that all
the poison was not destroyed. Therefore we can safely conclude
that 124 cubic centimetres (half a 25 c.c. dose) of anti-venene
is not sufficient to neutralize three drops of Puff Adder venom
when the two are mixed together. The 25 c.c. of anti-venene
seemed capable of destroying about five or five and a half drops
of Puff Adder venom when mixed with it, and then injected. In
all cases when 50 c.c. of anti-venene were mixed with six drops
of Puff Adder venom, the latter was entirely neutralized.
Now, at first sight, this seems very satisfactory, for it would
be assumed that if two doses, viz. 50 c.c. of anti-venene, were
injected, it would be capable of neutralizing something like ten
drops of venom. Unfortunately, this is not usually so in actual
practice.
It has been found that if a snake inflicts a bite and if the
anti-venene be injected under the skin immediately afterwards,
something like ten to twenty times the quantity is necessary to
exert the same neutralizing power over the venom, as when mixed
with it, and the two are injected together, as mentioned in the
above experiments.
Now, I am laying particular stress upon this point, as I want
readers to know exactly what anti-venene is capable of doing,
and the difference in the results which follow the injection under
the skin and into veins direct, for I have noticed in the instruc-
tions sometimes issued with these anti-venene serums, that injec-
tions are recommended to be given under the skin, unless serious
symptoms of poisoning have set in. The dose prescribed is
moreover quite inadequate in those cases where even a moderate
quantity of venom is injected. But where a maximum dose of
venom has been ‘given by any venomous snake, the quantity
recommended is of little curative value.
INJECTING ANTI-VENENE DIRECT INTO VEINS.
In the directions for the treatment of a case of snake bite it
will be noticed I recommend to those qualified to do so, (1) the
420 THE SNAKES OF SOUTH AFRICA.
injection of anti-venene direct into veins in preference to dis-
charging it under the skin (subcutaneously), (2) that anti-venene
may be injected under the skin when no symptoms of poisoning
are apparent, and (3) then to inject a dose into a vein if such
symptoms should develop, where cases have been already treated
with permanganate and ligatures, for usually here not much
venom would have gained entry into the circulation. — For,
while most of it was being temporarily pent up in the ligatured
limb, the anti-venene would have a better chance of getting
into the blood-stream to meet the venom.
There are many people either clumsy or nervous who could
not be trusted to inject anti-venene with safety direct into a
vein. Such people would be wiser not to attempt it. For the
great majority of cases the injection of the serum under the skin
would effect a cure. :
In conclusion, remember that anti-venene injected direct into
a vein has usually some twenty more times the venom-destroying
power than if injected in the ordinary way under the skin. In
fact, it is almost as strong as when mixed with the venom and
injected, as mentioned in my experiments. It was seen that in
this way 25 c.c. of anti-venene was able to neutralize something
like five and a half drops of Puff Adder venom.
Another important thing to bear in mind is, that if poisonous
symptoms have set in before the injection of anti-venene, twice
as much, and even more, will be necessary to prevent the
mixing of the venom with the nerve cells and blood, and save
the life of the patient. So, if a person is competent to inject
anti-venene direct into a vein, do so in these serious cases. If
not, then practise on the lines already suggested, until confidence
- 1s gained.
Rest assured that if a person carries permanganate about
with him and scarifies the site of the bite and ligatures the limb
in the way directed, and if 25 c.c. of anti-venene is injected
within a reasonable time, complete recovery will be well-nigh an
absolute certainty.
Accept one final warning; do not trust to any of the
popular so-called cures. If in spite of what has been written
here you still have firm faith in some favourite root, herb, or
tincture, then by all means apply it if you so desire, but please
do not trust to it to effect a cure.
ANTI-VENENE THERAPEUTICS. 421
ANTI-VENENE THERAPEUTICS.
The following extract from an article by Charles J.
Martin, M.B., D.Sc., F.R.S., Director of the Lister Bacterio-
logical Institute of London, and Major George Lamb, M.D.,
I.M.S., in ‘A System of Medicine,” will no doubt prove of
considerable interest to medical men. It is as follows :—
“Calmette considers that Io c.c. of the Lille serum is sufficient
in most cases of snake bite; but that if the treatment is
delayed, or if the snake is a Cobra or a Krait, 30 c.c. should be
used. He recommends that the injection should be given sub-
cutaneously unless symptoms are already present, in which case an
intravenous injection of Io or 20 c.c. is required. For reasons which
will appear below we are convinced that these small quantities are
quite sufficient in the case of the Cobra, against which the Lille
serum is practically anti-toxic. In ordex to arrive at an accurate
therapeutic dose of an anti-venomous serum, three factors must
be determined: (1) the neutralizing power of the serum, that is
to say the exact amount of serum which can neutralize a given
amount of venom ; (2) the amount of poison which a snake can
inject ; (3) the quantity of venom, the injection of which a man
can survive.
“Two c.c. of the Lille serum are stated to have the power of
neutralizing I mgrm. of dried Cobra venom, and the serum issued
by the Pasteur Institute of India is double this strength. If
this is expressed in terms of the number of fatal doses for a
guinea-pig of 8 grms. which can be neutralized by 1 c.c of serum,
a comparison may be drawn between the relative potency of
anti-venom and the anti-toxins for diphtheria and tetanus.
Expressed in this way, I c.c. of the Indian serum neutralizes only
10 minimal fatal doses for a guinea-pig of standard weight. On
the other hand, one in every four horses will produce a diphtheria
anti-toxin, I c.c. of which, when tested under the same conditions,
will neutralize 100,000 minimal fatal doses of toxin, or if im-
munized against tetanus will furnish tetanus anti-toxin, I c.c.
of which will neutralize 200,000 minimal fatal doses. It will be
seen at once that, compared with these anti-toxins, anti-venene
is very weak.
“We have thought it advisable to lay stress upon the real
anti-toxic value of anti-venoms, because we think the point has
been very imperfectly realized.
422 THE SNAKES OF SOUTH APRICA,
“The second point, namely, the amount of venom which a
snake can inject, has been settled in the case of (Indian) Cobra
and Daboia venoms by actual experiment. In the Cobra the
amount varies from 200 to 350 mgrms. of dried venom, and
in the case of the Dobaia it is somewhat less, viz. 150 to 250
mgrms. These observations were carried out on snakes freshly
caught.
‘““Calmette has made a series of experiments with Cobras
which had evidently been kept in captivity for some time ;
the greatest amount of dried venom which he was able to
procure was 48 mgrms., and the average amount was about 20
mgrms.
“The therapeutic dose of serum recommended by him is
calculated on this basis, and is evidently, therefore, much too
small. Itis obvious that in estimating the dose of anti-venomous
seruin to be used in the treatment of any case, say of Cobra bite,
it should be borne in mind that the snake may have injected as
much as 350 mgrms., for the neutralization of which quantity,
sufficient serum must be injected in order to save the patient’s
life. There must be, of course, many cases in which less—
probably a good deal less—venom would be injected, and a smaller
amount of serum would then suffice ; but there are no means by
which this point can be estimated, and as treatment must be
immediate there is no time to wait and watch the development
of the case.
“The third factor, the amount of venom a man can survive,
must next be considered. This, of course, can only be estimated
roughly by experiments on animals. Basing our calculations
on results obtained with monkeys, we have arrived at the con-
clusion that for an average man the lethal dose of (Indian) Cobra
venom: would be about 15 to 20 mgrms., and of (Indian) Daboia
venom about 60 mgrms. A man would therefore be able to
survive slightly less than these amounts.
‘Having as far as possible arrived at the data on which
the dose of serum to be used in any case of Cobra or Daboia
bite rests, we shall have to calculate what this dose ought
to be.
“Tn the case of a Cobra bite, supposing the serum to be of
such strength that 1 c.c. is able to neutralize 1 mgrm. of pure
Cobra venom if the snake has injected the maximum of poison,
ANTI-VENENE THERAPEUTICS. 423
namely, about 350 mgrms., we can calculate that in order to
neutralize this quantity of venom and thus save the life of the
patient 350 c.c. of serum would have to be brought in contact
with it. In the case of a Daboia bite a much smaller quantity
of serum would serve the same purpose, as we have seen that
this snake does not inject so much venom as the Cobra, that the
serum neutralizes about double the amount of Daboia venom,
and further that the minimum lethal dose of Daboia venom by
subcutaneous injection is much greater that than of Cobra
venom. We can therefore calculate that rI00 c.c. of serum
would be sufficient to neutralize the amount of venom which
a full-sized Daboia would be able to inject.
“We have still to consider the method of injection, as these
quantities of serum are the amounts which would be required
to neutralize completely the venoms when they are mixed, in
vitro, before injection. If, however, the serum be injected
subcutaneously at the same time as the venom, it was found that
from ro to 20 times the neutralizing dose of serum was required
to save the life of the animal. Applying these observations
to our present purpose, we arrive at the conclusion that in
treating a case of Cobra bite in which the snake has injected
the maximum amount of poison, we should have to inject
350 c.c. of serum intravenously or from 3500 to 7000 c.c.
subcutaneously in order to save the life of the patient, and in
the case of Daboia bites 100 c.c. intravenously, or from 1000 to
2000 c.c, subcutaneously.
“Further, if symptoms have already appeared before treat-
ment was begun, larger amounts of serum would be required to
dissociate the poison from its junction with the cells. If the
Lille serum be employed, these quantities must be doubled, as
it is only half the strength of that issued by the Pasteur Institute
of India.
“We have no desire to discourage the use of serums, for once
the poison has been absorbed they are the only remedies available;
but we wish to point out what is the real neutralizing value of
the serum, and what may reasonably be expected from its use,
and, further, to emphasize that quantities of 10 to 30 c.c. as
recommended by Calmette are hopelessly inadequate, and only
likely to lead to disappointment.”
424 THE SNAKES OF SOUTH AFRICA.
DEDUCTIONS.
I have quoted the above extract in support of the claims I
have made that the dosage of anti-venene sometimes recommended
by those who issue the serum is altogether inadequate, and calcu-
lated occasionally to lead to disappointing results. I am well
aware that in the great majority of cases of snake bite in the
human subject, nothing like a maximum dose of venom is injected.
However, in a minority of cases a full charge of venom is injected,
and a man should not be led to believe that 20 or 30 c.c. of anti-
venene will cure with certainty.
As I have mentioned before, anti-venene has its limitations,
and everybody should know just what it is capable of. I
have met scores of men who treasure up a phial of 10 c.c. anti-
venene, confident that it will cure any case of snake bite. In
the French Congo and elsewhere great numbers of people,
including District Surgeons, believe that ro c.c. of anti-venene
will cure most snake bites, and that 20 c.c. will cure the
very worst cases. Numbers of lives have been lost in conse-
quence.
Although, since Martin and Lamb wrote up the results of
their experiments with anti-venene, it has been increased some-
what in strength or venom-neutralizing power, and is now
polyvalent, yet in the light of a careful series of experiments
which I have conducted, I am confident that it by no means
possesses the high standard of venom-killing power some people
claim for it.
INSTRUCTIONS IN BRIEF FOR THE USE OF ANTI-VENOMOUS
SERUM.
(x) Anti-venene is the serum of horses highly immunized
with Cobra and Viper venoms (Colubrine and Viperine).
Its curative properties have been tested on animals against
these venoms and found to be effective.
(2) In case of either Cobra or Viper bite when the patient is
at hand and before symptoms have set in, 25 to 30 c.c. of
anti-venene should be injected under the skin into any part
of the body where the skin is loose, such as in the region of
the flanks. For preference inject into the loose tissues or
SUMMARY. 425
folds of the abdomen at the sides between the last rib and
pelvis.
(3) In a case when a patient is not seen until symptoms
of poisoning have set in, the same amount of serum should be
given by injection direct into a vein. But when the snake is
large and the bite is a full one with both fangs, an extra dose
should be injected.
(4) If serum has been injected under the skin, and if the
patient seems to be developing alarming symptoms, inject at
least 25 c.c. direct into a vein.
(5) For intravenous injection, a vein of the forearm should
be selected for preference. The vein should be made prominent
by pressure above. The syringe and needle should be held
almost parallel to the vein, keeping the oblique opening at the
point of the needle upwards. The operator steadies the vein with
his left hand and introduces the needle. When the needle is kept
parallel to the vein with the slant at the point upwards, steady
pressure carries it into the vein without difficulty, and avoids
puncturing both walls of the blood-vessel. As soon as the needle
is in the vein, remove the pressure above, and slowly inject the
serum. A local subcutaneous swelling appearing during the
operation of injection shows that the needle is not in the vein,
and a fresh attempt should be made to introduce it.
(6) If there are any albuminous deposits or flocculi in the
bottle, the serum should be filtered through the corner of a clean
linen pocket-handkerchief or a piece of clean rag into a wine-
glass or other convenient receptacle, previous to using it. This
is not essential if injecting under the skin.
If boiling water be at hand, dip the cloth into it and wash
out the vessel before straining. A weak solution of perman-
ganate of potash or boracic acid would do instead of boiling
water, for sterilizing the cloth and vessel.
(7) The serum syringe should be perfectly clean. The best
plan is to boil it in water to which some borax has been added.
Then dry and put it away in its case, ready for use. Examine it
occasionally to see that the needle is not getting rusty.
If any weak antiseptic such as boracic acid or permanganate
in solution be at hand, wash the site of the proposed injection
with it. If no antiseptic is to be had, then rub the spot clean.
(8) An albuminous precipitate in the bottle does not indicate
426 THE SNAKES OF SOUTH AFRICA.
contamination, and would be quite harmless if given subcu-
taneously.
For obvious reasons, it would not be safe to inject a preci-
pitate of any kind direct into a vein, hence the necessity for
filtering the serum through a clean cloth before injection into
a vein.
(9) Be sure that your syringe is in good working order, so
that it will take up a charge of serum without any difficulty.
(10) The serum contains no toxic or poisonous substances
of any kind.
(11) It does no harm if injected, and it is subsequently dis-
covered that the snake which inflicted the bite was a harmless one.
(12) The bottles of serum should be kept in the dark, and in
the coolest place in the house. Heat and light are the two chief
causes in bringing about a deterioration in the strength of the
antitoxic properties of the serum.
(13) When kept in a dark and cool place, the serum loses very
little of its antitoxic properties in a year—probably not more
than 5 per cent., even if as much. An increase of dose would
make up for this loss.
(14) Sometimes a kind of nettle-rash appears on the skin
after the subcutaneous injection of serum. This will disappear
in a day or two, and need cause no alarm.
(15) Serum injected in excess does no harm. Oecasionally
what is known as serum sickness (anaphylaxis) supervenes, but
this is shght.
(x6) If nervous about injecting serum direct into a vein, then
inject copiously under the skin in bad cases. Use even as much
as 50 cubic centimetres (nearly 2 oz.) if necessary.
SECONDARY TREATMENT FOR SNAKE BITE, EFFECTIVE IN
ALL SERIOUS CASES,
Now, we will suppose the punctures have been thoroughly
scarified, permanganate of potash rubbed in, a ligature applied,
and the patient is now at home, and has been injected with
anti-venene serum and the ligature removed. He must be
stripped and put into bed at once, and kept warm. Apply
hot-water bags to his feet, stomach, and chest. If none
are available, fill stone jars, bottles, or anything handy
SECONDARY TREATMENT. 427
which will hold hot water. Wrap these separately in flannel,
or some other kind of cloth, to prevent them burning the
patient, and place them at his feet, sides of the body, and
back of the neck. If no water-bottles are available, boil a
quantity of water and get flannel cloths; failing these, big
towels will do. Seize the ends and twist them up. Then dip
the middle part in the boiling water, wring thoroughly and wrap
the patient’s feet in one of these hot cloths; put another over
his abdomen and one at the back of his neck. These should be
renewed after ten minutes or so. Be careful not to burn the
patient’s skin. To avoid this, spread a thin cloth over the parts
previous to the application of the hot fomentation. If the
patient seems to be sinking, apply hot and cold fomentations
alternately. Keep each on for five minutes, and persevere for
half an hour or more, as this treatment tends strongly to rouse
the patient’s nerve centres. These tomentations should be
applied over the lower portion of the abdomen, the stomach,
the back of the head, and the feet. At all of these centres the
nervous system can be effectually acted upon. Cover up your
patient immediately you apply the fomentations.
In the early stages of snake venom poisoning, in addition to,
or in the absence of any drug or serum treatment, the patient
should be made to vomit any food there may be in his stomach.
This can be accomplished by giving him a teaspoonful of mustard,
or salt, stirred in a pint of warm water. If there is no mustard
or salt, or any means of heating water, then make him drink a
lot of water and thrust his finger down his throat, so as to irritate
the entrance to the gullet. This will induce vomiting. The
mustard and warm water is the best, for it strongly irritates the
lining membrane of the stomach, causing it to pour out a watery
mucous, in which there may be some of the venom, which is
harmless when inside the stomach. Then a quick-acting pur-
gative should be given, such as castor oil. This flushes out the
bowels, and also causes a watery discharge through the walls
of the intestines, which will also tend to drain off some of the
venom in the blood. Then, every effort should be made to induce
perspiration. The patient can be soaked in a bath of hot water,
adding still hotter water, as he is able to bear it. The water
should be as hot as he can endure. In ten or fifteen minutes
take him out, and instantly cover him with blankets,
428 THE SNAKES OF SOUTH AFRICA.
STIMULANTS.
In cases of Cobra and Mamba bite, teaspoonful doses of hot
brandy and water will do no harm. The aim should be to pre-
vent the poison from benumbing the nerve centres beyond the
possibility of recovery. In all cases of Adder and Boomslang
venom poisoning alcohol is distinctly harmful. _Nux vomica,
which is a preparation of strychnine, administered internally
in medicinal doses will tend temporarily to rouse the nervous
system. So, too, will the injection of strychnine. This, however,
is dangerous unless the operator knows the exact dosage. Tab-
loids containing the proper dose for injection may be obtained
from any chemist.
The best nerve stimulant at these times is a fresh, hot infusion
of tea. Make it very strong, but do not allow it to infuse more
than three to five minutes. Tea contains a powerful alkaloid
drug, known as Theine, which powerfully stimulates the nerve
centres. If the tea is brewed for five minutes or longer, the
infusion certainly gets strong, but it is then impregnated with
tannic acid, which is highly injurious. Give the tea to the patient
in small sips, so as not to upset or overburden his stomach, which
at this time is apt to reject anything swallowed. Give the hot
tea off and on at intervals, so as to keep up the stimulation.
Strong coffee may be used, but tea is better.
Never dose the patient with large doses of alcohol or ammonia,
and do not on any account rub pipe oil (nicotine) into the wounds
made over the site of the bite, or allow it to be swallowed.
If you keep the patient warm and apply the hot bottles or
fomentations, and give small repeated doses of very strong
freshly brewed tea, that is all that you can do to aid Nature.
If no serum has been injected, then carry out all the fore-
going secondary treatment, if possible, more energetically. If
the patient continues to shiver, and if the surface of his body
feels clammy and cold, it would do him good to soak his body in
a bath of hot water now and then for five minutes at a time.
After such a bath he must instantly be put back in bed and
covered up.
When the patient shows signs of reviving, and seems on the
road to recovery, cease to administer stimulants, or give them
at longer intervals.
ARTIFICIAL RESPIRATION. 429
=
The scarified site of the bite must be regularly washed with
an antiseptic and carefully bandaged, after smothering it with
boracic acid. This must on no account be neglected. Do it
twice a day.
During convalescence from snake bite the diet should be
very light, such as hot milk taken in small sips, milk puddings,
artificial infants’ food, rusks soaked in milk, soft ripe fruit, well-
cooked rice and milk, etc. Do not give meat or meat soups,
or any food containing added fat, or fried foods. The organs of
the body at this time must be handicapped as little as possible,
for if the venom be that of an Adder or Boomslang there will be
more or less extensive hemorrhage. This dead blood will require
to be reabsorbed and cast out of the body by the various organs,
else mortification and death will occur.
Many cases have been related to me of remarkable cures
having been effected by certain roots, herbs, tinctures, alcohol,
etc., but on close investigation it was evident the patient would
have recovered just as quickly if nothing had been adminis-
tered. When snake venom does not kill, recovery is usually
very rapid, and this is invariably attributed to something in the
way of an antidote given the patient. No known medicine
taken internally is a remedy for snake bite.
PARALYSIS OF THE RESPIRATORY NERVE CENTRES.
What to do if the breathing should suddenly stop.
The venom of the Elapine or sub-family of snakes to which
the Cobra belongs acts powerfully upon the nerve-centres, and
tends to paralyse their action. Its principal effect is upon the
nerve-centres controlling the automatic movements of the lungs.
By paralyzing these nerve-centres the lungs collapse, breathing
ceases, and the patient dies.
Now, if you are nursing a person suffering from the bite of
any one of these snakes, and if you observe the breathing to grow
shallow and hurried, carefully watch him. Then, if the breathing
should cease altogether, you should instantly resort to artificial
respiration methods, and keep them up without a pause for
an hour at least, or until a medical man tells you to
desist.
430 THE SNAKES OF SOUTH AFRICA.
The easiest and most efficient method to apply is as
follows: Place the patient straight out upon his chest and
abdomen on a fairly hard and flat surface, turn his head slightly
to one side, so that his mouth and nose may be free. Kneel
beside his legs, facing his head. Place the palms of your hands
flat upon the lower parts of his ribs, one hand on each side, and
Fic. 153.—This is the best way to perform the artificial breathing operation which
is fully explained in the text.
press gently but firmly, not with a sudden jerk. Pause a second
or two, and then draw your hands back, raising the patient’s
chest an inch or so with your fingers as you draw back (see Fig. 2
of picture). Keep on repeating this process, for hours if necessary.
When you press the rib-region downwards, you are driving the
air out of the lungs. The moment you let go, the lungs again
expand, and air rushes in. Time your movements, so that they
ARTIFICIAL RESPIRATION. 431
may be as near as possible to the ordinary breathing of a person.
This artificial breathing method should be instantly employed
in all cases of accident, such as drowning, suffocation by gases,
smoke, or a blow over the region of the stomach, which often
Fic. 154.—Another method of performing the artificial breathing operation. If the patient is lying
on his back as in this case, his tongue must be pulled forward and fastened, to prevent it
sagging back and blocking up the air passage to the lungs.
deprives the victim of the power of breathing, and who might
otherwise die of suffocation. This sometimes happens on the
football field. Of course, you must always use careful judgment.
The sooner artificial breathing is resorted to after normal breathing
432 THE SNAKES OF SOUTH AFRICA.
ceases, the better chance there is of a recovery. The advantage
of the above method over others is that there is no necessity to
pull out and secure the tongue to prevent it blocking the entrance
to the windpipe. When the patient lies on his abdomen and
chest, and the head slightly turned aside, the tongue naturally
falls forward, and any froth, mucous, or water will run out of
the mouth or nose without in any way obstructing the air
passages.
The second method is as follows. It is, however, not so
practical and simple as the first.
Place the patient flat upon his back, put a pillow under his
shoulder-blades, let his head hang slightly back, pull his tongue
forward and fasten it, kneel over him, as shown in the illustration,
seize his elbows in your hands, and with a quick movement bring
his arms over his head, as far as they will go, so as to expand the
chest to the uttermost, pause an instant, then bring them forward
and press gently but strongly against his ribs to expel the air
in his lungs. Keep on doing this without pausing. The quicker
you start the process after natural breathing ceases the
better.
The instant the patient starts to breathe of his own accord,
cease your manipulations and massage his legs and body vigor-
ously. As soon as he is able to swallow, give a little very strong
freshly brewed tea, or a few sips of hot brandy and water. If
you should notice the breathing beginning to cease, or if it should
suddenly stop, then at once resume the artificial breathing
operations. These efforts should be kept up for an hour at
least, or until a medical man pronounces life to be extinct.
Hope OF RECOVERY FOR THE APPARENTLY DEAD.
The venoms of all species of snakes exert a poisonous, para-
lyzing influence upon the nerve centres in the brain, and nervous
system generally, differing more or less in their pathological
effects according to the species.
However, although the venoms of the different species of
snakes vary more or less in their effects, yet they, one and all,
act as powerful nerve poisons. It has been urged by some
POSSIBLE RECOVERY. 433
writers and lecturers that a dose of venom sufficient to kill a
healthy man will assuredly prove fatal if no actual antidotal
measures are taken, such as the injection of anti-venene serum,
for the reason that the venom destroys the nerve centres beyond
the possibility of, recovery. In other words, the venom actually
annihilates the life of the nerve centres, by so altering the structure
of their cells that it is quite impossible for recovery to take
place.
Others ridicule the idea of a man’s life being saved after
breathing has ceased. Consequently they maintain that in
cases of snake bite it is useless to resort to artificial respira-
tion.
In animals injected with fatal doses of Cobra venom no
destruction of the nerve cells was observed if they died within
six hours. But in all cases where life was prolonged for twelve
hours or more, it was noticed that preparations of nerve-substance,
stained by Nissel’s method, showed that the venom had acted upon
considerable numbers of nerve cells. In some instances the outer
coating of the cell had vanished ; in others the whole cell was
completely destroyed. This was particularly noticeable in the
spinal cord.
However, except in extreme cases due to an excessive dose
of Cobra venom, sufficient nerve cells are not destroyed to be the
actual cause of death.
Snake venom, like other hypnotic drugs, poisons the nerve
centres in the brain, medulla oblongata and spinal cords, more or
less in accordance with the nature of the poison and the quantity
introduced into the blood. Alcoholic liquor also causes exten-
sive destruction of nerve cells, but does not usually destroy
sufficiently to be a direct cause of death.
Animals which have been paralyzed by snake venom often
recover. I have kept such animals for many months, and in
no case have they showed any symptoms afterwards of damaged
nervous systems.
Human beings who recover from snake bite become healthy
and strong again. I have seen men lying insensible and appar-
ently too far gone to recover. Yet they rallied and made
complete recoveries. The case of Mr. James Williams, my
assistant, is an excellent illustration. He was bitten by a
Tree Snake or Boomslang (Dispholidus typus), and was as near
2F
434 THE SNAKES OF SOUTH AFRICA.
death as it was possible for a man, and yet he lived. He lay
for days almost insensible and completely paralyzed from head
to foot.
Now, if snake venom permanently destroys the nerve centres,
rendering them for ever incapable of. resuming their functions, °
how comes it that Williams made a complete recovery? I
have kept him under observation for three and a half years, and
have failed to detect any harm having resulted to his nervous
system. His mental functions remain unimpaired. Physically,
he is as vigorous as he was prior to being bitten. For some
months there were some slight after-effects, such as giddiness,
but this can be attributed to the terrible benumbing influence
which the venom exerted upon his whole nervous organization,
and the mucous membranes of his body. It is a matter of surprise
to all that he made so rapid a recovery, for the condition he was
in for a week or two was most serious. To be realized fully it
had to be witnessed.
When snake venom does not kill men, recovery invariably
takes place rapidly. I have observed the same rapid recovery
in animals. Those which I injected with a small amount of
venom appeared as though about to die. After a time they
rallied, and soon were as well as ever, excepting perhaps for
local swellings, or patches of blood which had oozed from the
small blood-vessels and accumulated under the skin. Rapid
recoveries, however, are not usual with men who habitually
use alcoholic liquor. In these cases I have observed more or less
serious after-effects supervene, such as the sloughing away of
the flesh at and near the site of the bite, and even mortification
which necessitated amputation.
CURARE AND SNAKE VENOM,
Curare is a powerful poison of vegetable origin, used by the
natives of the northern parts of South America for poisoning
the tips of their arrows. Curare acts upon the nerve centres in
very much the same manner as snake venom. Like the latter,
it is harmless if swallowed, providing, of course, there are no
abrasions of the mouth, or catarrhal conditions of the stomach.
ELIMINATION OF THE POISON. 435
When introduced into the blood it paralyzes the motor nerve
centres in the brain, causing complete paralysis of the whole
body.
It is well known in medical science that, in cases of poisoning
by curare, if artificial respiration methods be resorted to after
the patient has ceased to breathe and lies apparently dead, he
can be restored. This clearly demonstrates that the poison
benumbs the nerve centres, but does not destroy them.
Now, if patients can be restored by artificial respiration
methods after being poisoned with curare when natural breathing
has ceased and they lie apparently dead, such recoveries may
also take place with those poisoned by snake venom.
ELIMINATION OF THE POISON.
So long as the patient is breathing, the vital functions are
active, and the venom is being slowly overcome and cast out of
the body in a variety of ways; but the instant the breathing
ceases, the functions of the body are suspended, the blood becomes
charged with poisonous waste matters, and the patient rapidly
dies, unless artificial respiration is resorted to in order to supply
the blood with oxygen from the air.
If the victim of a Cobra bite sinks into unconsciousness, and
the breathing ceases, it indicates that the venom has completely
paralyzed the nerve centres controlling the lungs.
Now, if we instantly resort to artificial respiration methods,
or if a cannula be inserted into the windpipe, and the lungs be
inflated and deflated regularly, then, if the patient be not actually
dead, the blood will begin to circulate, the vital functions will
show signs of recovery, and natural breathing will, sooner or
later, commence.
The object of artificial breathing in cases of snake bite is to
keep the body alive long enough for it to expel sufficient of the
venom to make recovery possible. Asin cases of serious illness trom
other causes, so with snake bite. A crisis comes on, and if the
patient can be kept alive while this terrible struggle between
life’s forces and deati is going on, by helping the resisting powers
of the body, then it is possible for recovery to take place when
otherwise death would have ensued.
436 THE: SNAKES OF ‘SOUTH -APRICA:
Naturally, if more venom is taken into the body than is
sufficient under normal conditions to kill, artificial respiration
would be useless, but no man can know just how much the snake
has injected, and therefore it is desirable to resort to artificial
respiration when the victim of snake bite has ceased to breathe.
EXPERIMENTS ON ANIMALS.
Experiments have been made on animals by injecting them
with snake venoms and resorting to artificial respiration im-
mediately breathing ceases. In this way life has been prolonged
many hours. In one notable case a dog was bitten by a Sea
Snake. Two hours later it ceased to breathe, apparently dying
in convulsions. Artificial respiration was resorted to. This was
kept up for some hours. A galvanic current was then applied,
but no muscular contractions were aroused, and the eyes con-
tinued to be glazed, dry, and insensible to the touch.
The animal seemed as dead as it was possible for it to be. No
sign of life remained. Any medical man would have pronounced
it so. The last spark of life seemed to have gone out. But
artificial respiration was kept up by relays of assistants.
After sixteen hours the dog showed signs of life. The galvanic
battery was again applied. This time the muscles contracted,
and caused various movements of the body. The bowels and
bladder acted. Another five hours showed still more advanced
signs of recovery in the dog. The eyes were no longer dry and
glazed. Tears were secreted, and suffused the eyes. Saliva
flowed. The eye-lids closed and opened when the now sensitive
cornea was touched, or when drops of water were poured into
the eyes. The dog made attempts to swallow when water was
poured into its mouth. It eventually partially recovered its
senses, and moved its body and wagged its tail. Twice the
animal relapsed, and artificial breathing was again resorted to.
However, after twenty-four and a half hours, when recovery
seemed certain, the dog began to sink. The heart slowed down,
and eventually ceased to beat. All subsequent attempts at
resuscitation failed.
Now, although this dog was, to all intents and purposes, dead,
yet under artificial respiration methods it revived, and recovered
EXPERIMENTS ON ANIMALS. 437
the use of its muscles, brain, and nervous system to a certain
degree. Yet although the dog did not eventually recover, the
experiment demonstrated clearly that an animal apparently
dead of snake venom could at least be temporarily revived.
The dose of venom was evidently too great in this case to
make recovery possible. In the case of curare the same thing
happens. If the dose is large, artificial respiration methods
fail to revive the victim.
The power of resistance to snake venom is much greater in
vigorous, healthy human beings than it is in most animals such
as dogs, monkeys, goats, sheep, rabbits. A full bite from an
adult Cobra will kill a large dog or monkey within an hour In
my experiments some died in ten minutes. A healthy human
being would survive from two to six hours.
Dr. Vincent Richards succeeded in keeping a man bitten by
an Indian Cobra alive for thirty hours by means of artificial
respiration after normal breathing had ceased. Now, if it is
possible to keep a man alive for thirty hours in this way, it is
quite possible to save his life, because if anti-venene has been
injected in sufficient quantity into a vein, it will neutralize the
poison if the victim can be kept alive long enough. If a sufficient
dose of anti-venene has been injected into a man and he should
cease to breathe an hour or two later, it indicates that the remedy
has not had sufficient time to penetrate into the lymph, and come
into sufficiently close contact with the poisoned nerve, brain,
and blood cells to exert its venom-neutralizing properties.
Therefore if the patient can be kept alive for a few hours by
means of artificial respiration and so give the anti-venene time
to act fully upon the poison, there is no reason why he should
not make a complete recovery. Of course, in these cases the
anti-venene would have to be injected direct into a vein and in
liberal quantities.
During the whole time artificial breathing methods were
being carried on, the anti-venene would be busy preventing the
venom from mixing with the nerve and blood cells.
CHAPTER. XIIT
LATEST SysTEMATIC List OF SOUTH AFRICAN SNAKES FOR THE
UsE oF MuSEUM CURATORS AND SCIENTIFIC STUDENTS.
Compiled by Dr. G. A. BouLENGER, F.R.S., V.P.Z.S., of the
British Museum.
(Inserted by kind permission of the British Museum Authorities
and Dr. Boulenger.)
Part Il.—OPHIDIA.
Synopsis of the Families represented in South Africa.
I. Worm-like, with the eyes under the more or less
transparent head-shields; mouth very small,
either the upper or the lower toothless; body
covered with uniform scales.
Lower jaw toothless; ocular shield not bordering the
mouth ; at least 20 scales round the body .. . Typhlopide.
Upper jaw toothless ; ocular shield bordering the mouth ; 7
14 scales round the body : . Glauconiide.
II. Eyes exposed ; both jaws toothed ; enlarged ‘ventral
shields usually present.
A. Maxillary bone horizontal, not vertically movable;
poison-fangs, if present, small or rather small.
Premaxillary bone toothed; rudiments of hind limbs,
usually appearing externally as a claw-like horny
spine on each side of the vent ; labial shields with
pits = oe . Bode.
No pramaxillary tooth ; no rudiments of hind limbs ;
labial shields without PIES eee . Colubride.
B. Maxillary bone very short, vertically movable,
bearing only the poison-fangs, which are usually
very large .. fe ie ee sx .. Viperide.
Famity TYPHLOPID 2.
A Single Genus in South Africa.
ry. EYPHLOEPS,
Schneid. Hist. Amph. ii. p. 339; Bouleng. Cat. Sn. i. p. 7.
Ten Species in South Africa.
I. Snout rounded ; 22 or 24 scales round the body.
Preocular much narrower than the ocular, in contact
with the second and third labials ; diameter of body
42 to 45 times in total length ate ah .. IT. verticalis.
440 THE SNAKES OF SOUTH” AFRICA.
Preocular a little narrower than the ocular, in contact
Mle
with the second labial only ; diameter of body 23
to 30 times in totallength .. . I. fornasinit.
Snout with obtusely angular, not trenchant, hori-
zontal edge.
24 scales round the body ; preocular in contact with the
30
30
second and third labials ; diameter of body 30 times
in total length .. re 5 Se
or 32 scales “round the body ; ; " preocular in contact
with the second labial only; diameter of body 24
times in total length; eye not distinguishable .. T. anchiete.
to 34 scales round the body; praocular in contact
with the second labial (rarely second and third) ;
diameter of body 28 to 36 times in total length ; eye
distinct .. .. dL. bibvonw:
~. mossambicus.
~
III. Snout with sharp, trenchant, ‘horizontal edge.
A. Snout not hooked (in profile).
28 to 30 scales round body ; diameter of body 35 to 50
times in total length T. delalandu.
30 to 38 scales round body ; diameter of ‘body 25 to 35
times in total length T. mucruso.
34 to 40 scales round “body : diameter of ‘body. 42 to 49
times in total length T. dinga.
40 to 44 scales round body ; diameter of ‘body. 25 to 30
times in total length : T. schlegelir.
B. Snout hooked; 24 or 26 scales round body ;
diameter of body 45 to 57 times in total length T. schinzt.
iS)
. TYPHLOPS VERTICALIS.
Onychocephalus verticalis, Smith, Ill., Rept. pl. liv.
Typhlops verticalis, Bouleng., t.c., p. 32.
Interior of South Africa.
Malmesbury (H. Gird).
. TYPHLOPS FORNASINII, Bianconi, Spec. Zool. Mosamb. p. 13, pl. iii.
fig. 1; Bouleng., ¢.c., p. 38.
Portuguese East Africa.
Delagoa Bay (De Coster).
. TYPHLOPS MOSSAMBICUS.
Onychocephalus mossambicus, Peters, Mon. Berl. Ac., 1854, p. 621.
Typhlops mossambicus, Bouleng., t.c., p. 41.
Portuguese East Africa, Zululand.
. TYPHLOPS ANCHIET2®, Bocage, Jorn. Sc. Lisb. xi. 1886, p. 172;
Bouleng., é.c., p. 40.
Angola, Transvaal.
. TYPHLOPS BIBRONII.
Onychocephalus bibronii, Smith, Il., Rept. pl. li. fig. 2, and liv. figs.
-8.
=
Typhlops bibronii, Bouleng., t.c., p. 44.
Cape Colony, Basutoland, Natal.
Cape Colony : Malmesbury ( (Gird) ; Bathurst District (Becker) ; Port
St. Johns (Shortridge) ; Matatiele, East Griqualand (Tyrrel) ;
Little Namaqualand (Péringuey).
Basutoland: Morija (Dyke).
Transvaal : Ee es (Kilgour).
. TYPHLOPS DELALANDII, Schleg. Abbild. p. 38, pl. xxxii. figs. 17-20;
Bouleng.,, t.c., p. 45.
To,
LIST OF SOUTH AFRICAN SNAKES. 44T
Cape Colony, Natal, Orange River Colony, Transvaal, Southern
Rhodesia.
Cape Colony: Cape Peninsula (Fairbridge, de Souza, Purcell) ;
Malmesbury (Gird); Burghersdorp (Kannemeyer); Tulbagh
(Kleinschmidt) ; Prince Albert (Purcell); Knysna (Maritz) ;
Port Elizabeth (Weale, Drege) ; Middelburg (Piers) ; Calvinia
(Leipoldt) ; Caledon (Burger) ; Worcester (Purcell, Paynter) ; Stel-
lenbosch (Lightfoot) ; Robertson (Melle) ; Hanover (Schreiner) ;
Graaff-Reinet (Paynter); Touw’s River, Worcester District
(Purcell) ; Little Namaqualand (Péringuey).
Orange River Colony: Smithfield (Kannemeyer).
. TYPHLOPS MUCRUSO.
Onychocephalus mucruso, Peters, Mon. Berl. Ac., 1854, p. 621.
Typhlops mucruso, Bouleng., t.c., p. 46.
Tropical Africa to Portuguese East Africa, Southern Rhodesia, and
Transvaal.
Transvaal: Barberton (Rendall).
Southern Rhodesia: Salisbury (Darling, Marshall).
Portuguese East Africa: Delagoa Bay (De Coster).
. TYPHLOPS DINGA.
Onychocephalus dinga, Peters, Mon. Berl. Ac., 1854, p. 620.
Typhlops dinga, Bouleng. 5 tcGr ya 45 -
Portuguese East Africa, Southern Rhodesia.
. TYPHLOPS SCHLEGELII, Bianconi, Spec. Zool. Mosamb., p. 13, pl. iii
fig. 2; Bouleng., ¢.c., p. 44.
East and Central Africa to Portuguese East Africa and Southern
Rhodesia.
Delagoa Bay (De Coster).
TYPHLOPS SCHINZI, Boettger, Ber. Senck. Ges., 1887, p. 154, pl. v.
fig. 1; Bouleng., f.c., p. 47.
Northern parts of Cape Colony.
Little Namaqualand (Turle) ; Carnarvon (Hanan).
Famity GLAUCONIID.
A single Genus in South Africa.
1. GLAUCONIA.
Gray, Cat. Liz. p. 139; Bouleng. Cat. Sn. i. p. 59.
Six Species in South Africa.
I, Supraocular present.
A. Rostral separated from the supraocular by the
upper part of the nasal; diameter of pore 40
to 60 times in total length ott . G. nigricans.
B. Rostral in contact with the supraocular.
a. Rostral not more than twice the width of the
nasal, extending to or slightly beyond a
line connecting the posterior borders of the
eyes.
Diameter of body 47 to 70 times in total length .» G. conjuncta.
Diameter of body 90 to 110 times in total length -. G. gracilior.
b. Rostral very large, at least twice as broad as
the nasal and extending beyond a line
connecting the posterior border of the
eyes ; diameter of body 50 to 80 times in
total length.
442 THE SNAKES OF SOUTH AFRICA.
Snout rounded ae .. G. scutifrons.
Snout with the preoral part concave, appearing slightly
hooked in profile ie a ne .. G., distanti.
II. No supraocular .. Se os ae “ts .. G. labialis.
ite
GLAUCONIA NIGRICANS.
Typhlops nigricans, Schleg. sey p. 38, pl. xxxii. figs. 21-24.
Glauconia nigricans, Bouleng., aD Ogn
South Africa.
Cape Colony: Kentani (Kolbe); Swellendam (Fry) ; Engcobo (Weis-
becker) ; Port Elizabeth (Weale, Drege).
. GLAUCONIA CONJUNCTA.
Stenostoma conjunctum, Jan, Arch. Zool. Anat. Phys. i., 1861, p. 189.
Glauconia conjuncta, Bouleng., t.c., p. 67.
South and East Africa.
Cape Colony: Swellendam (Fry); Engcobo (Weisbecker) ; Aliwal
North (Weisbecker) ; Burghersdorp (Kannemeyer),
Basutoland: Korokoro (Sclater).
Natal: Umvoti (Fry).
Transvaal: Lydenburg (Fry) ; Modderfontein (Purcell).
. GLAUCONIA GRACILIOR, Sp. Nn.
Cape Colony. oe
Van Rynsdorp (A. W. Rogers) ; Matjesfontein (Purcell) ; Clanwilliam
(Leipoldt).
. GLAUCONIA SCUTIFRONS.
Stenostoma scutifrons, Peters, Mon. Berl. Ac., 1854, p. 621.
Glauconia scutifrons, Bouleng., t.c., p. 68.
Glaucomia latifrons, Sternfeld, Sitzb. Ges. Nat. Fr. Berl., 1908, p. 94.
South Africa, Angola.
Cape Colony: Burghersdorp (Kannemeyer).
Natal: Umvoti (Fry).
Transvaal: Pietersburg (Daneel).
Southern Rhodesia: Bulawayo (Kolbe); Matoppo Hills (Pillans)
Salisbury (Marshall).
. GLAUCONIA DISTANTI, Bouleng. in Distant, Nat. Transv. p. 175, fig.,
and f.c., p. 62.
Transvaal, Southern Rhodesia, British Central Africa.
Transvaal: Pretoria (Gough) ; Pietersburg (Daneel).
Southern Rhodesia: Palapye, Bechuanaland (Fry).
. GLAUCONIA LABIALIS, Sternfeld, f.c., p. 92.
German South-West Africa.
FamiILy BOID/AZ.
A single Genus in South Africa.
1,.PY THON:
Daud. Hist. Rept. v. p. 266; Bouleng. Cat. Sn. i. p. 85.
. PYTHON SEBZ.
Coluber sebe, Gmel. S. N. i. p. 1118.
Python sebe, Bouleng., t.c., p. 86.
Natal, Zululand, Transvaal, Southern Rhodesia, Portuguese East
Africa, Tropical Africa.
Natal: Durban (Bowker).
Southern Rhodesia: Salisbury (Thomas).
LIST OF SOUTH AFRICAN SNAKES.
Famity COLUBRID.
Synopsis of the South African Genera.
I. Aglyphe, without grooved fangs in the upper jaw.—
Harmless.
A. Scales smooth, in 19 rows or more.
1. Pupil round ; posterior maxillary teeth longest.
Scales in 19 rows; internasal not entering the nostril ;
snout rounded .. re ae ia an 56
Scales in 27 to 31 rows; internasal entering the nostril ;
snout with vertical sides, more or less prominent .
2. Pupil vertically elliptic or subelliptic ; anal
entire.
Scales in 19 rows; frontal at least once and a half as
long as broad ; maxillary teeth equal
Scales in 19 to 23 rows; frontal broad and short ; pos-
terior maxillary teeth shortest oe
Scales in 23 to 33 rows, with apical pits ; “anterior -
maxillary teeth strongly enlarged
B. Scales smooth, in 15 or 17 rows.
1. Tail short (sub-caudals not more than 50 pairs).
Pupil vertically elliptic ; rostral small; anterior maxil--
lary teeth longest : x sic ane es
Pupil vertically elliptic ; rostral very large, with angular
horizontal edge ; posterior maxillary teeth strongly
enlarged ‘iia ie
Pupil round; rostral small ;
maxillary teeth longest
2. Tail long (sub- -caudals more than 80 pairs) F
pupil “round ; posterior maxillary teeth
longest.
Sub-caudals not keeled Sue
Sub-caudals keeled and notched ..
C. Scales keeled ; pupil vertically elliptic.
Scales in 15 to 17 rows, of vertebral row enlarged and
bicarinate ; anterior maxillary teeth longest é
Scales in 23 to 27 rows, laterals very oblique and with
serrated keels ; teeth very small and few .
II. Opisthoglyphe, with grooved fangs at the posterior
end of the upper jaw.—More or less poisonous.
A, Eye moderate or large ; head more or less distinct
from neck.
1. Subcaudals single; pupil vertically elliptic ;
parietals broken up into small shields :
2. Subcaudals in pairs.
a. Pupil vertically elliptic ;
19 rows.
Anal divided ; loreal separated from the eye by the pre-
ocular; maxillary teeth decreasing in size pos-
teriorly .. st az te ets Esc St
Anal entire ; loreal separated from the eye by the pre-
ocular; maxillary teeth ‘increasing in size pos-
teriorly aa cee on
Anal entire ;
nasal single; anterior
scales in 17 or
loreal entering the eye
b. Pupil round.
a. Scales smooth (or feebly keeled on
the posterior part of the back) in
13 to 17 rows.
Tropidonotus.
Pseudaspis.
Ablabophis.
Lamprophis.
Boodon.
Lycophidium.
Prosymna.
Homalosoma.
Chlorophis.
Philothamnus.
Simocephalus.
Dasypeltis.
Pythonodtpsas.
Tarbophis
Leptodira.
Chametortus.
443
444
Rostral moderate ; nostril in a single, semidivided nasal
Rostral moderate ; nostril between two nasals and the
internasal ; maxillary teeth subequal
Rostral large, projecting, snout pointed . Ra
Rostral moderate ; nostril between the nasals :
two middle maxillary teeth much enlarged
one or
B. Scales keeled, in 19 or 21 rows ; eye
very large .. 30 a-€ ae
c. Pupil horizontal; eye large; scales in
19 rows ; body very slender a6
B. Eye small or very small ; head not distinct from
ex
. Sub-caudals in pairs ;
Scales in ia rows ; no internasals ‘
Scales in 17 or 19 rows; internasals present
2. Sub-caudals single.
Scales in 23 to 27 rows; no preocular Hic
Scales in 15 rows ; nasal in contact with a preocular 40
UIE Proteroglyphe, with grooved fangs at the anterior
end of the upper jaw.—Poisonous.
A. Tail compressed, oar-shaped ;
elongate ;
snakes)
B. te cylindrical, ending ina | point.
. Head short.
a. Scales in I7 rows or more;
bordering the nostril.
Rostral moderate ; scales smooth :
Rostral moderate ; scales strongly keeled
Rostral very large, detached on the sides ;
or keeled on posterior part of body ..
b. Scales in 13 or 15 rows.
Nostril between two nasals; scales in 13 rows;
small .. é
Nostril in a single nasal ;
small :
2. Head narrow, elongate ;
in 19 to 23 rows;
no preocular.
head narrow and
no distinctly enlarged ventrals (Sea-
internasal
scales smooth
eye
‘scales in I 5 rows ; eye very
- scales very oblique,
body slender ye
A.—AGLYPH.
1. TROPIDONOTUS.
Kuhl, Bull. Sc. Nat. i.,
Two Species in South Africa.
1824, p. 81;
Ventrals 162-180 ; anal entire
Ventrals 131-149; anal divided
1. TROPIDONOTUS LA&VISSIMUS.
Natrix levissima, Ginth. Ann. & Mag. N. H.
pl. ix. fig. 4. :
Tropidonotus levissimus, Bouleng., t.c., p. 226.
Grayia genidntee W. Sclater, Ann. S. Afr. Mus. 1:5
fig.
Cape Gare Natal.
Tsomo, Transkei District.—Type of Grayia lubrica.
(3) ix.,
THE SNAKES OF SOUTH AFRICA.
Ampblorhinus.
Trimerorhinus.
Rhamphiophis.
Psammophis.
Dispholidus.
Thelotornis.
Amblyodipsas.
Calamelaps.
Macrelaps.
A parallactus.
Hydrus.
Naia.
Sepedon.
Aspidelaps.
Elapechis.
Homorelaps.
Dendraspis.
Bouleng. Cat. Sn. i. p. 192.
T. levissmus.
T. olivaceus.
1862, p. 124,
1898, p. 109, pl. V,
Ps
“=:
LIST OF SOUTH AFRICAN SNAKES. 445
TROPIDONOTUS OLIVACEUS.
Coronella olivacea, Peters, Mon. Berl. Ac., 1854, p. 622.
Tropidonotus olivaceus, Bouleng., ¢.c., p. 227.
Tropical Africa to Southern Rhodesia.
Mashonaland : Salisbury (Marshall).
2. ABLABOPHIS.
Bouleng. Cat. Sn. i. p. 318.
. ABLABOPHIS REFULUS.
Coronella rufula, Lichtenst, Veru. Doubl. Mus. Berlz. p. 105.
Ablabophis rufulus, Bouleng., t.c.
South Africa.
Cape Colony : Cape Town (de Souza, Oakley) ; Robben Island (Fisk) ;
Stellenbosch (Péringuey) ; Knysna (Groom); Port St. Johns
(Shortridge) ; Touw’s River, Worcester (Le Févre); Prince
Albert (Purcell); Burghersdorp (Kannemeyer); Clanwilliam
(Leipoldt) ; George (Leipoldt) ; Port Elizabeth (Drege, Moor-
house); Albany District (French).
Natal: Durban (Bowker, Sanderson).
Transvaal: Modderfontein (Haagnet).
German South-West Africa: Damaraland (Palgrave).
3. LAMPROPHIS.
Smitn, Ill., Rept.; Bouleng. Cat. Sn. 1. p. 320.
Four Species.
I. Scales in 23 rows.
Internasals a little shorter than the prefrontals ; loreal
a little longer than deep bt - wen ae UY OV Cae
Internasals much shorter than the preefrontals : ‘loreal at
least nearly twice as long as deep .. ‘ ol pe tLOVNGLUS.
Internasals longer than the prefrontals ; loreal as long as
deep or a little ee than ore ae oye cher Le ESHA
II. Scales in 19 rows OB me 2. LL. fusCuS.
Lis
LAMPROPHIS AURORA.
Coluber aurora, Linn. S. N. i. p. 379.
Lamprophis aurora, Bouleng., t.c., p. 321.
Cape Colony, Orange River Colony, Transvaal.
Cape Colony : Cape Town (Stevens, Gardiner, E. A. Morris), Burghers-
dorp (Kannemeyer).
Orange River Colony: Smithfield (Kannemeyer).
Transvaal: Modderfontein (Haagner).
. LAMPROPHIS INORNATUS, Dum. & Bibr. Erp. Gén. vii. p. 464.
Cape Colony.
Cape Town (French). Also 2655.
. LAMPROPHIS FISKII, Bouleng. P.Z.S., 1887, p. 398, pl. xxxiv., and t.c.
p. 322.
Cape Colony.
Worcester (Le Feévre).
. Lampropuis Fuscus, Bouleng. Cat. Sn. i. p. 322, pl. xx., fig. 4.
Cape of Good Hope.
446 THE SNAKES OF SOUTH AFRICA.
4. BOODON.
Dum. & Bibr. Mém. Ac. Sc. xxiii., 1853, p. 460; Bouleng. Cat.
Sie 327.
Four Species in South Africa.
I. Scales in 23 or 25 rows; three labials entering the eye.
Two postoculars; preocular not extending to upper
surface of head ; ventrals 175-196 .. B. infernalis.
Three postoculars ; preocular extending to upper “surface
of head; ventrals 196-210 .. 56 .. B. guttatus.
Il. Scales in 27 to 33 rows; ventrals 192— 237.
Two (rarely three) labials entering the eye; two pairs of
chin-shields in contact with each other ae B. lineatus.
Three labials entering the eye; only one Ba of chin-
shields meeting on the median line .. : B. mentalis.
I. BooDON INFERNALIS, Giinth. Cat. Col. Sn. p. 199 ; Boule t.C., Pp. 339,
pl. xxi. fig. 1.
East and South Africa.
Cape Colony: Cape Town (Southey, Oakley) ; Cape Division (Layard,
Southey, Oakley, Sclater) ; Robben Island (Denysson, Péringuey) ;
Knysna (Groom); Port St. Johns (Shortridge) ; Kimberley
(French) ; King William’s Town (Godfrey).
2. BOODON GUTTATUS.
Lycodon guttatus, Smith, Ill., Rept. pl. xxii.
Boodon guttatus, Bouleng., t.c., p. 331.
Cape Colony.
Cape Town (Layard); O’okiep (Howard); Burghersdorp (Kanne-
meyer).
3. Boopon LInEATus, Dum. & Bibr. Erp. Gén. vii. p. 363; Bouleng., t.c.,
332
Tropical and South Africa.
Cape Colony: Cape Division (no history); Burghersdorp (Kanne-
meyer) ; Port St. John’s (Shortridge) ; Knysna (Groom) ; Touw’s
River, Worcester Division (Le Feévre, Purcell) ; Beaconsfield
(Paynter) ; Robertson (Melle) ; Hanover (Schreiner) ; Beaufort
West (Haagner) ; Ograbis, Little Namaqualand (Strauss).
Natali: Durban (Bowker, Sanderson).
Transvaal: Modderfontein (Haagner) ; Potchefstroom (Gilchrist).
Rhodesia: Mazoe (Darling) ; Salisbury (Darling, Marshall, Thomas) ;
Livingstone (Sykes).
Portuguese East Afica: Delagoa Bay (De Coster).
4. Boopon MENTALIS, Giinth. Ann. & Mag. N. H. (6) i., 1888, p. 331, pl. xx.
fig. A; Bouleng., é.c.. p. 335.
Damaraland.
5. LYCOPHIDIUM.
Dum. & Bibr. Mém. Ac. Sc. xxili., 1853, p. 462; Bouleng. Cat.
Sn. i. p. 336.
Two Species in South Africa.
Ventrals 164-208 .. am # st We .. L..capense.
Ventrals 146-156 .. we 7. ics ae .. L. semiannulis.
LIST OF SOUTH AFRICAN SNAKES. 447
1. LYCOPHIDIUM CAPENSE.
Lycodon capensis, Smith, S. Afr. Quart. Journ. No. 5, 1831, p. 18.
Lycophidium capense, Bouleng., t.c., p. 339.
Tropical and South Africa.
Cape Colony: Grahamstown (Schonland); Port Elizabeth (Moor-
house) ; Burghersdorp (Kannemeyer).
Natal: Durban (Bowker).
Transveaal: Johannesburg (Elleman).
Southern Rhodesia: Mazoe (Darling) ; Salisbury (Marshall, Thomas).
2. LYCOPHIDIUM SEMIANNULIS, Peters, Mon. Berl. Ac., 1854, p. 622;
Bouleng., t.c., p. 339.
Portuguese East Africa, Zululand.
6. SIMOCEPHALUS.,
Gunth. Cat. Col. Sn. p. 194; Bouleng. Cat. Sn. i. p. 344.
Two Species in South Africa.
Frontal a little shorter than the Danica: two post-
oculars ; ventrals 203-241 i : a8 ere SCA PENSISs
Frontal much shorter than the parietals ‘ a single post-
ocular ; ventrals 171-185 Eh she nS se) SS WYVaSSe:
I. SIMOCEPHALUS CAPENSIS.
Hetevolepis capensis, Smith, Ill., Rept. pl. lv.
Simocephalus capensis, Bouleng., t.c., p. 345-
Central Africa, Portuguese East Africa, Southern Rhodesia, Natal.
Natal: Durban (Bowker) ; Southern Rhodesia: Salisbury (Marshall).
2. SIMOCEPHALUS NYASS#, Giinth. Ann. & Mag. N. H. (6) i., 1888, p. 328;
Bouleng., ¢.c., p. 347, pl. xxii. fig. 2.
East and Central Africa, Portuguese East Africa, Natal, Transvaal.
Natal: Durban (Bowker).
Portuguese East Africa: Delagoa Bay (Péringuey).
7. PSEUDASPIS.
Cope, Proc. Ac. Philad., 1864, p. 168 ; Bouleng. Cat. Sn. i. p. 373.
I. PSEUDASPIS CANA.
Coluber cana, Linn. S. N. i. p. 382.
Pseudaspis cana, Bouleng., /.c.
South Africa to Angola and British East Africa.
Cape Colony : Cape Division (Smith, Bishop, Layard, Southey, Oakley,
Kolbe) ; Tzitzikamma River (Harrison); Beaufort West (Jack-
son); Graaff-Reinet (Kannemeyer); Burghersdorp (Kanne-
meyer) ; Middelburg (Piers) ; Tsomo, Transkei (Watermeyer) ;
Port Elizabeth (Drege, Moorhouse) ; Port Nolloth (Howard) ;
Hanover (Schreiner) ; Worcester (Paynter) ; 7 hittle Namaqua-
land (Péringuey, Christensen, Scully).
Natal (Sanderson).
Orange River Colony: Smithfield (Kannemeyer).
Transvaal: Johannesburg (Ross) ; Modderfontein (Haagner).
Southern Rhodesia: Mazoe (Darling) ; Salisbury (Thomas).
448 THE SNAKES OF SOUTH AFRICA.
8. CHLOROPHIS.
Hallow. Proc. Ac. Philad., 1857, p. 52; Bouleng. Cat. Sn. ii. p. gt.
Four Species in South Africa.
I. Ventrals without keels.
Two labials entering the eye; sub-caudals 85-107 .. CC. hoplogaster.
Il. Ventrals with distinct lateral keels.
Two labials entering the eye; a single anterior temporal ;
sub-caudals 77-114 .. ae ae aie .. C. neglectus.
Two labials entering the eye; usually two superposed
anterior temporals ; sub-caudals 114-140 .. .. C. natalensis.
Three labials entering the eye ; sub-caudals 94-133 .. C. irregularis.
I.
nN
CHLOROPHIS HOPLOGASTER.
Ahatulla hoplogastey, Ginth. Ann. & Mag. N. H. (3) xi., 1863, p. 284.
Chlorophis hoplogaster, Bouleng., t.c., p. 93, pl. v. fig. 2.
South Africa, Central and East Africa.
Cape Colony: Wynberg ? (Gardner); Port Elizabeth (Cregoe, Moor-
house) ; Port St. Johns (Shortridge) ; Knysna (Baimbridge).
Natal: Durban (Bowker, Sanderson).
Transvaal: Barberton (Rendall).
. CHLOROPHIS NEGLECTUS.
Philothamnus neglectus, Peters, Mon. Berl. Ac., 1866, p. 890.
Chlorophis neglectus, Bouleng., t.c., p. 94.
East Africa, Southern Rhodesia, Butish Central Africa.
Southern Rhodesia: Salisbury (Marshall).
. CHLOROPHIS NATALENSIS.
Dendrophis natalensis, Smith, Ill., Rept. pl. xiv.
Chlorophis natalensis, Bouleng., tc, Pp: 94.
South and Central Africa.
Cape Colony: Mossel Bay (Layard); Port St. Johns (Shortridge) ;
Port Elizabeth (Moorhouse); Kimberley (French); Tsomo
(Watermeyer).
Natal: Durban (Sanderson).
Transvaal: Lydenburg (Kilgou).
North Western Rhodesia: Kafue River (Drury).
. CHLOROPHIS IRREGULARIS.
Coluber ivregularis, Leach, in Bowdich, Ashantee, p. 494.
Chlorophis ivregularis, Bouleng., t.c., p. 96.
Tropical Africa, Southern Rhodesia.
Southern Rhodesia : Mazoe (Darling) ; Salisbury (Marshall, Thomas).
g. PHILOTHAMNUS.
Smith, Ill., Rept.; Bouleng. Cat. Sn. ii. p. 98.
A single Species in South Africa.
PHILOTHAMNUS SEMIVARIEGATUS, Smith, op. c., pls. lix. and Ix. ;
Bouleng., #.c., p. 99.
Tropical and South Africa.
Cape Colony: Douglas (Orpen).
Transvaal: Barberton (Rendall).
Rhodesia: Salisbury (Thomas, Darling) ; Livingstone (Stephenson).
Portuguese East Africa: Delagoa Bay (De Coster).
Ie
LIST OF SOUTH AFRICAN SNAKES. 449
10. PROSYMNA.
Gray, Cat. Sn. p. 80; Bouleng. Cat. Sn. ii. p. 246.
Five Species in South Africa.
Scales smooth, in 15 rows.
A. Internasal paired; two superposed anterior
temporals .. oe ci = ss .. P. sundevallit.
B. Internasal single ; a single anterior temporal.
Width of the frontal not half the width of the head ;
ventrals 167 ; subcaudals 50 .. P. frontalis.
Width of the frontal more than half the width of the
head ; ventrals 131-153 ; subcaudals 19-34 P. ambigua.
Width of the frontal more than half the width of the
head ; ventrals 169-185 ; subcaudals 38-49 .. P. bergert.
II. Scales keeled, in 17 rows ; a single internasal Bo eae
I.
PROSYMNA SUNDEVALLII.
Temnorhynchus sundevallit, Smith, Ill., Rept., App. p. 17.
Prosymna sundevallii, Bouleng., t.c., p. 247.
Cape Colony, Natal Orange River Colony, Transvaal.
Cape Colony: Burghersdorp (Kannemeyer): Clanwilliam (Slabber) ;
Hanover (Schreiner) ; Graaff-Reinet (Paynter) ; Tulbagh (Light-
foot) ; Little Namaqualand.
2. PROSYMNA FRONTALIS.
Temnorhynchus frontalis, Peters, Mon. Berl. Ac., 1867, p. 236, pl. —,
Ee ae
Prosymna frontalis, Bouleng., ¢.c., p. 248.
German South-West Africa, Angola.
3. PROSYMNA AMBIGUA, Bocage, Jorn. Sc. Lisb. iv., 1873, p. 218; Bouleng.,
t.c., p. 248.
Southern. Rhodesia, Zululand, East Africa, Angola.
4. PROSYMNA BERGERI, Lindholm, Jahrb. Nassau. Ver. lv., 1902, p. 57.
German South-West Africa.
5. PROSYMNA JANI, Bianconi, Mem. Acc. Bologna (2) i. 1862, p. 470, pl, i. ;
Bouleng., ¢.c., p. 249.
Portuguese East Africa, Zululand.
11. HOMALOSOMA.
Wagler, Syst. Amph. p. 190; Bouleng. Cat. Sn. ii. p. 273.
Two Species in South Africa.
Ventral 115-144 Dic sie xs 7 ot v0 lle Luiviz:
Ventrals 97-110 a. se 6 bs Se .. HH. variegatum.
ie
HOMALOSOMA LUTRIX.
Coluber lutrix, Linn. S. N. i. p. 375.
Homalosoma lutrix, Bouleng., t.c., p. 274.
Homalosoma shivanum, Bouleng., t.c., p. 276.
South Africa, Central and East Africa.
Cape Colony: Cape Town (Oakley) ; East London (Wood) ; Caledon
(Burgess) ; Port St. Johns (Shortridge) ; Knysna (Groom) ;
Burghersdorp (Kannemeyer) ; Middelburg (Piers) ; Paarl (Purcell) ;
Port Elizabeth (Moorhouse) ; Little Namaqualand (Péringuey).
Transvaal: Barberton (Rendall).
2G
450 THE SNAKES OF SOUTH AFRICA.
2. HOMALOSOMA VARIEGATUM, Peters, Mon. Berl. Ac., 1854, p. 622;
Bouleng., ¢.c., p. 276.
Portuguese East Africa, Zululand.
Delagoa Bay (De Coster).
12.) DASMPEEIIS:
Wagler, Syst. Amph. p. 178; Bouleng. Cat. Sn. ii. p. 353.
A single Species in South Africa.
1. DASYPELTIS SCABRA.
Coluber scabey, Linn. S. N.i. p. 384.
Dasypeltis scabva, Bouleng., ¢.c., p. 354.
Tropical and South Africa, Egypt.
Cape Colony: Cape Town (Pillans) ; Swellendam (Cairncross) ; Wor-
cester (Le Fevre) ; Murraysburg (Tyson) ; East London (Wood) ;
Port St. Johns (Shortridge); Burghersdorp (Kannemeyer) ;
Clanwilliam (Schlechter); Hanover (Schreiner); Graaff-Reinet
(Paynter); Port Elizabeth (Drege); Little Namaqualand
(Warden).
Basutoland: Morija (Dyke).
Natal: Durban (Bowker).
Transvaal: Johannesburg (Ross) ; Modderfontein (Haagner).
Southern Rhodesia: Salisbury (Thomas, Darling).
Portuguese East Africa: Delagoa Bay (De Coster).
B.—OPISTHOGLY PH.
13. PYTHONODIPSAS.
Giinth. Ann. & Mag. N. H. (4) i., 1868, p. 425; Bouleng. Cat.
Sn. ili. p. 45.
1. PYTHONODIPSAS CARINATA, Giinth., ¢.c., p. 426; Bouleng., /.c.
Zambesi, Damaraland.
Damaraland (Nightingale).
14. TARBOPHIS.
Fleischm. Dalm. nov. Serp. Gen. p. 17; Bouleng. Cat. Sn. ili. p. 47.
A single Species in South Africa.
1. TARBOPHIS SEMIANNULATUS.
Telescopus semiannulatus, Smith, Ill., Rept. pl. ixxii.
Tarbophis semiannulatus, Bouleng., t.c., p. 51.
Basutoland, Transvaal, Rhodesia, Portuguese East Africa, Central and
East Africa.
Basutoland : Sesheke (Jella).
Transvaal: Barberton (Randall).
Portuguese East Africa: Delagoa Bay (De Coster).
15. LEPTODIRA.
Giinth. Cat. Col. Sn. p. 165 ; Bouleng. Cat. Sn. iii. p. 88.
A single Species in South Africa.
I. LEPTODIRA HOTAMBCIA.
Coronella hotambeia, Laurenti, Syn. Rept. p. 85.
LIST OF SOUTH AFRICAN SNAKES. 451
Leptodiva hotambeia, Bouleng., ¢.c., p. 89.
Tropical and South Africa.
Cape Colony: Cape Town (de Souza); Port Elizabeth (Moorhouse,
Drege) ; Burghersdorp (Kannemeyer) ; Clanwilliam (Leipoldt) ;
Worcester (Purcell) ; East London (Wood); Port St. Johns
(Shortridge); Hanover (Schreiner); Kimberley (French) ;
Little Namaqualand (Schlechter).
Basutoland : Morija (Dyke).
Natal: Pine Town (Bowker) ; Malvern (Bowker).
Transvaal: Barberton (Rendall).
Southern Rhodesia : Salisbury (Marshall).
Portuguese East Africa: Delagoa Bay (De Coster).
16. CHAMASTORTUS.
Ginth. P.Z.S., 1864, p. 310; Bouleng. Cat. Sn. ili. p. 98.
I. CHAMTORTUS AULICUS.
Giinth., /.c., pl. xxvi. fig. 2; Bouleng., J.c.
East and Central Africa, Portuguese East Africa, Transvaal.
Leydsdorp, Transvaal (Norton).
17. AMPLORHINUS,
Smith, Ill., Rept.; Bouleng. Cat. Sn. iii. p. 124.
1. AMPLORHINUS MULTIMACULATUS, Smith, op. c., pl. lvil.; Bouleng., ¢.c.,
p- 125.
Cape Peninsula.
Cape Peninsula (de Souza, Sclater).
18. TRIMERORHINUS.
Smith. Ill., Rept.; Bouleng. Cat. Sn. iii. p. 138.
Two Species in South Africa.
Eye as long as its distance from the nostril ae .. I. rhombeatus.
Eye shorter than its distance from the nostril .. .. TL. riteniatus.
I. TRIMERORHINUS RHOMBEATUS.
Coluber rhombeatus, Linn. S. N. i. p. 380.
Trimerorhinus rhombeatus, Bouleng., /.c.
Psammophis longementalis, Roux, Zool. Jahrb., Syst. xxv., 1907, p. 736,
pl. xxvii.
South Africa, Angola.
Cape Colony: Cape Peninsula (Finlay, Sclater); Tulbagh (Klein-
schmidt) ; Touw’s River (Le Fevre) ; Knysna (Groom) ; Burghers-
dorp (Kannemeyer) ; Robertson (Melle) ; Worcester (Paynter) ;
Clanwilliam (Schlechter) ; Middelburg (Piers) ; George (Leipoldt) ;
Caledon (Burges) ; Uitenhage (O’Neil) ; Port Elizabeth (Moor-
house) ; Kimberley (French) ; Tsomo, Transkei (Watermeyer).
Orange River Colony: Harrismith (Ross).
Transvaal: Lydenburg (Kilgour) ; Krugersdorp (Watson).
2. TRIMERORHINUS TRITENIATUS,
Rhagerrhis triteniata, Ginth., Ann. & Mag. N. H. (4) 1., 1868, p. 423,
pl. xix. fig. H.
Trimerorhinus triteniatus, Bouleng., t.c., p. 139.
Northern parts of Cape Colony, Transvaal, Tropical Africa.
Cape Colony: Barkly West (Tucker) ; Kuruman (Moffat).
Southern Rhodesia: Salisbury (Marshall).
452 THE SNAKES OF SOUTH AFRICA.
19. RHAMPHIOPHIS.
Peters, Mon. Berl. Ac., 1854, p. 624; Bouleng. Cat. Sn. iii. p. 144.
A single Species in South Africa.
1. RHAMPHIOPHIS MULTIMACULATUS.
Coronella multimaculata, Smith, Ill., Rept. pl. 1xi.
Rhamphiophis multimaculatus, Bouleng., t.c., p. 148.
Northern parts of Cape Colony, Orange River Colony, German South-
West Africa.
Cape Colony: Little Namaqualand (Howard) ; Kenhardt (Schlechter) ;
Hanover (Schreiner) ; Burghersdorp (KKannemeyer).
Orange River Colony : Smithfield (Kannemeyer).
20. PSAMMOPHIS.
Boie, Isis, 1827, p. 521; Bouleng. Cat. Sn. ili. p. 152.
Ten Species in South Africa.
I. Scales in 17 rows; ventrals 154-108.
A, Anal entire; two preoculars .. ee .. PP. notostictus.
B. Anal divided (rarely entire).
1. Preocular extensively in contact with the
frontal ; forehead concave ; two labials
entering the eye: .. P. furcatus.
2. Preocular narrowly in contact with or
separated from the frontal.
a. Two preoculars ; rostral considerably
broader than deep.
8 upper labials, 3 entering the eye but “fe .. LP. tvansvaaliensis.
9 upper labials, 2 entering the eye Sit che .. P. trigyvammus.
9 upper labials, 3 entering the eye ae ate .. P. bocagit.
b. Asingle preocular ; rostral as deep as
broad or slightly broader than deep ;
two labials entering the eye.
Frontal, in the middle, narrower than the oeey
sub-caudals 90-116 . P. sibilans.
Frontal, in the middle, nearly a as broad as the supra-
ocular ; sub- caudals 64-95 . Far se .. LP. brevirostris.
II. Scales in 15 rows.
Preocular extensively in contact with the frontal ;
ventrals 165-177 me ve oe a tL.
Preocular not reaching the frontal ; ventrals 136-155 PP. crucifer.
III. Scales in 13 rows; ventrals 141-155 as .. LP. angolensis.
I. PSAMMOPHIS NoTostTIcTUS, Peters, Mon. Berl. Ac., 1867, p. 237;
Bouleng., ¢.c., p. 156.
South Africa, Angola, Lower Congo.
Cape Colony : Cape Town (Rosser, Lightfoot) ; Stellenbosch (Francke);
Grahamstown; Middelburg (Piers); Victoria West (Piers) ;
Touw’s River (Le Févre) ; Beaufort West (Jackson); Graaff-
Reinet (Paynter); Burghersdorp (Kannemeyer) ; Malmesbury
Division (Kisel) ; Ceres (Purcell) ; Caledon (Burges) ; Robertson
(Melle); Hanover (Schreiner); Port St. Johns (Shortridge) ;
Little Namaqualand (Schlechter).
Orange River Colony : Smithfield (Iannemeyer).
German South-West Africa: Damaraland (Nightingale).
LIST OF SOUTH AFRICAN SNAKES. 453
2. PSAMMOPHIS FURCATUS, Peters, f.c., p. 236; Bouleng., ¢.c., p. 164.
Cape Colony, Transvaal, Southern Rhodesia, German South-West
Africa.
Cape Colony: Cape Town (Fisk), Burghersdorp (Kannemeyer), Little
Namaqualand (Péringuey, Schlechter), Ograbies (Strauss).
Psammophis leightoni, Bouleng. P.Z.S., 1902, i. p. 126, pl. xii., I now
regard as not separable from P. furcatus, the chief difference
being that the dark and light markings on the back of the head
are transverse in the former, longitudinal in the latter.
3. PSAMMOPHIS TRANSVAALIENSIS, Gough, Ann. Transv. Mus. i., 1908,
pest, he:
Transvaal.
4. PSAMMOPHIS TRIGRAMMUS, Giinth. Ann. & Mag. N. H. (3) xv., 1865,
p. 95, pl. ii. fig. E.; Bouleng. Cat. Sn. iii. p. 159.
Namaqualand.
5. PSAMMOPHIS BOCAGII, Bouleng. Cat. Sn. ili. p. 161, pl. villi. fig. 1.
Southern Rhodesia, Angola.
Victoria Falls (Sclater).
6. PSAMMOPHIS SIBILANS.
Coluber sibilans, Linn. S. N. 1. p. 383.
Psammophis sibilans, Bouleng., /.c.
Psammophis thomasi, Gough, Ann. Transv. Mus. i., 1908, p. 30, fig.
Egypt, Tropical Africa, northern parts of South Africa.
Cape Colony: Little Namaqualand (Strauss).
Transvaal: Leydsdorp (Norton) ; Irene (Taylor).
Rhodesia: Salisbury (Thomas); Mazoe (Alston); Kafue River
(Drury).
7. PSAMMOPHIS BREVRIOSTRIS, Peters, Sitzb. Ges. Naturf, Fr., 1881,
p- 89; Bouleng., ¢.c., p. 166.
South Africa, Angola.
Cape Colony: Cape Division (F. L. Alcock) ; Tulbagh (Kleinans).
Natal: Durban (Bowker) ; Pine Town (McKerr).
8. PSAMMOPHIS JALL2, Peracca, Boll. Mus. Torin. xi., 1896, No. 255, fig.
Southern Rhodesia.
Importuni District (Pillans).
g. PSAMMOPHIS CRUCIFER.
Coluber crucifer, Daud. Hist. Rept. vii. p. 189.
Psammophis crucifer, Bouleng., t.c., p. 169.
South Africa.
Cape Colony : Cape Peninsula (Fisk, Taylor, Howes, Southey) ; Stellen-
bosch (Purcell) ; Knysna (Groom) ; Port Elizabeth (Moorhouse,
Weale) ; Burghersdorp (Kannemeyer) ; Beaconsfield (French) ;
Grahamstown (Jupp); Beaufort West (Rice) ; Little Namaqua-
land (Scully, Schlechter).
Transvaal: Krugersdorp (Watson) ; Johannesburg (Cregoe) ; Lyden-
burg (Kilgour).
Basutoland: Morija (Sclater).
10. PSAMMOPHIS ANGOLENSIS.
Amphiophis angolensis, Bocage, Jorn. Sc. Lisb. iv., 1872, p. 82.
Psammophis angolensis, Bouleng., t.c., p.. 170.
East and Central Africa, Angola, Orange River Colony.
454 THE SNAKES OF SOUTH AFRICA.
21. THELOTORNIS.
Smith, Ill., Rept. ; Bouleng. Cat. Sn. iii. p. 184.
1. THELOTORNIS KIRTLANDII.
Leptophis kivtlandii, Hallow. Proc. Ac. Philad., 1844, p. 62.
Thelotornis kivtlandi, Bouleng., t.c., p. 185.
Tropical Africa, Southern Rhodesia, Portuguese East Africa, Zululand,
Natal.
Natal: Durban (Bowker).
Portuguese East Africa: Delagoa Bay (De Coster).
Southern Rhodesia: Irome (Blackbeard) ; Zambesi (Chapman).
22. DISPHOLIDUS:
Duvernoy, Ann. Sc. Nat. xxvi., 1832, p. 150; Bouleng. Cat. Sn. iii.
p. 186.
1. DISPHOLIDUS TYPUS.
Bucephalus typus, Smith, Zool. Journ. iv., 1829, p. 441.
Dispholidus typus, Bouleng., t.c., p. 187.
Tropical and South Africa.
Cape Colony: Cape Peninsula (Layard, Howes, Sclater); Knysna
(Groom) ; Burghersdorp (Kannemeyer) ; Port St. Johns (Short-
ridge) ; Port Elizabeth (Moorhouse).
Natal: Durban (Bowker).
Portuguese East Africa: Delagoa Bay (De Coster).
Southern Rhodesia: Salisbury (Darling) ; Mazoe (Darling) ; Shangani
District (Pillans).
23. AMBLYODIPSAS.
Peters, Mon. Berl. Ac., 1856, p. 592; Bouleng. Cat. Sn. iii. p. 244.
1. AMBLYODIPSAS MICROPHTHALMA,
Calamaria microphthalma, Bianconi, Spec. Zool. Mosamb. p. 94, pl. xii.
Ree
Amblyodipsas microphthalma, Bouleng., /.c.
Portuguese East Africa, Zululand.
24. CALAMELAPS.
Giinth. Ann. & Mag. N. H. (3) xviii., 1866, p. 26; Bouleng. Cat. Sn. iii.
p- 245.
Two Species in South Africa.
Scales in 19 rows; ventrals 161-174 .. We .. C. warreni.
Scales in 17 rows; ventrals 133-134 .. ae .. ©. concolor.
I. CALAMELAPS WARRENI, Bouleng. Ann. Natal Mus. i., 1908, p. 234, fig.
Zululand, Basutoland.
Sesheke, Basutoland (Jalle).
2. CALAMELAPS CONCOLOR,
Choristodon concolor, Smith, Ill., Rept., App. p. 18.
Calamelaps concolor, Bouleng. Cat. Sn. iii. p. 246.
Calamelaps mivoni, Mocquard, Bull. Mus. Paris, 1905, p. 77.
Caffraria, Natal.
List OF SOUTH, APRICAN. SNAKES. 455
25. MACRELAPS.
Bouleng. Cat. Sn. ili. p. 255.
I. MACRELAPS MICROLEPIDOTUS.
Uriechis microlepidotus, Ginth. Ann. & Mag. N. H. (3) v., 1860, p. 168,
DI abe
Macrelaps microlepidotus, Bouleng., /.c.
Natal, Eastern parts of Cape Colony.
Cape Colony: Port St. Johns (Kannemeyer).
Natal: Durban (Bowker).
26. APARALLACTUS.
Smith, Ill., Rept., App. p. 15; Bouleng. Cat. Sn. iii. p. 255.
Two Species in South Africa.
Nasal divided ; ventrals 153-180 a, ae .. A. guentheri.
Nasal entire ; ventrals 138-166 ie =o .. A. capensis.
1. APARALLACTUS GUENTHERI, Bouleng. Ann & Mag. N. H. (6) xvi., 1895,
p- 172, and ¢.c., p. 259, pl. xi. fig. 2.
East and Central Africa, Angola, Southern Rhodesia.
2. APARALLACTUS CAPENSIS, Smith, op. c., p. 16; Bouleng., Z.c., p. 259.
South and East Africa,
Cape Colony: East London (Londt) ; Burghersdorp (Kannemeyer).
Transvaal: Leydenburg (Kilgour); Modderfontein (Haagner).
C.—OPISTHOGLY PH.
27 VOD IWS:
Schneid. Hist. Amph. i. p. 233; Bouleng. Cat. Sn. iii. p. 266.
I. HYDRUS PLATURUS.
Anguis platurus, Linn. S. N. i. p. 391.
Hydrus platurus, Bouleng., t.c., p. 267.
Indian Ocean and Tropical Pacific ; coast of Cape Colony.
Table Bay and False Bay (Stockdale, Fisk) ; George; Cape Agulhas
(J. van Breda).
28. NAIA.
Laurenti, Syn. Rept. p. 90; Bouleng. Cat.-Sn. iii. p. 372.
Four Species in South Africa.
I, Suboculars separate the eye from the upper labials.
21 or 23 scales across neck, 19 to 21 across middle of
body .. ae .. N. haie.
17 scales across neck as well as across body ote N. anchieta.
Il. Third or third and fourth upper labials entering
the eye.
Sixth upper labial largest and in contact with post-
oculars ; 23 scales across neck .. N. flava.
Third upper labial deepest, sixth not in contact with
postoculars ; 23 to 29 scales across neck .. N. nigricollis.
456 THE* SNAKES OF SOUTH AFRICA.
1. NAIA HAIE.
Coluber hate, Linn. S. N. i. p. 387.
Nata haie, Bouleng., ¢.c., p. 374.
Southern Palestine, North and East Africa, Southern Rhodesia,
Zululand, Transvaal.
Portuguese East Africa: Delagoa Bay (De Coster).
Southern Rhodesia: Hunyani River (Thomas, Darling); Salisbury
(Darling).
2. NAIA ANCHIETA, Bocage, Jorn. Sc. Lisb. vii. 1879, p. 89 ; Bouleng,, ¢.c.,
5 Se
Ferre and German South-West Africa, North-West Rhodesia.
Livingstone, North-West Rhodesia (Sykes).
3. NAIA FLAVA.
Vipera flava, Merrem, Tent. Syst. Amph. p. 154.
Naia flava, Bouleng., t.c., p. 376.
Cape Colony, German South-West Africa. :
Cape Town (Fairbridge); Worcester (Le Févre); Burghersdorp
(Kannemeyer) ; Douglas (Orpen); Caledon; Riversdale ;
Knysna; Port Elizabeth (Moorhouse) ; &c.
4. NAIA NIGRICOLLIS, Reinh. Vid. Selsk. Skrift. x. 1843, p. 269, pl. iii.
figs. 5-7; Bouleng., ¢.c., p. 378.
From_Senegambia and Upper Egypt to Angola, German South-West
Africa, Little Namaqualand, Southern Rhodesia, the Transvaal,
and Natal.
Cape Colony: Little Namaqualand (Schlechter).
Natal: Victoria County (Bowker).
Transvaal: Barberton (Rendall) ; Modderfontein (Haagner).
Southern Rhodesia: Mazoe (Darling).
German South-West Africa: Damaraland (Hutchinson).
29. SEPEDON.
Merrem, Tent. Syst. Amph. p. 146; Bouleng. Cat. Sn. iii. p. 388.
I. SEPEDON H#®MACHATES.
Coluber hemachata, Lacep. Hist. Serp. ii. p. 121.
Sepedon hemachates, Bouleng., t.c., p. 389.
Cape Colony, Natal, Orange River Colony, Transvaal, German South-
West Africa.
Cape Colony : Cape Peninsula (Bishop, Howes, Turley, Carr) ; Tulbagh
(Kleinschmidt) ; Tsomo, Transkei (Watermeyer) ; Beaufort West
(Rice) ; George (Leipoldt).
Basutoland : Morija (Dyke).
Transvaal: Johannesburg (Fry); Krugersdorp (Watson) ; Modder-
fontein (Haagner).
30. ASPIDELAPS.
Smith, Ill., Rept., App. ; Bouleng. Cat. Sn. iii. p. 390.
Two Species.
Internasals in contact behind the rostral; third and
fourth upper labials entering the eye; scales all
smooth ; ventrals 146-176 .. ahs a ae
Internasals separated by the rostral ; fourth upper labial
entering the eye; scales on posterior part of body
keeled ; ventrals 115-135 Be; ae oe .. A scutatus.
A. lubricus.
LIST OF SOUTH AFRICAN SNAKES. 457
I, ASPIDELAPS LUBRICUS.
Natrix lubrica, Laurenti, Syn. Rept. p. 80.
Aspidelaps lubricus, Bouleng., l.c.
Cape Colony, German South-West Africa, Rhodesia.
Cape Colony : Cape Town (Layard) ; Durbanville (Schabort) ; Malmes-
bury (Gird & Lightfoot); Robertson (Hodges) ; Burghersdorp
(Kannemeyer); Clanwilliam (Leipoldt, Smolke, Lightfoot) ;
Middelburg (Piers); Upington; Hanover (Schreiner); Port
Nolloth (Howard) ; Namaqualand (Péringuey). |
Zambesi (Chapman).
2. ASPIDELAPS SCUTATUS.
Cyrtophis scutatus, Smith, Ill., Rept., App. p. 22.
Aspidelaps scutatus, Bouleng., t.c., p. 391.
Natal, Portuguese East Africa, Southern Rhodesia.
Portuguese East Africa ; Delagoa Bay (De Coster).
31. ELAPECHIS.
Bouleng. Cat. Sn. iii. p. 358.
Three Species in South Africa.
Portion of rostral visible from above not half as long as
its distance from the frontal, which shield is a little
shorter than the parietals ; diameter of eye less than
its distance from the nostril in the adult .. .. EE. guenthert.
Portion of rostral visible from above at least half as long
as its distance from the frontal, which shield is much
shorter than the parietals ; diameter of eye less than
its distance from the nostrilintheadult .. .. E. sundevallit.
Portion of rostral visible from above at least half as long
as its distance from the frontal, which shield is much
shorter than the parietals ; diameter of eye equal to
its distance from the nostril .. ee St .. &. decostert.
I. ELAPECHIS GUENTHERI.
Elapsoidea guentheri, Bocage, Jorn. Sc. Lisb. i., 1866, p. 70, pl. 1. fig. 3.
Elapechis guentheri, Bouleng., t.c., p. 359.
Tropical Africa, Transvaal.
2. ELAPECHIS SUNDEVALLII.
Elaps sundevalli, Smith, Il., Rept. pl. Ixvi.
Elapechis sundevallii, Bouleng., t.c., p. 360.
Natal.
Estcourt.
3. ELAPECHIS DECOSTERI.
Elapsoidea decosteri, Bouleng., Ann. & Mag. N. H. (6) ii., 1888, p. 141.
Elapechis decosteri, Bouleng., t.c., p. 360.
Portuguese East Africa, Zululand.
Delagoa Bay (De Coster).—Type.
32. HOMORELAPS.
Jan, Rev. et Mag. Zool., 1858, p. 518; Bouleng. Cat. Sn. iii. p. 408,
Two Species.
Ventrals 160-215 .. site = i Ns .. 1. lacteus.
Ventrals 219-244 .. ne 5 3 Ns nie ete OV SLES.
458 THE SNAKES OF SOUTH AFRICA.
1. HOMORELAPS LACTEUS.
Coluber lacteus, Linn. S. N. i. p. 381.
Homorelaps lacteus, Bouleng., t.c., p. 409.
Cape Colony, Natal, Orange River Colony.
Cape Colony: Cape Peninsula (Southey); Worcester (Lycett) ;
Robertson (Hodges) ; George (Frere) ; Piquetburg (Watermeyer) ;
Caledon (Burgess; Port Elizabeth (Matcham); Kimberley
(French).
Natal (Ellman).
Transvaal: Ermelo (Watermeyer).
2. HOMORELAPS DORSALIS.
Elaps dorsalis, Smith, Ill., Rept., App. p. 21.
Homorelaps dorsalis, Bouleng., t.c., p. 410.
Eastern parts of Cape Colony, Natal, Orange River Colony.
Orange River Colony: Brandfort (Haagner) ; Smithfield (Itannemeyer).
33. DENDRASPIS.
Schleg. Versl. Zool. Gen. Amsterd. 1848; Bouleng., Cat. Sn. ili. p. 434.
Two Species in South Africa.
Scales in 19 to 23 rows in the middle of the body; 8
upper labials ; upper anterior temporal not longer
than the lower .. ae sie ae 50 .. D. angusticeps.
Scales in 25 rows; 9 upper labials ; upper anterior tem-
poral twice as long as the lower ; oc .. D.mamba.
I. DENDRASPIS ANGUSTICEPS.
Naja angusticeps, Smith, Ill., Rept. pl. lxx.
Dendraspis angusticeps, Bouleng., t.c., p. 437-
Natal, Zululand, Transvaal, Southern Rhodesia, East and Central
Africa.
Natal: Durban (Butler) ; Zululand (Jones).
2. DENDRASPIS MAMBA, Gough, Ann. Transv. Mus. i., 1908, p. 37, fig.
Transvaal.
Famity VIPERID.
Synopsis of the South African Genera.
Eye moderate, with round pupil; head covered with
large symmetrical shields ; loreal present .. .. Causus.
Eye moderate or small, with vertical pupil ; head covere
with scales ae Be re be se Bo Peck
Eye minute, with round pupil ; head small, covered with
large symmetrical shields ; loreal absent .. .. Atvactaspis.
1. CAUSUS.
Wagler, Syst. Amph. p. 172; Bouleng. Cat. Sn. ili. p. 465.
Two Species in South Africa.
Snout obtuse, more or less prominent ; ventrals 120-155 C. vhombeatus.
Snout pointed, prominent, more or less turned up at the
end; ventrals 113-125 sc cae Do .. C. defilippit.
LIST OF SOUTH AFRICAN SNAKES.
I. CAUSUS RHOMBEATUS.
459
Sepedon rhombeatus, Lichtenst. Verz. Doubl. Mus. Berl. p. 106.
Causus rhombeatus, Bouleng., f.c., p. 467.
Tropical and South Africa.
Cape Colony: Cape Peninsula (Tinley) ; Knysna (Oakley) ; Burghers-
dorp (Kannemeyer) ; Tsomo, Transkei (Watermeyer) ; George
(Leipoldt) ; Port St. Johns (Shortridge) ; Kimberley (French).
Basutoland : Morija (Dyke).
Natal: Durban (Bowker).
Transvaal: Barberton (Rendall) ; Krugersdorp (Watson).
Southern Rhodesia: Salisbury (Marshall) ; Mazoe (Darling).
2. CAUSUS DEFILIPPII.
Heterodon defilippii, Jan, Arch. Zool. Anat. Phys. ii, 1862, p. 225.
Causus defilippu, Bouleng., t.c., p. 469.
Natal, Transvaal, Southern Rhodesia, Central and East Africa.
Natal: Pinetown (Bowker).
Transvaal: Barberton (Rendall).
Rhodesia: Salisbury (Thomas) ; Livingstone (Sykes).
2. Bids:
Gray, Zool. Miscell. p. 69; Bouleng. Cat. Sn. iii.
Six Species in South Africa.
I. Nostrils directed upwards ; scales in 31 to 41 rows ..
II. Nostrils directed upwards and outwards ; scales in
21 to 31 rows
A. Supraocular region not raised, without horn-like
scales ; sub-caudals well developed and smooth
in both sexes.
Outer row of scales smooth
Outer row of scales keeled . ee a ae
B. Supraocular region raised, without horn-like
scales ; sub-caudals well developed and smooth
in both sexes :
C. Supraocular region usually with horn-like scales ;
sub-caudals, in females, small and scale- like,
more or less distinctly keeled.
Several supraorbital horns :
Mee horn, if present, single
. BITIS ARIETANS.
Vipera arietans, Merrem, Tent. Syst. Amph. p. 152.
Bitis avietans, Bouleng., t.c., p. 493.
Tropical and South Africa, Arabia.
Cape Colony : Cape Peninsula (Oakley) ; Paarl (Hugo) ;
B.
nh
eofey)
. 492.
avietans.
. peringueyt.
. atvopos.
. nornata.
. cornuta.
. caudalis.
Port St. Johns
(Shortridge) ; Port Elizabeth (Moorhouse) ; Little Namaqualand
(Péringuey).
Basutoland: Morija (Dyke).
Natal: Victoria County (Bowker).
Southern Rhodesia: Mazoe (Darling); Hunyani River (Thomas) ;
Salisbury (Thomas).
German South-West Africa: Damaraland (Fairbridge).
2. BITIS PERINGUEYI.
Vipera peringueyi, Bouleng. Ann. & Mag. N. H. (2) it,
Bitis peringueyi, Bouleng., ¢.c., p. 495.
German South West Africa, Kalahari, Angola.
Walfisch Bay territory (Nightingale), type.
1888, p. 141.
460 THE SNAKES OF SOUTH “AF RICAs
3. BITIS ATROPOS.
Coluber atropos, Linn. S. N. i. p. 375.
Bitis atropos, Bouleng., t.c., p. 495.
Cape Colony, Transvaal.
Cape Colony : Cape Peninsula (Fairbridge, Layard, Lightfoot) ; Knysna
(Oakley) ; East London (Wood); Port Elizabeth (Drege,
Moorhouse).
Transvaal: Lydenburg (Kilgour).
4. BITIS INORNATA. |
Echidna innorata, Smith, Ill., Rept. pl. iv.
Bitis innorata, Bouleng., ¢.c., 496.
Cape Colony.
5. BITIS CORNUTA.
Vipera cornuta, Daud. Hist. Rept. vi. p. 188.
Bitis cornuta, Bouleng., t.c., p. 497.
Cape Colony, German South West Africa.
Cape Colony : Cape Peninsula (Oakley, Ogilvie) ; Calvinia, Clanwilliam
(Schlechter) ; Worcester (Le Févre, Paynter) ; Serowe, Bechuana-
land (Schonland); Little Namaqualand (Turle); Tulbagh
(Kleinschmidt).
6. BITIS CAUDALIs.
Vipera caudalis, Smith, Ill., Rept. pl. vii.
Bitis caudalis, Bouleng., t.c., p. 498.
Angola to the north part of Cape Colony and Southern Rhodesia.
Cape Colony: Little Namaqualand (Hirsch, Scully, Thomas, Turle) ;
Victoria West (Piers) ; Serowe, Bechuanaland (Blackbeard).
Southern Rhodesia: Insiza (French).
3. ATRACTASPIS.
Smith, Ill., Rept.; Bouleng. Cat. Sn. iii. p. 510.
Two Species in South Africa.
Ventrals 221-260 aa 36 sa ae .. A. bibronit.
Ventral 199 ae as ey Se ae .. A. duerdent.
1, ATRACTASPIS BIBRONII, Smith, op. c., pl. Ixxi.; Bouleng., ¢.c., p. 515.
Cape Colony, Natal, Zululand, Transvaal, Portuguese .East Africa,
German South West Africa, Angola.
Natal: Durban (Bowker).
Transvaal: Barberton (Kolbe).
Portuguese East Africa: Delagoa Bay (De Coster).
2. ATRACTASPIS DUERDENI, Gough, Albany Mus. Rec., ii., 1907, p. 178, fig.
North East Kalahari.
DESCRIPTION OF NEW SPECIES.
GLAUCONIA GRACILIOR,
Snout rounded ; supraocular present, not much larger than the frontal,
a little broader than long; rostral about one-third the width of the head,
hardly twice the width of the nasal, not extending posteriorly beyond the
level of the eyes, in contact behind with the frontal and the supraoculars ;
nasal completely divided into two; ocular bordering the lip, between two
labials, the anterior of which is very small. Body very slender, its diameter
go to 110 times in the total length. 14 scales round the body. Length
of tail 10 to 15 times in total length. Uniform blackish brown. Total
length, 230 mm.
Numerous specimens from various localities in Cape Colony (Van
Rynsdorp, Robertson, Clanwilliam, Matjesfontein).
CHAPTER XIV.
ITEMS OF SNAKE KNOWLEDGE.
MAINLY A SUMMARY IN BRIEF FORM OF THE CONTENTS OF
THE BOOK.
SNAKES evolved from Lizard-like creatures with legs.
Fossil remains of Flying Reptiles have been discovered. They had
membraneous wings and tails, like those of bats. Their long bill-like
jaws were toothed.
Birds evolved from reptiles. The reptile developed membraneous
wings. Later, feathers were evolved.
Snakes are reptiles. Birds evolved from reptiles, therefore birds are
relatives of snakes.
Snakes are found all over Tropical and Temperate portions of the
world, excepting New Zealand.
No traces of snakes have ever been found in New Zealand.
In South Africa there are Burrowing Lizards which have no trace of
legs. They shine like burnished copper. Their tails are blunt. They
are usually mistaken for snakes.
Some snakes lay eggs. Others give birth to young.
Snakes’ eggs have no hard shell like those of birds. The covering of
the egg is soft, but tough and leathery.
Snakes lay their eggs in warm places, such as holes in the ground, and
amongst decaying vegetation. When vegetable matter is decaying it
generates heat sufficient to hatch snakes’ eggs.
Snakes only have one active lung. It is a long hollow tube.
A snake’s heart will continue beating, sometimes for fifteen minutes or
more, after its removal from the body.
If a snake’s head be cut off, its heart will continue to beat, often for
a whole day.
Snakes hiss by expelling air forcibly through eae glottis and nostrils.
They do not make any actual sound.
Snakes crawl by moving their ribs. The muscles move the ribs. The
ribs operate the shields on the abdomen. These shields are elevated and
their edges grip the ground, tree, or whatever the reptiles craw! over.
A man may become immune to the bite of any particular kind of snake
by injecting himself with venom of the same species. He must start
with a very small dose, and gradually increase it. Such an experiment
is not to be recommended. It might prove fatal.
462 THE SNAKES OF SOUTH AFRICA.
The Grass and Sand Snake, when alarmed, glide off over the stunted
herbage and grass with quick undulating motions. So quick are the
movements that, to the eye, they seem to be bowling along like a hoop.
Colonists know these as Whip Snakes.
When a Puff Adder is about to strike he withdraws his head and
bunches up his body. He can propel himself the full length of his body.
Fic. 155.—Three great chums—a Black Mole Snake, a baby Python, and a baby boy.
Puff Adders do not strike backwards. In the act of striking they throw
the head well back, then forwards or sideways.
There is no such reptile as a Two-headed Snake. People often call
the blind Burrowing Snake (Typhlops), a two-headed snake because of its
blunt tail, which has the appearance of a head.
ITEMS OF SNAKE KNOWLEDGE. 463
The Ringhals Snake, although belonging to the Cobra family, has
keeled scales. like those of the Puff Adder.
A snake strikes with its fangs so quickly that the eye cannot follow
the movement of the head.
Snakes eat rats, and these rodents in turn devour young snakes and
snakes’ eggs.
i
A large barn rat introduced into a cage containing seven Puff Adders,
killed three of them by biting them at the back of the neck. It ate a
portion of one.
Puff Adders have several pairs of duplicate fangs. The active pair of
fangs sometimes attains a length of three-quarters of an inch.
A Puff Adder possesses about 150 pairs of ribs.
Snakes are the most graceful of all reptiles. The Siamese call them
“ Sunbeams.”
Most Pythons possess two horny spurs in the tail region. These are
the last vestiges of legs. They are useful for eee purposes when the
reptile climbs. or swings from branches.
Fic. 156.— Young snakes emerging from the eggs. They rupture the soft shell with the nose.
All snakes can swim.
During a recent flood in Baaken’s River Valley, at Port Elizabeth,
a great number of snakes were washed out to sea. The incoming tide
cast their dead bodies up on the shore the following day.
The nostrils of Sea Snakes are placed on the top of the snout.
The lung of a Sea Snake extends nearly the whole length of its body.
When on land, Sea Snakes are helpless and blind.
The scales of Sea Snakes are, in shape, just like the wax cells of the
honey bee (six-sided).
Many cases are on record of people dying after being bitten by Sea
Snakes. :
The existence of a sea serpent of monstrous size still remains unproven.
The rattle of a Rattlesnake is a number of hollow horny segments at
the end of the tail. These are loosely joined together, and when vibrated
make the characteristic rattling sound.
The horns of the Hornsman Adder are upright scales above the eyes.
464 THE SNAKES OF SOUTH AFRICA.
The word Sepedon, which is the generic name of the Ringhals Snake,
means ‘“‘ Noxious tooth, or a tooth causing putridity.”’
If the active pair of fangs of a snake be extracted, another pair will
take their place in about a month’s time, sometimes less or more.
If they are naturally shed, the new fangs are ready for action in a few
days.
The American Boa, known as the Anaconda, is stated to attain a length
of 36 feet.
Carvings of serpents are found on nearly all the ancient Egyptian
sculptures.
In India, carvings and drawings of serpents are to be seen everywhere.
From pre-historic times, the favourite personal adornments, such as
rings, bracelets, clasps, etc., have been fashioned after the form of a
serpent.
Most savages attribute great virtues to the various portions of a snake’s
anatomy. Portions are utilized as charms, and as medicine.
The ancient temples of Mexico were beautifully ornamented with
carvings of snakes.
Snake worship in India amongst the low-caste Hindoos is still very
common. In consequence, they will not kill a serpent.
If a serpent should intrude into a house, the Indian reverently entices
it into a vessel and carries it away to the jungle.
In Africa many natives refuse to kill Pythons, as they think such an
action would bring many evils upon them.
Indians are great believers in snake stones, spells, sacrifices, and herbs
for the cure of snake bite.
In South Africa there are dozens of so-called cures, which are of little
or no value.
Many people die, not of the effect of the snake bite, but of the treatment
for the cure of same.
One of the South African ‘“‘ cures
him awake.
”
is to sjambok the victim to keep
In classic tribes, ancient doctors were great believers in soups, decoctions,
etc., of Vipers. We read of such things as viper wine, viper broth, viper
salts, powdered viper, viper oil, etc., prescribed for various human ailments.
Snakes hear chiefly by vibrations of sound conveyed through solid
substances.
When travelling along beaten foot-tracks through snake-infested bush
or grass by day or night, it is a good plan to carry a jingling stick, and
strike the ground with it every few steps. Snakes hearing the noise will
crawl out of the way-
Horses, dogs, and most warm-blooded animals seem to possess a
power of intuition which warns them of the proximity of a snake, although
it may not be visible.
The hiss of a snake will cause alarm in all warm-blooded animals.
I caused a snake in a box to hiss loudly near a cage containing a dozen
Cape Baboons and Vervet Monkeys. They instantly showed signs of wild
alarm, and set up an unearthly chattering.
Snakes in captivity suffer a great deal from ulcerated mouths.
ITEMS OF SNAKE KNOWLEDGE. 465
They frequently injure themselves through striking their heads against
the glass of the cage, when lunging at spectators.
Snakes do not thrive in captivity, unless their places of confinement
are more or less similar to their native haunts.
Snakes do not grow a new tail, if theirs should be accidentally cut off.
Most lizards, on the contrary, grow new tails.
Pythons in captivity can be kept alive by feeding them once a week on
lumps of beef. The beef must be forcibly pushed down the throat of the
reptile with a smooth rounded stick. It can then be easily worked down
to the stomach with the fingers.
To prevent the Python disgorging the meat, tie a ligature between the
meat and the mouth. Keep it on for about half a day. Don’t tie it too
tightly.
Fic. 157.—A yellow variety of Cape Cobra 6 feet 3 inches in length, in the act of expanding
its hood and rearing the anterior part of its body.
Pythons in captivity become very sluggish and allow themselves to be
handled without any protest, beyond an occasional hiss.
Pythons have been known to fast for at least two years.
Many of the native tribes of South Africa will devour the flesh of the
Python whenever opportunity offers. The flesh is tender, and has a nice
flavour when grilled.
The Aglypha snakes are those whose teeth are solid, without any trace
of grooving. They are all harmless.
Mole snakes vary in coloration more than any other species of South
African snake.
The Dasypeltis snake, or Eier Vreter, is the only snake in the world
which has a special apparatus in its backbone for sawing the shells of eggs.
This consists of a long row of bony processes tipped with enamel, jutting
into the gullet in the neck region,
Py Sel
466 THE SNAKES OF SOUTH -AFRICA.
Opisthoglypha snakes are those which possess fangs set halfway back
in the upper jaw. This division of snakes is all more or less venomous.
They are in the transition stage of fang development.
The Boomslang has been proven to be as venomous as the Cape Cobra.
Boomslangs are timid, and retreat into trees or other herbage on the
least alarm.
Boomslangs are the typical tree snakes of South Africa.
During November, 1907, Mr. James Williams was bitten by a Boom-
slang, and nearly died.
During 1909, seventy-eight cases of deaths from snake bite were regis-
tered in South Africa. This does not include Basutoland, Bechuanaland,
and most of the native territories.
The fluid spat out by the Ringhals or Spitting Snake is pure venom.
The fluid will kill just as rapidly if injected subcutaneously as the venom
taken from the gland of the snake.
Black and yellow Sea Snakes are often cast up on shore by the tides
along the South African coasts. Beware how you handle them. They
are highly venomous.
They are bright yellow on the underparts and sides, and black above.
There are four varieties of Cape Cobra. They all belong to the same
species. They differ in colour only. In captivity Cobras often fight and
kill each other.
The neck ribs of the Cobra are longer than the rest. They form a rough
half-circle on each side of the neck, when raised.
The neck skin of a Cobra is loose. When irritated a Cobra elevates
the ribs of its neck, forming what we term a hood.
Seven Cobras had a pitched battle in a cage in the Port Elizabeth
Museum. They were all bitten and died. Some lingered for two months.
The fangs of the Cobras are not nearly so long or curved as those of
the Adders.
Ringhals or Spitting Snakes sometimes feign death when attempts are
made to capture them.
If a Ringhals should spit in your eyes, get them washed immediately
with a very weak solution of permanganate of potash. If there is no
permanganate at hand, wash well with water, and put oil into the eyes.
The Mamba is the most dreaded of all South African snakes.
Never attack a Mamba in the bush unless you are well armed, and are
prepared to shoot it dead. If you only wound it, you will surely be bitten.
Mambas are very plentiful in the bushy parts of Natal, Zululand and
Eastern Transvaal.
The Green and the Black Mambas are of the same species. They
differ in colour only.
The green variety of the Boomslang is frequently mistaken for a Green
Mamba. The Mamba’s head is more triangular-shaped than that of the
Boomslang. Its fangs are right in front, whereas those of the Boomslang
are halfway back in the jaw.
There are fourteen kinds or species of the Cobra family, and eleven of
the Adder family of snakes in South Africa.
ITEMS OF SNAKE KNOWLEDGE. 467
The Puff Adder hisses more loudly than any other South African snake.
It is the typical viper of South Africa.
A snake’s heart has three cavities—one ventricle and two auricles.
Snakes are called cold-blooded creatures because the temperature of
their bodies is so much lower than that of the mammal class of
animals and birds, all of which are what we term warm-blooded.
All reptiles are cold-blooded. They do not suffer pain to the same
degree that the warm-blooded animals do.
Snake venom, if swallowed, is harmless, unless there is some abrasion
of the mouth and throat, or if the stomach and bowels be inflamed. In
Fic. 158.—A few of the author’s Puff Adders and Mole Snakes.
this case it might be absorbed through the broken surfaces direct into the
blood.
Snake poison, when swallowed, is digested just as food is.
In case of snake bite instantly scarify the wounds with a penknife or
lancet and rub in permanganate of potash crystals. Then apply a ligature
above the bitten part to prevent the poisoned blood getting into the general
circulation.
Snakes cannot crawl over perfectly smooth surfaces.
The fangs of snakes are either hollow, or else grooved on their front
surface.
If a snake has no grooved or hollow fangs in its mouth, it is one of the
harmless kind.
468 THE SNAKES OF SOUTH AFRICA.
The Viper Family of snakes have long hollow fangs.
The Cobra Family have grooved fangs, not nearly so long as those
of Vipers. ;
All the Viper and Cobra Family of snakes are venomous.
One of the Viper snakes of South Africa has taken to burrowing in
the ground. In consequence, its body has become quite round (cylindrica)).
The poison glands of these snakes are situated, one on each side of the head.
These glands manufacture the venom
o~
December, Ig1t.
Fic. K.—A Brown Boomslang and her batch of eggs laid in one of the snake cages at the Port Elizabeth Museum,
508 THE SNAKES OF SOUTH AFRICA.
did not mope much. They ate and drank as usual, and were
as lively as ever after the first day. Some died in two days,
others survived for a week and eventually died. Selecting the
most robust fowls I could get, I injected into each, three drops
of Puff Adder venom, as usual under the skin of the thigh, and
caused it to spread out by rubbing with a finger. Some of the
fowls died after twelve hours. Others lived for two, three to
four days and died. An average of one-half of those injected
eventually survived.
Taking another lot of healthy fowis, I injected into each,
four full drops of Puff Adder venom under the skin of the thigh.
Seven died after surviving for periods averaging ten to forty-eight
hours. Most of those which died were, during the first twelve
hours or so, rather dejected, but afterwards apparently recovered
and ate and drank as usual. The injected leg, however, was
in every case hot and swollen. Those which died were hens
and cockerels. Three large healthy roosters made complete
recoveries. After the first day or two they ceased to mope and
showed a disposition to fight and quarrel with each other. From
day to day the injected leg grew less and less congested. After
eight days all swelling had subsided, the temperature was normal,
and complete recovery had taken place. No subsequent sloughing
occurred at the site of the injection.
ABSENCE OF USUAL HA:MORRHAGE.
Now, when a Puff Adder drives its fangs home into its victim,
the chief symptom is extensive hemorrhage in the muscle tissues
in the vicinity of the part bitten. This hemorrhage extends
up into other parts and frequently affects the various organs of
the body. Hemorrhage also often takes place into the body
cavities. In animals I examined which died after being bitten
by Puff Adders, the muscles for some distance from the site of
the bite presented the appearance of a soft, pulpy, bloody mass,
very similar to flesh which had been horribly bruised. It was
apparent that extensive hemorrhage had taken place from the
capillaries which supplied the muscle fibres with blood. Often
the whole limb was in this pulpy, spongy, red condition. After
death, when the flesh was incised, the blood ran out copiously.
Strange to say, in all the fowls which died after being injected
VENOM INJECTED INTO THE MUSCLES. 509
with Puff Adder venom under the skin, the muscles were not
affected at all, and there was no hemorrhage in any of the organs
or into the body cavities. The only hemorrhage which occurred
was between the skin and the muscles of the thigh which had
been injected. In some cases the hemorrhage could be traced
to the top of the thigh and a little way up the side. Even in
those fowls which were injected with four drops of venom, and
which subsequently died, there was a total absence of hemorrhage
into the muscles of the injected part, or of other parts of the body.
This cannot be attributed to the fowls dying too rapidly, or the
full effect of the hemorrhagin principle of the venom to exert
a toxic influence, for the majority survived from twelve hours to
three and even four days.
VENOM INJECTED INTO THE MUSCLES.
A number of fowls were taken, and into the thigh of each
three drops of Puff Adder venom, mixed with a teaspoonful of
pure water, was injected deep into the muscular tissue. Some
of the fowls died in two hours, and none survived more than
four and a half hours. In all cases from the first five minutes
after injection till death, the fowls moped, but were not insensible
till the last five minutes of life. Several other fowls were injected,
each with two drops of venom mixed with a little pure water.
The fowls all died within seven hours. Most of them were dead
in four hours.
In the post-mortem on those which were injected with three
drops of venom, severe hemorrhage was seen to have taken place
into the muscles of the injected leg, as well as up the side and into
the body cavities. The muscles of the leg were saturated with
blood which had oozed through the walls of the vessels, and
presented a soft, pulpy horrible appearance, as is the case when
the Puff Adder inflicts a normal bite into the muscles of its victim.
In those which were injected with two drops of venom, the
hemorrhage, although extensive, both in the muscular tissue
and under the skin, was not so great, owing to the lesser quantity
of venom.
CONCLUSIONS.
These experiments go to show that Puff Adder venom if
injected just under the skin, and not into the muscular tissue, is
510 THE SNAKES OF SOUTH AFRICA.
comparatively mild in its poisonous effects. Fowls are highly
susceptible to snake venom, and succumb easily. It will be seen
that several fowls actually recovered in a week’s time after four
drops of pure fresh venom had been injected into them. The
poisonous action appeared to be comparatively shght, for the
only hemorrhage was that which occurred in the injected thigh,
and this was by no means extensive, and moreover, it was all
under the skin, and not in the muscles. Lymph was the principal
fluid which accumulated. If those fowls had been larger creatures
capable of being properly treated by draining off this lymph and
blood, and if antiseptics, fomentations, and other restoratives
had been applied, I am assured that many of those which died
would have recovered. Nothing at all was done for them. They
were simply left in their cages and fed and watered.
Why the venom should behave so very differently when
injected under the skin, and when injected deep down into the
muscular tissue, I know not. It is probable that this viperine
venom when introduced under the skin, is not absorbed so rapidly
as when injected into the muscles, and that the vital forces of
the body have time to generate anti-toxic substances to cope
with it as it enters the general circulation, or that the excretory
organs have more time to eliminate it. :
In the above-mentioned experiments, the venom was collected
from Puff Adders recently captured. The venom was, in every
case, used within an hour after being shed by the snake. The
manner of collecting the venom was as seen in several illustrations
elsewhere.
The subject is an interesting one for scientific men to pursue.
I think I have solved the problem which puzzled me, viz.
why a Puff Adder should have such long fangs? It is because
the nature of its venom is such that, to have its full poisonous
effect, it must be injected deep into the muscular tissues.
Le
ITEMS OF SNAKE KNOWLEDGE.
A Ringhals examined on October 16, 1911, which is the spring
time in South Africa, had two rows of eggs, thirty in number, the
size of peas, lying along each side of its backbone. These would
H
ia
Lo)
ITEMS OF SNAKE KNOWLEDGE.
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-moog 94 L
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512 THE “SNAKES .OF~ SOUTH \AERIGA:
have developed full size and hatched within the body. The young
would have been born in the early autumn.
Snakes are often infested with intestinal worms. On several
occasions I have removed a score or more of slender wiry-looking
worms, three to four inches long, from the stomachs of Puff
Adders.
A mother, even if suffering in a slight degree from snake
venom poisoning, should not attempt to suckle her infant, else
it may die in convulsions. The reason is, that the digestive
fluids of an infant have not the power of chemically changing
the venom.
Statistics show that the mortality among the people of India
in the year 1910 from bites by snakes amounted to the great
total of 22,478. This was owing to extra heavy rains flooding
the jungles and other favourite haunts of the serpents. They
were, consequently, driven out upon the open plains and hillsides
frequented by mankind. Statistics show that in India, for every
one hundred persons bitten by venomous snakes, an average of
twenty-five to thirty die. The average time the venom takes
to kill is from two to twelve hours.
The dreaded Hamadryad (Naja bungarus) of India has been
known to bite a full-grown elephant which, in consequence,
died in three hours.
I made sixteen Puff Adders bite the covered top of a wine-
glass, each snake delivering one full bite. The result was eighty
drops of venom, which averages five drops per snake. Two
drops is usually a fatal dose for a healthy man. Therefore the
sixteen Puff Adders shed sufficient venom to kill forty men.
When dried, the venom weighed a little over a gramme, viz.
I‘Il grammes.
There are fewer deaths from snake bite in South Africa than
in India, because the population is less dense, not because the
snakes are less venomous. As the population increases so will
the death rate from snake bite be proportionately great, if the
people will persist in pinning their faith to the various popular
so-called antidotes.
The Ancient Egyptians worshipped the Cobra (Naja haje),
recognizing that it kept the rats from becoming a plague. The
snake was allowed to live and breed unchecked in their cornlands.
The effigy of this Cobra is engraved on monuments and stones,
ITEMS OF SNAKE KNOWLEDGE. 513
and its embalmed remains have been found. Thus did the
Egyptians show their gratitude for services rendered.
In ancient times when Greece was a great power, the priests
pretended to cure diseases by allowing serpents to crawl over the
patient, by waving them to and fro, and by holding them against
the diseased part, meanwhile muttering some formula. Hippo-
crates, who was born about 460 B.c., and who is commonly styled
“the father of medicine,’ denounced these priests and their
methods.
The venom of snakes kept in captivity, and which refuse to
eat, is smaller in quantity, but much more poisonous than those
recently captured.
Never attempt to feed artificially a snake when it is showing
signs of wanting to moult (cast its skin).
In certain districts of South Africa the cattle plague, known
as East Coast Fever, has swept off nearly all the cattle. The
result of this is, the grass has grown thick and rank, and the
herbage has developed unchecked. Snakes, in consequence of
the increased protection of luxuriant vegetation, have increased
considerably in numbers.
THE SNAKES OF SOUTH AFRICA.
514
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A HERALD OR RED-LIPPED SNAKE.
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SOUTH: APRICGA.
SNAKES OF
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516
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317
FEEDING A PUFF ADDER.
AFRICA.
SOUTH
—,
4
AKES O
SN
THE
518
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MO]JAA ZYST] SI (Vavy viv) eIQOD odeyD sIV.—'S “1
A YOUNG CAPE COBRA.
519
Fic. Rm-A young Cape Cobra (Naia flava) 20 inches in length, with hood expanded,
showing the characteristic rich umber-coloured throat patch which disappears when
the snake becomes adult. This patch extends right across the throat and hood, and
for two inches down the body.
The body colour of this snake was gambose yellow.
The edges of a number of the scales of the back were tipped with dark hazel colour.
520
THE SNAKES OF SOUTH AFRICA.
CLAW-BONE
FEMUR
ISCHIO-PuBIC RUDIMENT
Fic. S.—The remote ancestors of snakes were lizard-like creatures with
limbs. This illustration shows the rudimentary hind limbs of the
South African Python,
(From an illustration in the British Museum Guide on Reptiles.)
OLIVE-BLACK HOUSE SNAKE. © 521
HARMLESS
A
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THE SNAKES OF SOUTH AFRICA.
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No
Fic. T (2).—This is an Olive-black House Snake (Boodon infernalis) 2 feet 1 inch long. It
deliberately attacked a Green Water Snake (Chlorophis natalensis) 2 feet 5 inches long.
Gripping it by the head it swallowed it completely. This picture shows the House
Snake with the Water Snake inside it. It was digested completely in eight days.
523
A PUFF: ADDER.
‘ysejod jo ajeueSueulied Jo UOT}NIOS & YIM Y}NOUI s}t Jno paysemM pue
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THE SNAKES OF SOUTH AFRICA.
524
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525
A PUFF ADDER.
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OF SOUTH AFRIC
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A-PUPE ADDER:
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SOUTH AFRICA.
OF
TAKES
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528
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529
TH AFRICA.
=
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SNAKES OF SOU
THE SNAKES OF SOUTH AFRICA.
930
Fic. Y (4).—Feeding a Puff Adder. Insert the spout of a glass funnel gently into the gullet ot
the snake and slowly pour egg flip down his throat. Meanwhile work the food down to
the snake’s stomach. Then withdraw the funnel and lay it gently down in a warm, quiet
place, and leave it alone for a day or two. Two ounces once a week is sufficient for an
,
average snake,
“ ‘Apoq a[oyM sit
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wm
SNAKES OF SOUTH AFRICA.
THE SNAKES OF SOUTH AFRICA.
532
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Ajwiayg ajyder ay3 d
‘A[}Ues Yors-Suryye
“TINYS aq} JO aseq ay} je Ala}eIpauIUTT yoou ay} Aq
seis quing} pue Josuyg ino 431M ‘pue ‘a0} 30 e9uy INOA Y}IM UAMOP Ire} aq} ploy ust ‘oe oy} uo ‘Ayu 4nq
M Ino ssaid 0} st op pasu nod qe ‘31 surinfur ynoyyIM oyeus
B YoyeO OF JURA PUL J]eA\ e IOF 4yNO ore NOK JI—"Z “org
FITZSIMONS’
SNAKE BITE OUTFIT
IN the interests of the Public, the author has patented
an outfit called ‘‘ FitzSimons’ Snake Bite Outfit.’’ His
object in doing so is to safeguard the Public against future
fraudulent preparations, and to ensure that they will get a
complete and thoroughly efficient outfit, together .with a
booklet of instructions carefully compiled and illustrated, of
so simple a nature that the most inexperienced person may
be able to treat cases of snake bite efficaciously.
In patenting this outfit the general Public are effectively
suarded against imitations. In obtaining “ FitzSimons’ Snake
Bite Outfit” they may be absolutely certain of getting the
genuine Anti-venomous Serum, a Serum Syringe of right
calibre, complete First-aid Outfit (specially designed and
patented by the author), and an illustrated Booklet of
Instructions for the treatment of the bites of every species
of venomous snake in all the snake-infested countries of
the world.
Write for particulars as to price, etc., to—
Messrs. T. MASKEW MILLER
Educational Publishers and Booksellers,
96, Adderley Street, CAPETOWN, and
Church Street, PRETORIA.
This Firm has been appointed Sole Distributing Agents for the
Outfit, and will be pleased to offer special terms to Chemists and
Wholesale Dealers.
INDEX.
A.
Ablabophis genus, 82
Adaptation of snakes to surround- |
ings, 41
Adders, 213
Aglypha snakes, 80
Alcohol for snake bite, 325
Alleged cures for snake bite, 309
Amblyodipsas, 127
American snake catcher, 254
Ammonia cure, 332
Amplorhinus, 120
Anatomy of head of venomous
snake, 25
Ancestors of birds, 4—8
Animal ladder of life, 15
immune, 391
that eat snakes, 29
Anti-venene serum, 390
Anti-venomous serum, 397
instructions, 424
Aparallactus, 128
Apparently dead, hope of recovery,
432
Artificial respiration methods, 429-
431
Aspidelaps, 165
Atractaspis adder, 220
vipers: habits of, 243
B.
Back-fanged snake, 118
snakes, list of,
128
Berg adder, 232
figure of, 240
another figure of, 242
habits of, 243
Bewitched snakes, 278
I16—
Bird that eats snakes, figure of, 339 |
Bitis, key to the species, 216
Black and yellow sea snake, 156
fangs of, 157
Blood, how it is made, 289
we poison it, 299
its circulation, 300
Boodon, 84
Boomslang, a cannibal, 136
a man bitten, 141, 147
another man _ bitten,
144
dissected, 152
effects of being bitten,
142
experiments, 145
that bit Williams, 143
_ Boomslangs, a handful of, 154
Animals, how they are rendered ©
and their habits, 148
are highly venomous,
140, 146
just captured, 149
the fangs of, 141
what naturalists say,
138
Boulenger’s systematic list of
African snakes, 439-460
Brain and nervous system, 283
its functions, 284
the seat of intelligence, 285
of a man, 286
cells showing poison, 287
and the spinal cord, 288
Breathing apparatus, 20
Bruin slang, 170
Brunton’s first-aid
401
Burrowing snakes, 50
Bush snake, 97
instruments,
Cc.
Calamelaps, 127
Cannibal boomslang, 264
cobras, 177
535
536
Cape Cobra, 170
figure of, 463
Captive snakes and birds, 260
Capturing a python, 63
Carbolic acid cure, 332
Catching live snakes, 268
Caustics, 331
Causus, key to the species, 215
Centipede, 312
Chametortus, 120
Changing the skin, 16
Chlorophis, 86
Circulation of blood of snake, 24
the blood, 297
Classification of animal life, 1
what it means, 2
Climbing powers of snakes, 37
Cobra and meercat, 177
mungoose, 37
mungoose fight, 177
bites children, 171
experiences, 172
hood-expanding apparatus,
176
in a schoolroom, 180
on the watch, 179
poison apparatus, 176
swallowing puff adder, 178
venom symptoms, 367
yellow variety, 173
Cobras, dentition of, 163
fed with other snakes, 183
hoods, 174
key to the species, 163
synopsis of genera, 162
yellow variety, 182
Collapse through fear, 394
Collecting snakes, 270
venom from cobra, 371
Columbrine venom, 366
Constriction, 33
Coral snakes, 195
Cow-milking snakes, 265
Cross-marked snake, 122
Crust of the earth, 9
Curare and snake venom, 434
Cures for snake bite, 309
which kill, 330
D.
Dasypeltis, 90
Death from cobra bite, 181
Death-head moth, 312
Demon adders, 233
Dendraspis, 169
INDEX,
Desmond FitzSimons and _ his
snakes, 261
Digestive organs of a man, 290
Dipsademerphine, 115
synopsis of S. African genera,
116
Disgorging prey, 36
Dispholidus, 127
Distribution of snakes, 12
Dried snake venom cure, 334
Duels with snakes, 2
E.
Ears of snakes, 14
Eating, the science of, 294
Egg-breaking mechanism, 104
Egg-eating snakes, 102
eater at work, 105
dining, 110
eater robbing a bird’s nest,
108
eaters in captivity, 106
eater’s sense of smell, 112
swallowing process, 106
Eggs of snakes, 18
Eier vreter, 102
Elapechis, 166
Elapine, 160
Elixir of life, 295
Enemies of snakes, 26
Evolution of birds, 3
reptiles, 3
Exciting incident, 279
Exercise, 302
Expanding power of snake’s jaws, 35
Experiments, 309
with alcohol, 325
with anti-venomous
413
with artificial respiration, 436
with cobras, 378
with Crofts Tincture, 323
with Horniballs Patent Won-
derful Extract, 328
with permanganate of potash,
382
with Sebiba or Zibiba, 315-
322
with snake venom, 340
Eyes of snakes, 14
serum,
F.
Fangs of snakes, 23, 344
for comparison, 361
Puff Adders, 349
PN DEEX.: 537
Fascination, how it is done, 257
wrong conclusions, 258
Feeding animals on venom, 362
snakes on live animals, 280
Fibrin ferments, 356
File snakes, 96
FitzSimons’ first aid instrument, 401
snake bite outfit, 395
Food converted into blood, 292
of snakes, 38
Formalin for pickling snakes, 274
Fowl flesh cure for snake bite, 328
Fresh water snakes, 42
Front fanged snakes, 160
G.
Gall of snake cure, 333
Garter snake, 195
snakes, 169
Geel slang, 170
Geko lizard, 312
Glauconia snakes, 55
skulls of, 56
list of, 57
Grass snakes, 130
Green water snakes, 92
H.
Habits of snakes, 45
Hemorrhage into tissues, 369
and mortification, 370
Hzemorrhagins, 355
Hankered after his gall, 65
Harmless snakes, 81, 102
key to the species, 82—90
list of, 82
Health laws, 292
Herald or Red-lipped snake, 134
Heroism of birds, 258
Hibernation of sflakes, 43
Hissing, how it is done, 20
History and distribution of snakes,
12
Homalosoma, 90
Homorelaps, 168
Honey ratel, 324
Hope of recovery for apparently
drowned, 430
Horned adder, 215
figure of, 240
habits of, 241
head and neck of, 218
Horniballs Extract, 328
Horse-hair ropes, 265
House snake, adventure with, 93
House snake, bitten by, 94
swallowing rat, 93
House snakes, 92
pictures of, 95
How to catch live snakes, 251
collect venom, 371-373
become immune, 392
Human heart, 296
physiology, 283
pipes that carry air, 298
stomach, 295
Hydrophine, 156
key to the species, 158
Hydrus platurus, 158-159
Hypersensibility, 393
Hypnotism, 262
Ite
Identification of snakes, 49
Immunizing animals to snake
venom, 391
Intestines, 291
Ipecachuana cure, 331
K.
Kafir superstitions, 277
Knots, how to tie them, 405
1D
Lady with armful of snakes, 263
Lamprophis, 83
Lancet and permanganate com-
bined, 401
Legless lizards, 53
Leptodira, 120
Ligaturing the arm, 403
‘ leg, 402
Liquor potasse, 331
Living self-acting pump, 295
Lycophidium, 84
Lympathics, what they are, 303
that suck up venom,
306
Lymph, what it does, 303
M.
Macrelaps, 128
Mamba, 194
a kafir killed, 205
bit and killed a kafir, 208
distribution of, 212
do green ones turn black,
202
538
Mamba farmer’s extraordinary ex-
perience, 209
green variety, 199
how a dog protected its
owner, 207
how he rushes, 211
killed Mr. Claude Moller,
210
king of S. African snakes,
207
poison apparatus, 205
sleeping, 206
Mambas, black and green, 196
howand why they change
colour, 198
their habits, 197
crested, 203—204
inflating body, 204
Meercats and snakes, 30
Methods of injecting serum, 408
Microbe eaters, 301
Microbes of disease, 293
Migration of snakes, 43
Mole snake, 98
and its young, IOI
and boy, 462
young specimen, 475
snakes and how to handle
them, 275
and snake venom, 381
are harmless, 100
as pets, 275
constricting rats, 103
heads of, 86
Muishond or Stink Cat, 28
Muishonds fighting snakes, 30
N.
Naia, 163
Nature’s resistance, 369
Nerve cells and snake venom, 288
Nervous collapse, 394
Neurotoxins, 355
Night adder, 215
bit and killed a man,
236
Night adder, habits of, 233
head of, 216
laying eggs, 235
venom of, 234
wonderful poison
glands of, 237
Night adders, 232
are Oviparous, 239
hatching, 19
INDEX.
O.
Obsession, 278
Olive-brown water snake, 91
Opisthoglypha, 115
Organs of the human body, 291
Outfit for treating snake bite, 395
Oviparous adder, 245
snakes, 19
Oxygen, what it does for the blood,
299
Be
Paralysis of nerve
centres, 429
Paralyzed with fear, 260
Parasites on snakes, 44
Permanganate of potash treatment,
respiratory
382
tested, 383
Phagosytes devouring microbes,
301
Philothalmus, 87
Poison apparatus, 343
and how it works,
505
fangs, 25
its elimination, 435
of snakes, 359
its effects on other
snakes, 378
Poisonous snakes, 342
Poisons, how they are conveyed to
the cells of the body, 302
Port Elizabeth snake
250
Preserving snakes in spirit, 272
Progression of snakes, 21
Prosymna, 88
Proteroglypha, 156, 213
Psammophis, 122 ®
Pseudaspis, 85
Puff adder and batch of young ones,
224, 471
a modern Jonah, 227
dissection of, 219
eaten by red ants, 227
catcher,
extracting its venom,
3730070 : :
head, and vagina dentis,
340
how it strikes, 228, 350
of South Africa, 220
adder’s fangs, 213, 221
adder swallowing a rat, 36,
226, 232, 357
INDEX.
Puff adder up a Dutchman’s trouser
leg, 229
adders, deaths by, 230
ege and young, 222
how they kill their
prey, 225
how the young are
born, 221
in captivity, 223
poison apparatus, 237
the sexes, 229
vary in colour, 229
Python, an adventure, 71
and buck, 74
and buck-hunting incident,
72
and his boy chum, 462
and his boy friend, 64
and Klip Dassie, 70
and the cock, 72
an exciting adventure, 69
a sensation, 65
constricting a buck, 66
figure and skeleton of,
59
head of, 58
smashing crockery, 77
steak, 79
swallowing a bird, 73
Pythonadipsas, 119
Pythons, 57
and kafir superstitions, 65
artificial feeding, 75
Pythons’ eggs, 70
Pythons’ fasting powers, 78
legs, 78
in Cape Colony, 79
on a krantz, 67
on the watch, 63
their haunts and diet, 60
R.
Red-lipped or Herald snake, 134
Reptiles living and extinct, Io
Rhachiodontine, go
Rhampiophis, 121
Ringhals, 175
experiments with, 378
cobra, 183
and young, 184, 193
bespattered glass with venom,
188
consequences of being bitten,
IQ
effect of the venom upon the
eyes, 190
539
Ringhals, experiments with the
venom, 190
fierce and aggressive, 187
how one was captured, 185
how they spit, 189
how to hold it, 192
how we photographed him,
186
Roode-lip slang, 134
Royal Python of Senegambia, 281
Sh
Salivary glands and teeth, 290
Salt-water snakes, 43, 157
Sand snakes, 124
Scarifying, how to do it, 404
Schaapsteker, a battle, 132
Schaapstekers, 130
and eggs, 131
Scorpions, 326
Sebiba cure, 315
Secondary treatment of snake-bite,
420
Sense of smell, 20
Sepedon, 165
Serum, and how to get it, 395
FitzSimons’ outfit, 408
how to inject it into arm,
406
into leg, 409
into vein, 419
instructions in brief, 424
its effects, 396
therapeutics, 421
treatment and its
tions, 399
treatment of animals, 413
treatment of snake bite,
imita-
390
Shield snake, 195
Shields on snakes’ heads, 48
Simocephalus, 85
Smelling out a man, 65
Snake blood and gall cure, 336
catcher at work, 251
charmers, 246
at work, 248
charming explained, 249
eating bird, 339
houses, 47
knowledge in brief, 461
stones, 336
venom, 352
effect if swallowed,
338
540
Snake venom, how it is sucked up,
30
how
= le
its nature andeffects,
to collect it,
342
Snake-killing Tom cat, 31
Snakes and people, 473
and lizards, 13
and their mates, 266
can they fascinate
prey, 256
changing their skin, 16
eating eggs, 32
hatching, 463
how to capture them, 268—
269
their
how to collect and preserve |
them, 270
how to feed them, 271
how to pickle them, 276
how to stuff them, 276
in captivity, 282
in houses, 34
not tenacious of life, 47
sucking eggs, 33
swallowing their prey, 39
their uses, 25
Solenoglypha, 213
Solid toothed snakes, 80
Special first aid instrument, 401
Spirits of ancestors in snakes,
279
Spuug slang, 170
Stockholm tar cure, 328
Strychnine cure, 332
Surroundings of snakes, 43
Symptoms of cobra venom poison-
ing, 367
Symptoms of viper venom poison-
ing, 369-370
Systematic list of S. African snakes,
439-460
if
Tanjore pills, quinine, etc., cure, 333
Tarbophis, 119
Teeth of snakes, 22, 344
Thelotornis, 126
Three-cornered snakes, 96
Tongues of snakes, 14, 361
Treatment of snake bite, 400
secondary, 426
INDEX.
| Trimerorhinus, 121
Tropidonotus, 82
Typhlops snakes, 51
heads and tails, 54
list of species, 52
skulls, 51
VW
| Vagina dentis, 346
Venom, Colubrine, 366
different kinds, 366
effects on non-venomous
snakes, 380
effects on other snakes, 377
how it gets in and out of
the blood, 307
how it is absorbed, 388
how it is discharged, 348
how it poisons the nerve
cells, 288
how to destroy it, 305
is digested, 364
its constituents, 355
Viperine, 368
Venomous snakes and their poisons,
342%
distribution
I61
of,
synopsis of genera,
162
Venoms differ in their pathological
action, 392
Vinegar cure, 333
Viperide, 213
Vipers, synopsis of genera, 214
their distribution, 214
Viviparous snakes, 19
W.
What to do if bitten, 400
Whip snake, 124
Why people recover when bitten by
snakes, 394
Williams, the snake catcher, 252
with bag of snakes, 255
Williams with captive snakes, 253
LZ.
Zibiba cure, 315
Zwart Ringhals, 185
slang, 98
INDEX TO ADDENDA.
A.
Anaphylaxis, 497
Ammonia as an antidote for snake bite, 504
experiments with, 504
B.
Boomslang, bitten by a, 490
E.
Experiments with venoms at Government Research Laboratory, Pretoria,
481
surprising results of, 481
15
Fangs of snakes, why they differ, 506
First aid treatment, 500
M.
Mamba, young farmer’s fatal bite from Mamba, 494
N.
Normal salt solution, 502
Pp:
Puff Adder, venom injection under the skin, 507
venom injection into the muscles, 509
R.
Ringhals simulates death, 488
spat in a man’s face, 489
bitten by a, 489 :
bite treated with normal salt solution, 489
541
542 THE SNAKES OF SOUTH AFRICA.
5.
Schaapstekers, venom experiments, 486
highly venomous, 486
startling results of experiments, 486
comparatively harmless, 487
Snakes in Madagascar and Australia, 492
Snake knowledge in brief, 510
Serum sickness, 497
Intravenous versus Subcutaneous injection, 500
Saline solution as an emergency measure, 502
Treatment of snake bite, 502
INDEX= T@ ci ELUSiRAwIONS:
[N.B.—For list of illustrations in Addenda, see p. xv.]
A.
PAGE
Animal ladder of life . : 2 é c oun ee : : 15
Animals that eat snakes : ¢ : ; 2
Applying the test to a snake—a kafir superstition : : 5 ify
Artificial respiration . é : : - 430-431
Atractaspis adder and skulls of. : . : . . on LAS
B.
Berg adder : 5 : : 3 : ; P : 4 g232
. ; : ; : j : : : ; 2O
: F : . 5 Ae
Bird that eats snakes— Jackal Buzzard - : : : 5 BBO}
Brain of man in section 3 : : , ‘ A 285
a showing Bury matter > : : : : . 286
oy Gillie ; - . : : : - 6 Asi
nA and spinal cord : : : : Bo Disks’
Boomslang—dissection of, showing eggs im situ ; : : oe GL
Boomslang swallowing another . : : - : a eq BOS
Boomslangs—a handful of . : ; : : ; . Pe BL53
Boomslangs—how to hold them . : : : : : 49
Bronchial tubes . ‘ ; F : ‘ : ; : Ae Lh:
Brown House snake . ; ‘ : : : : ; : 93
Brunton’s lancet : : 3 : : . : : Or
Bush snake : 5 ; , 4 : ‘ : < cee LO
(Co
Cannibal Boomslang . : : ¢ : c : : a 29
Cast skinofasnake . - . : : a - 16
Casting its skin—Boomslang in process ob : : : a
Centipede - c - - : ete
Chart showing snake distribution . : : : : Ow
Circulation of the blood ° > : : ; : = 300
Cobra, Cape species, yellow variety : : é 5 SL 73 e405
as yy black variety 2 . A 3 5 = O75
young . : : < : : . : eb75
if dissection of neck : - : : 3 e 5 GAS:
= swallowing a Puff adder : A ‘ 3 : 5 Pye)
,, Cape species - - ; . : 6 . ae ey?
Collecting venom from Cobra : ; : : : : a. Syne
5 P 3) uit adder , : " , 5 - 373
a¥ af 55 ne a another process - : 2375
543
544 INDEX TO ILLUSTRATIONS.
Coral snake : :
” » head and neck of =
Cross-marked snake (Psammophis)
Death Head moth
Dentition and fangs of snakes
Diagram showing how venom is absorbed by the blood and lymphatics
Digestive apparatus of man
1d,
Egg-eater snake (Dasypeltis)
” » np anatomy of
36 Ns 3 and Night Adder
3p PS 55 robbing quail’s nest
» ne A swallowing an egg
F.
Family group and some tame snakes
Family group and their snake pets
Fangs and venom glands of snakes
Feeding a snake : : :
File snake . é ‘
Flying reptile—reconstruction of .
Flying reptiles
Fossil remains of a lizard- tailed bird ina rock
~ he remote ancestors of birds
G.
Garter snake
Geko lizard :
Glass bespattered w ith Ringhals venom
Glauconia snake
Green water snake
Heart of man
Honey Ratel
Horned adder
» adders’ heads .
House snakes
How to catch snakes
How venom spreads out under the skin.
ue
Ideal landscape of Carboniferous period
Internal organs of man :
23,
169,
215,
Io
291
INDEX TO) IELUSERATIONS. 545
PAGE
K.
Knots—how to tie them : : , : : : : » 405
IG
Lady with handful of snakes - . : ; : : aZO2
Legless lizard. : b : : : , : : 53
Leucosytes ; ‘ : : ° : Fe ‘ : > +305
Ligaturing leg . - : : : : : : . 402, 404
arm . : . . é : : : | 4035407
Lungs Of mani". 3 : : ‘ ; , . 298
Lymphatics of the humanarm_ . . : : : . . 306
M.
Mamba—green variety ‘ : % ; ; 3 a LOO
head and fangs of : : c ; F : 205
Method of progression of a snake . 3 - - : : : 22
Microbes and disease . : : : : : : : 298
Mole snake—young . ; ; : : F 3 . 467, 475
», snakes - , 5 3 : 5 2 f . : 99
+ and boy . ; : é : : : é a | AGS
a - heads of 5 2 7 é : 5 86
N.
Nervous system . : : : é : . ; eZee
Night Adders hatching : : : 2 2 F : : 19
» adder ; ; , é Z A ; 5 3 FAG)
,, adders : ; : é 5 zB 2
5 adder—dissection of poison ‘glands : : : : S237,
,, adders and eggs ; : 2 ‘ : é . A Sy
Noosing a snake ; : : : ‘ : : : 26G
O.
Olive-brown water snake . F ; 4 QI
Osmosis—to explain how venom passes ‘into the blood ; : 3 SOF
12h
Pet snakes and boy . - : ; : : : : oe
Phagosytes : : : - 2 : : : SS OL
Poison apparatus of snake : : eee 2
, of Puff Adder, Cape Cobra, and ‘Boomslangs E : e gO
Psammophis genus of snakes—(cross-marked snakes) : : Pn 772
Puff adder—fangs of . 5 : : : ; : meee ZES 349
- head of . : : - : 5 ; : org 40
a dissection of . Ns 3 J § ; ; 2g
5 eggs and young of . : ‘ ‘ 3 - me DF
: and batch of young . - - , , - 22a
A swallowing a rat - : : - : 36, 226, 232
E how it bites. : : ; : : : eee yep
ce how it strikes . : ; : : ; é 228
546 INDEX TO ILLUSTRATIONS.
Puff adder—the sexes
3 swallowing prey :
a dissection of poison g elands' and fangs .
Bn collecting venom of : ‘
Puff adders and Mole snakes
,, adder and her young
» after swallowing a rat
Py thon——head of :
, and its skeleton
» inits native habitat
, anda boy
», constricting a buck
>») Ona: erantz : :
» about to swallow a Klip Dassie ;
,, swallowing a bird .
», —feeding one in captivity
» —claws and pune legs
Regius :
» after sw allowing a pig
RR,
Relative lengths of Books - *
Ringhals cobra : :
Op Ay chanel young . 5 5
» », black variety
5.
Sand Snake (Psammophis)
Schaapstekers ;
sy and eggs
Scorpions
Sea snake (Hydrus platurus)—head of .
“R dentition of
of figure of
Section of human skin, and how ¥ venom is drivend in 2 skin 5
Serum injection into arm
i * on Lee
» vein
Shield snakes.
Skull of typical back- -fanged snake
Skulls of front-fanged snakes
» of non-venomous and venomous snakes
, of Typhlops snakes
- of Glauconia snakes .
and dentition of non-venomous snakes
Snake casting its skin
Snakes’ eggs :
Re shel CXerntoyi swallowing ‘their prey .
, heads for comparison ‘
Snakes—how to hold them .
Snake-like lizard :
Snake pets
Stomach of man
Study plate of snakes’ heads
167,
INDEX TO ILLUSTRATIONS.
Ane
Typhlops Snake (blind burrowing snake)
ss », _ arrangement of scales
V5
Veins and arteries q
Ventrals, anals and sub- caudals of a snake
Viscera of man
W.
Water snakes, olive brown
Whip snake :
White corpuscles of the blood
Williams, the snake catcher
Fa holding some venomous snakes
Ap and the results of a day’s collecting
We
Young snakes hatching
53, 55
PRINTED BY WILLIAM CLOWES AND SONS, LIMITED, LONDON AND BECCLES.
547
PAGE
54
297
49
291
ot
124
301
251
253
255
463
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