Fig. 1.—A, Cranial skeleton of one of the non-poisonousColubridæ(Ptyas mucosus);B, cranial skeleton of one of the poisonousColubridæ(Naja tripudians);C, cranial skeleton of one of the poisonousColubridæ(Bungarus fasciatus);D, cranial skeleton of one of theViperidæ(Vipera russellii);E, cranial skeleton of one of theViperidæ Crotalinæ(Crotalus durissus);F, cranial skeleton of one of theColubridæ Hydrophiinæ(Hydrophis pelamis).
Fig. 1.—A, Cranial skeleton of one of the non-poisonousColubridæ(Ptyas mucosus);B, cranial skeleton of one of the poisonousColubridæ(Naja tripudians);C, cranial skeleton of one of the poisonousColubridæ(Bungarus fasciatus);D, cranial skeleton of one of theViperidæ(Vipera russellii);E, cranial skeleton of one of theViperidæ Crotalinæ(Crotalus durissus);F, cranial skeleton of one of theColubridæ Hydrophiinæ(Hydrophis pelamis).
In thepoisonoussnakes the maxillary bones are shorter, and theouterrow is represented by a single long and tubular or grooved tooth (the fang), fused with the maxillary bone, which is itself movable (fig. 1,B,C,D,E,F).
Fig. 2.—A, Maxillary bone and fangs of one of theViperidæ(Vipera russellii);B, maxillary bone and fangs of one of theColubridæ(Naja tripudians);C, maxillary bone and fangs of one of theColubridæ(Bungarus fasciatus);D, maxillary bone and teeth of one of the non-poisonousColubridæ(Ptyas mucosus). (After Sir Joseph Fayrer.)
Fig. 2.—A, Maxillary bone and fangs of one of theViperidæ(Vipera russellii);B, maxillary bone and fangs of one of theColubridæ(Naja tripudians);C, maxillary bone and fangs of one of theColubridæ(Bungarus fasciatus);D, maxillary bone and teeth of one of the non-poisonousColubridæ(Ptyas mucosus). (After Sir Joseph Fayrer.)
Certain species (Dipsas) have maxillary teeth which increase in size from front to rear; the longest teeth aregroovedand serve for the better retention of prey, and also to impregnate it with saliva; but they are not in communication with the poison-glands.
Thepoison-fangsare normally covered with a fold or capsule of mucous membrane, in which they are sheathed. This fold conceals a whole series ofreserveteeth in different degrees of development, which eventually become attached to the extremity of the maxillary when the principal tooth falls out or is broken (fig. 2).
Fig. 3.—A, Fang of one of theViperidæ(Vipera russellii);D, transverse section of the fang.
Fig. 3.—A, Fang of one of theViperidæ(Vipera russellii);D, transverse section of the fang.
Poison Apparatus.—The grooved or furrowed teeth in theProteroglyphaand the canaliculate teeth in theSolenoglyphaare arranged, not for the purpose of seizingprey, but in order to deal it a mortal blow by injecting the venom into its flesh.
In the normal position they lie almost horizontally, and exhibit no mobility of their own. But, when the animal prepares to bite, their erection is effected by the snake throwing its jaw back; and this movement, which is always very sudden, enables it at the same time to compress its poison-glands, by the aid of special constrictor muscles.
On examining the various species of poisonous snakes, we observe very sharply marked differences in the arrangement and dimensions of the teeth. Thus, in theViperidæthey are long, extraordinarily sharp, and capable of producing deep wounds (fig. 2,A, andfig. 3). They are traversed by an almost completely closed canal, from the base, which communicates with the poison-duct, to the neighbourhood of the point, where it opens very obliquely on the convex surface (fig. 3,AandD).
Fig. 4.—B, Fang of one of theColubridæ(Naja tripudians);E, transverse section.
Fig. 4.—B, Fang of one of theColubridæ(Naja tripudians);E, transverse section.
Fig. 5.—C, Fang of one of theHydrophiinæ(Hydrophis pelamis);F, transverse section.
Fig. 5.—C, Fang of one of theHydrophiinæ(Hydrophis pelamis);F, transverse section.
Fig. 6.—Three transverse sections of a poison-fang of one of theColubridæ, throughA A,B B,C C;P P, pulp cavity;V V V, poison-canal (groove). (After C. J. Martin.)
Fig. 6.—Three transverse sections of a poison-fang of one of theColubridæ, throughA A,B B,C C;P P, pulp cavity;V V V, poison-canal (groove). (After C. J. Martin.)
In theElapinæsub-family of theColubridæ, and especially in theHydrophiinæ, the teeth are much shorter and simply grooved or canaliculate; that is to say, the canal communicates with the exterior throughout its extent by a narrow slit, which traverses the entire convex surface of the tooth (figs. 4, 5, and 6).
It does not follow from this that the bites of these reptiles are less dangerous;the contrary, indeed, is the case, for their venom is infinitely more active.
These differences, as well as the particular mode of arrangement of the other little non-poisonous teeth in both jaws, enable us in many cases to recognise, by the mere appearance of the bite, the species of snake by which the bite has been inflicted.
Fig. 7.—Marks produced on the Skin by the Bites of different Species of Snakes.I.Non-venomous Colubrine.—The bite is marked only by the imprint of from 35-40 small palatine or pterygoid teeth, and 20-22 upper maxillary teeth (on the outside of the foregoing) on each side.II.Venomous Colubrine(Naja tripudians,Proteroglypha).—The bite exhibits 25 or 26 punctures from the pterygoid or palatine teeth, and, on each side, one or two, rarely three, circular wounds produced by the principal poison-fangs and by the reserve teeth.III.Viperidæ(Solenoglypha).—The sole indication of the bite consists of 8 or 10 punctures from the palatine or pterygoid teeth, and one little round wound, on each side, produced by the poison-fangs.(After Sir Joseph Fayrer.)
Fig. 7.—Marks produced on the Skin by the Bites of different Species of Snakes.
I.Non-venomous Colubrine.—The bite is marked only by the imprint of from 35-40 small palatine or pterygoid teeth, and 20-22 upper maxillary teeth (on the outside of the foregoing) on each side.
II.Venomous Colubrine(Naja tripudians,Proteroglypha).—The bite exhibits 25 or 26 punctures from the pterygoid or palatine teeth, and, on each side, one or two, rarely three, circular wounds produced by the principal poison-fangs and by the reserve teeth.
III.Viperidæ(Solenoglypha).—The sole indication of the bite consists of 8 or 10 punctures from the palatine or pterygoid teeth, and one little round wound, on each side, produced by the poison-fangs.
(After Sir Joseph Fayrer.)
Fig. 7, above, shows how it is possible to distinguish the marks left by anon-venomousreptile, and by one of theProteroglyphaorSolenoglypharespectively.
Poison-glands.—The poison-glands occupy an extensive inter-muscular space behind the eyes, on each side of the upper jaw.They are oval in shape, and may, inNaja tripudiansfor example, attain the size of a large almond (fig. 8).
Their structure is the same as that of the salivary glands of the larger animals. The poison that they secrete accumulates in theiraciniand in the efferent duct that opens at the base of the corresponding fang.
Each gland is surrounded by a capsule, to which are partly attached the fibres of the masseter muscle, which violently compresses it and drives the poison, just as the piston of a syringe would do, into the canaliculi or groove of the fang.
Fig. 8.—Poison-gland and Fangs of a Venomous Snake(Naja tripudians,Colubridæ). (Natural size.)L, Lobe of the gland;D, poison-duct;F, fang attached to the maxillary bone;G G, gland;M, capsule of mucous membrane surrounding the fangs;R, reserve fangs;A A, muscular fascia covering the gland.(After Sir Joseph Fayrer.)
Fig. 8.—Poison-gland and Fangs of a Venomous Snake(Naja tripudians,Colubridæ). (Natural size.)
L, Lobe of the gland;D, poison-duct;F, fang attached to the maxillary bone;G G, gland;M, capsule of mucous membrane surrounding the fangs;R, reserve fangs;A A, muscular fascia covering the gland.
(After Sir Joseph Fayrer.)
In a few venomous snakes the gland is developed to such an extent that it extends as far as the first ribs.
The species, on the contrary, that have the poison-teeth placed in the hinder part of the mouth (Opisthoglypha) have glands but little developed.
Muscular Apparatus of the Head.—Figs. 9 and 10, 11 and 12 show the arrangement of the principal muscles that work the jaws and glandular organs inVipera russelliiandNaja tripudians, which respectively represent the most formidable types ofViperidæand venomousColubridæ.
It is not necessary to give a detailed description of each of these muscles. Let it suffice to point out that all contribute in giving the greatest elasticity to the jaws, and at the same time strengthsufficient to retain the prey and to cause it to pass from front to rear towards the œsophagus, by a series of alternate antero-posterior movements and analogous lateral ones. By means of these movements, which are participated in by the upper and lower maxillary bones, the palatines, mandibles or inter-maxillaries, and the pterygoids, the animal in a mannerdraws itselfover its preylike a glove, since the arrangement of its dentition does not admit ofmastication.
A A, Fascia covering the anterior and posterior temporal muscles;B, small gland;C, tendinous insertion of the fascia;D, poison-duct;E, poison-fang;F, reserve fangs;G, mandible;H, ectopterygoid muscle;J, poison-gland covered by the masseter;K, masseter inserted in the mandible;L, insertion of the temporal muscle;M, digastric muscle.A A, Ectopterygoid muscle;B, præ-spheno-pterygoid muscle;C, intermandibular muscle;D, præ-spheno-palatine muscle;Epræ-spheno-vomerine muscle;F, capsule of mucous membrane surrounding the fangs;G, long muscle of the neck.Figs. 9 and 10.—Muscular Apparatus and Poison-gland ofVipera russellii(Viperidæ). (After Sir Joseph Fayrer.)
A A, Fascia covering the anterior and posterior temporal muscles;B, small gland;C, tendinous insertion of the fascia;D, poison-duct;E, poison-fang;F, reserve fangs;G, mandible;H, ectopterygoid muscle;J, poison-gland covered by the masseter;K, masseter inserted in the mandible;L, insertion of the temporal muscle;M, digastric muscle.
A A, Fascia covering the anterior and posterior temporal muscles;B, small gland;C, tendinous insertion of the fascia;D, poison-duct;E, poison-fang;F, reserve fangs;G, mandible;H, ectopterygoid muscle;J, poison-gland covered by the masseter;K, masseter inserted in the mandible;L, insertion of the temporal muscle;M, digastric muscle.
A A, Ectopterygoid muscle;B, præ-spheno-pterygoid muscle;C, intermandibular muscle;D, præ-spheno-palatine muscle;Epræ-spheno-vomerine muscle;F, capsule of mucous membrane surrounding the fangs;G, long muscle of the neck.
A A, Ectopterygoid muscle;B, præ-spheno-pterygoid muscle;C, intermandibular muscle;D, præ-spheno-palatine muscle;Epræ-spheno-vomerine muscle;F, capsule of mucous membrane surrounding the fangs;G, long muscle of the neck.
Figs. 9 and 10.—Muscular Apparatus and Poison-gland ofVipera russellii(Viperidæ). (After Sir Joseph Fayrer.)
A, Tracheo·mastoid muscle;B B, digastric muscle;C C, posterior temporal muscle;D D, anterior temporal muscle;E E, masseter;F, poison-gland, covered by the masseter and fascia;G, poison-duct;H, maxillary bone;I, neuro-mandibular muscle;J, costo-mandibular muscle.A, Entopterygoid muscle;B, poison-gland;C, poison-duct;D, poison-fangs;E, præ-spheno-palatine muscle;F, præ-spheno-vomerine muscle;G, capsule of mucous membrane surrounding the fangs;H, præ-spheno-pterygoid muscle (which erects the fangs);J, inter-mandibular muscle;K, ectopterygoid muscle;L, long muscle of the neck (longus colli).Figs. 11 and 12.—Muscular Apparatus and Poison-gland ofNaja tripudians(Colubridæ). (After Sir Joseph Fayrer.)
A, Tracheo·mastoid muscle;B B, digastric muscle;C C, posterior temporal muscle;D D, anterior temporal muscle;E E, masseter;F, poison-gland, covered by the masseter and fascia;G, poison-duct;H, maxillary bone;I, neuro-mandibular muscle;J, costo-mandibular muscle.
A, Tracheo·mastoid muscle;B B, digastric muscle;C C, posterior temporal muscle;D D, anterior temporal muscle;E E, masseter;F, poison-gland, covered by the masseter and fascia;G, poison-duct;H, maxillary bone;I, neuro-mandibular muscle;J, costo-mandibular muscle.
A, Entopterygoid muscle;B, poison-gland;C, poison-duct;D, poison-fangs;E, præ-spheno-palatine muscle;F, præ-spheno-vomerine muscle;G, capsule of mucous membrane surrounding the fangs;H, præ-spheno-pterygoid muscle (which erects the fangs);J, inter-mandibular muscle;K, ectopterygoid muscle;L, long muscle of the neck (longus colli).
A, Entopterygoid muscle;B, poison-gland;C, poison-duct;D, poison-fangs;E, præ-spheno-palatine muscle;F, præ-spheno-vomerine muscle;G, capsule of mucous membrane surrounding the fangs;H, præ-spheno-pterygoid muscle (which erects the fangs);J, inter-mandibular muscle;K, ectopterygoid muscle;L, long muscle of the neck (longus colli).
Figs. 11 and 12.—Muscular Apparatus and Poison-gland ofNaja tripudians(Colubridæ). (After Sir Joseph Fayrer.)
Fig. 13.—Arrangement of the Scales of the Head in one of the Non-poisonousColubridæ(Ptyas mucosus). (After Sir Joseph Fayrer.)A, Rostral scale;B, anterior frontals;B1, posterior frontals;C, vertical;D, occipitals;E, supra-ciliaries;F, temporals;L,M, nasals;N, loreals, or frenals;O, anterior oculars, or præ-orbitals; P, posterior oculars, or post-orbitals; Q, supralabials; G, median infralabial;H H, lateral infralabials;I K, mentals.
Fig. 13.—Arrangement of the Scales of the Head in one of the Non-poisonousColubridæ(Ptyas mucosus). (After Sir Joseph Fayrer.)
A, Rostral scale;B, anterior frontals;B1, posterior frontals;C, vertical;D, occipitals;E, supra-ciliaries;F, temporals;L,M, nasals;N, loreals, or frenals;O, anterior oculars, or præ-orbitals; P, posterior oculars, or post-orbitals; Q, supralabials; G, median infralabial;H H, lateral infralabials;I K, mentals.
The enormous extensile power of the mouth and œsophagus thus enables snakes to swallow animals, the size of which is several times in excess of their own diameter.
Deglutition is slow and painful, but the gastric and intestinal juices are so speedy in action, that the digestion of the mostresistant substances rapidly takes place. The very bones are dissolved, and the fæces, which are voided some days later, contain only a few osseous remains and a felt-like material composed of hair or feathers.
Scales.—The skin of snakes, which is very elastic and extensile, is covered with scales, small on the back, and in great transverse plates on the entire ventral surface.
Fig. 14.—Arrangement of the Scales of the Head in one of the PoisonousColubridæ(Naja tripudians,ORCobra-di-Capello). (After Sir Joseph Fayrer.)
Fig. 14.—Arrangement of the Scales of the Head in one of the PoisonousColubridæ(Naja tripudians,ORCobra-di-Capello). (After Sir Joseph Fayrer.)
The shape and dimensions of the scales of the head are highly characteristic in each species. It is therefore necessary to know their names and the arrangement that they exhibit: these details are shown with sufficient clearness in figs. 13 and 14.
Coloration.—The colouring exhibited by the scales of snakes is governed generally by the biological laws ofmimicry. It is therefore not a character of specific value, and may be modified several times in the course of the existence of the same reptile, according to the surroundings in which it is obliged to live.
“Nature,” write Dumeril and Bibron, “seems to have caused the tints and colours of snakes to vary in accordance with their habits and modes of life. Generally speaking, the colours are greyish or dull in species that are wont to live among sand, or which bury themselves in loose earth, as also in those that lie in wait on the trunks or large boughs of trees; while these hues are of a bluish-green, resembling the tint of the leaves and young shoots of plants, in snakes that climb among bushes or balance themselves at the end of branches. It would be difficult to describe all the modifications revealed by a general study of the colours of their skins. Let us imagine all the effects of the decomposition of light, commencing with white and the purest black, and passing on to blue, yellow, and red; associating and mixing them together, and toning them down so as to produce all shades, such as those of green, of violet, with dull or brilliant tints more or less pronounced, and of iridescent or metallic reflections modified by spots, streaks, and straight, oblique, undulating, or transverse lines. Such is the range of colours to be found in the skin of snakes.”
This skin is covered by a thick epidermis, which is periodically detached in its entirety, most frequently in a single piece. Before effecting itsmoult, the reptile remains in a state of complete repose for several weeks, as if asleep, and does not eat. Its scales grow darker and its skin becomes wrinkled. Then one day its epidermis tears at the angle of the lips. The animal thereupon wakes up, rubs itself among stones or branches, divests itself entirely of its covering as though it were emerging from a sheath, and proceeds forthwith in quest of food.
Themoultis repeated in this way three or four times every year.
All poisonous snakes arecarnivorous. They feed on small mammals (rats, mice), birds, batrachians, other reptiles or fish, which they kill by poisoning them by means of their fangs.
They almost always wait until their prey is dead before swallowing it.
Some of them are very fond of eggs, which they well know how to find in the nests of birds, and swallow whole.
When a poisonous snake wishes to seize its prey, or strike an enemy, it raises its head, and depresses the lower and elevates the upper jaw in such a way that thefangsare directed straight forward. Then, with the quickness of a spring when it is released, the reptile makes a sudden dart and strikes its victim. After inflicting the wound it draws back, doubles up its neck and head, and remains prepared to strike again.
So rapid is the action of the venom, that the wounded animal falls to the ground almost immediately; it is forthwith stricken with paralysis, and dies in a few moments. In most cases the snake holds it in its mouth until death ensues; the reptile then sets to work to swallow its victim, an operation which is always slow and painful.
In captivity poisonous snakes almost always refuse to take any food whatever. If it be desired to keep them for a long time, it is often necessary to resort to artificial feeding. For this purpose the snake is seized by the head by means of a strong pair of long forceps; it is then grasped by the neck with the left hand withoutsqueezing too hard (fig. 15), taking care at the same time not to give the body a chance of coiling itself round anything. Next, one or more lumps of beef or horse-flesh are introduced into the jaws, and gently forced down deep into the œsophagus by means of a glass rod, which is polished in order not to injure the mucous membrane. The œsophagus is then gently massaged in a downward direction, in order to cause the bolus of food to descend into the stomach (fig. 16). This operation is repeated every fortnight.
Fig. 15.—Feeding a Poisonous Snake, First Stage.
Fig. 15.—Feeding a Poisonous Snake, First Stage.
Fig. 16.—Feeding a Poisonous Snake, Second Stage.
Fig. 16.—Feeding a Poisonous Snake, Second Stage.
Fig. 17.—Catching aCobra-di-Capello(Naja tripudians),First Stage. (At the French Settlement of Pondicherry, in India.)
Fig. 17.—Catching aCobra-di-Capello(Naja tripudians),First Stage. (At the French Settlement of Pondicherry, in India.)
In this way, at my laboratory, I have been able to preserve, in perfect condition for more than two years, IndianCobrasandFers-de-lancefrom Martinique, taking care to keep them in a hothouse, at a temperature of about 82° to 86° F.
It is also very important to place inside the cases a vessel full of water, which should be frequently changed, for almost all snakes drink often and like to bathe for whole days at a time.
Fig. 18.—Catching aCobra-di-Capello(Naja tripudians),Second Stage. (At the French Settlement of Pondicherry, in India.)
Fig. 18.—Catching aCobra-di-Capello(Naja tripudians),Second Stage. (At the French Settlement of Pondicherry, in India.)
Within their reach should be placed in addition branches and rockwork, against which they rub at themoultingtimes, in order periodically to rid themselves of their scarf-skin.
While moulting, snakes must neither be touched nor fed, since to force them to take food at such a time would be fatal.
Snake-catching.—The capture of poisonous snakes, in order to keep them alive, can only be performed without danger by skilful persons, who are possessed of much coolness.
The best way of securing them is suddenly to pin the neck to the ground by means of a stick held horizontally, or a small two-pronged fork of wood or metal (fig. 17).
The stick is rolled along until close to the occiput (fig. 18). The animal can then be seized with the hand immediately behind the head, in such a way that it is impossible for it to turn and bite. It is then put into a wire cage, provided with a small movable trapdoor, with the fastening on the outside.
In this way poisonous snakes can be sent to a distance, and left without food for one or even two months, provided that they be kept in a place which is somewhat moist and sufficiently warm.
Fig. 19 shows how captured cobras are carried in India, in the environs of Pondicherry. They are enclosed in earthernchatties, or in baskets of plaited bamboo, which are provided with covers, and are very convenient for carrying snakes short distances.
Fig. 19.—Hindu carrying Two Captured Cobras in “Chatties.”
Fig. 19.—Hindu carrying Two Captured Cobras in “Chatties.”
Poisonous snakes are especially common in the tropical zones of the Old and New Worlds. The species found in Europe are but of small size and not very formidable. In hot countries, on the other hand, they attain large dimensions, their venom is much more active, and, although they hardly ever attack man, and in most cases avoid him, they cause a considerable number of fatal accidents.
It is sometimes a rather difficult matter to recognise from the mere appearance of a snake whether it is poisonous or not. Naturalists themselves are occasionally deceived. It is therefore useful to learn to distinguish the most dangerous species by their external characters, and to know in what countries there is a risk of their being encountered.
Of the continents of the Old World, the poorest in poisonous snakes is Europe. The only species found there are aCœlopeltis(belonging to the Sub-familyDipsadomorphinæof theOpisthoglypha), and certainViperinæ, which rarely exceed 75 centimetres in length.
Cœlopeltis, the cranial skeleton and head of which are represented infig. 20, is characterised by a narrow, concave frontal shield,projecting supraciliaries, short snout, large eyes, with round pupils, two poison-fangs at the back of the upper maxillaries, and a cylindrical body. The scales of the back are finely grooved, and in the adult slightly concave.
Fig. 20.—Maxillary, Mandible, and Head ofCœlopeltis monspessulana.
Fig. 20.—Maxillary, Mandible, and Head ofCœlopeltis monspessulana.
The coloration, olivaceous-brown, or deep red on the back, becomes on the ventral surface pale yellow with brown streaks, and from five to seven longitudinal series of small spots, which are blackish and edged with yellow on the sides.
The mean total length is 1,800 millimetres. The tail is somewhat tapering, and about 350 millimetres long.
The only European species isCœlopeltis monspessulana, which is met with pretty commonly in France, in the neighbourhood of Montpellier, and Nice, near Valencia in Spain, and in Dalmatia. It is likewise found throughout North Africa, and in Asia Minor.
A second species,Cœlopeltis moilensis, occurs in Southern Tunis, Egypt, and Arabia.
The EuropeanViperinæbelong exclusively to the GenusVipera, the principal zoological characters of which are as follows:—
Head distinct from the neck, covered with small scales, with or without frontal and parietal shields; eyes small, with verticallyelongate pupils, separated from the labials by scales; nostrils lateral. Body cylindrical. Scales keel-shaped, with an apical pit, in from 19-31 rows; ventral scales rounded. Tail short; subcaudal scales in two rows.
The GenusViperais represented in Europe by several species, which are likewise found in Western Asia and North Africa.
These species are:—
V. ursinii,V. berus,V. aspis,V. latastii, andV. ammodytes.1
Snout obtuse, soft on its upper surface, with the frontal and parietal shields distinct, the former about one and a half times as long as broad, and almost always longer than the parietals. A single series of scales between the eyes and the free margin of the lips.
Temporal shields smooth. Body scales in from 19 to 21 rows, strongly keeled on the back, less strongly on the sides.
Colour yellowish or pale brown above, grey or dark brown on the sides, sometimes uniform brown; spots more or less regular on the vertebral column, oval, elliptic or rhomboidal, dark brown or flecked with white, sometimes forming an undulous or zigzag band; two or three longitudinal series of dark brown or black spots on the sides; small dark dots running obliquely from the eye to the angle of the mouth; nose and lips white, and one or two dark angular streaks on the head; chin and throat yellowish; belly black, with transverse series of white or grey dots. No sexual differences in coloration.
Total length from 420-500 millimetres; tail 50-55.
Habitat: South-east France (Basses-Alpes); Italy (Abruzzi); Istria; Mountains of Bosnia; Plains of Lower Austria; Hungary (environs of Buda-Pesth).
Snout rounded, short and truncate; pupil vertically elongate; vertical diameter of the eyes equal to or greater than the distance separating them from the mouth; frontal and parietal shields distinct, the former as long as broad, usually shorter than the space separating it from the rostral shield; 6-13 scales round the eyes; one or rarely two series of scales between the eyes and the lips; nasal shield single, separated from the rostral by a naso-rostral shield; temporal scales smooth. Body scales in 21 rows (exceptionally 19 or 23), strongly keeled; 132-150 ventral shields; 38-36 subcaudals.
Fig. 21.—(1)Vipera berus; (2)Vipera aspis; (3,4)Vipera ammodytes.(Natural size.)
Fig. 21.—(1)Vipera berus; (2)Vipera aspis; (3,4)Vipera ammodytes.(Natural size.)
Colour very variable, grey, yellowish, olive, brown, or red above,generally with an undulating or zigzag band along the vertebral column, and a series of lateral spots. A black spot shaped like aV, anX, or a circumflex accent, on the head. The tip of the tail is yellow or reddish. Some specimens are entirely black.
Total length from 350 to 700 millimetres; tail 75 to 90.
Habitat: Northern Europe, and especially the mountains of Central Europe; irregularly distributed in Southern Europe; Northern Spain and Portugal, Northern Italy, Bosnia, Caucasus.
This viper, which is very common in France, ranges as far as the Scandinavian Peninsula to about the 65th parallel of North Latitude. It is sometimes met with among the mountains at an altitude of about 6,500 feet (2,000 metres). It is found on heaths, in grass-lands, vineyards, and forests. Certain parts of the sandy moors of North Germany are literally infested with it. It abounds in the Jura, Isère, Ardèche, Auvergne, Brittany, Vendée, and the Forest of Fontainebleau.
It seeks its prey by night, and feeds on voles, small birds, frogs, lizards, and small fish. During the summer it shows a preference for moist places, often even remaining in the water, in which it swims with ease.
Light and fire attract it. It does not climb trees, but is frequently found coiled up on boughs of dead wood scattered on the ground.
When on the defensive, and preparing to bite, it throws its head back, and makes a sudden dart of from a foot to sixteen inches. If irritated it makes a sort of hissing noise.
To pass the winter it retires into the crevices of rocks or into old tree-trunks, where it entwines itself closely with a number of its congeners. In this way ten or fifteen vipers are frequently found together in the same hole.
In April, the whole company awakes, and copulation then takes place. The eggs are laid in August and September, and the young immediately crawl out of the shell, already prepared to bite, andcapable of finding their own food. Their length at birth amounts to 230 millimetres.
The two glands of an adult adder contain about 10 centigrammes of poison. This small quantity is sometimes sufficient to cause death; out of 610 persons bitten, Rollinger returns 59 deaths, or about 10 per cent.
In the departments of Vendée and Loire-Inférieure alone, Viaud Grand Marais has noted during a period of six years 321 cases of bites from adders, 62 of which were followed by death. In Auvergne, Dr. Fredet2(of Royat) returns 14 cases, which caused 6 deaths.
Snout slightly turned up, soft and squarely truncate; vertical diameter of the eyes equal to the space separating them from the mouth; upper surface of the head usually covered with small, imbricate, smooth or feebly keeled scales, in 4-7 series, between the supraocular shields, which are prominent. The frontal and parietal shields are usually wanting; sometimes they are distinct, but small and irregular; the former are separated from the supraoculars by two series of scales; 8-13 scales round the eyes; two (rarely three) series of scales between the eyes and the labials; nasal shield single, separated from the rostral by a naso-rostral shield. Body scales in 21-23 rows, strongly keeled; 134-158 ventrals; 32-49 subcaudals.
Coloration very variable, grey, yellowish, brown, or red above, with a zigzag band as inV. berus. Usually a blackU-shaped mark on the hinder part of the head, with a longitudinal black streak behind the eyes; upper lip white, or yellowish. Ventral surface yellow, white, grey, or black, with lighter or darker markings.
Total length, 620-675 millimetres; tail 75-95.
Habitat: France (especially Vendée, the Forest of Fontainebleau, and the South), Pyrenees, Alsace-Lorraine, the Black Forest, Switzerland, Italy and Sicily, and the Tyrol.
This viper especially frequents dry, rocky, and arid hillsides, which are exposed to the sun. Like the adder, it hibernates in tree-trunks and old walls. It lays from 6 to 15 eggs, from which the living young immediately issue, provided with poison. It feeds upon small rodents, worms, insects, and young birds. Raptorial birds, storks, and hedgehogs pursue it and devour it in large numbers.
Fig. 22.—Vipera aspis.(Natural size.) (From the Forest of Fontainebleau.)
Fig. 22.—Vipera aspis.(Natural size.) (From the Forest of Fontainebleau.)
Intermediate betweenV. aspisandV. ammodytes. Snout less turned up into a corneous appendage than in the latter. Head covered with small, smooth, or feebly keeled, subimbricate scales, among which an enlarged frontal shield may sometimes be distinguished; 5-7 longitudinal series of scales between the supraocular shields; 9-13 scales round the eyes; 2 or 3 series between the eyes and the labials; nasal shield entire, separated from the rostral by a naso-rostral. Body scales in 21 rows, strongly keeled; 125-147 ventrals; 32-43 subcaudals.
Coloration grey or brown above, with a longitudinal zigzag band, usually spotted with white; head with or without spots onthe vertex; black streak behind the eyes; ventral surface grey, spotted with black and white; tip of the tail usually yellow or with yellow spots.
Total length, 550-610 millimetres; tail 80-85.
Habitat: Spain and Portugal.
Snout terminated in front by a horny appendage covered with 10-20 small scales; vertical diameter of the eyes less than the distance separating them from the mouth; upper surface of the head covered with small, smooth, or feebly keeled scales, among which an enlarged frontal and a pair of parietal shields are sometimes distinguishable; 5-7 longitudinal series of scales between the supraoculars; 10-13 scales round the eyes; two series between the eyes and the labials; nasal shield entire, separated from the rostral by a naso-rostral. Body scales in 21-23 rows, strongly keeled; 133-162 ventrals; 24-38 subcaudals.
Coloration grey, brown, or reddish above, with a zigzag dorsal band, usually spotted with white; black streak behind the eyes; belly grey or violaceous; end of the tail yellow, orange, or coral-red.
Total length, 550-640 millimetres; tail 70-80.
Habitat: Southern Tyrol, Carinthia, Styria, Hungary, Danubian principalities and kingdoms, Turkey. Does not pass beyond the 48th parallel of North Latitude.
This viper loves very sunny places, and hillsides planted with vines. It rarely hibernates.
In districts in which it is plentiful, it is only necessary to light a fire at night in order to attract this species in swarms; this is the best method of taking it.
Its food consists of small rodents, lizards, and birds.
The species of snakes most dangerous to man are found in the warmer regions of Asia. India especially is infested by the famous Cobra-di-Capello (Naja tripudians), which possesses the highly remarkable faculty of dilating its neck in the form of a hood when irritated, and whose sculptured image appears on almost all the Hindu monuments.
We shall describe in a separate section (see below, F.) theHydrophiinæ, orSea-snakes, a large number of species of which frequent the shores of the Indian Ocean, the Strait of Malacca, the China Sea, the Moluccas, Celebes, and North Australia. In the case of certain species the area of distribution includes the whole of the tropical and sub-tropical zones of the Pacific Ocean, as far as the West Coast of America. It is therefore preferable to group them together for the purpose of comprehensive study.
Besides the above, the continent of Asia harbours a multitude of poisonous snakes belonging to the two FamiliesColubridæandViperidæ.
The genera and species belonging to these are so diverse, that we must confine ourselves to mentioning the essential characters of those that present most interest.
(a) Bungarus.
Head hardly distinct from the neck; eyes small, with round or vertically elliptic pupils; nostril between two nasal shields. Two large poison-fangs followed by one or two small, slightly groovedteeth (fig. 23). Scales smooth, oblique, in 13-17 rows, enlarged and hexagonal in shape on the vertebral column; ventral scales round. Tail relatively short; subcaudal scales in one or two rows.
Two very dangerous snakes found in India and Indo-China belong to this genus,B. fasciatusandB. candidus(var.cæruleus). Both are fairly common. In CeylonB. ceylonicusis met with, and in South ChinaB. candidus(var.multicinctus). The length of these snakes is from 1,000-1,500 millimetres. The back is compressed in the shape of a keel. The neck is not dilatable.
Fig. 23.—Skull ofBungarus. (After G. A. Boulenger,op. cit.)
Fig. 23.—Skull ofBungarus. (After G. A. Boulenger,op. cit.)
Colour bright yellow, ringed with black, with a black band commencing between the eyes, and broadening behind upon the nape and neck (fig. 24).
Especially abundant on the Coromandel Coast, in Bengal, and in Burma. In the North-west Provinces of India it is known as theKoclia-Krait. Its bite is very serious, but does not cause nearly so many fatalities as that of theCobra, since its fangs are smaller.
Dogs bitten byB. fasciatusdie in from four to five hours.
Fig. 24.—Bungarus fasciatus(India). (After Sir Joseph Fayrer.)
Fig. 24.—Bungarus fasciatus(India). (After Sir Joseph Fayrer.)
Blackish-brown or bluish, with narrow transverse white streaks, or small white spots, or alternate rings of yellow and dark brown; belly white. Smaller than the foregoing, scarcely exceeding 1,000 millimetres in length. It is known as the “Krait” in India, where,after the Cobra, the varietycæruleuscauses most deaths among human beings. It is found in jungles and rice-fields, and commonly secretes itself in old trees and old walls. It frequently penetrates into houses, verandahs, bathrooms, and even beds. Sir Joseph Fayrer relates the story of a lady, who, when travelling in a palanquin, found on arriving at her destination a “Krait” coiled up in her luggage, the snake having thus made the journey with her throughout a whole night.
The Krait may easily be confused withLycodon aulicus, a harmless snake which closely resembles it, though it can at once be distinguished by examining its mouth.
Head scarcely distinct from the neck; eyes with round pupils; nostril between two nasal shields and an internasal. A pair of solid grooved poison-fangs. Body elongate, cylindrical, terminated by a conical and pointed tail. Scales smooth, disposed obliquely, in 15-25 rows. Ventral scales round.
Head small, covered with large shields, a frontal as long as broad, a supraocular, a præocular, 3 postoculars, 2 + 3 or 3 + 3 temporals, 7 upper labials, 4 lower labials. Neck dilatable by the separation of the first cervical ribs; 21-35 scales round the neck, 17-25 round the middle of the body; 163-205 ventrals; 42-75 subcaudals.
Total length, 1,500-1,900 millimetres; tail 230.
Coloration very variable, usually cinereous grey or almost black with a bluish sheen; belly lighter, sometimes tinted with red. The head is frequently tinged with golden-yellow; it is spotted with yellowish-white above, and is pure white underneath.
This species is distributed throughout the whole of Southern Asia, from the south of the Caspian Sea to South China and the Malay Archipelago.