Daboia

Russell's viper Daboia russelii
A Russell's viper in Pune, India.
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Subphylum:	Vertebrata
Class:	Reptilia
Order:	Squamata
Suborder:	Serpentes
Family:	Viperidae
Subfamily:	Viperinae
Genus:	Daboia Gray, 1842
Species:	D. russelii
Binomial name
Daboia russelii (Shaw & Nodder, 1797)
Synonyms
Genus synonymy Daboia Gray, 1842 Chersophis Fitzinger, 1843 Daboya Hattori, 1913[1] Species synonymy Coluber russelii Shaw & Nodder, 1797 Coluber daboie Latreille in Sonnini & Latreille, 1801 Coluber trinoculus Schneider In Bechstein, 1802 Vipera daboya Daudin, 1803 Vipera elegans Daudin, 1803 Coluber triseriatus Hermann, 1804 Vipera russelii Gray, 1831 Daboia elegans Gray, 1842 Daboia russelii Gray, 1842 Daboia pulchella Gray, 1842 Echidna russellii Steindachner, 1869

Daboia is a monotypic genus^[2] of venomous Old World viper. The single species, D. russelii, is found in Asia throughout the Indian subcontinent, much of Southeast Asia, southern China and Taiwan.^[1] The species was named in honor of Patrick Russell (1726–1805), a Scottish herpetologist who first described many of India's snakes; and the name of the genus is from the Hindi word meaning "that lies hid", or "the lurker."^[3] Apart from being a member of the big four snakes in India, Daboia is also one of the species responsible for causing the most snakebite incidents and deaths among all venomous snakes on account of many factors, such as their wide distribution and frequent occurrence in highly-populated areas.^[4] Two subspecies are currently recognized, including the nominate subspecies described here.
Daboia are commonly known as Russell's viper (Kannada : ಮಂಡಲದ ಹಾವು, Telugu : రక్త పింజరి, పొడ పాము,కాటుక రేకుల పొడ) and chain viper, among other names.^[5][6]

Description

This snake can grow to a maximum length of 166 cm (5.5 ft) and averages about 120 cm (4 ft) on mainland Asian populations, although island populations do not attain this size.^[5] It is more slenderly built than most other vipers.^[7] Ditmars (1937) reported the following dimensions for a "fair sized adult specimen":^[8]

Total length	4 ft., 1 inch	124 cm
Length of tail	7 inches	18 cm
Girth	6 inches	15 cm
Width of head	2 inches	5 cm
Length of head	2 inches	5 cm

The head is flattened, triangular and distinct from the neck. The snout is blunt, rounded and raised. The nostrils are large, in the middle of a large, single nasal scale. The lower edge of the nasal touches the nasorostral. The supranasal has a strong crescent shape and separates the nasal from the nasorostral anteriorly. The rostral is as broad as it is high.^[5]

Head of the Russell's viper

The crown of the head is covered with irregular, strongly fragmented scales. The supraocular scales are narrow, single, and separated by 6–9 scales across the head. The eyes are large, flecked with yellow or gold, and each is surrounded by 10–15 circumorbital scales. There are 10–12 supralabials, the 4th and 5th of which are significantly larger. The eye is separated from the supralabials by 3–4 rows of suboculars. There are two pairs of chin shields, the front pair of which are notably enlarged. The two maxillary bones support at least two and at the most five or six pairs of fangs at a time: the first are active and the rest replacements.^[5] The fangs attain a length of 16 mm in the average specimen.^[9]
The body is stout, the cross-section of which is rounded to cylindrical. The dorsal scales are strongly keeled; only the lower row is smooth. Mid-body, the dorsal scales number 27–33. The ventral scales number 153–180. The anal plate is not divided. The tail is short — about 14% of the total body length — with the paired subcaudals numbering 41–68.^[5]
The color pattern consists of a deep yellow, tan or brown ground color, with three series of dark brown spots that run the length of its body. Each of these spots has a black ring around it, the outer border of which is intensified with a rim of white or yellow. The dorsal spots, which usually number 23–30, may grow together, while the side spots may break apart. The head has a pair of distinct dark patches, one on each temple, together with a pinkish, salmon or brownish V or X pattern that forms an apex towards the snout. Behind the eye, there is a dark streak, outlined in white, pink or buff. The venter is white, whitish, yellowish or pinkish, often with an irregular scattering of dark spots.^[5]

Common names

Common names of Daboia include:

• English – Russell's viper chain viper, Indian Russell's viper,common Russell's viper, seven pacer, chain snake, scissors snake. Previously, another common name was used to described a subspecies that is now part of the synonymy of this form: Sri Lankan Russell's viper for D. r. pulchella.
• Urdu, Hindi, Hindustani, Punjabi – daboia.
• Kashmiri – gunas.^[9]
• Oriya – Chandan Boda
• Sindhi – koraile.^[9]
• Bengali – bora, chandra bora, uloo bora.
• Gujarati – chitalo, khadchitalo.
• Marathi – ghonas.
• Telugu – katuka rekula paamu.or raktha penjara/penjari.
• Thai – ngu maew sao
• Kannada – mandaladha haav^] or mandalata havu, kolakumandala.
• Tamil – retha aunali, kannadi virian or kannadi viriyan.
• Malayalam – mandali, raktamandali,chenathandan, manchatti, vattakoora, "Rakta Anali"
• Sinhala – tic polonga.
• Burmese – mwe lewe.
• Tulu – PILI kandhodi

Geographic range

Russell's viper from India

Found in India, Pakistan, Sri Lanka, Bangladesh, Nepal, Myanmar, Thailand, Cambodia, China (Guangxi, Guangdong), Taiwan and Indonesia (Endeh, Flores, east Java, Komodo, Lomblen Islands). The type locality is listed as "India". More specifically, this would be the Coromandel Coast, by inference of Russell (1796).
Brown (1973) mentions that it can also found in Vietnam, Laos and on the Indonesian island of Sumatra. Ditmars (1937) reportedly received a specimen from Sumatra as well.However, the distribution of this species in the Indonesian archipelago is still being elucidated.
Within its range it can be very common in some areas, but scarce in others. In India, is abundant in Punjab, very common along the West Coast and its hills, in southern India and up to Bengal. It is uncommon to rare in the Ganges valley, northern Bengal and Assam. It is prevalent in Myanmar.

Habitat

It is not restricted to any particular habitat, but does tend to avoid dense forests. The snake is mostly found in open, grassy or bushy areas, but may also be found in second growth forests (scrub jungles), on forested plantations and farmland. They are most common in plains, coastal lowlands and hills of suitable habitat. Generally not found at altitude, but has been reported as far up as 2300–3000 m. Humid environments, such as marshes, swamps and rain forests, are avoided.
This species is often found in highly urbanized areas and settlements in the countryside, the attraction being the rodents commensal with man. As a result, those working outside in these areas are most at risk of being bitten. It should be noted, however, that D. russelii does not associate as closely with human habitation as Naja and Bungarus (cobras and kraits).

Behavior

This snake is terrestrial and active primarily as a nocturnal forager. However, during cool weather it will alter its behavior and become more active during the day.
Adults are reported to be persistently slow and sluggish unless pushed beyond a certain limit, after which they become aggressive. Juveniles, on the other hand, are generally more nervous.
When threatened they form a series of S-loops, raise the first third of the body and produce a hiss that is supposedly louder than that of any other snake. When striking from this position, they can exert so much force that even a large individual can lift most of its body off the ground in the process. These snakes are strong and may react violently to being picked up. The bite may be a snap, or they may hang on for many seconds.
Although this genus does not have the heat-sensitive pit organs common to the Crotalinae, it is one of a number of viperines that are apparently able to react to thermal cues, further supporting the notion that they too possess a heat-sensitive organ. The identity of this sensor is not certain, but the nerve endings in the supranasal sac of these snakes resemble those found in other heat-sensitive organs.

D. russelii in Bangalore, India

 Reproduction

This species is ovoviviparous. Mating generally occurs early in the year, although gravid females may be found at any time. The gestation period is more than six months. Young are produced from May to November, but mostly in June and July. It is a prolific breeder. Litters of 20–40 are common,although there may be fewer offspring and as little as one. The reported maximum is 65 in a single litter. At birth, juveniles are 215–260 mm in length. The minimum length for a gravid female is about 100 cm. It seems that sexual maturity is achieved in 2–3 years. In one case, it took a specimen nearly 4.5 hours to produce 11 young.

 Prey

D. russelii hunting

It feeds primarily on rodents, especially murid species. However, they will eat just about anything, including rats, mice, shrews, squirrels, land crabs, scorpions and other arthropods. Juveniles are crepuscular, feeding on lizards and foraging actively. As they grow and become adults, they begin to specialize in rodents. Indeed, the presence of rodents is the main reason they are attracted to human habitation.
Juveniles are known to be cannibalistic.

 Mimicry

The rough-scaled sand boa, Gongylophis conicus, possibly mimics the appearance of D. russelii.

Some herpetologists believe that, because D. russelii is so successful as a species and has such a fearful reputation within its natural environment, another snake has even come to mimic its appearance. Superficially, the rough-scaled sand boa, Gongylophis conicus, has a color pattern that often looks a lot like that of D. russelii, even though it is completely harmless.

 Venom

The quantity of venom produced by individual specimens is considerable. Reported venom yields for adult specimens range from 130–250 mg to 150–250 mg to 21–268 mg. For 13 juveniles with an average length of 79 cm, the average venom yield was 8–79 mg (mean 45 mg).
The LD₅₀ in mice, which is used as a possible indicator of snake venom toxicity, is as follows: 0.133 mg/kg intravenous, 0.40 mg/kg intraperitoneal, about 0.75 mg/kg subcutaneous.For most humans, a lethal dose is approximately 40–70 mg. In general, the toxicity depends on a combination of five different venom fractions, each of which is less toxic when tested separately. Venom toxicity and bite symptoms in humans vary within different populations and over time.
Envenomation symptoms begin with pain at the site of the bite, immediately followed by swelling of the affected extremity. Bleeding is a common symptom, especially from the gums and in the urine, and sputum may show signs of blood within 20 minutes post-bite. There is a drop in blood pressure, and the heart rate falls. Blistering occurs at the site of the bite, developing along the affected limb in severe cases. Necrosis is usually superficial and limited to the muscles near the bite, but may be severe in extreme cases. Vomiting and facial swelling occur in about one-third of all cases. Kidney failure (renal failure) also occurs in approximately 25-30 percent of untreated bites. Severe disseminated intravascular coagulation also can occur in severe envenomations. Early medical treatment and early access to antivenom can prevent and drastically reduce the chance of developing the severe/potentially lethal complications.
Severe pain may last for 2–4 weeks. Locally, it may persist depending on the level of tissue damage. Often, local swelling peaks within 48–72 hours, involving both the affected limb and the trunk. If swelling up to the trunk occurs within 1–2 hours, massive envenomation is likely. Discoloration may occur throughout the swollen area as red blood cells and plasma leak into muscle tissue. Death from septicaemia, kidney, respiratory or cardiac failure may occur 1 to 14 days post-bite or even later.
A study in The Lancet journal showed that out of a sample of people bitten by Daboia russelii who survived, 29% of them suffered severe damage to their pituitary glands, which later resulted in hypopituitarism. Other scientific studies support the hypothesis that D. russelii bites can cause hypopituitarism.
Because this venom is so effective at inducing thrombosis, it has been incorporated into an in vitro diagnostic test for blood clotting that is widely used in hospital laboratories. This test is often referred to as Dilute Russell's viper venom time (dRVVT). The coagulant in the venom directly activates factor X, which turns prothrombin into thrombin in the presence of factor V and phospholipid. The venom is diluted to give a clotting time of 23 to 27 seconds and the phospholipid is reduced to make the test extremely sensitive to phospholipid. The dRVVT test is more sensitive than the aPTT test for the detection of lupus anticoagulant (an autoimmune disorder), because it is not influenced by deficiencies in clotting factors VIII, IX or XI.
In India, the Haffkine Institute prepares a polyvalent antivenin that is used to treat bites from this species.

 Subspecies

Subspecies	Taxon author[	Common name	Geographic range
D. r. russelii	(Shaw, 1797)	Indian Russell's viper[33]	Across the Indian subcontinent through Pakistan and Bangladesh to Sri Lanka.
D. r. siamensis	(M.A. Smith, 1917)	Eastern Russell's viper[34]	From Myanmar through Thailand, Cambodia, Indonesia and southern China. Also found in Taiwan.

KRAIT

COMMON KRAIT

The common krait (Bungarus caeruleus, also known as Indian krait or Blue krait) is a species of genus Bungarus found in the jungles of the Indian subcontinent.^[1] It is a member of the "big four", species inflicting the most snakebites in India.

 Description

The Common Krait

The average length is 0.99 meters (3 ft 3 in) but they can grow to 1.75 meters (5 ft 9 in).^[1] Males are longer with proportionately longer tails. The head is flat. Neck hardly evident. The body is cylindrical, tapering towards the tail. The tail is short and rounded. The eyes are rather small, with rounded pupils, indistinguishable in life. The head shields are normal, no loreals; four shields along the margin of the lower lip; 3rd and 4th supraoculars touching the eye. Scales are highly polished, in 15-17 rows; the vertebral row is distinctly enlarged and hexagonal. Ventrals 185-225. Caudals 37-50, entire.^[2]
Colouration is generally black or bluish black, with about 40 thin, white crossbars which may be indistinct or absent anteriorly. The pattern however, is complete and well defined in the young which are marked with conspicuous crossbars even anteriorly; in old individuals the narrow white lines may be found as a series of connected spots, with a prominent spot on the vertebral region. A white preocular spot may be present: upper lips and the belly are white.^[2]

 Common names

• Hindi - करैत (Karait).
• Bengali - Kalach, ডোমনাচিতি (Domnachiti) (North Bengal), শঙ্খিনি (Shankhani) (North Bengal), শিয়ার চাঁদা (Shiyar Chanda) (South Bengal). কেউটে (Keutay) or শাহ-কানন (Shah-Kanon)(Bangladesh)
• Kannada - Kattige haavu.
• Telugu - Katla paamu.
• Gujarati - Kalo taro.
• Rajsthani - Peewano.
• Marathi - Manyar, kanadar.
• Oriya - ଚିତି (Chitti).
• Tamil - Kattu viriyan, Pudayan,
• Malayalam - Velli Kattan (Malabar and Cochin), Ettadi veeran (Travancore).
• Sinhala - Karawala.
• Tulu - Katta Kadambale.
• Urdu - کلوٹاڑو یا کریت

Geographic range

Peninsular India from Sindh (Pakistan), to the West Bengal plains. It occurs throughout South India and Sri Lanka at elevations up to about 1600 metres.^[1]

 Habitat

Inhabits a wide variety of habitat in its range. It is found in fields, low scrub jungle as well as inhabited areas. They are known to take up residence in termite mounds, brick piles, rat holes and also inside houses.^[1] It is fond of water and is frequently found in it or within proximity to a water source.

 Feeding

These snakes prey on other snakes, lizards, frogs, rats, and mice. They will devour their young being cannibalistic in nature. Young are known to eat arthropods. As per Daniels, the common krait feeds primarily on other snakes, including "blind worms" (snakes of the genus Typhlops) and other kraits, and also feeds on frogs and lizards and small mammals. This snake is nocturnal. It is very active and agile at night. It often hides in rodent holes, loose soil or beneath debris, so it is rarely seen during day.

Common Krait(Bungarus caeruleus) eating a wolf snake(Lycodon aulicus)

 Behavior

Behavioral differences during day and nighttime have been reported in Bungarus caeruleus. During the day it is sluggish and rolls its body into a loose coiled ball, keeping its head well-concealed. In balled condition, the snake allows considerable handling, however, over handling often instigates bites. At night the snake is very active, escapes by hissing loudly, or keeping still, occasionally biting the source of the annoyance.
When agitated, it will coil up with head concealed, body flattened, and make jerky movements. May also lift its tail. Reluctant to bite, but when it does bite, it typically bites and holds on for awhile, which enables it to inject considerable amounts of venom.They are generally docile and not aggressive during the day, it may become aggressive at night if threatened.

 Venom

The Indian krait's venom consists mostly of powerful neurotoxins which induce muscle paralysis. Clinically, its venom contains pre-synaptic and post-synaptic neurotoxins.^[1] These neurotoxins generally affect the nerve endings near the synaptic cleft of the brain.
In mice, the LD₅₀ values of its venom are 0.365 mg/kg SC, 0.169 mg/kg IV and 0.089 mg/kg IP.^[3][4] while the average venom yield is 10 mg (dry weight).^[5]
Kraits are nocturnal and seldom encounter humans during daylight hours, so incidents occur mainly at night. There is frequently little or no pain from a krait bite and this can provide false reassurance to the victim. Typically, victims complain of severe abdominal cramps, accompanied by progressive paralysis. Once bitten, the absorption of the venom into the victim can be considerably delayed by applying a pressure bandage to the bite site (using about the same tension as one uses for a sprained ankle) and immobilising the area. This allows for gentle transport to medical facilities, where the venom can be treated when the bandage is removed. As there are no local symptoms, a patient should be carefully observed for signs of paralysis (e.g., the onset of ptosis) and treated urgently with antivenom. It is also possible to support bite victims via mechanical ventilation, using equipment of the type generally available at hospitals. Such support should be provided until the venom is metabolised and the victim can breathe unaided. If death occurs it takes place approximately 4–8 hours after the krait bite. Cause of death is general respiratory failure, i.e. suffocation.^[6]
Often during the rainy season, the snakes come out of their hiding places and find refuge inside dry houses. If bitten by a krait while sleeping, a victim may not realize he has been bitten as the bite feels like an ant bite or a mosquito bite. The victim may be dead before he even wakes up. One such case was recently reported in Indore. An English language accent instructor was bitten by a krait inside his house and was declared dead upon arrival at the hospital^{[citation needed]}.
There are few symptoms of having been bitten. The facial muscles get tight in 1-2 hours, the patient may be unable to talk or see, and, if left untreated, the patient may die from respiratory paralysis  

 

 Other culture

In the famous story in The Jungle Book, "Rikki Tikki Tavi," Karait, a dustbrown krait, threatens the boy. Rikki, a young mongoose does battle with the snake and the narrator emphasizes that he is a dangerous opponent, even more than a cobra in some respects. Regardless of the risk and the mongoose's inexperience, Rikki defeats him.
In the 9th novel of the Women's Murder Club, "8th Confession" by James Patterson, the killer used a krait snake to poison and kill her victims.
Roald Dahl's Someone Like You (collection) contains a short story called "Poison" in which a krait creeps up onto a man's stomach as he lies in bed reading a book.

COMMON COBRA

Cobra  is any of various species of venomous snakes usually belonging to the family Elapidae, most of which can expand their neck ribs to form a widened hood. Not all snakes commonly referred to as cobras are of the same genus, or even of the same family. The name is short for cobra de capelo or cobra-de-capelo, which is Portuguese for "snake with hood", or "hood-snake".^[1] When disturbed, most of these snakes can rear up and spread their necks (or hoods) in a characteristic threat display. A favorite of snake charmers, cobras are found from southern Africa, through southern Asia, to some of the islands of Southeast Asia.
Cobra may refer to:
Naja, also known as typical cobras (with the characteristic ability to raise the front quarters of their bodies off the ground and flatten their necks in a threatening gesture), a group of venomous elapids found in Africa and Asia

The king cobra is the world’s largest venomous snake, with an average length of 12 feet but known to grow up to 18.5 feet. While it preys chiefly on other snakes, the king cobra is highly aggressive, extremely fast and agile, and injects a larger amount of venom per bite (as much as 600 mg) than most snakes. The king cobra is unique among snakes as it makes a nest for its eggs and remains until the young hatch. An adult human can die from a single bite in less than 15 minutes, making the king cobra one of the most feared and deadly snakes in the world.
The other cobra of Asia is known as Asian, Indian or Spectacled cobra due to the eyeglass-shaped pattern on its skin. The hood of the Asian cobra is larger than that of king cobra and is usually yellow or brown with a black and white spectacle pattern on top and two black and white spots on the lower surface.
The Ringhals, a different type of spitting cobra confined to southern Africa, are the smallest, reaching only about 4 feet in length. It is dark brown or black with ridged, or keeled, scales and light rings on the neck.
Cobras very rarely attack people unprovoked, but when disturbed, they make full use of their deadly bite.

Description

Spectacle pattern on a snake's hood.

 

On the rear of the snake's hood are two circular ocelli patterns connected by a curved line, evoking the image of spectacles. Hindus believe them to be the footmarks of Krishna, who danced on Kāliyā, the hundred and ten hooded snake's head. An average cobra is about 1.9 meters (6 feet) in length and rarely as long as 2.4 meters (nearly 8 feet). The most distinctive and impressive characteristic of the Indian cobra is the hood, which it forms by raising the anterior portion of the body and spreading some of the ribs in its neck region when it is threatened. ^[3] The spectacle pattern on the hood varies greatly, as does the overall colour of the snake.^[4]

An additional line is seen above the spectacle in this cobra. This is just one of the many different patterns you can find on a cobra.

 

The genus name Naja comes from Indian languages. The Indian cobra^[5][6] or spectacled cobra,^[2] being common in South Asia, is referred to by a number of local names deriving from the root of Naag (Hindi, Sanskrit, Oriya, Marathi), Moorkan (Malayalam), Naya (Sinhalese), Naagu Pamu (Telugu),^[6] Nagara Haavu (Kannada),^[6] Naaga Pambu or Nalla pambu (Tamil)^[6] "Phetigom" (Assamese) and Gokhra (Bengali).
The Oriental ratsnake Ptyas mucosus is often mistaken for the cobra; however this snake is much longer and can easily be distinguished by the more prominent ridged appearance of its body. Other snakes that resemble Naja naja are the banded racer Argyrogena fasciolata and the Indian smooth snake Coronella brachyura.^[2]

 Distribution, habitat and ecology

Indian cobra in its habitat

 

The Indian cobra is native to the Indian subcontinent which includes present day Nepal, Pakistan, India, Bangladesh, and Sri Lanka. It can be found in plains, jungles, open fields and the regions heavily populated by people. Its distribution ranges from sea-level up to 2,000 metres (6,600 ft) above sea-level.^[2] This species normally feed on rodents, toads, frogs, birds and other snakes. Its diet of rats leads it to areas inhabited by humans including farms and outskirts of urban areas.

 Reproduction

Indian cobras are oviparous and lay their eggs between the months of April and July. The female snake usually lays between 10 to 30 eggs in rat holes or termite mounds and the eggs hatch 48 to 69 days later. The hatchlings measure between 20 and 30 centimetres (7.9 and 12 in) in length. The hatchlings are independent from birth and have fully functional venom glands.

 Venom

The Indian cobra's venom mainly contains a powerful post-synaptic neurotoxin^[7] and cardiotoxin.^[7][8] The venom acts on the synaptic gaps of the nerves, thereby paralyzing muscles, and in severe bites leading to respiratory failure or cardiac arrest. The venom components include enzymes such as hyaluronidase that cause lysis and increase the spread of the venom. Envenomation symptoms may manifest between 15 minutes and 2 hours following the bite.^[9]
In mice, the SC LD₅₀ range for this species is 0.45 mg/kg^[10] – 0.80 mg/kg.^[7][11] The average venom yield per bite is between 169 and 250 mg.^[7] Though it is responsible for many bites, only a small percentage are fatal if proper medical treatment and anti-venom are given.^[12] Mortality rate for untreated bite victims can vary from case to case, depending upon the quantity of venom delivered by the individual involved. According to one study, it is approximately 15–20%.^[13] but in another study, with 1,224 bite cases, the mortality rate was only 6.5%.^[11] This shows that the cobra tends to deliver a warning bite, which involves non-fatal doses of venom, first when acting in defense.

Spectacled cobra with hood lowered in a bamboo shrub.

 

The Indian cobra is one of the Big four snakes of South Asia (mostly India) which are responsible for the majority of human deaths by snakebite in Asia. Polyvalent serum is available for treating snakebites caused by this species.^[14] Zedoary, a local spice with a reputation for being effective against snakebite,^[15] has shown promise in experiments testing its activity against cobra venom.^[16]
The venom of young cobras has been used as a substance of abuse in India, with cases of snake charmers being paid for providing bites from their snakes. Though this practice is now seen as outdated, symptoms of such abuse include loss of consciousness, euphoria, and sedation.^[17]

 Hindu culture

Cobra in a basket, raising its head and spreading its hood.

 

The spectacled cobra is greatly respected and feared, and even has its own place in Hindu mythology as a powerful deity. The Hindu god Shiva is often depicted with a protective cobra coiled around his neck. Vishnu is usually portrayed as reclining on the coiled body of Adishesha, the Preeminent Serpent, a giant snake deity with multiple cobra heads. Cobras are also worshipped during the Hindu festival of Nag Panchami.
There are numerous myths about cobras in India, including the idea that they mate with ratsnakes.^[18]

 Snake charming

The Indian cobra's celebrity comes from its popularity as a snake of choice for snake charmers. The cobra's dramatic threat posture makes for a unique spectacle as it appears to sway to the tune of a snake charmer's flute. Snake charmers with their cobras in a wicker basket are a common sight in many parts of India only during the Nag Panchami festival. The cobra is deaf to the snake charmer's pipe, but follows the visual cue of the moving pipe and it can sense the ground vibrations from the snake charmer's tapping. For safety, all the venoms in cobra's teeth are removed. The snake-charmers sell the venom at a very high price. In the past Indian snake charmers also conducted cobra and mongoose fights. These gory fight shows, in which the snake was usually killed, are now illegal.

 

rat snake

Indian Ratsnake

                 
Rat snakes are medium to large constrictors that can be found through a great portion of the northern hemisphere. They feed primarily on rodents and birds and, with some species exceeding 3 m (10 feet), they can occupy top levels of some food chains. Many species make attractive and docile pets and one, the corn snake, is one of the most popular reptile pets in the world. Other species can be very skittish and sometimes aggressive but bites are seldom serious. Like nearly all colubrids, rat snakes pose no threat to humans. Rat snakes were long thought to be completely nonvenomous, but recent studies have shown that some Old World species do possess small amounts of venom (amounts so small as to be negligible to humans).
Previously, most rat snakes were assigned to the genus Elaphe but many have been since renamed following mitochondrial DNA analysis performed in 2002. For the purpose of this article names will be harmonized with the TIGR Database
      

Species

 Old World

• Philippine rat snake (Coelognathus erythrurus) Duméril, Bibron & Duméril 1854
• Yellow rat snake (Coelognathus flavolineatus) Schlegel 1837
• Trinket snake (Coelognathus helena) Daudin 1803
• Copperhead rat snake (Coelognathus radiata) Boie 1827
• Indonesian Rat snake (Coelognathus subradiata) Schlegel 1837
• Twin-spotted rat snake (Elaphe bimaculata) Schmidt 1925
• King rat snake (Elaphe carinata) Günther 1864
• Japanese rat snake (Elaphe climacophora) Boie 1826
• David's rat snake (Elaphe davidi) Sauvage 1884
• Dione rat snake (Elaphe dione) Pallas 1773
• Japanese four-lined rat snake (Elaphe quadrivirgata) Boie 1826
• Four-lined snake (Elaphe quatuorlineata) Lacepede 1789
• Red-backed rat snake (Elaphe rufodorsata) Cantor 1842
• Eastern four-lined snake (Elaphe sauromates) Pallas 1811
• Russian rat snake (Elaphe schrenckii) Strauch 1873
• Japanese forest rat snake (Euprepiophis conspicillatus)
• Mandarin rat snake (Euprepiophis mandarinus)
• Celebes black-tailed rat snake (Gonyosoma jansenii) Bleeker 1858
• Red-tailed green rat snake (Gonyosoma oxycephalum) Boie 1827
• Mountain rat snake (Oreocryptophis porphyracea) Cantor 1839
• Cantor's rat snake (Orthriophis cantoris) Boulenger 1894
• Hodgson's rat snake (Orthriophis hodgsoni) Günther 1860
• 100 Flower rat snake (Orthriophis moellendorffi) Boettger 1886
• Beauty Snake (Orthriophis taeniurus) Cope 1861
• Keeled rat snake (Ptyas carinata) Günther 1858
• (Ptyas dhumnades) Cantor 1842
• Sulawesi black racer (Ptyas dipsas) Schlegel 1837
• White-bellied rat snake(Ptyas fusca) Günther 1858
• Chinese rat snake (Ptyas korros) Schlegel 1837
• (Ptyas luzonensis) Günther 1873
• Oriental rat snake (Ptyas mucosus) Linnaeus 1758
• Green rat snake (Ptyas nigromarginatus) Blyth 1854
• Green trinket snake (Rhadinophis frenatum) Gray 1853
• Green bush snake (Rhadinophis prasina) Blyth 1854
• Rhinoceros Ratsnake (Rhynchophis boulengeri) Mocquard 1897
• Transcaucasian rat snake (Zamenis hohenackeri) Strauch 1873
• Italian Aesculapian snake (Zamenis lineatus) Camerano 1891
• Aesculapian snake (Zamenis longissimus) Laurenti 1768
• Persian rat snake (Zamenis persicus) Werner 1913
• Leopard snake (Zamenis situla) Linnaeus 1758

 New World

• Baja California rat snake (Bogertophis rosaliae) Mocquard 1899
• Trans Pecos rat snake (Bogertophis subocularis) Brown 1901
• Eastern rat snake (Pantherophis alleghaniensis) Holbrook 1836
• Baird's rat snake (Pantherophis bairdi) Yarrow 1880
• Great Plains rat snake (Pantherophis emoryi) Baird & Girard 1853
• Eastern fox snake (Pantherophis gloydi) Conant 1940
• Corn snake (Pantherophis guttatus) Linnaeus 1766
• Western rat snake (Pantherophis obsoleta) Say 1823
• Central rat snake (Pantherophis spiloides) Duméril, Bibron & Duméril 1854
• Western foxsnake (Pantherophis vulpina) Baird & Girard 1853
• Mexican nightsnake (Pseudelaphe flavirufus) Cope 1867
• Green rat snake (Senticolis triaspis) Cope 1866
• Tiger rat snake (Spilotes pullatus) Linnaeus 1758

black rat snake

                                                             mandarin rat snake

                                                          yellow rat snake

                                                       rhinocerous rat snake

                                                              red tailed green rat snake

 

ELAPHE- JAPANESE RAT SNAKE

Elaphe is one of the main genera of the rat snakes, which are found in many regions of the northern hemisphere. Elaphe are medium to large constrictors by nature. Most species are nonvenomous. However, some species, such as Elaphe radiata, are considered venomous. Although most of the species in Elaphe are nonvenomous, bites from rat snakes are still irritably painful and can potentially cause bacterial infections due to the saliva.^[2]
Based on the mitochondrial DNA analysis results, many species of Elaphe have been moved to the genera Pantherophis, Senticolis and Bogertophis.^[3] Nevertheless, the name Elaphe is still widely used.

Physical characteristics

Like most of the rat snakes, Elaphe generally have slender but sturdy bodies, square heads and extremely flat bellies^[4] Their sizes range from large medium to very large,^[5] growing even as large as 108 inches. Elaphe have large numbers of vertebrae, ribs and ventral scales but few rows of dorsal scales. The dorsal scales of Elaphe are characterized by having slight keels. In cross section Elaphe are shaped like a loaf of bread, the flat belly meeting the sides of the body at an angle.^[6] This special physical characteristic is well observed in Elaphe obsoleta whose belly scales curve upward. The curving of the ventral scales renders Elaphe better traction for tree climbing.^[7]
The color and pattern of Elaphe is quite variable and hard to be generalized. The following are the descriptions of the color and pattern for some Elaphe species. Elaphe guttata, or corn snakes, have arrow-shaped blotches on the head and black squarish blotches on the ventral side. The underside of the tail is striped.^[7]
Adult black rat snakes, one of the subspecies of Elaphe obsoleta, are shiny black on the dorsal side with some yellow, white and red on the skin between the scales. The anterior ventral side, the throat and the neck, is white, while the posterior ventral side of the snake is marked with black and brown.^[8] The yellow rat snakes, a subspecies of Elaphe obsoleta, differ from the black rat snakes in that they have four bold longitudinal dark stripes. The background color ranges from dull to bright yellow.^[9]
Internally, Elaphe do not have any observable vestiges of hind limbs or coronoid bones of the lower jaw like any other members of the Colubridae family. Another important characteristic of Elaphe as part of the Colubridae is the presence of Duvernoy's gland, a modified salivary and digestive gland.^[10] In addition, Elaphe have equal and smooth maxillary teeth.^[11] The teeth are small and slightly curved and are placed in several rows. The curvy teeth help fixate the prey and prevent them from escaping once they are caught.^[3]

 Senses

Elaphe have very developed sensory organs which support their daily activities. They have an internal ear that enables them to detect sounds at low frequencies. The ear consists of a single ear bone connected to a jaw bone. Compared to other snakes, Elaphe are considered to have highly developed vision that allows them to detect the movement of their predators and prey. The eyes are protected by single transparent brilles. In addition, the analysis of scents is carried out by Jacobson's organ in the palate. To stimulate Jacobson's organ, Elaphe use their tongues to transport air and ground molecules such that the molecules come into contact with Jacobson's organ. Then the organ analyzes the molecules to identify the scent. Among these detectable scents are pheromones, which indicate the presence of other snakes and their reproductive readiness.^[3]

 Life cycle and behavior

The lifespan of Elaphe is generally 15 years. Males live a little longer than females;^[2] however, some species like Elaphe guttata are able to live up to 23 years in captivity.^[12] On the flip side, species like Elaphe emoryi usually have a lifespan of 2 years and 2 months.^[11]
Elaphe generally reach sexual maturity after 18–24 months. They usually mate with the opposite sex after emerging from hibernation in the spring. The gestation period of females is usually around 1.5 months, and the females can lay up to 30 eggs in a clutch, the amount varying between species (See the subsection of Reproduction). Species like Elaphe guttata and Elaphe obsoleta are mostly diurnal. However, some species are found more active in late afternoon or at dusk. Throughout the year, Elaphe are usually active from April to October, followed by a period of hibernation.

 Hibernation

Elaphe have the habit of hibernation, especially those that live in cold regions. This is because snakes are cold-blooded, which makes their body temperature susceptible to the temperature change of the environments. Thus, they need to maintain their body energy by switching their living spots and remaining physiologically inactive when the winter comes.^[13] The hibernacula sites vary depending on the habitats they live in, yet the most important requirement of a hibernaculum site is that it needs to be frost-free. Some Elaphe like to hibernate in the rock crevices, rock faults, and underground burrows.^[14] However, other Elaphe choose to hibernate in rotting logs, roots of trees and hollow spaces in elevated tree trunks. Some Elaphe that live close to human communities even hibernate in old wells and barns.^[15]
Most of the Elaphe start their hibernation in October and emerge again the next Spring. The length of the hibernation period varies among species. Elaphe longissima, or Aesculapian snakes, hibernate from October to the next May due to their sensitivity to cold temperature.^[14] However, Elaphe bimaculata, or the twin-spotted rat snakes, only need to hibernate for 2 to 3 months.^[16] Interestingly, species like black rat snakes, or Elaphe obsoleta, like to hibernate with other rat snakes and/or many other snake species, most notably timber rattlesnakes, racers^{[disambiguation needed]}, and bull snakes.^[8]

 Reproduction

Black rat snakes, or Elaphe obsoleta, generally start to mate in late April, May and early June after the winter hibernation. Males tend to attract females with pheromones as the females pass through their territories. Interestingly, male Aesculapian snakes, or Elaphe longissima, tend to pursue female snakes until they can coil around them. They continue in such position, which is then followed by dancing for up to an hour before copulation.During the copulation, the male snake will line up with the female and hold her in place by wrapping his tail around hers and grasping her with his mouth. Then, the male will evert one of his hemipenes into the female’s cloaca. The mating process lasts from a few minutes to a few hours.^[9]
After copulation, Elaphe will seek an appropriate place to lay the developing eggs. They usually lay eggs in the soft heart of a rotten log or in sandy soil under a rock. A good place for laying eggs is one that is damp but not wet, and warm but not hot. After laying eggs, the female snake will cover them up with sand or dirt and leave.^[17] A few species will stay with the eggs until they hatch about 9 weeks later.
Oviparous Elaphe obsoleta lay 12–20 eggs under logs or leaves in late summer, which hatch in the fall. The adult snakes return to their hibernation dens in the late fall.^[8] As for Elaphe guttata, they start to breed from March to May. The mating process is similar to Elaphe obsoleta. Elaphe guttata lay around 10–30 eggs in late May to July. The eggs are generally not protected by the adults. After 60–65 days the eggs hatch in July through September.^[12]

 Defense mechanisms

Many species of Elaphe are known for being non-aggressive and shy. They are prone to freeze their movements when they are shocked or encountering danger. This motionless response has contributed to many road kills of Elaphe. However, some specific Elaphe tend to be more defensive if they are continually provoked. For example, Texas rat snakes, or Elaphe obsoleta lindheimeri, are well known as one of the most snappy and combative rat snakes. In general, the defense system of Elaphe can be broken down to two levels. The first line of defense involves specific behaviors that Elaphe use to warn the intruders. One of the most common ways is by coiling their bodies and vibrating their tails, which simulates a rattle. Fox snakes, Elaphe vulpina and Elaphe gloydi, exemplify this type of defense mechanism: they mimic the rattling vibration of rattlesnakes when they encounter danger.^[4] Another common way of defense is by smearing a foul-smelling musk on their predators. The musk is originated from the contents of the anal gland and the intestinal tract.^[3] The second line of defense, generally involves striking the intruder with their teeth if they are further provoked.^[9]

 Locomotion

Elaphe move forward using side-to-side serpentine movement. They use the curvy ventral scales of their bodies to grab the rough ground surfaces and then push against the ground to generate a forward movement. Thus, the smoother the ground is the harder it is for Elaphe to move across it.^[3] Many species apply similar mechanisms when climbing trees.

 Predation

Adult Elaphe primarily prey on rodents (i.e., mice and chipmunks), bird eggs and young birds. Juvenile Elaphe feed on small lizards, young mice and occasionally small frogs (i.e., tree frogs). Species like Elaphe guttata do not feed on a daily basis, but every few days. Elaphe hunt by waiting motionless in a fixed position until the prey comes near enough to attack. Then they strike the prey and bite it. They utilize Jacobson's organ to track and find their prey.^[13] Being constrictors, Elaphe kill the prey by creating enormous pressure on the prey's chest. As they continue to coil more tightly, the pressure on the chest prevents the blood from circulating into the heart, which eventually leads to heart failure.^[18] They usually bite the prey first to maintain their grip on the prey before they start this deadly mechanism. In addition, Elaphe do not chew their food but swallow it whole.^[12]

 Habitat and distribution

Elaphe live in a great variety of environments. The variation of habitat depends on different species and subspecies. Most are terrestrial or semi-arboreal, but some burrow in sand or loose soil. For example, the black rat snakes, or Elaphe obsoleta obsoleta, prefer heavily wooded habitats due to their excellent tree climbing ability. Their population can be distributed throughout all elevations, usually on rocky hillsides of mountains or on flat farmlands.^[4] On the other hand, the yellow rat snakes, or Elaphe obsoleta quadrivittata, prefer river swamps as habitats. Similarly, Everglades rat snakes, or Elaphe obsoleta rossalleni, live in the shrubs and trees along the water way.^[9] The Elaphe snakes are spread throughout the northern hemisphere; however, there are some in South America, Africa, Southeast Asia and Northern Australia.^[17] For instance, the black rat snakes, or Elaphe obsoleta ssp., are well distributed from Ontario, Canada to Florida and Texas.^[4] The population of Elaphe guttata is widespread in many southeastern states of the United States including Florida, Louisiana, southern New Jersey and parts of Kentucky