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Bitis gabonica, commonly known as the Gaboon viper, is a venomous viper species found in the rainforests and savannas of sub-Saharan Africa. This is not only the largest member of the genus Bitis, but also the world's heaviest viperid, and it has the longest fangs, up to 2 inches (5 cm), and the highest venom yield of any venomous snake. Two subspecies are currently recognised, including the nominate race described here.
Adults average 122–152 cm (4 to 5 feet) in total length (body + tail) with a maximum total length of 205 cm (81 in) for a specimen collected in Sierra Leone. The sexes may be distinguished by the length of the tail in relation to the total length of the body: approximately 12% for males and 6% for females. Adults, especially females, are very heavy and stout. One female had the following dimensions:
|Total length||174 cm (69 in)|
|Head width||12 cm (4.7 in)|
|Girth size (circumference)||37 cm (14.65 in)|
|Weight (empty stomach)||8.5 kg (19 lbs)|
In their description of B. gabonica, Spawls et al.. (2004) give an average total length of 80–130 cm (32 to 51.5 in), with a maximum total length of 175 cm (69.3 in), saying the species may possibly grow larger still. They acknowledge reports of specimens over 1.8 m (6 ft), or even over 2 m (6.5 ft) in total length, but claim there is no evidence to support this. A large specimen of exactly 1.8 m (5.9 ft) total length, caught in 1973, was found to have weighed 11.3 kg (25 lb) with an empty stomach. Very large specimens may possibly weigh up to 20 kg (44 lb), which would rank them as the world's heaviest venomous snake ahead of the Eastern diamondback rattlesnake, but these masses are not known to have been verified.
The head is large and triangular, while the neck is greatly narrowed: almost one-third the width of the head. A pair of "horns" is present between the raised nostrils — tiny in B. g. gabonica, but much larger in B. g. rhinoceros. The eyes are large and moveable, set well forward, and surrounded by 15–21 circumorbital scales. There are 12–16 interocular scales across the top of the head. Four or five scale rows separate the suboculars and the supralabials. There are 13–18 supralabials and 16–22 sublabials. The fangs may reach a length of 55 millimetres (2.2 in) : the longest of any venomous snake.
Midbody, there are 28–46 dorsal scale rows, all of which are strongly keeled except for the outer rows on each side. The lateral scales are slightly oblique. The ventral scales number 124–140: rarely more than 132 in males, rarely less than 132 in females. There are 17–33 paired subcaudal scales: males have no fewer than 25, females no more than 23. The anal scale is single.
The color pattern consists of a series of pale, subrectangular blotches running down the center of the back, interspaced with dark, yellow-edged hourglass markings. The flanks have a series of fawn or brown rhomboidal shapes, with light vertical central bars. The belly is pale with irregular brown or black blotches. The head is white or cream with a fine, dark central line, black spots on the rear corners, and a dark blue-black triangle behind and below each eye. The iris colour is cream, yellow-white, orange or silvery.
Originally a name given by the Portuguese, Gabon (Gabão) refers to the estuary on which the town of Libreville was built, in Gabon, and to a narrow strip of territory on either bank of this arm of the sea. As of 1909, Gaboon referred to the northern portion of French Congo, south of the Equator and lying between the Atlantic Ocean and 12°E longitude.
This species can be found in Guinea, Ghana, Togo, Nigeria, Cameroon, DR Congo, Central African Republic, South Sudan, Uganda, Kenya, eastern Tanzania, Zambia, Malawi, eastern Zimbabwe, Mozambique, and northeast KwaZulu-Natal Province in South Africa. Mallow et al. (2003) also list Sierra Leone and Liberia in West Africa. The type locality is given as "Gabon" (Africa).
The Gaboon viper is usually found in rainforests and nearby woodlands, mainly at low altitudes, but sometimes as high as 1500 m. Spawls et al. (2004) mention a maximum altitude of 2100 m. According to Broadley and Cock (1975), it is generally found in environments that are parallel to those occupied by its close relative, B. arietans, which is normally found in more open country.
In Tanzania, this species is found in secondary thickets, cashew plantations, and in agricultural land under bushes and in thickets. In Uganda, they are found in forests and nearby grasslands. They also do well in reclaimed forest areas: cacao plantations in West Africa and coffee plantations in East Africa. They have been found in evergreen forests in Zambia. In Zimbabwe, they only occur in areas of high rainfall along the forested escarpment in the east of the country. In general, they may also be found in swamps, as well as in still and moving waters. They are commonly found in agricultural areas near forests and on roads at night.
Primarily nocturnal, Gaboon vipers have a reputation for being slow-moving and placid. They usually hunt by ambush, often spending long periods motionless, waiting for suitable prey to happen by. On the other hand, they have been known to hunt actively, mostly during the first six hours of the night. In Kumasi, Ghana, they were regularly killed around some stables in an open area with the forest some 500 meters away — a sign that they were hunting rats in the grassland. They are usually very tolerant snakes, even when handled, and rarely bite or hiss, unlike most vipers. However, bites by bad-tempered individuals do occur.
Locomotion is mostly rectilinear, in a sluggish "walking" motion of the ventral scales. They may writhe from side to side when alarmed, but only for short distances. Ditmars (1933) even described them as being capable of sidewinding.
If threatened, they may hiss loudly as a warning, doing so in a deep and steady rhythm, slightly flattening the head at the expiration of each breath. Despite this, they are unlikely to strike unless severely provoked, however they are one of fastest striking snakes in the world, so care should be taken in handling them.
There have been numerous descriptions of their generally unaggressive nature. Sweeney (1961) wrote they are so docile that they "can be handled as freely as any non-venomous species", although this is absolutely not recommended. In Lane (1963), Ionides explained he would capture specimens by first touching them lightly on the top of the head with a pair of tongs to test their reactions. Anger was rarely displayed, so the tongs were usually set aside and the snakes firmly grasped by the neck with one hand and the body supported with the other as he picked them up and carried them to a box for containment. He said the snakes hardly ever struggled.
Parry (1975) described how this species has a wider range of eye movement than other snakes. Along a horizontal plane, eye movement can be maintained even if the head is rotated up or down to an angle of up to 45°. If the head is rotated 360°, one eye will tilt up and the other down, depending on the direction of rotation. Also, if one eye looks forward, the other looks back, as if both are connected to a fixed position on an axis between them. In general, the eyes often flick back and forth in a rapid and jerky manner. When asleep, there is no eye movement and the pupils are strongly contracted. The pupils dilate suddenly and eye movement resumes when the animal wakes up.
Because of their large, heavy body size, the adults have no trouble eating prey as large as fully grown rabbits. When prey happens by, they strike with very fast precision from any angle. Once they strike their prey, they hang on to it with their large fangs rather than letting it go and waiting for it to die. This behaviour is very different from the behaviour of other species of vipers. These snakes feed on a variety of birds and mammals, such as doves, many different species of rodents, including field mice and rats, as well as hares and rabbits. There are also reports of more unlikely prey items, such as tree monkeys, the brush-tailed porcupine (Atherurus) and even the small royal antelope (Neotragus).
During peak sexual activity, males engage in combat. This starts with one male rubbing its chin along the back of the other. The second male will then raise its head as high as possible. As they both do the same, the necks intertwine. When the heads are level, they turn towards each other and push. Their bodies intertwine as they switch positions. They become oblivious to everything else, continuing even after they fall off a surface or into water. Sometimes they intertwine and squeeze so tightly that their scales stand out from the pressure. They have also been observed to strike at each other with mouths closed. Occasionally, the combatants will tire and break off the fight by "mutual consent", resting for a while before resuming once more. The event is settled when one of the two succeeds in pushing the other's head to the ground and raising its own by 20–30 cm. In captivity, combat may occur four or five times a week until courtship and copulation ends.
Gestation takes about 7 months, which suggests a breeding cycle of two to three years. A five-year breeding cycle may also be possible. Usually, they give birth in late summer. B. g. gabonica produces 8–43 live young. B. g. rhinoceros may produce as many as 60. However, the actual number of offspring rarely exceeds 24. Neonates are 25–32 cm in length and weigh 25–45 g.
Bites are relatively rare, due to their docile nature and because their range is mainly limited to rainforest areas. Due to their sluggishness and unwillingness to move even when approached, people are often bitten after they accidentally step on them, but even then in some cases they may not bite. However, when a bite does occur, it should always be considered a serious medical emergency. Even an average bite from an average-sized specimen is potentially fatal. Antivenom should be administered as soon as possible to save the victim's life if not the affected limb.
The snake's hemotoxic venom itself is not considered particularly toxic based on tests conducted in mice. In mice, the LD50 is 0.8–5.0 mg/kg IV, 2.0 mg/kg IP and 5.0–6.0 mg/kg SC. However, the venom glands are enormous and each bite produces the largest quantities of venom of any venomous snake. Yield is probably related to body weight, as opposed to milking interval. Brown (1973) gives a venom yield range of 200–1000 mg (of dried venom), A range of 200–600 mg for specimens 125–155 cm in length has also been reported. Spawls and Branch (1995) state from 5 to 7 ml (450–600 mg) of venom may be injected in a single bite.
A study by Marsh and Whaler (1984) reported a maximum yield of 9.7 ml of wet venom, which translated to 2400 mg of dried venom. They attached "alligator" clip electrodes to the angle of the open jaw of anesthetized specimens (length 133–136 cm, girth 23–25 cm, weight 1.3–3.4 kg), yielding 1.3–7.6 ml (mean 4.4 ml) of venom. Two to three electrical bursts within a space of five seconds apart were enough to empty the venom glands. The snakes used for the study were milked seven to 11 times over a 12-month period, during which they remained in good health and the potency of their venom remained the same.
Based on how sensitive monkeys were to the venom, Whaler (1971) estimated 14 mg of venom would be enough to kill a human being: equivalent to 0.06 ml of venom, or 1/50 to 1/1000 of what can be obtained in a single milking. Marsh and Whaler (1984) wrote that 35 mg (1/30 of the average venom yield) would be enough to kill a man of 70 kilograms (150 lb). Branch (1992) suggested that 90–100 mg would be fatal in humans. Due to the rarity of these type of snakebites, further investigation is needed.
In humans, a bite causes rapid and conspicuous swelling, intense pain, severe shock and local blistering. Other symptoms may include uncoordinated movements, defecation, urination, swelling of the tongue and eyelids, convulsions and unconsciousness. Blistering, bruising and necrosis may be extensive. There may be sudden hypotension, heart damage and dyspnoea. The blood may become incoagulable with internal bleeding that may lead to haematuria and haematemesis. Local tissue damage may require surgical excision and possibly amputation. Healing may be slow and fatalities during the recovery period are not uncommon.
|Subspecies||Taxon author||Common name||Geographic range|
|B. g. gabonica||(Duméril, Bibron & Duméril, 1854)||East African Gaboon viper||Central, eastern and southern Africa|
|B. g. rhinoceros||(Schlegel, 1855)||West African Gaboon viper||West Africa|
Lenk et al. (1999) discovered considerable differences between the two conventionally recognized subspecies of B. gabonica described above. According to their research, these two subspecies are as different from each other as they are from B. nasicornis. Consequently, Lenk et al. (1999) regard the western form as a separate species, B. rhinoceros.
- List of viperine species and subspecies
- Viperinae by common name
- Viperinae by taxonomic synonyms
- McDiarmid RW, Campbell JA, Touré T. 1999. Snake Species of the World: A Taxonomic and Geographic Reference, Volume 1. Herpetologists' League. 511 pp. ISBN 1-893777-00-6 (series). ISBN 1-893777-01-4 (volume).
- Spawls S, Branch B. 1995. The Dangerous Snakes of Africa. Ralph Curtis Books. Dubai: Oriental Press. 192 pp. ISBN 0-88359-029-8.
- Mallow D, Ludwig D, Nilson G. 2003. True Vipers: Natural History and Toxinology of Old World Vipers. Malabar, Florida: Krieger Publishing Company. 359 pp. ISBN 0-89464-877-2.
- "Bitis gabonica". Integrated Taxonomic Information System. Retrieved 6 August 2006.
- Spawls S, Howell K, Drewes R, Ashe J. 2004. A Field Guide To The Reptiles Of East Africa. London: A & C Black Publishers Ltd. 543 pp. ISBN 0-7136-6817-2.
- Wood, Gerald (1983). The Guinness Book of Animal Facts and Feats. ISBN 978-0-85112-235-9.
- Mehrtens JM. 1987. Living Snakes of the World in Color. New York: Sterling Publishers. 480 pp. ISBN 0-8069-6460-X.
- Gotch AF. 1986. Reptiles -- Their Latin Names Explained. Poole, UK: Blandford Press. 176 pp. ISBN 0-7137-1704-1.
- Gaboon at New Advent Catholic Encyclopedia. Accessed 8 July 2007.
- Broadley DG, Cock EV (1975). Snakes of Rhodesia. Longman Africa, Salisbury. OCLC 249318277
- Ditmars RL. 1933. Reptiles of the World. Revised Edition. New York: The MacMillan Company. 329 pp. + 89 plates.
- Marais J. 2004. A Complete Guide to the Snakes of Southern Africa. Cape Town: Struik. 214 pp. ISBN 978-1-86872-932-6.
- Brown JH. 1973. Toxicology and Pharmacology of Venoms from Poisonous Snakes. Springfield, Illinois: Charles C. Thomas. 184 pp. LCCCN 73-229. ISBN 0-398-02808-7.
- Venomous Snake Systematics Alert - 1999 Publications at Homepage of Dr. Wolfgang Wüster of the University of Wales, Bangor. Accessed 3 September 2006.
- Boulenger GA. 1896. Catalogue of the Snakes in the British Museum (Natural History). Volume III., Containing the...Viperidæ. London: Trustees of the British Museum (Natural History). (Taylor and Francis, printers.) xiv + 727 pp. + Plates I.- XXV. (Bitis gabonica, pp. 499-500.)
- Bowler JK. 1975. Longevity of Reptiles and Amphibians in North American Collections as of 1 November 1975. Athens, Ohio: Society for the Study of Amphibians and Reptiles. Herpetological Circulars (6): 1–32.
- Branch, Bill. 2004. Field Guide to Snakes and Other Reptiles of Southern Africa. Third Revised edition, Second impression. Sanibel Island, Florida: Ralph Curtis Books. 399 pp. ISBN 0-88359-042-5. (Bitis gabonica, p. 115 + Plates 3, 12.)
- Duméril A-M-C, Bibron G, Duméril A. 1854. Erpétologie générale ou histoire naturelle complète des reptiles. Tome septième. — Deuxième partie. Comprenant l'histoire des serpents venimeux. Paris: Roret. xii + pp. 781-1536. (Echidna gabonica, pp. 1428-1430.)
- Forbes CD, Turpie AGG, Ferguson JC, McNicol GP, Douglas AS. 1969. Effect of gaboon viper (Bitis gabonica) venom on blood coagulation, platelets, and the fibrinolytic enzyme system. Journal of Clinical Pathology 22: 312–316.
- Lane, M. 1963. Life with Ionides. London: Hamish-Hamilton. 157 pp.
- Lenk P, Herrmann H-W, Joger U, Wink M. 1999. Phylogeny and Taxonomic Subdivision of Bitis (Reptilia: Viperidae) Based on Molecular Evidence. Kaupia, Darmstädter Beiträge zur Naturgeschichte (8): 31–38.
- Marsh NE, Whaler BC. 1984. The Gaboon viper (Bitis gabonica) its biology, venom components and toxinology. Toxicon 22 (5): 669–694.
- Morris PA. 1948. Boy's Book of Snakes: How to Recognize and Understand Them. A volume of the Humanizing Science Series, edited by Jacques Cattell. New York: Ronald Press. viii + 185 pp. (Gaboon viper, Bitis gabonica, pp. 158-159, 182.)
- Sweeney RCH. 1961. Snakes of Nyasaland. Zomba, Nyasaland: The Nyasaland Society and Nyasaland Government. 74 pp.