Javan spitting cobra

Javan spitting cobra
A young Javan spitting cobra
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Squamata
Family: Elapidae
Genus: Naja
Species: N. sputatrix
Binomial name
Naja sputatrix
(F. Boie, 1827)[2]
Naja sputatrix distribution

The Javan spitting cobra (Naja sputatrix) also called the southern Indonesian cobra, or Indonesian cobra, is a stocky and highly venomous species of spitting cobra native to Indonesia.

Etymology

Naja sputatrix was first described by German zoologist Friedrich Boie in 1827. The generic name Naja is a Latinisation of the Sanskrit word nāgá (नाग) meaning "cobra". The specific epithet sputatrix is the feminine version of sputator, which is Latin for "spitter".[3]

Description

The Javan spitting cobra is a medium to large, heavy-bodied species which, like other cobras, has long cervical ribs capable of expanding to form a hood when threatened. The body of this species is compressed dorsoventrally and subcylindrical posteriorly. The average length of this species of cobra is approximately 1.3 m (4.3 ft), but they may grow to a maximum of about 1.85 m (6.1 ft). The head is elliptical, depressed, slightly distinct from the neck with a short, rounded snout and large nostrils. Its eyes are moderate in size with round pupils. Dorsal scales are smooth and strongly oblique. Dorsal scale count is usually 25-19.[4] Some colouration and pattern differences occur between Javan specimens and those from the other islands where this species occurs. Javan adults are usually uniform yellowish, brown or blackish in colour, while juveniles often have throat bands and lateral throat spots. Specimens do not always have hood marks, but when there is a mark, it is most often chevron-shaped.[5][6]

Distribution

This species of cobra is native to the Indonesian islands of Java and the Lesser Sunda Islands of Bali, Lombok, Sumbawa, Komodo, Flores, Lomblen, and Alor. They may possibly occur in the other islands in the group. One was found on Rinca Island on the 26th December 2015.Verification is still required as to whether or not this species of cobra also occurs in the islands of Timor and Sulawesi. Although a single specimen was observed in the island of Sulawesi, it is thought that the specimen may have originated from the island of Java, as it was indistinguishable from Javan specimens.[7][8] Scientist De Hass did research on this species in two districts of western Java: in Nandjoeng Djaja, where it was relatively uncommon and in Bandjarwangi, where the altitude is 900 metres (3,000 ft), it was not recorded. A 1998 study by FB Yuwono found the species was abundant in Java.[8]

Habitat, behavior & ecology

The Javan spitting cobra is found mostly in tropical forests and wet forest, but the species adapts incredibly well to a wide variety of habitats across its range on the islands, including more arid regions,[4] dry woodlands, and cultivated hill country.[7] In the island of Komodo, it has been observed in a variety of habitats including dry savanna and deciduous monsoon forest.[8] It has also been reported that specimens in the island of Komodo are reluctant to spit, but field observations and suggests the opposite. This species is easy prey for the Komodo dragon.[7] Naja sputatrix is very defensive and readily spits out venom when it feels threatened. It is a terrestrial snake that's nocturnal in nature. It preys predominantly on small mammals such as small rats and mice, but it will also feed on frogs, other snakes,[4] and lizards. Herpetologist Shine Boeadi, in a study published in 1998, measured and dissected 80 Javan specimens of this species and found that most prey items were mammals.[8]

Reproduction

Mating occurs during the dry season (August to October). Females often lay eggs at the end of the dry season in November or the very beginning of the wet season. As many as 13 to 19 eggs may be laid in a clutch,[7] the average is about 16 eggs. Javan females may produce and lay up to 36 eggs, but on average only 25 eggs are produced. The incubation period is about 88 days according to Kopstein.[8] Like other elapids, hatchlings are completely independent from birth.

Conservation status

This species is listed as Appendix II by CITES meaning this species is not threatened with extinction, but may become so unless trade in specimens of such species is subject to strict regulation in order to avoid utilization incompatible with the survival of the species in the wild. They are commonly harvested for their skins. They are also occasionally found in the pet trade.[9]

Venom

The LD50 (or median lethal dose) of the crude venom of this species is 1.7 mg/kg IP.[10] The most significant constituents of the venom include high-molecular-weight proteins and enzymes, phospholipase A2 enzymes, postsynaptic neurotoxins and polypeptide cardiotoxins, meaning although the venom may be potent, it may not be particularly rapid-acting.[11] Like all cobra species, this species' venom also consists of postsynaptic neurotoxins.[4] However, the main components of its venom are cardiotoxins with cytotoxic activity.[12] In fact, polypeptide cardiotoxins make up 60% of the venom (dry weight), while postsynaptic neurotoxins make up only 4.5%. The two main neurotoxins, sputa-neurotoxin 1 (SN1) and sputa-neurotoxin 2 (SN2) isolated from the venom, are "short" neurotoxins, with 62 and 61 amino acid residues, respectively. The IV LD50 of the two toxins are 0.09 mg/g and 0.07 mg/g, respectively, and they possess amino acid sequences similar to those of other cobra venom neurotoxins.[11] The venom was also found to exhibit an in vitro anticoagulant activity much stronger than most common cobra (genus Naja) venoms. The anticoagulants, phospholipase A2 enzymes, with a molecular weight of approximately 14 kDa, make up 15% of the venom (dry weight).[11][13] Very few human fatalities are attributed to this species.[7]

References

  1. D. Iskandar; M. Auliya; R. F. Inger & R. Lilley (2012). "Naja sputatrix". IUCN Red List of Threatened Species. Version 2013.1. International Union for Conservation of Nature. Retrieved July 5, 2013.
  2. "Naja sputatrix (F. Boie, 1827)". Integrated Taxonomic Information System. Retrieved 22 December 2011.
  3. Boie, Friedrich (1827). Bemerkungen über Merrem's Versuch eines Systems der Amphibien (Merrem's comments about trying a system of amphibians). Germany: Oken Isis.
  4. 1 2 3 4 "Naja sputatrix: General Details, Taxonomy and Biology, Venom, Clinical Effects, Treatment, First Aid, Antivenoms". WCH Clinical Toxinology Resource. University of Adelaide. Retrieved 22 December 2011.
  5. Wüster, Wolfgang (1992). "A century of confusion: Asiatic cobras revisited" (PDF). The Vivarium. 4 (1): 14–18.
  6. Wüster, Wolfgang. "The Asiatic Cobra Systematics Page". Asiatic Cobras. Bangor University. Retrieved 22 December 2011.
  7. 1 2 3 4 5 O'Shea, Mark (2005). Venomous Snakes of the World. United Kingdom: New Holland Publishers. p. 94. ISBN 0-691-12436-1.
  8. 1 2 3 4 5 "Naja species" (PDF). Convention on International Trade in Endangered Species of Wild Fauna and Flora. http://www.cites.org. Retrieved 28 December 2011. External link in |publisher= (help)
  9. "CITES species database". CITES. http://www.unep-wcmc-apps.org. Retrieved 28 December 2011. External link in |publisher= (help)
  10. Tan, NH (1983). "Isolation and characterization of two toxins from the venom of the Malayan cobra (Naja naja sputatrix)". Toxicon. 21 (2): 201–207. doi:10.1016/0041-0101(83)90004-1. PMID 6857705.
  11. 1 2 3 Tan, Nget Hong. "Toxins ffom Venoms of Poisonous Snakes". Department of Molecular Medicine, Faculty of Medicine. University of Malaya, Kuala Lumpur, Malaysia. Retrieved 22 December 2011.
  12. Ma, D; Armugam A; Jeyaseelan K. (15 August 2002). "Cytotoxic potency of cardiotoxin from Naja sputatrix: development of a new cytolytic assay.". The Biochemical Journal. 366 (1): 35–43. doi:10.1042/BJ20020437. PMC 1222773Freely accessible. PMID 12027804.
  13. Tan, NH; Arunmozhiarasi A. (October 1989). "The anticoagulant activity of Malayan cobra (Naja naja sputatrix) venom and venom phospholipase A2 enzymes.". Biochemistry International. 19 (4): 803–810. PMID 2619749.
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