Hydrophis platurus

Hydrophis platurus
Yellow-bellied sea snake
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Subphylum: Vertebrata
Class: Reptilia
Order: Squamata
Suborder: Serpentes
Family: Elapidae
Subfamily: Hydrophiinae
Genus: Hydrophis
Daudin, 1803
Species: H. platura
Binomial name
Hydrophis platura
(Linnaeus, 1766)
Yellow-bellied sea snake range[1]
Synonyms
Yellow form from the Golfo Dulce on the Pacific coast of Costa Rica

Hydrophis platurus, commonly known as the yellow-bellied sea snake, yellowbelly sea snake or pelagic sea snake, is a species of snake from the subfamily Hydrophiinae (the sea snakes) found in tropical oceanic waters around the world, excluding the Atlantic Ocean. It was the only member of the genus Pelamis but recent molecular evidence suggests that it is more closely related to the species of the genus Hydrophis.

Description

Pelamis platurus, a front-fanged venomous snake, related to the brown snakes, cobras and taipans (Elapidae)

The yellow-bellied sea snake, as the name implies, has a distinctive bicolor pattern with a yellow underbelly and brown back, making it easily distinguishable from other sea snake species. Yellow-bellied sea snakes, like many other species of sea snake, are fully adapted to living their whole lives at sea: mating, eating and giving birth to live young (ovoviviparous). Adaptations to aquatic life include the reduced ventral scale size, laterally compressed body and paddle-tail for swimming,[4][5] valved nostrils and palatine seal for excluding seawater, and cutaneous gas exchange for prolonging dive times.[5][6][7] This species can uptake up to 33% of its oxygen requirements through the skin while diving and swimming at the surface of the water.[8] Sea snakes also have a special salt gland located in the lower jaw that was formerly believed to filter out salt from the surrounding seawater[9] but has been found not to be used for that purpose, as sea snakes drink fresh water only.[10]

See snake scales for terminology used here

Morphology

The body of this snake is compressed, with the posterior less than half the diameter of the neck; the body scales are juxtaposed, subquadrangular in shape, and in 23–47 rows around the thickest part of the body; ventral scales, 264–406 in number, are very small and, if distinct, divided by a longitudinal groove, but usually are indistinguishable from adjacent body scales. The head is narrow, with an elongated snout; head shields are entire, nostrils are superior, and nasal shields are in contact with one another; the prefrontal scale is in contact with second upper labial; one or two preoculars, two or three postoculars, and two or three small anterior temporals are present; seven or eight upper labials are found, with four or five below the eye, but separated from the border by a subocular. Colors of the snake are variable, but most often distinctly bicolored, black above, yellow or brown below, with the dorsal and ventral colors sharply demarcated from one another; ventrally, there may be a series of black spots or bars on the yellow or brown background, or the yellow may extend dorsally so there is only a narrow middorsal black stripe, or a series of black crossbars.[11] Total length for males is up to 720 mm (28 in), for females up to 880 mm (35 in); tail length for males is up to 80 mm (3.1 in), females up to 90 mm (3.5 in).

Biology and behavior

They breed in warm waters; they are ovoviviparous with a gestation period around 6 months. According to Ditmars, females bear live young in tidal pools.[12] They move poorly on land due to their smaller belly scales that form a ventral keel.[6] They are sometimes observed in large aggregations of thousands on the surface of the water in oceanic drift lines, which has been proposed as a strategy to catch prey.[13] They hunt by floating on the surface of the water to attract pelagic fish that are seeking shelter; prey are captured via a backwards swimming motion and rapid lunge of the jaws.[14] Heatwole proposed that these snakes find their prey by sensing the vibration generated by fish movement.[15] Fish are subdued by neurotoxic venom and swallowed whole.

Contrary to past beliefs, sea snakes require fresh water to survive and the yellow-bellied sea snake drinks precipitation that forms on the surface of sea water.[16] This species has been reported to survive severe dehydration of up to 7 months during seasonal drought.[17]

Distribution and habitat

The yellow-bellied sea snake is one of the most widely distributed snakes in the world.[18] It is completely pelagic and is often observed on oceanic drift lines, using surface currents and storms to move around the ocean.[14] Their distribution appears to be largely determined by favourable water temperatures, oceanic currents and recent formation of land bridges that have blocked farther dispersal.

The yellow-bellied sea snake has an extensive distribution covering the entire tropical Indo-Pacific, as well as extending to Costa Rica, southern California, and northern Peru.[19][20] It is the only sea snake to have reached the Hawaiian Islands.[21] They have also been reported to occur in the Agulhas Current, with specimens found along the coasts of South Africa and Namibia.[22][23]

The sea snake has also been reported in colder waters such as the coasts of southern California, Tasmania, and New Zealand,[24] a country that would otherwise be free of snakes were it not for the infrequent visits of yellow-bellied sea snake and banded sea kraits.[25] These cold water occurrences are believed to be linked with el Niño events or severe storms.[26][27][28] The yellow-bellied sea snake (and all other sea snakes) are not found in the Atlantic or Mediterranean, most likely due to the cooler water temperatures. They require a minimum of 16–18 °C (60.8 to 64.4 °F) to survive long term.[29] In October 2015, they were reported and photographed on beaches in Ventura County, California, well outside their normal range, for the first time in 30 years.[26]

Despite the warmer waters, yellow-bellied sea snakes are not found around eastern coast of America or the Caribbean. This is due to the land bridge between North and South America (Isthmus of Panama), which formed from about 10 million years ago to 3 million years ago [30] (i.e., continental drift), acting as a dispersal barrier and preventing entry into the Caribbean Sea from the Pacific Ocean. The man-made Panama Canal has not made a crossing of the isthmus possible presumably because it is fresh water. They do not live in the Red Sea because of its excessive salinity .

Due to the wide distribution of the species and relative lack of dispersal barriers, it has been assumed that individuals from different localities represent a single breeding population (i.e., high gene flow). However, a study that used haplotype networks in two populations from Costa Rica suggests that shallow genetic population structure exists, which reflects variation in colour patterns (brown and yellow in Golfo de Papagayo and completely yellow in Golfo Dulce).[31]

Evolution

Sea snakes are a monophyletic group (Hydrophiinae) that diverged from the front-fanged Australasian venomous snakes (Elapidae) about 10 million years ago.[32][33] The yellow-bellied sea snake is a part of the rapidly radiating Hydrophis group.[34]

Taxonomy

Sea snakes are a subfamily (Hydrophiinae) of the venomous Australasian snakes of the family Elapidae. Traditionally, sea snakes and sea kraits were considered to be a part of a single family (Hydrophiidae), but sea kraits have since been placed into a separate subfamily (Laticaudinae) due to their independent evolution into aquatic habitats (i.e., convergent evolution).[18][35]

In 1766, Linnaeus published the original description of the yellow-bellied sea snake, naming it Anguis platura (Anguis meaning snake). In 1803, Daudin created the new genus Pelamis and assigned this species to it, referring to it as Pelamis platuros. In 1842, Gray described what he thought was a new species and called it Pelamis ornata (subsequently P. ornata became a synonym of P. platura).

To further complicate the nomenclature, the taxonomic status of sea snakes is still under review, with recent authors suggesting a dismantling of monotypic genera, such as Pelamis, in favour of a single genus, Hydrophis, in order to reduce paraphyly and better reflect phylogenetic relationships.[36]

Name

The commonly used genus name Pelamis is derived from the Ancient Greek word for "tunny fish", which presumably refers to the habitat or what Daudin thought they ate. The specific name platurus is a combination of the Ancient Greek words platys "flat" and oura "tail", referring to the flattened tail.

The word Pelamis is a feminine noun and means young or small tunny fish. In 1872, Stoliczka introduced the name Pelamis platurus (still the most used scientific name by scientists today), but used the incorrect ending -us instead of -a which a feminine noun requires.[37] A few recent examples exist of scientists' beginning to use the grammatically correct name Pelamis platura, e.g., Bohme 2003 and the Reptile Database with its page headed Pelamis platura (Linnaeus, 1766), which includes an extensive synonymy of the different scientific names which have been used for the yellow-bellied sea snake.[38] The same rules apply for the most recent taxonomic name of Hydrophis platura.

Venom

The venom of this species is highly potent, like other sea snakes.[39] The subcutaneous LD50 of the venom is 0.067 mg/kg and the venom yield per bite is 1.0–4.0 mg.[40][41]

Antivenom

Sea snake venom can cause damage to skeletal muscle with consequent myoglobinuria, neuromuscular paralysis or direct renal damage. The venoms of significant species of sea snake are neutralised with Commonwealth Serum Laboratories Ltd (of Melbourne, Australia) sea snake (Enhydrina schistosa) antivenom. If that preparation is not available, tiger snake or polyvalent antivenom should be used. No deaths have been recorded from bites in Australian waters.[42][43] The E. schistosa antivenom was tested specifically on Pelamus platurus, and it effectively neutralised the venom.[44]

See also

Cited references

  1. 1 2 Guinea, M., Lukoschek, V., Cogger, H., Rasmussen, A., Murphy, J., Lane, A., Sanders, K. Lobo, A., Gatus, J., Limpus, C., Milton, D., Courtney, T., Read, M., Fletcher, E., Marsh, D., White, M.-D., Heatwole, H., Alcala, A., Voris, H. & Karns, D. (2010). "Pelamis platura". IUCN Red List of Threatened Species. IUCN. 2010: e.T176738A7293840. Retrieved 8 April 2016.
  2. Boulenger, G.A. 1896. Catalogue of the Snakes in the British Museum (Natural History). Volume III., Containing the Colubridæ (Opisthoglyphæ and Proteroglyphæ)... Trustees of the British Museum (Natural History). London. pp. 266–268.
  3. The Reptile Database. www.reptile-database.org.
  4. Sanders, Kate L.; Rasmussen, Arne R.; Elmberg, Johan (2012-08-01). "Independent Innovation in the Evolution of Paddle-Shaped Tails in Viviparous Sea Snakes (Elapidae: Hydrophiinae)". Integrative and Comparative Biology. 52 (2): 311–320. doi:10.1093/icb/ics066. ISSN 1540-7063. PMID 22634358.
  5. 1 2 Aubret, F.; Shine, R. (2008-04-01). "The origin of evolutionary innovations: locomotor consequences of tail shape in aquatic snakes". Functional Ecology. 22 (2): 317–322. doi:10.1111/j.1365-2435.2007.01359.x. ISSN 1365-2435.
  6. 1 2 Brischoux, François; Shine, Richard (2011-05-01). "Morphological adaptations to marine life in snakes". Journal of Morphology. 272 (5): 566–572. doi:10.1002/jmor.10933. ISSN 1097-4687. PMID 21337377.
  7. Seymour, Roger S. (1974-08-09). "How sea snakes may avoid the bends". Nature. 250 (5466): 489–490. doi:10.1038/250489a0.
  8. Graham, J. B. (1974-07-01). "Aquatic respiration in the sea snake Pelamis platurus". Respiration Physiology. 21 (1): 1–7. doi:10.1016/0034-5687(74)90002-4. ISSN 0034-5687. PMID 4846936.
  9. Dunson, William A.; Packer, Randall K.; Dunson, Margaret K. (1971-01-01). "Sea Snakes: An Unusual Salt Gland under the Tongue". Science. 173 (3995): 437–441. doi:10.1126/science.173.3995.437. JSTOR 1732639.
  10. http://phenomena.nationalgeographic.com/2014/03/18/the-sad-tale-of-the-thirsty-dehydrated-sea-snake/
  11. (M.A. Smith, 1943: 476–477, gives more complete descriptions of the color pattern variants).
  12. Schmidt, K.P. & D.D. Davis. 1941. Field Book of Snakes of the United States and Canada. G.P. Putnam's Sons. New York. p. 280.
  13. Brischoux, François; Lillywhite, Harvey B. (2011-06-14). "Light- and flotsam-dependent 'float-and-wait' foraging by pelagic sea snakes (Pelamis platurus)". Marine Biology. 158 (10): 2343–2347. doi:10.1007/s00227-011-1738-z. ISSN 0025-3162.
  14. 1 2 Heatwole, Harold (1993). Fauna of Australia: Family Hydrophiinae. Canberra: AGPS. p. 15.
  15. Heatwole, Harold (1999-01-01). Sea Snakes. UNSW Press. ISBN 9780868407760.
  16. Lillywhite, Harvey B.; Brischoux, François; Sheehy, Coleman M.; Pfaller, Joseph B. (2012-08-01). "Dehydration and drinking responses in a pelagic sea snake". Integrative and Comparative Biology. 52 (2): 227–234. doi:10.1093/icb/ics039. ISSN 1557-7023. PMID 22510231.
  17. Lillywhite, Harvey B.; Sheehy, Coleman M.; Brischoux, François; Grech, Alana (2014-05-07). "Pelagic sea snakes dehydrate at sea". Proceedings of the Royal Society of London B: Biological Sciences. 281 (1782): 20140119. doi:10.1098/rspb.2014.0119. ISSN 0962-8452. PMC 3973276Freely accessible. PMID 24648228.
  18. 1 2 Rasmussen, Arne Redsted; Murphy, John C.; Ompi, Medy; Gibbons, J. Whitfield; Uetz, Peter. "Marine Reptiles". PLoS ONE. 6 (11). doi:10.1371/journal.pone.0027373. PMC 3210815Freely accessible. PMID 22087300.
  19. Quiñones, Javier; Burneo, Karla García; Barragan, Claudio. "Rediscovery of the Yellow-bellied Sea Snake, Hydrophis platurus (Linnaeus, 1766) in Máncora, northern Perú". Check List. 10 (6). doi:10.15560/10.6.1563.
  20. Palermo,LiveScience, Elizabeth. "Venomous Sea Snake Washes Up on California Beach, Surprising Scientists". Scientific American. Retrieved 2016-03-30.
  21. Liptow, J. 1999. "Pelamis platurus" (On-line), Animal Diversity Web. Accessed June 23, 2007 at
  22. Sexton, Owen J. (1967-01-01). "Population Changes in a Tropical Lizard Anolis limifrons on Barro Colorado Island, Panama Canal Zone". Copeia. 1967 (1): 219–222. doi:10.2307/1442198. JSTOR 1442198.
  23. Also see references in The Living Shores of Southern Africa, Margo and George Branch, Page 130 - 131, Macmillan South Africa (Publishers), Johannesburg and "Snake versus Man" Johan Marais, page 50 - 51, C. Struik Publishers, Cape Town.
  24. "Swimmers told not to be surprised of poisonous sea snake". Waikato Times. Hamilton, New Zealand: Fairfax New Zealand. 4 January 2012. Retrieved 26 April 2012.
  25. Natural History Information Centre, Auckland War Memorial Museum. "Natural History Questions". Auckland War Memorial Museum | Tamaki Paenga Hira. Auckland, New Zealand: Auckland War Memorial Museum. Q. Are there any snakes in New Zealand?. Retrieved 26 April 2012.
  26. 1 2 "Blame El Niño for poisonous sea snake found on Ventura County beach". latimes.com. Retrieved 2015-10-25.
  27. "Yellow-bellied Sea Snake - Australian Museum". australianmuseum.net.au. Retrieved 2016-03-30.
  28. "El Nino brings sea snake to California's coast - CNN.com". CNN. Retrieved 2015-10-25.
  29. (Dunson and Ehlert 1971).
  30. "North and South America Came Together Much Earlier Than Thought: Study". NBC News. Retrieved 2016-03-30.
  31. Sheehy, Coleman M.; Solórzano, Alejandro; Pfaller, Joseph B.; Lillywhite, Harvey B. (2012-08-01). "Preliminary insights into the phylogeography of the yellow-bellied sea snake, Pelamis platurus". Integrative and Comparative Biology. 52 (2): 321–330. doi:10.1093/icb/ics088. ISSN 1557-7023. PMID 22659201.
  32. Lukoschek, Vimoksalehi; Keogh, J. Scott (2006-11-01). "Molecular phylogeny of sea snakes reveals a rapidly diverged adaptive radiation". Biological Journal of the Linnean Society. 89 (3): 523–539. doi:10.1111/j.1095-8312.2006.00691.x. ISSN 1095-8312.
  33. Pyron, R. Alexander; Burbrink, Frank T.; Colli, Guarino R.; de Oca, Adrian Nieto Montes; Vitt, Laurie J.; Kuczynski, Caitlin A.; Wiens, John J. (2011-02-01). "The phylogeny of advanced snakes (Colubroidea), with discovery of a new subfamily and comparison of support methods for likelihood trees". Molecular Phylogenetics and Evolution. 58 (2): 329–342. doi:10.1016/j.ympev.2010.11.006. ISSN 1095-9513. PMID 21074626.
  34. Sanders, Kate L.; Lee, Michael S. Y.; Mumpuni; Bertozzi, Terry; Rasmussen, Arne R. (2013-03-01). "Multilocus phylogeny and recent rapid radiation of the viviparous sea snakes (Elapidae: Hydrophiinae)". Molecular Phylogenetics and Evolution. 66 (3): 575–591. doi:10.1016/j.ympev.2012.09.021.
  35. CSL Antivenom Handbook – Sea Snake Antivenom
  36. Rasmussen, Arne Redsted; Sanders, Kate Laura; Guinea, Michael L.; Amey, Andrew P. (2014-01-01). "Sea snakes in Australian waters (Serpentes: subfamilies Hydrophiinae and Laticaudinae)-a review with an updated identification key". Zootaxa. 3869: 351–371. doi:10.11646/zootaxa.3869.4.1. ISSN 1175-5334. PMID 25283923.
  37. Lanza, B.; Boscherini, S. (2000). "The gender of the genera Podarcis Wagler 1830 (Lacertidae), Pelamis Daudin 1803 (Hydrophiidae) and Uropeltis Cuvier 1829 (Uropeltidae)". Tropical Zoology. 13 (2): 327–329. doi:10.1080/03946975.2000.10531139.
  38. Pelamis platura at the Reptarium.cz Reptile Database. Accessed May 2008
  39. SnakeBiteTemplate3.pmd
  40. LD50 value of venomous snakes
  41. LD stands for "Lethal dose".
  42. https://www.flyingdoctor.net/IgnitionSuite/uploads/docs/snakebite.pdf Management of snake bites in Australia and Papua New Guinea. Accessed May 2008
  43. http://www.emedicine.com/emerg/topic543.htm Accessed May 2008
  44. http://www.ajtmh.org/cgi/content/abstract/23/1/135 Published 1973. Accessed May 2008.

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