Biology:Giant salamander

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Short description: Family of amphibians

Giant salamanders
Temporal range: Cenomanian–Recent
Andrias japonicus pair.jpg
Andrias japonicus
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Urodela
Suborder: Cryptobranchoidea
Family: Cryptobranchidae
Fitzinger, 1826
Genera

The Cryptobranchidae are a family of fully aquatic salamanders commonly known as the giant salamanders. They include the largest living amphibians. The family is native to China, Japan, and the eastern United States. They constitute one of two living families—the other being the Asiatic salamanders belonging to the family Hynobiidae—within the Cryptobranchoidea, one of two main divisions of living salamanders.

The largest species are in the genus Andrias, native to east Asia. The South China giant salamander (Andrias sligoi), can reach a length of 1.8 m (5.9 ft).[1] The Japanese giant salamander (Andrias japonicus) reaches up to 1.44 m (4.7 ft) in length, feeds at night on fish and crustaceans, and has been known to live for more than 50 years in captivity.[2]

The hellbender (Cryptobranchus alleganiensis) inhabits the eastern United States and is the only member of the genus Cryptobranchus.

Taxonomy

The family name is from the Ancient Greek krypto ("hidden"), and branch ("gill"), which refer to how the members absorb oxygen through capillaries of their side-frills, which function as gills.

Clade Pancryptobrancha (Cryptobranchidae + Ukrainurus)

Phylogeny

The following phylogeny is based on Vasilyan et al. (2013):[7]

Pancryptobranchia

Ukrainurus

Cryptobranchidae

Cryptobranchus

Aviturus

Zaissanurus

Andrias

The well-represented Cretaceous Eoscapherpeton was not phylogenetically placed.[7] The enigmatic "Cryptobranchus" saskatchewanensis of Paleocene Canada may actually represent a stem-cryptobranchid.[7]

Fossil record

Fossil and recent Andrias skeletons, Paläontologische Institut und Museum, Universitat Zurich.

Extant species in the family Cryptobranchidae are the modern-day members of a lineage that extends back tens of millions of years. The oldest known fossils of cryptobranchoids are known from the Middle Jurassic of China. Chunerpeton from the Middle Jurassic of China has been suggested to represent the oldest known cryptobranchid.[8] However, some studies have found it to be a more basal cryptobranchoid not more closely related to Cryptobranchidae than to Hynobiidae.[9] The next oldest cryptobranchid is Eoscapherpeton, known from numerous Late Cretaceous deposits in Central Asia, which is suggested to represent a stem-group to modern cryptobranchids. Modern crown group representatives appear during the Paleocene.[10]

As the fossil record for the Cryptobranchidae shows an Asian origin for the family, how these salamanders made it to the eastern US has been a point of scientific interest. Research has indicated a dispersal via land bridge, with waves of adaptive radiation seeming to have swept the Americas from north to south.[8][11]

Andrias scheuchzeri

In 1726, the Swiss physician Johann Jakob Scheuchzer described a fossil as Homo diluvii testis (Latin: Evidence of a diluvian human), believing it to be the remains of a human being who drowned in the biblical flood. The Teylers Museum in Haarlem, Netherlands, bought the fossil in 1802, where it is still exhibited. In 1812, the fossil was examined by Georges Cuvier, who recognized that it was not human. After being identified as a salamander, it was renamed Salamandra scheuchzeri by Holl in 1831. The genus Andrias was coined six years later by Tschudi. In doing so, both the genus, Andrias (which means "image of man"), and the specific name, scheuchzeri, ended up honouring Scheuchzer and his beliefs. It and the extant A. davidianus cannot be mutually distinguished, and the latter, only described in 1871, is therefore sometimes considered a synonym of the former.[12]

Description

Cryptobranchids are large salamanders, with large folds of skin along their flanks. These help increase the animals' surface area, allowing them to absorb more oxygen from the water. They have four toes on the fore limbs, and five on the hind limbs. They have paedomorphic traits, meaning their metamorphosis from the larval stage is incomplete, so the adults retain gill slits (although they also have lungs), and lack eyelids. They have a stout body with a heavy, laterally compressed tail. They have bad eyesight. They can reach a length of 1.8 m (5.9 ft), though most are considerably smaller today.[1]

Cryptobranchids are animals with a backbone, that have moist, smooth skin. They are also a cold-blooded animal which means their temperature is the same as the temperature of their surroundings.

Distribution and habitat

In Japan, their natural habitats are threatened by dam-building. Ramps and staircases have been added to some dams to allow them to move upstream to areas where they spawn. [13]

Behavior

A Japanese giant salamander lived for 52 years in captivity.[2]

Feeding

The Chinese giant salamander eats aquatic insects, fish, frogs, crabs, and shrimp.[14] They hunt mainly at night. As they have poor eyesight, they use sensory nodes on their heads and bodies to detect minute changes in water pressure, enabling them to find their prey.[15]

Reproduction

During mating season, the salamanders travel upstream, where the female lays two strings of over 200 eggs each. Lacking the stereotypical courtship behaviors found in other species, the male fertilizes the eggs externally by releasing his sperm onto them, and then guards them for at least three months, until they hatch.[14] Tail fanning also occurs in order to increase the oxygen supply for the eggs. At this point, the larvae live off their noticeable stored fat until ready to hunt. Once ready, they hunt as a group rather than individually.

Scientists at Hiroshima City Asa Zoological Park in Japan have recently discovered the male salamander will spawn with more than one female in his den. Only large males can occupy and guard a den. They guard the den against other males and sexually inactive females. Those that are sexually active are welcomed. On occasion, the male "den master" will also allow a second male (smaller male salamanders, named "satellite males", who do not have their own den) into the den; the reason for this is unclear.[16]

References

  1. 1.0 1.1 Andrias davidianus. AmphibiaWeb: Information on amphibian biology and conservation. 2012. Berkeley, California: AmphibiaWeb. Retrieved 13 December 2012.
  2. 2.0 2.1 Andrias japonicus. AmphibiaWeb: Information on amphibian biology and conservation. 2012. Berkeley, California: AmphibiaWeb. Retrieved 13 December 2012.
  3. "Fossilworks: Cryptobranchus saskatchewanensis". http://www.fossilworks.org/cgi-bin/bridge.pl?a=taxonInfo&taxon_no=110598. 
  4. Frost, Darrell (2023). "Andrias cheni Xu, Gong, Li, Jiang, Huang, and Huang, 2023". https://amphibiansoftheworld.amnh.org/Amphibia/Caudata/Cryptobranchidae/Andrias/Andrias-cheni. 
  5. "World's largest amphibian identified as a unique species" (in en). 2019-09-16. https://www.nationalgeographic.com/animals/2019/09/giant-salamander-new-species-worlds-largest-amphibian/. 
  6. Turvey, S. T.; Marr, M. M.; Barnes, I.; Brace, S.; Tapley, B.; Murphy, R. W.; Zhao, E.; Cunningham, A. A. (2019). "Historical museum collections clarify the evolutionary history of cryptic species radiation in the world's largest amphibians". Ecology and Evolution 9 (18): 10070–10084. doi:10.1002/ece3.5257. PMID 31624538. 
  7. 7.0 7.1 7.2 Vasilyan, D.; Böhme, M.; Chkhikvadze, V. M.; Semenov, Y. A.; Joyce, W. G. (2013). "A new giant salamander (Urodela, Pancryptobrancha) from the Miocene of Eastern Europe (Grytsiv, Ukraine)". Journal of Vertebrate Paleontology 33 (2): 301. doi:10.1080/02724634.2013.722151. 
  8. 8.0 8.1 Gao, Ke-Qin; Shubin, Neil H. (27 March 2003). "Earliest known crown-group salamanders". Nature 422 (6930): 424–428. doi:10.1038/nature01491. PMID 12660782. Bibcode2003Natur.422..424G. http://doc.rero.ch/record/15276/files/PAL_E2575.pdf. 
  9. Jia, Jia; Anderson, Jason S.; Gao, Ke-Qin (2021-07-23). "Middle Jurassic stem hynobiids from China shed light on the evolution of basal salamanders" (in English). iScience 24 (7): 102744. doi:10.1016/j.isci.2021.102744. ISSN 2589-0042. PMID 34278256. Bibcode2021iSci...24j2744J. 
  10. Skutschas, Pavel P.; Saburov, Pavel G.; Boitsova, Elizaveta A.; Kolchanov, Veniamin V. (May 2019). "Ontogenetic changes in long-bone histology of the cryptobranchid Eoscapherpeton asiaticum (Amphibia: Caudata) from the Late Cretaceous of Uzbekistan" (in en). Comptes Rendus Palevol 18 (3): 306–316. doi:10.1016/j.crpv.2019.02.002. 
  11. Swanson, P.L. (September 1948). "Notes on the Amphibians of Venango County, Pennsylvania". American Midland Naturalist 40 (2): 362–371. doi:10.2307/2421606. 
  12. Frost, Darrel R. (31 January 2011). "Andrias Tschudi". American Museum of Natural History. http://research.amnh.org/vz/herpetology/amphibia/?action=references&id=28745. 
    "Online access electronic database". American Museum of Natural History. http://research.amnh.org/vz/herpetology/amphibia/. 
  13. "Giant Salamanders Helped to Spawn" 31 December 2009. National Geographic Society. Retrieved 13 December 2012.
  14. 14.0 14.1 Lanza, B.; Vanni, S.; Nistri, A. (1998). Cogger, H.G.. ed. Encyclopedia of Reptiles and Amphibians. San Diego: Academic Press. pp. 69. ISBN 0-12-178560-2. 
  15. Glenn, C.R. (2006). "Chinese Giant Salamander Facts". http://www.earthsendangered.com/profile.asp?view=c&ID=3&sp=413. 
  16. Okada, Sumio, Yukihiro Fukuda, and Mizuki K. Takahashi. "Paternal care behaviors of Japanese giant salamander Andrias japonicus in natural populations." Journal of ethology 33.1 (2015): 1-7.

External links

Wikidata ☰ Q754032 entry