Plains viscacha rat

Plains viscacha rat
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Rodentia
Family: Octodontidae
Genus: Tympanoctomys
Species: T. barrerae
Binomial name
Tympanoctomys barrerae
(B. Lawrence, 1941)[2]

The plains viscacha rat, plains vizcacha rat, red viscacha rat, or red vizcacha rat (Tympanoctomys barrerae) is a species of rodent in the family Octodontidae native to Argentina. It is one of three species in the genus Tympanoctomys.[3][4]

Description

The plains viscacha rat is a moderately-sized rat, with a large head, long tail, and short ears. Adults measure about 13 cm (5.1 in) in total length, with a 15 cm (5.9 in) tail, and weigh an average of 90 g (3.2 oz), with males being slightly larger than females. The rat has buff-yellow fur with white underparts, fading to dark brown at the tip of the tail.[5]

Distribution and habitat

The plains viscacha rat is endemic to central western Argentina, where it has a fragmented range in Mendoza Province and western La Pampa. Its natural habitat is desert scrubland, dunes and salt flats, between 300 and 1,400 m (980 and 4,590 ft). There are no recognised subspecies.[1][5]

The species is threatened by destruction of its fragmented and restricted habitat.[1]

Biology and behaviour

Plains viscacha rats are solitary, and nocturnal. They construct complex burrow systems within large artificial mounds.[6] Typical mounds are 13.6 by 8.7 m (45 by 29 ft) across, and 1.25 m (4 ft 1 in) in height, and have an average of 23 burrow entrances. Within the mound, the burrow system has up to three levels and contains numerous chambers and dead-end tunnels.[5]

The rats are herbivorous, feeding primarily on halophytic vegetation, such as Atriplex and Suaeda,[7] although they will occasionally eat other plants such as grass.[5] The rats scrape salt from the leaves of Atriplex saltbushes with their teeth and bristles around their mouths before eating them.[8] Although this reduces their salt intake, they still produce highly concentrated urine to help maintain their water balance.[9]

The young are born blind, and weighing about 4 g (0.14 oz). Their eyes open at about six days, and they begin to take solid food at ten days.[5]

Genetics

Plains viscacha rat chromosomes

This species of rodent has (as of 2017) the largest number of chromosomes of any known mammal, 2n = 102.[10]

It was thought to be tetraploid (4x = 2n) and it was thought that this species may have arisen by hybridization and chromosome doubling from an ancestor (very possibly closely related to the mountain vizcacha rat, Octomys mimax, chromosome count 2x = 2n = 56). However, careful analysis using chromosome paints showed that there are only two copies of each chromosome in T. barrerae, not the four expected if it were truly a tetraploid.[11] The doubling of its chromosome number was presumably by errors in mitosis or meiosis within the animal's reproductive organs.[12] A comparison of the chromosomes of the plains viscacha rat and the mountain viscacha rat suggested that the chromosomes of the plains viscacha rat increased relatively rapidly (in evolutionary terms) due to a diverse set of highly repetitive elements.[13] The animal's spermatozoa are roughly twice normal size, thought to be by virtue of having twice as many sets of chromosomes.[14]

The rodent is not a rat, but a caviomorph, kin to guinea pigs and chinchillas. Its "new" diploid [2n] number is 112 and so its cells are roughly twice what would normally be expected.

References

  1. 1 2 3 Lessa, E.; Ojeda, R. & Bidau, C. (2008). "Tympanoctomys barrerae". IUCN Red List of Threatened Species. Version 2008. International Union for Conservation of Nature. Retrieved 5 January 2009.
  2. Lawrence, B. (1941), "A new species of Octomys from Argentina", Proceedings of the New England Zoological Club, 18: 43–46
  3. Woods, C.A.; Kilpatrick, C.W. (2005). "Infraorder Hystricognathi". In Wilson, D.E.; Reeder, D.M. Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. p. 1573. ISBN 978-0-8018-8221-0. OCLC 62265494.
  4. Pablo Teta; Ulyses F. J. Pardiñas; Daniel E. Udrizar Sauthier i Milton H. Gallardo (2014), "A new species of the tetraploid vizcacha rat Tympanoctomys (Caviomorpha, Octodontidae) from central Patagonia, Argentina", Journal of Mammalogy, 95 (1): 60–71, doi:10.1644/13-MAMM-A-160
  5. 1 2 3 4 5 Diaz, G.B.; et al. (2000). "Tympanoctomys barrerae" (PDF). Mammalian Species. 646: 1–4. doi:10.1644/1545-1410(2000)646<1:tb>2.0.co;2.
  6. Mares, Michael A. (1 November 2003). "Desert dreams: seeking the secret mammals of the salt pans - Naturalist at Large" (PDF). Natural History: 29–34.
  7. Torres-Mura, J.C. (1989). "Herbivorous specialization of the South American desert rodent Tympanoctomys barrerae". Journal of Mammalogy. 70 (3): 646–648. doi:10.2307/1381442.
  8. Mares, M.A.; et al. (1997). "How desert rodents overcome halophytic plant defenses". BioScience. 47 (11): 699–704. doi:10.2307/1313210.
  9. Diaz, G.B. & Ojeda R.A. (1999). "Kidney structure and allometry of Argentine desert rodents". Journal of Arid Environments. 41 (4): 453–461. doi:10.1006/jare.1998.0472.
  10. Evans, Ben J.; Upham, Nathan S.; Golding, Brian G.; Ojeda, Ricardo A.; Ojeda, Agustina A. "Evolution of the largest mammalian genome". Genome Biology and Evolution. doi:10.1093/gbe/evx113.
  11. Svartman, Marta; Stone, Gary; Stanyon, Roscoe (2005). "Molecular cytogenetics discards polyploidy in mammals". Genomics. 85 (4): 425–30. PMID 15780745. doi:10.1016/j.ygeno.2004.12.004.
  12. Gallardo, M.H.; González, CA; Cebrián, I (2006), "Molecular cytogenetics and allotetraploidy in the red vizcacha rat, Tympanoctomys barrerae (Rodentia, Octodontidae)", Genomics (published August 2006), 88 (2), pp. 214–221, PMID 16580173, doi:10.1016/j.ygeno.2006.02.010
  13. "New analysis of rare Argentinian rat unlocks origin of the largest mammalian genome". PhysOrg. 2017-07-12. Retrieved 2017-07-17.
  14. Gallardo, M.H.; et al. (1999). "Discovery of tetraploidy in a mammal". Nature. 401 (6751): 341. PMID 10517628. doi:10.1038/43815.
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