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Cervus

From Wikipedia, the free encyclopedia

Cervus
Temporal range: Pliocene–Recent
Cervus elaphus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Family: Cervidae
Tribe: Cervini
Genus: Cervus
Linnaeus, 1758
Type species
Cervus elaphus
Species
Also see text

Cervus is a genus of deer that primarily are native to Eurasia, although one species occurs in northern Africa and another in North America. In addition to the species presently placed in this genus, it has included a whole range of other species now commonly placed in other genera. Additionally, the species-level taxonomy is in a state of flux.

Taxonomy

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Genus

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Until the 1970s, Cervus also included the members of the genera Axis, Dama, and Elaphurus, and until the late 1980s, it included members of Rucervus and Rusa.[1]

Species

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In the third edition of Mammal Species of the World from 2005, only the red deer (C. elaphus) and sika deer (C. nippon) were recognized as species in the genus Cervus.[1] Genetic and morphological evidence suggest more species should be recognized.[2][3] For example, the species Cervus canadensis (elk/wapiti) is considered a separate species.[4]

Red deer species group

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Within the red deer species group, some sources have recommended the Central Asian red deer (Cervus hanglu) should be treated as a species.[2][4][5] If the Central Asian red deer (from the Caspian Sea to western China) is recognized as a species, it includes the Yarkand deer and Bactrian deer (the two may be synonymous), but it could possibly also include the Kashmir stag, which has not been sampled in recent studies.[2][4] If it is included in the Central Asian red deer, the scientific name of that species is C. hanglu. If it is not included, the scientific name of that species is C. yarkandensis, and the Kashmir stag (C. hanglu) may represent a separate monotypic species.[2][4] The Central Asian red deer was considered its own species (including the Yarkand deer, Kashmir stag and Bactrian deer as subspecies) by the IUCN in 2017,[6] and by the American Society of Mammalogists in 2021.[7]

Others members of the red deer group, which may represent separate species, are C. corsicanus, C. wallichi and C. xanthopygus.[2][3] If so, C. corsicanus includes the subspecies C. c. barbarus (perhaps a synonym of corsicanus), and is restricted to Maghreb in North Africa, Corsica and Sardinia.[2][4] C. wallichi would probably include the subspecies C. w. kansuensis and C. w. macneilli (both are perhaps synonyms of C. w. wallichi), and would be found from Tibet to central China.[2][4][8] C. xanthopygus would probably include the subspecies C. x. alashanicus (perhaps a synonym of C. x. xanthopygus), and would be found from the Russian Far East to northeastern China.[2][4][8] This would restrict the "true" red deer (C. elaphus) to Europe, Anatolia, the Caucasus and northwestern Iran, and the elk/wapiti (C. canadensis) to North America and the Asian regions of the Tian Shan, Altai, and Great Khingan.[2] Alternatively, the barbarus group species are subspecies of the "true" red deer, while the C. wallichii and C. xanthopygus groups are subspecies of the elk/wapiti.[4]

Sika deer species group

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It has been proposed that the sika deer should be split into four species based on genetics, morphology and voice,[3] although this may be premature based on the presently available evidence.[9] If split, the potential species are C. yesoensis from northern and central Japan (Hokkaido and northern and central Honshu), C. nippon of southern Japan (southern Honshu, Shikoku, Kyushu, Okinawa, Tsushima and other small islands), C. hortulorum of mainland Asia (the Russian Far East, Korea, central and eastern China and northern Vietnam), and C. taiouanus of Taiwan.[3]

Phylogeny

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A 2014 mitochondrial DNA study showed the internal phylogeny of Cervus to be as follows:[10]

Cervus

Rusa

Fossil species

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The remains of Cervus are known from the early-mid Pliocene of China.[11]

Mating system

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Members of the genus Cervus have polygynous mating systems within harems.[12] These harems consist of several males, numerous females and their young offspring 1–3 years in age[13] Members of this genus have a yearly breeding season where they display sensory exploitation, intrasexual competition, and weaponry. Females will fight for optimal mating opportunities and sexually selection for males with larger antler size and/or greater roar quality.[14] The degree of polygyny and female aggregation is dependent on the level of food distribution. Females aggregating in areas with more food leading to larger harems[15] Female distribution influences the level of polygyny.

Red deer

Female-female competition

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Female-female competition has been observed within harems in the red deer species (Cervus elaphus) prior to and during the mating season. Aggression is displayed through nose threats, kicking, and displacements. Elevated aggression has only been observed during the breeding season. Competition can be for access to mates or reproductive resources such as food, or nesting areas.[14] Female-female aggression in ungulates is often overlooked because it is not as extravagant as male antler combat. Female conflicts occur so the winner has first access to the harem male at the start of the mating season before he is exhausted or low on sperm storage.[14]

Secondary sexual traits

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While an emphasis in observations of sexual selection is placed on combat using antlers, males with higher roaring rates are also being selected for. During the breeding season males will make calls to attract mates and compete with other males. Like antler size, mating call quality is an indicator of mate potential. Red deer can distinguish the calls of the males in their harem, others and their offspring.[16]

Indirect benefits

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Females select for males with larger antlers which indirectly benefits them. Large antler size in males is a sign of health and strength. The visual display is a reliable indicator of mate quality, providing indirect benefits. The females are not directly affected by these characteristics, but they will produce more viable and fit offspring. Males with large antlers mate and sire more offspring than smaller, younger males. Large antler size is correlated with overall health, fitness and an increase in sperm production and quality.[12]

References

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  1. ^ a b Wilson, D. E.; Reeder, D. M., eds. (2005). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. ISBN 978-0-8018-8221-0. OCLC 62265494.
  2. ^ a b c d e f g h i Pitra, Christian; Fickel, Joerns; Meijaard, Erik; Groves, Colin (2004). "Evolution and phylogeny of old world deer". Molecular Phylogenetics and Evolution. 33 (3): 880–895. doi:10.1016/j.ympev.2004.07.013. PMID 15522810.
  3. ^ a b c d Groves, Colin (2006). "The genus Cervus in eastern Eurasia". European Journal of Wildlife Research. 52: 14–22. doi:10.1007/s10344-005-0011-5. S2CID 33193408.
  4. ^ a b c d e f g h Ludt, Christian J.; Schroeder, Wolf; Rottmann, Oswald; Kuehn, Ralph (2004). "Mitochondrial DNA phylogeography of red deer (Cervus elaphus)". Molecular Phylogenetics and Evolution. 31 (3): 1064–1083. doi:10.1016/j.ympev.2003.10.003. ISSN 1055-7903 – via ResearchGate.
  5. ^ Randi, Ettore; Mucci, Nadia; Claro-Hergueta, Françoise; Bonnet, Amélie; Douzery, Emmanuel J. P. (2001). "A mitochondrial DNA control region phylogeny of the Cervinae: speciation in Cervus and implications for conservation". Animal Conservation. 4 (1): 1–11. doi:10.1017/S1367943001001019. ISSN 1367-9430.
  6. ^ Brook, S.M., Donnithorne-Tait, D., Lorenzini, R., Lovari, S., Masseti, M., Pereladova, O., Ahmad, K. & Thakur, M. 2017. Cervus hanglu (amended version of 2017 assessment). The IUCN Red List of Threatened Species 2017: e.T4261A120733024. https://dx.doi.org/10.2305/IUCN.UK.2017-3.RLTS.T4261A120733024.en. Retrieved 27 August 2021.
  7. ^ "Cervus hanglu". ASM Mammal Diversity Database. 1.5. American Society of Mammalogists. Retrieved 27 August 2021.
  8. ^ a b Smith and Xie, editors (2008). Mammals of China. ISBN 978-0-691-09984-2
  9. ^ Harris, R.B. (2015). "Cervus nippon". IUCN Red List of Threatened Species. 2015: e.T41788A22155877. doi:10.2305/IUCN.UK.2015-2.RLTS.T41788A22155877.en. Retrieved 12 November 2021.
  10. ^ Olivieri, C.; Marota, I.; et al. (2014). "Positioning the red deer (Cervus elaphus) hunted by the Tyrolean Iceman into a mitochondrial DNA phylogeny". PLOS ONE. 9 (7): e100136. doi:10.1371/journal.pone.0100136. PMC 4079593. PMID 24988290.
  11. ^ Lorenzini, Rita; Garofalo, Luisa (November 2015). "Insights into the evolutionary history of Cervus (Cervidae, tribe Cervini) based on Bayesian analysis of mitochondrial marker sequences, with first indications for a new species". Journal of Zoological Systematics and Evolutionary Research. 53 (4): 340–349. doi:10.1111/jzs.12104.
  12. ^ a b Kie, John G.; Johnson, Bruce K.; Noyes, James H.; Williams, Christen L.; Dick, Brian L.; Rhodes, Olin E.; Stussy, Rosemary J.; Bowyer, R. Terry (1 September 2013). "Reproduction in North American elk Cervus elaphus: paternity of calves sired by males of mixed age classes". Wildlife Biology. 19 (3): 302–310. doi:10.2981/12-051. ISSN 0909-6396. S2CID 86031761.
  13. ^ de Vos, A.; Brokx, P.; Geist, V. (1967). "A Review of Social Behavior of the North American Cervids during the Reproductive Period". The American Midland Naturalist. 77 (2): 390–417. doi:10.2307/2423349. JSTOR 2423349.
  14. ^ a b c Bebié, Nicole; McElligott, A.G. (2006). "Female aggression in red deer: Does it indicate competition for mates?". Mammalian Biology – Zeitschrift für Säugetierkunde. 71 (6): 347–355. doi:10.1016/j.mambio.2006.02.008.
  15. ^ Sánchez-Prieto, Cristina B.; Carranza, Juan; Pulido, Fernando J. (16 August 2004). "Reproductive Behavior in Female Iberian Red Deer: Effects of Aggregation and Dispersion of Food". Journal of Mammalogy. 85 (4): 761–767. doi:10.1644/bjk-122. ISSN 0022-2372.
  16. ^ Pérez-González, Javier; Carranza, Juan; Polo, Vicente (21 July 2010). "Measuring female aggregation in ungulate mating-system research: a red deer case study". Wildlife Research. 37 (4): 301–310. doi:10.1071/wr09033. ISSN 1448-5494.
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