Himalayan wolf
Himalayan wolf | |
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Himalayan wolf in the Upper Mustang region of Annapurna Conservation Area in Nepal | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Carnivora |
Family: | Canidae |
Genus: | Canis |
Species: | C. lupus |
Subspecies: | C. l. chanco
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Trinomial name | |
Canis lupus chanco | |
Himalayan wolf distribution (red dots in highlands) compared with the holarctic grey wolf (blue dots in lowlands)[3] |
The Himalayan wolf (Canis lupus chanco)
Some authors have proposed the reclassification of this lineage as a separate species.
Taxonomy
Canis chanco was the
- Canis niger by Philip Sclater in 1874 was a wolf specimen collected near Hanle in Kashmir.[15]
- Lupus filchneri by Paul Matschie in 1907 was a wolf skin from Xining in China's Qinghai province.[16] It had been collected by Wilhelm Filchner during an expedition to China and Tibet in 1903–1905.[17]
- Lupus karanorensis by Matschie in 1907 was a skin and a skull of a wolf that was shot in an oasis near Dunhuang in China in 1894.[16]
- Lupus tschiliensis by Matschie in 1907 was a skull of a wolf specimen that was shot in the coastal region of China's Zhili province.[16]
- Canis lupus coreanus by Korean Peninsula.[18]
In 1938,
Canis himalayensis was proposed by Aggarwal et al. in 2007 for wolf specimens from the Indian
In 2020, more recent research on the Himalayan wolf genome indicates that it warrants species-level recognition under the Unified Species Concept, the Differential Fitness Species Concept, and the Biological Species Concept. It was identified as an
Characteristics
The Himalayan wolf has a thick, woolly fur that is dull earthy-brown on the back and tail, and yellowish-white on the face, tummy, and limbs. It has closely spaced black speckles on the muzzle, below the eyes, and on the upper cheeks and ears.[25]
Larger than the
The heart of the Himalayan wolf can withstand the low oxygen level at high elevations. It has a strong selection for RYR2, a gene that initiates cardiac excitation.[29]
Phylogeography
The mitochondrial DNA of 27 wolves from the
Analysis of scat samples from two wolves collected in upper Dolpo in Nepal matched the Himalayan wolf.[22] Fecal remains of four wolves collected in the upper Mustang region of the Annapurna Conservation Area also fell within the Himalayan wolf clade but formed a separate haplotype from those previously studied.[25]
The Himalayan wolf population in Tibet declined over the past 25,000 years and suffered a historical
A genomic study on China's wolves included museum specimens of wolves from southern China that were collected between 1963 and 1988. The wolves in the study formed three clades: north Asian wolves that included those from northern China and eastern Russia, wolves from the Tibetan Plateau, and a unique population from southern China. One specimen located as far southeast as Jiangxi province shows evidence of being admixed between Tibetan-related wolves and other wolves in China.[37]
Canis lupus with timing in years[a]
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Relationship to the Indian lowland wolf
In 2021, a study compared both the mitochondrial DNA and the nuclear DNA (from the cell nucleus) from the wolves of the Himalayas with those of the wolves from the lowlands of the Indian subcontinent. The genomic analyses indicate that the Himalayan wolf and the Indian lowland wolf were genetically distinct from one another. These wolves were also genetically distinct from – and genetically basal to – the other wolf populations across the northern hemisphere. These other wolves form a single mitochondrial clade, indicating that they originated from a single expansion from one region within the last 100,000 years. However, the study indicated that the Himalayan wolf had separated from this lineage 496,000 years ago, and the Indian lowland wolf 200,000 years ago.[39]
Admixture with an unknown wolf-like canid
The
In 2020, a genomic analysis indicates that the wolves of the Himalayas and the Tibetan plateau are closely related. These wolves have an admixed history which includes gray wolves, dogs, and a ghost population of an unknown wolf-like canid. This ghost population is deeply-diverged from modern Holarctic wolves and dogs, has contributed 39% to the Himalayan wolf's nuclear genome, and contributed the EPAS1 allele which can be found in both Himalayan wolves and dogs which allows them to live in high altitudes.[42]
Domestic dogs exhibit diverse coat colours and patterns. In many mammals, different colour patterns are the result of the regulation of the Agouti gene, which can cause hair follicles to switch from making black or brown pigments to yellow or nearly white pigments. The most common coat pattern found in modern wolves is agouti, in which the upperside of the body has banded hairs and the underside exhibits lighter shading. The colour yellow is dominant to the colour black and is found in dogs across much of the world and the dingo in Australia.[43]
In 2021, a study of whole genome sequences taken from dogs and wolves focused on the genetic relationships between them based on coat colour. The study found that most dog colour haplotypes were similar to most wolf haplotypes, however dominant yellow in dogs was closely related to white in arctic wolves from North America. This result suggests a common origin for dominant yellow in dogs and white in wolves but without recent gene flow, because this clade was found to be basal to the golden jackal and genetically distinct from all other canids. The most recent common ancestor of the golden jackal and the wolf lineage dates back to 2 million YBP. The study proposes that 35,000 YBP there was genetic introgression into the Late Pleistocene grey wolf from a ghost population of an extinct canid which had diverged from the grey wolf lineage over 2 million YBP. This colour diversity could be found 35,000 YBP in wolves and 9,500 YBP in dogs. A closely related haplotype exists among those wolves of Tibet which possess yellow shading in their coats. The study explains the colour relationships between modern dogs and wolves, white wolves from North America, yellow dogs, and yellowish wolves from Tibet. The study concludes that during the Late Pleistocene, natural selection laid the genetic foundation for modern coat colour diversity in dogs and wolves.[43]
Relationship with the African golden wolf
In 2011, the Himalayan, Indian and African wolves were proposed to represent ancient wolf lineages, with the African wolf having colonised Africa prior to the Northern Hemisphere radiation of the Holarctic gray wolf.[33]
Two studies of the mitochondrial genome of both modern and extinct gray wolves (Canis lupus) have been conducted, but these excluded the genetically divergent lineages of the Himalayan wolf and the Indian wolf. The ancient specimens were
Between 2011 and 2015, two mDNA studies found that the Himalayan wolf and Indian gray wolf were genetically closer to the African golden wolf than they were to the Holarctic gray wolf.[33][7] From 2017, two studies based on mDNA, and X-chromosome and Y-chromosome markers taken from the cell nucleus, indicate that the Himalayan wolf is genetically basal to the Holarctic gray wolf. Its degree of divergence from the Holarctic gray wolf is similar to the degree of divergence of the African wolf from the Holarctic wolf. The Himalayan wolf shares a maternal lineage with the African wolf. It possesses a unique paternal lineage that falls between the gray wolf and the African wolf.[6][3] The results of these two studies imply that the Himalayan wolf distribution range extends from the Himalayan range north across the Tibetan Plateau up to the Qinghai Lake region in China’s Qinghai Province.[6]
In 2018, whole genome sequencing was used to compare members of the genus Canis. The African golden wolf was found to be the descendant of a genetically admixed canid of 72% gray wolf and 28% Ethiopian wolf ancestry.[46] The Ethiopian wolf does not share the single-nucleotide polymorphisms that confer hypoxia adaptation with the Himalayan wolf. The adaptation of the Ethiopian wolf to living in high elevations may occur at other single-nucleotide polymorphism locations. This indicates that the Ethiopian wolf's adaptation has not been inherited by descent from a common ancestor shared with the Himalayan wolf.[3]
Distribution and habitat
In China, the Himalayan wolf lives on the Tibetan Plateau in the provinces of Gansu, Qinghai, Tibet,[47][48] and western Sichuan.[9]
In northern India, it occurs in the Union Territory of Ladakh and in the Lahaul and Spiti region in northeastern Himachal Pradesh.[20] In 2004, the Himalayan wolf population in India was estimated to consist of 350 individuals ranging across an area of about 70,000 km2 (27,000 sq mi).[30] Between 2005 and 2008, it was sighted in the alpine meadows above the treeline northeast of Nanda Devi National Park in Uttarakhand.[49] In 2013, a wolf was photographed by a camera trap installed at an elevation around 3,500 m (11,500 ft) near the Sunderdhunga Glacier in Uttarakhand's Bageshwar district.[50]
In Nepal, it was recorded in
Behaviour and ecology
The howls of the Himalayan wolf have lower frequencies, unmodulated frequencies, and are shorter in duration compared to Holarctic wolf howls. The Himalayan and North African wolves have the most acoustically distinct howls and differ significantly from each other and the Holarctic wolves.[53]
Prey
Himalayan wolves prefer wild over domestic prey. It usually prefers the smaller
Historical sources indicate that wolves occasionally killed children in Ladakh and
Conservation
The wolf in Bhutan, India, Nepal, and Pakistan is listed on
In captivity
In 2007, 18 Himalayan wolves were kept for breeding in two Indian zoos. They were captured in the wild and were kept at the Padmaja Naidu Himalayan Zoological Park in West Bengal, and in the Kufri Zoo in Himachal Pradesh.[11]
Notes
- ^ For a full set of supporting references refer to the note (a) in the phylotree at Evolution of the wolf#Wolf-like canids
References
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- ^ a b c Alvares, F.; Bogdanowicz, W.; Campbell, L.A.D.; Godinho, R.; Hatlauf, J.; Jhala, Y.V.; Kitchener, A. C.; Koepfli, K.-P.; Krofel, M.; Moehlman, P. D.; Senn, H.; Sillero-Zubiri, C.; Viranta, S.; Werhahn, G. (2019). Old World Canis spp. with taxonomic ambiguity: Workshop conclusions and recommendations, 28th–30th May 2019 (PDF) (Report). Vairão, Portugal: IUCN/SSC Canid Specialist Group, Centro de Investigação em Biodiversidade e Recursos Genéticos. Archived (PDF) from the original on 8 March 2021. Retrieved 6 March 2020.
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- ^ Mivart, S. G. (1890). "The Common Wolf". Dogs, jackals, wolves, and foxes : a monograph of the Canidæ. London: E. H. Porter and Dulau & Co. p. 8.
- ^ Sclater, P. L. (November 1874). "On the Black Wolf of Thibet". Proceedings of the Zoological Society of London: 654–655.
- ^ a b c Matschie, P. (1907). "Über Chinesische Säugetiere". In Filchner, W. (ed.). Wissenschaftliche Ergebnisse der Expedition Filchner nach China und Tibet, 1903-1905. Berlin: Ernst Siegfried Mittler und Sohn. pp. 134–242.
- ^ Filchner, W. (1913). Wissenschaftliche Ergebnisse der Expedition Filchner nach China und Tibet, 1903–1905 [Scientific results of the expedition Filchner to China and Tibet, 1903–1905]. Vol. Band 4. Berlin: Ernst Siegfried Mittler und Sohn.
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- ^ a b c d Pocock, R. I. (1941). "Canis lupus chanco Gray. The Woolly Wolf". Fauna of British India. Vol. Mammals Volume 2. London: Taylor and Francis. pp. 86–90.
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- ^ a b Subba, S.A. (2012). Assessing the genetic status, distribution, prey selection and conservation issues of Himalayan wolf (Canis himalayensis) in Trans-Himalayan Dolpa, Nepal (PDF) (Report). Rufford Small Grants Foundation. Archived from the original (PDF) on 2016-03-04. Retrieved 2015-11-19.
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- ^ "Snow Leopard, Tibetan Wolf sighted" Archived 2018-11-01 at the Wayback Machine. The Pioneer, 15 February 2014.
- ^ Arnold, C. (2016). "Woolly Wolf Spotted in Nepal Is Likely a New Species". National Geographic. Archived from the original on 29 April 2016. Retrieved 29 April 2016.
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- .Canis lupus status=NT (Near Threatened)
External links
- "Canis lupus himalayensis". NCBI.NLM.NIH.gov. National Center for Biotechnology Information, U.S. National Institutes of Health.