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Description: Duplicate material relocated to Himalayan wolf
Distribution: Duplicate material relocated to Himalayan wolf.
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==Distribution and habitat==
==Distribution and habitat==
{{detail|Himalayan wolf#Distribution and habitat}}
[[File:Tibetan wolf distribution.jpg|thumb|Tibetan wolf distribution (red dots in highlands) compared with the holarctic grey wolf (blue dots in lowlands)<ref name=werhahn2018/>]]

The Tibetan wolf is native to [[China]] in the regions of [[Gansu]], [[Qinghai]], and the Tibet Autonomous Region.<ref name=smith2008/><ref name=wang2003/> Between 2005 and 2008, sightings and scat of Tibetan wolves were recorded in the alpine meadows above the tree line north-east of the [[Nanda Devi National Park]] in [[Uttarakhand]], India.<ref name=bhattacharya2010/> In 2013, the media reported that a Tibetan wolf was photographed by a camera trap installed around {{convert|3500|m|ft|abbr=on}} altitude near the Sunderdhunga Glacier in [[Bageshwar district]], [[Uttarakhand]], India.<ref name=pioneer2014/>

Tibetan wolves, which generally occupy territories up to 3,000 above [[sea level]], have evolved hearts that withstand the low oxygen levels. Specifically, these wolves have a strong selection for RYR2, a gene that initiates cardiac excitation.<ref>{{cite journal |author1=Zhang, W. |author2=Fan, Z. |author3=Han, E. |author4=Hou, R. |author5=Zhang, L. |author6=Galaverni, M. |author7=Liu, H. |author8=Silva, P. |author9=Li, P.; Pollinger, J.P.; Du, L.; Zhang, X.; Yue, B.; Wayne, R.K. & Zhang, Z. |year=2014 |title=Hypoxia adaptations in the Grey wolf (''Canis lupus chanco'') from Qinghai-Tibet Plateau |journal=PLOS Genetics |volume=10 |issue=7 |page=e1004466 |doi=10.1371/journal.pgen.1004466 |pmid=25078401 |pmc=4117439}}</ref>


==Relationship with humans==
==Relationship with humans==
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==References==
==References==
{{Reflist|colwidth=30em|refs=
{{Reflist|colwidth=30em|refs=

<ref name=bhattacharya2010>{{cite journal | last1 = Bhattacharya | first1 = T. Sathyakumar | year = 2010 | title = Sighting of Tibetan Wolf ''Canis lupus chanko'' in the Greater Himalayan range of Nanda Devi Biosphere Reserve, Uttarakhand, India: a new record | url = http://threatenedtaxa.org/ZooPrintJournal/2010/November/o242326xi101345-1348.pdf | journal = Journal of Threatened Taxa | volume = 2 | issue = 12 | pages = 1345–1348 | doi = 10.11609/jott.o2423.1345-8 | url-status = dead | archiveurl = https://web.archive.org/web/20121101104331/http://threatenedtaxa.org/ZooPrintJournal/2010/November/o242326xi101345-1348.pdf | archivedate = 2012-11-01 }} NOTE: It was not ''chanco'', it was the Tibetan wolf ''filchneri''.</ref>


<ref name=ersmark2016>{{cite journal|doi=10.3389/fevo.2016.00134|title=From the Past to the Present: Wolf Phylogeography and Demographic History Based on the Mitochondrial Control Region|journal=Frontiers in Ecology and Evolution|volume=4|year=2016|last1=Ersmark|first1=Erik|last2=Klütsch|first2=Cornelya F. C.|last3=Chan|first3=Yvonne L.|last4=Sinding|first4=Mikkel-Holger S.|last5=Fain|first5=Steven R.|last6=Illarionova|first6=Natalia A.|last7=Oskarsson|first7=Mattias|last8=Uhlén|first8=Mathias|last9=Zhang|first9=Ya-Ping|last10=Dalén|first10=Love|last11=Savolainen|first11=Peter}}</ref>
<ref name=ersmark2016>{{cite journal|doi=10.3389/fevo.2016.00134|title=From the Past to the Present: Wolf Phylogeography and Demographic History Based on the Mitochondrial Control Region|journal=Frontiers in Ecology and Evolution|volume=4|year=2016|last1=Ersmark|first1=Erik|last2=Klütsch|first2=Cornelya F. C.|last3=Chan|first3=Yvonne L.|last4=Sinding|first4=Mikkel-Holger S.|last5=Fain|first5=Steven R.|last6=Illarionova|first6=Natalia A.|last7=Oskarsson|first7=Mattias|last8=Uhlén|first8=Mathias|last9=Zhang|first9=Ya-Ping|last10=Dalén|first10=Love|last11=Savolainen|first11=Peter}}</ref>
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<ref name=Miao2016>{{cite journal|doi=10.1093/molbev/msw274|pmid=27927792|title=Genomic Analysis Reveals Hypoxia Adaptation in the Tibetan Mastiff by Introgression of the Grey Wolf from the Tibetan Plateau |journal=Molecular Biology and Evolution |volume=34|issue=3|pages=734–743 |year=2016 |last1=Miao|first1=B. |last2=Wang|first2=Z. |last3=Li|first3=Y. |url=https://zenodo.org/record/895655}}</ref>
<ref name=Miao2016>{{cite journal|doi=10.1093/molbev/msw274|pmid=27927792|title=Genomic Analysis Reveals Hypoxia Adaptation in the Tibetan Mastiff by Introgression of the Grey Wolf from the Tibetan Plateau |journal=Molecular Biology and Evolution |volume=34|issue=3|pages=734–743 |year=2016 |last1=Miao|first1=B. |last2=Wang|first2=Z. |last3=Li|first3=Y. |url=https://zenodo.org/record/895655}}</ref>

<ref name=pioneer2014>{{cite news |url=http://www.dailypioneer.com/state-editions/dehradun/snow-leopard-tibetan-wolf-sighted.html |title=Snow Leopard, Tibetan Wolf sighted |newspaper=The Pioneer, 15 February |year=2014}}</ref>


<ref name=Signore2019>{{cite journal |doi=10.1093/molbev/msz097|pmid=31362306 |pmc=6759075 |title=Adaptive Changes in Hemoglobin Function in High-Altitude Tibetan Canids Were Derived via Gene Conversion and Introgression |journal=Molecular Biology and Evolution |volume=36|issue=10 |pages=2227–2237 |year=2019 |last1=Signore|first1=A. V.|last2=Yang |first2=Y.-Z. |last3=Yang |first3=Q.-Y. |last4=Qin|first4=G. |last5=Moriyama |first5=H. |last6=Ge|first6=R.-L. |last7=Storz |first7=J. F.}}</ref>
<ref name=Signore2019>{{cite journal |doi=10.1093/molbev/msz097|pmid=31362306 |pmc=6759075 |title=Adaptive Changes in Hemoglobin Function in High-Altitude Tibetan Canids Were Derived via Gene Conversion and Introgression |journal=Molecular Biology and Evolution |volume=36|issue=10 |pages=2227–2237 |year=2019 |last1=Signore|first1=A. V.|last2=Yang |first2=Y.-Z. |last3=Yang |first3=Q.-Y. |last4=Qin|first4=G. |last5=Moriyama |first5=H. |last6=Ge|first6=R.-L. |last7=Storz |first7=J. F.}}</ref>

<ref name=smith2008>{{cite book |title=A Guide to the Mammals of China |publisher=Princeton University press |authors=Smith, A. T., Yan Xie, R. S. Hoffmann, D. Lunde, J. MacKinnon, D. E. Wilson, W. C. Wozencraft |volume= |edition=First |year=2008 |pages=416–418|url=https://books.google.com/books?id=ka-9f68nPT4C&pg=PA416 |isbn=978-0691099842}}</ref>

<ref name=wang2003>{{cite book|last1=Wang|first1=Yingxiang|title=A Complete Checklist of Mammal Species and Subspecies in China (A Taxonomic and Geographic Reference)|publisher=China Forestry Publishing House, Beijing, China |year=2003 |isbn=978-7503831317}}</ref>


<ref name=wang2015>{{cite journal|doi=10.1038/cr.2015.147|pmid=26667385|pmc=4816135|title=Out of southern East Asia: The natural history of domestic dogs across the world|journal=Cell Research |volume=26 |issue=1 |pages=21–33 |year=2015 |last1=Wang |first1=Guo-Dong |last2=Z. |first2=W. |last3=Yang |first3=H.-C. |last4=Wang |first4=L. |last5=Zhong |first5=L. |last6=Liu |first6=Y.-H. |last7=Fan|first7=R.-X. |last8=Yin |first8=T.-T. |last9=Zhu |first9=C.-L. |last10=Poyarkov |first10=A. D. |last11=Irwin |first11=D. M. |last12=Hytönen |first12=M. K. |last13=Lohi |first13=H. |last14=Wu |first14=C.-I. |last15=Savolainen |first15=P. |last16=Zhang |first16=Y.-P.}}</ref>
<ref name=wang2015>{{cite journal|doi=10.1038/cr.2015.147|pmid=26667385|pmc=4816135|title=Out of southern East Asia: The natural history of domestic dogs across the world|journal=Cell Research |volume=26 |issue=1 |pages=21–33 |year=2015 |last1=Wang |first1=Guo-Dong |last2=Z. |first2=W. |last3=Yang |first3=H.-C. |last4=Wang |first4=L. |last5=Zhong |first5=L. |last6=Liu |first6=Y.-H. |last7=Fan|first7=R.-X. |last8=Yin |first8=T.-T. |last9=Zhu |first9=C.-L. |last10=Poyarkov |first10=A. D. |last11=Irwin |first11=D. M. |last12=Hytönen |first12=M. K. |last13=Lohi |first13=H. |last14=Wu |first14=C.-I. |last15=Savolainen |first15=P. |last16=Zhang |first16=Y.-P.}}</ref>

Revision as of 08:54, 10 March 2020

Tibetan wolf
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Carnivora
Family: Canidae
Genus: Canis
Species:
C. lupus
Subspecies:
C. l. chanco[1]
Trinomial name
Canis lupus chanco[1]
Gray, 1863
Map showing the Chinese provinces (in red) in which C. l. filchneri is found
Synonyms

Lupus filchneri Matschie, 1907[2]

The Tibetan wolf (Canis lupus chanco) is a subspecies of the grey wolf that is native to China in the regions of Gansu, Qinghai, and the Tibet Autonomous Region. It is distinguished by its genetic markers, with whole genome sequencing indicating that it is the most genetically divergent wolf population.[3] Results of Mitochondrial DNA sequencing indicates that it is genetically the same wolf as the Himalayan wolf, which is genetically basal to the Holarctic grey wolf.[4][5][6] and has an association with the African golden wolf (Canis anthus).[5][6]

Taxonomy

Further information: Himalayan wolf § Taxonomy

Lineage

Phylogenetic tree of the extant wolf-like canids with timing in millions of years[a]
Caninae 3.5 Ma
3.0
2.5
2.0
0.96
0.60
0.38
0.11

African golden wolf northwestern Africa

African golden wolf eastern Africa

Golden jackal

Ethiopian wolf

Dhole

African wild dog

Blue shading represents the species Canis lupus

Studies using mitochondrial DNA (mDNA) indicate the Tibetan wolf to be genetically basal to the Holarctic gray wolf.[4][5][6] Its MT-ND4L gene commences with the base pairs GTG, whereas all other canids commence with ATG.[7] A whole genome study found it to be the most genetically divergent wolf population.[3]

In 2016, a whole genome study found that the Tibet population had shown decline over the past 25,000 years, however the Qinghai population had shown growth. The wolf's lineage had suffered a historical population bottleneck having only recently recolonized the Tibetan Plateau. Glaciation during the Last Glacial Maximum may have caused its habitat loss, genetic isolation then local adaptation, and there was evidence of ancient inbreeding. The study proposes that these are the reasons that the wolves from Tibet were the most genetically distinct. The Qinghai population showed gene flow from Chinese indigenous dogs of 16%. Gene flow from the Tibetan wolf forms 2% of the dingo's genome,[3] which likely represents ancient admixture in eastern Eurasia.[8][9][3]

Studies based on mDNA,[4] and on both mDNA and DNA taken from the cell nucleus,[5][6] indicate that the Himalayan wolf is genetically the same wolf as the Tibetan wolf. This wolf contrasts with the wolves found in the lower altitudes of Inner Mongolia, Mongolia, and the Xinjiang province of China (Mongolian wolf).[6] A further analysis based on single-nucleotide polymorphisms indicates that this wolf possesses a genetic adaptation to help it cope with living in low-oxygen high altitude habitats. This adaptation could not be found in the Holarctic grey wolf.[6][10] Some specimens found from as far away as China and Mongolia also fell within a Himalayan/Tibetan wolf clade, indicating a common maternal ancestor and a wider genetic distribution of this wolf.[4] There was evidence of hybridization with the grey wolf at Sachyat-Ertash in the Issyk-Kul region of Kyrgyzstan, and of introgression from either the grey wolf or the dog into the Himalayan wolf in Nepal.[6]

Admixture with the Tibetan mastiff

The Tibetan Mastiff was able to adapt to the extreme highland conditions of the Tibetan Plateau very quickly compared to other mammals such as the yak, Tibetan antelope, snow leopard, and the wild boar. The Tibetan Mastiff's ability to avoid hypoxia in high altitudes, due to its higher hemoglobin levels compared to low-altitude dogs, was due to prehistoric interbreeding with the Tibetan wolf.[11][12]

Description

Further information: Himalayan wolf § Description

Distribution and habitat

Further information: Himalayan wolf § Distribution and habitat

Relationship with humans

A Tibetan wolf killed during the 1938 German expedition into Tibet. Note the proportionately short legs.

Historical sources indicate that wolves occasionally killed children in Ladakh and Lahoul.[13] Within the proposed Gya-Miru Wildlife Sanctuary in Ladakh, the intensity of livestock depredation was assessed in three villages. The assessment found that Tibetan wolves were the most important predators accounting for 60% of the total livestock losses, followed by the snow leopard and Eurasian lynx. The most frequent prey were domestic goats (32%), followed by sheep (30%), yaks (15%), and horses (13%). The wolves killed horses significantly more, and goats less, than would be expected from their relative abundance.[14]

Conservation

China's wolf population largely lives in areas where little human-influenced change has occurred - the Qinghai–Tibet Plateau, the Mongolia Plateau, and the northeast Plain. In 2003, an estimated 12,500 wolves were living in China. In 2015, wolves were listed as a vulnerable species in the Red List of China’s Vertebrates, with all hunting being banned for this legally protected animal.[15][16]

Notes

  1. ^ For a full set of supporting references refer to the note (a) in the phylotree at Evolution of the wolf#Wolf-like canids

References

  1. ^ Wilson, D. E.; Reeder, D. M., eds. (2005). "Subspecies Canis lupus chanco". Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. p. 576. ISBN 978-0-8018-8221-0. OCLC 62265494.
  2. ^ Matschie, P. (1908). "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. {{cite book}}: External link in |chapterurl= (help); Unknown parameter |chapterurl= ignored (|chapter-url= suggested) (help)
  3. ^ a b c d Fan, Zhenxin; Silva, Pedro; Gronau, Ilan; Wang, Shuoguo; Armero, Aitor Serres; Schweizer, Rena M.; Ramirez, Oscar; Pollinger, John; Galaverni, Marco; Ortega Del-Vecchyo, Diego; Du, Lianming; Zhang, Wenping; Zhang, Zhihe; Xing, Jinchuan; Vilà, Carles; Marques-Bonet, Tomas; Godinho, Raquel; Yue, Bisong; Wayne, Robert K. (2016). "Worldwide patterns of genomic variation and admixture in gray wolves". Genome Research. 26 (2): 163–73. doi:10.1101/gr.197517.115. PMC 4728369. PMID 26680994.
  4. ^ a b c d Ersmark, Erik; Klütsch, Cornelya F. C.; Chan, Yvonne L.; Sinding, Mikkel-Holger S.; Fain, Steven R.; Illarionova, Natalia A.; Oskarsson, Mattias; Uhlén, Mathias; Zhang, Ya-Ping; Dalén, Love; Savolainen, Peter (2016). "From the Past to the Present: Wolf Phylogeography and Demographic History Based on the Mitochondrial Control Region". Frontiers in Ecology and Evolution. 4. doi:10.3389/fevo.2016.00134.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  5. ^ a b c d Werhahn, G.; Senn, H.; Kaden, J.; Joshi, J.; Bhattarai, S.; Kusi, N.; Sillero-Zubiri, C.; MacDonald, D. W. (2017). "Phylogenetic evidence for the ancient Himalayan wolf: Towards a clarification of its taxonomic status based on genetic sampling from western Nepal". Royal Society Open Science. 4 (6): 170–186. Bibcode:2017RSOS....470186W. doi:10.1098/rsos.170186. PMC 5493914. PMID 28680672.
  6. ^ a b c d e f g Werhahn, G.; Senn, H.; Ghazali, M.; Karmacharya, D.; Sherchan, A. M.; Joshi, J.; Kusi, N.; López-Bao, J. V.; Rosen, T.; Kachel, S.; Sillero-Zubiri, C.; MacDonald, D. W. (2018). "The unique genetic adaptation of the Himalayan wolf to high-altitudes and consequences for conservation". Global Ecology and Conservation. 16: e00455. doi:10.1016/j.gecco.2018.e00455.
  7. ^ Zhao, C.; Zhang, H.; Zhang, J.; Chen, L.; Sha, W.; Yang, X.; Liu, G. (2014). "The complete mitochondrial genome sequence of the Tibetan wolf (Canis lupus laniger)". Mitochondrial DNA. 27 (1): 7–8. doi:10.3109/19401736.2013.865181. PMID 24438245.
  8. ^ Freedman, Adam H.; Gronau, Ilan; Schweizer, Rena M.; Ortega-Del Vecchyo, Diego; Han, Eunjung; Silva, Pedro M.; Galaverni, Marco; Fan, Zhenxin; Marx, Peter; Lorente-Galdos, Belen; Beale, Holly; Ramirez, Oscar; Hormozdiari, Farhad; Alkan, Can; Vilà, Carles; Squire, Kevin; Geffen, Eli; Kusak, Josip; Boyko, Adam R.; Parker, Heidi G.; Lee, Clarence; Tadigotla, Vasisht; Siepel, Adam; Bustamante, Carlos D.; Harkins, Timothy T.; Nelson, Stanley F.; Ostrander, Elaine A.; Marques-Bonet, Tomas; Wayne, Robert K.; et al. (2014). "Genome Sequencing Highlights the Dynamic Early History of Dogs". PLOS Genetics. 10 (1): e1004016. doi:10.1371/journal.pgen.1004016. PMC 3894170. PMID 24453982.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  9. ^ Wang, Guo-Dong; Z., W.; Yang, H.-C.; Wang, L.; Zhong, L.; Liu, Y.-H.; Fan, R.-X.; Yin, T.-T.; Zhu, C.-L.; Poyarkov, A. D.; Irwin, D. M.; Hytönen, M. K.; Lohi, H.; Wu, C.-I.; Savolainen, P.; Zhang, Y.-P. (2015). "Out of southern East Asia: The natural history of domestic dogs across the world". Cell Research. 26 (1): 21–33. doi:10.1038/cr.2015.147. PMC 4816135. PMID 26667385.
  10. ^ Zhang, W.; Fan, Z.; Han, E.; Hou, R.; Zhang, L.; Galaverni, M.; Huang, J.; Liu, H.; Silva, P.; Li, P.; Pollinger, J. P.; Du, L.; Zhang, X.; Yue, B.; Wayne, R. K.; Zhang, Z. (2014). "Hypoxia Adaptations in the Grey Wolf (Canis lupus chanco) from Qinghai-Tibet Plateau". PLOS Genetics. 10 (7): e1004466. doi:10.1371/journal.pgen.1004466. PMC 4117439. PMID 25078401.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  11. ^ Miao, B.; Wang, Z.; Li, Y. (2016). "Genomic Analysis Reveals Hypoxia Adaptation in the Tibetan Mastiff by Introgression of the Grey Wolf from the Tibetan Plateau". Molecular Biology and Evolution. 34 (3): 734–743. doi:10.1093/molbev/msw274. PMID 27927792.
  12. ^ Signore, A. V.; Yang, Y.-Z.; Yang, Q.-Y.; Qin, G.; Moriyama, H.; Ge, R.-L.; Storz, J. F. (2019). "Adaptive Changes in Hemoglobin Function in High-Altitude Tibetan Canids Were Derived via Gene Conversion and Introgression". Molecular Biology and Evolution. 36 (10): 2227–2237. doi:10.1093/molbev/msz097. PMC 6759075. PMID 31362306.
  13. ^ Pocock, R. I. (1941). "Canis lupus chanco". Fauna of British India: Mammals. Vol. 2. London: Taylor and Francis. pp. 86–90. {{cite book}}: External link in |chapterurl= (help); Unknown parameter |chapterurl= ignored (|chapter-url= suggested) (help)
  14. ^ Namgail, T.; Fox, J.L.; Bhatnagar, Y.V. (2007). "Carnivore-Caused Livestock Mortality in Trans-Himalaya". Environmental Management. 39 (4): 490–496. doi:10.1007/s00267-005-0178-2. PMID 17318699.
  15. ^ Xu, Y.; Yang, B.; Dou, L. (2015). "Local villagers' perceptions of wolves in Jiuzhaigou County, western China". PeerJ. 3: e982. doi:10.7717/peerj.982. PMC 4465947. PMID 26082870.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  16. ^ Fang, Hongxia; Ping, Xaiong (2016). "Red List of China's Vertebrates". Biodiversity Science. 24 (5): 500–551. doi:10.17520/biods.2016076.Canis lupus status=NT (Near Threatened)
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