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| Author |
Maheshwari, A., Sharma, D., Sathyakumar, S. |
Title  |
Snow Leopard (Panthera Uncia) surveys in the Western Himalayas, India |
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Journal Article |
| Year |
2013 |
Publication |
Journal of Ecology and Natural Environmnet |
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5 |
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10 |
Pages |
303-309 |
| Keywords |
Conflict, Himalayas, livestock depredation, prey, snow leopard, habitat, Uttarakhand. |
| Abstract |
We conducted surveys above 3000 m elevation in eight protected areas of Uttarakhand and Himachal Pradesh. These surveys provide new information on snow leopard in Uttarakhand on the basis of indirect evidence such as pugmark and scat. Snow leopard evidence (n = 13) were found between 3190 and 4115 m elevation. On an average, scats (n = 09) of snow leopard were found for every 56 km walked and pugmarks (n = 04) for every 126 km walked. Altogether, about 39% of the evidence were found on the hill-slope followed by valley floor (30%), cliff (15%) and 8% from both stream bed and scree slope. Genetic analysis of the scats identified three different individuals by using snow leopard specific primers. Snow leopard-human conflicts were assessed through questionnaire based interviews of shepherds from Govind Pashu Vihar Wildlife Sanctuary, Askot Wildlife Sanctuary and Nanda Devi Biosphere Reserve areas of Uttarakhand. Surveys revealed that livestock depredation (mule, goat and sheep) is the only cause of snow leopard-human conflicts and contributed 36% of the diet of snow leopard. Blue sheep and rodents together comprised 36.4% of the total diet. We found that 68.1% of the surveyed area was used for pastoral activities in Uttarakhand and Himachal Pradesh and 12.3% area was under tourism, defence and developmental activities. |
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| Call Number |
SLN @ rakhee @ |
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1401 |
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| Author |
Roth, T.L.; Swanson, W.F.; Wildt, D.E.; Collins, D.; Burton, M.; Garell, D.M. |
| Title |
Snow leopard (Panthera uncia) spermatozoa are sensitive to alkaline pH, but motility in vitro is not influenced by protein or energy supplements |
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Miscellaneous |
| Year |
1996 |
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Journal of Andrology |
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17 |
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558-566 |
| Keywords |
Felid,comparative biology,sperm culture medium,sperm function,capacitation,sodium bicarbonate. |
| Abstract |
To better understand the biology of snow leopard spermatozoa and to facilitate developing assisted reproduction, a series of studies was conducted to: 1) identify the component(s) of complex culture media responsible for the detrimental effect on sperm survival in vitro, 2) optimize medium for supporting sperm viability, and 3) evaluate sperm capacitation in vitro. Constituents of complex media were added systematically to phosphate-buffered saline (PBS) to isolate the factor(s) influencing snow leopard sperm motility in vitro. Sperm capacitation was also assessed following incubation in PBS with bovine serum albumin (BSA), fetal calf serum (FCS), or heparin. For maintaining sperm motility, there was no benefit (P ? 0.05) to supplementing PBS with low (5%) or high (20%) concentrations of snow leopard serum (SLS) versus FCS or BSA. Likewise, adding supplemental energy substrates (pyruvate, glucose, lactate, or glutamine) did not enhance or hinder (P ? 0.05) sperm motility. However, motility rapidly decreased (P < 0.05) with the addition of NaHCO3 to PBS or Ham's F10 nutrient mixture. Surprisingly, Ham's F10 with no buffering component or with both NaHCO3 and N-Z-hydroxyethylpiperazine-N'-2- ethanesulfonic acid (HEPES) maintained sperm motility at levels similar (P ? 0.05) to PBS. Although sperm motility in all treatments decreased with time, there was a strong inverse relationship (P < 0.01; r = 0.90) between motility and sample pH at 6 hours. Spermatozoa incubated in PBS containing FCS, BSA, or heparin did not undergo the acrosome reaction when exposed to calcium ionophore. In summary, alkaline pH has a profound detrimental effect on snow leopard sperm motility, and capacitation does not occur under conditions that normally promote this event in other felid species. These results clearly demonstrate a high degree of interspecific variation among felids in fundamental sperm function, and they provide evidence for the necessity of basic research when developing assisted reproduction in little-studied nondomestic species. |
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SLN @ rana @ 897 |
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831 |
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Krofel, M., Groff, C., Oberosler, V., Augugliaro, C., Rovero, F. |
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Snow leopard (Panthera uncia) predation and consumption of an adult yak in the Mongolian Altai. |
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Note |
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2021 |
Publication |
Ethology Ecology & Evolution |
Abbreviated Journal |
EEE |
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1-8 |
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The snow leopard (Panthera uncia) is an apex predator of mountainous ecosystems in Central Asia, characterised by relatively long feeding times and low kill rates (Johansson et al. 2015; Mallon et al. 2016). Predation is mainly focused on wild ungulates and the vast majority of animals killed by snow leopards are smaller than 100 kg (Lovari et al. 2013). Throughout most of their range, Siberian ibex (Capra sibirica), blue sheep (Pseudois nayaur), and argali (Ovis ammon) represent the most important prey (Hunter 2015). These species weigh up to 180 kg, which was suggested to be near the maximum limit of the prey size that snow leopard can handle (i.e. about 3 times its size) (e.g. Schaller 1977; Hunter 2015). Accordingly, researchers generally assume that prey like adult yaks (Bos grunniens) with an average body weight of 250 kg (Bagchi & Mishra 2006), are too large to be killed by snow leopards (e.g. Devkota et al. 2013; Chetri et al. 2017). In contrast, local livestock herders report that snow leopard can also kill larger prey, including adult yaks (e.g. Li et al. 2013; Suryawanshi et al. 2013), but confirmed records of snow leopard killing prey of this size appear to be lacking in the literature. We also have very limited knowledge about the consumption of snow leopard kills, and the scavengers, including conspecifics, that are using them (Fox & Chundawat 2016; Schaller 2016). Here we report on a predation event and the following consumption process of a snow leopard kill, a free-roaming adult female yak, which we studied in 2019 using snow tracking, direct observation and camera trapping in the Mongolian Altai. |
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1634 |
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| Author |
Weckworth, B. |
| Title |
Snow Leopard (Panthera uncia) Genetics: The Knowledge Gaps, Needs, and Implications for Conservation |
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Journal Article |
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2021 |
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Journal of the Indian Institute of Science |
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1-12 |
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Conservation geneticists apply genetic theory and techniques to preserve endangered species as dynamic entities, capable of coping with environmental change and thus minimizing their risk of extinction. Snow leopards are an umbrella species of High Asia, and a keystone for maintaining biodiversity within this fragile ecosystem. A clear understanding of patterns of snow leopard genetic diversity is critical for guiding conservation initiatives that will ensure their long-term persistence. Yet, a comprehensive analysis of snow leopard genetic variation is lacking. The number of published snow leopard genetic studies is far fewer than for other imperiled big cats. Here, I review the limited genetic work to date on snow leopards and the significant knowledge gaps to be filled. An emphasis must be placed on describing and understanding population genetic dynamics within and among meta-populations to provide information about the interactions between landscapes and the micro-evolutionary processes of gene flow and genetic drift. These results can be used to evaluate the levels and dynamics of genetic and demographic connectivity. A lack of connectivity, particularly in the low density, small populations that typify snow leopards, can lead to multiple demographic and genetic consequences, including inbreeding depression, loss of adaptive potential, and heightened susceptibility to demographic and environmental stochasticity. New efforts in conservation research on snow leopards should focus on this line of inquiry, and the opportunities and challenges for that are outlined and discussed to encourage the required, and considerable, transboundary partnerships and collaborations needed to be successful. |
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1639 |
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| Author |
Bannikov A.G. |
| Title |
Snow leopard (irbis). Felis uncia |
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Miscellaneous |
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1973 |
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44 |
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Ussr; snow leopard; distribution; life history; threats.; 6150; Russian |
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Irbis is distributed in highlands of Kazakhstan, Kyrgyzstan, Tajikistan, and Altai. It preys mainly on wild sheep and ibex, marmots, pica, snow-cock, rarer other ungulates, rodents and birds. Sometimes it attacks domestic sheep. At the beginning of spring this species is on heat, gestation period being 90 100 days. Female bears two three (to five) cubs. The litter splits in one year. The animal sheds hair twice a year. It has a low population and therefore hunting for snow leopard is prohibited. |
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Full text available in RussianJournal Title: Game animals and birds of the USSR. Reference book and identifier. |
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SLN @ rana @ 593 |
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114 |
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Esipov A.V. |
| Title |
Snow Leopard (Irbis) |
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Miscellaneous |
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2003 |
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Vol. II. Animals. |
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218-219 |
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Uzbekistan; Red Data book; category of threat; number; distribution; threats; snow leopard.; 6650; Russian |
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Critically Endangered l (CR C2a(i); D), locally distributed western subspecies of Central Asian species. It occurs in Western Tien Shan and Western Pamir Alay. It inhabits middle and high belts of the mountains. It prefers watersheds and rocky talus slopes. It never was numerous; last decades the numbers have been decreasing. In 1980's-1990's in Hissar nature reserve 5-11 individuals were counted, in 1970's-1980's in Chatkal nature reserve the 1-3 specimens were observed. Perhaps, total number is 20-30 individuals. The threats are development of high mountain pastures, decreasing of prey numbers, human persecution and poaching. Included in the IUCN Red List [EN] and in Appendix I of CITES. |
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Full text available in RussianJournal Title: Red Data Book of Republic of Uzbekistan. |
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SLN @ rana @ 643 |
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259 |
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Bogdanov O.P. |
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Snow leopard (Felis uncia) |
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Miscellaneous |
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1961 |
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246-247 |
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Uzbekistan; snow leopard; distriburion; life history; diet; use.; 6360; Russian |
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In Uzbekistan, this species is distributed in spurs of Tien Shan and Gissar. It preys on ibex, rarer on argalis, roe-deers, young wild boars. In winter, it attacks livestock and sometimes feeds upon marmots and smaller rodents. Snow leopard attacks man very rarely, only when wounded. The economic significance of this species is low, since only few skins are traded. Its dressed skins are used as rugs. |
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Full text available in RussianJournal Title: Animals of Uzbekistan. |
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no |
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SLN @ rana @ 614 |
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183 |
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| Author |
Abdunazarov B.B. |
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Snow Leopard |
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Miscellaneous |
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2003 |
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6 |
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Uzbekistan; Cites; snow leopard.; 5780; Russian |
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Snow leopard (Uncia uncia) listed in Red Data Book of Republic of Uzbekistan (2003) and Appendix II CITES. |
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Full text available in RussianJournal Title: Guide of Animals listed in CITES. |
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SLN @ rana @ 558 |
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24 |
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Aizin B.M. |
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Snow leopard |
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Miscellaneous |
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1985 |
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22-23 |
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Kyrgyzstan; Red Data book; snow leopard; status; distribution; biology; number; fluctuation; protection.; 5930; Russian |
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Snow leopard is a rare and endangered species, distributed in all mountain ridges of Kyrgyzstan. Its population is 1,400 animals, density being 0.2 0.5 animal per 1,000 ha. Its population was noticed to decrease in some ridges because of decreasing populations of mountain ungulates. 200 snow leopards were caught for the purpose of zoo-export over the last 20 years. This species is protected in the nature reserves Sary Chelek, Besh Aral, and natural park Ala Archa. |
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Full text available in RussianJournal Title: Red Data Book of the Kyrgyz SSR. |
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SLN @ rana @ 572 |
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47 |
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| Author |
Grachev Yu.A. |
| Title |
Snow leopard |
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Miscellaneous |
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1996 |
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Vol.1.Animals. Part 1.Vertebrates. |
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246-247 |
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Kazakhstan; Red Data book; category of threat; distribution; number; conservation measure; captive breeding; snow leopard.; 6810; Russian |
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Status: rare (Category III). Distribution: Tien Shan mountains, Tarbagatai, Saur and Altai mountains. Total number in Kazakhstan does not exceed 200 individuals. The main threats are poaching and reduction number of preys. In Almaty Zoo captive breeding was successful in 1976 and 1985. Snow leopard is protected in Aksu Jabagly, Almaty and Markakol nature reserves. To ensure the survival of the species it is necessary to establish a reserve in Dzhungar mountains and to improve protection in existing nature reserves. |
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Full text available in RussianJournal Title: The Red data book of Kazakhstan. |
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SLN @ rana @ 659 |
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343 |
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