Paltsyn, M., Spitsyn, S.V., Kuksin, A. N., Istomov, S.V. (2012). Snow Leopard Conservation in Russia.
Abstract: This publication reviews potential actions for the long-term conservation of
snow leopards and their habitat in Russia in conditions of anthropogenic influence
and climate change in high elevation ecosystems. This edition is the result
of many years of research conducted in the framework of WWF’s “Ensuring the
long term protection of biodiversity in the Altai-Sayan Ecoregion” (1998-2011)
and the United Nations Development Program (UNDP) financed by the Global
Environment Facility “Conservation of Biodiversity in the Russian portion Altai-
Sayan Ecoregion” (2005-2010).
The publication contains materials needed to prepare a Russian Snow Leopard
Conservation Strategy and was prepared for use by the Russian Ministry
of Natural Resources to develop comprehensive priority conservation measures
to protect this species. In addition, this publication is intended for protected
area specialists and staff at federal and regional government agencies
responsible for the conservation and monitoring of species listed in the
Russian Federation Red Book.
Reviewer: B. Munkhtsog, Candidate in Biological Sciences, staff scientist at
the Institute for Biology, Mongolian Academy of Sciences, and president of the
Mongolian Snow Leopard Center.
Translation to English: J. Castner.
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Ferretti, F., Lovari, S. (2016). Predation may counteract climatic change as a driving force for movements of mountain ungulates.
Abstract: Temperature variations are expected to influence altitudinal movements of mountain herbivores and, in
turn, those of their predators, but relevant information is scarce. We evaluated monthly relationships
between temperature and altitude used by a large mountain-dwelling herbivore, the Himalayan tahr
Hemitragus jemlahicus, and its main predator, the snow leopard Panthera uncia, in an area of central
Himalaya for five consecutive years (2006–2010). In contrast to expectations, there was no significant
direct relationship between altitude of tahr sightings and temperature. The mean altitude of tahr sightings
decreased by c. 200 m throughout our study. As expected, snow leopard movements tracked those of tahr,
although the core area of the snow leopard did not move downwards. Tahr remained the staple of the
snow leopard diet: we suggest that the former did not move upwards in reaction to higher temperature
to avoid encounters with the latter. Avoidance of competition with the larger common leopard Panthera
pardus at lower altitudes could explain why snow leopards did not shift their core area downwards.
Apparently, interspecific interactions (predation; competition) influenced movements of Himalayan tahr
and snow leopards more than climatic variations.
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Mishra, C., & Fitzherbert, A. (2004). War and wildlife: a post-conflict assessment of Afghanistan's Wakhan Corridor. Oryx, 38(1), 102–105.
Abstract: Prior to the last two decades of conflict, Afghanistan's Wakhan Corridor was considered an important area for conservation of the wildlife of high altitudes. We conducted an assessment of the status of large mammals in Wakhan after 22 years of conflict, and also made a preliminary assessment of wildlife trade
in the markets of Kabul, Faizabad and Ishkashem. The survey confirmed the continued occurrence of at least eight species of large mammals in Wakhan, of which the snow leopard Uncia uncia and Marco Polo sheep Ovis ammon are globally threatened. We found evidence of human-wildlife conflict in Wakhan due to livestock depredation by snow leopard and wolf Canis lupus. Large mammals are hunted for meat, sport, fur, and in retaliation against livestock depredation. The fur trade in Kabul is a threat to the snow leopard, wolf, lynx Lynx lynx and common leopard Panthera pardus.
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Zhiryakov V.A. (1990). The Almaty nature reserve.
Abstract: It provides general information about the Almatya nature reserve (Kazakhstan), its physico-geographical features and description of flora and fauna. Snow leopard inhabits alpine zone and goes down as low as forest-meadow zone following ibex in winter. There are two or three families of snow leopard in the nature reserve. The population of ibex is 600 700 animals.
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Han, X. M., D. G., Zhang, E., Jones, M., and Jin, T.. (2001). Far eastern leopard and Siberian tiger conservation measures. (pp. 102–103). Harbin: Widlife Conservation Society.
Abstract: Workshop to develop a recovery plan for the wild north China tiger population. October 20th to 23th, 2000, Harbin.
Like the Siberian Tiger, the Far Eastern Leopard is one of China's largest Felidae and lives mainly in the eastern mountains of Jilin Province. The number of leopards is very low and it is even more endangered than the tiger. There is a very close relationship between leopard and tiger conservation, especially in areas where overlap occurs. In these areas, special emphasis has to be placed on each of the species' specific conservation needs. There is urgent need to step up our efforts to study and monitor leopard populations and to develop a conservation strategy. This document contains information of the status and main threats of the Far Eastern leopard and makes recommendations on needed conservation measures.
Keywords: CCT, conservation, conservation needs, conservation strategy, distribution, Jilin Province, leopard, monitoring, Panthera pardus, Panthera tigris, poaching, recovery, Recovery plan, snow
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Hochstrasser, K., Wachter, E., Reisinger, P. W., Greim, M., Albrecht, G. J., & Gebhard, W. (1993). Amino acid sequences of mammalian kazal-type proteinase inhibitors from salivary glands. Comp Biochem Physiol B, 106(1), 103–108.
Abstract: 1. The amino acid sequences of bikazins (the double-headed Kazal-type proteinase inhibitors from submandibular glands) isolated from the snow leopard (Unica unica), the European mink (Mustela lutreola), and the European pine marten (Martes martes) were determined. 2. N-terminal domains of bikazins are characterized by a cysteine residue spacing that differs from that of C-terminal domains of bikazins and other Kazal-type proteinase inhibitor domains. 3. N-terminal sequences of bikazins seem to be specific for, and highly conserved within, each Carnivora family.
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Malik, M. M. (1985). Management of Chitral Gol National Park, Pakistan. In J. A. McNeely, J. W. Thorsell, & Chalise S.R. (Eds.), People and protected areas in the Hindu Kush – Himalaya (pp. 103–106). Kathmandu, Nepal: King Mahendra for Natura Conservation and Integrated Centre for Mountain Development.
Abstract: Notes snow leopard is only a visitor and no longer a resident in Chitral Gol
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O'Connor, T., & Freeman, H. (1982). Maternal behavior and behavioral development in the captive snow leopard (Panthera uncia). In L. Blomqvist (Ed.), International Pedigree Book of Snow Leopards, Vol. 3 (Vol. 3, pp. 103–110). Helsinki: Helsinki Zoo.
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Ziegelmayer, K. Tourism and Development: Implications for Snow Leopard Conservation in the Annapurna Conservation Area, Nepal. Yale F & ES Bulletin, , 103.
Abstract: The Annapurna Conservation Area was established in 1986 to manage environmental degradation. Its designation as a “conservation area,” as opposed to a “park,” was based on the World Wildlife Fund’s Integrated Conservation and Development approach. The goal was to maintain positive relations with indigenous people while protecting and conserving the area’s rich natural resources. The indigenous population was allowed to live in the designated area, and was also encouraged to take a partnership role in its management and sustainable development, in conjunction with the Annapurna Conservation Area Project management team. Though the Annapurna Conservation Area Project has achieved notable success in terms of both community development and protected area management, the focus on tourism (the area is Nepal’s most popular trekking destination) as the means to achieve the project’s development goals has led to a neglect of other stated goals, particularly wildlife conservation. The program lacks explicit linkages between wildlife conservation (e.g., the endangered snow leopard (Unica unica)) and community development, for example. This paper describes and analyzes how the project has handled snow leopard conservation. Alternative approaches for snow leopard conservation include coercive enforcement by the Department of National Parks and Wildlife Conservation, persuasive environmental education and outreach, agricultural extension assistance, from monetary compensation for livestock killed to monetary rewards for information on snow leopard poaching. I recommend several alternatives to improve snow leopard conservation. First, establish stronger and more formal links between the Annapurna Conservation Area Project and the Department of National Parks and Wildlife Conservation. The department has the legal authority to enforce the endangered species policy that protects snow leopards, but no physical presence within the conservation area. Second, agricultural outreach could provide the subsistence pastoralists with direct economic gains while reducing snow leopard depredation of livestock. This alternative fits well with the development philosophy of the Annapurna Conservation Area Project. Third, increase entrance fees, setting aside a portion for snow leopard conservation. This allows tourists, who value the snow leopard positively, to share in the cost of its conservation. Taken together, these alternatives will improve snow leopard conservation while maintaining the spirit and philosophy of the Annapurna Conservation Area Project.
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Begg, T. (1978). Nutritional bone disease in the snow leopard. In L. Blomqvist (Ed.), International Pedigree Book of Snow Leopards, Vol. 1 (Vol. 1, pp. 104–107). Helsinki: Helsinki Zoo.
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