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Author Li, J., Weckworth, B. V., McCarthy, T. M., Liang, X., Liu, Y., Xing, R., Li, D., Zhang, Y., Xue, Y., Jackson, R., Xiao, L., Cheng, C., Li, S., Xu, F., Ma, M., Yang, X., Diao, K., Gao, Y., Song, D., Nowell, K., He, B., Li, Y., McCarthy, K., Paltsyn, M. Y., Sharma, K., Mishra, C., Schaller, G. B., Lu, Z., Beissinger, S. R.
Title Defining priorities for global snow leopard conservation landscapes Type Journal Article
Year 2019 Publication Biological Conservation Abbreviated Journal
Volume 241 Issue 108387 Pages 1-10
Keywords Panthera uncia, Conservation prioritization, Landscape Conservation Unit, Connectivity, Linkage
Abstract (up) The snow leopard (Panthera uncia) is an apex predator on the Tibetan Plateau and in the surrounding mountain ranges. It is listed as Vulnerable in the IUCN's Red List. The large home range and low population densities of this species mandate range-wide conservation prioritization. Two efforts for range-wide snow leopard conservation planning have been conducted based on expert opinion, but both were constrained by limited knowledge and the difficulty of evaluating complex processes, such as connectivity across large landscapes. Here, we compile > 6000 snow leopard occurrence records from across its range and corresponding environmental covariates to build a model of global snow leopard habitat suitability. Using spatial prioritization tools, we identi!ed seven large continuous habitat patches as global snow leopard Landscape Conservation Units (LCUs). Each LCU faces differing threat levels from poaching, anthropogenic development, and climate change. We identi!ed ten po- tential inter-LCU linkages, and centrality analysis indicated that Tianshan-Pamir-Hindu Kush-Karakorum, Altai, and the linkage between them play a critical role in maintaining the global snow leopard habitat connectivity.
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Notes Approved no
Call Number SLN @ rakhee @ Serial 1490
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Author Jain, N.; Wangchuk, R.; Jackson, R.
Title An Assessment of CBT and Homestay Sites in Spiti District, Himachal Pradesh Type Report
Year 2003 Publication Abbreviated Journal
Volume Issue Pages 1-14
Keywords assessment; Himachal; himachal pradesh; Himachal-Pradesh; United; Organization; survey; Report; activities; activity; mountain; Tmi; snow; snow leopard; snow-leopard; Snow Leopard Conservancy; leopard; Ladakh; States; India; Himalayan; program; conservation; local; livelihood; asia
Abstract (up) The survey described in this report builds upon prior CBT activities undertaken by The Mountain Institute (TMI) in partnership with the Snow Leopard Conservancy (SLC) in Ladakh, supported by a grant from UNESCO (with co-financing from SLC). Under the evolving concept of “Himalayan Homestays”, initially developed and tested in Ladakh, it is proposed that activities be expanded to selected states in India in a strategic and effective way. Himalayan Homestays are part of a larger integrated program to link snow leopard conservation with local livelihoods in Asia.
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Area Expedition Conference
Notes Supported by: United Nations Educational, Scientific and Cultural Organization (UNESCO) Approved no
Call Number SLN @ rana @ 1019 Serial 483
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Author Jackson, R.
Title Snow Leopard Status, Distribution, and Protected Areas Coverage Type Conference Article
Year 2002 Publication Abbreviated Journal
Volume Issue Pages
Keywords snow; leopard; status; distribution; range; China; Bhutan; conservation; protection; protected; protect; areas; Afghanistan; Nepal; Ussr; population; kyrgystan; Pakistan; Uzbekistan; Kazakhstan; Tajikistan; 4980
Abstract (up) This document reports on the status, distribution and protected areas coverage for snow leopard across its range in Central Asia. It is intended to aid in updating the existing knowledge base of snow leopard status and distribution during the Snow Leopard Survival Strategy (SLSS) Workshop organized by the International Snow Leopard Trust (ISLT), and to be held in Seattle on May 21-25, 2002. The SLSS workshop provides an unique opportunity to solicit feedback from scientists,

conservation organizations, government agencies and knowledgeable experts in order to:

(1) Verify the accuracy of information presented in this document (much of which was published 5-10 years ago) and to identify data gaps, especially with respect to population size and protectedareas coverage for this species;

(2) Aid organizations in developing tightly targeting conservation actions by identifying critical snow leopard areas, parks and reserves, and by implication, the intervening linking corridors linking key protected areas;

(3) Serve as a catalyst for encouraging range-countries to conduct field surveys into snow leopard status and distribution, especially in those areas deemed the most important to the maintenance of a viable metapopulation across the 12 countries in which the species' occurs.
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Publisher Islt Place of Publication Islt Editor
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Notes Title, Monographic: Proceedings of the Snow Leopard Survival SummitPlace of Meeting: Seattle,WA Approved no
Call Number SLN @ rana @ 484 Serial 470
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Author Jackson, R.; Roe, J.; Wangchuk, R.; Hunter, D.
Title Surveying Snow Leopard Populations with Emphasis on Camera Trapping: A Handbook Type Book Whole
Year 2005 Publication Abbreviated Journal
Volume Issue Pages 1-73
Keywords snow; snow leopard; snow-leopard; leopard; survey; conservation; populations; population; camera; camera trapping; trapping; Chinese
Abstract (up) This handbook provides an introduction to snow leopard population survey techniques, followed by a detailed account of camera trapping methods.During the 2002 through 2004 winter field seasons, the Snow Leopard Conservancy experimented with infrared camera trapping techniques to define a methodology suitable for the high altitude environment.

In 2001 and 2002, much of our time was spent familiarizing ourselves with various infrared camera traps, their operation and setup, and comparing the effectiveness of different models and sensor types. We placed infrared camera traps along frequently used travel corridors at or near scent-sprayed rocks (rock scents) and scrape sites within 16 km2 sampling cells between January and March in 2003 and 2004. A total of 66 and 49 captures of snow leopards were tallied during 2003 and 2004, resulting in an overall capture success of 8.91 and 5.63 individuals per 100 trap-nights, respectively. Capture probabilities ranged from 0.33 to 0.46. Density estimates ranged from 8.49 ± 0.22 individuals per 100 km2 in 2003 to 4.45 ± 0.16 in 2004, with the disparity between years largely attributed to different trapping densities. Snow leopard abundance estimates were calculated using the computer program CAPTURE.
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Publisher The Snow Leopard Conservancy Place of Publication Sonoma, California Editor
Language Chinese Summary Language Original Title
Series Editor Series Title Abbreviated Series Title
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Notes Chinese translation. Approved no
Call Number SLN @ rana @ 1015 Serial 473
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Author Jackson, R.; Roe, J.; Wangchuk, R.; Hunter, D.
Title Surveying Snow Leopard Populations with Emphasis on Camera Trapping: A Handbook Type Book Whole
Year 2005 Publication Abbreviated Journal
Volume Issue Pages 1-73
Keywords snow; snow leopard; snow-leopard; leopard; populations; population; camera; camera trapping; trapping
Abstract (up) This handbook provides an introduction to snow leopard population survey techniques, followed by a detailed account of camera trapping methods.During the 2002 through 2004 winter field seasons, the Snow Leopard Conservancy experimented with infrared camera trapping techniques to define a methodology suitable for the high altitude environment.

In 2001 and 2002, much of our time was spent familiarizing ourselves with various infrared camera traps, their operation and setup, and comparing the effectiveness of different models and sensor types. We placed infrared camera traps along frequently used travel corridors at or near scent-sprayed rocks (rock scents) and scrape sites within 16 km2 sampling cells between January and March in 2003 and 2004. A total of 66 and 49 captures of snow leopards were tallied during 2003 and 2004, resulting in an overall capture success of 8.91 and 5.63 individuals per 100 trap-nights, respectively. Capture probabilities ranged from 0.33 to 0.46. Density estimates ranged from 8.49 ± 0.22 individuals per 100 km2 in 2003 to 4.45 ± 0.16 in 2004, with the disparity between years largely attributed to different trapping densities. Snow leopard abundance estimates were calculated using the computer program CAPTURE.
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Corporate Author Thesis
Publisher The Snow Leopard Conservancy Place of Publication Sonoma, California Editor
Language English Summary Language Original Title
Series Editor Series Title Abbreviated Series Title
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Area Expedition Conference
Notes English version. Approved no
Call Number SLN @ rana @ 1016 Serial 474
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Author Thapa, K., Jackson, R., Gurung, L, Acharya, H. B., Gurung, R. K.,
Title Applying the double observer methodology for assessing blue sheep population size in Nar Phu valley, Annapurna Conservation Area, Nepal Type Journal Article
Year 2021 Publication Wildlife Biology Abbreviated Journal
Volume Issue Pages 1-11
Keywords blue sheep, density estimation, double observer counts, Nepal, Panthera uncia, prey abundance, Pseudois nayaur, snow leopard, viewshed mapping
Abstract (up) This study was undertaken in spring, 2019 to assess the applicability of the double-observer survey method for estimating blue sheep Pseudois nayaur abundance in Nar-Phu valley of Manang District located in Annapurna Conservation Area of northern Nepal. Since counting large mammals in rugged mountain habitat poses a special challenge, we tested the efficacy of the double observer method for generating robust population estimates for this important protected area. The overall detection probability for observers (O1 and O2) was 0.94 and 0.91 for a total of 106 groups comprised of 2059 individual blue sheep. We estimated the area’s blue sheep population at 2070 (SE ± 168.77; 95% CI 2059–2405) for the 246.2 km2 of sampled habitat. We determined blue sheep to be widely distributed within the study area with a mean density of 8.4 individuals per km2 based on a total study area of 246.2 km2. We discuss demographic population structure and identify limitations when applying the double observer approach, along with recommending viewshed mapping for ensuring more robust density estimates of mountain-dwelling ungulates like blue sheep or ibex that inhabit extremely heterogeneous terrain which strongly influences sighting distances and overall animal detection rates.
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Notes Approved no
Call Number SLN @ rakhee @ Serial 1666
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Author Jackson, R.M.; Ahlborn, G.
Title Observations on the Ecology of Snow Leopard in West Nepal Type Conference Article
Year 1988 Publication Abbreviated Journal
Volume Issue Pages 65-87
Keywords Nepal; field study; predator; prey; home-range; habitat; tracking; trapping; radio-collars; behavior; activity; patterns; sign; scrapes; feces; marking; markings; browse; home range; home; range; radio; collar; radio collar; collars; radio collars; research; 1670
Abstract (up) This summary of a four year field study by Jackson and Ahlborn begging in 1982 and concluding in 1985, discusses behaviour, trapping and tracking techniques, home range, activity patterns, prey and habitat and survey methods.
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Publisher Snow Leopard Trust and Wildlife Institute of India Place of Publication India Editor H.Freeman
Language Summary Language Original Title
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Notes Full Text at URLTitle, Monographic: Fifth International Snow Leopard SymposiumPlace of Meeting: Srinagar, IndiaDate of Copyright: 1988 Approved no
Call Number SLN @ rana @ 117 Serial 478
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Author Jackson, R., Hillard, D.
Title Non-invasive Monitoring to Support Local Stewardship of Snow Leopards and Their Prey: Annual progress report summary Type Report
Year 2003 Publication Abbreviated Journal
Volume Issue Pages 1-6
Keywords
Abstract (up) Under this grant awarded by The Leonard X. Bosack and Bette M. Kruger Foundation through the auspices of Cat Action Treasury, SLC set out to accomplish the following outcomes in our Stewardship Program:

As of July 1, 2003 we completed the following major activities:

* Tested and compared different remote sensor and camera configurations to determine which is most reliable at “capturing” passing snow leopards;

* Investigated sampling strategies and camera trap placement with respect to snow leopard travel patterns and marking behavior;

* Compared different survey methods: direct (non-invasive capture of photos and DNA material contained in hairs), and indirect (sign transects and presence/absence surveys under the standard SLIMS protocol);

* Assessed the attitude of local people toward snow leopards, wolves and other wildlife as well as their perceptions of benefits and costs associated with the Hemis National Park, in order to craft more effective conservation and park management measures.

These activities mesh with SLC’s ongoing program of predator-proofing livestock corrals in settlements of the Hemis National Park, as well as outside protected areas (including Zanskar, Lingshed and Kanji. For each village’s corrals that are improved, we estimate that five or more snow leopards are saved from retaliatory killing by shepherds who lose valuable livestock.

Our program in assisting villagers to gain supplementary income from tourism-related activities is gaining strength, with trainings in 10 settlements this spring. SLC brought staff of KCC, the Khangchenjunga Conservation Committee, a local NGO based in Sikkim to assist in the skills training and to exchange ideas and experiences from other areas.

Following on from the groundwork laid during the first Bosack-Kruger grant to SLC, we launched a major initiative in collaboration with the Mountain Institute, the Himalayan Homestay program. Funding for this is being provided by UNESCO.

For further information on these and other snow leopard conservation efforts, see our newly designed web-page.

The following paragraphs summarize our accomplishments to date, supported by this grant. For detailed information, please consult the following reports, which are being mailed under separate cover:

1) “Local People’s Attitudes toward Wildlife Conservation in Hemis National Park with Special Reference to the Conservation of Large Predators” (prepared by Rodney Jackson, Rinchen Wangchuk and Jigmet Dadul)

2) “Non-Invasive Monitoring to Support Stewardship of Snow Leopards and Their Prey:

Evaluation of Remote Camera Traps for Censusing Snow Leopards” (prepared by Rodney Jackson and Jerry Roe).
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Notes Submitted to: The Leonard X. Bosack and Bette M. Kruger Charitable Foundation; submitted by the Snow Leopard Conservancy Approved no
Call Number SLN @ rana @ Serial 1337
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Author Hacker, C., Atzeni, L., Munkhtsog, B., Munkhtsog, B., Galsandorj, N., Zhang, Y., Liu, Y., Buyanaa, C., Bayandonoi, G., Ochirjav, M., Farrington, J. D., Jevit, M., Zhang, Y., Wu, L. Cong, W., Li, D., Gavette, C., Jackson, R., Janecka, J. E.
Title Genetic diversity and spatial structures of snow leopards (Panthera uncia) reveal proxies of connectivity across Mongolia and northwestern China Type Journal Article
Year 2022 Publication Landscape Ecology Abbreviated Journal
Volume Issue Pages 1-19
Keywords Admixture · Central Asia · Connectivity · Habitat Modeling · Landscape Genetics · Noninvasive Genetics · MEM · Spatial Structures
Abstract (up) Understanding landscape connectivity and population genetic parameters is imperative for threatened species management. However, such information is lacking for the snow leopard (Panthera uncia). This study sought to explore hierarchical snow leopard gene flow patterns and drivers of genetic structure in Mongolia and China. A total of 97 individuals from across Mongolia and from the north-eastern edge of the Qinghai-Tibetan Plateau in Gansu Province to the middle of Qinghai Province in China were genotyped across 24 microsatellite loci. Distance-based frameworks were used to determine a landscape scenario best explaining observed genetic structure. Spatial and non-spatial methods were used to investigate fine-scale autocorrelation and similarity patterns as well as genetic structure and admixture. A genetic macro-division between populations in China and Mongolia was observed, suggesting that the Gobi Desert is a substantial barrier to gene flow. However, admixture and support for a resistance-based mode of isolation suggests connective routes that could facilitate movement. Populations in Mongolia had greater connectivity, indicative of more continuous habitat. Drivers of genetic structure in China were difficult to discern, and fine-scale sampling is needed. This study elucidates snow leopard landscape connectivity and helps to prioritize conservation areas. Although contact zones may have existed and occasional crossings can occur, establishing corridors to connect these areas should not be a priority. Focus should be placed on maintaining the relatively high connectivity for snow leopard populations within Mongolia and increasing research efforts in China.
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Notes Approved no
Call Number SLN @ rakhee @ Serial 1717
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Author Johansson, O., Agvaantseren, B., Jackson, R., Kachel, S., Kubanychbekov, Z., McCarthy, T., Mishra, C., Ostrowski, S., Kulenbekov, R., Rajabi, A. M., Subba, S.
Title Body measurements of free-ranging snow leopards across their range Type Journal Article
Year 2022 Publication Snow Leopard Reports Abbreviated Journal
Volume 1 Issue Pages 1-6
Keywords Body mass, body size, carnivore, morphology, Panthera uncia
Abstract (up) We provide body measurements of snow leopards collected from 55 individuals sampled in five of the major mountain ranges within the species distribution range; the Altai, Hindu Kush, Himalayas, Pamirs and Tien Shan mountains. Snow leopards appear to be similarly sized across their distribution range with mean body masses of 36 kg and 42 kg for adult females and adult males, respectively. In contrast to other large felids, we found little variation in body size and body mass between the sexes; adult males were on average 5% longer and 15% heavier than adult females.
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Notes Approved no
Call Number SLN @ rakhee @ Serial 1711
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