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Janeč ka, J.E., Munkhtsog, B., Jackson, R.M., Naranbaatar, G., Mallon, D.P. & Murphy, W.J. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Comparison of noninvasive genetic and camera-trapping techniques for surveying snow leopards |
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Journal Article |
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Year |
2011 |
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Journal of Mammalogy |
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92 |
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4 |
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771-783 |
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The endangered snow leopard (Panthera uncia) is widely but sparsely distributed throughout the mountainous regions of central Asia. Detailed information on the status and abundance of the snow leopard is limited because of the logistical challenges faced when working in the rugged terrain it occupies, along with its secretive nature. Camera-trapping and noninvasive genetic techniques have been used successfully to survey this felid. We compared noninvasive genetic and camera-trapping snow leopard surveys in the Gobi Desert of Mongolia. We collected 180 putative snow leopard scats from 3 sites during an 8-day period along 37.74 km of transects. We then conducted a 65-day photographic survey at 1 of these sites, approximately 2 months after scat collection. In the site where both techniques were used noninvasive genetics detected 5 individuals in only 2 days of fieldwork compared to 7 individuals observed in the 65-day camera-trapping session. Estimates of population size from noninvasive genetics ranged between 16 and 19 snow leopards in the 314.3-km2 area surveyed, yielding densities of 4.9–5.9 individuals/100 km2. In comparison, the population estimate from the 65-day photographic survey was 4 individuals (adults only) within the 264-km2 area, for a density estimate of 1.5 snow leopards/100 km2. Higher density estimates from the noninvasive genetic survey were due partly to an inability to determine age and exclude subadults, reduced spatial distribution of sampling points as a consequence of collecting scats along linear transects, and deposition of scats by multiple snow leopards on common sites. Resulting differences could inflate abundance estimated from noninvasive genetic surveys and prevent direct comparison of densities derived from the 2 approaches unless appropriate adjustments are made to the study design. |
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American Society of Mammalogists |
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DOI: 10.1644/10-MAMM-A-036.1; URL: http://www.bioone.org/doi/full/10.1644/10-MAMM-A-036.1 |
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1351 |
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Ashraf, N. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Competition For Food Between Markhor And Domestic Goat In Chitral, Pakistan |
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2010 |
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1-76 |
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The present study was, therefore, designed to collect data on feeding aspects of Markhor and domestic goat in Chitral area, in order to examine the extent of resource competition between two species. The objectives of study were;
To analyze the food composition of Markhor and domestic goat.
To determine the degree of competition between Markhor and domestic goat in terms of forage consumption.
To provide recommendation for managing Markhor habitat and reducing competition with domestic livestock. |
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Master's thesis |
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Pakistan |
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English |
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M.Phil Thesis, Pir Mehr Ali Shah (PMAS) – Arid Agriculture University, Rawalpindi |
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SLN @ rana @ |
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1328 |
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Forrest, J. L.,Wikramanayake, E., Shrestha, R., Areendran, G., Gyeltshen, K., Maheshwari, A., Mazumdar, S., Naidoo, R., Thapa, G. J., Thapa, K. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Conservation and climate change: Assessing the vulnerability of snow leopard habitat to treeline shift in the Himalaya |
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Journal Article |
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2012 |
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Biological Conservation |
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150 |
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129-135 |
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Snow leopard Climate adaptation Conservation planning Endangered species Climate change Himalaya |
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Climate change is likely to affect the persistence of large, space-requiring species through habitat shifts,
loss, and fragmentation. Anthropogenic land and resource use changes related to climate change can also
impact the survival of wildlife. Thus, climate change has to be integrated into biodiversity conservation
plans. We developed a hybrid approach to climate-adaptive conservation landscape planning for snow
leopards in the Himalayan Mountains. We first mapped current snow leopard habitat using a mechanistic
approach that incorporated field-based data, and then combined it with a climate impact model using a
correlative approach. For the latter, we used statistical methods to test hypotheses about climatic drivers
of treeline in the Himalaya and its potential response to climate change under three IPCC greenhouse gas
emissions scenarios. We then assessed how change in treeline might affect the distribution of snow leopard
habitat. Results indicate that about 30% of snow leopard habitat in the Himalaya may be lost due to a
shifting treeline and consequent shrinking of the alpine zone, mostly along the southern edge of the range
and in river valleys. But, a considerable amount of snow leopard habitat and linkages are likely to remain
resilient to climate change, and these should be secured. This is because, as the area of snow leopard habitat
fragments and shrinks, threats such as livestock grazing, retaliatory killing, and medicinal plant collection
can intensify. We propose this approach for landscape conservation planning for other species
with extensive spatial requirements that can also be umbrella species for overall biodiversity.
2012 Elsevier Ltd. All rights reserved |
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SLN @ rakhee @ |
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1385 |
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Alexander, J. S., Cusack, J. J., Pengju, C, Kun, S., Riordan, P. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Conservation of snow leopards: spill-over benefits for other carnivores? |
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Journal Article |
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Year |
2015 |
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Oryx |
Abbreviated Journal |
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Fauna & Flora International |
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1-5 |
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China, conservation, Eurasian lynx, grey wolf, red fox, snow leopard |
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In high-altitude settings of Central Asia the
Endangered snow leopard Panthera uncia has been recognized
as a potential umbrella species. As a first step in assessing
the potential benefits of snow leopard conservation for
other carnivores, we sought a better understanding of the
presence of other carnivores in areas occupied by snow leopards
in China’s Qilianshan National Nature Reserve. We
used camera-trap and sign surveys to examine whether
other carnivores were using the same travel routes as snow
leopards at two spatial scales. We also considered temporal
interactions between species. Our results confirm that other
carnivores, including the red fox Vulpes vulpes, grey wolf
Canis lupus, Eurasian lynx Lynx lynx and dhole Cuon alpinus,
occur along snow leopard travel routes, albeit with low detection
rates. Even at the smaller scale of our camera trap survey
all five carnivores (snow leopard, lynx, wolf, red fox and
dhole) were observed. Kernel density estimates suggested a
high degree of temporal overlap between the snow leopard
and the fox, and the snow leopard and the lynx, as indicated
by high overlap coefficient estimates. There is an opportunity
to consider protective measures at the local scale that would
benefit various species simultaneously. However, it should
also be recognized that snow leopard conservation efforts
could exacerbate human–wildlife conflicts through their protective
effect on other carnivore species. |
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SLN @ rakhee @ |
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1434 |
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Sharma, K., McCarthy, T. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Counting cats: toward a framework for evaluating snow leopard (Panthera uncia) conservation efforts |
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Miscellaneous |
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2011 |
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Poster |
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March |
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Poster presented at Zoos and Aquariums Committing to Conservation Conference, Seattle, WA March 2011 |
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SLN @ rana @ |
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1325 |
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Author |
Karnaukhov, A. S., Malykh, S. V., Korablev, M. P., Kalashnikova, Y. M., Poyarkov, A. D., Rozhnov, V. V. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Current Status of the Eastern Sayan Snow Leopard (Panthera uncia) Grouping and Its Nutritive Base |
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Journal Article |
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2018 |
Publication |
Biology Bulletin |
Abbreviated Journal |
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45 |
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9 |
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1106-1115 |
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Keywords |
Panthera uncia, Bol� shoi Sayan, Munku-Sardyk, Tunkinskie Gol� tsy, distribution area, molecular genetic analysis, modeling of potential habitats |
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Abstract |
A field survey of snow leopard (Panthera uncia) habitats was carried out in the southeastern part of
the Eastern Sayan Mountains (Okinskii and Tunkinskii districts of the Republic of Buryatia and the Kaa-
Khemskii district of Tuva Republic). Seven or eight adult snow leopards were observed as constant inhabitants
of the Tunkinskie Gol'tsy, Munku-Sardyk, and Bol'shoi Sayan mountain ridges. The presence of eight
snow leopards was confirmed using DNA-based analyses of scats collected in 2014 – 2016. The main prey species
of the snow leopard in Eastern Sayan is the Siberian ibex (Capra sibirica), but its abundance has steadily
decreased over the past 20 years. The red deer (Cervus elaphus) and the wild boar (Sus scrofa), which were
some of the most numerous ungulates in the survey area, are replacing the Siberian ibex in the snow leopard's
diet. In addition, the mountain hare (Lepus timidus) is also of importance to the snow leopard's diet. |
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SLN @ rakhee @ |
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1482 |
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Kanderian, N., Lawson, D., Zahler, P. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Current status of wildlife and conservation in Afghanistan |
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Journal Article |
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Year |
2011 |
Publication |
International Journal of Environmental Studies |
Abbreviated Journal |
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68 |
Issue |
3 |
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281-298 |
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Afghanistan; Biodiversity; Deforestation; Hunting; Illegal trade; Agriculture; Livelihood; Governance; Survey; Training |
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Abstract |
Afghanistan’s position in latitude, geography and at the intersection of three biogeographic realms has resulted in a surprising biodiversity. Its wildlife includes species such as the snow leopard, Asiatic black bear, Marco Polo sheep, markhor and greater flamingo. Principal threats include high levels of deforestation, land encroachment and hunting for food and trade. Continuing security issues have also made it difficult to monitor species abundance and population trends. Over the last decade, however, survey efforts have provided the first collection of species and habitat data since the late 1970s. Initial findings are enabling the Government and rural communities to begin implementing important conservation measures. This process has included policy development and protected area planning, promoting alternative livelihoods and responsible community management, and continuing research into the status of biodiversity in the field. |
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Wildlife Conservation Society, 2300 Southern Blvd, New York, 10460, USA |
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Wildlife Conservation Society |
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1348 |
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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. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Defining priorities for global snow leopard conservation landscapes |
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Journal Article |
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Year |
2019 |
Publication |
Biological Conservation |
Abbreviated Journal |
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241 |
Issue |
108387 |
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1-10 |
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Panthera uncia, Conservation prioritization, Landscape Conservation Unit, Connectivity, Linkage |
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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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1490 |
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Jordan, B. |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Der Schneeleopard: Schneeleoparden in der Natur |
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Report |
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2010 |
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Manati |
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18-21 |
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Tiergarten Nurnberg |
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1180 |
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Guoliang, P., Alexander, J. S., Riordan, P., Shi, K., Kederhan, Yang, H |
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Title ![sorted by Title field, ascending order (up)](img/sort_asc.gif) |
Detection of a snow leopard population in northern Bortala, Xinjiang, China |
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2016 |
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Cat News |
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63 |
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We substantiate the presence of snow leopards Panthera uncia using camera
traps within the Dzungarian Alatau range in Bortala Mongolia Autonomous Prefecture,
Xinjiang Province, China. A total of 13 camera trap stations were set up in
2012 and a total of 14 camera trap stations in 2013 within an area of 192 km2. A total
of 11-15 individual adult snow leopards and two sub adults were identified from
photo captures of sufficient quality. A range of human activities were noted within
and surrounding the survey area, including livestock herding and mining. We recommend
more large scale and intensive camera trap surveys to further assess the
population status of the snow leopard within this area |
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SLN @ rakhee @ |
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1443 |
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