| Records |
| Author |
Cherkasova M.V. |
| Title |
Predators |
Type |
Miscellaneous |
| Year |
1982 |
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15 |
| Keywords |
Ussr; Red Data book; mammals; carnivores; Cats; snow leopard.; 6420; Russian |
Abstract  |
Among species included in the Red Data Book of the USSR, predators occupy the first place; of them, unconditional leadership belongs the cat family species. Nine of eleven species of the family are referred to as rare and endangered ones. In the past snow leopard (Uncia uncia) inhabited all mountains on the south of the USSR from Tien Shan and Pamir to Transbaikalia. Now it no longer inhabits many of its previous habitats and has become rare, everywhere. Its total population in the USSR is no more than 1000 animals. At the beginning of XX century there were cases that such an amount of snow leopard (i.e. 1,000) was hunted during one year. Until recently, hunting the species was allowed all year round and even encouraged. |
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Full text available in RussianJournal Title: They must live. Mammals. |
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| Call Number |
SLN @ rana @ 620 |
Serial |
215 |
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| Author |
Thapa, K. |
| Title |
An experience of surplus killing of livestock by a snow leopard in Nepal |
Type |
Journal Article |
| Year |
2021 |
Publication |
CATnews |
Abbreviated Journal |
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Winter 2021 |
Issue |
74 |
Pages |
18-21 |
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Among many other threats, retaliatory killing of snow leopards Panthera uncia by people in retribution of livestock depredation is the foremost challenge for long-term survival of snow leopards. Surplus killing of up to 100 or more goats and sheep by snow leopard in a single night have been reported in snow leopard range’ countries including Nepal. Such incidences are unusual, but their impacts are substantial for subsistence agropastoral communities and snow leopard survival. Direct observation of surplus killing of livestock by a snow leopard in the corral is very rare. Here I report one incidence in a remote part of Nepal where a snow leopard killed 44 goats and was then trapped itself in a corral. This note highlights how I managed to rescue the trapped snow leopard. |
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no |
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SLN @ rakhee @ |
Serial |
1668 |
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| Author |
Maheshwari, A. , Sathyakumar, S. |
| Title |
Snow leopard stewardship in mitigating human-wildlife conflict in Hemis National Park, Ladakh, India |
Type |
Journal Article |
| Year |
2019 |
Publication |
Human Dimensions of Wildlife |
Abbreviated Journal |
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Pages |
1-5 |
| Keywords |
Snow leopard; human-wildlife conflict; ecotourism; livelihood; India |
| Abstract |
Among large predators, snow leopards (Panthera uncia) and co-predators (e.g., wolves
Canis lupus, lynx Lynx lynx) often cause economic losses, engendering animosity from
local communities in the mountain ecosystem across south and central Asia (Din et al.,
2017; Jackson & Lama, 2016; Maheshwari, Takpa, Kujur, & Shawl, 2010; Schaller, 2012).
These economic losses range from around US $50 to nearly $300 per household,
a significant sum given per capita annual incomes of $250 – $400 (Jackson & Wangchuk,
2004; Mishra, 1997). Recent efforts such as improved livestock husbandry practices
(predator-proof livestock corrals – closed night shelters with covered roof with wiremesh
and a closely fitting iron or wooden door that can be securely locked at night) and
community-based ecotourism (e.g., home stays, guides, porters, pack animals, campsites)
are providing alternative livelihood opportunities and mitigating large carnivores – human
conflict in the snow leopard habitats (Hanson, Schutgens, & Baral, 2018; Jackson, 2015;
Jackson & Lama, 2016; Vannelli, Hampton, Namgail, & Black, 2019). Snow leopard-based
ecotourism provides an opportunity to secure livelihoods and reduce poverty of the
communities living in ecotourism sites across Ladakh (Chandola, 2012; Jackson, 2015).
To understand the role of snow leopard-based ecotourism in uplifting the financial profile
of local communities, mitigating large carnivore – human conflict and eventually changing
attitudes towards large carnivores in Hemis National Park, Ladakh, India, we compared
the estimated financial gains of a snow leopard-based ecotourism to stated livestock
predation losses by snow leopards and wolves. |
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no |
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SLN @ rakhee @ |
Serial |
1484 |
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| Author |
Kaletskiy A. |
| Title |
They must live |
Type |
Miscellaneous |
| Year |
1978 |
Publication |
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Abbreviated Journal |
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| Volume |
N 11. |
Issue |
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Pages |
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| Keywords |
Ussr; Red Data book; endangeres species; threats; conservation measures; snow leopard.; 7050; Russian |
| Abstract |
Among large predators included in the Red Data Book of the USSR and Red List of IUCN the author describes snow leopard. A population of snow leopard in the USSR is estimated to be 500 animals, and no more than 1,000 in the world. In the past, irbis was believed to be a harmful animal and hunting for this species was encouraged. Today, population of the predator is reducing because of poaching and decreasing number of species it preys on such as ibex, wild sheep, wild boar, and marmots. The situation is exacerbated by biological features of this species first of all its slow rate of reproduction. It is concluded that snow leopard needs urgent protection measures since the species is on the verge of disappearance. |
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Full text available in RussianJournal Title: Man and nature. |
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no |
| Call Number |
SLN @ rana @ 683 |
Serial |
510 |
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| Author |
Chetri, M, Odden, M., Sharma, K., Flagstad, O., Wegge, P |
| Title |
Estimating snow leopard density using fecal DNA in a large landscape in north-central Nepal |
Type |
Journal Article |
| Year |
2019 |
Publication |
Global Ecology and Conservation |
Abbreviated Journal |
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Issue |
17 |
Pages |
1-8 |
| Keywords |
Panthera uncia, Density, Annapurna-Manaslu landscape, Noninvasive, Spatial scale |
| Abstract |
Although abundance estimates have a strong bearing on the conservation status of a
species, less than 2% of the global snow leopard distribution range has been sampled
systematically, mostly in small survey areas. In order to estimate snow leopard density
across a large landscape, we collected 347 putative snow leopard scats from 246 transects
(490 km) in twenty-six 5 � 5km sized sampling grid cells within 4393 km2 in Annapurna-
Manaslu, Nepal. From 182 confirmed snow leopard scats, 81 were identified as belonging
to 34 individuals; the remaining were discarded for their low (<0.625) quality index. Using
maximum likelihood based spatial capture recapture analysis, we developed candidate
model sets to test effects of various covariates on density and detection of scats on transects.
The best models described the variation in density as a quadratic function of
elevation and detection as a linear function of topography. The average density estimate of
snow leopards for the area of interest within Nepal was 0.95 (SE 0.19) animals per 100 km2
(0.66e1.41 95% CL) with predicted densities varying between 0.1 and 1.9 in different parts,
thus highlighting the heterogeneity in densities as a function of habitat types. Our density
estimate was low compared to previous estimates from smaller study areas. Probably,
estimates from some of these areas were inflated due to locally high abundances in overlap
zones (hotspots) of neighboring individuals, whose territories probably range far beyond
study area borders. Our results highlight the need for a large-scale approach in snow
leopard monitoring, and we recommend that methodological problems related to spatial
scale are taken into account in future snow leopard research. |
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SLN @ rakhee @ |
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1478 |
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| Author |
Singh, B. |
| Title |
Snow leopard or the ounce |
Type |
Book Chapter |
| Year |
1968 |
Publication |
Wildlife of Himachal Pradesh |
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29-57 |
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Also include conservation and management of wildlife chapter.
Publicity Forestry Division.
Author is Chief Conservator of Forests |
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1159 |
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| Author |
Zverev, M.D. |
| Title |
The snow leopard |
Type |
Miscellaneous |
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1980 |
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Alma Ata, “Kainar”. |
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Translated by Kathleen Braden |
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no |
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1228 |
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| Author |
Dementiev G.P. |
| Title |
Quadrupeds inhabitants of the mountains |
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Miscellaneous |
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1967 |
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110-116 |
| Keywords |
asia; mountain fauna; endemics; species range; rodents; ungulates; carnivores; marmots; pikas; voles; ibex; mountain sheep; snow leopard.; 6480; Russian |
| Abstract |
All species inhabiting the highlands of Asia are normally referred to as herbivorous or predators. A majority of alpine land species (rodents and ungulates) feeds upon leaves, stalks, and roots of plants. Among widely distributed highland species the most interesting are marmots, red pica, grey vole, argali, and ibex. Argali and ibex are preyed on by snow leopards. There are reasons to believe that these mountain animal species are more ancient than their cognates in a plain. All the way from Central Asia to Europe, species belonging to the eastern and western fauna complexes are observed to interpenetrate. |
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Full text available in RussianJournal Title: In severe cold and heat. (Animal and landscape). |
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no |
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SLN @ rana @ 626 |
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235 |
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| Author |
Ammosov, B. |
| Title |
Central Asia mountains. Snow leopard or irbis |
Type |
Miscellaneous |
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1973 |
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92-93 |
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Central Asia; natural zones; snow leopard; distribution; habitats; number; trade.; 6010; Russian |
| Abstract |
All natural zones are represented in the mountains of Central Asia: deserts, semi-deserts, steppes, meadows, forests and shrubs, sub-alpine zones, alpine zones. Irbis (snow leopard) is a typical inhabitant of highlands. In the USSR, snow leopard is distributed in the mountains of Central Asia and southern Siberia. Outside the country this species is met in the Himalayas, Tibet, mountains of Mongolia. It is rare everywhere. The annual world trade is less than 1,000 animals. Being a non-numerous species, it causes negligible damage to farming and hunting industry. |
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Full text available in RussianJournal Title: Hunting industry of the USSR. |
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SLN @ rana @ 580 |
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69 |
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Linnell, J.; Swenson, J.; Landa A.; and Kvam, T. |
| Title |
Methods for monitoring European large carnivores – A worldwide review of relevant experience |
Type |
Journal Article |
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1998 |
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NINA Oppdragsmelding |
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549 |
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1-38 |
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carnivore; monitoring; census; bear; Lynx; wolf; wolverine; 5310 |
| Abstract |
Against a background of recovering large carnivore populations in Norway, and many other areas of Europe, it is becoming increasingly important to develop methods to monitor their populations. A variety of parameters can monitored depending on objectives. These parameters include: presence/absense, distribution, population trend indices, minimum counts, statistical estimates of population size, reproductive parameters and health/condition. Three broad categories of monitoring techniques can be recognised each with increasing levels of fieldwork required. The first category includes those techniques that do not require original fieldwork. The second category involves fieldwork, but where individually recognisable carnivores are not available. The third category includes methods where fieldwork has recognisable individuals available. Different mehtods tend to have been used for different species, mainly because of limitations imposed by the different species' ecology. The most precise estimates of population size have been obtained in research projects with relatively small study sites and with the help of radio-telemetry. However, it may be difficult, or impossible, to apply these methods over large monitoring areas. Therefore, in terms of practical management, a combination of minimum counts, supported by an independent index may be more useful than statistical population estimates. All methods should be subject to a careful design process, and power analysis should be conducted to determine the sensitivity of the method to detect changes.
Based on the review of over 200 papers and reports we recommend a package of complementary monitoring methods for brown bear, wolverine, lynx and wolf in Norway. These include the use of observations from the public and reports of predation on livestock to determine broad patterns of distribution, and an index based on hunter observations per hunting day, for all four species. Minimum counts of reproductive units, natal dens, family groups, and packs, should be obtained from snow-tracking for wolverines, lynx and wolves respectively. In addition a track-count index should be obtained for wolverines and lynx. As much data as possible should be obtained of lynx and wolvereines killed in the annual harvest. Brown bears will be difficult to monitor without the use of radio-telemetry, therfore they may require periodic telemetry based, mark-recapture studies. Such a program can easily be constructed within existing central and regional wildlife management structures, but will require extensive involvement from hunters. |
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Document Type: English |
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SLN @ rana @ 516 |
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622 |
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