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Author | Dyikanova, C. | ||||
Title | A public awareness outreach programme on Snow Leopards for the Kyrgyz Republic, Final Report | Type ![]() |
Report | ||
Year | 2004 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 1-4 | ||
Keywords | project; awareness; local; local people; people; staff; Base; snow; snow leopard; snow-leopard; leopard; conservation; ecology; threats; threat; Kyrgyzstan; regional; areas; area; public; snow leopards; snow-leopards; leopards; Kyrgyz; Kyrgyz-Republic; republic; Report; International; international snow leopard trust; International-Snow-Leopard-Trust; trust; program; community | ||||
Abstract | The principle goal of the project was to raise awareness of local people, staff of frontier posts, customs and foreign military base on snow leopard, and its conservation. In the framework of the project the following steps were to be executed: A) To disseminate printing materials: a booklet, poster, card and calendar. b) To publish articles on snow leopard ecology and conservation issues and threats in Kyrgyzstan regional newspapers (Issyk-Kul, Osh, and Chui areas) C) To hold follow-up meeting with target groups D) To evaluate project results |
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Notes | Project funded by International Snow Leopard Trust Small Grants Program. Community and Business Forum, Bishkek, Kyrgyzstan. | Approved | no | ||
Call Number | SLN @ rana @ 1066 | Serial | 248 | ||
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Author | Anonymous | ||||
Title | A snow leopard conservation plan for Mongolia | Type ![]() |
Report | ||
Year | 2000 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 1-8 | ||
Keywords | awareness; behaviour; biodiversity; conservation plan; decline; density; ecology; fund-raising; funding; habitat degradation; Himalayan; management; Mongolia; montane; pastoralists; pelt; predator; snow-leopard-conservation-plan; snow leopard; trade; Wwf | ||||
Abstract | The snow leopard faces multiple threats in the Himalayan region, from habitat degradation, loss of prey, the trade in pelts, parts and live animals, and conflict with humans, primarily pastoralists. Consequently, the populations are considered to be in decline and the species is listed as Endangered in the IUCN's Red List. As a 'flagship' and 'umbrella' species the snow leopard can be a unifying biological feature to raise awareness of its plight and the need for conservation, which will benefit other facets of Himalayan biodiversity as well. Some studies of snow leopards have been conducted in the Himalayan region. But, because of its elusive nature and preference for remote and inaccessible habitat, knowledge of the ecology and behaviour of this mystical montane predator is scant. The available information, however, suggests that snow leopards occur at low densities and large areas of habitat are required to conserve a viable population. Thus, many researchers and conservationists have advocated landscape-scale approaches to conservation within a regional context, rather than focusing on individual protected areas.This regional strategy for WWF's snow leopard conservation program is built on such an approach. The following were identified as important regional issues: 1) international trade in snow leopards and parts; 2) the human-snow leopard conflict; 3) the need for a landscape approach to conservation to provide large spatial areas that can support demographically and ecologically viable snow leopard metapopulations; 4) research on snow leopard ecology to develop long-term, science-based conservation management plans; and 5) regional coordination and dialog. While the issues are regional, the WWF's in the region have developed 5-year strategic actions and activities, using the regional strategies as a touchstone, which will be implemented at national levels. The WWF's will develop proposals based on these strategic actions, with estimated budgets, for use by the network for funding and fund-raising. WWF also recognizes the need to collaborate and coordinate within the network and with other organizations in the region to achieve conservation goals in an efficient manner, and will form a working group to coordinate activities and monitor progress. | ||||
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Notes | Publication date unknown but must be at least from 2000. | Approved | no | ||
Call Number | SLN @ rana @ 995 | Serial | 92 | ||
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Author | Oli, M.K. | ||||
Title | Ecology and conservation of snow leopard project | Type ![]() |
Report | ||
Year | 1991 | Publication | Abbreviated Journal | ||
Volume | 6628 | Issue | Pages | 1-9 | |
Keywords | 1990; conservation; ecology; Report; snow leopard; Wwf | ||||
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Notes | WWF Project #6628: progress report 2 for the period December 1990 – March 1991. | Approved | no | ||
Call Number | SLN @ rana @ 984 | Serial | 743 | ||
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Author | Durbach, I., Borchers, D., Sutherland, C., Sharma, K. | ||||
Title | Fast, flexible alternatives to regular grid designs for spatial capture–recapture. | Type ![]() |
Research Article | ||
Year | 2020 | Publication | Methods in Ecology and Evolution | Abbreviated Journal | |
Volume | Issue | Pages | 1-13 | ||
Keywords | camera trap, population ecology,sampling, spatial capture-recapture, surveys | ||||
Abstract | Spatial capture–recapture (SCR) methods use the location of detectors (camera traps, hair snares and live-capture traps) and the locations at which animals were detected (their spatial capture histories) to estimate animal density. Despite the often large expense and effort involved in placing detectors in a landscape, there has been relatively little work on how detectors should be located. A natural criterion is to place traps so as to maximize the precision of density estimators, but the lack of a closed-form expression for precision has made optimizing this criterion computationally demanding. 2. Recent results by Efford and Boulanger (2019) show that precision can be well approximated by a function of the expected number of detected individuals and expected number of recapture events, both of which can be evaluated at low computational cost. We use these results to develop a method for obtaining survey designs that optimize this approximate precision for SCR studies using count or binary proximity detectors, or multi-catch traps. 3. We show how the basic design protocol can be extended to incorporate spatially varying distributions of activity centres and animal detectability. We illustrate our approach by simulating from a camera trap study of snow leopards in Mongolia and comparing estimates from our designs to those generated by regular or optimized grid designs. Optimizing detector placement increased the number of detected individuals and recaptures, but this did not always lead to more precise density estimators due to less precise estimation of the effective sampling area. In most cases, the precision of density estimators was comparable to that obtained with grid designs, with improvement in some scenarios where approximate CV(¬D) < 20% and density varied spatially. 4. Designs generated using our approach are transparent and statistically grounded. They can be produced for survey regions of any shape, adapt to known information about animal density and detectability, and are potentially easier and less costly to implement. We recommend their use as good, flexible candidate designs for SCR surveys when reasonable knowledge of model parameters exists. We provide software for researchers to construct their own designs, in the form of updates to design functions in the r package oSCR. |
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Notes | Approved | no | |||
Call Number | Serial | 1618 | |||
Permanent link to this record |