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Author | Koshkarev, E. | ||||
Title | Strategy of Snow Leopard Conservation in the Range | Type | Conference Article | ||
Year | 2002 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | |||
Keywords | snow; leopard; uncia; conservation; poaching; protected; areas; range; population; protection; asia; endangered; species; 4990 | ||||
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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 @ 485 | Serial | 568 | ||
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Author | Koshkarev, E. | ||||
Title | Strategy of Snow Leopard Conservation in Russia (and in Boundary Territories of Mongolia, China, and Kazakhstan) | Type | Conference Article | ||
Year | 2002 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | |||
Keywords | snow; leopard; uncia; conservation; plan; Russia; Mongolia; China; Kazakhstan; irbis; strategy; 5000 | ||||
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Publisher | Islt | Place of Publication | Islt | Editor | |
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Area | Expedition | Conference | |||
Notes | Title, Monographic: Proceedings of the Snow Leopard Survival SummitPlace of Meeting: Seattle,WA | Approved | no | ||
Call Number | SLN @ rana @ 486 | Serial | 569 | ||
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Author | Koshkarev, E.P. | ||||
Title | An Unusual Hunt | Type | Journal Article | ||
Year | 1988 | Publication | Int.Ped.Book of Snow Leopards | Abbreviated Journal | |
Volume | 5 | Issue | Pages | 9-12 | |
Keywords | Tien-Shan; tracking; feces; ibex; hunting; predator; prey; browse; behavior; 940 | ||||
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Notes | Full text available at URLTien Shan High Mountain Physical Geography Staion, Kirghizian Academy of Sciences (Pokrovka) USSRDocument Type: English | Approved | no | ||
Call Number | SLN @ rana @ 402 | Serial | 571 | ||
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Author | Koshkarev, E.P. | ||||
Title | Range Structure, Numbers and Population Status of the Snow Leopard in the Tien Shan | Type | Miscellaneous | ||
Year | 1992 | Publication | Snow Line | Abbreviated Journal | |
Volume | x | Issue | 2 | Pages | 2-6 |
Keywords | Tian-Shan; surveys; status; distribution; density; Pamir; habitat; browse; Tien-Shan; 4690 | ||||
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Publisher | International Snow Leopard Trust | Place of Publication | Seattle | Editor | |
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Notes | Translated by Marina Proutkina and Kathleen Braden | Approved | no | ||
Call Number | SLN @ rana @ 456 | Serial | 575 | ||
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Author | Pandey, M. | ||||
Title | Status, habitat utilization, threats and conservation of musk deer (Moschus chrysogaster HODGSON 1839) in Lantang National Park, Central Nepal | Type | Manuscript | ||
Year | 2006 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 1-89 | ||
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Abstract | “Status, habitat utilization, threats and Conservation of musk deer (Moschus chrysogaster Hodgson 1839) in Langtang National Park, Central Nepal” was carried out in Musk Deer Conservation Area of LNP. The study was conducted spending more than 516 hours (16th February 2005 to 4th October 2005). The study applied the indirect method identifying 5 different blocks in the habitat for the status and habitat utilization of musk deer in LNP. It mainly deals with types of fecal deposits, distribution of those deposits in different topography and forests. The study also deals with other related evidences found in the study area. Questionnaire survey provides the additional information regarding its threats and conservation. Forty-five different fecal deposits were found and 3 musk deer were sighted. Block B was found to be the appropriate habitat for musk deer. 68.8 percent of fecal deposits were recorded in Block B. Different types of fecal deposits found in Block B were very fresh and fresh (22.5%), old (38.7%) and very old (16.3%). Thirty-three species of plants were recorded from the quadrates plotted in the study area. Among them Betula utilis was found the most dominant species . High percentage of fresh droppings were also recorded in Betula forest and maximum old deposits were recorded in mixed forest. Animal trail was found preferred by musk deer. Forty percent of observed droppings were found on animal trail. Similarly, 8.88 percent of Relic sites were found in animal trail. High number of bedding sites were recorded in Betula and mixed forest. Questionnaire survey revealed that musk deer in Langtang National Park is in declining state. Seventy percent of the respondents agree about the poaching activity of musk deer in their area. Apart from this, tourists, local people and livestock are the major threats to musk deer in Langtang. High degree of habitat deterioration, livestock grazing, illegal hunting and predator such as Snow Leopard are the major threats in that area. Therefore, these issues have to be addressed for a long term survival of the endangered musk deer species in Langtang National Park. |
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Corporate Author | Thesis | Master's thesis | |||
Publisher | Place of Publication | Kathmandu, Nepal | Editor | ||
Language | English | Summary Language | Original Title | ||
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Notes | Central Department of Zoology-Ecology Program, Tribhuvan University, Kathmandu, Nepal | Approved | no | ||
Call Number | SLN @ rana @ | Serial | 1322 | ||
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Author | Sharma, K., Fiechter, M., George, T., Young, J., Alexander, J. S., Bijoor, Suryawanshi, K., Mishra, C. | ||||
Title | Conservation and people: Towards an ethical code of conduct for the use of camera traps in wildlife research | Type | Journal Article | ||
Year | 2020 | Publication | Ecological Solutions and Evidence | Abbreviated Journal | |
Volume | Issue | Pages | 1-6 | ||
Keywords | camera trap, code of conduct, ethics, human rights, law, PARTNERS principles for community- based conservation, privacy, snow leopard | ||||
Abstract | 1. Camera trapping is a widely employed tool in wildlife research, used to estimate animal abundances, understand animal movement, assess species richness and under- stand animal behaviour. In addition to images of wild animals, research cameras often record human images, inadvertently capturing behaviours ranging from innocuous actions to potentially serious crimes. 2. With the increasing use of camera traps, there is an urgent need to reflect on how researchers should deal with human images caught on cameras. On the one hand, it is important to respect the privacy of individuals caught on cameras, while, on the other hand, there is a larger public duty to report illegal activity. This creates ethical dilemmas for researchers. 3. Here, based on our camera-trap research on snow leopards Panthera uncia, we outline a general code of conduct to help improve the practice of camera trap based research and help researchers better navigate the ethical-legal tightrope of this important research tool. |
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Notes | Approved | no | |||
Call Number | Serial | 1626 | |||
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Author | Bischof, R.,Hameed, S.,Ali, H.,Kabir, M.,Younas, M.,Shah, K. A.,Din, J. U.,Nawaz, M. A. | ||||
Title | Using time-to-event analysis to complement hierarchical methods when assessing determinants of photographic detectability during camera trapping | Type | Journal Article | ||
Year | 2013 | Publication | Methods in Ecology and Evolution | Abbreviated Journal | |
Volume | Issue | Pages | |||
Keywords | Cox proportional hazards model, cumulative incidence, Martes foina, Panthera Uncia, survival anaalysis, Vulpes Vulpes, weighted observations | ||||
Abstract | 1. Camera trapping, paired with analytical methods for estimating occupancy, abundance and other ecological parameters, can yield information with direct consequences for wildlife management and conservation. Although ecological information is the primary target of most camera trap studies, detectability influences every aspect from design to interpretation. 2. Concepts and methods of time-toevent analysis are directly applicable to camera trapping, yet this statistical field has thus far been ignored as a way to analyze photographic capture data. to illustrate the use to time-to-event statistics and to better understand how photographic evidence accumulates, we explored patterns in tow related measure of detectability: Detection probability and time to detection. We analyzed camera trap data for three sympatric carnivores ( snow Leopard, red fox and stone marten) in the mountains of northern Pakistan and tested predictions about patterns in detectability across species, sites and time. 3. We found species-specific differences in the magnitude of detectability and the factors influencing it, reinforcing the need to consider determinants of detectability in study design and to account for them during analysis. Photographic detectability of snow leopard was noticeably lower than that of red fox, but comparable to detectability of stone marten. Site-specific attributes such as the presence of carnivore sign ( snow Leopard), terrain ( snow leopard and red fox) and application for lures ( red fox) influenced detectability. For the most part, detection probability was constant over time. 4. Species- specific differences in factors determining detectability make camera trap studies targeting multiple species particularly vulnerable to misinterpretation if the hierarchical origin of the data is ignored. Investigators should consider not only the magnitude of detectability, but also the shape of the curve describing the cumulative process of photographic detection, as this has consequences for both determining survey effort and the election of analytical models. Weighted time-to -event analysis can complement occupancy analysis and other hierarchal methods by providing additional tools for exploring camera trap data and testing hypotheses regarding the temporal aspect of photographic evidence accumulation. |
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Notes | Approved | no | |||
Call Number | SLN @ rakhee @ | Serial | 1405 | ||
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Author | Khanyari, M., Dorjay, R., Lobzang, S. Bijoor, A., Suryawanshi, K. | ||||
Title | Co-designing conservation interventions through participatory action research in the Indian Trans-Himalaya | Type | Journal Article | ||
Year | 2023 | Publication | Ecological Solutions and Evidence | Abbreviated Journal | |
Volume | 2023;4 | Issue | e12232 | Pages | 1-14 |
Keywords | Changthang, co-design, community, conservation, participatory | ||||
Abstract | 1. Community-based conservation, despite being more inclusive than fortress con- servation, has been criticized for being a top-down implementation of external ideas brought to local communities for conservation's benefit. This is particularly true for Changpas, the pastoral people of Changthang in trans-Himalayan India who live alongside unique wildlife. 2. Our main aim was to co-design conservation interventions through participatory action research. We worked with two Changpa communities, to understand the issues faced by them. Subsequently, we co-designed context-sensitive interventions to facilitate positive human–nature interactions. We did so by integrating the PARTNERS (Presence, Aptness, Respect, Transparency, Empathy, Responsiveness, Strategic Support) principles with the Trinity of Voice (Access, Standing and Influence). 3. In Rupsho, we facilitated focus group discussions (FGDs) led by the community. We found livestock depredation by wildlife was primarily facilitated by the weather. This led to co-designing of a new corral design, which was piloted with seven households, safeguarding 2385 pashmina goats and sheep. Approximating the value of each sheep/goat to be USD125, this intervention amounts to a significant economic protection of USD c. 42,500 for each household. This is along with intangible gains of trust, ownership and improved self-esteem. 4. In Tegazong, a restricted area adjoining the Indo-China border with no previous research records, we worked with 43 Changpa people to co-create research questions of mutual interest. Wildlife presence and reasons for livestock loss were identified as areas of mutual interest. The herders suggested they would record data in a form of their choice, for 6 months, while they live in their winter pastures. This participatory community monitoring revealed nutrition and hypothermia to be a key cause of livestock death. Subsequently, we delimited two previously untested interventions: lamb cribs and provisioning of locally sourced barley as a feed supplement. The wildlife monitoring recorded the first record of Tibetan Gazelle Procapra picticuadata, outside of their known distribution, in Tegazong. 5. We aim to highlight the benefits of co-designing projects with local communities that link research and conservation, while also discussing the challenges faced. Ultimately, such projects are needed to ensure ethical knowledge generation and conservation, which aims to be decolonial and inclusive. |
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Notes | Approved | no | |||
Call Number | SLN @ rakhee @ | Serial | 1743 | ||
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Author | Khanyari, M., Dorjay, R., Lobzang, S., Bijoor, A., Suryawanshi, K. | ||||
Title | Co-designing conservation interventions through participatory action research in the Indian Trans-Himalaya | Type | Journal Article | ||
Year | 2023 | Publication | Ecological Solutions and Evidence | Abbreviated Journal | |
Volume | 4 | Issue | e12232 | Pages | 1-14 |
Keywords | Changthang, co-design, community, conservation, participatory | ||||
Abstract | 1. Community-based conservation, despite being more inclusive than fortress conservation, has been criticized for being a top-down implementation of external ideas brought to local communities for conservation's benefit. This is particularly true for Changpas, the pastoral people of Changthang in trans-Himalayan India who live alongside unique wildlife. 2. Our main aim was to co-design conservation interventions through participatory action research. We worked with two Changpa communities, to understand the issues faced by them. Subsequently, we co-designed context-sensitive interventions to facilitate positive human–nature interactions. We did so by integrating the PARTNERS (Presence, Aptness, Respect, Transparency, Empathy, Responsiveness, Strategic Support) principles with the Trinity of Voice (Access, Standing and Influence). 3. In Rupsho, we facilitated focus group discussions (FGDs) led by the community. We found livestock depredation by wildlife was primarily facilitated by the weather. This led to co-designing of a new corral design, which was piloted with seven households, safeguarding 2385 pashmina goats and sheep. Approximating the value of each sheep/goat to be USD125, this intervention amounts to a significant economic protection of USD c. 42,500 for each household. This is along with intangible gains of trust, ownership and improved self-esteem. 4. In Tegazong, a restricted area adjoining the Indo-China border with no previous research records, we worked with 43 Changpa people to co-create research questions of mutual interest. Wildlife presence and reasons for livestock loss were identified as areas of mutual interest. The herders suggested they would record data in a form of their choice, for 6 months, while they live in their winter pastures. This participatory community monitoring revealed nutrition and hypothermia to be a key cause of livestock death. Subsequently, we delimited two previously untested interventions: lamb cribs and provisioning of locally sourced barley as a feed supplement. The wildlife monitoring recorded the first record of Tibetan Gazelle Procapra picticuadata, outside of their known distribution, in Tegazong. 5. We aim to highlight the benefits of co-designing projects with local communities that link research and conservation, while also discussing the challenges faced. Ultimately, such projects are needed to ensure ethical knowledge generation and conservation, which aims to be decolonial and inclusive. |
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Notes | Approved | no | |||
Call Number | SLN @ rakhee @ | Serial | 1727 | ||
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Author | Sharma, M., Khanyari, M., Khara, A., Bijoor, A., Mishra, C., Suryawanshi, K. R. | ||||
Title | Can livestock grazing dampen density-dependent fluctuations in wild herbivore populations? | Type | Journal Article | ||
Year | 2024 | Publication | Journal of Applied Ecology | Abbreviated Journal | |
Volume | Issue | Pages | 1-12 | ||
Keywords | competition, Gompertz state-space model, Himalaya, livestock, long-term study, negative density dependence, recruitment | ||||
Abstract | 1. Conservation policy for the high mountains of Asia increasingly recognises the need to encompass large multi-use landscapes beyond the protected area network. Due to limited long-term research in this region, our understanding of even fundamental processes, such as factors regulating large mammal populations is poor. 2. Understanding the factors that regulate animal populations, especially those generating cyclicity, is a long-standing problem in ecology. Long-term research across multiple taxa (mainly from Europe and North America) has focussed on the relative roles of food and predation in generating cyclicity in population dynamics. It remains unclear how trophic interactions that are influenced by anthropogenic stressors can affect population dynamics in human-modified landscapes. 3. We present a 10-year study to compare the effects of livestock grazing on density-dependent dynamics in two populations of bharal, Pseudois nayaur, in the Himalayas. We combine this with a mechanistic understanding of whether density dependence in these two sites acts predominantly by affecting adult survival or recruitment. We compared and quantified density dependence in the bharal population by fitting Bayesian Gompertz state-space models. 4. We found evidence for negative density dependence which indicates possible cyclic dynamics in the bharal population of the site (Tabo) with low livestock density. The population dynamics of this site were driven by recruited offspring—with a 2-year density-dependent lag effect—rather than adult survival. In the site with high livestock density (Kibber), this density dependence was not detected. We postulate the potential role of excessive grazing by livestock in affecting offspring recruitment, thereby affecting the bharal population in Kibber. 5. Synthesis and applications: Our results suggest that conservation action to facilitate wild herbivore population recovery, such as the development of protected areas and village reserves, needs to account for density-dependent regulation. Sites with trophy hunting require continuous monitoring to understand the effects of density dependence so that appropriate hunting quotas can be formulated. |
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Notes | Approved | no | |||
Call Number | SLN @ rakhee @ | Serial | 1747 | ||
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