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Author | Lydekker, R. | ||||
Title ![]() |
The Game Animals of India, Burma, Malaya, and Tibet | Type | Book Chapter | ||
Year | 1907 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | |||
Keywords | prey; predators; game; India; Burma; Malaya; Tibet; browse; 1930 | ||||
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Publisher | Rowland Ward | Place of Publication | London | Editor | |
Language | English | Summary Language | Original Title | ||
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Series Volume | Series Issue | Edition | |||
ISSN | ISBN | Medium | |||
Area | Expedition | Conference | |||
Notes | ProCite field [12]: (1907) | Approved | no | ||
Call Number | SLN @ rana @ 9 | Serial | 630 | ||
Permanent link to this record | |||||
Author | Ale, S.; Brown, J. | ||||
Title ![]() |
The contingencies of group size and vigilance | Type | Miscellaneous | ||
Year | 2007 | Publication | Evolutionary Ecology Research, | Abbreviated Journal | |
Volume | 9 | Issue | Pages | 1263-1276 | |
Keywords | attraction effect,contingency,dilution effect,fitness,group-size effect,many-eyes effect,predation risk,vigilance behaviour; predation; decline; potential; predators; predator; feeding; Animals; Animal; use; food; effects; Relationship; behaviour; methods; game; Interactions; interaction; factor; value; Energy | ||||
Abstract | Background: Predation risk declines non-linearly with one's own vigilance and the vigilance of others in the group (the 'many-eyes' effect). Furthermore, as group size increases, the individual's risk of predation may decline through dilution with more potential victims, but may increase if larger groups attract more predators. These are known, respectively, as the dilution effect and the attraction effect. Assumptions: Feeding animals use vigilance to trade-off food and safety. Net feeding rate declines linearly with vigilance. Question: How do the many-eyes, dilution, and attraction effects interact to influence the relationship between group size and vigilance behaviour? Mathematical methods: We use game theory and the fitness-generating function to determine the ESS level of vigilance of an individual within a group. Predictions: Vigilance decreases with group size as a consequence of the many-eyes and dilution effects but increases with group size as a consequence of the attraction effect, when they act independent of each other. Their synergetic effects on vigilance depend upon the relative strengths of each and their interactions. Regardless, the influence of other factors on vigilance – such as encounter rate with predators, predator lethality, marginal value of energy, and value of vigilance – decline with group size. |
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Language | English | Summary Language | Original Title | ||
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ISSN | ISBN | Medium | |||
Area | Expedition | Conference | |||
Notes | Approved | no | |||
Call Number | SLN @ rana @ 886 | Serial | 53 | ||
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Author | Poyarkov, A.D.; Subbotin, A.E. | ||||
Title ![]() |
Strategic Priorities and the System of Measures for Snow Leopard Conservation in Russia | Type | Conference Article | ||
Year | 2002 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | |||
Keywords | snow; leopard; range; conservation; habitats; cooridoors; reserve; reserves; Russia; competitors; Competition; predators prey; population; poaching; smuggling; grazers; program; 5060 | ||||
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Publisher | Islt | Place of Publication | Islt | Editor | |
Language | Summary Language | Original Title | |||
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Notes | Title, Monographic: Proceedings of the Snow Leopard Survival SummitPlace of Meeting: Seattle,WA | Approved | no | ||
Call Number | SLN @ rana @ 492 | Serial | 790 | ||
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Author | Scheber | ||||
Title ![]() |
Snow Leopard in the south part of Gobi-Altai mountain range | Type | Miscellaneous | ||
Year | 1975 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 17 | ||
Keywords | Mongolia; asia; snow-leopard; herders; livestock; predators; prey; gobi; distribution; snow leopard; browse; 960 | ||||
Abstract | Accorfing to the information from Gurvan its rumored that the snow leopards grow in number and many times they attacked the livestock entering into the domestic area causing damage, we investigated theGurvan Tes sumon of Umnogobi aimag and also Noyon sumon todisplay the reserve review and spreading area of snow leopard from 22 of December of 1975 to 10th of January of 1976. | ||||
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Language | Summary Language | Original Title | |||
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Notes | The Snow Leopard Trust has a hand copied form of this document translated from Russian, | Approved | no | ||
Call Number | SLN @ rana @ 28 | Serial | 872 | ||
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Author | Razmakhnin V.E. | ||||
Title ![]() |
Siberian wild ibex | Type | Miscellaneous | ||
Year | 1977 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 164-175 | ||
Keywords | Ussr; Siberian wild ibex; biology; distribution; number; variability; behavior; predators; snow leopard.; 8050; Russian | ||||
Abstract | It provides a detailed description of biology, distribution, geographic variability, behavior, and locomotion features of ibex in the USSR. Its population was defined as 100,000 animals, main enemies being wolf, snow leopard, and golden eagle. Wolf mainly preys on ibex at the end of winter; old males, weakened during the heat mostly becoming a prey. Snow leopards prey on ibexes all year round. Golden eagles mostly prey on young ibexes. | ||||
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Notes | Full text available in RussianJournal Title: Ungulates. Rare animals of the USSR. | Approved | no | ||
Call Number | SLN @ rana @ 783 | Serial | 810 | ||
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Author | Aizin B.M. | ||||
Title ![]() |
Siberian ibex Capra sibirica Pall | Type | Miscellaneous | ||
Year | 1969 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 98-105 | ||
Keywords | Kyrgyzsatn; Siberian ibex; distribution; life history; diet; predators; snow leopard.; 5890; Russian | ||||
Abstract | It describes status of ibex in Kyrgyzstan, its distribution, behavioral patterns, enemies and competitors, etc. The enemies of ibex are snow leopard and wolf. All year round snow leopard preys on ibex its main food object and, therefore, should there be ibexes, snow leopards would be somewhere around. In winter, a considerable number of ibex dies from wolves. Sometimes dogs prey on ibex, too. Golden eagles and bearded vultures prey on young ibexes. However, poachers remain the most dangerous enemy. | ||||
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Notes | Full text available in RussianJournal Title: Game species of Kyrgyzstan. | Approved | no | ||
Call Number | SLN @ rana @ 568 | Serial | 44 | ||
Permanent link to this record | |||||
Author | Fedosenko A.K. | ||||
Title ![]() |
Relationship between the predators and wild ungulates in North Tien Shan and Jungar Alatau | Type | Miscellaneous | ||
Year | 1979 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 72-74 | ||
Keywords | Kazakhstan; predators-preys relationship; snow leopard; preys.; 6670; Russian | ||||
Abstract | Ibex is a main prey for snow leopards. The role of marmots and snow cocks in snow leopard's consumption is negligent. It can prey on morals in the fir-wood. A case of snow leopard's attacking a dog is also known. | ||||
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Notes | Full text available in RussianJournal Title: Ecologic fundamentals of protection and sustainable use of predatory mammals. | Approved | no | ||
Call Number | SLN @ rana @ 645 | Serial | 270 | ||
Permanent link to this record | |||||
Author | Ale, S.; Whelan, C. | ||||
Title ![]() |
Reappraisal of the role of big, fierce predators | Type | Miscellaneous | ||
Year | 2008 | Publication | Biodiversity Conservation | Abbreviated Journal | |
Volume | Issue | Pages | 685-690 | ||
Keywords | Biodiversity ú Conservation ú Costs of predation ú Indirect effects ú Non-lethal effects ú Predators ú Top-down control; big; predators; predator | ||||
Abstract | The suggestion in the early 20th century that top predators were a necessary component of ecosystems because they hold herbivore populations in check and promote biodiversity was at Wrst accepted and then largely rejected. With the advent of Evolutionary Ecology and a more full appreciation of direct and indirect effects of top predators, this role of top predators is again gaining acceptance. The previous views were predicated upon lethal effects of predators but largely overlooked their non-lethal effects. We suggest that conceptual advances coupled with an increased use of experiments have convincingly demonstrated that prey experience costs that transcend the obvious cost of death. Prey species use adaptive behaviours to avoid predators, and these behaviours are not cost-free. With predation risk, prey species greatly restrict their use of available habitats and consumption of available food resources. Effects of top predators consequently cascade down to the trophic levels below them. Top predators, the biggies, are thus both the targets of and the means for conservation at the landscape scale. |
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Language | English | Summary Language | Original Title | ||
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ISSN | ISBN | Medium | |||
Area | Expedition | Conference | |||
Notes | Approved | no | |||
Call Number | SLN @ rana @ 885 | Serial | 52 | ||
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Author | Shrestha, B. | ||||
Title ![]() |
Prey Abundance and Prey Selection by Snow Leopard (uncia uncia) in the Sagarmatha (Mt. Everest) National Park, Nepal | Type | Report | ||
Year | 2008 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 1-35 | ||
Keywords | project; snow; snow leopard; snow-leopard; leopard; network; conservation; program; prey; abundance; selection; uncia; Uncia uncia; Uncia-uncia; Sagarmatha; national; national park; National-park; park; Nepal; resource; predators; predator; ecological; impact; region; community; structure; number; research; population; status; density; densities; wild; prey species; prey-species; species; Himalayan; tahr; musk; musk-deer; deer; game; birds; diet; livestock; livestock depredation; livestock-depredation; depredation; awareness; co-existence; ungulates; ungulate; Human; using; areas; area; monitoring; transect; Hair; identification; scat; attack; patterns; sighting; 1760; populations; birth; Male; Female; young; domestic; domestic livestock; 120; scats; yak; Dog; pika; wildlife; Seasons; winter; horse; study; cover; land; predation; Pressure; development; strategy; threatened; threatened species; threatened-species; conflicts; conflict; people; control; husbandry; compensation; reintroduction; blue; blue sheep; blue-sheep; sheep; free ranging | ||||
Abstract | Predators have significant ecological impacts on the region's prey-predator dynamic and community structure through their numbers and prey selection. During April-December 2007, I conducted a research in Sagarmatha (Mt. Everest) National Park (SNP) to: i) explore population status and density of wild prey species; Himalayan tahr, musk deer and game birds, ii) investigate diet of the snow leopard and to estimate prey selection by snow leopard, iii) identify the pattern of livestock depredation by snow leopard, its mitigation, and raise awareness through outreach program, and identify the challenge and opportunities on conservation snow leopard and its co-existence with wild ungulates and the human using the areas of the SNP. Methodology of my research included vantage points and regular monitoring from trails for Himalayan tahr, fixed line transect with belt drive method for musk deer and game birds, and microscopic hair identification in snow leopard's scat to investigate diet of snow leopard and to estimate prey selection. Based on available evidence and witness accounts of snow leopard attack on livestock, the patterns of livestock depredation were assessed. I obtained 201 sighting of Himalayan tahr (1760 individuals) and estimated 293 populations in post-parturient period (April-June), 394 in birth period (July -October) and 195 November- December) in rutting period. In average, ratio of male to females was ranged from 0.34 to 0.79 and ratio of kid to female was 0.21-0.35, and yearling to kid was 0.21- 0.47. The encounter rate for musk deer was 1.06 and density was 17.28/km2. For Himalayan monal, the encounter rate was 2.14 and density was 35.66/km2. I obtained 12 sighting of snow cock comprising 69 individual in Gokyo. The ratio of male to female was 1.18 and young to female was 2.18. Twelve species (8 species of wild and 4 species of domestic livestock) were identified in the 120 snow leopard scats examined. In average, snow leopard predated most frequently on Himalayan tahr and it was detected in 26.5% relative frequency of occurrence while occurred in 36.66% of all scats, then it was followed by musk deer (19.87%), yak (12.65%), cow (12.04%), dog (10.24%), unidentified mammal (3.61%), woolly hare (3.01%), rat sp. (2.4%), unidentified bird sp. (1.8%), pika (1.2%), and shrew (0.6%) (Table 5.8 ). Wild species were present in 58.99% of scats whereas domestic livestock with dog were present in 40.95% of scats. Snow leopard predated most frequently on wildlife species in three seasons; spring (61.62%), autumn (61.11%) and winter (65.51%), and most frequently on domestic species including dog in summer season (54.54%). In term of relative biomass consumed, in average, Himalayan tahr was the most important prey species contributed 26.27% of the biomass consumed. This was followed by yak (22.13%), cow (21.06%), musk deer (11.32%), horse (10.53%), wooly hare (1.09%), rat (0.29%), pika (0.14%) and shrew (0.07%). In average, domestic livestock including dog were contributed more biomass in the diet of snow leopard comprising 60.8% of the biomass consumed whilst the wild life species comprising 39.19%. The annual prey consumption by a snow leopard (based on 2 kg/day) was estimated to be three Himalayan tahr, seven musk deer, five wooly hare, four rat sp., two pika, one shrew and four livestock. In the present study, the highest frequency of attack was found during April to June and lowest to July to November. The day of rainy and cloudy was the more vulnerable to livestock depredation. Snow leopard attacks occurred were the highest at near escape cover such as shrub land and cliff. Both predation pressure on tahr and that on livestock suggest that the development of effective conservation strategies for two threatened species (predator and prey) depends on resolving conflicts between people and predators. Recently, direct control of free – ranging livestock, good husbandry and compensation to shepherds may reduce snow leopard – human conflict. In long term solution, the reintroduction of blue sheep at the higher altitudes could also “buffer” predation on livestock. | ||||
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Notes | Project funded by Snow Leopard Network's Snow Leopard Conservation Grant Program. Forum of Natural Resource Managers, Nepal. | Approved | no | ||
Call Number | SLN @ rana @ 1076 | Serial | 887 | ||
Permanent link to this record | |||||
Author | Sokolov G.A. | ||||
Title ![]() |
Predatory mammals of Central Siberia, status of populations, influence of anthropogenic factors | Type | Miscellaneous | ||
Year | 2003 | Publication | Abbreviated Journal | ||
Volume | Issue | Pages | 329-330 | ||
Keywords | Russia; siberia; predators; status; snow leopard.; 8260; Russian | ||||
Abstract | The species resources of Siberia's fauna decrease from south to north. The highest diversity of species is observed in the mountain systems, the lowest in sub-zones of south and central taiga and steppe zone, where the cat family species are absent. During the last 50 150 years number of species has decreased two- to tenfold. Imperfect hunting management, farming, and mining operations resulted in transformation of the animal habitats. Population of fox, polecat, and sable has reduced; snow leopard and dhole becoming endangered species. If current tendencies continue to develop some species will disappear in the region in decades to come. | ||||
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Notes | Full text available in RussianJournal Title: Mammal fauna of Russia and adjacent areas. Materials of conference. | Approved | no | ||
Call Number | SLN @ rana @ 804 | Serial | 906 | ||
Permanent link to this record |