A WILDLIFE MONITORING SYSTEM BASED ON TIANDITU AND BEIDOU: IN CASE OF THE TIBETAN ANTELOPE [PDF]
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2016 Positioning and tracking wildlife is already being an effective way to collect biological information for research and species of wildlife protection.
H. Zhang, J. Jiang, D. Wei, J. Jiang
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Characterization of fungal microbial diversity in Tibetan sheep, Tibetan gazelle and Tibetan antelope in the Qiangtang region of Tibet. [PDF]
Mycoscience, 2022 Due to the high crude fiber content, straw of various crops is difficult to become a high quality forage resource. The degradation of cellulose in nature mainly depends on the cellulase secreted by microbes, which degrade cellulose into small molecular substances through chemical action, and the microbes that secrete cellulase mainly include some ...
Shang Z +7 more
europepmc +3 more sources
Biochemical pedomorphosis and genetic assimilation in the hypoxia adaptation of Tibetan antelope. [PDF]
Sci Adv, 2020 Tibetan antelope have adapted to high-altitude hypoxia via juvenilization of blood properties.
Signore AV, Storz JF.
europepmc +4 more sources
Remote Sensing in Ecology and ConservationWith the advancement of artificial intelligence (AI) technologies, vehicle‐mounted mobile monitoring systems have become increasingly integrated into wildlife monitoring practices.
Leilei Shi +6 more
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In vivo and in vitro development of Tibetan antelope (Pantholops hodgsonii) interspecific cloned embryos [PDF]
Frontiers of Agricultural Science and Engineering, 2014 The Tibetan antelope is endemic to the Tibetan Plateau, China, and is now considered an endangered species. As a possible rescue strategy, the development of embryos constructed by interspecies somatic cell nuclear transfer (iSCNT) was examined.
Guanghua SU,Lei CHENG,Yu GAO,Kun LIU,Zhuying WEI,Chunling BAI,Fengxia YIN,Li GAO,Guangpeng LI,Shorgan BOU
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Ecological Indicators, 2021 Climate change is predicted to directly or indirectly affect species distribution and abundance, especially the species that live on the Qinghai-Tibet plateau that is highly sensitive to climate change.
Jingjie Zhang +9 more
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Identifying Conservation and Conflict Zones for Tibetan Brown Bears Under Climate Change Through Integrated Habitat and Prey Modeling on the Qinghai-Tibet Plateau. [PDF]
Ecol EvolThis study evaluates the future habitat dynamics of the Tibetan brown bear on the Qinghai‐Tibet Plateau under climate change by integrating predator–prey relationships and environmental variables using the MaxEnt model. Results show significant habitat contraction and shifting patterns, increasing the risk of human‐bear conflict.
Sun Q, Wanghe K, Dai Y.
europepmc +2 more sources
Differences in Dietary Composition and Interspecific Competition Among Large Carnivores on the Qinghai-Xizang Plateau. [PDF]
Ecol EvolThis study elucidated the mechanisms underlying regional coexistence among the snow leopard (Panthera uncia), wolf (Canis lupus), and brown bear (Ursus arctos) through the analysis of their trophic niches. The findings provide a scientific foundation for further investigation into the mechanisms that maintain carnivore communities in high‐altitude ...
Wang D, Li Q, Lian X.
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Zoonoses, 2023 Tibetan antelope ( Rhinopithecus ), blue sheep ( Pseudois nayauris ), and plateau pika ( Ochotona curzoniae ) are wild animals living on the Qinghai-Tibet Plateau.
Yue-Zhang Wu +9 more
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Complex responses of spring vegetation growth to climate in a moisture-limited alpine meadow. [PDF]
, 2016 Since 2000, the phenology has advanced in some years and at some locations on the Qinghai-Tibetan Plateau, whereas it has been delayed in others. To understand the variations in spring vegetation growth in response to climate, we conducted both regional ...
Cao, Xujuan +11 more
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