Search Results - "Tíbet"

Ethnobotanical study on wild plants used by Lhoba people in Milin County, Tibet by Li, F.F., Zhuo, J.X., Jarvis, Devra I., Long, C.L.

“…The Lhoba are a small ethnic group, located in the Tibet Autonomous Region of China. Until 1960, their livelihood was predominantly based on swidden agriculture, hunting, and gathering. …”
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Evaluation of the genetic diversity and population structure of Chinese indigenous horse breeds using 27 microsatellite markers by Ling, Y.H., Ma, Y.H., Guan, Wei-Jun, Cheng, Y.J., Wang, Y.P., Han, J.L., Mang, L., Zhao, Q.J., He, X.H., Pu, Y.B., Fu, B.L.

“…The Chinese breeds could be divided into five major groups, i.e. the south or along the Yangtze river group (Bose, Debao, Wenshan, Lichuan, Jianchang, Guizhou, Luoping, Jinjiang and Dali), the Qinghai-Tibet Plateau group (Chaidamu, Hequ, Datong, Yushu, Tibet Grassland and Tibet Valley), the Northeast of China group (Elenchuns, Jilin and Heihe), the Northwest of China group (Kazakh, Yili and Yanqi) and the Inner Mongolia group (Mongolia A, Sanhe, Xinihe,Wuzhumuqin and Sengeng). …”
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Effects of Saccharomyces cerevisiae-lactic acid bacteria cocultured maize silage on dairy cows performance and in vitro rumen fermentation by Chen, Q., Liu, Z., Zhou, C., Zhong, Z., Wu, J., Jiang, A., Yang, H., Tan, Z., Lukuyu, Ben A., Kang, J.

“…However, <i>Saccharomyces cerevisiae</i> and Lactic Acid Bacteria efficacy on whole-plant maize silage under Tibet’s hypoxic and cold environment, have not been explored. …”
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Genetic diversity of tartary buckwheat based on the sequence analysis of PAL by Li, M., Zhang, Z., Wu, B., Gao, J., Li, Y.

“…But only in samples from Tibet it revealed many SNPs site,and this should be the new mutation spots in the PAL coding regions.…”
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Tartary buckwheat genetic diversity in the Himalayas associated with farmer landrace diversity and low dietary dependence by Huang, W., Jarvis, Devra I., Ahmed, S., Long, C.

“…This study examines genetic diversity patterns of tartary buckwheat in 18 smallholder farming communities across five regions of China (Yunnan Province, Tibet Autonomous Region and Sichuan Province) and Bhutan managed by Yi, Tibetan, and Bhutanese farmers using ethnobotanical surveys and DNA barcoding. …”
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Genetic diversity of 23 Chinese indigenous horse breeds revealed by microsatellite markers by Yinghui, L., Yuejiao, C., Yanping, W., Weijun, Guan, Baoling, F., Qian-Jun Zhao, Xiaohong, H., Yabin Pu, Yue-Hui Ma, Han Jianlin

“…Two-dimensional scatter plot for the first two principal factors divided Chinese horse populations into five groups: southern China, Tibet, Xinjiang and Qinghai, Inner Mongolia, and Northeast China. …”
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Genome-wide comparative analyses reveal selection signatures underlying adaptation and production in Tibetan and Poll Dorset sheep by Yingyue Zhang, Xianglan Xue, Yue Liu, Abied, A., Yangyang Ding, Shengguo Zhao, Wenqiang Wang, Liqing Ma, Jijun Guo, Weijun Guan, Yabin Pu, Mwacharo, Joram M., Han Jianlin, Yuehui Ma, Qianjun Zhao

“…Tibetan sheep are an important livestock in Tibet, providing meat and wool for Tibetans who are renown for breeding livestock that adapt well to high altitudes. …”
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Forage lignocellulose is an important factor in driving the seasonal dynamics of rumen anaerobic fungi in grazing yak and cattle by Zeyi Liang, Jianbo Zhang, Ahmad, A.A., Han Jianlin, Gharechahi, J., Mei Du, Juanshan Zheng, Peng Wang, Ping Yan, Salekdeh, G.H., Xuezhi Ding

“…Using the random forests model, the null model, and structural equation model, we investigated the seasonal dynamics and key driving factors of fiber-associated rumen AF in grazing yak and cattle throughout the year on the Qinghai-Tibet Plateau (QTP). We found that the richness and diversity of rumen AF of grazing yak and cattle in cold season were significantly higher than those in warm season (P < 0.05). …”
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Complete genome sequence of a divergent strain of Tibetan frog hepatitis B virus associated with a concave‑eared torrent frog (Odorrana tormota) by Debat, Humberto Julio, Fei Fan Ng, Terry

“…Tibetan frog hepatitis B virus (TFHBV) was recently discovered in a member of the species Nanorana parkeri (family Dicroglossidae) from Tibet. To increase our understanding of hepadnaviruses that infect amphibian hosts, we identified the full-length genome of a divergent strain, TFHBV-Ot, associated with a concave-eared torrent frog (Odorrana tormota, family Ranidae) from China by searching deep-sequencing data. …”
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Multi-omic Analyses Shed Light on The Genetic Control of High-altitude Adaptation in Sheep by Chao Li, Bingchun Chen, Suo Langda, Peng Pu, Xiaojia Zhu, Shiwei Zhou, Kalds, P., Awang Cuoji, Xiran Wang, Haolin Zhu, Yujiang Wu, Renqin Cuomu, Ba Gui, Ming Li, Yutao Wang, Yan Li, Wenwen Fang, Ting Jia, Tianchun Pu, Xiangyu Pan, Yudong Cai, Chong He, Liming Wang, Yu Jiang, Han Jianlin, Yulin Chen, Ping Zhou, Pausch, H., Xiaolong Wang

“…The Tibetan sheep has adapted to high altitudes on the Qinghai-Tibet Plateau over the past 3000 years. To explore genomic variants associated with high-altitude adaptation in Tibetan sheep, we analyzed Illumina short-reads of 994 whole genomes representing ∼ 60 sheep breeds/populations at varied altitudes, PacBio High fidelity (HiFi) reads of 13 breeds, and 96 transcriptomes from 12 sheep organs. …”
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Root-zone soil moisture prediction in rainfed systems using satellite-derived product: The case of Abbay River Basin in Ethiopia by Ayehu, Getachew Tesfaye, Tadesse, Tsegaye, Gessesse, Berhan, Abera, Wuletawu, Tibete, Degefie, Getaneh, Yonas, Tamene, Lulseged

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