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Journal Abstract Search

308 related items for PubMed ID: 36293622

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  • 3. Spatial and temporal patterns of above- and below- ground biomass over the Tibet Plateau grasslands and their sensitivity to climate change.
    Wu Y, Li F, Zhang J, Liu Y, Li H, Zhou B, Shen B, Hou L, Xu D, Ding L, Chen S, Liu X, Peng J.
    Sci Total Environ; 2024 Apr 01; 919():170900. PubMed ID: 38354804
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  • 5. Biomass allocation and productivity-richness relationship across four grassland types at the Qinghai Plateau.
    Dai L, Guo X, Ke X, Lan Y, Zhang F, Li Y, Lin L, Li Q, Cao G, Fan B, Qian D, Zhou H, Du Y.
    Ecol Evol; 2020 Jan 01; 10(1):506-516. PubMed ID: 31988738
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  • 7. Soil respiration in Tibetan alpine grasslands: belowground biomass and soil moisture, but not soil temperature, best explain the large-scale patterns.
    Geng Y, Wang Y, Yang K, Wang S, Zeng H, Baumann F, Kuehn P, Scholten T, He JS.
    PLoS One; 2012 Jan 01; 7(4):e34968. PubMed ID: 22509373
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  • 8. Effects of Grazing on Above- vs. Below-Ground Biomass Allocation of Alpine Grasslands on the Northern Tibetan Plateau.
    Zeng C, Wu J, Zhang X.
    PLoS One; 2015 Jan 01; 10(8):e0135173. PubMed ID: 26284515
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  • 9. Abiotic and biotic factors modulate plant biomass and root/shoot (R/S) ratios in grassland on the Loess Plateau, China.
    Yang Y, Dou Y, An S, Zhu Z.
    Sci Total Environ; 2018 Sep 15; 636():621-631. PubMed ID: 29723835
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  • 10. [Carbon and nitrogen stable isotopes technology in the researches on alpine meadow ecosystem in Qinghai-Tibet Plateau: Progress and prospect].
    Zhou CL, Li YK, Cao GM, Peng CJ, Song MH, Xu XL, Zhou HK, Lin L.
    Ying Yong Sheng Tai Xue Bao; 2020 Oct 15; 31(10):3568-3578. PubMed ID: 33314848
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  • 11. Differential Responses of Plant Primary Productivity to Nutrient Addition in Natural and Restored Alpine Grasslands in the Qinghai Lake Basin.
    Li C, Li Y, Li X, Ma L, Xiao Y, Zhang C.
    Front Plant Sci; 2021 Oct 15; 12():792123. PubMed ID: 34987537
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  • 12. Spatial patterns and driving factors of aboveground and belowground biomass over the eastern Eurasian steppe.
    Ding L, Li Z, Shen B, Wang X, Xu D, Yan R, Yan Y, Xin X, Xiao J, Li M, Wang P.
    Sci Total Environ; 2022 Jan 10; 803():149700. PubMed ID: 34487901
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  • 13. Ecosystem Carbon Storage in Alpine Grassland on the Qinghai Plateau.
    Liu S, Zhang F, Du Y, Guo X, Lin L, Li Y, Li Q, Cao G.
    PLoS One; 2016 Jan 10; 11(8):e0160420. PubMed ID: 27494253
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  • 14. Eco-physiological processes are more sensitive to simulated N deposition in leguminous forbs than non-leguminous forbs in an alpine meadow of the Qinghai-Tibetan Plateau.
    Shen H, Dong S, DiTommaso A, Li S, Xiao J, Yang M, Zhang J, Gao X, Xu Y, Zhi Y, Liu S, Dong Q, Wang W, Liu P, Xu J.
    Sci Total Environ; 2020 Nov 20; 744():140612. PubMed ID: 32711302
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  • 15. Drought of early time in growing season decreases community aboveground biomass, but increases belowground biomass in a desert steppe.
    Li X, Zuo X, Yue P, Zhao X, Hu Y, Guo X, Guo A, Xu C, Yu Q.
    BMC Ecol Evol; 2021 Jun 01; 21(1):106. PubMed ID: 34074246
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  • 16. Variation of plant CSR strategies across a precipitation gradient in the alpine grasslands on the northern Tibet Plateau.
    Yu J, Hou G, Zhou T, Shi P, Zong N, Sun J.
    Sci Total Environ; 2022 Sep 10; 838(Pt 3):156512. PubMed ID: 35679928
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  • 17. Regional differences in the impact paths of climate on aboveground biomass in alpine grasslands across the Qinghai-Tibet Plateau.
    Li P, Zhu W, He B.
    Sci Total Environ; 2024 Oct 15; 947():174421. PubMed ID: 38972405
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  • 20. Precipitation and local adaptation drive spatiotemporal variations of aboveground biomass and species richness in Tibetan alpine grasslands.
    Deng Z, Zhao J, Ma P, Zhang H, Li R, Wang Z, Tang Y, Luo T.
    Oecologia; 2023 Jun 15; 202(2):381-395. PubMed ID: 37314486
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