生態(tài)與環(huán)境科學學院

HY Liu, H Wang, N Li, JJ Shao, XH Zhou, KJ van Groenigen, MP Thakur. 2022. Phenological mistches between above- and belowground plant responses to climate warming.?Nature Climate Change 12: 97-102.

HY Liu, ZR Mi, LL, YH Wang, ZH Zhang, FW Zhang, H W, LL Liu, B Zhu, GM Cao, XQ Zhao, NJ. Sanders, AT. Classen, PB. Reich, J-S He. 2018. Shifting plant species composition in response to climate change stabilizes grassland primary production. Proceedings of the National Academy of Sciences?115: 4051-4056.

ZY Ma#, HY Liu#, ZR Mi, ZH Zhang, YH Wang, W Xu, L Jiang, J-S He. 2017. Climate warming reduces the temporal stability of plant? community biomass production. Nature Communications?8: 15878.

HM Zhou, XT Min, JH Chen, CY Lu, YX Huang, ZH Zhang, HY Liu*. 2023. Climate warming interacts with other global change drivers to influence plant phenology: A meta‐analysis of experimental studies.?Ecology Letters?26: 1370-1381.

HY Liu,?CY Lu, SD Wang, F Ren, H Wang. 2021. Climate warming extends growing season but not reproductive phase of terrestrial plants. Global Ecology and Biogrography?30: 950-960.

HY Liu, L Lin, H Wang, ZH Zhang, ZJ Shangguan, XJ Feng, J-S He. 2020. Simulating warmer and drier climate increases root production but decreases root decomposition in an alpine grassland on the Tibetan plateau. Plant and Soil?https://doi.org/10.1007/s11104-020-04551-y.

CY Lu, JJ Zhang, XT Min, JH Chen, YX Huang, HF Zhao, T Yan, X Liu, H Wang, HY Liu*. 2023. Contrasting responses of early- and late-season plant phenophases to altered precipitation. Oikos?https://doi.org/10.1111/oik.09829

YH Wang#, HY Liu#, H Chung, LF Yu, ZR Mi, Y Geng, X Jing, SP Wang, H Zeng, GM Cao, XQ Zhao, J-S He. 2014. Non-growing-season soil respiration is controlled by freezing and thawing processes in the summer monsoon-dominated Tibetan alpine grassland. Global Biogeochemical Cycles?28:1081-1095.

H Wang#, HY Liu#, YH Wang, W Xu, AR Liu, ZY Ma, ZR Mi, ZH Zhang, SP Wang, J-S He. 2017.Warm- and cold- season grazing affect soil respiration differently in alpine grasslands. Agriculture, Ecosystems and Environment 248: 136-143.

HY Liu?#, Y Li#, F Ren, L Lin, WY Zhu, KC Niu, J-S He. 2017. Trait-abundance relation in response to nutrient addition in a Tibetan alpine meadow: the importance of species tradeoff in resource conservation and acquisition. Ecology and Evolution?7: 10575-10581.

Y Geng, L Wang, DM Jin, HY Liu, J-S He. 2014. Alpine climate alters the relationships between leaf and root morphological traits but not chemical traits. Oecologia 175: 445-455.

W Xu, MY Zhu, ZH Zhang, ZY Ma, HY Liu, LT Chen, GM Cao, XQ Zhao, B Schmid, J-S He. 2017. Experimentally simulating warmer and wetter climate additively improves rangeland quality on the Tibetan Plateau. Journal of Applied Ecology?55:1486-1497.

JJ Shao, TF Yuan, Z Li, N Li,HY Liu, SH Bai, JY Xia, M Lu, XH Zhou. 2019. Plant evolutionary history mainly explains the variance in biomass response to climate warming at a global scale. New Phytologist?https://doi.org/10.1111/nph.15695.

YH He, WX Cheng, LY Zhou, JJ Shao, HY Liu, HM Zhou, K Zhu, XH Zhou. 2020. Soil DOC release and aggregate disruption mediate rhizosphere priming effect on soil C decomposition. Soil Biology and Biochemistry. 144: 107787.