胡艳宇 (2018级博士研究生)
姓名:胡艳宇 2018级博士研究生 工作单位:中国科学院生态研究所
教育背景:
2011.09 — 2015.07 大连民族大学,环境科学,获得理学学士学位
2015.09 — 2018.07 永利娱高ylg060net,生态学,获得理学硕士学位
2018.09 — 2021.12 永利娱高ylg060net,生态学,攻读博士学位
研究方向:
植物化学计量特征对全球变化的响应与适应;草地生态系统结构和功能对全球变化的响应
导师:王正文研究员、吕晓涛研究员
Email: 2219647582 AT qq.com
发表论文:
Xiao-Tao L *, Sasha Reed, Shuang-Li Hou, Yan-Yu Hu, Hai-Wei Wei, Fu-Mei Lu, Qiang Cui, Xing-Guo Han. 2017. Temporal variability of foliar nutrients: responses to nitrogen deposition and prescribed fire in a temperate steppe. Biogeochemistry, 133: 295-305.
Shuang-Li Hou, Jiang-Xia Yin, Jun-Jie Yang, Guo-Jiao Yang, Hai-Wei Wei, Yan-Yu Hu, Xing-Guo Han, Xiao-Tao L *. 2017. Consistent responses of litter stoichiometry to N addition across different biological organization levels in a semi-arid grassland. Plant and Soil, 421:191-202.
胡艳宇, 乌云娜, 霍光伟, 等. 不同放牧强度下羊草草原群落斑块植被-土壤特征[J]. 生态学杂志, 2018, 37(01): 9-16.
Xiao-Tao L *, Zhuo-Yi Liu, Yan-Yu Hu, Hai-Yang Zhang. 2018. Testing nitrogen and water co-limitation of primary productivity in a temperate steppe. Plant and Soil, 432: 119-127.
Xiao-Tao L , Yan-Yu Hu, Hai-Yang Zhang, Hai-Wei Wei, Shuang-Li Hou, Guo-Jiao Yang, Zhuo-Yi Liu, Xiao-Bo Wang. 2018. Intraspecific variation drives community-level stoichiometric responses to nitrogen and water enrichment in a temperate steppe. Plant and Soil. 423: 307-315.
Shuang-Li Hou, Gregoire T. Freschet, Jun-Jie Yang, Yun-Hai Zhang, Jiang-Xia Yin, Yan-Yu Hu, Hai-Wei Wei, Xing-Guo Han, Xiao-Tao L *. 2018. Quantifying the indirect effects of nitrogen deposition on grassland litter chemical traits. Biogeochemistry, 139: 261-273.
Shuang-Li Hou, Xiao-Tao L *, Jiang-Xia Yin, Jun-Jie Yang, Yan-Yu Hu, Hai-Wei Wei, Zhi-Wei Zhang, Guo-Jiao Yang, Zhuo-Yi Liu, Xing-Guo Han. 2019. The relative contributions of intra- and inter-specific variation in driving community stoichiometric responses to nitrogen deposition and mowing in a grassland. Science of the Total Environment, 666: 887-893.
Xiao-Tao L *, Yan-Yu Hu, Amelia Wolf, Xing-Guo Han. 2019. Species richness mediates within-species nutrient resorption: implications for the biodiversity-productivity relationship. Journal of Ecology. (Accepted)