Ecosystem and Global Change

生态系统与全球变化团队介绍

生态系统与全球变化团队主要通过野外观测、控制实验、模型模拟等手段，从生态系统层面系统探究生物地球化学循环及微生物群落对全球变化的响应机制，为更好的应对全球气候变化、生物多样性流失、环境退化以及实现“碳达峰、碳中和”目标提供提供理论支撑和技术指导。

团队成员

负责人：梁敏霞 教授、博士生导师

成员：

（1）陈怀海 副教授、硕士生导师

（2）陈浩 副教授、博士生导师

（3）马子龙 副教授、博士生导师

（4）张晨成 副教授、硕士生导师

（5）鄢春华 助理教授、硕士生导师

（6）Stavros Veresoglou  副教授、博士生导师

科研方向

（1）土壤微生物和碳氮循环 Soil microbiology and C/N cycles

（2）植物养分利用与全球变化 Plant nutrient use under global changes

（3）碳循环关键过程对生物多样性及全球变化的响应机制 Carbon cycling in responses to diversity and global changes

（4）地球关键带 Critical zone

（5）城市生态水文（Urban ecohydrology）

（6）物种共存 Species oexistence 

科研成果

1. 国家自然科学基金优秀青年科学基金项目、面上项目、青年项目和外国学者研究基金项目等。
2. Akande et al., Meta-analysis shows forest soil CO2 effluxes are dependent on the disturbance regime and biome type. Ecology Letters. 2023, 26, 765-777 .
3. Chen et al., Global resorption efficiencies of trace elements in leaves of terrestrial plants. Function Ecology. 2021, 1596-1602. 
4. Chen et al., Effects of no-tillage and stover mulching on the transformation and utilization of chemical fertilizer N in Northeast China. Soil and Tillage Research. 2021, 213, 105131. 
5. Chen et al., Significant response of microbial community to increased salinity across wetland ecosystems. Geoderma. 2022, 415, 115778. 
6. Huang et al., Soil development following glacier retreat shapes metagenomic and metabolomic functioning associated with asynchronous C and N accumulation. Science of The Total Environment. 2023, 164405.
7. Liang et al., Soil fungal networks moderate density-dependent survival and growth of seedlings. New Phytologist, 2021, 230, 2061-2071.
8. Liang et al., Soil fungal networks maintain local dominance of ectomycorrhizal trees. Nature Communicaitons, 2020, 11, 1-7.
9. Liang et al., Soil microbes drive phylogenetic diversity-productivity relationship in a subtropical forest. Science Advances, 2019, eaax5088.
10. Ma et al., Carbon accumulation in agroforestry systems is affected by tree species diversity and regional climate: A global meta-analysis. Global Ecology and Biogeography. 2020, 108, 2083-2094.   
11. Ma et al., Altered precipitation rather than warming and defoliation regulate short-term soil carbon and nitrogen fluxes in a northern temperate grassland. Agricultural and Forestry Meteorology. 2022, 327,109217. 
12. Huang et al., Species mixtures increase fine root length to support greater stand productivity in a natural boreal forest. Journal of Ecology. 2023, 111, 1139-1150.    
13. Qiu et al., An improved approach for estimating pan evaporation using a new aerodynamic mechanism model. Water Resources Research. 2022, 58, e2020WR027870.
14. Sun et al., Widespread controls of leaf nutrient resorption by nutrient limitation and stoi chiometry. Functional Ecology. 2023, DOI: 10.1111/1365-2435.14318. 
15. Veresoglou et al. Direction of plant-soil feedback determines plant responses to drought. Global Change Biology. 2022, 28: 3995-3997.
16. Veresoglou et al. Evolutionary bet-hedging in arbuscular mycorrhiza-associating angiosperms. New Phytologist. 2022, 233: 1984-1987.
17. Veresoglou and Johnson. Species-area relationships in microbial mediated mutualisms Trends in Microbiology. 2023, doi: 10.1016/j.tim.2023.05.008. 
18. Yan et al., Seasonal and interannual variability of surface energy fluxes and evapotranspiration over a subalpine horizontal flow wetland in China. Agricultural and Forestry Meteorology. 2020, 288–289C, 107996.
19. Yan et al., Quantifying the cooling effect of urban vegetation by mobile traverse method: A local-scale urban heat island study in a subtropical megacity. Building and Environment. 2020, 169, 106541.
20. Yan et al., An in-situ measurement and assessment of evaporative cooling effects of low impact development facilities in a subtropical city. Agricultural and Forestry Meteorology. 2023, 332, 109363.
21. Zhang et al. Variations in capacity and storage of  plant-available water in deep profiles along  a  revegetation and precipitation gradient. Journal of Hydrology. 2020, 581, 124401. 
22. Zhang et al.,Controlling on gully- and revegetation-induced dried soil layers across a slope-gully system. Science of the Total Environment. 2021, 755, 142444. 

研究生培养

生态系统与全球变化团队每年招收研究生约10名。团队旨在通过提供专业的科研训练、良好的科研平台、丰富的野外和室内控制实验、多样化的团队合作学术交流机会培养基础学科拔尖，有志向、有兴趣、有天赋，服务国家重大战略需求的人才。

科研相关照片