聂明

基本信息:

职称:研究员(青年)

电话:021-51630702

邮箱:mnie@fudan.edu.cn

地址:复旦大学江湾校区生命科学学院G521

个人简介

男,1981年出生,博士。2010年获复旦大学生态学博士学位,2011-2015年分别在美国怀俄明大学与英国阿伯丁大学从事博士后研究工作。2015年聘为复旦大学生命科学学院研究员(青年)、博士生导师。

 

主要研究方向

1、生态系统过程及其对环境变化的响应;2、生态系统碳源/汇的变化特征及其影响因素

 

获奖情况

2017年  中组部青年千人计划

2016年  上海浦江人才计划

 

代表性成果:

1. Nie M, Shang L, Liao CZ, Li B (2017) Changes in primary production and carbon sequestration after plant invasions. In: Vila, M., Hulme, P. (eds), Impact of biological invasions on ecosystem services. Springer, New York, 17-31.

2. Nie M and Pendall E (2016) Do rhizosphere priming effects enhance plant nitrogen availability under elevated CO2Agriculture, Ecosystems & Environment, 224: 50-55.

3. Nie M, Bell C, Wallenstein MD and Pendall E (2015) Increased plant productivity and decreased microbial respiratory C loss by plant growth-promoting rhizobacteria under elevated CO2. Scientific Reports, 5: 9212.

4. Ding X, Peng XJ, Jin BS, Xiao M, Chen JK, Li B, Fang CM, and Nie M* (2015) Spatial distribution of bacterial communities driven by multiple environmental factors in a beach wetland of the largest freshwater lake in China. Frontiers in Microbiology, 6.

5. Nie M, Pendall E, Bell C, and Wallenstein MD (2014). Soil aggregate size distribution mediates microbial climate change feedbacks. Soil Biology and Biochemistry, 68: 357-365.

6. Nie M, Pendall E, Bell C, Gasch CK, Raut S, Tamang S, and Wallenstein MD (2013) Positive climate feedbacks of soil microbial communities in a semiarid grassland. Ecology Letters, 16: 234-241.

7. Xu X, Zhao W, Xiao M, Huang J, Fang C, Li B, Wang Y, Nie M* (2014) Snails promote methane release from a freshwater lake ecosystem. Frontiers in Environmental Science, 2, 12.

8. Nie M, Lu M, Bell J, Raut S, and Pendall E (2013) Altered root traits due to elevated CO2: a meta-analysis. Global Ecology and Biogeography, 22: 1095-1105.

9. Meng H, Li K, Nie M*, Wan JR, Quan ZX, Fang CM, Chen JK, Gu JD, and Li B (2013) Responses of bacterial and fungal communities to an elevation gradient in a subtropical montane forest of China. Applied Microbiology and Biotechnology, 97: 2219-2230.

10. Nie M, Meng H, Li K, Wan JR, Quan ZX, Fang CM, Chen JK, and Li B (2012) Comparison of bacterial and fungal communities between natural and planted pine forests in subtropical China. Current Microbiology, 64, 34-42.

11. Nie M, Wang YJ, Yu JY, Xiao M, Jiang LF, Yang J, Fang CM, Chen JK, and Li B (2011) Understanding plant-microbe interactions for phytoremediation of petroleum-polluted soil. PLoS One, 6, e17961.

12. Nie M, Lu M, Yang Q, Zhang XD, Xiao M, Jiang, LF, Yang J, Fang CM, Chen JK, and Li B (2011) Plants’ use of different nitrogen forms in response to crude oil contamination. Environmental Pollution 159, 157-163.

13. Nie M, Yang Q, Jiang LF, Fang CM, Chen JK, and Li B (2010) Do plants modulate biomass allocation in response to petroleum pollution? Biology Letters 6, 811-814.

14. Nie M, Gao LX, Yan JH, Fu XH, Yang J, and Li B (2010) Ecotypic variation of invasive Spartina alterniflora can differentiate bacterial diversity in its rhizosphere. Plant Ecology 209, 219-226.

15. Nie M, Xian NX, Fu XH, Chen XF, and Li B (2010) The interactive effects of petroleum-hydrocarbon spillage and plant rhizosphere on concentrations and distribution of heavy metals in sediments in the Yellow River Delta, China. Journal of Hazardous Materials 174, 156–161.

16. Nie M, Zhang XD, Wang JQ, Jiang LF, Yang J, Quan ZX, Cui XH, Fang CM, and Li B (2009) Rhizosphere effects on soil bacterial abundance and diversity in the Yellow River Deltaic ecosystem as influenced by petroleum contamination and soil salinization. Soil Biology & Biochemistry 41, 2535-2542.

17. Nie M, Wang M, and Li B (2009) Effects of saltmarsh invasion by Spartina alterniflora on sulfate-reducing bacteria in the Yangtze River estuary. Ecological Engineering 35, 1804-1808.

 

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