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Nie, Ming

Nie, Ming, Associate Professor

E-mail: mnie@fudan.edu.cn

 

 

 

 

Dr. Nie got his bachlor’s degree at Hunan Agricultural University in 2004, master’s degree in Microbiology at Shanhai Normal University in 2007, and Ph.D. in Ecology at Fudan University in 2010. He did his post-doctoral researches at University of Wyoming (2011-2013) and University of Aberdeen (2013-2015). From 2015, he joins  Fudan University.

 

Research Interests

1. Responses of ecosystem processes to environmental changes; 2. Dynamic changes and their driven factors of ecosystem carbon source/sink.

 

Awards

Young Thousand Talents Program Scholar in 2017;Shanghai Pujiang Scholar Program in 2016

 

Selected publications

  1. Nie M*, Zou J, Xu X, Liang C, Fang C, Li B. (2018)Comment on “Unexpected reversal of C3 versus C4 grass response to elevated CO2 during a 20-year field experiment”. Science. 361, eaau3016.
  2. Nie M*, Pendall E, Bell C, Gasch CK, Raut S, Tamang S, Wallenstein M. (2013) Positive climate feedbacks of soil microbial communities in a semiarid grassland. Ecology Letters. 16: 234-241.
  3. Nie M*, Lu M, Bell J, Raut S, Pendall E. (2013) Altered root traits due to elevated CO2: a meta-analysis. Global Ecology and Biogeography. 22: 1095-1105.
  4. Nie M*, Pendall E, Bell C, Wallenstein M. (2014) Soil aggregate size distribution mediates microbial climate change feedbacks. Soil Biology and Biochemistry. 68: 357-365.
  5. Nie M*, Pendall E. (2016) Do rhizosphere priming effects enhance plant nitrogen uptake under elevated CO2Agriculture, Ecosystems & Environment. 224: 50-55.
  6. Li J, Yan D, Pendall E, Pei J, Jin Noh N, He J, Li B, Nie M*, Fang C*. (2018) Depth dependence of soil carbon temperature sensitivity across Tibetan permafrost regions. Soil Biology & Biochemistry. 126, 82-90.
  7. Wang M, Pendall E, Fang C, Li B, Nie M*.  (2018)A global perspective on agroecosystem nitrogen cycles after returning crop residue. Agriculture, Ecosystems & Environment. 266: 49-54.
  8. Chen H, Zou J, Cui J, Nie M*, Fang C*. (2018)Wetland drying increases the temperature sensitivity of soil respiration. Soil Biology & Biochemistry. 120, 24-27.
  9. Li J, Pei J, Cui J, Chen X, Li B, Nie M*, Fang C*. (2017)Carbon quality mediates the temperature sensitivity of soil organic carbon decomposition in managed ecosystems. Agriculture, Ecosystems & Environment. 250: 44-50.
  10. Yan D, Li J, Pei J, Cui J, Nie M*, Fang C*. (2017)The temperature sensitivity of soil organic carbon decomposition is greater in subsoil than in topsoil during laboratory incubation. Scientific Reports. 7: 5181.