邓欢 - 南京师范大学

个人简介

教育背景 2007.09-2011.01 中国科学院生态环境研究中心，环境科学专业，博士 2005.10-2006.01 英国James Hutton研究所，分子生态学研究 2004.09-2007.07 中国科学院南京土壤研究所，土壤学，硕士 2000.09-2004.06 南京农业大学，生物科学，学士研究经历 2018.09-2019.09，美国犹他大学化学系，访问学者 2013.03-至今，南京师范大学环境学院，副教授，硕士生导师 2011.03 -2013.01 中国科学院城市环境研究所，生物学专业，博士后

研究领域

土壤产电微生物及其电信号和电能产生技术

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Deng H, Jiang YB, Zhou YW, Shen K, Zhong WH*. 2015. Using electrical signals of microbial fuel cells to detect copper stress on soil microorganisms. European Journal of Soil Science 66:369-377. [2] Jiang YB, Deng H（共同一作）, Sun DM, Zhong WH*. 2015. Electrical signals generated by soil microorganisms in microbial fuel cells respond linearly to soil Cd2+ pollution. Geoderma 255-256:35-41. [3] Jiang YB, Zhong WH, Han C, Deng H*. 2016. Characterization of electricity generated by soil in microbial fuel cells and the isolation of soil source exoelectrogenic bacteria. Frontiers in Microbiology 7:1776. [4] Wang J, Deng H*, Wu SS, Deng YC, Liu L, Han C, Jiang YB, Zhong WH. 2019. Assessment of abundance and diversity of exoelectrogenic bacteria in soil under different land use types. Catena. 172:572-580. [5] Wu SS, Hernándezc M, Deng YC, Han C, Hong X, Xu J, Zhong WH, Deng H*. 2019. The voltage signals of microbial fuel cell based sensors positively correlated with methane emission flux in paddy fields of China. FEMS Microbiology Ecology, 95: fiz018 [6] Zhong WH, Cai LC, Wei ZG, Xue HJ, Han C, Deng H*. 2017. The effects of closed circuit microbial fuel cells on methane emissions from paddy soil vary with straw amount. Catena 154:33-39. [7] Lu Y, Liu L, Wu SS, Zhong WH, Xu YJ, Deng H*. 2019. Electricity generation from paddy soil for powering an electronic timer and an analysis of active exoelectrogenic bacteria. AMB Express, 9:57. [8] Wu SS, Deng H*, Han C, Liu L, Zhong WH. 2018. A novel sediment microbial fuel cell based sensor for on-line and in situ monitoring copper shock in water. Electroanalysis 30: 2668-2675. [9] Deng H, Xue HJ, Zhong WH. 2017. A novel exoelectrogenic bacterium phylogenetically related to clostridium sporogenes isolated from copper contaminated soil. Electroanalysis 29:1294-1300. [10] Deng H, Wu YC, Zhang F, Huang ZC, Chen Z, Xu HJ, Zhao F*. 2014. Factors affecting the performance of single-chamber soil microbial fuel cells for power generation. Pedosphere 24:330-338. [11] Deng H, Chen Z, Zhao F*. 2012. Energy from plants and microorganisms progress in plant-microbial fuel cells. ChemSusChem 5:1006-1011. [12] Deng H*. 2012. Diversity-stability relationship of soil microbial community: What do we not know? Journal of Environmental Sciences 24:1027-1035. [13] Yin R, Deng H*, Wang HL, Zhang B. 2014. Vegetation type affects soil enzyme activities and microbial functional diversity following re-vegetation of a severely eroded red soil in sub-tropical China. Catena 115:96-103. [14] Mao TT, Yin R, Deng H*. 2015. Effects of copper on methane emission, methanogens and methanotrophs in the rhizosphere and bulk soil of rice paddy. Catena 133:233-240. [15] Zhang Y, Deng H*, Xue HJ, Chen XY, Cai C, Deng YC, Zhong WH. 2016. The effects of soil microbial and physiochemical properties on resistance and resilience to copper perturbation across China. Catena 147: 678-685. [16] Deng H, Zhang B, Yin R, Wang HL, Mitchell SM, Griffiths BS, Daniell TJ*. 2010. Long-term effect of re-vegetation on the microbial community of a severely eroded soil in sub-tropical China. Plant Soil, 328: 447-458. [17] Deng H, Li XF, Cheng WD, Zhu YG*. 2009. Resistance and resilience of Cu-polluted soil after Cu perturbation, tested by a wide range of soil microbial parameters. FEMS Microbiology Ecology. 70: 293-304. [18] Deng H, Guo GX, Zhu YG*. 2011. Pyrene effects on methanotroph community and methane oxidation rate, tested by dose-response experiment and resistance and resilience experiment. Journal of Soils and Sediments. 11:312-321. [19] Deng H, Yu YJ, Sun JE, Zhang JB, Cai ZC, Guo GX, Wen-Hui Zhong*. 2015. Parent materials have stronger effects than land use types on microbial biomass, activity and diversity in red soil in subtropical China. Pedobiologia 58:73-79.