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李小方


李小方 博士,研究员,博士生导师
        2010年博士毕业于生态环境研究中心,同年获得中科院“朱李月华”优秀博士生奖。2010-2015年于昆士兰大学从事博士后研究,期间获得UQ博士后基金和UQ青年基金资助。2016年5月受聘为中科院遗传发育所农业资源研究中心研究员,同年获率先行动“百人计划”资助。2017年获得河北省杰出青年基金。近十年一直致力于土壤重金属污染研究,先后从事了农田铜镍污染风险评估、矿区重金属污染修复方面的研究。目前的研究致力于开发先进生物技术,用于解决重金属污染农田安全利用问题,并期望将相关技术应用于重金属尾矿的治理中。


研究组研究目标
        为重金属污染环境修复提供生态可持续、廉价、易于实施的现代生物技术。
 
研究内容
        筛选重金属超抗性/累积的微生物、真菌、植物,揭示其重金属抗性/累积遗传学决定因子;并通过基因工程技术改造现有生物材料;结合环境化学过程,为重金属生态修复提供成套的生物技术。
 
 
 
研究人员
        李小方 研究员
        郑鑫 助理研究员
        陈亮 研究助理
        陈苗苗 研究助理
 
        Imdad Ullah Zaid, PIFI Postdoctoral Research Fellow
 
        杨树森 博士研究生
        Md Mominul Islam, PhD Candidate
        陈镜好 硕士研究生
        星超 硕士研究生
        Sajid Hanif, MSc Candidate
 

代表论文
 
Xin Zheng; Liang Chen; Xiaofang Li (correspondence). Functional metagenomics to mine the soil microbiome for novel cadmium-resistance genetic determinants. Pedosphere (accepted)
 
Chen Miaomiao; Zheng Xin; Chen Liang; Li Xiaofang(correspondence. Cadmium resistance screening of oyster mushroom from north China for mycoremediatio. Pedosphere (in press)    
 
陈苗苗; 郑鑫; 李小方(通讯作者). 大型真菌重金属富集能力与机制研究进展 农业资源与环境学报, 2017.9.13, 34(6): 499~508.
 
Li, X.F. (correspondence), Huang, L.B. 2015. Toward a New Paradigm for Tailings Phytostabilization-Nature of the Substrates, Amendment Options, and Anthropogenic Pedogenesis. Critical Reviews in Environmental Science and Technology, 45(8), 813-839. 
 
Li, X.F., You, F., Bond, P.L., Huang, L.B. 2015. Establishing microbial diversity and functions in weathered and neutral Cu-Pb-Zn tailings with native soil addition. Geoderma, 247, 108-116.     
 
Li, X.F., Zhu, Y.G., Shaban, B., Bruxner, T.J.C., Bond, P.L., Huang, L.B. 2015. Assessing the genetic diversity of Cu resistance in mine tailings through high-throughput recovery of full-length copA genes. Scientific Reports, 5, 13258.     
 
Li, X.F., Bond, P.L., Van Nostrand, J.D., Zhou, J.Z., Huang, L.B. 2015. From lithotroph- to organotroph-dominant: directional shift of microbial community in sulphidic tailings during phytostabilization. Scientific Reports, 5, 12978.     
 
Huang, L.B., Li, X.F., Nguyen, T.A.H. 2015. Extremely High Phosphate Sorption Capacity in Cu-Pb-Zn Mine Tailings. Plos One, 10(8), e0135364.     
 
Li, X.F.(correspondence, Huang, L.B., Bond, P.L., Lu, Y., Vink, S. 2014. Bacterial diversity in response to direct revegetation in the Pb-Zn-Cu tailings under subtropical and semi-arid conditions. Ecological Engineering, 68, 233-240.     
 
Li, X.(correspondence, You, F., Huang, L., et al., Dynamics in leachate chemistry of Cu-Au tailings in response to biochar and woodchip amendments: a column leaching study. Environmental Sciences Europe, 2013, 25(1), 32.      
 
Li, X.F., Park, J.H., Edraki, M., Baumgartl, T. 2014. Understanding the salinity issue of coal mine spoils in the context of salt cycle. Environmental Geochemistry and Health, 36(3), 453-465. 
 
Park, J.H., Li, X.F., Edraki, M., Baumgartl, T., Kirsch, B. 2013. Geochemical assessments and classification of coal mine spoils for better understanding of potential salinity issues at closure. Environmental Science-Processes & Impacts, 15(6), 1235-1244.     
Li, X.F., Yin, H.B., Su, J.Q. 2012. An Attempt to Quantify Cu-Resistant Microorganisms in a Paddy Soil from Jiaxing, China. Pedosphere, 22(2), 201-205.         
 
Li, X.F., Sun, J.W., Huang, Y.Z., Ma, Y.B., Zhu, Y.G. 2010. Copper Toxicity Thresholds in Chinese Soils Based on Substrate-Induced Nitrification Assay. Environmental Toxicology and Chemistry, 29(2), 294-300.     
 
Li, X.F., Huang, Y.Z., Ma, Y.B., Sun, J.W., Cui, H.J. 2010. Leaching impacts Ni toxicity differently among soils but increases its predictability according to nitrification assay. Journal of Soils and Sediments, 10(3), 579-589.     
 
Deng, H., Li, X.F.(共同第一作者), Cheng, W.D., Zhu, Y.G. 2009. Resistance and resilience of Cu-polluted soil after Cu perturbation, tested by a wide range of soil microbial parameters. FEMS Microbiology Ecology, 70(2), 293-304. 
 
Li, X.F., Zhu, Y.G., Cavagnaro, T.R., Chen, M.M., Sun, J.W., Chen, X.P., Qiao, M. 2009. Do ammonia-oxidizing archaea respond to soil Cu contamination similarly asammonia-oxidizing bacteria? Plant and Soil, 324(1-2), 209-217.