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中国科学院地球化学研究所导师教师师资介绍简介-冯新斌
本站小编 Free考研考试/2021-11-05
姓名: 冯新斌 性别: 男
职称: 研究员 学历: 博士
电话: 无 传真: 无
Email: fengxinbin@mail.gyig.ac.cn 邮编: 550081
地址: 贵阳市观山湖区林城西路99号
简历:
1988年毕业于中国地质大学(武汉)地球化学系地球化学与勘查专业,获工学学士学位。1988年9月至1991年7月在湖北省地质矿产局安全环保研究所从事环境监测工作。1991年8月至1997年10月在中国科学院地球化学研究所攻读硕士和博士学位,主要从事汞的环境地球化学研究,并于1994年和1997年分别获地球化学理学硕士和博士学位。1997年11月至2000年12月在瑞典哥德堡大学无机化学系从事博士后研究,主要研究方向为大气汞的环境化学。2000年6月至今,在中国科学院地球化学研究所环境地球化学国家重点实验室工作,研究员。2011年起历任副所长、党委副书记、党委书记。2019年2月25日起,主持地化所行政工作;2020年4月任所长。
研究方向:
1、重金属生物地球化学循环与健康
2、非传统稳定同位素地球化学
3、重金属污染环境的修复
承担科研项目情况:
1. 汞同位素分馏及 NOTCH 细胞生物标记:环境与健康联系的新标记方法(国家自然科学基金委员会重大国际合作项目,批准号:,负责人,2012.01-2016.12,经费:300万元)
2. 我国汞污染特征、环境过程及减排技术原理(国家科技部973项目),批准号:2013CB430000,首席科学家,2013.01-2017.08,经费:3800万元)
3. 地气间汞交换、汞甲基化、食物链富集及污染环境修复-中国与瑞典典型生态环境的对比研究(中国科学院国际合作局对外合作重点项目,项目编号:132852KYSB**,负责人,2014.01-2016.12,经费:80万)
4. 亚热带与温带森林小流域生态系统汞的生物地球化学循环及同位素分馏(国家自然科学基金重点项目,批准号:**,负责人,2015.01-2019.12,经费:360万)
5. 汞在地表环境重要形态转化及生物积累过程汞同位素分馏特征(中国科学院前沿科学重点研究项目,批准号:QYZDJ-SSW-DQC005,负责人,2016.08-2020.12,经费:300万)
专家类别:
****基金入选者
职务:
所长、党委书记,环境地球化学国家重点实验室主任、博士生导师。
社会任职:
主要社会兼职为中国矿物岩石地球化学学会理事和环境地球化学专业委员会主任委员;中国地理学会环境地理和化学地理专业委员会委员;中国化学会理事和环境化学专业委员会委员;中国环境学会环境化学分会委员;中国毒理学会分析毒理专业委员会委员;第四纪学会地表过程专业委员会委员;中国分析测试学会原子光谱及相关技术专业委员会委员;中国环境学会重金属污染防治专业委员会副主任委员;中国土壤学会环境土壤专业委员会委员。是国际SCI学术期刊“Journal of Geochemical Exploration”副主编; SCI刊物“Journal of Environmental Science”、“Atmosphere”编委;国际期刊“Journal of Trace Element Analysis”编委;国内核心刊物“地球与环境”、“生态毒理学报”、“Acta Geochimica”副主编;国内核心刊物“环境化学”、 “环境科学与技术”等刊物的编委。第九届汞全球污染物国际学术会议大会主席,第十七届环境中重金属国际学术会议大会主席,国际医学地质学会-中国-爱尔兰分会主席。
获奖及荣誉:
2011年荣获中国科学院“青年国际合作奖”;2012年获得“全国优秀科技工作者”称号
1、1998年获中国环境科学学会首届青年科技奖;
2、2000年获中国矿物岩石地球化学学会第八届侯德封奖;
3、2003年获贵州省青年科技奖;
4、2004年获中科院优秀研究生导师奖;
5、2004年获贵州省科技进步一等奖(排名第六);
6、2006年获中科院优秀研究生导师奖;
7、2006年获贵州省直机关十大****称号;
8、2006年获国务院政府特殊津贴;
9、2007年获中科院优秀研究生导师奖;
10、2008年获中科院王宽诚西部****突出贡献奖;
11、2008年获朱李月华优秀研究生导师奖;
12、2009年获贵州省五一劳动奖章;
13、2009年获贵州省优秀科技工作者称号;
14、2010年获贵州省先进工作者称号;
15、2010年获中科院优秀研究生导师奖;
16、2012年获全国优秀科技工作者称号;
17、2012年获贵州省核心专家称号;
18、2012年获中国科学院优秀研究生导师奖;
19、2012年获中国科学院优秀研究生指导教师奖;
20、2013年获科技部中青年科技创新领军人才称号;
21、2013年获中国科学院优秀研究生导师奖;
代表论著:
已在相关领域的国内外期刊上发表学术论文300余篇,其中SCI收录文章200余篇,专著1部。近5年代表性文章目录:
[1] Sun G.Y., Sommar J*., Feng XB*., Lin C-J., Ge MF., Wang WG., Yin RS., Fu XW., Shang LH. Mass-dependent and -independent mercury isotope fractionation during gas-phase oxidation of elemental mercury vapor by the atomic halogens Br and Cl. Environmental Science and Technology, 2016, 50 (17): 9232–9241, DOI: 10.1021/acs.est.6b01668
[2] Yu B., Fu X.*, Yin R., Zhang H., Wang X., Lin C-J., Wu C., Zhang Y., He N., Fu P., Wang Z., Shang L*., Sommar J., Sonke J.E., Maurice L., Guinot B., Feng X*., Isotopic composition of atmospheric mercury in China: New evidence for source and transformation processes in air and in vegetation. Environmental Science and Technology, 2016, 2016, 50 (17): 9262–9269. DOI: 10.1021/acs.est.6b01782
[3] Sprovieri F*., Pirrone N., Bencardino M., D'Amore F., Carbone F., Cinnirella S., Mannarino V., Landis M., Ebinghaus R., Weigelt A., Brunke E.-G., Labuschagne C., Martin L., Munthe J., W?ngberg I., Artaxo P., Morais F., Barbosa H. D. M. J., Brito J., Cairns W., Barbante C., Diéguez M. D. C., Garcia P. E., Dommergue A., Angot H., Magand O., Skov H., Horvat M., Kotnik J., Read K. A., Neves L. M., Gawlik B. M., Sena F., Mashyanov N., Obolkin V., Wip D., Feng X. B., Zhang H., Fu X., Ramachandran R., Cossa D., Knoery J., Marusczak N., Nerentorp M., Norstrom C. Atmospheric mercury concentrations observed at ground-based monitoring sites globally distributed in the framework of the GMOS network. Atmospheric Chemistry and Physics, 2016, 16: 11915–11935, doi:10.5194/acp-16-11915-2016
[4] Huang Q., Chen J.B*., Huang W., Fu P.Q., Guinot B., Feng X.B., Shang L., Wang Z.H., Wang Z., Yuan S., Cai H., Wei L., Yu B. Isotopic composition for source identification of mercury in atmospheric fine particles. Atmospheric Chemistry and Physics, 2016, 16:11773-11786, doi:10.5194/acp-16-11773-2016
[5] Fu X., Xu Y., Lang X., Zhu J., Zhang H., Yu B., Yan H., Lin C-J., Feng X*., Atmospheric wet and litterfall mercury deposition in typical rural and urban areas in China. Atmospheric Chemistry and Physics, 2016, 16, 11547–11562, doi:10.5194/acp-16-11547-2016
[6] Wang X., Lin C-J., Lu Z.Y., Zhang H., Zhang Y.P. Feng X*., Enhanced accumulation and storage of mercury on subtropical forest floor: Implications on mercury budget in global forest ecosystems. Journal of Geophysical Research-Biogeoscience, 2016, 121, 2096–2109, doi:10.1002/2016JG003446.
[7] Wang X., Lin C-J.*, Yuan W., Sommar J., Zhu W., Feng X*., Emission-dominated gas exchange of elemental mercury vapor over natural surfaces in China. Atmospheric Chemistry and Physics, 2016, 11125–11143. doi:10.5194/acp-16-11125-2016
[8] Wang X., Bao Z.D., Lin C-J*., Yuan W., Feng X*., Assessment of global mercury deposition through litterfall. Environmental Science and Technology, 2016, 50(16): 8548–8557, DOI: 10.1021/acs.est.5b06351
[9] Li P., Li YF., Feng X.B.,* Mercury and selenium interactions in human blood in the Wanshan mercury mining area, China. Science of the Total Environment, 2016, 573: 376-381. DOI: 10.1016/j.scitotenv.2016.08.098
[10] Liang P., Feng X.B*., You Q.Z., Zhang J., Cao Y.C., Leung A.O.W., Wu S.C*., Mercury speciation, distribution, and bioaccumulation in a river catchment impacted by compact fluorescent lamp manufactures. Environmental Science and Pollution Research, 2016, 23:10903-10910. DOI: 10.1007/s11356-016-6229-9
[11] Tang S.L., Wang L.N., Feng X.B., Feng Z.H., Li R.Y., Fan H.P., Li K., Actual mercury speciation and mercury discharges from coal-fired power plants in Inner Mongolia, Northern China. Fuel, 2016, 180:194-204. DOI: 10.1016/j.fuel.2016.04.037
[12] Zhao L., Qiu G., Anderson C. W. N., Meng B*., Wang D.Y., Shang L., Yan H., Feng X., Mercury methylation in rice paddies and its possible controlling factors in the Hg mining area, Guizhou Province, Southwest China. Environmental Pollution 2016, 215:1-9, 10.1016/j.envpol.2016.05.001
[13] Zhao L., Anderson C. W. N.,Qiu G.L., Meng B*. Wang D.Y., Feng X*., Mercury Methylation in paddy soil: Source and distribution of mercury species at a Hg mining area, Guizhou Province, China. Biogeosciences, 2016, 13, 2429–2440, doi:10.5194/bg-13-2429-2016
[14] Zhu W., Lin J*., Wang X., Sommar J., Fu X.W., Feng X.B*., Global observations and modeling of atmosphere-surface exchange of elemental mercury: a critical review. Atmospheric Chemistry and Physics, 2016, 16, 4451–4480, doi:10.5194/acp-16-4451-2016
[15] Sommar J*., Zhu W., Shang L., Lin J., Feng X*., Seasonal variations in metallic mercury (Hg0) vapor exchange over biannual wheat - corn rotation cropland in the North China Plain. Biogeosciences, 2016, 13, 2029–2049, doi:10.5194/bg-13-2029-2016.
[16] Yin R., Feng X., Zhang J., Pan K., Wang W-X., Li X-D*., Using mercury isotopes to understand the bioaccumulation of Hg in the subtropical Pearl River Estuary, South China. Chemosphere, 2016, 147: 173-179. http://dx.doi.org/10.1016/j.chemosphere.2015.12.100
[17] Lin Y, Yang Y., Li YX., Yang L., Hou XD., Feng XB., Zheng CB*. Ultrasensitive Speciation Analysis of Mercury in Rice by Headspace Solid Phase Microextraction Using Porous Carbons and Gas Chromatography-Dielectric Barrier Discharge Optical Emission Spectrometry. Environmental Science and Technology, 2016, 50(5): 2468-2476. DOI:10.1021/acs.est.5b04328
[18] Yin R., Feng X*., Hurley J. P., Krabbenhoft D.P., Lepak R.F., Kang S., Yang H., Li X., Rising temperature accelerates aqueous mercury photo-reduction in Tibetan Plateau lakes. Scientific Reports, 2016, 6:23332. DOI: 10.1038/srep23332
[19] Chen JB*., Hintelmann H., Zheng W., Feng XB., Cai HM., Wang ZH., Yuan SL., Wang ZW., Isotopic evidence for distinct sources of mercury in lake waters and sediments. Chemical Geology, 2016, 426:33-44. DOI: 10.1016/j.chemgeo.2016.01.30
[20] Yin R., Gu C.H., Feng X*., Hurley J. P., Krabbenhoft D.P., Lepak R.F., Zhu W., Zheng L.R., Hu T.D., Distribution and Geochemical Speciation of Soil Mercury in Wanshan Hg Mine: Effects of Cultivations. Geoderma, 2016, 272:32-38, http://dx.doi.org/10.1016/j.geoderma.2016.03.003
[21] Zhou X., Zhang XN., Feng X.B., Zhou J., Zhou SQ*., Preparation of a La/N co-doped TiO2 film electrode with visible light response and if photoelectrocatalytical activity on a Ni substrate. Dyes and Pigments, 2016, 125:375-383.
[22] Meng B., Feng X*., Qiu G., Li Z., Yao H., Shang L., Yan H. The impacts of organic matter on the distribution and methylation of mercury in a hydroelectric reservoir in Wujiang River, Southwest China. Environmental Toxicology and Chemistry, 2016, 35(1):191–199. DOI: 10.1002/etc.3181
[23] Yin R., Feng X*., Hurley J. P., Krabbenhoft D.P., Lepak R.F., Hu R.Z., Zhang Q., Li Z., Bi X., Mercury isotopes as proxies to identify sources and environmental impacts of mercury in sphalerites. Scientific Reports, 2016,6, 18686, DOI: 10.1038/srep18686
[24] Kim K-H*, Hong Y-J, Szulejko J E., Kang C-H., Chambers S., Feng X., Deep A., KimY-H. Airborne iron across major urban centers in South Korea between 1991and 2012. Science of the Total Environment. 2016, 550:309-320. http://dx.doi.org/10.1016/j.scitotenv.2015.11.109
[25] Ahmed E., Kim K-H*., Kim J-O., Park J.-K., Chambers S. D., Feng X. Sohn J-R., Jeon E-C., Pollution of airborne metallic species in Seoul, Korea from 1998 to 2010. Atmospheric Environment, 2016, 124: 85-94. http://dx.doi.org/10.1016/j.atmosenv.2015.11.001
[26] Kim K-H*., Sul K-H., Szulejko J.E., Chambers S. D., Feng X., Lee M-H., Progress in the reduction of carbon monoxide levels in major areas in Korea. Environmental Pollution, 2015, 207: 420-428, http://dx.doi.org/10.1016/j.envpol.2015.09.008
[27] Wang Z.H., Chen J.B.*, Feng X., Hintelmann H., Yuan S.L., Cai H.M., Huang Q., Wang S.X., Wang F.Y., Mass-dependent and mass-independent fractionation of mercury isotopes in precipitation drom Guiyang, SW China. Comptes Rendus Geosciences, 2015, 237(7-8): 358-367. DOI:10.1016/j.crte.2015.02.006.
[28] Wang X., Zhang H., Lin J*., Fu X.W., Zhang Y., Feng X*., Transboundary transport and deposition of Hg emission from springtime biomass burning in Indo-China Peninsula. Journal of Geophysical Research- Atmospheres. 2015, 120, 9758-9771, doi:10.1002/2015JD023525.
[29] Yu B., Wang X., Lin J., Fu X., Zhang H., Shang L., Feng X*., Characteristics and potential sources of atmospheric mercury at a subtropical near-coastal site in East China. Journal of Geophysical Research- Atmospheres. 2015, 120, 8563-8574. doi:10.1002/2015JD023425.
[30] Li P., Feng X*., Chan H.M., Zhang X.F., Du B., Human body burden and dietary methylmercury intake: the relationship in a rice consuming population. Environmental Science and Technology, 2015, 49 (16): 9682–9689, DOI: 10.1021/acs.est.5b00195
[31] Fu X., Zhang H., Wang X., Yu B., Lin J., Feng X.*, Observations of atmospheric mercury in China: A critical review. Atmospheric Chemistry and Physics, 2015, 15, 9455–9476, doi:10.5194/acp-15-9455-2015
[32] Li P., Du B., Chan H.M., Feng X*., Human inorganic mercury exposure, renal effects and possible pathways in Wanshan mercury mining area, China. Environmental Research, 2015, 140:198–204, http://dx.doi.org/10.1016/j.envres.2015.03.033
[33] Zhu W., Sommar J*., Lin C.-J., Feng X*. Mercury Vapor Air-Surface Exchange Measured by Collocated Micrometeorological and Enclosure Methods – Part II: Bias and Uncertainty Analysis. Atmospheric Chemistry and Physics, 2015, 15, 5359–5376, doi:10.5194/acp-15-5359-2015
[34] Huang Q., Liu Y.L., Chen J.B.*, Feng X., Huang W.L., Liu S., Cai H., Fu X., An improved dual-stage protocol to preconcentrate mercury from airborne particles for precise isotopic measurement. J. Anal. At. Spectrom., 2015,30, 957-966. DOI: 10.1039/c4ja00438h
[35] Zhang C., Qiu G., Anderson C. W. N., Zhang H., Meng B., Liang L., Feng X*., Effect of atmospheric mercury deposition on selenium accumulation in rice (Oryza sativa L.) at a mercury mining region in Southwestern China. Environmental Science and Technology, 2015, 49: 3540–3547, DOI: 10.1021/es505827d.
[36] Yin R., Feng X., Chen B., Zhang J., Wang W-X., Li X-D*., Identifying the Sources and processes of Mercury in Subtropical Estuarine and Ocean Sediments Using Hg Isotopic Composition. Environmental Science and Technology, 2015, 49:1347-1355.
[37] Liang P., Feng X*., Zhang C., Zhang J., Cao Y., You Q., Shen Y., Wong M-H., Wu S-C*. Human exposure to mercury in a compact fluorescent lamp manufacturing area: by food (rice and fish) consumption and occupational exposure. Environmental Pollution, 2015, 198:126-132, DOI:10.1016/j.envpol.2014.12.036.
[38] Fu X. W., Zhang H., Lin C.-J., Feng X*., Zhou L. X*., Fang S. X. Correlation slopes of GEM/CO, GEM/CO2, and GEM/CH4 and estimated mercury emissions in China, South Asia, Indochinese Peninsula, and Central Asia derived from observations in northwest and southwest China. Atmospheric Chemistry and Physics, 2015, 15, 1013-1028, DOI:10.5194/acp-15-1013-2015.
[39] Zhu W., Sommar J*., Lin C.-J., Feng X*. Mercury Vapor Air-Surface Exchange Measured by Collocated Micrometeorological and Enclosure Methods – Part I: Data Comparability and Method Characteristics. Atmospheric Chemistry and Physics, 2015, 15:685-702, doi:10.5194/acp-15-685-2015
[40] Zhang H., Fu X. W., Lin C.-J., Wang X., Feng X*. Observation and analysis of speciated atmospheric mercury in Shangri-la, Tibetan Plateau, China. Atmospheric Chemistry and Physics, 2015, 15: 653-665, doi:10.5194/acp-15-1-2015
[41] Liu J., Xu X*., Yu S., Cheng H., Peng J., Hong Y., Feng X., Mercury contamination in fish and human hair from Hainan Island, South China Sea: Implication for human exposure. Environmental Research, 2014, 135:42-47, http://dx.doi.org/10.1016/j.envres.2014.08.023.
[42] Wang J., Feng X.*, Anderson C.W.N., Qiu G., Bao Z., Shang L., Environmental risk as a function of agricultural land use for Hg-contaminated soil at the Wanshan mining area, Southwest China. Environmental Toxicology and Chemistry, 2014, 33: 2147-2155.
[43] Meng B., Feng X*., Qiu G., Anderson C.W.N., Wang J., Zhao L. Localization and speciation of mercury in brown rice with implications for pan-Asian public health. Environmental Science and Technology, 2014, 48: 7974?7981.
[44] Yin R., Feng X*., Li X., Yu B., Du B., Trends and Advances in Mercury Stable Isotopes as a Geochemical Tracer. Trends in Environmental Analytical Chemistry, 2014, 2: 1-10.
[45] Wang X., Lin C.-J*., Feng X*., Sensitivity analysis of an updated bidirectional air–surface exchange model for elemental mercury vapor. Atmospheric Chemistry and Physics, 2014, 14, 6273-6287, doi:10.5194/acp-14-6273-2014
[46] Yin R., Feng X*., Chen J., Mercury Stable Isotope Compositions in Coals from Major Coal Producing Fields in China and Their Geochemical and Environmental Implications. Environmental Science and Technology, 2014, 48: 5565?5574. DOI: 10.1021/es500322n
[47] Li Z., Feng X*., Bi X., Li G., Lin Y., Sun G. Probing the distribution and contamination levels of 10 trace metal/metalloids in soils near a Pb/Zn smelter in Middle China. Environmental Science and Pollution Research, 2014, 21:4149-4162. DOI 10.1007/s11356-013-2407-1
[48] Liu J., Xu X*., Yu S., Cheng H., Hong Y., Feng X., Mercury pollution in fish from South China Sea: Levels, species-specific accumulation, and possible sources. Environmental Research, 2014, 131: 160-164. http://dx.doi.org/10.1016/j.envres.2014.03.004
[49] Zhang H, Feng X*., Jiang C., Li Q., Liu Y., Gu C., Shang L., Lin Y., Larssen T., Understanding the Paradox of Selenium Contamination in Mercury Mining Areas: High Soil Content and Low Accumulation in Rice. Environmental Pollution, 2014, 188, 27-36. 10.1016/j.envpol.2014.01.012.
[50] Zhang H., Feng X*., Chan H.M., Larssen T., New Insights into Traditional Health Risk Assessments of Mercury Exposure: Implications of Selenium. Environmental Science and Technology, 2014, 48: 1206?1212, dx.doi.org/10.1021/es**
[51] Wang J., Feng X.*, Anderson C.W.N., Wang H., Wang L., Phytoextraction of mercury contaminated soil- results from a field trial. Plant and Soil, 2014, 375:21-33, DOI 10.1007/s11104-013-1940-5
[52] Zhang H., Feng X*., Larssen T., Selenium speciation, distribution, and transport in a river catchment affected by mercury mining and smelting in Wanshan, China. Applied Geochemistry, 2014, 40:1-10. http://dx.doi.org/10.1016/j.apgeochem.2013.10.016
[53] Cui L., Feng X*., Lin C-L*., Wang X., Meng B., Wang X., Wang H. Accumulation and translocation of 198Hg in four crop species. Environmental Toxicology and Chemistry, 2014, 33:334-340. DOI: 10.1002/etc.2443
[54] Higueras P., Oyarzun R. Kotnik J.. Esbr? J. M., Mart?′nez-Coronado A., Horvat M., Lo′pez-Berdonces M. A., Llanos W., Vaselli O., Nisi B., Mashyanov N., Ryzov V., Spiric Z., Panichev N., McCrindle R., Feng X., Fu X., Lillo J., Loredo J., Garc?′a M.E., Alfonso P., Villegas K., Palacios S., Oyarzu′n J., Maturana H., Contreras F., Adams M., Ribeiro-Guevara S., Niecenski L.F., Giammanco S., Huremovic J., A compilation of field surveys on gaseous elemental mercury (GEM) from contrasting environmental settings in Europe, South America, South Africa and China: separating fads from facts. Environmental Geochemistry and Health, 2014, 36:713-734
[55] Li Z., Feng X*., Li G., Bi X., Zhu J., Qin H., Dai Z., Liu J., Li Q., Sun Y., Distributions, sources and pollution status of 17 trace metal/metalloids in the street dust of a heavily industrialized city of central China. Environmental Pollution, 2013, 182: 408-416.DOI: 10.1016/j.envpol.2013.07.041
[56] Zhang H., Yin R., Feng X*., Sommar J., Anderson C. W. N., Sapkota A., Fu X., Larssen T. Atmospheric mercury inputs in montane soils increase with elevation: evidence from mercury isotope signatures. Scientific Reports, 2013, 3: 3322. DOI: 10.1038/srep03322
[57] Dai Z., Feng X*., Zhang C., Wang J., Jiang T., Xiao H., Li Y., Wang X., Assessing anthropogenic sources of mercury in soil in Wanshan Hg mining area, Guizhou, China. Environmental Science and Pollution Research, 2013,20(11): 7560-7569
[58] Sommar J*., Zhu W., Shang L., Feng X., Lin C-J., A whole-air relaxed eddy accumulation measurement system for sampling vertical vapour exchange of elemental mercury. Tellus (B), 2013, 65, 19940, DOI:10.3402/tellusb.v65i0.19940
[59] Zhou J., Feng X*., Liu H., Zhang H., Fu X., Bao Z., Wang X., Zhang Y. Examination of total mercury inputs by precipitation and litterfall in a remote upland forest of Southwestern China. Atmospheric Environment, 2013, 81: 364-372. DOI: 10.1016/j.atmosenv.2013.09.010
[60] Hu H., Lin H., Zheng W., Tomanicek S J., Johs A., Feng X., Elias D A., Liang L., Gu B*. Oxidation and methylation of dissolved elemental mercury by anaerobic bacteria. Nature Geoscience, 2013; 6 (9): 751-754. DOI: 10.1038/NGEO1894 DOI: 10.1038/ngeo1894
[61] Hu H., Lin H., Zheng W., Rao B., Feng X., Liang L., Elias D. A., Gu B*. Mercury Reduction and Cell-Surface Adsorption by Geobacter sulfurreducens PCA. Environmental Science and Technology, 2013, 47: 10922-10930.DOI: 10.1021/es400527m
[62] Li P., Feng X*., Liang P., Chan H. M., Zeng E. Y., Yan H., Chen L., Dietary mercury intake and potential health risk through seafood consumption in Guangdong, South China. Environmental Toxicology and Chemistry, 2013, 32( 3): 541–547
[63] Li P., Feng X*.,Qiu G., Zhang J., Meng B., Wang J. Mercury speciation and mobility in mine wastes from mercury mines in China. Environmental Science and Pollution Research, 2013, 20:8374-8381, DOI: 10.1007/s11356-013-1731-9
[64] Yan H., Li Q., Meng B., Wang C., Feng X*., He T., Dominik J., Spatial distribution and methylation of mercury in a eutrophic reservoir heavily contaminated by mercury in Southwest China. Applied Geochemistry, 2013, 33: 182–190
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[99] Liu B., Yan H., Wang C., Li Q., Guédron S., Feng X.*, Dominik J., Insights into low fish mercury bioaccumulation in a mercury-contaminated reservoir, Guizhou, China. Environmental Pollution, 2012, 160: 109-117.
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