邓娅敏

发布时间:2018年03月21日 09:52发布者:郑祺浏览次数:

        邓娅敏,中国地质大学(武汉)环境学院水文地质学教授,NSFC“环境水文地质创新研究群体和自然资源部劣质地下水成因与水质改良创新团队骨干成员,国际医学地质学协会(IMGA)中国-爱尔兰医学地质联盟秘书。主要研究领域:地下水污染与防治、水岩相互作用及其环境效应、地下水水质与供水安全等。

先后主持国家自然科学基金及其他省部级课题5项,作为技术负责承担NSFC重点国际合作项目、科技部国家国际科技合作专项、中国地质调查局二级项目及委托项目等7项。近10年来以长江中游为野外科研基地,通过环境水文地质调查,构建不同尺度的地表水-地下水监测网络,结合室内实验与模拟相结合等综合研究,揭示江汉-洞庭盆地、鄱阳湖流域水环境中污染物的分布与迁移转化规律,为长江中游生态文建设与湿地生态保护提供科学支撑与决策依据。已发表国内外学术论文50余篇,其中以第一或通讯作者在Geochimica et Cosmochimica ActaJournal of HydrologyJournal of Hazardous Materials等国际知名期刊上发表SCIEI论文19篇。

个人信息

姓名:  邓娅敏

出生年月:  1980116

籍贯:湖北省荆州市

邮箱:yamin.deng@cug.edu.cn

教育与工作经历

1999.09-2003.06  中国地质大学(武汉)环境工程专业学士学位

2003.09-2008.06  中国地质大学(武汉)环境工程专业博士学位

2008.08-2011.03  中国地质大学(武汉)地质学博士后

2009.08-2010.08  美国地质调查局(US Geological Survey, Boulder, CO)访问学者

2011.03-2018.12  中国地质大学(武汉)地质调查研究院综合地质研究中心主任

2018.12-至今    中国地质大学(武汉)环境学院教授

科研项目

2020-2023 国家自然科学基金面上项目(No. 41977174) “浅层地下水系统中锰--砷耦合作用机制及其对砷迁移转化的影响”, 2020-2023. 61万元 (主持)

2016-2019 国家自然科学基金面上项目(No. 41572226) “高砷含水层中微生物参与下铁的氧化还原循环对砷季节性动态的控制作用”, 2016-2019. 91万元 (主持)

2012-2014 国家自然科学基金青年基金项目(No.41102153)“地表水-地下水相互作用对江汉平原地下水砷释放的影响机制研究”, 2012 -2014. 25万元 (主持)

2014-2016 中央高校基本科研业务费专项摇篮计划(CUGL140412) “地下水系统生物地球化学过程及砷的季节性动态响应”, 2014-2016.  40万元 (主持)

2012-2014 湖北省环保科技项目“江汉平原典型地区地下水和土壤砷污染调查与评价研究”, 2012-2013. 40万元 (主持)

2019-2021 中国地质调查局二级项目委托项目“洞庭湖-鄱阳湖1:5万综合地质调查,800万(排名第二,技术负责)

2019-2020 中国地质调查局二级项目委托项目“海口江东新区综合地质调查红树林湿地土壤环境质量分析及评价”,568万(排名第三,技术负责)

2016-2018 中国地质调查局二级项目(No. 121201001000150121) “汉江下游旧口-沔阳段地球关键带1:5万环境地质调查”,1783万(排名第二,技术负责)

2014-2017 科技部国家国际科技合作专项(No.2014DFA20720) “地下水复合污染监测技术联合研发”, 290 (排名第三,技术负责)

2014-2015 中国地质调查局地质调查工作项目(No.12120114069301) “江汉平原重点地区1:5万水文地质调查”, 1200万(排名第三,技术负责)

2012-2016 国家自然科学基金重点国际合作项目(No. 41120124003) “地热流体来源砷的环境生物地球化学研究”, 310万(排名第三)

2011-2014 中国地质调查局地质工作项目专题(No.1212011089007) “江汉平原典型地区地下水砷污染与农药污染调查与评价研究”,490万(排名第二,技术负责)

国际学术交流报告

2007            第十二届水岩相互作用国际会议,中国昆明

2009       GSA美国地质学会年会,美国波特兰

2010            第十三届水岩相互作用国际会议,墨西哥瓜纳华托

2014            第十届地球表层地球化学国际会议,法国巴黎

2014            Goldschmidt国际地球化学年会,美国Sacramento

2016       GRACE-IUCES暑期学校,德国莱茵河畔

2017            第一届微生物组国际会议,中国武汉

2017       Goldschmidt国际地球化学年会,法国巴黎

2018       第七届环境中的砷国际学术会议,中国北京

2018       Goldschmidt国际地球化学年会,美国波士顿

2019       第八届医学地质学国际会议,中国贵阳

2019       46届国际水文地质学家大会,西班牙马拉加

代表性论著(*通讯作者)

1.       Yang, Y., Deng, Y.M. *, Xie, X., Gan, Y., Li, J. 2020. Iron isotope evidence for arsenic mobilization in shallow multi-level alluvial aquifers of Jianghan Plain, central China. Ecotoxicology and Environmental Safety, 206, 111120.

2.       Du, Y., Deng, Y.M.Ma, T., Xu, X., Tao, Y.Q., Huang, Y.W., Liu, R., Wang, Y.X. * 2020. Enrichment of Geogenic Ammonium in Quaternary AlluvialLacustrine Aquifer Systems: Evidence from Carbon Isotopes and DOM Characteristics. Environmental Science & Technology, 54:6104-6114.

3.       Yang, Y.J., Yuan, X.F., Deng, Y.M.*, Xie, X.J., Gan, Y.Q., Wang, Y.X. 2020. Seasonal dynamics of dissolved organic matter in high arsenic shallow groundwater systems. Journal of Hydrology, 589:125120.

4.       Tao, Y.Q., Deng, Y.M. *, Du, Y. *, Xu, Y., Leng, Z.C., Ma, T., Wang, Y.X. 2020. Sources and enrichment of phosphorus in groundwater of the Central Yangtze River Basin. Science of the Total Environment, 737:139837.

5.       Zheng, T.L., Deng, Y.M.*, Wang, Y.X.*, Jiang, H.C., Xie, X.J., Gan, Y.Q. 2020. Microbial sulfate reduction facilitates seasonal variation of arsenic concentration in groundwater of Jianghan Plain, Central China. Science of the Total Environment. 735:139327.

6.       Du, Y., Deng, Y.M., Ma, T.*, Shen, S., Lu, Z.J., Gan, Y.Q. 2020. Spatial Variability of Nitrate and Ammonium in Pleistocene Aquifer of Central Yangtze River Basin. Groundwater. 58(1): 110-118.

7.       Sun, X.L., Du, Y. *, Deng, Y.M., Fan, H.C., Tao, Y.Q., Ma, T. 2020. Contribution of groundwater discharge and associated contaminants input to Dongting Lake, Central China, using multiple tracers (222Rn, 18O, Cl). Environmental Geochemistry and Health. https://doi.org/10.1007/s10653-020-00687-z

8.       Wang, Y.X. *, Li, J.X., Ma, T., Xie, X.J., Deng, Y.M., Gan, Y.Q. 2020. Genesis of geogenic contaminated   groundwater: As, F and I. Critical Reviews in Environmental Science and Technology. https://doi.org/10.1080/10643389.2020.1807452

9.       Wang, Y.X. *, Wang, Q.R., Deng, Y.M., Chen, Z., Cappellen P.V., Yang, Y.J., Goldscheider, N. 2020. Assessment of the impact of geogenic and climatic factors on global risk of urinary stone disease. Science of the Total Environment, 721:137769.

10.   Xie, X.J. *, Peng, K., Wang, Y.X., Li, J.X., Qian, K., Deng, Y.M., Gan, Y.Q. 2020. In situ arsenic immobilization by chemical oxidation: Field trial and reactive transport modelling. Journal of Hydrology, 583:124645.

11.   Cao, H.L., He, J.R., Xie, X.J. *, Wang, Y.X., Li, J.X., Qian, K., Deng, Y.M., Gan, Y.Q. 2020. The effect of groundwater velocities on sulfidation of arsenic-bearing ferrihydrite: Insight from column experiments. Journal of Hydrology, 586:124827.

12.   Yan, L., Xie, X.J. *, Wang, Y.X., Qian, K., Chi, Z.Y., Li, J.X., Deng, Y.M., Gan Y.Q. 2020. Organic-matter composition and microbial communities as key indicators for arsenic mobility in groundwater aquifers: Evidence from PLFA and 3D fluorescence. Journal of Hydrology, 591:125308

13.   Zheng, T.L., Deng, Y.M. *, Wang, Y.X. *, Jiang, H.C., O’Loughlin, E.J., Flynn, T.M., Gan, Y.Q., Ma, T. 2019. Seasonal microbial variation accounts for arsenic dynamics in shallow alluvial aquifer systems. Journal of Hazardous Materials, 367: 109-119.

14.   Wu, G., Yang, J., Jiang, H.C. *, Deng, Y.M., Lear, G. 2019. Distribution of potentially pathogenic bacteria in the groundwater of the Jianghan Plain, central China. International Biodeterioration & Biodegradation, 143:104711.

15.   Wang, Y.X. *, Pi, K.F., Fendorf, S., Deng, Y.M., Xie, X.J. 2019. Sedimentogenesis and hydrobiogeochemistry of high arsenic Late Pleistocene-Holocene aquifer systems. Earth-Science Reviews, 189:79-98.

16.   Duan, Y.H., Michael V.S., Wang, Y.X. *, Gan,Y.Q., Yu, K., Deng, Y.M., Fendorf, S. 2019. Experimental constraints on redox-induced arsenic release and retention from aquifer sediments in the central Yangtze River Basin. Science of the Total Environment, 649:629-639.

17.   Shen, S., Ma, T. *, Du, Y., Luo, K.W., Deng, Y.M., Lu, Z.J. 2019. Temporal variations in groundwater nitrogen under intensive groundwater/surface-water interaction. Hydrogeology Journal. 27(5): 1753-1766.

18.   Deng, Y.M.*, Zheng, T.L., Wang, Y.X*., et al. 2018. Effect of microbially mediated iron mineral transformation on temporal variation of arsenic in the Pleistocene aquifers of the central Yangtze River basin. Science of the Total Environment. 619-620C:1147-1158.

19.   Du, Y., Deng, Y.M.*, Ma, T., et al. 2018. Hydrogeochemical evidences for targeting sources of safe groundwater supply in arsenic-affected multi-level aquifer systems. Science of the Total Environment. 645:1159-1171.

20.   Wang, Y.X., Deng, Y.M. 2018. Chapter 30 Environmental Geochemistry of High Arsenic Aquifer Systems in Handbook of Advanced Industrial and Hazardous Wastes Management. edited by Lawrence K. Wang, Mu-Hao S. Wang, Yung-Tse Hung, Nazih K. Shammas, Jiaping Paul Chen. Taylor and Francis & CRC Press. ISBN 9781466513419.

21.   Du, Y., Ma, T. *, Deng, Y.M., et al. 2018. Characterizing groundwater-surface water interactions in the interior of the Jianghan Plain, central China. Hydrogeology Journal. 26(4):1047-1059.

22.   Gan, Y.Q., Zhao, K., Deng, Y.M., et al. 2018. Groundwater flow and hydrogeochemical evolution in the Jianghan Plain, central China. Hydrogeology Journal. 26(5):1609-1623.

23.   Du,Y., Ma, T. *, Deng,Y.M.*, et al. 2017. Sources and fate of high levels of ammonium in surface water and shallow groundwater of the Jianghan Plain, Central China. Environmental Science-Processes& Impacts, 19(2):161-172.

24.   Liu, N.J., Deng, Y.M.*, Wu, Y. 2017. Arsenic, iron and organic matter in Quaternary Aquifer Sediments from western Hetao Basin, Inner Mongolia. Journal of Earth Science, 28(3):473-483.

25.   Yao, L.L., Wang, Y.X. *, Tong, L., Deng, Y.M., et al. 2017. Occurrence and risk assessment of antibiotics in surface water and groundwater from different depths of aquifers: A case study at Jianghan Plain, central China. Ecotoxicology and Environmental Safety, 135: 236-242.

26.   Chen, X.M., Zeng, X.C. *, Wang, J.N., Deng, Y.M. et al. 2017. Microbial communities involved in arsenic mobilization and release from the deep sediments into groundwater in Jianghan plain, Central China. Science of the Total Environment. 579:989-999.

27.   Lu, X.L., Wang, N., Wang, H.M. *, Deng, Y.M., Ma, T., et al. 2017. Molecular Characterization of the Total Bacteria and Dissimilatory Arsenate-Reducing Bacteria in Core Sediments of the Jianghan Plain, Central China. Geomicrobiology Journal. 34 (5): 467-479.

28.   Duan, Y.H., Gan, Y.Q., Wang, Y.X.*, Liu, C.X., Yu, K., Deng, Y.M., et al. 2017. Arsenic Speciation in Aquifer Sediment Under Varying Groundwater Regime and Redox Conditions at Jianghan Plain of Central China. Science of the Total Environment, 607-608: 992-1000.

29.   Yang, Y.J., Deng, Y.M., Wang, Y.X.*.2016. Major geogenic factors controlling geographical clustering of urolithiasis in China. Science of the Total Environment, 571:1164-1171.

30.   Duan, Y.H., Wang, Y.X. *, Gan, Y.Q., Deng, Y.M. et al. 2015. Temporal variation of groundwater level and arsenic concentration at Jianghan Plain, central China. Journal of Geochemical Exploration, 149:106-119.

31.   Gan, Y.Q., Wang, Y.X. *, Duan, Y.H., Deng, Y.M., Guo, X.X., Ding, X.F. 2014. Hydrogeochemistry and arsenic contamination of groundwater in the Jianghan Plain, central China. Journal of Geochemical Exploration, 138:81-93.

32.   He, X., Ma, T.*, Wang, Y.X., Shan, H.M., Deng, Y.M. 2013. Hydrogeochemistry of high fluoride groundwater in shallow aquifers, Hangjinhouqi, Hetao Plain. Journal of Geochemical Exploration, 135: 63-70.

33.   Guo, Y., Bao Z.Y., Deng, Y.M., Ma, Z.D., Yan S. 2011. Environmental Geochemistry of Abandoned Flotation Tailing Reservior from the Tonglvshan Fe-Cu Sulfide Mine in Daye, Central China. Bulletin of Environmental Contamination and Toxicology, 87: 91-95.

34.   Deng, Y.M., Nordstrom, D.K.*, McCleskey, R.B. 2011. Fluoride geochemistry of hydrothermal waters in Yellowstone National Park: I. Fluoride aqueous speciation. Geochimica et Cosmochimica Acta, 75:4476-4489.

35.   Deng, Y.M., Wang, Y.X.*, Ma, T., Yang H., He J. 2011. Arsenic association in sediments from shallow aquifers of northern Hetao Basin, Northern China. Environmental Earth Sciences, 64:2001-2011.

36.   Deng, Y.M., Wang, Y.X.*, and Ma, T. 2009. Isotope and minor element geochemistry of high arsenic groundwater from Hangjinhouqi of the Hetao Plain, Inner Mongolia. Applied Geochemistry, 24: 587-599.

37.   Deng, Y.M., Wang, Y.X.*, Ma, T., and Gan, Y.Q. 2009. Speciation and enrichment of arsenic in strongly reducing shallow aquifers at western Hetao Plain, northern China. Environmental Geology, 56(7): 1467-1477.

38.   Wang, Y.X. and Deng, Y.M. 2009. Environmental Geochemistry of High-Arsenic Aquifer Systems. In: Lawrence K. Wang, Jiaping Paul Chen, Yung-Tse Hung. (Eds), Heavy Metals in the Environment, Chapter 5, London: Taylor & Francis Group. ISBN 978-1-4200-7316-4, 123-154.

39.   He, J., Ma, T.*, Deng, Y.M., Yang, H., and Wang, Y.X. Environmental geochemistry of high arsenic groundwater at western Hetao plain, Inner Mongolia. Frontiers of Earth Science in China, 2009. 3: 63-72.

40.   袁晓芳,邓娅敏*,杜尧,甘义群. 2020. 江汉平原高砷地下水稳定碳同位素特征及其指示意义. 地质科技通报

41.   徐雨潇,郑天亮,高杰,邓娅敏*,蒋宏忱. 2020. 江汉平原浅层含水层中土著硫酸盐还原菌对砷迁移释放的影响. 地球科学

42.   孙晓梁,杜尧*邓娅敏,陶艳秋,马腾. 2020. 1996-2017年枯水期地下水排泄对洞庭湖水量均衡的贡献及其时间变异性. 地球科学

43.   王焰新*,甘义群,邓娅敏,谢先军. 2020. 海岸带海陆交互作用过程及其生态环境效应研究进展. 地质科技通报39(1):1-10.

44.   田飞翔,郑天亮,李琦,邓娅敏*. 2018.江汉平原第四系沉积物中砷的垂向分布规律及其对地下水中砷浓度的影响. 地质科技情报, 37 (3): 226-234

45.   郑天亮, 邓娅敏*, 鲁宗杰,甘义群. 2017.江汉平原浅层高砷含水层稀土元素地球化学特征. 地球科学, 42(5): 693-706.

46.   鲁宗杰,邓娅敏*,杜尧,沈帅,马腾. 2017. 江汉平原高砷地下水中DOM三维荧光特征及其指示意义.地球科学, 42(5): 771-782.

47.   高杰,郑天亮,邓娅敏*,蒋宏忱. 2017. 江汉平原高砷地下水原位微生物的铁还原及其对砷释放的影响. 地球科学, 42(5): 716-726.

48.   杜尧, 马腾*, 邓娅敏, 廖曼, 郑倩琳. 2017. 潜流带水文-生物地球化学:原理、方法及其生态意义. 地球科学, 42(5), 661-673.

49.   於昊天, 马腾*, 邓娅敏, 杜尧, 沈帅, 鲁宗杰. 2017. 江汉平原东部地区浅层地下水水化学特征. 地球科学, 42(5), 685-692.

50.   沈帅, 马腾*, 杜尧, 邓娅敏, 於昊天, 罗可文. 2017. 江汉平原典型地区季节性水文条件影响下氮的动态变化规律. 地球科学, 42(5), 674-684.

51.   邓娅敏*,王焰新,李慧娟等. 2015. 江汉平原砷中毒病区地下水砷形态季节性变化特征. 地球科学. 40(11):1876-1886.

52.   李红梅,邓娅敏*,罗莉威等. 2015. 江汉平原高砷含水层沉积物地球化学特征. 地质科技情报. 34(3): 178-184.

53.   邓娅敏,徐恒力*,佟元清. 2006.“有序开采:北方地区地下水资源利用中两难选择的途径. 中国人口,资源与环境. 16(1):127-131