基本信息Personal Information
教授 博士生导师 硕士生导师
曾获荣誉 : 2015年度优秀女教职工
2017-2018年度优秀共产党员
第九届“研究生良师益友”
性别 : 女
毕业院校 : 中国地质大学(武汉)
学历 : 博士研究生
学位 : 工学博士学位
在职信息 : 在职
所在单位 : 环境学院
入职时间 : 2008年07月15日
学科 : 环境工程
办公地点 : 中国地质大学(武汉)未来城校区科教四环境学院512
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个人简介Personal Profile
邓娅敏,中国地质大学(武汉)环境学院教授,博士生导师, NSFC“环境水文地质”创新研究群体成员,自然资源部“劣质地下水成因与水质改良创新团队”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,中国环境科学学会污染源排放与管控专业委员会副主任,“环境水文地质”卓越研究生导学团队负责人,《安全与环境工程》期刊编委,第四十九届国际水文地质大会和第十二届全国环境化学大会秘书长。
主要研究方向:地下水污染与防治、水岩相互作用及其环境效应,地下水质与健康。作为项目技术负责完成的地质调查项目成果“流域地球关键带调查与示范”荣获2019年度中国地质调查局地质科技奖二等奖(排名第三)。
先后主持国家自然科学基金及其他省部级课题7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10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等综合研究手段,揭示江汉-洞庭盆地、鄱阳湖流域水环境中污染物的时空分布与迁移转化规律,为长江中游河湖湿地生态保护与生态文明建设提供科学支撑。
科研项目
作为项目负责人主持的科研项目:
1. 国家重点研发计划重点专项“特大城市群工业集聚区大气-土壤-地下水污染综合防控关键技术及示范”课题一“关键元素和特征污染物的跨介质立体动态监测”(No.2023YFC3709801). 2023.12-2027.11. 900 万元
2. 国家自然科学基金地质联合基金重点项目“地下水排泄驱动的红树林湿地生源要素循环及其生态效应”(No.U2244225). 2023.01-2026.12. 246万元
3. 国家自然科学基金科学部综合科技活动类项目“会议培训类:第四十九届国际水文地质大会”(No.42242012 ). 2022-2022. 15万元
4. 国家重点研发计划“变革性技术关键科学问题”重点专项"劣质地下水改良的原位调控理论与技术研究"(No.2021YFA0715900)课题四子课题“水动力调控下有害组分原位强化去除技术研发". 2022-2025. 50万元
5. 湖北省重点研发计划项目重点项目“江汉平原四湖流域湿地-地下水系统中氮磷溯源与归趋研究”(No. 2020BCA088). 2021-2022. 200万元
6. 国家自然科学基金面上项目“浅层地下水系统中锰-铁-砷耦合作用机制及其对砷迁移转化的影响". (No. 41977174), 2020-2023. 61万元
7. 国家自然科学基金面上项目“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” (No. 41572226), 2016-2019. 91万元
8. 国家自然科学基金青年基金项目“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” (No.41102153) , 2012 -2014. 25万元
9. 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
10. 中央高校基本科研业务费专项摇篮计划“地下水系统生物地球化学过程及砷的季节性动态响应”(CUGL140412), 2014-2016. 40万元
11. 生物地质与环境地质国家重点实验室优先资助开放课题 “微生物介导下硫氧化还原循环对含水层中砷迁移转化的控制”(No.128-GBL21711),2017-2019. 10万元
作为技术负责或项目骨干参与的科研项目:
1. 国家自然科学基金委创新研究群体“环境水文地质”(No. 41521001), 2016-2021. 1050万元 (项目骨干)
2. 国家自然科学基金委专项项目“地球健康学科发展战略研究”(No. 42042053),2021-2021. 60万元 (项目骨干)
3. 中国地质调查局二级项目委托项目“洞庭湖-鄱阳湖(调关幅、白马寺幅、星子县幅、波阳县幅、三叉港幅、漉湖芦苇场幅)1:5万综合地质调查“,2019-2021. 870万元(技术负责)
4. 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“,2019-2020. 568 万元(技术负责)
5. 中国地质调查局二级项目 "汉江下游旧口-沔阳段地球关键带1:5万环境地质调查", 2016-2018. 1783万元(技术负责)
6. 科技部国家国际科技合作专项“地下水复合污染监测技术联合研发”(No.2014DFA20720) , 2014-2017. 290万元 (排名第三)
7. 中国地质调查局地质调查工作项目“江汉平原重点地区1:5万水文地质调查", 2014-2015. 1200万元 (技术负责)
8. 国家自然科学基金国际(地区)合作与交流项目“地热流体来源砷的环境生物地球化学研究"(No. 41120124003), 2012-2016. 310万元 (排名第三)
9. 中国地质调查局地质工作项目专题“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", 2011-2014. 490万元(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
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 第46届国际水文地质学家大会,西班牙马拉加
2023 第十七届水岩相互作用国际会议,日本仙台
代表性论著(*通讯作者)
1. Xue, J.K., Deng, Y.M.*, Zhang, Y.X., Du, Y., Fu, Q.L., Xu, Y.X., Shi, J.B., Wang, Y.X. 2024. Hidden Role of Organic Matter in the Immobilization and Transformation of Iodine on Fe-OM Associations. Environmental Science & Technology, 58(22): 9840-9849. (Nature Index)
2. Du, Y., Xiong, Y.J., Deng, Y.M.*, Tao, Y.Q., Tian, H., Zhang, Y.P., Li, Q.H., Gan, Y.Q., Wang, Y.X.* 2024. Geogenic Phosphorus Enrichment in Groundwater due to Anaerobic Methane Oxidation-Coupled Fe(III) Oxide Reduction. Environmental Science & Technology, 58(18): 8032-8042. (Nature Index)
3. Xue, J.K., Deng, Y.M.*, Pi, K.F., Fu, Q.L., Du, Y., Xu, Y.X., Yuan, X.F., Fan, R.Y., Xie, X.J., Shi, J.B., Wang, Y.X. 2024. Enrichment of Geogenic Organoiodine Compounds in Alluvial-Lacustrine Aquifers: Molecular Constraints by Organic Matter. Environmental Science & Technology, 58(13): 5932-5941. (Nature Index)
4. Yan, X.Y., Deng, Y.M.*, Du, Y., Yuan, X.F., Xu, Y.X., Xie, X.J., Wang, Y.X. 2024. Unraveling roles of dissolved organic matter in the co-occurrence of arsenic and ammonium in Quaternary alluvial-lacustrine aquifers. Applied Geochemistry, 169, 106058.
5. Yang, Y.J., Deng, Y.M.*, Wang, Y.X. 2024. Multiple isotope approach elucidates the calcium enrichment of groundwater in the central Yangtze River Basin. Applied Geochemistry. 166, 105979.
6. Ke, X. Z., Tao, Y.Q., Zhang, X.X., Liu, G.N., Zhang, Y.P., Deng, Y.M., Li, Q.H. 2024. Geogenic and anthropogenic impacts on phosphorus enrichment in groundwater around China’s largest freshwater lake. Journal of Hydrology. 635, 131154.
7. Zhang, Y.X., Deng, Y.M.*, Xue, J.K., Cheng, Y.H., Nie, Y.L., Pi, K.F., Du, Y., Xie, X.J., Shi, J.B., Wang, Y.X. 2024. Unravelling the Impacts of Soluble Mn(III)-NOM on Arsenic Immobilization by Ferrihydrite or Goethite under Aquifer Conditions. Journal of Hazardous Materials. 133640.
8. Fan, R.Y., Deng, Y.M.*, Du, Y., Xie, X.J. 2024. Predicting geogenic groundwater arsenic contamination risk in floodplains using interpretable machine-learning model. Environmental Pollution, 340, 122787.
9. Tian, H., Du, Y.*, Deng, Y.M., Sun, X.L., Xu, J.W., Gan, Y.Q., Wang,Y.X. 2024. Identification of methane cycling pathways in Quaternary alluvial-lacustrine aquifers using multiple isotope and microbial indicators. Water Research, 250, 121027. (Nature Index)
10. Yang, Y.J., Wang, Q., Xue, J.K., Tian, S.H., Du,Y., Xie, X.J., Gan, Y.Q., Deng, Y.M.*, Wang, Y.X. 2023. Organic matter degradation and arsenic enrichment in different floodplain aquifer systems along the middle reaches of Yangtze River: A thermodynamic analysis. Water Research, 239, 120072. (Nature Index)
11. Yang, Y.J., Deng, Y.M.*, Xu,Y., Yan, J.Q., Du, Y., Xie, X.J., Wang, Y.X. 2023. Manganese mobilization from sediment to groundwater in alluvial-lacustrine aquifer system along the lower reaches of Han River. Journal of Hydrology. 627, 130400.
12. Fan, R.Y., Deng, Y.M.*, Xue, J.K., Xu, Y.X., Yuan, X.F., Yan, X.Y., Zhang, C., Du, Y., Xie, X.J. 2023. Contrasting occurrence of arsenic concentrations in Quaternary aquifers inside and outside the oxbow lakes along the middle reaches of the Yangtze river. Applied Geochemistry. 10587.
13. Tao, Y.Q., Du, Y., Deng, Y.M. , Liu, P., Ye, Z.H., Zhang, X.X., Ma, T., Wang, Y.X.*. 2023. Coupled Processes Involving Organic Matter and Fe Oxyhydroxides Control Geogenic Phosphorus Enrichment in Groundwater Systems: New Evidence from FT-ICR-MS and XANES. Environmental Science & Technology. 57(45):17427-17438. (Nature Index)
14. Xu, Y.X., Deng, Y.M.* , Xue, J.K., Yuan, X.F., Luo,Y.P., Xie, X.J., Wang, Y.X. 2023. Novel Insight into Iodine Enrichment in Alluvial-Lacustrine Aquifers: Evidence from Stable Carbon and Iron Isotopes. Journal of Hydrology, 617,128940
15. Zhang, X.X., Ke, X.Z., Du, Y., Tao, Y.Q., Xue, J.K., Li, Q.H., Xie, X.J., Deng, Y.M.* 2023. Coupled effects of sedimentary iron oxides and organic matter on geogenic phosphorus mobilization in alluvial-lacustrine aquifers. Science of the Total Environment, 878,163216.
16. Liu, M.H., Du, Y.*, Deng, Y.M., Li, Y.P., Tao, Y.Q., Gan, Y.Q., Ma, T. 2023. Effect of depositional evolution on phosphorus enrichment in aquifer sediments of alluvial-lacustrine plain. Science of the Total Environment. 2023. 900,165857.
17. Du, Y., Deng, Y.M., Li, Y.P., Huang, Y.W., Liu, Z.H., Ma, T., Wang, Y.X. 2023. Paleo-Geomorphology Determines Spatial Variability of Geogenic Ammonium Concentration in Quaternary Aquifers. Environmental Science & Technology, 57(14): 5726-5738. (Nature Index)
18. Wang, Y.X., Yuan. S.H., Shi, J.B., Ma, T., Xie, X.J., Deng, Y.M., Du, Y., Gan, Y.Q., Guo, Z.L., Dong, Y.R., Zheng, C.M., Jiang, G.B. 2023. Groundwater Quality and Health: Making the Invisible Visible. Environmental Science & Technology, 57(13): 5125-5136. (Nature Index)
19. Tao, Y.Q., Du, Y., Deng, Y.M., Ma, T., Wang, Y.X. 2023. Degradation of phosphorus-containing natural organic matter facilitates enrichment of geogenic phosphorus in Quaternary aquifer systems: A molecular perspective. Journal of Hydrology, 621, 129513
20. Yan, L., Xie, X.J., Heiss, J.M., Peng, K., Deng, Y.M., Gan, Y.Q., Li, Q.H., Zhang, Y.P. 2023. Isotopic and spectral signatures unravel the sources, preservation and degradation of sedimentary organic matter in the Dongzhai Harbor mangrove estuary, southern China. Journal of Hydrology, 618,129256
21. Peng, K., Heiss, J.M., Xie, X.J., Yan, L., Deng, Y.M., Gan, Y.Q., Li, Q.H., Zhang, Y.P. 2023. Groundwater discharge and saltwater-freshwater mixing in a mangrove wetland over tidal cycles: A field and modeling study. Journal of Hydrology, 620,129472.
22. Liu, Z.H., Du,Y., Deng,Y.M., Huang, Y.W., Zhao, X.W., Li, Q.H. 2023. Enrichment of geogenic phosphorus in a coastal groundwater system: New insights from dissolved organic matter characterization. Chemosphere, 322, 13824.
23. Xu, Y.X., Deng, Y.M.* , Zheng, T.L., Du, Y., Jiang, H.C., Pi, K.F., Xie, X.J., Gan, Y.Q., Ma, T., Wang, Y.X. 2022. New evidence for linking the formation of high arsenic aquifers in the central Yangtze River Basin to climate change since Last Glacial Maximum. Journal of Hazardous Materials, 439, 129684.
24. Xue, J.K., Deng, Y.M. *, Luo, Y.P., Du, Y., Yang, Y.J., Cheng, Y.H., Xie, X.J., Gan, Y.Q., Wang, Y.X. 2022. Unraveling the impact of iron oxides-organic matter complexes on iodine mobilization in alluvial-lacustrine aquifers from central Yangtze River Basin. Science of the Total Environment, 814, 151930.
25. Xiong, Y.J., Du, Y.* , Deng, Y.M., Ma, T., Wang, Y.X. Feammox in alluvial-lacustrine aquifer system: nitrogen/iron isotopic and biogeochemical evidences. Water Research, 2022, 222, 118867. (Nature Index)
26. Sun, X.L., Du, Y.*, Deng, Y.M., Fan, H.C., Ma, T., Gan, Y.Q. 2022. Contrasting nutrients input along with groundwater discharge to east Dongting Lake, central China: A geological perspective. Ecological Indicators, 145, 109658.
27. Sun, X.L., Du, Y.*, Deng, Y.M., Fan, H.C., Zhou, Z.H., Gan, Y.Q., Ma, T., Wang, Y.X. Spatial patterns and quantification of lacustrine groundwater discharge determined based on 222Rn. Water Resources Research, 2022, 58, e2022WR031977.
28. Zhou, J. Du, Y. *, Deng, Y.M., Tao, Y.Q., Leng, Z.C., Ma, T., Wang, Y.X. Source identification of groundwater phosphorus under different geological settings in the central Yangtze River basin. Journal of Hydrology, 2022, 612, 128169.
29. Li, Y.P., Du, Y. *, Deng, Y.M., Fan, R.Y., Tao, Y.Q., Ma, T., Wang, Y.X. Predicting the spatial distribution of phosphorus concentration in Quaternary sedimentary aquifers using simple field parameters. Applied Geochemistry, 2022, 142, 105349.
30. Tao, Y., Du, Y.*, Deng, Y.M., Huang, Y.W., Leng, Z.C., Ma, T., Wang, Y.X. 2022. Carbon and iron isotope approach elucidates the enrichment of geogenic phosphorus in alluvial-lacustrine sedimentary aquifers. Journal of Hydrology, 607, 127517.
31. Zhao, Q., Gan, Y.Q.*, Deng, Y.M., Zhou, H.R., Zhao, H.M. 2022. Identifying carbon processing based on molecular differences between groundwater and water-extractable aquifer sediment dissolved organic matter in a Quaternary alluvial-lacustrine aquifer. Applied Geochemistry, 137, 105199.
32. Tao, D.Y., Shi, C.Z., Guo, W.*, Deng, Y.M., Peng, Y.E., He, Y.H., Lam, P.K.S., He, Y., Zhang, K. 2022. Determination of As species distribution and variation with time in extracted groundwater samples by on-site species separation method. Science of the Total Environment, 808:151913.
33. Du, Y., Deng, Y.M.*, Liu, Z.H., Huang, Y.W., Zhao, X.W., Li, Q.H., Ma, T., Wang, Y.X. 2021. Novel insights into dissolved organic matter processing pathways in a coastal confined aquifer system with the highest known concentration of geogenic ammonium. Environmental Science & Technology, 55(21): 14676-14688. (Nature Index)
34. Gao, J., Zheng, T.L., Deng, Y.M.*, Jiang, H.C. 2021. Microbially mediated mobilization of arsenic from aquifer sediments under bacterial sulfate reduction. Science of the Total Environment, 768:144709.
35. Xiong, Y.J., Du, Y.*, Deng, Y.M., Ma, T., Li, D., Xun, X.L., Liu, G.N., Wang, Y.X. 2021. Contrasting sources and fate of nitrogen compounds in different groundwater systems in the Central Yangtze River Basin. Environmental Pollution, 290: 118119.
36. Yan, L., Xie, X.J.*, Peng, K., Wang, N.D., Zhang, Y.Y., Deng, Y.M., Gan, Y.Q., Li, Q.H., Zhang, Y.P. 2021. Sources and compositional characterization of chromophoric dissolved organic matter in a Hainan tropical mangrove-estuary. Journal of Hydrology, 600: 126572.
37. Huang, Y.W., Du, Y.*, Ma, T., Deng, Y.M., Tao, Y.Q., Xu, Y., Leng, Z.C. 2021. Dissolved organic matter characterization in high and low ammonium groundwater of Dongting Plain, central China. Ecotoxicology and Environmental Safety, 208, 111779.
38. Sun, X.L., Du, Y.*, Deng, Y.M., Fan, H.C., Tao, Y.Q., Ma, T. 2021. Contribution of groundwater discharge and associated contaminants input to Dongting Lake, Central China, using multiple tracers (222Rn, 18O, Cl−). Environmental Geochemistry and Health. 43(3): 1239-1255.
39. Zhong, X.L., Gan, Y.Q.*, Deng, Y.M. 2021. Distribution, origin and speciation of soil selenium in the black soil region of Northeast China. Environmental Geochemistry and Health, 43(3): 1257-1271.
40. Cao, H.L., Xie, X.J.*, Wang, Y.X.*, Deng, Y.M. 2021. The interactive natural drivers of global geogenic arsenic contamination of groundwater. Journal of Hydrology, 597, 126214.
41. Wang, Y.X.*, Li, J.X., Ma, T., Xie, X.J., Deng, Y.M., Gan, Y.Q. 2021. Genesis of geogenic contaminated groundwater: As, F and I. Critical Reviews in Environmental Science and Technology, 51(24): 2895-2933.
42. 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.
43. 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 Alluvial−Lacustrine Aquifer Systems: Evidence from Carbon Isotopes and DOM Characteristics. Environmental Science & Technology, 54:6104-6114.
44. 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.
45. 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.
46. 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.
47. 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.
48. 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.
49. 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.
50. 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.
51. 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
52. 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.
53. 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.
54. 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.
55. 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.
56. 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.
57. Zhang, J.W., Liang, X.*, Jin, M.G., Ma, T., Deng, Y.M., Ma, B. 2019. Identifying the groundwater flow systems in a condensed river-network interfluve between the Han River and Yangtze River (China) using hydrogeochemical indicators. Hydrogeology Journal. 27(7): 2415-2430.
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63. 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.
64. 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.
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67. 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.
68. 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.
69. 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.
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73. 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.
74. 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.
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77. 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.
78. 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.
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81. 薛伟广,邓娅敏*,薛江凯,杜尧,徐雨潇,范瑞宇. 2024. 晚更新世以来古气候变化对长江中游故道区冲湖积含水层中碘富集的控制作用. 地球科学.
82. 程一涵,邓娅敏*,薛江凯,张余茜. 2024. 地下水环境中Mn(Ⅲ)-腐殖质胶体的形成机制. 地球科学. 49(2): 793-802
83. 金戈,邓娅敏*,杜尧,陶艳秋,范红晨. 2022. 天鹅洲长江故道湿地地下水砷的时空分布特征及控制机理. 地球科学. 47(11):4161-4175.
84. 范瑞宇,邓娅敏*,薛江凯. 2022. 基于极端梯度提升模型预测江汉平原高碘地下水的空间分布. 安全与环境工程. 29(05): 70-77.
85. 王焰新*, 杜尧, 邓娅敏, 甘义群, 王沛芳, 马腾, 史建波, 谢先军. 2022. 湖底地下水排泄与湖泊水质演化. 地质科技通报. 41(1): 1-10.
86. 罗义鹏,邓娅敏*,杜尧,薛江凯,孙晓梁. 2022. 长江中游故道区高碘地下水分布与形成机理. 地球科学. 47(02): 662-673.
87. 王焰新*,杜尧,邓娅敏,甘义群,王沛芳,马腾,史建波,谢先军. 2022.湖底地下水排泄与湖泊水质氧化. 地质科技通报. 41(1):1-10.
88. 李典,邓娅敏*,杜尧,颜港归,孙晓梁,范红晨. 2021. 长江中游河湖平原浅层地下水中砷空间异质性的同位素指示. 地球科学. 46(12):4492-4502.
89. 薛江凯,邓娅敏*,杜尧,罗义鹏,程一涵. 2021. 长江中游沿岸地下水中有机质分子组成特征及其对碘富集的指示. 地球科学. 46(11): 4140-4149.
90. 徐雨潇,郑天亮,高杰,邓娅敏*,蒋宏忱. 2021. 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. 46(2): 652-660
91. 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. 46(07), 2555-2564.
92. 黄艳雯,杜尧*,徐宇,陶艳秋,邓娅敏,马腾. 2020. 洞庭湖平原西部地区浅层承压水中铵氮的来源与富集机理. 地质科技通报. 39(6):165-174.
93. 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. 39(05),156-163
94. 马腾*,沈帅,邓娅敏,杜尧,梁杏,王志强,於昊天. 2020. 流域地球关键带调查理论方法:以长江中游江汉平原为例. 地球科学. 45(12):4498-4511.
95. 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.
96. 李俊琦,马腾*,邓娅敏,杜尧,王志强,姜月华. 2019. 江汉平原地球关键带监测网建设进展. 中国地质调查,6(05): 115-123.
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人才培养
近5年来指导的研究生获奖情况:
研究生国家奖学金获得者:徐雨潇(2023年)、薛江凯(2021年, 2022年)、李典(2021年)、孙晓梁(2020年)、郑天亮(2019年)、高杰(2017年)
校级优秀硕士学位论文获得者:程一涵(2022年)、罗义鹏(2021年)、孙晓梁(2021年)
校级研究生科技论文报告会获奖:闫学彦(2023年一等奖)、袁晓芳(2022年一等奖)、陶艳秋(2022年一等奖)、薛江凯(2021年一等奖)、徐雨潇(2020年一等奖)、徐雨潇(2022年二等奖)、张馨心(2022年二等奖)、闫学彦(2022年二等奖)、高杰(2020年二等奖)、郑天亮(2019年、2018年二等奖)
校级优秀毕业生:李典(2022年)、孙晓梁(2021年)
国内外学术会议获奖:硕士研究生高杰获2018年第七届环境中的砷国际会议最佳展板论文奖。
博士研究生郑天亮获第七届全国地质微生物学术研讨会最佳展板奖。
团队介绍Research Group
自然资源部“劣质地下水成因与水质改良创新团队”
由王焰新教授负责的团队以地下水水质为核心研究对象,通过理论、方法和技术创新,长期致力于地下水污染成因和水污染控制技术研究。针对我国典型盆地广泛存在的高砷、高氟、高碘、高铁锰、高硬度与高矿化度地下水,及岩溶煤系地层分布区的老窖水等,以水文地质调查与地下水环境监测为基础,重点开展地下水系统中有害物质迁移转化和地下水环境修复新方法研究,查明劣质水成因机制,研发水质改良技术,为供水水质安全与地下水环境保护提供科学依据。
NSFC“环境水文地质”创新研究群体
本创新群体以国家杰出青年科学基金获得者王焰新教授为学术带头人,包括长江学者、国家千人计划入选者等学术骨干在内共21位成员,围绕学科领域前沿和国家重大需求、经多学科交叉和长期合作自然凝聚形成。群体以精细刻画和认识地下水系统中有害物质迁移转化规律为核心命题,以地下水污染防治为应用导向,发展环境水文地质理论方法和地下水污染监测、示踪、模拟与修复技术,以实现跨学科的交叉融合和学术思想的推陈出新。其研究成果不仅为推动水文地质学科的发展做出了贡献,而且为水环境保护提供了科学依据。群体拟基于已有工作基础,依托长期研究基地(大同及江汉)野外工作和系统的实验室研究,重点开展地下水系统中有害物质迁移转化机理和地下水环境修复新方法研究,力争在破解核心命题上取得理论和方法的新突破,进而强化群体的学术优势与特色。通过创新研究群体项目的实施,建成一个有重要国际学术影响、学风严谨、团结协作、锐意进取的优秀创新研究群体。