Rui Ma

Doctoral Degree in Engineering

Faculty of Higher Institutions

中国地质大学(武汉)

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Gender:Female
Business Address:未来城校区科四楼222室
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马瑞,博士,教授,博士生导师,国家自然科学基金委杰出青年科学基金、优秀青年科学基金获得者,湖北省自然科学基金创新研究群体“地表水与地下水相互作用及其生态环境效应”负责人,国家自然科学基金创新研究群体“环境水文地质学”骨干,“地下水与环境”国家级教学团队骨干,高等学校学科创新引智基地(“111计划”)“环境水文地质学科创新引智基地”核心成员,中国地质学会水文地质专业委员会委员,国际水文地质学家协会(IAH)官方刊物、水文地质学领域国际知名SCI期刊Hydrogeology Journal主编。从事地下水流-热迁移-溶质反应迁移耦合过程模型、地表水与地下水相互作用、寒区水文地质与生物地球化学过程等方面研究。主持国家自然科学基金项目和重点研发项目课题等10余项;在Water Resources Research、Journal of Geophysical Research: Atmosphere、Journal of Hydrology、Annual Review of Environment and Resources、Earth System Science Data等期刊发表论文90余篇;主编学术专著1部,参编3部;参编中国学科发展战略研究报告2部;参编国家规划教材1部和“地下水名著译丛”1部;在IAH Congress、MODFLOW and More 2019: Groundwater Modeling and Beyond等重要国际会议做邀请报告10余次;组织地下水青年科学论坛、IAH Congress专场等国内外会议或专场10余次。工作经历 2019.10-2020.09 University of Wisconsin–Madison, Department of Geoscience, 学术访问2012.01至今 中国地质大学(武汉),环境学院,教授2011.01-2011.12 中国地质大学(武汉),环境学院,副教授2010.01-2010.12 University of Alabama, Department of Geology, Research Assistant Professor2007.11-2009.12 University of Alabama, Department of Geology,博士后教育背景 2002.09-2007.06 中国地质大学(武汉) | 环境工程 | 博士学位 1998.09-2002.06 中国地质大学(武汉) | 环境工程 | 学士学位研究领域 ⦿ 地下水流、热迁移和溶质反应迁移耦合过程数值模型 ⦿ 地下非均质介质中污染物反应迁移机理及模型 ⦿ 寒区水文地质和生物地球化学过程 ⦿ 水文地质过程对碳循环的驱动机制学术兼职 ⦿ 国际水文地质学家协会(IAH)官方SCI刊物Hydrogeology Journal主编(2018年至今) ⦿ SCI期刊Journal of Earth Science副主编(2023年至今) ⦿ ESCI期刊Journal of Groundwater Science and Engineering副主编(2020年至今) ⦿ EI期刊《地球科学》副主编(2023年至今) ⦿ 全国中文核心期刊《安全与环境工程》编委(2020年至今) ⦿ 南京大学“表生地球化学教育部重点实验室”学术委员会委员(2024年至今) ⦿ 中国地质科学院水文地质环境地质研究所“自然资源部地下水科学与工程重点实验室”学术委员会委员(2020年至今) ⦿ 甘肃有色金属地质勘查局“自然资源部高寒干旱区矿山地质环境修复工程技术创新中心”技术委员会委员(2022年至今) ⦿ 中国地质大学(武汉)“长江流域环境水科学湖北省重点实验室”副主任(2020年至今) ⦿ 中国地质学会水文地质专业委员会委员(2019年至今)参加的国际学术团体 ⦿ 国际水文地质学家协会(International Association of Hydrogeologists; IHA)会员 ⦿ 美国地球物理联合会(American Geophysical Union; AGU)会员 ⦿ 美国地质学会(Geological Society of America; GSA)会员主讲课程⦿ 本科生:水文地球化学、地下水污染与防治⦿ 研究生:水利工程学科前沿⦿ 实践课:北戴河地质认识实习、三峡秭归专业教学实习代表性科研项目[1] 国家自然科学基金杰出青年科学基金项目“水文地质学”,2025-2029,项目负责人[2] 江苏省地质调查研究院委托项目“江苏海岸带生态敏感区生态地质调查-海岸带滨海湿地生态地质调查”,2022-2024,课题负责人[3] 江苏省地质调查研究院委托项目“滨海湿地碳储量调查与水土样品采集”,2021-2024,项目负责人[4] 江苏省地质调查研究院委托项目“江苏滨海蓝碳生态系统碳循环及其退化风险评估”,2021-2023,项目负责人[5] 山东省第一地质矿产勘查院委托项目“山东省郓城县地热资源开发利用与保护规划”,2023-2024,项目负责人[6] 湖北省自然科学基金创新研究群体项目“地表水与地下水相互作用及其生态环境效应”,2019-2021,项目负责人[7] 国家重点研发计划项目课题“重要湿地地下水调控及水生态功能保护关键技术与示范”,2017-2021,项目负责人[8] 国家自然科学基金优秀青年科学基金项目“污染水文地质学”,2018-2020,项目负责人[9] 国家自然科学基金重大研究计划培育项目“黑河上游冻土区地下水流过程及其与地表水转化研究”,2014-2016,项目负责人[10] 国家自然科学基金重点项目“小尺度优先水流通道对地下水污染物迁移过程和修复的控制作用:基于野外试验的基础理论”,2014-2018,课题负责人[11] 党河管理委员会委托项目“引哈济党工程敦煌盆地地下水环境影响评价数学模型”,2014-2015,项目负责人[12] 中国地质调查局外协项目“不同工况水库对水源地地下水影响的研究”,2013-2014,项目负责人[13] 国家自然科学基金青年科学基金项目“地表水与地下水相互作用的温度示踪与模拟”,2011-2013,项目负责人[14] 高等学校学科创新引智基地“环境水文地质学科创新引智基地”,2018-2028,核心成员[15] 国家自然科学基金创新研究群体项目“环境水文地质”,2016-2021,骨干成员代表性学术成果◉ 主编/参编专著 [1] 马瑞,王云权,孙自永,胡顺, 等. 2023. 干旱半干旱区内陆河流域地表水与地下水相互作用及其生态效应. 北京: 科学出版社. ISBN: 9787030736215. [2] Ma, R & Y Wang. 2020. Groundwater sustainability in cold and arid regions. In: Mukherjee, A, B Scanlon, A Aureli, S Langan, H Guo & A McKenzie (eds), Global Groundwater: Source, Scarcity, Sustainability, Security and Solutions. Elsevier. ISBN: 9780128181720. [3] Ma, R, C Zheng & C Liu. 2012. Groundwater Impacts of Radioactive Wastes and Associated Environmental Modeling Assessment. In: Meyers, R A (ed), Encyclopedia of Sustainability Science and Technology. Springer. ISBN: 978-0-387-89469-0. [4] Ma R, C Zheng, H Prommer & J Greskowiak. 2011. Modeling field-scale uranium mass transfer at the Hanford IFRC site. In: Wang, Y, S Ge, M C Hill & C Zheng (eds), Calibration and Reliability in Groundwater Modeling: Managing Groundwater and the Environment, IAHS Publication 341. IAHS Press. ISBN: 9781907161155.◉ 代表性学术论文[1] Ma, R, K Chen, C B Andrews, S P Loheide, A H Sawyer, X Jiang, M A Briggs, P G Cook, S M Gorelick, H Prommer, B R Scanlon, Z Guo & C Zheng*. 2024. Methods for Quantifying Interactions Between Groundwater and Surface Water. Annual Review of Environment and Resources, 49. DOI: 10.1146/annurev-environ-111522-104534[2] Hu, S, K Meng, R Ma*, Z Sun, Z Wang, M Ge, L Zeng & L Yin. 2024. The potential risk of soil salinization on vegetation restoration by ecological water conveyance project in Qingtu Lake Wetland, northwestern China. Land Degradation & Development, 35: 1296-1307. DOI: 10.1002/ldr.4986[3] Hu, Y, R Ma*, Z Sun, Y Zheng, Z Pan & L Zhao. 2023. Groundwater Plays an Important Role in Controlling Riverine Dissolved Organic Matter in a Cold Alpine Catchment, the Qinghai–Tibet Plateau. Water Resources Research, 59: e2022WR032426. DOI: 10.1029/2022WR032426[4] Yin, M, R Ma*, Y Zhang, J Lin, Z Guo & C Zheng. 2023. Competitive control of multiscale aquifer heterogeneity on solute transport in an alluvial aquifer. Journal of Hydrology, 616: 128819. DOI: 10.1016/j.jhydrol.2022.128819[5] Qiao, S, R Ma*, Z Sun, Y Wang & S Hu. 2023. A new model for simulating root water uptake by vegetation under the impact of a dynamic groundwater table in arid regions. Hydrological Processes, 37: e14972. DOI: 10.1002/hyp.14972[6] Su, M, R Ma*, Y Wang, Z Sun, M Yin & M Ge. 2023. Tracing the Soil Water Flux in Variably Saturated Zones Using Temperature Data. Water Resources Research, 59: e2022WR033677. DOI: 10.1029/2022WR033677[7] Jiang, X, R. Ma*, T Ma & Z Sun. 2022. Modeling the effects of water diversion projects on surface water and groundwater interactions in the central Yangtze River basin. Science of The Total Environment, 830: 154606. DOI: 10.1016/j.scitotenv.2022.154606[8] Pan, Z, R Ma*, Z Sun, Y Hu, Q Chang, M Ge, S Wang, J Bu, Xi Long, Y Pan & L Zhao. 2022. Integrated hydrogeological and hydrogeochemical dataset of an alpine catchment in the northern Qinghai–Tibet Plateau. Earth System Science Data, 14: 2147-2165. DOI: 10.5194/essd-14-2147-2022[9] Wei, W, A Nghiem, R Ma*, Z Sun, X Gong, A Zhou & H Prommer. 2021. Factors controlling iodine enrichment in a coastal plain aquifer in the North Jiangsu Yishusi Plain, China. Journal of Contaminant Hydrology, 243: 103894. DOI: 10.1016/j.jconhyd.2021.103894[10] Hu, S, R Ma*, Z Sun, M Ge, L Zeng, F Huang, J Bu & Z Wang. 2021. Determination of the optimal ecological water conveyance volume for vegetation restoration in an arid inland river basin, northwestern China. Science of The Total Environment, 788: 147775. DOI: 10.1016/j.scitotenv.2021.147775[11] Ma, R*, M Ge, Z Sun & Q Chang. 2021. Control of the Interactions Between Stream and Groundwater by Permafrost and Seasonal Frost in an Alpine Catchment, Northeastern Tibet Plateau, China. Journal of Geophysical Research: Atmospheres, 126: e2020JD033689. DOI: 10.1029/2020JD033689[12] Jiang, X, R Ma*, Y Wang, W Gu, W Lu & J Na. 2021. Two-stage surrogate model-assisted Bayesian framework for groundwater contaminant source identification. Journal of Hydrology, 594: 125955. DOI: 10.1016/j.jhydrol.2021.125955[13] Wang, J, R Ma*, Z Guo, L Qu, M Yin & C Zheng. 2020. Experiment and multicomponent model based analysis on the effect of flow rate and nitrate concentration on denitrification in low-permeability media. Journal of Contaminant Hydrology, 235: 103727. DOI: 10.1016/j.jconhyd.2020.103727[14] Yin, M, R Ma*, Y Zhang, S Wei, J Wang, Z Sun, H Sun, & C Zheng. 2020. A distributed-order time fractional derivative model for simulating bimodal sub-diffusion in heterogeneous media. Journal of Hydrology, 591: 125504. DOI: 10.1016/j.jhydrol.2020.125504[15] Liang, Y, R Ma*, Y Wang, S Wang, L Qu, W Wei & Y Gan. 2020. Hydrogeological controls on ammonium enrichment in shallow groundwater in the central Yangtze River Basin. Science of the Total Environment, 741: 140350. DOI: 10.1016/j.scitotenv.2020.140350[16] Yin, M, Y Zhang*, R Ma*, G R Tick, M Bianchi, C Zheng, W Wei, S Wei & X Liu. 2020. Super-diffusion affected by hydrofacies mean length and source geometry in alluvial settings. Journal of Hydrology, 582: 124515. DOI: 10.1016/j.jhydrol.2019.124515[17] Hu, Y, R Ma*, Y Wang, Q Chang, M Ge & Z Sun. 2019. Using hydrogeochemical data to trace groundwater flow paths in a cold alpine catchment. Hydrological Processes, 33: 1942-1960. DOI: 10.1002/hyp.13440[18] Chang, Q, R Ma*, Z Sun, A Zhou, Y Hu & Y Liu. 2018. Using isotopic and geochemical tracers to determine the contribution of glacier‐snow meltwater to streamflow in a partly glacierized alpine- gorge catchment in northeastern Qinghai-Tibet Plateau. Journal of Geophysical Research: Atmospheres, 123: 10037-10056. DOI: 10.1029/2018JD028683[19] Lin, J, R Ma*, Y Hu, Z Sun, Y Wang & C McCarter. 2018. Groundwater sustainability and groundwater/surface-water interaction in arid Dunhuang Basin. northwest China. Hydrogeology Journal, 26: 1559-1572. DOI: 10.1007/s10040-018-1743-0[20] Ma, R*, Z Sun*, Y Hu, Q Chang, S. Wang, W. Xing & M. Ge. 2017. Hydrological connectivity from glaciers to rivers in the Qinghai-Tibet Plateau: roles of suprapermafrost and subpermafrost groundwater. Hydrology and Earth System Sciences, 21: 4803-4823. DOI: 10.5194/hess-21-4803-2017[21] Sun, Z, R Ma*, Y Wang, T Ma & Y Liu. 2016. Using isotopic, hydrogeochemical-tracer and temperature data to characterize recharge and flow paths in a complex karst groundwater flow system in northern China. Hydrogeology Journal, 24: 1393-1412. DOI: 10.1007/s10040-016-1390-2[22] Sun, Z, R Ma*, Y Wang, Y Hu & L Chen. 2016. Hydrogeological and hydrogeochemical control of groundwater salinity in an arid inland basin: Dunhuang Basin, northwestern China. Hydrological Processes, 30: 1884-1902. DOI: 10.1002/hyp.10760[23] Ma, R*, C Zheng, C Liu, J Greskowiak, H Prommer & J Zachara. 2014. Assessment of controlling processes for field-scale uranium reactive transport under highly transient flow conditions. Water Resources Research, 50: 1006-1024. DOI: 10.1002/2013WR013835[24] Ma, R, C Liu, J Greskowiak, H Prommer, J Zachara & C Zheng*. 2014. Influence of calcite on uranium(VI) reactive transport in the groundwater-river mixing zone. Journal of Contaminant Hydrology, 156: 27-37. DOI: 10.1016/j.jconhyd.2013.10.002[25] Ma, R, C Zheng*, J Zachara & M Tokin. 2012. Utility of bromide and heat tracers for site characterization in a highly dynamic environment. Water Resources Research, 48(8): W08523. DOI: 10.1029/2011WR011281[26] Ma, R, C Zheng*, M Tonkin & J M Zachara. 2011. Importance of considering intraborehole flow in Solute transport modeling under highly dynamic flow conditions. Journal of Contaminant Hydrology, 123: 11-19. DOI: 10.1016/j.jconhyd.2010.12.001[27] Ma, R*, Y Wang, Z Sun, C Zheng, T Ma & H Prommer. 2011. Geochemical Evolution of Groundwater in Carbonate Aquifers in Taiyuan, Northern China. Applied Geochemistry, 26: 884-897. DOI: 10.1016/j.apgeochem.2011.02.008[28] Ma, R & C Zheng*. 2011. Not all mass transfer rate coefficients are created equal. Ground Water, 49: 772-774. DOI: 10.1111/j.1745-6584.2011.00822.x[29] Ma, R, C Zheng*, H Prommer, J Greskowiak, C Liu, J Zachara & M Rockhold. 2010. A field-scale reactive transport model for U(VI) migration influenced by coupled multi-rate mass transfer and surface complexation reactions. Water Resources Research, 46: W05509. DOI: 10.1029/2009WR008168[30] Ma, R & C Zheng*. 2010. Effects of density and viscosity in modeling heat as a groundwater tracer. Ground Water, 48(3): 380-389. DOI: 10.1111/j.1745-6584.2009.00660.x◉ 国际会议口头报告 [1] Ma, R. 2024. Plenary Debate: The State of Groundwater Research. World Groundwater Congress IAH 2024. Davos, Switzerland. (邀请成员)[2] Ma, R, J Xiong, X Jiang, Z Sun & Y Wang. 2024. Hydrological processes drive variations in DOM composition in a cold alpine headwater catchment on the Qinghai–Tibetan Plateau. 2024 Goldschmidt Conference. Chicago, USA. (邀请报告)[3] Ma, R. 2022. The porous aquifer buffers the effect of climate warming on streamflow and carbon export in alpine permafrost regions. 49th IAH Congress. Wuhan, China. (大会邀请报告)[4] Ma, R. 2019. The impact of the South-to-North Water Diversion projects on groundwater flow system and wetland in the central Yangtze River basin. MODFLOW and More 2019: Groundwater Modeling and Beyond. Golden, USA. (邀请报告)[5] Ma, R. 2019. Model-based analysis of South-to-North and Yangte-Haijiang River water diversion projects on surface water and groundwater interactions in the central Yangtze River basin, China. International Hydrogeology Workshop. Catalonia, Spain. (邀请报告)[6] Ma, R. 2018. Groundwater sustainability and groundwater-surface water interaction in an arid inland basin, northwestern China. 45th IAH Congress. Daejeon, Korea. (邀请报告)[7] Ma, R. 2018. Control of permafrost and seasonal frost on groundwater and surface water interaction in an alpine catchment, Qinghai-Tibet Plateau. International Workshop on Surface Water–Groundwater Interaction in Arid and Semi-arid Region. Shenzhen, China. (邀请报告)[8] Ma, R. 2016. Heavy metals contamination impacted by mining activities in head water regions of Heihe River, eastern part of Tibet Plateau. Groundwater Quality 2016. Shenzhen, China.[9] Ma, R. 2015. Surface water and groundwater interaction in a permafrost zone, northwestern China. International Conference on Hydro-Biogeochemical Processes, Coupling, and Impact. Wuhan, China. (邀请报告)[10] Ma, R. 2015. Modeling uranium reactive transport in a heterogeneous aquifer. The Water Institute Joint Workshop on Water Research. Wuhan, China. (邀请报告)[11] Ma, R, C Zheng, C Liu, J Greskowiak, H Prommer & J Zachara. 2012. Uranium Reactive Transport in the chemically and physically Heterogeneous Aquifer at the Hanford 300A IFRC Site. Subsurface Environmental Simulation Benchmarking Workshop II (SSBench II). Taipei, China. (邀请报告)[12] Ma, R, C Zheng, J M Zachara & M J Tonkin. 2011. Using heat as a groundwater tracer for aquifer characterization in a highly dynamic flow environment. GSA Annual Meeting. Minneapolis, USA. (邀请报告)[13] Ma, R, C Zheng, C Liu, J Zachara, H Prommer & J Greskowiak. 2010. A multi-rate mass transfer model for field-scale uranium transport in a physically and chemically heterogeneous aquifer. Ground Water Summit and 2010 Ground Water Protection Council Spring Meeting. Denver, USA.[14] Ma, R. 2010. Coupled process modeling of Hanford IFRC Site, USA. International Groundwater Forum 2010: Securing Groundwater in a Changing World. Beijing, China. (邀请报告)[15] Ma, R, C Zheng, M J Tonkin & J M Zachara. 2010. Importance of considering intra-borehole flow in solute transport modeling under highly dynamic flow conditions. AGU Fall Meeting. San Francisco, USA.[16] Ma, R, C Zheng, J M Zachara, M Rockhold & A Ward. 2009. Modeling heat transport as a groundwater tracer. GSA Annual Meeting. Portland, USA.招生专业⦿ 学历硕士:水利工程、水文地质学⦿ 专业硕士:土木水利、资源与环境⦿ 学历博士:水利工程、水文地质学⦿ 工程博士:土木水利、资源与环境 招生单位:环境学院 + 地质调查研究院联系方式邮政编码:430078通讯地址:湖北武汉东湖新技术开发区锦程街68号中国地质大学(武汉)环境学院电子邮箱:rma@cug.edu.cn 欢迎有水文地质学、水文学与水资源、水利工程等背景的同学报考或交流!

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