长期从事水文地质、环境地质、矿产地质研究,近年来主攻高温地热地质成因、稀有关键金属资源勘查评价及水生态环境评价研究。先后主持或作为专题负责完成国家自然科学基金面上、重点项目8项,主持国家重点研发课题、科技部青藏高原二次科考重大任务专题各1项,作为技术负责或骨干成员完成科技攻关(科技支撑)、中国科学院创新项目、国际合作项目等16项,主持或参加企业项目多项。在国内外高水平期刊发表学术论文(著)200多篇(SCI收录100多篇),荣获中国科学院院长优秀奖,“十五”科技攻关优秀奖等个人荣誉,参加完成的课题曾获江苏省科学技术奖,青海省科技进步奖,广东省科技进步奖等多项。2013-2014年以高级访问学者身份在澳大利亚卧龙岗大学开展国际合作研究一年,与澳大利亚、德国、美国、英国、日本等相关院校有广泛科研合作关系,担任海洋与湖沼学会湖泊分会理事、国际水文科学协会中国委员会同位素水文学委员会委员、地质学会盐湖专业委员会委员、《盐湖研究》期刊编委、中国科协科技人才奖项评审专家等学术兼职。近年来指导的研究生曾获得多项江苏省研究生科研与实践创新计划项目、国家奖学金等,多名学生获得留学基金委资助在美国、意大利、日本等名校联合培养,指导毕业的博士生或博士后全部在高水平大学、水利部下属研究所、长江或黄河水利委员会下属研究院从事科学研究工作,担任项目负责等重要科研任务。 1. 教育工作背景 2008.07~至今 河海大学 地球科学与工程学院 研究员 博士生导师 2013.07-2014.07 澳大利亚卧龙岗大学 高级访问学者 2007.11~2008.07 河海大学 科学研究院 副研究员 2005.07~2007.10 中国科学院盐湖资源与化学重点实验室 副主任 2002.07~2007.10 中国科学院 盐湖研究所 副研究员 2001.07~2004.12 中国科学院 盐湖研究所 博士学位 2000.07~2002.07 中国科学院 盐湖研究所 助理研究员 1997.09~2000.07 中国科学院 盐湖研究所 硕士学位 1993.09~ 997.06 长安大学 学士学位 2. 近10年主持的代表性科研项目 1)2022.10-2025.9科技部第二次青藏高原综合科学考察研究任务八专题“西藏地热系统铷、铯资源现状与远景评估”(2022QZKK0202),主持。 2)2023.01-2026.12国家自然科学基金重点支持项目“藏北高原盐湖聚锂成矿过程、机制与模式研究”,专题负责人(承担经费:120万元)。 3)2019.1-2022.12国家自然科学基金面上项目“西藏地热水演化过程中的硼、锂同位素分馏规律与地质意义”,主持。 4)2020.01-2022.12三峡新能源淮南光伏发电有限公司委托项目“三峡新能源峡潘150MW水面光伏电站工程水面光伏电站生态环境影响研究”,主持。 5)2018.7-2022.2 国家重点研发计划“高寒内陆盆地水循环全过程高效利用与生态保护技术”专项“水资源高效开发利用”,课题一“高寒山盆流域水循环监测与水资源精准评价”,主持。 6)2018.1-2022.2国家自然科学基金重大研究计划“西南河流源区径流变化和适应性利用”重点支持项目“雅鲁藏布江流域地下水形成机理与演变预测”(9174203),专题负责人(承担经费100万元)。 7)2012-2016 国家自然科学基金“陇中高原山地-丘陵区黄土地下水循环的同位素水文学研究”,主持。 8)2012-2015 国家自然科学基金“东昆仑山北缘尾闾富硼锂盐湖-流域水体的硼、锂、锶同位素组成及物源示踪”,主持。 9)2011-2013 国家自然科学基金“典型盐类矿物水H,O同位素分馏机理及地质意义”,主持。 10)2008-2010 国家自然科学基金“古代钾盐沉积矿床硼、氯、锶同位素特征及成矿指示作用”,主持。 3. 近年来发表代表性论文 1) Yu Zhang, Hongbing Tan*, Peixin Cong, et al. Isotopic variations in surface waters and groundwaters of an extremely arid basin and their responses to climate change. Hydrology and Earth System Sciences, 2023 https://doi.org/10..... 2) Cong, P., Tan, H.*, Shi, D., et al. Understanding the soil and plant water hydrological cycle in a typical wetland under harsh natural conditions in the Shigatse area of the Tibetan Plateau. Hydrological Processes, 2023, 37(6), e14921. https://doi.org/10.1002/hyp.14921 3) Dongping Shi, Hongbing Tan*, Yu Zhang, Peixin Cong, Yucheng Cao. Water quality of the southern Tibetan Plateau: hydrogeochemistry assessment of the Yarlungzangbo River. Journal of the Geological Society, (2023) jgs2023-040.DOI: https://doi.org/10.1144/jgs2023-040 4) Yu Zhang, Hongbing Tan*, Peixin Cong, et al. Boron and lithium isotopic constraints on their origin, evolution, and enrich‐ment processes in a river–groundwater–salt lake system in the Qaidam Basin,northeastern Tibetan Plateau. Ore Geology Reviews,(2022), doi: https://doi.org/10.1016/j.oregeorev.2022.105110 5) Wenjie Zhang, Hongbing Tan*, Wensheng Xu, et al. Boron source and evolution of the Zabuye salt lake, Tibet: Indication from boron geochemistry and isotope. Applied Geochemistry, (2022) https://doi.org/10.1016/j.apgeochem.2022.105516 6) Hongbing Tan*, Yu Zhang, Wenbo Rao, et al. Rapid groundwater circulation inferred from temporal water dynamics and isotopes in an arid system. Hydrological Processes, 2021. https://DOI: 10.1002/hyp.14225 7)Hongbing Tan*, Xi Chen, Dongping Shi, et al. Base flow in the Yarlungzangbo River, Tibet, maintained by the isotopically-depleted precipitation and groundwater discharge. Science of the Total Environment,2021,759,143510,https://doi.org/10.1016/j.scitotenv.2020.143510 8)Shi, D., Tan, H.*, Chen, X., Rao, W., Basang, R., 2021. Uncovering the mechanisms of seasonal river–groundwater circulation using isotopes and water chemistry in the middle reaches of the Yarlungzangbo River, Tibet, Journal of Hydrology 603, doi: https://doi.org/10.1016/j.jhydrol.2021.127010 9)Hartman Issombo Elenga, Hongbing Tan*, Jinbao Su ,et al. Origin of the enrichment of B and alkali metal elements in the geothermal water in the Tibetan Plateau: Evidence from B and Sr isotopes. Geochemistry, 2021, 81(3): https://doi.org/10.1016/j.chemer.2021.125797 10)Hartman Issombo Elenga, Hongbing Tan*, Dongpin Shi, et al. Elemental Distribution and Partitioning Law between the Geothermal Water and Associated Deposits for a Typical Geothermal System with Large-Scale Siliceous Sinter Deposits in the Tibet. Geochemistry International, 2021. https://DOI: 10.1134/S0016702921100037 11)Shi D, Tan H*, Rao W, et al. Variations in water content of soil in apricot orchards in the western hilly regions of the Chinese Loess Plateau. Vadose Zone J. 2020; e20034. https://doi.org/10.1002/vzj2.20034. 12)Zihao Liu, Hongbing Tan*, Mark L. Brusseau. Significance of isotopic and geochemical methods to determine the evolution of inland brackish and bitter water: an example from the Zuli river in the upper reaches of the Yellow River, China. Hydrological Processes, 2021, 35(1), https://doi:10.1002/hyp.14024. 13)Hongbing Tan∗, Jinbao Su, Peng Xu, et al. Enrichment mechanism of Li, B and K in the geothermal water and associated deposits from the Kawu area of the Tibetan plateau: Constraints from geochemical experimental data. Applied Geochemistry 93 (2018) 60–68. 14)Hongbing Tan*, Zihao Liu, Wenbo Rao, et al. Stable isotopes of soil water: implications for soil water and shallow groundwater recharge in hill and gully regions of the Loess Plateau, China. Agriculture, Ecosystems and Environment, 2017, 243:1-9. 15)Hongbing Tan*, Zihao Liu, Wenbo Rao, et al. Understanding recharge in soil-groundwater systems in high loess hills on the Loess Plateau using isotopic data. CATENA, 2017, 156:18-29. 10.1016/j.catena.2017.03.022. 16)Hongbing Tan*, Wen X.W., Rao W.B., et al. Temporal variation of stable isotopes in a precipitation-groundwater system: implications for determining the mechanism of groundwater recharge in high mountain-hills of the Loess Plateau, China. Hydrological Processes 2016, 30, 1491-15. 17)Yanfei Zhang, Hongbing Tan*, Wenjie Zhang, et al. Geochemical constraint on origin and evolution of solutes in geothermal springs in western Yunnan, China. Chemie Erde – Geochemistry 2016, 76,63-75. 18)Yanfei Zhang, Hongbing Tan*, Wenjie Zhang, et al. A new geochemical perspective on hydrochemical evolution of the Tibetan geothermal system. Geochemistry International, 2015, Vol. 53, No. 12, pp. 1090–1106 19)Zhang, W., Tan, H. *, Zhang, Y., et al. Boron geochemistry from some typical Tibetan hydrothermal systems: origin and isotopic fractionation. Applied Geochemistry 63 (2015) 436-445. 20)Wenjie Zhang,Xi Chen,Hongbing Tan*,et al. Geochemical and isotopic data for restricting seawater intrusion and groundwater circulation in a series of typical volcanic islands in the South China Sea. Marine Pollution Bulletin 93 (2015) 153–162. 21)Hongbing Tan*, Jinzhong Huang, Wenjie Zhang, et al. Fractionation of hydrogen and oxygen isotopes of gypsum hydration water and assessment on its geochemical indications. Australian Journal of Earth Sciences 61(2014 )793-801. 22)Hongbing Tan*, Yanfei Zhang, Wenjie Zhang, et al. Hydrogen and oxygen isotopic constraint on the formation mechanism of unique geothermal resources in the Tibetan Plateau. Applied Geochemistry 51 (2014) 23–32. 23)Hongbing Tan*, Jun Chen, Wenbo Rao, et al. Lead isotope variability of fine-grained river sediments in Tibetan Plateau water catchments: Implications for geochemical provinces and crustal evolution. LITHOS,2014,190-191,13-26, doi: 10.1016/j.lithos.2013.11.013. 24)Hongbing Tan*, Wenjie Zhang, Jiansheng Chen,et al. Isotope and geochemical studies for a geothermal assessment of the Xining basin and adjacent areas, northeastern Tibetan Plateau. Geothermics 42 (2012) 47-55,doi:10.1016/j.geothermics.2012.01.001. 25)Hongbing Tan*, Jun Chen, Wenbo Rao, et al. Geothermal constraints on continental enrichment of boron and lithium resources in salt lakes: An example from a river-salt lake system on the northern slope of the eastern Kunlun Mountains, China. Journal of Asian Earth Sciences, 2012,51(1):21-29,10.1016/j.jseaes.2012.03.002 26)谭红兵,石智伟,丛培鑫,等. 西藏地热系统B、Li、Rb、Cs 元素空间分布规律与超常富集机制[J]. 沉积与特提斯地质,2023 doi: 10.19826/j.cnki.1009-3850.2023.02001 27)张煜道,谭红兵*,丛培鑫,石智伟,杨俊颖.西藏羊八井—当雄断裂带地热系统B、Li、Rb、Cs 富集机制[J/OL].沉积学报.https://doi.org/10.14027/j.issn.1000-0550.2022.129 28)杨俊颖,谭红兵*,温夏伟. 西藏尼木地区遥感数据地温反演与地热异常预测. 地质论评,2021,67(6):1770-1779. 29)谭红兵,陆是成,拓万全,饶文波,郭宏业. 柴达木盆地那棱格勒河流域的水资源与矿源意义. 河海大学学报( 自然科学版),2020,48(5):392-397. 30)时冬萍,谭红兵*,柳子豪. 黄河支流—祖厉河流域咸水多级冰冻淡化与高效利用研究. 河海大学学报(自然科学版),2020,48(4):300-306. 4. 近年来其他科研成果 1)张煜道,谭红兵. 一种便携式雾水采样装置.专利,202220347556.8 2)陆是成,谭红兵,饶文波,丛培鑫. 深井定深-隔绝空气及有机物的地下水取样器.专利,2021.03:ZL 2020 1 0147059.9. 2) 贝耀平、袁丙青、谭红兵、曹冬梅、张庆有、吕嘉奖、温夏伟. 一种基于云平台的环境监测装置. 专利,2020.11,ZL202022595218.X. 3) 贝耀平,袁丙青,谭红兵、曹冬梅、程大利、温夏伟. 一种水样采集装置.专利,2021.12:ZL 2020 2 3035707.6. 4)张玉东,谭红兵,金犇,柳子豪. 一种盐类矿物微量水真空抽提装置.专利,2016.8:ZL 2016 2 0272016.2. 5)金可,饶文波,张文兵,谭红兵. 一种高效稳定的土壤水分真空抽提装置.专利,2015.3:ZL 2014 2 0606320.7. 6)檀涛,饶文波,谭红兵,拓万全.高寒干旱流域河流径流量模拟软件V1.0. 软件著作权,2020.10:2020SR1912460 |