岩溶环境重庆市重点实验室主任。联合国国际岩溶研究中心第二届学术委员会委员，国际水文地质学家协会岩溶专业委员会委员，中国地质协会岩溶专业委员会委员，《中国岩溶》与《山地学报》编委。

蒋勇军

男，湖南安化人，中共党员，博士、教授、博士生导师。2005年获自然地理学博士学位，2009年美国西肯塔基大学从事博士后研究，2011年7月-2012年7月瑞士联邦水科学与技术研究所（Eawag）访问学者；国家重点研发计划项目负责人；岩溶环境重庆市重点实验室主任；重庆市学术技术带头人（地理学）；主要研究兴趣为岩溶环境/水文地质、水文学、（生物）地球化学、全球变化及GIS；先后主持国家重点研发计划项目1项、973前期1项、国家自然科学基金3项及联合国教科文组织（UNESCO）地学对比计划-IGCP661、598的co-leader，发表论文80余篇，获重庆市自然科学三等奖1项。

主要学术业绩

(1) 利用水文地球化学方法揭示岩溶水资源的演变过程与机制

(2) 利用生物地球化学方法揭示岩溶作用与全球变化之间的关系

(3) 利用生态学/GIS/地球化学方法揭示岩溶生态系统退化与土地石漠化的形成与机制

主要学术兼职

（1）Journal of Hydrology 副主编

（2）国际水文地质学家协会岩溶专业委员会委员

（3）《中国岩溶》、《山地学报》、《西南大学学报》（自然科学版）编委

（4）国际岩溶研究中心学术委员会委员

（5）中国地质协会岩溶专业委员会委员

（6）国家林业和草原局西南岩溶石漠化治理国家创新联盟理事会副理事长

主持的主要项目

(1) 国家重点研发计划项目——“喀斯特槽谷区土地石漠化过程及综合治理技术研发与示范”（ 2016YFC0502300），2016.07-2020.06

(2) 国家自然科学基金——西南岩溶地表水生系统碳-氮耦合循环及环境效应的典型研究(41472321), 2015.01-2018.12

(3) 国家自然科学基金——西南典型流域岩溶地质作用的碳汇效应研究 (41172331), 2012.01-2015.12

(4) 国家自然科学基金——同位素与微生物分子生物技术在岩溶地下水污染研究中的应用(41040026), 2011.01-2011.12

(5) 973前期专项——西南岩溶地区水资源的演变机理与影响因素(2008CB417208), 2008.01-2009.12

代表性论文

(1) Zhao H, Jiang Y*, Xiao Q, Zhang C, Behzad H. Coupled carbon-nitrogen cycling controls the transformation of dissolved inorganic carbon into dissolved organic carbon in karst aquatic systems. Journal of Hydrology, 2021, 592: 125764.

(2) Qiao Y, Jiang Y*, Zhang C. Contribution of karst ecological restoration engineering to vegetation greening in southwest China during recent decade. Ecological Indicators, 2020, 107081.

(3) Li, J, Hong A, Yuan D, Jiang Y*, Deng S, Cao C, Liu J. A new distributed karst-tunnel hydrological model and tunnel hydrological effect simulations. Journal of Hydrology, 2020, 125639.

(4) Qiao Y, Chen H, Jiang Y*. Quantifying the impacts of lithology on vegetation restoration using a random forest model in a karst trough valley, China. Ecological Engineering, 2020, 156:105973.

(5) Jiang Y, Lei J, Hu L, Xiao Q, Wang J, Zhang C, Ali H. Biogeochemical and physical controls on the evolution of dissolved inorganic carbon (DIC) and δ13CDIC in karst spring-waters exposed to atmospheric CO2(g): Insights from laboratory experiments. Journal of Hydrology, 2020, 583: 124294.

(6) Lv Y, Jiang Y*, Hu W, Cao M, Mao Y. A review of the effects of tunnel excavation on the hydrology, ecology, and environment in karst areas: Current status, challenges, and perspectives. Journal of Hydrology, 2020, 586: 124891.

(7) Cao M, Wu C, Liu J, Jiang Y*. Increasing leaf δ13C values of woody plants in response to water stress induced by tunnel excavation in a karst trough valley: Implication for improving water-use efficiency. Journal of Hydrology, 2020, 586: 124895.

(8) Cao M, Jiang Y*, Chen Y, Fan J, He Q. Variations of soil CO2 concentration and pCO2 in a cave stream on different time scales in subtropical climatic regime. Catena, 2020, 185: 104280.

(9) Liu J, Shen L, Wang Z, Duan S, Wu W, Peng X, Wu C, Jiang Y*, Response of plants water uptake patterns to tunnels excavation based on stable isotopes in a karst trough valley. Journal of Hydrology, 2019, 571: 485-493.

(10) Jiang Y, Cao M, Yuan D, Zhang Y, He Q. Hydrogeological characterization and environmental effects of the deteriorating urban karst groundwater in a karst trough valley: Nanshan, SW China. Hydrogeology Journal, 2018, 26:1487-1497.

(11) Xiao Q, Jiang Y*, Shen L, Yuan D. Origin of calcium sulfate-type water in the Triassic carbonate thermal water system in Chongqing, China: A chemical and isotopic reconnaissance. Applied Geochemistry, 2018, 89: 49-58.

(12) Zeng S Jiang Y*, Liu Z*. Assessment of climate impacts on the karst-related carbon sink in SW China using MPD and GIS. Global and Planetary Change, 2016, 144: 171-181.

(13) Viswanathan V C, Jiang Y, Berg M, Hunkeler D, Schirmer M. An integrated spatial snap-shot monitoring method for identifying seasonal changes and spatial changes in surface water quality. Journal of Hydrology, 2016, 539: 567–576.

(14) Jiang Y, Hu Y, Schirmer M. Biogeochemical controls on daily cycling of hydrochemistry and δ13C of dissolved inorganic carbon in a karst spring-fed pool. Journal of Hydrology, 2013, 478: 157-168.

(15) Jiang Y. The contribution of human activities to dissolved inorganic carbon fluxes in a karst underground river system: Evidence from major elements and δ13CDIC in Nandong, Southwest China. Journal of Contaminant Hydrology, 2013, 152: 1-11.

(16) Jiang Y. Sources of sulfur in the Nandong underground river system, southwest China: A chemical and isotopic reconnaissance. Applied Geochemistry, 2012, 27(8): 1463-1470.

(17) Jiang Y, Wu Y, Yuan D. Human impacts on karst groundwater contamination deduced by coupled nitrogen with strontium isotopes in the Nandong underground river system in Yunnan, China. Environmental Science & Technology, 2009, 43: 7676-7683.

(18) Jiang Y, Wu Y, Groves C, Yuan D, Kambesis P. Natural and anthropogenic factors affecting the groundwater quality in the Nandong karst underground river system in Yunan, China. Journal of Contaminant Hydrology, 2009, 109: 49-61.

(19) Jiang Y, Yuan D, Zhang C, Zhang G, He R. Impact of land use change on groundwater quality in a typical karst watershed of southwest China. Hydrogeology Journal, 2008, 16(4): 727-735.