高红凯

2018.2-至今    华东师范大学，地理科学学院，教授

2015.9-2018.1    美国亚利桑那州立大学（ASU），博士后

Hydrology and Earth System Sciences编委

Journal of Hydrology副主编

南水北调与水利科技（中英文）编委

中国科学院西北生态环境研究院客座研究员

期刊审稿：Science, Hydrology and Earth System Sciences, Water Resources Research, Journal of Hydrology, Journal of Hydrometeorology, Hydrological Processes, Journal of Glaciology, Journal of Climatology, Journal of Water and Climate, Hydrology Research, Marine Pollution Bulletin, Mountain Research and Development, Land Degradation & Development, Remote Sensing, Sustainability, Global and Planetary Change, Hydrology, Frontiers in Earth Science, Frontiers in Ecology and the Environment，水科学进展

基金评审：国家自然科学基金，国家留学基金委，捷克科学基金委(Czech Science Foundation), 哈萨克斯坦教育技术中心The National Center of Science and Technology Evaluation (NCSTE)

中国冰冻圈科学学会冰冻圈水文专业委员会委员；国际水文科学协会中国委员会（CNC-IAHS）冰雪水文分会委员；国际水文科学协会中国委员会（CNC-IAHS）遥感分委会委员

水文水资源，寒区水文，生态水文，城市水文

现面向国内外招收博士后

（水文学、自然地理学、生态学背景优先。待遇从优，将协助申请国家基金、博新计划等）

现面向国内外招收博士生和硕士生

（水文学、地理学、生态学、遥感与GIS等背景优先）

本科生专业必修课： 水文与水资源学，地球系统科学原理

本科生全校公选课： 中国水问题

研究生：      城市水文学

2022.1-2024.12 国家自然科学基金，优秀青年科学基金

2020.1-2024.12 国家自然科学基金，面上项目

2019.4-2021.3 国家自然科学基金，国际合作与交流项目（中英）

2019.1-2021.12 国家自然科学基金，青年科学基金项目

五篇代表性论著：

Gao, H.*, Fenicia, F., and Savenije, H. H. G.: HESS Opinions: Are soils overrated in hydrology?, Hydrology and Earth System Sciences, 27, 2607–2620, https://doi.org/10.5194/hess-27-2607-2023, 2023.

Gao, H.*, Han, C., Chen, R., Feng, Z., Wang, K., Fenicia, F., and Savenije, H.: Frozen soil hydrological modeling for a mountainous catchment northeast of the Qinghai–Tibet Plateau, Hydrology and Earth System Sciences, 26, 4187–4208, https://doi.org/10.5194/hess-26-4187-2022, 2022.

Gao, H.*, Birkel, C., Hrachowitz, M., Tetzlaff, D., Soulsby, C. & H.H.G. Savenije. (2019) A simple topography-driven and calibration-free runoff generation model. Hydrology and Earth System Sciences, 23, 787–809, https://doi.org/10.5194/hess-23-787-2019.

Gao, H.*, Hrachowitz, M., Schymanski, S. J., Fenicia, F., Sriwongsitanon, N., and Savenije, H. H. G. (2014) Climate controls how ecosystems size the root zone storage capacity at catchment scale, Geophysical Research Letters, 10.1002/2014GL061668.

高红凯*，刘俊国，高光耀，夏军.水源涵养功能概念的生态和水文视角辨析.地理学报，78 (1): 139-148, 2023

其他一作/通讯作者论文：

 Gao, H., Feng, Z., Zhang, T., Wang, Y., He, X., Li, H., Pan, X., Ren, Z., Chen, X.*, Zhang, W., Duan, Z. (2021) Assessing glacier retreat and its impact on water resources in a headwater of Yangtze River based on CMIP6 projections. Science of the Total Environment. 765, 142774

 Gao H*, Wang J, Yang Y, Pan X, Ding Y* and Duan Z (2021) Permafrost Hydrology of the Qinghai-Tibet Plateau: A Review of Processes and Modeling. Front. Earth Sci. 8:576838. doi: 10.3389/feart.2020.576838

 Wang, J., Gao, H.*, Liu, M. et al. Parameter regionalization of the FLEX-Global hydrological model. Sci. China Earth Sci. (2021). https://doi.org/10.1007/s11430-020-9706-3

 Gao, H., Dong, J., Chen, X.*, Cai, H., Liu, Z., Jin, Z., Mao, D., Yang, Z., Duan, Z.* (2020). Stepwise modeling and the importance of internal variables validation to test model realism in a data scarce glacier basin. Journal of Hydrology. 

 Chen, X., Huang, J., Han, Z., Gao, H.*, Liu, M., Li, Z., Liu, X., Li, Q., Qi, H., Huang, Y. (2020). The importance of short lag-time in the runoff forecasting model based on long short-term memory. Journal of Hydrology, 589, 125359. 

Duan, Z., Tuo, Y., Liu, J.*, Gao, H.*, Song, X., Zhang, Z., Yang, L. & D. F. Mekonnen (2019). Hydrological evaluation of open-access precipitation and air temperaturedatasets using SWAT in a poorly gauged basin in Ethiopia. Journal of Hydrology.569, 612-626, doi: 10.1016/j.jhydrol.2018.12.026

Ren, Z., Gao H.* (2019) Ecological networks of bacterial and fungal communities in shrinking glacier-fed streams in Central Asia, PeerJ. 7:e7715. doi: 10.7717/peerj.7715

 Gao, H., Sabo, J.L, Chen, X.*, Liu, Z., Yang, Z., Ren, Z., Liu, M* (2018). Landscape heterogeneity and hydrological processes: a review of landscape-based hydrological models. Landscape Ecology, DOI: doi.org/10.1007/s10980-018-0690-4

Gao, H., Li, H.*, Duan, Z., Ren, Z., Meng, X. & Pan, X. (2018). Modelling glacier variation and its impact on water resource in the Urumqi No1 Glacier in Central Asia. Science of The Total Environment. 644, 1160–1170, DOI: 10.1016/j.scitotenv.2018.07.004

Duan, Z.; Gao, H.*; Ke, C (2018). Estimation of Lake Outflow from the Poorly Gauged Lake Tana (Ethiopia) Using Satellite Remote Sensing Data. Remote Sensing,10,1060.

Gao, H.*, Ding, Y., Zhao, Q., Hrachowitz, M., Savenije, H.H.G. (2017) The importance of aspect for modelling the hydrological response in a glacier catchment in Central Asia, Hydrological Processes, doi: 10.1002/hyp.11224.

Gao, H., Duan, Z.*, Cai, H (2017). Understand the impacts of landscape features on the shape of storage capacity curve and its influence on flood, Hydrology Research.

Ren, Z., Gao, H.*, Elser, J., Zhao, Q. (2017): Microbial functional genes elucidate environmental drivers of biofilm metabolism in glacier-fed streams. Scientific Reports.

Ren, Z., Gao, H.*, Elser, J. (2017): Longitudinal variation of microbial communities in benthic biofilms and association with hydrological and physicochemical conditions in glacier-fed streams. Freshwater Science.

Gao, H.*, Hrachowitz, M., Sriwongsitanon, N., Fenicia, F., Gharari, S., and Savenije, H. H. G. (2016) Accounting for the influence of vegetation and landscape improves model transferability in a tropical savannah region, Water Resources Research, DOI: 2016WR019574, 

Gao, H., Han, T.*, Zhao, Q. Liu, L. (2016) Use of auxiliary data of topography, snow and ice to improve model performance in a glacier dominated catchment in Central Asia. DOI: Hydrology-D-16-00142, Hydrology Research.

 Gao, H.*, Hrachowitz, M., Fenicia, F., Gharari, S., and Savenije, H. H. G. (2014) Testing the realism of a topography-driven model (flex-topo) in the nested catchments of the upper Heihe, china, Hydrology and Earth System Sciences, 18, 1895-1915, 10.5194/hess-18-1895-2014.

 Gao, H.*, He, X., Ye, B., and Pu, J. (2012) Modeling the runoff and glacier mass balance in a small watershed on the central Tibetan plateau, china, from 1955 to 2008, Hydrological Processes, 26, 1593-1603, 10.1002/hyp.8256.

 张博美，高红凯*，魏江峰. 全球空中水资源管理潜力的关键区识别与源汇分析. 科学通报, 2023

璩伟卿，张博美，黄雪，任泽*，高红凯*．基于 16S r RNA 测序技术的青藏高原河流细菌群落多样性．环境科学. https://doi.org/10.13227/j.hjkx.202202129

冯紫荆，何天豪，汪少勇，何晓波*，高红凯*. 反照率对冬克玛底冰川径流及物质平衡模拟影响研究.冰川冻土，2022，44（3）：1053-1062.

 王璟京，高红凯*，刘敏，丁永建，王雁，赵舫，夏军. 参数区域化在全球水文模型FLEX-Global中的应用. 中国科学：地球科学,2021

 奚巧娟, 钟华, 王涛, 何天豪, 高红凯* , 夏军, L. Wang-Erlandsson, 汤秋鸿, 刘俊国. 中国主要流域灰-绿-蓝蓄水能力时空演变. 科学通报, 2021, 66

 何天豪, 高红凯*, 李向应, 韩添丁, 贺志华, 张志才, 段峥, 刘敏*, 丁永建. 水稳定同位素示踪的冰川流域水文模拟及不确定性研究. 冰川冻土. 2021, 43(4): 1130–1143

 张博美，高红凯*，佘敦先，邵伟, 夏军. 以地形为基础的HSC产流模型在辽西半干旱丘陵流域的适用性．南水北调与水利科技（中英文），2021, 19(6):1072-1082.

高红凯*, 赵舫. 全球尺度水文模型：机遇、挑战与展望. 冰川冻土, 2020, 42(1): 224-233.

高红凯*, 何晓波, 叶柏生, 高鑫: 1955—2008 年冬克玛底河流域冰川径流模拟研究, 冰川冻土, 33, 171-181, 2011.

合作论文：

Li Y, Su F*, Tang Q, Gao H, Yan D, Peng H, Xiao S. 2022. Contributions of moisture sources to precipitation in the major drainage basins in the Tibetan Plateau. Science China Earth Sciences, 65(6): 1088–1103, https://doi.org/10.1007/s11430-021-9890-6

 Pan, X., Han, Y., Chun, K. P., Zhang, J., Ma, D., Gao, H. (2021) On the laboratory calibration of dielectric permittivity models for agricultural soils: Effect of systematic porosity variation. Vadose Zone Journal, https://doi.org/10.1002/vzj2.20096

 Lan, X., Li, Y., Shao, R., Chen, X., Lin, K., Cheng, L., Gao, H., Liu, Z. (2020) Vegetation controls on surface energy partitioning and water budget over China. Journal of Hydrology, https://doi.org/10.1016/j.jhydrol.2020.125646

 Sun, G.*, Gao, H., Hao, L. (2020) Comments on “Large-scale afforestation significantly increases permanent surface water in China's vegetation restoration regions” by Zeng, Y., Yang, X., Fang, N., & Shi, Z. (2020). Agricultural and Forest Meteorology, 290, 108001

 Zhang, M. , Yang, H. , Tang, Q. , Cai, H.*, Zhu, Z., Feng, A., Luo, M., Gao, H., & Tian, X. . (2020). Impacts of secondary and quarter-diurnal tidal species on backwater hydrodynamics in tidal rivers. Advances in Water Resources, 103660.

 Li, H., Gao, H., Zhou, Y., Xu, C-Y.*, Ortega, R.Z.M., Sælthun, N.R. (2020) Usage of SIMWE model to model urban overland flood a case study in Oslo, doi: 10.2166/nh.2020.068

 Zhao, Q., Zhang, S., Gao, H., Wang, J., Ding, Y.*, Zhao, C., Xu, J., Han, H., Shangguan, D. (2019) Projecting climate change impacts on hydrological processes on the Tibetan Plateau with model calibration against the glacier inventory data and observed streamflow.Journal of Hydrology, 573, 60-81

Duan, Z., Chen, Q.*, Chen, C., Liu, J., Gao, H., Song, X. & M. Wei (2018) Spatiotemporalanalysis of nonlinear trends in precipitation over Germany during 1951‐2013 from multiple observation‐based gridded products. International Journal of Climatology, doi: 10.1002/joc.5939

Liu, Z., Cheng, L.*, Hao, Z., Li, J., Thorstensen, A. & H. Gao (2018). A Framework for Exploring Joint Effects of Conditional Factors on Compound Floods. Water Resources Research. DOI: 10.1002/2017WR021662

Zhang, R., Liu, J.*, Gao, H. & G. Mao (2018). Can multi-objective calibration of streamflow guarantee better hydrological model accuracy? Journal of Hydroinformatics, DOI: 10.2166/hydro.2018.131.

Mao, D., Wang, Z.*, Yang, H., Li, H., Thompson, J. R., Li, L., Song, K., Chen, B., Gao, H. & J. Wu (2018). Impacts of climate change on Tibetan Lakes: patterns and processes. Remote Sensing 10(3), 358.

Duan, Z.*, Gao, H., Tan, M. L. (2017): Extreme Precipitation and Floods: Monitoring, Modelling, and Forecasting. Advanced in Meteorology.

Sriwongsitanon N, Gao H, Savenije HHG*, Maekan E, Saengsawang S, Thianpopirug S. (2016). Comparing the Normalized Difference Infrared Index (NDII) with root zone storage in a lumped conceptual model. Hydrology and Earth System Sciences–3377 DOI: 10.5194/hess-20-3361-2016. 20 (8): 3361

Wang-Erlandsson L*, Bastiaanssen WGM, Gao H, Jägermeyr J, Senay GB, van Dijk AIJM, Guerschman JP, Keys PW, Gordon LJ, Savenije HHG. (2016). Global root zone storage capacity from satellite-based evaporation. Hydrology and Earth System Sciences–1481 DOI: 10.5194/hess-20-1459-2016 20 (4): 1459

Liu Y, Lu M*, Huo X, Hao Y, Gao H, Liu Y, Fan Y, Cui Y, Metivier F. 2015. A Bayesian analysis of Generalized Pareto Distribution of runoff minima. Hydrological Processes–n/a DOI: 10.1002/hyp.10606. : n/a

Gharari, S.*, M. Hrachowitz, F. Fenicia, H. Gao, and H. H. G. Savenije (2014), Using expert knowledge to increase realism in environmental system models can dramatically reduce the need for calibration, Hydrology and Earth System Sciences, 18(12), 4839-4859.

Zhu GF, He YQ*, Qin DH, Gao HG, Pu T, Chen DD, Wang K (2016). The impacts of climate change on hydrology in a typical glacier region—A case study in Hailuo Creek watershed of Mt. Gongga in China. Sciences in Cold and Arid Regions, 8(3): 0227–0240. DOI: 10.3724/SP.J.1226.2016.00227.

李颖, 苏凤阁*, 汤秋鸿, 高红凯, 严登华, 彭辉, 肖尚斌. 2022. 青藏高原主要流域的降水水汽来源. 中国科学: 地球科学, 52(7): 1328–1344, doi:10.1360/SSTe-2021-0217

杨淼*, 叶柏生, 彭培好, 韩添丁, 高红凯, 崔玉环, 王杰, 高明杰: 天山乌鲁木齐河源区1号冰川径流模拟研究, 冰川冻土, 2012, 130-138, 2012.

高鑫*, 张世强, 叶柏生, 高红凯: 河西内陆河流域冰川融水近期变化, 水科学进展, 22, 344-350, 2011. (EI)

张如强，高红凯，刘俊国，田勇：不同目标函数对水文模型模拟效果影响研究，中国农村水利水电，4, 106-111, 2017

2021年国家自然科学基金“优秀青年科学基金”

2019年施雅风青年科学家奖