谢先红 - 北京师范大学 - 地理科学学部

个人简介

教育经历 2005.7 – 2008.6：博士，武汉大学水利水电学院水利工程系，研究方向分布式水文模型和水资源评估 2003.9 – 2005.6：硕士，武汉大学水利水电学院水利工程系，研究方向为地下水、地表水耦合 1999.9 – 2003.7：本科，沈阳农业大学水利工程系，农业水利工程专业工作经历 2015.3 – 至今：副教授，北京师范大学地理学与遥感科学学院、地理科学学部 2010.7 –2015.2：讲师，北京师范大学全球变化与地球系统科学研究院 2012.3 – 2013.3：访问学者，美国匹兹堡大学土木与环境工程系 2008.7 – 2010.6：博士后，北京大学工学院能源与资源工程系承担课程《生态水文过程模型》，研究生课《资源环境遥感》，研究生课《数据同化理论方法与应用》，研究生课《全球水资源与人类文明》，本科生通识课《气象与水文学》，本科生课科研项目项目主持人：“陆表辐射能量平衡对区域水循环的驱动作用”（2023-2026），国家自然科学基金（面上项目）项目主持人：“植被变绿对能量平衡和蒸散发过程的重分配作用”（2020-2023），国家自然科学基金（面上项目）项目主持人：“三北防护林生态系统水文过程演变归因及生态脆弱性研究”（2015-2018），国家自然科学基金（面上项目）项目主持人：“削减分布式水文模拟不确定性的多源数据同化方法”（2011-2013）；国家自然科学基金（青年科学基金）主要完成人：“基于定量遥感和数据同化的区域作物监测与评价研究”（2016-2019），国家自然科学基金(中英国际合作项目) 子课题负责人：“水循环关键过程的动态监测与响应分析”，（2016-2021），全球变化及应对专项专题负责人：“全球陆表特征参量数据产品生成技术” （2013-2016）, 国家高技术研究发展计划(863计划) 专题负责人：“全球气候数据集生成及气候变化关键过程和要素监测” （2016-2021）, 国家高技术研究发展计划(国家重点研发计划) 项目主持人：“分布式流域水文模拟的随机动态数据同化”（2008-2010），中国博士后基金项目重要奖项中国教育部科技进步奖（二等），“南方水稻灌区节水减排技术与应用”，2017 “中国百篇最具国际影响学术论文”, 2010 “大禹水利科学技术奖”，一等，2016 大坝工程学会科技进步奖（一等），“黄河流域生态水文遥感监测关键技术”，2019

研究领域

水文遥感，生态水文，陆面水文过程模型与数据同化

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Jiang, F., X. Xie*, Y. Wang, A. Tursun, and Y. Liu (2023), Shortwave radiation balance modulates potential evapotranspiration over China, International Journal of Digital Earth, 16(1), 1359-1372, doi: 10.1080/17538947.2023.2198267. Wang, Y., X. Xie*, J. Shi, B. Zhu, F. Jiang, Y. Chen, and Y. Liu (2022), Accelerated hydrological cycle on the Tibetan Plateau evidenced by ensemble modeling of long-term water budgets, Journal of Hydrology, 128710, doi: https://doi.org/10.1016/j.jhydrol.2022.128710. Jiang, F., X. Xie*, Y. Wang, S. Liang, B. Zhu, S. Meng, X. Zhang, Y. Chen, and Y. Liu (2022), Vegetation greening intensified transpiration but constrained soil evaporation on the Loess Plateau, Journal of Hydrology, 614, 128514, doi: https://doi.org/10.1016/j.jhydrol.2022.128514. Jiang, F., X. Xie*, S. Liang, Y. Wang, B. Zhu, X. Zhang, and Y. Chen (2021), Loess Plateau evapotranspiration intensified by land surface radiative forcing associated with ecological restoration, Agricultural and Forest Meteorology, 311, 108669, https://doi.org/10.1016/j.agrformet.2021.108669. 王一冰, 谢先红* 等 (2021), 多源降水数据驱动下青藏高原径流集合模拟, 科学通报, 66(32), 4169-4186, doi: https://doi.org/10.1360/TB-2020-1557. Zhu, B., X. Xie*, C. Lu, T. Lei, Y. Wang, K. Jia, and Y. Yao (2021), Extensive Evaluation of a Continental-Scale High-Resolution Hydrological Model Using Remote Sensing and Ground-Based Observations, Remote Sensing, 13(7), 1247. Zhu, B., M. Huang, Y. Cheng, X. Xie, Y. Liu, G. Bisht, and X. Chen (2021), Impact of Vegetation Physiology and Phenology on Watershed Hydrology in a Semiarid Watershed in the Pacific Northwest in a Changing Climate, Water Resources Research, 57(3), e2020WR028394. Meng, S., X. Xie*, B. Zhu, and Y. Wang (2020), The relative contribution of vegetation greening to the hydrological cycle in the Three-North region of China: A modelling analysis, Journal of Hydrology, 591, 125689. Zhu, B., M. Huang, Y. Cheng, X. Xie, Y. Liu, X. Zhang, G. Bisht, X. Chen, J. Missik, and H. Liu (2020), Effects of irrigation on water, carbon, and nitrogen budgets in a semi-arid watershed in the Pacific Northwest: A modelling study, Journal of Advances in Modeling Earth Systems, 12(9), e2019MS001953. Wu, D., X. Xie*, J. Tong, S. Meng, and Y. Wang (2020), Sensitivity of Vegetation Growth to Precipitation in a Typical Afforestation Area in the Loess Plateau: Plant-Water Coupled Modelling, Ecological Modelling, 430, 109128. Wang, Y., X. Xie*, S. Meng, D. Wu, Y. Chen, F. Jiang, and B. Zhu (2020), Magnitude Agreement, Occurrence Consistency, and Elevation Dependency of Satellite-Based Precipitation Products over the Tibetan Plateau, Remote Sensing, 12(11), 1750. Wang, Y., X. Xie*, S. Liang, B. Zhu, Y. Yao, S. Meng, and C. Lu (2020), Quantifying the response of potential flooding risk to urban growth in Beijing, Science of the Total Environment, 705, 135868. Zhu, B., X. Xie*, S. Meng, C. Lu, and Y. Yao (2020), Sensitivity of soil moisture to precipitation and temperature over China: Present state and future projection, Science of the Total Environment, 705, 135774. Yao, Y., X. Xie*, S. Meng, B. Zhu, K. Zhang, andY. Wang (2019), Extended Dependence of the Hydrological Regime on the LandCover Change in the Three-North Region of China: An Evaluation under FutureClimate Conditions, Remote Sensing, 11(1), 81. Zhang, K., X. Xie*, B. Zhu, S. Meng, and Y. Yao(2019), Unexpected groundwater recovery with decreasing agricultural irrigationin the Yellow River Basin, Agricultural Water Management, 213,858-867. Wu, D., Y. Cui, X. Xie, and Y. Luo (2019), Improvementand testing of SWAT for multi-source irrigation systems with paddy rice, Journalof Hydrology, 568, 1031-1041. Zhu, B., X. Xie*, and K. Zhang (2018), Waterstorage and vegetation changes in response to the 2009/10 drought over North China, Hydrology Research, 49(5), 1618-1635 Meng, S., X. Xie*, and S. Liang (2017), Assimilation of soil moisture and streamflow observations to improve floodforecasting with considering runoff routing lags, Journal of Hydrology, 550,568-579 Yu, X., X. Xie*, and S. Meng (2017), Modelingthe Responses of Water and Sediment Discharge to Climate Change in the UpperYellow River Basin, China, Journal of Hydrologic Engineering, 22(12),05017026 Xie X.*, S. Liang, Y. Yao and K.Jia (2015), Detection and attribution of changes in hydrological cycle over theThree-North region of China: Climate change versus afforestation effect. Agricultural and Forest Meteorology,203, 74 – 87. Yao,Y., S. Liang, X. Xie, J. Cheng, andK. Jia (2014), Estimation of the terrestrial waterbudget over northern China by merging multiple datasets, Journal of Hydrology, 519, 50-68. Xie, X.*, S. Meng, S. Liang, andY. Yao (2014), Improving streamflow predictions at ungauged locations with real-timeupdating: application of an EnKF-based state-parameter estimation strategy, Hydrology and Earth System Science,18(10), 3923-3936. Xie, X.*, and D. Zhang(2013), A partitioned update scheme for state-parameter estimation of distributed hydrologic models based onthe ensemble Kalman filter, Water Resources Research, 49(11), 7350-7365. Xie, X.*, and Y. Cui (2011), Development and test of SWAT for modelinghydrological processes in irrigation districts with paddy rice, Journal of Hydrology, 396 (1-2), 61-71. Xie, X.*, and D. Zhang (2010), Data assimilation for distributed hydrological catchment modeling via ensemble Kalman filter, Advances in Water Resources, 33(6), 678-690. 梁顺林，李新，谢先红 (2013),陆面观测、模拟与数据同化，高等教育出版社，ISBN:978-7-04-037557-2. (专著) Liang, S., X. Li, and X. Xie (2013), Land Surface Observation, Modeling and Data Assimilation, World Scientific, ISBN:978-981-4472-60-9. (专著)

学术兼职

中国地理学会水文地理专业委员会员 AGU会员《Journal of Flood Risk Management》期刊编委《Frontiers in Water》期刊编委《Water》期刊编委