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导航 个人概况 科学研究 教学信息 社会职务 荣誉及奖励 招生信息 王文 职称: 教授 博士生导师 部门: 水文水资源学院党委、水文水资源学院 学科: 地理学,水利工程 教学部门: 水文水资源学院党委、水文水资源学院 电话: 13951698936 邮件: w.wang@126.com 办公地址: 河海大学水文水资源与水利工程科学国家重点实验室 通讯地址: 江苏省南京市西康路1号 邮编: 210024 个人简介 王文,1994年至今,于河海大学从事水文水资源领域教学与科研工作。2009年评为教授,博士生导师。入选江苏省“333高层次人才培养工程”,曾任水文水资源与水利工程科学国家重点实验室副主任,为联合国政府间气候变化专门委员会(IPCC)第六次评估报告主要作者。主要从事全球变化的水文响应、干旱以及水文遥感等方面的教学和科研工作。主持国家自然科学基金面上项目及国际合作项目4项、国家重点研发项目专题等科研项目20余项。在气候变化与人类活动对流域水文过程影响分析、水文变量的遥感估算方法、水文干旱形成发展机理等方面取得突出成果,发表论文100余篇,出版个人专著1部,在《Journal of Hydrology: Regional Studies》、《Hydrological Processes》等SCI期刊主办专辑4期,获得省部级科技进步奖及自然科学奖一等奖3项。主讲本科生《自然地理学》、研究生《高等自然地理学》、《地理数据分析》等多门专业课程。 个人资料 姓名: 王文 性别: 男 学位: 博士 出生年月: 1967-12 学历: 博士研究生 毕业院校: 荷兰代尔夫特技术大学 教育经历 1985年9月-1989年6月,南京大学,大地海洋科学系,理学学士 1991年9月-1994年6月,南京大学,大地海洋科学系,理学硕士 1996年11月-1997年2月,美国马萨诸塞州立大学,短期访问 1998年9月-2003年8月,中国科学院(南京地理与湖泊研究所),自然地理学,博士学位 2001年2月-2006年5月,荷兰代尔夫特技术大学,水利工程,博士学位 工作经历 1994年8月-迄今,河海大学水文水资源学院,教授 研究领域 主要研究方向包括流域水文过程模拟、水文遥感、以及全球变化,在气候变化与人类活动对流域水文过程影响分析、水文变量的遥感估算方法、水文干旱形成发展机理等方面取得突出成果。 科研项目 1、人类活动影响下的水文干旱形成与发展机理,2020年1月-2023年12月,负责,国家自然科学基金面上项目,41971042 2、人类活动与气候变化对干旱时空动态及干旱脆弱性的影响,2019年7月-2022年6月,负责,国家自然科学基金国际(地区)合作与交流项目,41961134003 3、气象干旱的流域水文过程响应机理,2014年1月-2017年12月,负责,国家自然科学基金面上项目,41371050 4、流域水文极值概率分布对气候变化及土地利用/覆盖变化的响应,2008年1月-2010年12月,负责,国家自然科学基金面上项目,40771039 5、流域降雨径流过程模拟中的多源水文数据同化方法,2014年1月-2016 年12月,负责,高等学校博士学科点专项科研基金课题(博导类),20130094110007 6、淮河流域遥感土壤水分数据产品验证及暴雨洪水数据同化系统构建,2019年1月-2023年12月,专题负责,国家自然科学基金重点项目,41830752 7、水资源立体监测协同机理与国家水资源立体监测体系研究,2017年7月-2020年12月,专题负责,国家重点研发计划课题,2017YFC0405801 8、喀斯特关键带三维结构与水文特征,2016年1月-2019年12月,专题负责,国家自然科学基金国际(地区)合作与交流项目,41571130071 9、沿海滩涂大规模围垦及保护关键技术研究,2011年1月-2014年12月,专题负责,国家科技支撑计划项目,2012BAB03B01、2012BAB03B03 10、西南喀斯特流域水文变异性及生态水文过程耦合模拟研究,2010年1月-2013年12月,专题负责,国家自然科学基金重点项目,40930635 11、卫星遥感数据与流域水文模型的同化方法研究,2009年10月-2010年12月,负责,中国博士后科学基金特别资助项目,200902503 显示更多 论文 1、Spatial-temporal variations and drivers of the compound dry-hot event in China,Atmospheric Research,2024,Yanjun Hu,Wen Wang,Peng Wang,Wen Wang 2、The effects of reservoir storage and water use on the upstream-downstream drought propagation,Journal of Hydrology,2024,Marco Schilstra,Wen Wang,Pieter Richard van Oel,Wen Wang 3、Evaluation of ERA5, ERA5-land, GLDAS-2.1, and GLEAM potential evapotranspiration,Journal of Hydrology: Regional Studies,2024,Chao Xu,Wen Wang,Yanjun Hu,Wen Wang 4、The influence of anthropogenic climate change on meteorological drought in the Lancang-Mekong River basin,Journal of Hydrology,2023-11-01 5、Spatiotemporal Changes of Ecosystem Service Values in Response to Land Cover Dynamics in China from 1992 to 2020,SUSTAINABILITY,2023-04-01 6、基于空间插值逐日降水格点数据的福建省降水时空变化分析,水土保持学报,2023,庞冉,王文,武晶,37(1): 176-187 7、Improving the STARFM Fusion Method for Downscaling the SSEBOP Evapotranspiration Product from 1 km to 30 m in an Arid Area in China,Remote Sens,2023,Sun, J,Wang, W,Wang, X 8、Coordination Dynamics between Population Change and Built-Up Land Expansion in Mainland China during 2000–2020,Sustainability,2023,Zhao, T,Wang, W 9、Assessment of interannual and seasonal glacier mass changes in the Karakoram during 2018~2022 using ICESat-2 data,Journal of Hydrology,2023,Xiaoqian Xu,Wen Wang,Dui Huang 10、A deep learning-based method for mapping alpine intermittent rivers and ephemeral streams of the Tibetan Plateau from Sentinel-1 time series and DEMs,REMOTE SENSING OF ENVIRONMENT,2022-12-01 11、Assessment of the effects of natural and anthropogenic drivers on extreme flood events in coastal regions,STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT,2022-09-02 12、融合多源遥感数据的黑河中游地区生长季早期作物识别,地球信息科学学报,2022,杨泽航,王文,鲍健雄,24(5): 996-1008 13、Soil moisture droughts in East Africa: Spatiotemporal patterns and climate drivers,Journal of Hydrology: Regional Studies,2022,Yongwei Liu,Yuanbo Liu,Wen Wang 14、Historical droughts manifest an abrupt shift to a wetter Tibetan Plateau,Hydrology and Earth System Sciences,2022,Liu, Y,Liu, Y,Wang, W 15、基于短时间尺度自适应帕尔默干旱指数的中国干旱演变特征分析,水资源保护,2021-09-03 16、IPCC AR6的“产生影响的气候因子”评估框架,气候变化研究进展,2021-02-26 17、分项调查与水文模型相结合的九龙江流域天然径流量计算,水文,2021,顾冉浩,王文,41(2): 38-44 18、Uncertainty in SPI Calculation and its Impact on Drought Assessment in Different Climatic Regions over China,Journal of Hydrometeorology,2021,Wen Wang,Jingshu Wang,Renata Romanowicz,22(6): 1369–1383 19、Spatiotemporal variation of actual evapotranspiration and its response to changes of major meteorological factors over China using multi-source data,Journal of Water and Climate Change,2021,Jiahui Yang,Wen Wang,Tiantian Hua,12(2): 325-338 20、Propagation of soil moisture droughts in a hotspot region: Spatial pattern and temporal trajectory,Journal of Hydrology,2021,Yongwei Liu,Yuanbo Liu,Wen Wang,,593(6):125906 21、Propagation from Meteorological to Hydrological Drought and Its Influencing Factors in the Huaihe River Basin,Water,2021,Wang, J,Wang,W,Cheng, H,13 (14), 1985 22、Impacts of Different Human Activities on Hydrological Drought in the Huaihe River Basin Based on Scenario Comparison,Journal of Hydrology: Regional Studies,2021,Hui Cheng,Wen Wang,Pieter Richard van Oel,37: 100909 23、Estimating Regional Evapotranspiration Using a Satellite-BasedWind Speed Avoiding Priestley–Taylor Approach,Water,2021,Sun, J,Wang,W,Huang, D,13, 3144 24、Changes of Flow and Sediment Transport in the Lower Min River in Southeastern China under the Impacts of Climate Variability and Human Activities,Water,2021,Wen Wang,Tianyue Wan,Wei Cui,13(5): 673 25、A global perspective on the probability of propagation of drought: From meteorological to soil moisture,Journal of Hydrology,2021,Ye Zhu,Yi Liu,Wen Wang,603: 126907 26、1961—2018 年淮河流域热浪事件时空变化特征,地理科学,2021,王文,胡彦君,41(5):911-921 27、Wind Speed-Independent Two-Source Energy Balance Model Based on a Theoretical Trapezoidal Relationship between Land Surface Temperature and Fractional Vegetation Cover for Evapotranspiration Estimation,Advances in Meteorology,2020-02-14 28、Testing the potential of soil moisture observations to estimate rainfall in a soil tank experiment,Journal of Hydrology,2020-01-01 29、人类活动对水文干旱形成与发展的影响研究进展,水文,2020,王文,王靖淑,40(3): 1-8 30、美国本土地区蓄量时空变化特性及其影响因素研究,人民长江,2020,郭富雄,王文,51(5): 108-118 31、基于MODIS数据的吐鲁番盆地2001—2017年植被变化及水热组合影响分析,干旱区地理,2020,庞冉,王文,43(5): 1242-1252 32、多源蒸散发数据融合及其在干旱监测中的应用,人民长江,2020,王文,51(8): 19-26 33、Impacts of antecedent soil moisture on the rainfall- runoff transformation process based on high- resolution observations in soil tank experiments,Water (Switzerland),2019-01-01 34、Contrasting Evaporative Responses of Ecosystems to Heatwaves Traced to the Opposing Roles of Vapor Pressure Deficit and Surface Resistance,WATER RESOURCES RESEARCH,2019-01-01 35、Three dimensional characterization of meteorological and hydrological droughts and their probabilistic links,Journal of Hydrology,2019,Ye Zhu,Yi Liu,Wen Wang,578: 124016 36、Inter-comparison of satellite-retrieved and Global Land Data Assimilation System-simulated soil moisture datasets for global drought analysis,Remote Sensing of Environment,2019,Yongwei Liu,Yuanbo Liu,Wen Wang,220: 1–18 37、Impacts of Antecedent Soil Moisture on the Rainfall-Runoff Transformation Process Based on High-Resolution Observations in Soil Tank Experiments,Water,2019,Shuang Song,Wen Wang,11, 296 38、Spatial and Temporal Variations of Precipitation Extremes and Seasonality over China from 1961-2013,WATER,2018-01-01 39、云贵高原区干旱遥感监测中各干旱指数的应用对比,农业工程学报,2018,王文,34, 19, 131-139 40、云贵地区几种潜在蒸散发产品质量评估,人民长江,2018,黄瑾,王文,崔巍,50(12): 73-79 41、Spatial and Temporal Variations of Precipitation Extremes and Seasonality over China from 1961~2013,Water,2018,Yiyuan Tao,Wen Wang,10, 719 42、Evaluation of several remote sensing soil moisture products across China,Proceedings of IEEE IGARS,2018,Jingjing Sun,Wen Wang,5541-5544 43、雅砻江地区无云积雪覆盖产品的制作,遥感技术与应用,2017,陈彬,王文,32(1): 104-112 44、潜在蒸散发量数据对网格HBV模型降雨径流模拟的影响,中国科技论文,2017,崔巍,王文,12(21): 2418-2424 45、MODIS MOD16蒸散发产品在中国流域的质量评估,自然资源学报,2017,姜艳阳,王文,周正昊,32(3): 517-528 46、Investigating the impact of surface soil moisture assimilation on state and parameter estimation in SWAT model based on the ensemble Kalman filter in upper Huai River basin,Journal of Hydrology and Hydromechanics,2017,Liu Yongwei,Wang Wen,Hu Yiming, 65(2): 123–133 47、江苏省赣榆县平原水库与地下水库联合运用,中国农村水利水电,2016,杨云,王文,(1): 26-30 48、Propagation of Drought: from Meteorological Drought to Agricultural and Hydrological Drought,Advances in Meteorology,2016,Wang W 49、Improving the Distributed Hydrological Model Performance in Upper Huai River Basin: Using Streamflow Observations to Update the Basin States via the Ensemble Kalman Filter,Advances in Meteorology,2016,Yongwei Liu,Wen Wang,Yiming Hu 50、Evaluation of GLDAS-1 and GLDAS-2 forcing data and Noah model simulations over China at monthly scale,Journal of Hydrometeorology,2016,Wang Wen,Cui Wei,Wang Xiaoju,17: 2815-2833 51、Combined use of meteorological drought indices at multi-time scales for improving hydrological drought detection,Science of the Total Environment,2016,Ye Zhu,Wen Wang,571: 1058-1068 52、长江流域陆地水储量与多源水文数据对比分析,水科学进展,2015,王文,王鹏,26(6): 759-770 53、沿海地区非常规水资源开发利用方法与策略,江苏农业科学,2015,王文,杨云,张鹭,43(4) :1-4 54、Runoff changes and their potential links with climate variability and anthropogenic activities: a case study in the upper Huaihe River Basin, China,Hydrology Research,2015,Zhu Ye,Wang Wen,Liu Yi,46 (6): 1019-1036 55、Drought Severity Change in China during 1961-2012 indicated by SPI and SPEI,Natural Hazards,2015,Wang Wen,75(3): 2437-2451 56、Combining trapezoidal relationship between land surface temperature and vegetation index with Priestley-Taylor equation to estimate evapotranspiration,Remote Sensing and GIS for Hydrology and Water Resources,2015,Xiaogang Wang,Wen Wang,379-384 57、Surface soil moisture estimation using IEM model with calibrated roughness,Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering,2014-10-01 58、Assessing the applicability of GLDAS monthly precipitation data in China,Shuikexue Jinzhan/Advances in Water Science,2014-01-01 59、沿海地区常规水资源开发利用方法与策略,水利经济,2014,王文,张鹭,杨云,2(4): 35-38,43 60、基于粗糙度定标的IEM 模型的土壤含水率反演,农业工程学报,2014,黄对,王文,30(19): 182-190 61、GLDAS月气温数据在中国区的适用性评估,水电能源科学,2014,汪小菊,王文,32(11):10-13 62、GLDAS月降水数据在中国区的适用性评估,水科学进展,2014,王文,汪小菊,25(6): 779-788 63、Drought assessment and uncertainty analysis for Dapoling basin,Natural Hazards,2014,Liu, Yong-Wei,Wang, Wen,74(3): 1613-1627 64、1961-2012年中国地表干湿状况时空变化特征,中国农村水利水电,2014,徐仁贵,王文,汪小菊,(8): 30-35 65、The streamflow estimation using the Xinanjiang rainfall runoff model and dual state-parameter estimation method,Journal of Hydrology,2013-01-01 66、Estimating land surface evapotranspiration based on trapezoidal relationship between land surface temperature and vegetation index,Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering,2013-01-01 67、应用地表温度与植被指数梯形空间关系估算陆面蒸散量,农业工程学报,2013,王文,王晓刚,19(12): 101-109 68、尾巨桉树干液流特性及其影响因子分析,水土保持通报,2013,王文,朱烨,诸葛绪霞,33(2): 159-164 69、基于植被指数-地表温度特征空间的伊河流域蒸散发量估算,地理与地理信息科学,2013,周峰,王文,王晓刚,29(2): 116-121 70、基于HJ-1B 数据和SEBAL 模型的陆面蒸散发遥感估算,地理空间信息,2013,张楠楠,王文,王胤,11(5): 69-74 71、Potential evapotranspiration, SPI, SPEI and surface humidity change over China during 1961–2011,Climate and Land Surface Changes in Hydrology,2013,WEN WANG,295-301 72、Reliability of statistical tests for detecting changes in extreme precipitation,IAHS-AISH Publication,2012-01-01 73、Pan evaporation changes and the relationship with meteorological variables in the upper reach of Yangtze River,IAHS-AISH Publication,2012-01-01 74、EnKF and HYDRUS-1D based data assimilation experiments for improving soil moisture profile prediction,Shuili Xuebao/Journal of Hydraulic Engineering,2012-01-01 75、鄱阳湖面积的卫星遥感估计及其与水位关系分析,遥感技术与应用,2012,张楠楠,王文,王胤,27(6): 947-953 76、基于集合卡尔曼滤波和HYDRUS-1D模型的土壤剖面含水量同化试验,水利学报,2012,王文,刘永伟,寇小华,43(11): 1302-1311 77、淮河流域极端降水特征及不同重现期降水量估计,河海大学学报(自然科学版),2012,荣艳淑,王文,王鹏,40(1): 1-8 78、淮河流域过去60年干旱趋势特征与其与极端降水的联系,水利学报,2012,刘可晶,王文,朱烨,43(10):1179-1187 79、辐射沙脊群匡围工程布局优化研究,水利经济,2012,王文,丁贤荣,王卫平,30(3): 20-23 80、Evaluation of using the modified water deficit index derived from modis vegetation index and land surface temperature products for monitoring drought,Proceedings of IEEE International Geoscience and Remote Sensing Symposium,2012,Wen Wang,Zhong-Zhong Zhang,Xiao-Gang Wang,5951 – 5954 81、Analysis of pan evaporation changes in the Huaihe River basin,Shuikexue Jinzhan/Advances in Water Science,2011-01-01 82、Reliability of statistical tests for detecting changes in extreme precipitation events,In: The Hydrological Cycle and Water Resources Sustainability in Changing Environments,2011,Liu Kejing,Wang Wen,654-650 83、Pan evaporation changes and the relationship with meteorological variables in the upper reach of Yangtze River,Hydrological Cycle and Water Resources Sustainability in Changing Environments,2011,Rong, Yanshu,Wang, Wen,Zhou; Jiang,350: 136-142 84、Impacts of Californian dams on flow regime and maximum/minimum flow probability distribution,Hydrology Research,2011,WANG Wen,Xiao-Gang WANG,Xuan ZHOU,42(4): 275–289 85、Estimation of soil moisture using trapezoidal relationship between remotely sensed land surface temperature and vegetation index,HYDROLOGY AND EARTH SYSTEM SCIENCES,2011,Wang, W,Huang, D,Wang, X.-G,15(5): 1699-1712 86、Changes of pan evaporation in the upper reach of the Yangtze River,Journal of Hydrodynamics,2011,Rong Yan-shu,Wang Wen,Jiang Hai-yan,23(4): 503-509 87、Assimilating surface soil moisture to estimate profile soil water content using EnKF and Hydrus-1D Model,The Hydrological Cycle and Water Resources Sustainability in Changing Environments,2011,Kou Xiaohua,Wang Wen,651-657 88、植物截留观测方法综述,河海大学学报(自然科学版),2010,王文,诸葛绪霞,周炫,38(5): 495-504 89、水文数据同化方法及遥感数据在水文数据同化中的应用进展,河海大学学报(自然科学版),2009,王文,寇小华,37(5): 556-562 90、湿地水量、水质二维生态水力学模型,科学技术与工程,2009,刘可晶,王文,9(5): 1333-1336 91、Modifying the triangle method and MOD16 algorithm for improving evapotranspiration estimation using MODIS data,Proceedings of the 17th International Conference on Geoinformatics,2009,王文,周峰,刘晏然 92、Land cover change detection based on MODIS 250m vegetation index time series data,Proceedings of the 17th International Conference on Geoinformatics,2009,王文,胡海旭,胡娟 93、Estimating soil moisture using MODIS data: compare NDVI with EVI for the TVDI method,四川大学学报(工程科学版),2009,刘晏然,王文,荣艳淑,41(专刊2): 53-59 94、Comparing different methods for land cover classification based on MODIS 250 m vegetation index data,Proceedings of the IASTED International Conference Artificial Intelligence and Applications (AIA 2009),2009,Wang W,Hu Juan,Hu Hai-Xu,106-111 95、1951~2007年的ENSO事件及其特征值,自然灾害学报,2009,许武成,王文,马劲松,18(4): 18-24 96、呼伦贝尔市降水时空分布特征研究,干旱区资源与环境,2008-01-01 97、基于纹理特征与数学形态学的高分辨率影像城市道路提取,地理与地理信息科学,2008,胡海旭,王文,24(6): 13-16 98、基于决策树模型的海岸带分类方法研究,地理与地理信息科学,2008,何厚军,王文,刘学工,24(3): 25-28 99、Rajabalinejad, M. Burgmeijer. Data management of extreme marine and coastal hydro-meteorological events,Journal of Hydraulic Research,2008,P.H.A.J.M Van Gelder,Cong V. Mai,Wen Wang,46(2): 191-210 100、Measuring predictability of daily streamflow processes based on univariate time series model,Proceedings of the International Congress on Environmental Modelling and Software,2008,Wang Wen,Pieter H.A.J.M. Van Gelder,J. K. Vrijling,1378-1385 101、he Effects of Dynamical Noises on the Identification of Chaotic Systems: with Application to Streamflow Processes,IEEE Proceedings of the Fourth International Conference on Natural Computation,2008,Wang Wen,van Gelder P.H.A.J.M.,Vrijling J.K,685-691 102、Detecting changes in extreme precipitation and extreme streamflow in the Dongjiang River Basin in southern China,Hydrol. Earth Syst,2008,Wang Wen,X. Chen,P. Shi,12, 207–221 103、Comparing univariate ARMA and ARFIMA model for forecasting daily streamflows,Hydrological Research in China: Process Studies, Modelling Approaches and Applications,2008,Wang Wen,X. Chen,J. 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