姓名:叶爱中
学历:博士
职称:教授
电话:01058800207
邮箱:Azye@bnu.edu.cn
1. 分布式水文模型
2. 水文集合预报
3. 气候变化对水文水资源的影响
4. RS/GIS 在水文上应用
2004.9—2007.7博士 武汉大学 水电学院 水文水资源专业
2002.9—2004.7硕士 武汉大学 水电学院 水文水资源专业
1996.9—2000.7本科 武汉大学(原武汉水利电力大学) 水利学院
2019.9— 教授 北京师范大学 地理科学部
2017.2—2019.8 副教授 北京师范大学 地理科学部
2013.9—2017.01 副教授 北京师范大学 全球变化与地球系统科学研究院
2007.7—2013.08 讲 师 北京师范大学 全球变化与地球系统科学研究院
2012.4—2012.10 访问学者 Princeton University in USA
2011.6—2011.11 访问学者 Concordia University in Canada
2010.4—2010.04 访问研究 Wageningen University & Research centre in Netherlands
2000.7—2002.08 工程师 湖南 五强溪水电厂
《陆面水文过程建模》
《全球水文学》
《全球水与能量循环》
《科学计算语言》
国家自然科学基金(42171022):青藏高原广义水源涵养演变机理与分布式时空模拟研究,2022-2025,主持人。
北京市水务应急中心:汛期中长期降雨分析与大中型水库调度,2023-2023,主持人。
国家自然科学基金(51879009):变化环境下水文集合预报理论与方法研究,2019-2022,主持人。
国家自然科学基金(41475093):通用陆面模式中汇流机制研究与新一代汇流模式开发,2015-2018,主持人。
政府间国际科技创新合作重点专项(2016YFE0102400):课题三 可持续水电设计与运行,专题3 引入降水预报信息的水电站入库径流预报 2016.12-2018.12,主持人。
国家重点基础研究发展计划(973计划No. 2010CB428402):第二课题第四专题:大尺度分布式时变增益水循环模型研制,2010-2014, 专题负责人
中国水利水电科学研究院:岷江上游水文情势分析,2017.1-2018.12,主持人
国家科技支撑计划专题(2013BAB05B04):流域水文超级集合预报关键技术研究,参与,2013-2015
[1]. Zhang Yahai, Ye A*, 2024. The response of terrestrial vegetation carbon useefficiency to global environmental changes.Global and planetary change. 240 (2024): 104537. DOI:10.1016/j.gloplacha.2024.104537 . Published: 2024. 8.10.
[2]. Li Q, Ye A*, Wada Y, Zhang Y, Zhou J. 2024.Climate change leads to an expansion of global drought-sensitive area. Journal of Hydrology, 632: 130874. DOI: 10.1016/j.jhydrol.2024.130874 Published: 2024.2.16
[3]. Wang Y,Ye A*, Zhang Y, Yang F, 2023. Thequantitative attribution of climate change to runoff increase over theQinghai-Tibetan Plateau. Science of The Total Environment, 897, 165326.DOI: 10.1016/j.scitotenv.2023.165326.Published: 2023.7.5
[4]. Zhang,Yuhang.; Ye, A*.;Analui, B.; Nguyen, P.; Sorooshian, S.; Hsu, K.; Wang Y. 2023. Comparingquantile regression forest and mixture density long short-term memory modelsfor probabilistic post-processing of satellite precipitation-driven streamflowsimulations. Hydrology and Earth System Sciences, 27(24): 4529-4550.DOI: 10.5194/hess-27-4529-2023.Published: 2023.12.20
[5]. Li Q, Ye A*, Zhang Y, Zhou J, 2022. Thepeer-to-peer type propagation from meteorological drought to soil moisturedrought occurs in areas with strong land-atmosphere interaction. Water Resources Research, 58, e2022WR032846.DOI: 10.1029/2022WR032846. Published: 2022.9.3
[6]. Zhu Y,Ye A*, Zhang, Yuhang. 2022. Changesof total and artificial Water bodies in mainland China over the past threedecades. Journal of Hydrology, 613:128344. DOI: 10.1016/j.jhydrol.2022.128344. Published: 2022.10.2
[7]. Zhang Yahai, Ye A*, 2022. Uncertainty analysis of multiple terrestrial grossprimary productivity products.Global Ecology and Biogeography. 31: 2204-2218. DOI: 10.1111/geb.13578Published:2022.8.29.
[8]. Zhang Yahai, Ye A*, 2022. An improved global gross primary production datasetcovering 1980–2018. Heliyon, 8(3): e09153. DOI: 10.1016/j.heliyon.2022.e09153.Published: 2022.3.23.
[9]. Wang Y,Ye A*, Peng D, Miao C, Di Z, Gong W,2022.Spatiotemporal variations in water conservation function of the TibetanPlateau under climate change based on InVEST model. Journal of Hydrology: Regional Studies, 41, 101064. DOI: 10.1016/j.ejrh.2022.101064 Published: 2022.6.1
[10]. Zhang, Yuhang.; Ye,A*.; Nguyen, P.; Analui, B.; Sorooshian, S.; Hsu, K. 2022. QRF4P-NRT:Probabilistic Post-processing of Near-real-time Satellite PrecipitationEstimates using Quantile Regression Forests. Water Resources Research, 58,e2022WR032117.DOI: 10.1029/2022WR032117 Published: 2022.6.1
[11]. 王云飞,叶爱中*,乔飞,李宗省,缪驰远,狄振华,龚伟,2021.水源涵养内涵及估算方法综述. 南水北调与水利科技(中英文), 19(6): 1041-1071. DOI: 10.13476/j.cnki.nsbdqk.2021.0109. Published: 2021.12.1
[12]. ZhangYuhang, Ye A*, 2021. Machine Learning for Precipitation Forecasts Postprocessing: MultimodelComparison and Experimental Investigation. Journalof Hydrometeorology, 22(11): 3065–3085, DOI:10.1175/JHM-D-21-0096.1 Published: 2021.11.1
[13]. LiH, Ye A*, Zhang Y, Zhao W, 2021.Inter-comparison and evaluation of multi-source soil moisture products inChina. Earth and Space Science,8, e2021EA001845DOI: 10.1029/2021EA001845 Published: 2021.10.8
[14]. Zhang,Yuhang.; Ye, A*.; Nguyen, P.;Analui, B.; Sorooshian, S.; Hsu, K. 2021. Error Characteristics and ScaleDependence of Current Satellite Precipitation Estimates Products inHydrological Modeling. Remote Sens.,13(16), 3061. DOI: 10.3390/rs13163061. Published: 2021.8.4
[15]. ZhangYuhang, Ye A*., Nguyen, P., Analui,B., Sorooshian, S., & Hsu, K. (2021). New insights into error decompositionfor precipitation products. Geophysical Research Letters, 48,e2021GL094092. DOI: 10.1029/2021GL094092 Published: 2021.9.3
[16]. ZhangYuhang, Ye A*, You J, Jing X, 2021. Quantification of human and natural contributionsto multi-dimensional hydrological alterations: A case study in the UpperMinjiang River, China.Journal of Geographical Science, 31(8): 1102-1122. DOI:10.1007/s11442-021-1887-z Published: 2021.8.1
[17]. ZhangYahai, Ye A*, 2021. Would the obtainable gross primary productivity (GPP) productsstand up? A critical assessment of 45 global GPP products. Science of the Total Environment, 783: 146965 DOI:10.1016/j.scitotenv.2021.146965.Published: 2021.8.20
[18]. ZhangYahai, Ye A*, 2021. Quantitatively distinguishing the impact of climate change andhuman activities on vegetation in Mainland China with the improved residualmethod. Giscience & Remote Sensing,58:2, 235-260 DOI: 10.1080/15481603.2021.1872244Published: 2021.1.12
[19]. 李慧晴,叶爱中*. 2021. 基于地形加权的降水空间插值方法研究. 武汉大学学报(工学版), 54(1),28-37. DOI:10.14188/j.1671-8844.2021-01-005 (核心期刊) Published: 2021.1.12
[20]. JiangS, Ye A*, Xiao, C., 2020. The temperature increase in Greenland has accelerated inthe past five years.Global and planetary change, 194, 103297. DOI: 10.1016/j.gloplacha.2020.103297 Published: 2020.11.25
[21]. ZhangYahai, Ye A*, 2020. Spatial and temporal variation in vegetation coverage using AVHRRGIMMS and Terra MODIS data in the Mainland of China. International Journal of Remote Sensing 41:11,4238-4268, DOI:10.1080/01431161.2020.1714781 .Published: 2020.6.2
[22]. HuangL, Ye A*, Tang C, Duan Q, Zhang Y.2020. Impact of rural depopulation and climate change on vegetation,runoff and sediment load in the Gan River basin, China. Hydrology Research, 51(4), 768 - 780. doi: 10.2166/nh.2020.120 .Published: 2020.6.23
[23]. LangY, Luo L*, Ye A, Duan Q. 2020. Do CFSv2 Seasonal Forecasts Help Improve theForecast of Meteorological Drought over Mainland China? Water 2020, 12(7), 2010, doi: 10.3390/w12072010 . Published: 2020.7.15
[24]. Ma, F, Ye A*, Duan, Q. 2019. Seasonal drought ensemblepredictions based on multiple climate models in the upper Han River Basin,China, Climate Dynamics, 53(12),7447-7460. doi: 10.1007/s00382-017-3577-1. Published:2019.11.09
[25]. Ma F, Luo L, Ye A*,Duan Q.2019. Drought characteristics and propagation in the semi-arid Heihe Riverbasin in Northwestern China. J. Hydrometeor. 20(1), 59-77. DOI: 10.1175/JHM-D-18-0129.1Published: 2019.1.16
[26]. 黄李东, 叶爱中*,张疋亥, 汤崇军.2019. 近30年中国典型区域水体面积变化与归因[J]. 南水北调与水利科技, 17(6):138-147. Published: 2019.11.05
[27]. Hou, J, Ye A*, You, J, Ma, F and Duan, Q., 2018. An estimate of human andnatural contributions to changes in water resources in the upper reaches of theMingjiang River.Science of the Total Environment. 635: 901-912. DOI: 10.1016/j.scitotenv.2018.04.163Published: 2018.4.20
[28]. MaF, Luo L, Ye A*, Duan Q. 2018.Seasonal drought predictability and forecast skill in the semi-arid endorheicHeihe River basin in Northwestern China. Hydrol. Earth Syst. Sci..,22, 5697–5709. DOI: 10.5194/hess-22-5697-2018. Published: 2018.11.5
[29]. Ma, F, Ye A*,You J, Duan, Q., 2018. 2015-16 floods and droughts in China, and its responseto the strong El Niño. Science of the Total Environment.627, 1473-1484, DOI: 10.1016/j.scitotenv.2018.01.280.Published:2018.2.20
[30]. Ye A*, Zhou Z, You J, Ma, F, Duan, Q.,2018.Dynamic Manning's Roughness Coefficients for Hydrological Modelling inBasins. HydrologyResearch49 (5), 1379-1395.DOI: 10.2166/nh.2018.175 Published: 2018.2.8
[31]. 侯静雯,叶爱中*,甘衍军, 龚伟, 段青云. 洪水灾害危险性评价方法的研究与改进[J].南水北调与水利科技, 2018, 16(01): 57-62. DOI: 10.13476/j.cnki.nsbdqk.20180009. Published:2018.1.11online
[32]. Ye A*, Deng X, Ma F, Duan Q, Zhou Z, Du C. 2017. Integratingweather and climate predictions for seamless hydrologic ensemble forecasting: Acase study in the Yalong River basin. Journalof Hydrology.547:196-207. DOI: 10.1016/j.jhydrol.2017.01.053 Published: 2017.2.9
[33]. Du,C, Ye A*, Gan, Y, You, J, Duan, Q, Ma, F and Hou, J. 2017.Drainage network extraction from a high-resolution DEM using parallelprogramming in the .NET Framework, Journalof Hydrology, 555, 506-517, DOI:https://doi.org/10.1016/j.jhydrol.2017.10.034. Published:2017.10.26
[34]. Xu, J., Ye A*, Duan, Q., Ma,F., Zhou, Z. 2017. Improvement of rank histograms for verifying reliability ofextreme events ensemble forecasts [J]. EnvironmentalModelling & Software. 2017: 92:152-62. doi: 10.1016/j.envsoft.2017.02.024 Published: 2017.3.3
[35]. 周正,叶爱中*, 马凤, 杜超. 基于贝叶斯理论的水文多模型预报[J]. 南水北调与水利科技, 2017, (01):1-6.DOI: 10. 13476/ j. cnki. nsbdqk. 2017. 01. 008 Published: 2017.2.13
[36]. Ma,F, Ye A*, Deng, X, Zhou, Z, Liu, X, Duan, Q, Xu, J, Miao, C, Di,Z. and Gong, W. 2016. Evaluating the skill of NMME seasonal precipitationensemble predictions for 17 hydroclimatic regions in continental China, InternationalJournal of Climatology, , 36: 132–144. doi:10.1002/joc.4333. Published: 2016.1.4
[37]. Mao Y, Ye A*,Liu, X,, Ma F et al. , 2016. High-resolution simulation of the spatial patternof water use in continental China. Hydrological Sciences Journal, 61:2626-2638.DOI:10.1080/02626667.2016.1153102 Published: 2016.7.20
[38]. Ye A*,Duan Q, Schaake J, Xu J, Deng X, Di Z, Miao C and Gong W, 2015. Post-processingof Ensemble Low Flow Forecasts. HydrologicalProcesses, 29, 2438–2453. DOI: 10.1002/hyp.10374 Published: 2015.4.20, online 6 2014.11.6
[39]. 叶爱中, 段青云, 徐静, 马凤, 邓斅学,2015. 基于GFS的飞来峡流域水文集合预报. 气象科技进展, 5(3): 57-61. Published: 2015.3.13
[40]. 邓斅学, 叶爱中, 童洪福,徐静,毛玉娜,马凤, 2015. 河道流量测量与计算方法研究. 中国农村水利水电, 6: 70-74. Published: 2015.7.13
[41]. 邓斅学, 叶爱中, 朗杨, 徐静, 毛玉娜, 2015. 中国内陆TRMM降水数据质量评估. 水文, 35(4): 55-63. Published:2015.8.13
[42]. Ye A*,Duan Q, Chu W, Xu J, Mao Y, 2014. The impact of theSouth–North Water Transfer Project (CTP)'s central route on groundwater tablein the Hai River basin, North China. HydrologicalProcesses 28, 5755–5768, DOI: 10.1002/hyp.10081. Published: 2014.10.14
[43]. Ma F, Ye A*,Gong W, Mao Y, Miao C, Di Z, 2014. An estimate of humanand natural contributions to flood changes of the Huai River. Globaland Planetary Change 119, 39-50.DOI: 10.1016/j.gloplacha.2014.05.003 Published:2014.5.20 online 2014.8.1 press
[44]. Ye A*, Duan Q, Yuan X, Wood EF, Schaake J, 2014. Hydrologicpost-processing of MOPEX streamflow simulations. Journal of Hydrology 508,147-56.DOI: doi.org/10.1016/j.jhydrol.2013.10.055Published: 2014.1.16
[45]. Lang Y., Ye A.,Gong W., Miao C., Di Z., Xu J., Liu Y., Luo L. and Duan Q, 2014: EvaluatingSkill of Seasonal Precipitation and Temperature Predictions of NCEP CFSv2Forecasts over 17 Hydroclimatic Regions in China. J. Hydrometeor, 15,1546–1559. doi: http://dx.doi.org/10.1175/JHM-D-13-0208.1Published:2014.8.1
[46]. Mao Y, Ye A*,Xu J, Ma F et al., 2014. An advanced distributed automated extraction ofdrainage network model on high-resolution DEM. Hydrol. Earth Syst. Sci.Discuss. 11, 7441-67. doi:10.5194/hessd-11-7441-2014.
[47]. 徐静, 叶爱中, 毛玉娜, 邓斅学, 2014. 水文集合预报研究与应用综述. 南水北调与水利科技, 12(1), 93-98. Published:2014.2.2
[48]. 毛玉娜, 叶爱中,徐静, 2014. 辽河流域径流过程模拟的空间尺度效应分析. 水文, 2, 19-24. Published:2014.2.2
[49]. YeA*, Duan Q, Zhan C,Liu Z, Mao Y, 2013. Improving kinematic wave routing scheme in Community LandModel. Hydrology Research44, 886-903. Published:2013.10.8
[50]. 毛玉娜, 叶爱中*, 王雪蕾, 张永勇, 2013. 基于GIS-RS的非点源污染模型研究进展. 北京师范大学学报(自然科学版), 407-16.
[51]. Mao Y, Ye A*,Xu J, 2012. Using Land Use Data to Estimate the Population Distribution ofChina in 2000. Giscience& Remote Sensing 49, 822-53.
[52]. 童宏福, 叶爱中. 佛冈县近50年来降雨特征浅析[J].人民珠江,2012,(1): 24-28.
[53]. 段青云,叶爱中, 改善水文气象预报的统计后处理[J].水资源研究, 2012, 1, 161-168. doi:10.4236/jwrr.2012.14023
[54]. 夏军, 叶爱中, 王蕊, 王中根. 跨流域调水的大尺度分布式水文模型研究与应用. 南水北调与水利科技, 2011,1: 1-8.
[55]. Ye A, Duan Q, Zeng H, Li L, Wang C, 2010. A DistributedTime—Variant Gain Hydrological Model Based on Remote Sensing. Journal ofResources and Ecology 1, 222-30.
[56]. 叶爱中, 张利平. 基于观测站点生成降水的有效分辨率研究[J]. 水利学报, 2010(41): 93-100.
[57]. 门玉丽, 夏军, 叶爱中. 水位流量关系曲线的理论求解研究[J]. 水文,2009(1):1-3.
[58]. 叶爱中, 夏军, 乔云峰, 王纲胜. 分布式小流域侵蚀模型及应用[J]. 应用基础与工程科学学报, 2008, 16(3): 328-340.
[59]. 夏军,叶爱中,乔云峰,王纲胜. 黄河无定河流域分布式时变增益水文模型的应用研究[J]. 应用基础与工程科学学报,2007(4): 457-466.
[60]. 叶爱中,戴永久,夏军. 降雨时间尺度上的降尺度分析研究[J]. 水文, 2007(5): 16-20.
[61]. XiaJ, Ye A, Wang L, etc.. Water cyclemechanisms on the Loess Plateau, China: the Chabagou catchment case study.Methodology in Hydrology (Proceedings of the Second International Symposium onMethodology in Hydrology held in Nanjing, China, October–November 2005). IAHSPubl. 311, 2007.
[62]. 叶爱中, 夏军, 乔云峰, 王纲胜. 淤地坝对水沙的影响[M]. 中国水论坛No.4 论文集 2006 : 29-34.
[63]. 叶爱中, 夏军, 王纲胜. 黄河流域时变增益分布式水文模型 (Ⅱ) —模型的校检与应用 [J]. 武汉大学学报 (工学版),2006,39 (4): 29-32.
[64]. 叶爱中, 夏军, 王纲胜. 基于动力网络的分布式运动波汇流模型 [J]. 人民黄河.2006(2): 26-28.
[65]. 叶爱中, 夏军, 王纲胜. 基于数字高程模型的河网提取及子流域生成 [J]. 水利学报, 2005 , 36(5) :531-537
[66]. 夏军, 叶爱中, 王纲胜. 黄河流域时变增益分布式水文模型 (Ⅰ)—— 模型的原理与结构 [J]. 武汉大学学报 (工学版), 2005, (6):10-15.
[67]. YE Aizhong , XIA Jun, WANG Gangsheng. A Distributed Time-Variant Gain Model Appliedto the Yellow River . Proceedings of the 2nd International Yellow RiverForum(I). 2005, 10.
[68]. 叶爱中, 夏军, 王纲胜. 水文水资源模拟系统集成研究 [ J]. 中国农村水利水电, 2004(8): 76-79
[69]. 叶爱中, 夏军, 谢平. 湖库水体富营养化评价的不确定性研究 [M]. 全国首届水问题研究学术研讨会论文集2003 : 449-456
2015 年: 中国自然资源学会青年科技奖
2015 年: 北京师范大学 优秀班主任
2014 年: 水利部淮河水利委员会科学技术特等奖:淮河流域多闸坝水质水量联合调度关键技术
指导研究生
博士
赵晨光,2024
吴玲云,2023
王云飞,2022
李乔乔,2021
张疋亥,2020 康奈尔大学
张宇航,2019 (国家奖学金优秀博士论文)墨尔本大学
姜赛平,2018 中国自然资源经济研究院
田 霖,2017
马 凤,2016 (国家奖学金 优秀博士论文)南京信息工程大学
硕士:
朱慧颖,2024
曾小红,2024
占圣晟,2023
杨 帆,2022
祝一诺,2021 德州农工大学(TexasA&M University,TAMU) 美国
王云飞,2020 转博士
李慧晴,2019 上海外国语大学附属外国语学校松江云间中学
张疋亥,2018 康奈尔大学
黄李东,2017 北京师范大学亚太实验学校
侯静雯,2016 (国家奖学金) 西安农业银行
杜 超,2015 中科曙光
周 正,2014 北京建设银行
邓斅学,2013 北京顺义公务员
马 凤,2013 (国家奖学金)南京信息工程大学
徐 静,2012 加拿大-蒙特利尔
毛玉娜,2011 (国家奖学金)北京师范大学