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陈杰  教授

       陈杰,武汉大学教授,博士生导师,中组部第十一批“千人计划”青年人才获得者。2005年、2008年分别获西北农林科技大学农学学士和理学硕士学位;2011年获加拿大魁北克大学工学博士学位;2011-2015年在魁北克大学开展博士后研究;2016年2月被聘为武汉大学教授。

长期以来一直从事气候变化下流域径流的时空演变及其不确定性研究,在随机天气模拟、统计降尺度、气候变化对径流的影响评估及不确定性分析、水文集合预报等方面取得了一系列的研究成果。发展了基于随机天气发生器的统计降尺度和偏差校正方法,提出了流域径流对气候变化响应不确定性的量化方法。创新了单站点、多站点随机天气发生器,统计降尺度模型和流域径流集合预报模型,实现了全球气候模式和天气预报系统输出与水文模型输入之间尺度的有效转化。

       在国际权威期刊如《Water Resources Research》、《Journal of Hydrology》、《Climate Dynamics》等发表SCI论文34篇,其中第1作者24篇,SCIE他引300余次,2篇论文被IPCC第五次评估报告引用,1篇论文入选ESI高被引论文。主持或参与中组部“青年千人计划”项目、武汉大学高层次人才项目、国家自然科学基金重点项目、国家重点实验室开放基金等科研项目多项。2011年获加拿大总督学术金牌,2012年获加拿大魁北克大学年度最佳博士论文奖。

       电子邮箱:jiechen@whu.edu.cn


学习经历:                                                                             

Ø  2008年9月–2011年6月:加拿大魁北克大学工学院 工学博士

Ø  2005年9月–2008年7月:西北农林科技大学资源与环境学院 理学硕士

Ø  2001年9月–2005年7月:西北农林科技大学林学院 农学本科


工作经历:                                                                             

Ø  2016年2月至今:武汉大学水利水电学院 教授、博士生导师

Ø  2011年7月–2015年12月:加拿大魁北克大学工学院 博士后


研究兴趣:                                                                              

Ø  统计降尺度

Ø  随机天气生成器

Ø  气候变化对水文水资源的影响及不确定性

Ø  水文集合预报

Ø  水文模拟


论文发表情况:                                                                          

[1] Chen J., F. Brissette, P. Lucas-Picher, 2016. Transferability of optimally-selected climate models in the quantification of climate change impacts on hydrology. Climate Dynamics, 47, 3359-3372. (SCI)

[2] Chen J., B. G. St-Denis, F. Brissette, P. Lucas-Picher, 2016. Using natural variability as a baseline to evaluate the performance of bias correction methods in hydrological climate change impact studies. Journal of hydrometeorology, 17(8), 2155-2174. (SCI)

[3] Chen J., R. Arsenault, F. Brissette, 2016. An experimental approach to reduce the parametric dimensionality for rainfall-runoff models. Hydrology Research, 47(4), DOI: 10.2166/nh.2016.145. (SCI)

[4] Acharya N., A. Frei, J. Chen*, L. DeCristofaro, E. M. Owens, 2016. Evaluating Stochastic Precipitation Generators for Climate Change Impact Studies of New York City's Primary Water Supply. Journal of Hydrometeorology (SCI,已接受,通讯作者)

[5] 陈杰,许崇育,郭生练,陈华,2016. 统计降尺度方法的研究进展与挑战. 水资源研究,4, 299-313.

[6] Chen J., F. Brissette, P. Lucas-Picher, 2015. Assessing the limits of bias correcting climate model outputs for climate change impact studies. Journal of Geophysical Research - Atmospheres, 120(3), 1123–1136. (SCI)

[7] Chen J., F. Brissette, 2015. Combining stochastic weather generation and ensemble weather forecast for short-term streamflow prediction. Water Resources Management, 29(9), 3329-3342. (SCI)

[8] Chen J., F. Brissette, X.C. Zhang, 2015. Hydrological modeling using a multi-site stochastic weather generator. ASCE’s Journal of Hydrologic Engineering, doi: 10.1061/(ASCE)HE.1943-5584.0001288. (SCI)

[9] Chen J., F. Brissette, P. A. Zielinski, 2015. Constraining frequency distributions with the probable maximum precipitation for the stochastic generation of realistic extreme events. Journal of Extreme Events, 02, 1550009, DOI: 10.1142/S2345737615500098.

[10] Chen J., F. Brissette, Z. Li, 2014. Post-processing of ensemble weather forecasts using a stochastic weather generator. Monthly Weather Review, 142, 1106–1124. (SCI)

[11] Chen J., F. Brissette, 2014. Stochastic generation of daily precipitation amounts: review and evaluation of different models. Climate Research, 59, 189–206. (SCI)

[12] Chen J., X.C. Zhang, F. Brissette, 2014. Assessing scale effects for statistically downscaling precipitation with GPCC model. International Journal of Climatology, 34, 708–727. (SCI)

[13] Chen J., F. Brissette, R. Leconte, 2014. Assessing regression-based statistical approaches for downscaling precipitation over North America. Hydrological Processes, 28, 3482–3504. (SCI)

[14] Chen J., F. Brissette, 2014. Comparison of five stochastic weather generators in simulating daily precipitation and temperature for the Loess Plateau of China. International Journal of Climatology, 34, 3089–3105. (SCI)

[15] Chen J., F. Brissette, X.C. Zhang, 2014. A multi-site stochastic weather generator for daily precipitation and temperature. Transactions of the American Society of Agricultural and Biological Engineers, 57(5), 1375-1391. (SCI)

[16] Chen J., F. Brissette, D. Chaumont, M. Braun, 2013. Finding appropriate bias correction methods in downscaling precipitation for hydrologic impact studies over North America. Water Resources Research, 49, 4187–4205. (SCI)

[17] Chen J., F. Brissette, D. Chaumont, M. Braun, 2013. Performance and uncertainty evaluation of empirical downscaling methods in quantifying the climate change impacts on hydrology over two North America river basins. Journal of Hydrology, 479, 200–214. (SCI)

[18] Chen J., F. Brissette, R. Leconte, 2012. Coupling statistical and dynamical methods for spatial downscaling of precipitation. Climatic Change, 114, 509-526. (SCI)

[19] Chen, J., F. Brissette, R. Leconte, 2012. Downscaling of weather generator parameters to quantify the hydrological impacts of climate change. Climate Research, 51,185-200. (SCI)

[20] Chen, J., F. Brissette, R. Leconte, A. Caron, 2012. A versatile weather generator for daily precipitation and temperature. Transactions of the American Society of Agricultural and Biological Engineers, 55(3), 895-906. (SCI)

[21] Chen J., F. Brissette, A. Poulin, R. Leconte, 2011. Overall uncertainty study of the hydrological impacts of climate change for a Canadian watershed. Water Resources Research, 47, W12509, doi:10.1029/2011WR010602.

[22] Chen J., F. Brissette, R. Leconte, 2011. Uncertainty of downscaling method in quantifying the impact of climate change on hydrology. Journal of Hydrology, 401, 190–202. (SCI)

[23] Chen, J., F. Brissette, R. Leconte, 2011. Assessment and improvement of stochastic weather generators in simulating maximum and minimum temperatures. Transactions of the American Society of Agricultural and Biological Engineers, 54 (5), 1627-1637. (SCI)

[24] Chen, J., F. Brissette, R. Leconte, 2010. A daily stochastic weather generator for preserving low-frequency of climate variability. Journal of Hydrology, 388, 480–490. (SCI)

[25] Chen J., X. C. Zhang, W. Z. Liu, Z. Li, 2009. Evaluating and Extending CLIGEN precipitation Generation for the Loess Plateau of China. Journal of the American Water Resources Association, 45 (2), 378-396. (SCI)

[26] Chen J., X. C. Zhang, W. Z. Liu, Z. Li, 2008. Assessment and Improvement of CLIGEN Non-Precipitation Parameters for the Loess Plateau of China. Transactions of the American Society of Agricultural and Biological Engineers, 51(3), 901-913. (SCI)

[27] 陈杰,刘文兆,王文龙,李志,2009. 长武黄土高塬沟壑区降水及侵蚀性暴雨特征研究. 中国水土保持科学,7 (1): 27-31.

[28] 陈杰,刘文兆,张勋昌,侯喜禄,侯喜禄,胡梦珺,王兵, 2008. 黄土丘陵沟壑区林地水文生态效应研究. 生态学报,28(7): 2954-2963.

[29] 陈杰,刘文兆,张勋昌,张北赢,王 兵,杨玉玲,2008. 黄土高塬沟壑区不同树种水土保持效益及其适应性评价. 西北农林科技大学学报-自然科学版,36(6): 97-104, 112.

[30] 陈杰,张勋昌,刘文兆,李志,2007. CLIGEN非降水参数在黄土高原的适应性评估. 中国水土保持科学,5(5): 40-51.

[31] Mullan D., G. Swindles, T. Patterson, J. Galloway, A. MAcumber, H. Falck, L. Crossley, J. Chen, M. Pisaric, 2016. Climate change and the long-term viability of the World’s busiest heavy haul ice road. Theoretical and Applied Climatology, DOI: 10.1007/s00704-016-1830. (SCI)

[32] Mullan D., J. Chen, X.C. Zhang, 2015. Validation of non-stationary precipitation series for site-specific impact assessment: comparison of two statistical downscaling techniques. Climate Dynamics, 46, 967–986. (SCI)

[33] Li Z., F. Brissette, J. Chen, 2014. Assessing the applicability of six precipitation frequency distribution models on the Loess Plateau of China. International Journal of Climatology, 34, 462–471. (SCI)

[34] Cheng L. P., W. Z. Liu, Z. Li, J. Chen, 2014. Study of the soil water movement and groundwater recharge on the Loess Tableland using environmental tracers. Transactions of the American Society of Agricultural and Biological Engineers, 57(1), 23-30. (SCI)

[35] Wang Y., W. Liu, Z. Li, H. Li, J. Chen, 2014. Effect of comprehensive management on runoff and sediment reduction in Yanwachuan watershed, Loess Tableland, China. Nature Environment & Pollution Technology, 13(3), 465-472. (SCI)

[36] Li Z., F. Brissette, J. Chen, 2013. Finding the most appropriate precipitation frequency distribution for stochastic weather generation and hydrological modeling in Nordic watersheds. Hydrological Processes, 27, 3718–3729. (SCI)

[37] Zhang W., W. Liu, Q. Xue, J. Chen, X. Han, 2013. Evaluation of the AquaCrop model for simulating yield response of winter wheat to water on the southern Loess Plateau of China. Water Science & Technology, 68(4), 821-828. (SCI)

[38] Wang B., W. Liu, Q. Xue, T. Dang, C. Gao, J. Chen, B. Zhang, 2013. Soil water cycle and crop water use efficiency after long-term nitrogen fertilization in Loess Plateau. Plant, Soil and Environment, 59(1), 1-7. (SCI)

[39] Zhang X. C., J. Chen, J. D. Garbrecht, F. Brissette, 2012. Evaluation of weather generator-based method for statistical downscaling non-stationary climate scenarios for impact assessment at a point scale. Transactions of the American Society of Agricultural and Biological Engineers, 55(5), 1745-1756. (SCI)

[40] Zhang X. C., W. Z. Liu, Z. Li, J. Chen, 2011. Trend and uncertainty analysis of simulated climate change impacts with multiple GCMs and emission scenarios. Agricultural and Forest Meteorology, 151: 1297– 1304. (SCI)

[41] 王兵刘文兆党廷辉高长青陈杰甘卓亭,2008. 黄土塬区旱作农田长期定位施肥对冬小麦水分利用的影响. 植物营养与肥料学报,14 (5): 829-834.

[42] 李志,刘文兆,张勋昌,李双江,陈杰,2006.  CLIGEN降水要素在黄土塬区的适应性评估. 中国水土保持科学,4(6): 31-36.


科研项目情况:                                                                                 

Ø  中组部“青年千人计划”项目(429900032),2016-2019. (主持)

Ø  武汉大学高层次人才引进项目(600400008),2016-2019. (主持)

Ø  国家自然科学基金重点项目(51539009),2016-2020. (参与)

Ø  黄土高原土壤侵蚀与旱地农业国家重点实验室开放基金 (No. 10501-1205): Development of a daily stochastic weather generator used in climate change studies for the Loess Plateau of China, 2012-2013. (主持)

Ø  Natural Science and Engineering Research Council of Canada (NSERC) Project: A new paradigm in hydrology research, 2012-2014. (参与)

Ø  Natural Science and Engineering Research Council of Canada (NSERC) Project: Adaptation strategies of Canadian hydropower industries in a changing climate, 2012-2015. (参与)

Ø  Project from the Quebec government (PACC-26): Low flow forecasting system as a means of adaptation to climate change impacts, 2011-2012. (参与)

Ø  Natural Science and Engineering Research Council of Canada (NSERC) Project: Impact of climate change in Canadian River Basins and adaptation strategies for the hydropower industry, 2008-2011. (参与)

Ø  十一五科技支撑项目课题 (No. 2006BAD09B09): 高塬沟壑区农果林多元综合治理模式研究与示范, 2008-2010. (参与)

Ø  国家自然科学基金国际合作与交流项目 (No. 40640420061): 黄土高原水资源、土壤侵蚀和作物生产对未来全球气候变化的潜在响应, 2006-2008. (参与)

Ø  中国科学院海外杰出学者基金项目 (No. 2005-2-3): 黄土高原水资源、土壤侵蚀和作物生产对未来全球气候变化的潜在响应, 2006-2008. (参与)


模型及软件开发:                                                                                 

Ø  Weather Generator of the École de Technologie Supérieure (WeaGETS): http://www.mathworks.com/matlabcentral/fileexchange/29136 

Ø  Mulsite weather generator of the École de Technologie Supérieure (MulGETS): http://www.mathworks.com/matlabcentral/fileexchange/47537  

Ø  Generator for Point Climate Change (GPCC): https://github.com/Jiechenwhu/GPCC/


奖励与荣誉:                                                                   

Ø  第十二届中国水论坛十佳优秀青年论文奖(2014)

Ø  2012年加拿大魁北克大学最佳博士论文奖

Ø  2010-2011年度加拿大总督学术金牌

Ø  2009-2011年加拿大魁北克省外国留学生优异奖学金

Ø  2008-2011加拿大魁北克大学博士研究生奖学金

Ø  2008届西北农林科技大学硕士毕业生优秀学术论文校长专项基金二等奖

Ø  2008届西北农林科技大学优秀毕业研究生

Ø  2005届陕西省优秀毕业生


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