男，1981年生，湖北荆门人，工学博士，研究员和博士生导师（2021年起）、生态水文与水环境研究室主任（2022年起）；中国科学院特聘骨干（2022）、院青年创新促进会会员（2014）、澳大利亚Endeavour Research Fellowship（2014）、地理科学与资源研究所优秀青年人才计划获得者（2015）等。已主持国家重点研发计划课题和专题、国家自然科学基金（青年基金、青年-面上连续资助和面上项目）等国家级科研项目和省部级重要项目40余项；并以第一或通讯作者在Water Research、Water Resources Research、Earth’s Future、Journal of Hydrology、Hydrology and Earth System Sciences和中国科学：地学球科学等期刊发表学术论文100余篇（SCI论文 64篇），授权国家发明专利和软件著作权30余项。上述成果被Nature、Science和PNAS等SCI期刊引用4000余次，其中被评为 “中国百篇最具影响国际学术论文”、ESI高被引论文（4篇）、《Science China: Earth Sciences》“热点论文”和“最佳论文”等；获中国科学院地理科学与资源研究所十大研究进展（G1，2016）、中国自然资源学会青年科技奖（2017）、北京市科技进步三等奖（G5，2018）、生态环境部环境保护科学技术奖二等奖（G2，2022）、中国大坝工程学会科技进步二等奖（G6，2023）、南京水利科学研究院科技进步一等奖（G3，2023）、中国地理科学十大研究进展（G6，2023）和中国生态环境十大科技进展（G6，2023）等。

主要工作和教育经历

2020.12－至今     中国科学院地理科学与资源研究所 研究员

2011.12－2020.12   中国科学院地理科学与资源研究所 副研究员

2010.06－2011.12   中国科学院地理科学与资源研究所 助理研究员

2008.07－2010.06   中国科学院地理科学与资源研究所 自然地理专业博士后

2003.09－2008.07   武汉大学       水文学与水资源工程专业   硕博连读    

1999.09－2003.07   华东交通大学   给水排水工程专业         学士

研究领域与方向

长期从事“水文情势变化特征及其水环境效应”研究，围绕国家洪旱灾害和水污染防控面临的水文情势演变特征（怎么变）认知不全、驱动机制（为什么变）不明和影响效应（什么影响）难量化等科学难点，以“格局挖掘-机制解析-效应量化”为研究主线，在水文情势特征与格局变化、人类活动和气候变化的驱动机制、水循环多过程耦合和水环境效应等方面开展了系统性创新性成果，具体如下：

（1）提出了水文事件的多维解构+时空格局降维聚类与预测方法，解析了流域尺度水文情势的类型、格局及演变规律，创新了水文情势格局演变分析的指标和方法。

（2）揭示了闸坝调控、城镇化和农业灌溉等人类活动对水循环过程的影响机制，解耦了人类活动和气候变化的直接、链式传递以及交互影响等，丰富了水文情势格局演变的机理认知。

（3）研制了自主知识产权的流域水循环系统模型（HEQM），厘清了人类活动影响下水文情势格局及其变化对碳氮以及新型污染物源-汇过程的影响，为流域减污降碳等水环境综合治理提供科学依据。

上述成果有效支撑了水利、生态环境和住建等行业主管部门以及国家能源集团等企业中人工扰动对洪涝和径流情势的影响评估，被安徽省和河南省水利厅、淮河水利委员会在重点闸坝群影响评估和防洪防污联合调度中实际运用，入选水利部《水利先进实用技术重点推广指导目录》和《水环境质量预测预警方法技术指南》等。

主要研究项目：

[1] 国家重点研发计划课题（2021YFC3201102）“水源涵养区环境变化的径流效应及水资源变化归因”（2021.12~2025.11，357万）

[2] 国家自然科学基金面上项目（42071041）“流域水-氮循环耦合模拟的不确定性来源解析与影响量化”（2021.1~2024.12，56万）

[3] 国家自然科学基金重点项目课题(41730645-3) “水库调节规则参数化及其对径流影响模拟研究”（2018.7~2022.6，50万）

[4] 国家自然科学基金面上项目（41671024）“农业流域水-氮循环相互作用机制及其系统均衡模拟”（2017.1~2020.12，67万）

[5] 国家自然科学基金青年-面上连续资助项目（41271005）“多闸坝重污染河流水量水质演变及其生态效应量化”（2013.1~2016.12，80万）

[6] 国家自然科学基金面上项目（青年基金）（40901025）“多闸坝重污染流域闸坝群水文及水环境效应量化研究”（2010.1~2012.12，20万）

[7] 国家重点研发计划项目(2016YFC0400902)专题 “多源雨洪信息综合挖掘与预测预报方法（淮河流域）”（2016.7~2020.12，130万） 

[8] 中国科学院Ａ类战略性先导科技专项子课题(XDA23040301) “长江经济带干流典型城市群水文效应与源头综合调控技术”（2019.1~2023.12，169.93万）

[9] 中国科学院青年创新促进会科研专项（2014041）（2014.1~2017.12，50万）

[10] 中国科学院地理资源所秉维优秀青年人才计划（2015RC201）“多闸坝河流生态水文响应机制与环境流量研究”（2015.12~2018.12，40万）

[11] 国能朔黄铁路发展有限责任公司科技创新项目（SHTL-24-18）“重载铁路区域洪水监测及预警关键技术研究与示范应用”（2024.6~2026.3，769.92万）

[12] 中国城市规划设计研究院委托项目“乌鲁木齐市系统化全域推进海绵城市建设实施方案编制及优化项目—海绵城市建设效果模拟评估”（2023.10~2024.12，35万）

[13] 中国环境科学研究院委托项目“木沥河流域水环境智慧监管模型研制与应用”（2023.10~2023.12，49.35万）

[14] Asian Development Bank咨询项目“Preparing Environmental and Rural Development Projects-Fujian Mulan River Basin Integrated Ecological Restoration and Management Project”课题“Integrated hydrological-water quality simulations and plastic waste pollution estimation in Mulan River Basin” (TA-9753 53042-001)（2022.6~2023.12，2.975万美元）

[15] 生态环境部环境规划院“国家生态环境资产核算体系建立项目”专题“高寒地区水源涵养价值核算方法及应用”（2019.05~2019.12，40万）

[16] 中科三清科技有限公司委托项目“重点流域水质预报预警系统(一期)项目”（2018.06~2020.05，103.971万） 

主要成果：

已在Water Research、Water Resources Research、Earth’s Future、Journal of Hydrology、Hydrology and Earth System Sciences和中国科学：地学球科学等期刊发表和接收论文200余篇（SCI论文117篇），其中第一\通讯SCI 64篇（中国科学院 Top\一区23篇和二区16篇）和EI\中文核心44篇（详见https://publons.com/researcher/2505155/yongyong-zhang/）；出版专著4部和水文情势相关数据集3套，授权国家发明专利8项和软件著作权22项。

学术论文

2025年

1. Zhang Yongyong*,Wu Jian,Gao Yang*,Wang Gangsheng,Wang Jing,Wen Xuefa. Estimation of organic carbon source composition and riverine outflow using an integrated watershed hydrological–carbon modelling approach. Water Research,2025,280:123545

2. Zhang Yongyong*,Zhang Yongqiang,Zhai Xiaoyan,Xia Jun,Tang Qiuhong,Wang Wei,Wu Jian,Niu Xiaoyu,and Han Bing. Understanding meteorological and physio-geographical controls of variability of flood event classes in headstream catchments of China. Hydrology and Earth System Sciences,2025,29,3257–3275.

3. Zhang Yongyong*,Han Bing,Cao Can,Zhai Xiaoyan. Trend changes of flow regime metrics in the water conservation zone of the Yellow River caused by observation uncertainty. Journal of Geographical Sciences 2025,35(5):964-978.

4. Zhai Xiaoyan,Zhang Yongyong*,Zhang Yongqiang,Liu Ronghua,Liu Changjun,Zhang Xiaoxiang,Chen Yuehong,Wang Xiekang,and Wright Nigel. Classifying flash flood disasters across China to support mitigation measures. Water Resources Research,2025,61: e2024WR037389.

5. Peng Kun,Zhang Yongyong*,Tang Qiuhong,Zhang Yongqiang,Li Zhanling,Wang Guoqing,Cao Can. Decomposing the effects of changes in catchment characteristics on runoff into chain transmission effects of climate change and human activities using an improved Budyko framework. Earth's Future,2025,13,e2025EF006041.

6. Cao Can,Bai Yang*,Peng Kun,Han Bing,Zhang Yongyong*. Regionalization of hydrological cycle changes in 31 source catchments of Yellow River Basin considering multiple hydrological variables. Journal of Hydrology: Regional Studies,2025,59:102340.

7. Han Bing,Zhang Yongyong*,Shao Quanxi,Duan Qingyun,Gebremedhn Abrha Ybeyn. Estimating multi-source input uncertainties and their propagation for integrated water quantity and quality simulations. Hydrological Sciences Journal,2025 （已接收）

8. 张永勇*,韩冰,曹灿,翟晓燕. 观测不确定性影响下黄河水源涵养区径流情势变化特征. 地理学报,2025,80(1):28-40.

2024年

9. Zhang Yongyong*,Dou Ming*,Cai Xueliang,Han Bing,Wang Zhen,Niu Xiaoyu,An Lihui,Kang Jianxiong,Zhou Lijun. Modeling multi-source plastic pollution yield and transport driven by catchment hydrometeorological processes. Water Research,2024,259: 121863.

10. Zhang Yongyong*,Zhang Yongqiang*,Zhai Xiaoyan,Xia Jun,Tang Qiuhong,Zhao Tongtiegang,Wang Wei. Predicting flood event class using a novel class membership function and hydrological modeling. Earth's Future,2024,12,e2023EF004081.

11. Xia Jun,Zhang Yongyong*,She Dunxian,Zhang Shiyan,Yang Jun,Lv Mingquan,Zhang Xiang,Luo Anqi,Wu Shengjun,Liu Yang. Urban water system theory and its model development and application. Science China Earth Sciences,2024,67(3):704–724,https://doi.org/10.1007/s11430-023-1226-9

12. Chen Junxu,Fan Yunjiang, Zhang Yongyong*,Peng Jiabin,Zhang Jihui,Cao Can. Comprehensive propagation characteristics between paired meteorological and hydrological drought events: insights from various underlying surfaces. Atmospheric Research,2024,299:107193.

13. 夏军,张永勇*,佘敦先,张世彦,杨军,吕明权,张翔,罗安琪,吴胜军,刘阳. 城市水系统理论及其模型研制与应用. 中国科学:地球科学,2024,54(3):725–744.

14. 夏军,张世彦,张永勇*,佘敦先,杨军,吴胜军. 城市水系统综合治理关键技术及其在长江经济带的示范应用. 地理学报,2024,79(9):2163-2175.

2023年

15. Wang Lingqing,Han Xiaoxiao,Zhang Yongyong*,Zhang Qian,Wan Xiaoming,Liang Tao,Song Hocheol,Bolan Nanthi,Shaheen Sabry M.,White John R.,Rinklebe Jörg. Impacts of land uses on spatio-temporal variations of seasonal water quality in a regulated river basin,Huai River,China. Science of the Total Environment 2023,857: 159584. (ESI高被引论文)

16. Yang Peng,Xia Jun,Chen Yaning,Zhang Yongyong*,Li Zhi,Zhang Shengqing,Wang Wenyu. Dynamic evolution of recent droughts in Central Asia based on microwave remote sensing satellite products. Journal of Hydrology 2023,620:129497.

17. Hua Ruixiang,Zhang Yongyong*,Zhang Shiyan,Zhao Tongtiegang,Tang Qiuhong,Zhang Yongqiang,Feng Aiping. Future change projections of extreme floods at catchment scale and hydrodynamic response of its downstream lake based on catchment-waterbody relationship simulation. Journal of Geophysical Research: Atmosphere 2023,128,e2022JD037972.

18. Yang Peng*,Zhang Yongyong*,Li Jiang,Xia Jun,Huang Heqing,Zhu Yanchao. Characterization of precipitation and temperature equilibrium and its driving forces in the Yangtze river basin under climate change. Climate Dynamics 2023,61:5861–5873.

19. 张永勇*,侯进进,朱静敏,吴健,夏军.基于城市水系统模拟的绿色发展评估与调控.武汉大学学报(工学版),2023,56(08):952-960.

20. 曹灿，张永勇*，刘玉，张世彦，刘晓洁. 黄河水源涵养区源头小流域径流情势对气候变化的响应模式辨识. 地理科学进展 2023,42(9):1667-1676.

21. 刘玉，翟晓燕,张永勇*，李淼，刘晓洁.基于水循环模拟的水生态产品价值量核算—以黄河上游湟水河流域为例. 地理科学进展 2023,42(9):1704-1716.

2022年

22. Zhang Yongyong*,Hou Jinjin,Xia Jun,She Dunxian,Wu Shengjun,Pan Xingyao. Regulation characteristics of underlying surface on runoff regime metrics and their spatial differences in typical urban communities across China. Science China Earth Sciences,2022,65(8):1415–1430.

23. Hou Jinjin,Zhang Yongyong*,Xia Jun,Wang Yueling,Zhang Shiyan,Pan Xingyao,Yang Moyuan,Leng Guoyong and Dou Ming. Simulation and assessment of projected climate change impacts on urban flood events: insights from flooding characteristic metrics. Journal of Geophysical Research: Atmosphere 2022,127,e2021JD035360.

24. Yang Peng,Wang Wenyu,Xia Jun,Zhang Yongyong*,Zhan Chesheng,Zhang Shengqing,Chen Nengcheng,Luo Xiangang,Lie Jiang. Linear and nonlinear causal relationships between the dry/wet conditions and teleconnection indices in the Yangtze River basin. Atmospheric Research 2022,275,106249.

25. Yang Peng,Zhang Shengqing,Xia Jun*, Zhang Yongyong*,Wang Wenyu,Yao Tianci. Occurrence of drought events at the land–atmosphere interface in Central Asia assessed via advanced microwave scanning radiometer data. International Journal of Climatology,2022,42:7408–7425.

26. 张永勇*,侯进进,夏军,佘敦先,吴胜军,潘兴瑶. 我国典型城市小区尺度下垫面对径流过程的调控特征与空间差异. 中国科学:地球科学,2022,52(8):1427–1442.

27. 张帆,张永勇*,陈俊旭,翟晓燕,胡庆芳. 多种机器学习模型对不同洪水类型特征指标模拟效果评估. 地理科学进展,2022,41(7):1239-1250.

28. 翟晓燕,张永勇*. 淮河流域水质时空分布及土地利用区域影响. 水资源保护,2022,38(5):181-189.

2021年

29. Zhang Yongyong*,Xia Jun,Shao Quanxi,Li Lu,Yen Haw,Zhai Xiaoyan,Zhao Tongtiegang,Lin Kairong. Uncertainty analysis for integrated water system simulations using GLUE with different acceptability thresholds. Science China Technological Sciences 2021,64(8):1791-1804.

30. Zhang Yongyong*,Hou Jinjin,Ma Guoxia,Zhai Xiaoyan,Lv Aifeng,Wang Wei,Wang Zhonggen. Regional differences of water regulation services of terrestrial ecosystem in the Tibetan Plateau: insights from multiple land covers. Journal of Cleaner Production 2021,283:125216.

31. Zhai Xiaoyan, Zhang Yongyong*,Zhang Yongqiang,Guo Liang,Liu Ronghua. Simulating flash flood hydrographs and behavior metrics across China: implications for flash flood management. Science of the Total Environment 2021,763:142977.

32. Xia Jun,Zhang Yongyong*,Mu Xingmin,Zuo Qiting,Zhou Yujian,Zhao Guangju. A review of the ecohydrology discipline: Progress,challenges,and future directions in China. Journal of Geographical Sciences 2021,31(8):1085-1102.

33. Zhai Xiaoyan,Guo Liang, Zhang Yongyong*. Flash flood type identification and simulation based on flash flood behavior indices in China. Science China Earth Sciences 2021,64(7):1140–1154.

34. Yang Peng,Xia Jun*,Zhang Yongyong*,Zhan Chesheng,Cai Wei,Zhang Shengqin,Wang Wenyu. Quantitative study on characteristics of hydrological drought in arid area of Northwest China under changing environment. Journal of Hydrology 2021,126343.

35. Zhai Xiaoyan,Guo Liang,Liu Ronghua,Zhang Yongyong*,Zhang Yongqiang. Comparing three hydrological models for flash flood simulations in 13 humid and semi-humid mountainous catchments. Water Resources Management 2021,35,1547–1571.

36. Wang Wei,Zhang Yongyong*,Geng Xin,Tang Qiuhong. Impact classification of future land use and climate changes on flow regimes in the Yellow River Source Region,China. Journal of Geophysical Research: Atmosphere 2021,126,e2020JD034064.

37. 张永勇*,谭香,李发东,阮宏威,于静洁,高扬,翟晓燕. 咸海中下游流域水质空间分布特征及其与土地覆被的关系. 中国生态农业学报(中英文),2021,29(2):299-311.

38. 杨琴,张永勇*.沙颍河流域(河南段)非点源氨氮污染模拟与时空特征分析. 环境科学研究,2021,34(2):28-36.

39. 翟晓燕,郭良,张永勇*. 基于洪水行为特征指标的我国山洪类型辨识与模拟. 中国科学:地球科学,2021,51(7):1092-1106.

40. 翟晓燕,郭良,张永勇*,刘荣华. 考虑多准则似然函数的洪水模拟不确定性评估. 武汉大学学报（工学版）,2021,54(1):38-45.

2020年

41. Zhang Yongyong*,Chen Qiutan,Xia Jun. Investigation on flood event variations at space and time scales in the Huai River Basin of China using flood behavior classification. Journal of Geographical Sciences 2020,30(12):2073-2095.

42. Yang Moyuan,Zhang Yongyong*,Pan Xingyao. Improving the Horton infiltration equation by considering soil moisture variation. Journal of Hydrology 2020,586:124864.

43. Wang Wei,Zhang Yongyong*,Tang Qiuhong. Impact assessment of climate change and human activities on streamflow signatures in the Yellow River Basin using the Budyko hypothesis and derived differential equation. Journal of Hydrology 2020,591: 125460.

44. Yang Peng,Zhang Yongyong*,Xia Jun,Sun Shangxin. Identification of drought events in the major basins of Central Asia based on a combined climatological deviation index from GRACE measurements. Atmospheric Research 2020,244:105105.

45. Yang Peng,Zhang Yongyong*,Xia Jun,Sun Shangxin. Investigation of precipitation concentration and trends and their potential drivers in the major river basins of Central Asia. Atmospheric Research 2020,245:105128. DOI: 10.1016/j.atmosres.2020.105128.

46. 张永勇*,陈秋潭. 淮河中上游流域洪水主要类型及其时空分布特征. 地理科学进展,2020,39(4):627-635.

47. 夏军,张永勇*,穆兴民,左其亭,周宇建,赵广举. 中国生态水文学发展趋势与重点方向. 地理学报,2020,75(3):445-457.

48. 王未,张永勇*. 黄河流域径流情势区域变化特征分析. 水资源与水工程学报,2020,31(3):59-65.

2019年

49. Zhang Yongyong*,Pang Xuan,Xia Jun,Shao Quanxi,Yu Entao,Zhao Tongtiegang,She Dunxian,Sun Jianqi,Yu Jingjie,Pan Xinyao,Zhai Xiaoyan. Regional patterns of extreme precipitation and urban signatures in metropolitan areas. Journal of Geophysical Research: Atmosphere 2019,124: 641–663.

50. Zhou Yujian,Zhang Yongyong*,Liang Tao,Wang Linqing. Shifting of phytoplankton assemblages in a regulated Chinese river basin after streamflow and water quality changes. Science of the Total Environment 2019,654:948-959.

51. Chen Hao,Zuo Qiting,Zhang Yongyong*. Impact factor analysis of aquatic species diversity in the Huai River Basin,China. Water Science and Technology: Water Supply 2019,19(7):2061-2071.

52. 庞璇,张永勇*,潘兴瑶,杨默远. 城市雨洪模拟与年径流总量控制目标评估：以北京市未来科技城为例. 资源科学,2019,41(4):803-813.

53. 杨琴,汤秋鸿,张永勇*.淮河流域(河南段)水质时空变化特征及其与土地利用类型的相关性分析. 环境科学研究,2019,32(9):1519-1530. （高PCSI论文）

54. 翟晓燕,郭良,刘荣华,张永勇*,王雅莉. 前期土壤湿度和降雨对小流域山洪预警指标的影响评估. 地理研究,2019,38(12):2957-2965. （高PCSI论文）

55. 陈秋潭,张永勇*. 淮河中上游流域基流时空变化特征及闸坝调控影响. 南水北调与水利科技,2019,17(6) :10-19.

2018年

56. Zhang Yongyong*,Xia Jun,Yu Jingjie,Randall Mark,Zhang Yichi,Zhao Tongtiegang,Pan Xingyao,Zhai Xiaoyan,Shao Quanxi. Simulation and assessment of urbanization impacts on runoff metrics: insights from landuse changes. Journal of Hydrology 2018,560:247-258.

57. Zhang Yongyong*,Shao Quanxi. Uncertainty and its propagation estimation for an integrated water system model: An experiment from water quantity to quality simulations. Journal of Hydrology 2018,565:623-635.

58. Zhang Yongyong*,Zhai Xiaoyan,Zhao Tongtiegang. Annual shifts of flow regime alteration: new insights from the Chaishitan Reservoir in China. Scientific Reports 2018,8:1414.

59. Zhai Xiaoyan, Zhang Yongyong*. Impact assessment of projected climate change on diffuse phosphorous loss in Xin'anjiang catchment,China. Environmental Science and Pollution Research 2018,25:4570-4583.

60. Zhai Xiaoyan,Guo Liang,Liu Ronghua, Zhang Yongyong* Rainfall threshold determination for flash flood warning in mountainous catchments with consideration of antecedent soil moisture and rainfall pattern. Natural Hazards 2018,94(2):605-625.

61. Huang Linxian*,Wang Lichun,Zhang Yongyong*,Xing Liting,Hao Qichen,Xiao Yong,Yang Lizhi,Zhu Henghua. Identification of groundwater pollution sources by a SCE-UA algorithm-based simulation/optimization model. Water 2018,10(2):193.

62. 姜倩妮,李占玲,张永勇*. GLUE框架下似然函数对水文模型不确定性的影响. 水资源与水工程学报,2018(1):25-30.

2017年

63. Zhang Yongyong*,Shao Quanxi,Zhao Tongtiegang. Comprehensive assessment of dam impacts on flow regimes with consideration of interannual variations. Journal of Hydrology 2017,552:447-459.

64. Zhang Yongyong*,Gao Yang,Yu Qiang. Diffuse nitrogen loss simulation and impact assessment of stereoscopic agriculture pattern by integrated water system model and consideration of multiple existence forms. Journal of Hydrology 2017,552:660-673.

65.  Xia Jun*,Zhang Yongyong*,Xiong Lihua,He Shan,Wang Longfeng,Yu Zhongbo. Opportunities and challenges of the Sponge City construction related to urban water issues in China. Science China Earth Sciences 2017,60(4):652–658. (ESI高被引论文)

66. Zhai Xiaoyan,Xia Jun,Zhang Yongyong*. Integrated approach of hydrological and water quality dynamic simulation for anthropogenic disturbance assessment in the Huai River Basin,China. Science of the Total Environment 2017,598 (15):749–764.

67. Hua Ruixiang, Zhang Yongyong* Assessment of water quality improvements by hydrodynamic simulation approach in regulated cascade reservoirs: case study in the drinking water source of Shenzhen City,China. Water 2017,9,825.

68. 张永勇*,花瑞祥,夏瑞.气候变化对淮河流域水量水质影响分析.自然资源学报 2017,32(1):114-126.  （高下载论文）

69. 左其亭,陈豪,张永勇*,窦明,刘静. 淮河中上游轮虫群落结构分析及水质评价.环境工程学报2017,11(1):165-173.

70. 徐苏,张永勇*,窦明,花瑞祥,周宇建. 长江流域土地利用时空变化特征及其径流效应. 地理科学进展2017,36(4):426-436. （高PCSI论文、高被引论文）

71. 夏军,张永勇*,张印,邹磊,王强.中国海绵城市建设的水问题研究与展望. 人民长江,2017,48(20):1-5.

2016年

72. Zhang Yongyong*,Shao Quanxi*,Ye Aizhong,Xing Hongtao and Xia Jun. Integrated water system simulation by considering hydrological and biogeochemical processes: model development,with parameter sensitivity and autocalibration. Hydrology and Earth System Sciences 2016,20:529–553.

73. Zhang Yongyong*,Shao Quanxi*,Taylor John A. A balanced calibration of water quantity and quality by multi-objective optimization for integrated water system model. Journal of Hydrology 2016,538:802-816.

74. Zhang Yongyong*,Shao Quanxi,Zhang Shifeng*,Zhai Xiaoyan,She Dunxian. Multi-metric calibration of hydrological model to capture overall flow regimes. Journal of Hydrology 2016,539:525-538.

75. Zhang Yongyong*,Zhou Yujian,Shao Quanxi*,Liu Hongbin,Lei Qiuliang,Zhai Xiaoyan,Wang Xuelei. Diffuse nutrient losses and the impact factors determining their regional differences in four catchments from North to South China. Journal of Hydrology 2016,543:577-594.

76. 刘昌明,张永勇*,王中根,王月玲,白鹏. 维护良性水循环的城镇化LID模式：海绵城市规划方法与技术初步探讨. 自然资源学报 2016,31 (5):719-731. （高PCSI论文、高被引论文、高下载论文）

77. 周宇建,张永勇*,花瑞祥,左其亭,陈豪. 淮河中上游浮游植物时空分布特征及关键环境影响因子识别.地理研究 2016,35(9):1626-1636.

78. 张永勇*,李宗礼,刘晓洁.近千年淮河流域河湖水系连通演变特征.南水北调与水利科技 2016,14(4) :77-83.

79. 张永勇*,花瑞祥. 基于水动力-水质模型的湖库安全纳污能力量化. 华北水利水电大学学报(自然科学版) 2016,37(5):33-39.

80. 花瑞祥,张永勇*,刘威,杨逸航.不同评价方法对水库水质评价的适应性分析.南水北调与水利科技 2016,14(4):183-189.

2015年

81. Zhang Yongyong*,She Dunxian,Xia Jun,Zhai Xiaoyan,Zuo Qiting. Causal analysis on the specified paroxysmal water pollution incidents in Huai River Basin. Environmental Engineering and Management Journal 2015,14(1):139-151.

82. Zhang Yongyong*,Zhai Xiaoyan,Shao Quanxi,Yan Ziqi. Assessing temporal and spatial flow regime alterations in the regulated Huai River Basin,China. Journal of Hydrology 2015,529:384-397.

83. Zhang Yongyong*,Fu Guobin,Sun Boyang,Zhang Shifeng*,Men Baohui. Simulation and classification of the impacts of projected climate change on flow regimes in the arid Hexi Corridor of Northwest China. Journal of Geophysical Research: Atmosphere 2015,120: 7429-7453.

2014年

84. Zhai Xiaoyan,Zhang Yongyong*,Wang Xuelei,Xia Jun. Non-point source pollution modeling using Soil and Water Assessment Tool and its parameter sensitivity analysis in Xin’anjiang Catchment,China. Hydrological Processes 2014,28:1627-1640.

85. Xia Jun,Zhang Yongyong*,Zhao Changsen,Stuart E. Bunn. Bioindicator assessment framework of river ecosystem health and the detection of factors influencing the health of the Huai River Basin,China. Journal of Hydrologic Engineering 2014,19(8),04014008.

86. 张永勇*,王中根,于静洁,翟晓燕. 流域COD减排核证研究-以淮河中上游为例.自然资源学报 2014,29(5):819-829.

2013年

87. Zhang Yongyong*,Xia Jun,Shao Quanxi,Zhai Xiaoyan. Water quantity and quality simulation by improved SWAT in highly regulated Huai River Basin of China. Stochastic Environmental Research & Risk Assessment 2013,27:11-27.

88. Zhang Yongyong,Zhang Shifeng*,Xia Jun,Hua Dong. Temporal and spatial variation of the main water balance components in the Three Rivers Source Region,China from 1960 to 2000. Environmental Earth Science 2013,68:973-983.

89. 孙波扬,张永勇*,门宝辉,张士锋. 分布式水循环模型的参数优化算法比较及应用.资源科学 2013,35(11):2217-2223.

90. 张永勇*,夏军,翟晓燕. 闸坝的水文水环境效应及其量化方法探讨. 地理科学进展 2013,32(1):105-113.

91. 张永勇*,张士锋,翟晓燕,孟秀敬,王中根.气候变化下石羊河流域径流模拟与影响量化.资源科学 2013,35(3):601-609.

2012年

92.  Zhang Yongyong*,Arthington Angela H.,Bunn Stuart E.,Mackay Stephen,Xia Jun,Kennard Mark. Classification of flow regimes for environmental flow assessment in regulated rivers: the Huai River Basin,China. River Research and Applications 2012,28: 989–1005.

93. Zhang Yongyong*,Xia Jun,Shao Quanxi,Zhang Xiang. Experimental and simulation studies on the impact of sluice regulation on water quantity and quality processes. ASCE: Journal of Hydrologic Engineering 2012,16(4):467-477.

94. Zhang Yongyong,Zhang Shifeng*,Zhai Xiaoyan,Xia Jun. Runoff variation and its response to climate change in the Three Rivers Source Region. Journal of Geographical Sciences 2012,22(5):781-794.

95. Wang Zhonggen,Ficklin Darren L.,Zhang Yongyong*,Zhang Minghua. Impact of climate change on streamflow in the arid Shiyang River Basin of northwest China. Hydrological Processes 2012,26: 2733–2744.

96. 张永勇*,张士锋,翟晓燕,夏军.三江源区径流演变及其对气候变化的响应. 地理学报 2012,67(1):71-82.

2011年

97. Zhang Yongyong,Xia Jun*,Chen Junfeng,Zhang Minghua. Water quantity and quality optimization modeling of dams operation based on SWAT in Wenyu River Catchment,China. Environmental Monitoring and Assessment 2011,173:409–430.

98. Zhang Yongyong,Shao Quanxi,Xia Jun*,Bunn Stuart E.,Zuo Qiting. Changes of flow regimes and precipitation in Huai River Basin in the last half century. Hydrological Processes 2011,25:246–257.

2010年及以前

99. Zhang Yongyong,Xia Jun*,Liang Tao,Shao Quanxi. Impact of water projects on river flow regimes and water quality in Huai River Basin. Water Resources Management 2010,24(5):889-908.（2010年中国百篇最具影响国际学术论文）

100. Zhang Yongyong*,Xia Jun,Wang Zhonggen. Integrated water resources carrying capacity in Tongzhou District,Beijing City. Journal of Resources and Ecology 2010,1(3):253-258.

101. 张永勇*,夏军,陈军峰,孟德娟.基于SWAT模型的闸坝水量水质优化调度模式研究.水力发电学报 2010,29(5):159-164.

102. 张永勇*,陈军峰,夏军,孟德娟. 温榆河流域闸坝群对河流水量水质影响研究.自然资源学报2009,24(10):1697-1705.

103. 张永勇*,王中根,夏军,柳文华,刘晓洁. 基于水循环过程的水量水质联合评价方法. 自然资源学报 2009,24(7):1308-1314.

104. 张永勇*,王中根,于磊,夏军,陈向东. SWAT水质模块的扩展及其在海河流域典型区的应用.资源科学 2009,31 (1):94-100.

105. Zhang Yongyong,Xia Jun,Wang Zhonggen,Zhang Xuesong. Distributed hydrologic modeling of the Huaihe River Basin with high density of dams and floodgates. Hydrological Modelling and Integrated Water Resources Management in Ungauged Mountainous Watersheds (Proceedings of a symposium held at Chengdu,China,November 2008). IAHS Publication. 2009,335:57-63.（EI）

106. Xia Jun,Zhang yongyong*,Wang Gangsheng. Assessment of dam impacts on river flow regimes and water quality: a case study of the Huai River Basin in P. R. China. Journal of Chongqing University(English Edition) 2008,7(4):260-274.

107. 张永勇*,夏军,王纲胜,蒋艳,赵长森. 淮河流域闸坝联合调度对河流水质影响分析. 武汉大学学报 2007,40(4):31-35.

108. 张永勇*,夏军,王中根. 区域水资源承载力理论与方法探讨. 地理科学进展 2007,26(2):126-132.

109. 张永勇*,张光义,夏军,王红萍. 湿地污水处理机理的研究.环境科学与技术2005,28(S1):165-167.

110. 张永勇 非点源污染模型：不仅仅是数学方程. 中国水利报,2005,1.8. 

专著

1.   翟晓燕,张永勇. 调控流域环境水文过程及其数值模拟. 中国水利水电出版社,2023.

2.   宋晓猛,占车生,夏军,张永勇. 流域水文模型参数不确定性量化理论方法与应用.中国水利水电出版社,2014

3.   夏军,张永勇,吴时强,夏瑞,周杰. 气候变化对河湖水环境生态影响及其对策. 中国水利水电出版社,2013

4.   张永勇,夏军,程绪水,张翔. 多闸坝流域水文环境效应研究及应用. 中国水利水电出版社,2011.

授权专利和软件著作权

1.   张永勇,翟晓燕,彭崑. 多气候变化影响模式下的水循环多要素变化归因解析方法. 专利号：ZL 2024 1 0974446.8,发明专利.

2.   张永勇,翟晓燕,周宇建. 一种确定河流环境流量过程区间的方法. 专利号：ZL 202010639423.3,发明专利.

3.   翟晓燕,张永勇. 一种基于降雨预报信息的洪水过程及其类型预报方法. 专利号：ZL 202210891514.5,发明专利.

4.   翟晓燕,张永勇. 考虑过程间作用的流域水循环多过程模拟误差量化方法. 专利号：ZL 202211077047.9,发明专利.

5.   邹磊,陈婷,王飞宇,张永勇. 考虑多要素空间依赖性的区域蒸散发变化归因分析方法. 专利号：ZL 202210081232.9,发明专利.

6.   邹磊,于家瑞,张永勇,左凌峰. 一种流域洪水类型辨识及其影响因子解析的方法. 专利号：ZL 202210208546.0,发明专利.

7.   张永勇,翟晓燕,陈俊旭. 一种洪水过程类型相似性挖掘与快速预测方法. 专利号：ZL 2019 1 0981658.8,发明专利.

8.   张永勇,翟晓燕. 闸坝多目标泄流估算方法及系统. 专利号：ZL 201910184925.9,发明专利.

9.   杨志平,钟部卿,张永勇,王凌青. 雨水涵养装置. ZL 201520607498.8,实用新型专利.

10.    中国科学院地理科学与资源研究所. 中亚典型流域水循环模型系统.登记号:2023SR0163479;完成人：张永勇.

11.    中国科学院地理科学与资源研究所. 城市水系统5.0模型集成系统.登记号:2023SR0163477;完成人：夏军,张永勇,张世彦.

12.    中国科学院地理科学与资源研究所. 城市多途径汇流过程耦合与模拟工具.登记号:2022SR0028530;完成人：张永勇.

13.    中国科学院地理科学与资源研究所. 流域洪水过程及类型预测预报工具.登记号:2021SR1167450;完成人：张永勇.

14.    中国科学院地理科学与资源研究所. 城市绿色发展评估软件.登记号:2020SR1596020;完成人：张永勇.

15.    中国科学院地理科学与资源研究所. 基于HEQM的洪水过程及特征指标模拟软件.登记号:2020SR1596034;完成人：张永勇.

16.    中国科学院地理科学与资源研究所. 海绵措施调控的城市雨洪-面源模型系统.登记号:2019SR1189414;完成人：张永勇.

17.    中国科学院地理科学与资源研究所. 流域水循环系统模型生物地球化学过程模拟软件.登记号:2018SR872152;完成人：张永勇.

18.    中国科学院地理科学与资源研究所. 水库水量水质模拟软件.登记号:2018SR872145;完成人：张永勇.

19.    中国科学院地理科学与资源研究所. 复杂流域水系统模型系统.登记号:2016SR040307;完成人：张永勇.

20.    中国科学院地理科学与资源研究所. 流域水系统模型参数分析软件.登记号:2016SR039945;完成人：张永勇.

21.    中国科学院地理科学与资源研究所. 淮河流域多闸坝分布式时变增益模拟系统.登记号:2016SR040518;完成人：张永勇.

22.    中国科学院地理科学与资源研究所. 水库入流预报系统.登记号:2016SR148971;完成人：张永勇.

23.    中国科学院地理科学与资源研究所. 城市雨洪模拟及海绵措施优化系统.登记号:2018SR575995;完成人：张永勇.

24.    中国科学院地理科学与资源研究所. 气象要素质量控制和空间差值软件.登记号:2018SR576016;完成人：张永勇.

25.    中国科学院地理科学与资源研究所. 流域水循环系统模型不确定性分析工具.登记号:2018SR576028;完成人：张永勇.

26.    中国科学院地理科学与资源研究所. 基于HEQM的径流情势多指标均衡率定软件.登记号:2018SR605109;完成人：张永勇.

27.    中国科学院地理科学与资源研究所. 基于HEQM的城市雨洪模型软件.登记号:2018SR611251;完成人：张永勇.

28.    中国科学院地理科学与资源研究所. 温榆河流域水质水量联合调控系统. 登记号:2011SR095375;完成人：张永勇,夏军,等.

29.    中国科学院地理科学与资源研究所. 分布式时变增益水量水质耦合模拟系统. 登记号:2011SR095221;完成人：张永勇,夏军,等.

30.    中国科学院地理科学与资源研究所. 跨流域分布式时变增益水文模型系统. 登记号:2010SR015625;完成人：夏军,张永勇,等.

31.    中国科学院地理科学与资源研究所.水质水量耦合模拟系统. 登记号:2009SR014733;完成人：王中根,夏军,张永勇.

推广技术

1.  张永勇. 流域水循环系统模型（HEQM）. 2019年度水利先进实用技术重点推广指导目录.水利部科技推广中心,2019.

数据集

1.  张永勇,刘玉,杨鹏. (2022). 中亚咸海流域农业水资源供给和开发利用潜力数据集（V1.0，2000-2099）. 国家青藏高原数据中心.  Zhang,Y.,Liu,Y.,Yang,P. (2022). Supply,Development and Utilization Potential Dataset of Agricultural Water Resources in Aral Sea Basin of Central Asian (V1.0,2000-2099). National Tibetan Plateau / Third Pole Environment Data Center. https://doi.org/10.11888/Terre.tpdc.272158. https://cstr.cn/18406.11.Terre.tpdc.272158.

2.  张永勇,杨鹏,田静,张永强. (2020). 中亚农业水资源供需分布（2000s、2010s、2015s）. 国家青藏高原数据中心.  Zhang,Y.,Yang,P.,Tian,J.,Zhang,Y. (2020). Supply and demand dataset of agricultural water resources in Central Asian (2000s,2010s,2015s). National Tibetan Plateau / Third Pole Environment Data Center. https://doi.org/10.11888/Hydro.tpdc.270452. https://cstr.cn/18406.11.Hydro.tpdc.270452.

3.  张永勇. (2019). 中亚五国1980-2015年农业水资源供需和开发利用数据集（格网降水、蒸发、径流）. 国家青藏高原数据中心. Zhang,Y. (2019). Agricultural Water Resources Supply,Demand and Development Data Set in the Five Central Asia Countries from 1980 to 2015 (Gridded precipitation,evapotranspiration,runoff). National Tibetan Plateau / Third Pole Environment Data Center.

研究生招生与培养

招生专业：自然地理学（水文地理）；招生方向：水文学与水资源、环境水文学、城市水文学等。

已培养研究生13名（含联合培养学生8名）。欢迎水文学与水资源、环境科学等相关专业热爱科研的同学报考或硕博连读；常年招聘博士后和联合培养研究生等，提供充分科研基金与研究指导。 

联系方式

通讯地址：北京市朝阳区大屯路甲11号，中国科学院地理科学与资源研究所   A816房间，100101。

电子邮件：zhangyy003@igsnrr.ac.cn

更新时间：2025年9月19日