硕士生导师
郭文献


基本信息:

郭文献(1979-),男,博士后,教授,博士硕士生导师,河南省高校科技创新人才,河南省优秀硕士论文指导教师。研究方向:主要从事河流生态水文水力学基础理论、水电工程生态效应评估、水库生态调度、生态水工学、河湖生态修复、水资源水环境规划与管理等方面研究工作。

主持和参与国家自然基金项目、国家重大水专项、河南省高校科技创新人才项目、河南省科技攻关项目、中国博士后基金项目、中国水科院重点实验室开放基金项目、河南省外专局项目、水利部水资源费项目、湖南省水利厅科技项目、贵州省水利厅科技等项目30余项;在《Science of The Total Environment》、《Journal of Hydrology》、《Journal of Environmental Management》、《Water Resources Research》、《Ecological Indicators》、《水利学报》、《水科学进展》、《水力发电学报》、《湖泊科学》、《应用基础与工程学报》等发表学术论文170篇,其中SCI、EI收录80篇;在国家一级出版社出版专著8部;授权发明专利12项;主持河南省科技进步三等奖1项和河南省发展研究三等奖1项,参与湖南省科技进步二等奖1项(第3名),河南省科技进步二等奖2项(第6名和第9名),河南省教育厅科技成果奖6项。


个人学习工作经历:

1999-2003年本科毕业于华北水利水电大学农业水利工程专业;

2003-2006年硕士毕业于华北水利水电大学农业水土工程专业

2006-2008年博士毕业于河海大学水文学及水资源工程专业

2013-2016年在中国水利水电科学研究院水环境所从事博士后工作。

2009.06-2011.09  华北水利水电大学讲师

2011.09-2020.11 华北水利水电大学副教授

2020.11-至今 华北水利水电大学 教授

2022.6-至今 华北水利水电大学 善水书院副院长


承担的教学任务:

水信息理论与技术;水利水电工程概论;生态水工学;水利工程生态保护;生态需水理论与技术;农业专家系统;数字水利与灌区现代化。


承担的科研项目:

1. 2023年河南省高等学校重点科研项目计划基础研究专项(23ZX012),黄河流域生态水文效应及生态流量阈值研究,2023/01-2025/12,主持;

2. 2024年河南省高等学校重点科研项目计划基础研究专项(24ZX007),黄河中下游湿地水-沙-碳协同演变机理及调控机制,2024/01-2026/12,参与;

3. 2023年中国环境科学研究院项目,基于植被-候鸟生境适宜性湖泊生态水位研究,2023/01-2023/12,主持;

4. 晋城市水务局委托项目,张峰调水工程水价测算分析,2023/07-2023/09,主持;

5. 2022年中国水利水电科学研究院项目,《基于三次评价的宁夏河湖生态演变规律分析》,2022/03-2022/12,主持;

6. 2022年中国水利水电科学研究院项目,鄂尔多斯市德隆乌兰煤矿典型河段行洪安全分析,2022/10-2022/12,参与;

7. 2022年河南省水利厅项目,河南省赵口引黄灌区二期工程赵口灌区水质监测与预警系统建设体系构建,2022/07-2023/07,参与;

8. 2016年国家自然科学基金(51679090),水电梯级开发对长江中游重要鱼类生境累积效应及调控机制研究,2017/01-2020/12,主持;

9. 2017年国家自然基金(51779094)《水电工程影响下黄河下游重要湿地生态水文效应及调控》,2018/01-2021/12,参与;

10. 2016年国家自然科学基金(51609085),城市化河流生态水文效应及调控机制研究,2017/01-2019/12,结题,参与;

11. 2012年国家自然基金青年基金(编号:51209091)《考虑下游鱼类生境健康的水库生态调度研究》,2013-2015年,结题,主持;

12. 河南省高校科技创新人才支持项目(16HASTIT024),《梯级水库群多尺度多目标生态调控模型与方法研究》,2016/01-2017/12,结题,主持;

13. 河南省科技攻关项目(162102110015),《粮食主产区农业节水水文生态效应及调控机制研究》,2016/01-2018/12,主持;

14. 2019年河南省外国专家局引智项目(201936),《水电梯级开发对黄河下游重要湿地植被演替影响研究》,2019/01-2021/12,主持;

15. 中国博士后基金(2014M550771),《水电工程影响下长江典型鱼类生境适宜性评价及调控机制研究》,2014/06-2015/06,结题,主持;

16. 中国水利水电科学研究院重点实验室开放基金(IWHR-SKL-201315),《长江中游四大家鱼生境适宜性评价研究》,2013/09-2015/09,结题,主持;

17. 2020年贵州省水利厅科技项目,《乌江水电开发对河流鱼类生境影响与调控》,2020/08-2021/08,主持;

18. 2016年和2017年水利部水资源费项目,《水资源管理考核指标复核》,2017.1-2018.12,结题,主持;

19. 2016年湖南省重大水利科技项目(湘水科计【2015】186-11),《湖南省典型河湖生态环境用水保障策略研究》,2017.1-2018.12,结题,参与;

20. 2018年湖南省水资源费项目,《2018年湖南省用水总量指标考核关键技术研究》,2018.1-2018.12,主持


代表性学术论文:

[1] Guo Wenxian, Wang Bing, Jiao Xuyang, Huang Lintong, Yang Huan, Yu Long, Wang hongxiang. Synergistic evolution and attribution analysis of water-sediment in the middle and lower reaches of the Yangtze River[J]. Journal of Hydrology-Regional Studies, 2024,51:101626(中科院 2区,IF= 5.437)

[2] Yang Huan, Guo Wenxian*, Wang Hongxiang. Anthropogenic intensification of the eco-hydrothermal regime transition in regulated rivers: The cumulative effect of cascade reservoirs[J]. Journal of Environmental Management, 2024, 349,119478. (中科院 2区TOP,IF=8.7)

[3] Wang Fei, Lai Hexin, Men Ruyi, Sun Ke, Li Yanbin, Feng Kai, Tian Qingqing, Guo Wenxian, Du Xuefang and Qu Yanping. Spatial and temporal evolutions of terrestrial vegetation drought and the influence of atmospheric circulation factors across the Mainland China [J]. Ecological Indicators, 2024,158: 111455. (中科院2区TOP,IF=6.9)

[4] Guo Wenxian, Yu Long, Huang Lintong, He Ning, Chen Wenxiong, Hong Fengtian, Wang Bing, Wang Hongxiang. Ecohydrological response to multi-model land use change at watershed scale[J]. Journal of Hydrology-Regional Studies, 2023,49:101517(中科院 2区,IF= 5.437)

[5] Guo Wenxian, Hong Fengtian, Ma Yinchu, et al.  Comprehensive evaluation of the ecohydrological response of watersheds under changing environments [J]. Ecological Informatics,2023,74:101985(中科院 2区,IF= 4.498)

[6] Guo Wenxian, Yang Huan, Zhou Haotong, Wang Hongxiang. Synergistic changes in river-lake runoff systems in the Yangtze River basin and their driving force differences[J]. Ecological Informatics,2023,75:102069.(中科院 2区,IF= 4.498)

[7] Guo Wenxian, Chen Wenxiong, He Ning, Wang Hongxiang. Variation of heat flux and its effect on the reproduction of four major Chinese carp[J]. Water Supply,2023,23(1):379-395.

[8] Guo Wenxian, Yang Huan, Ma Yinchu,Hong Fengtian, Wang Hongxiang. Intensified regulation of large reservoirs accelerates river ecohydrological regime transition based on the long–short-term memory model[J]. Water Supply,2023,3.

[9] Guo Wenxian, Yang Huan, Ma Yinchu,Hong Fengtian, Wang Hongxiang. Comprehensive evaluation of the hydrological health evolution and its driving forces in the river-lake system[J]. Ecological Informatics,2023,75:102117.(中科院 2区,IF= 4.498)

[10] He Ning, Guo Wenxian(通讯), Wang Hongxiang, Yu Long, Cheng Siyuan, Huang Lintong, Jiao Xuyang, Chen Wenxiong and Zhou Haotong. Temporal and spatial variations in landscape habitat quality under multiple land-use/land-cover scenarios based on the PLUS-InVEST model in the Yangtze River basin, China[J]. Land, 2023, 12, 1338. (中科院 2区,IF= 3.9)

[11] Guo, Wenxian, Sang,Ye Hu Jianwen, Wang Wenping and Wang Hongxiang. Characteristics and attribution analysis of runoff and sediment evolution in the Wei River mainstream, China[J]. Journal of Water and Climate Change, 2023, 14 (7): 2432–2447(中科院 4区,IF=2.8)

[12] Chen Hao, Guo Wenxian, Ma Jianqin, Fu Yicheng, Wang Baoliang. Evaluating ecohydrological driving factors controlling the hydrology of the Wuijang River Basin, China[J]. Hydrology Research, 2023; 54 (7): 818–839.

[13] Guo Wenxian, Yang Huan, Hu Jianwen, Hong Fengtian, Ma Yinchu, Wang Hongxiang. Driving forces of hydrological health and multifractal response of fish habitat in regulated rivers[J]. Journal of Environmental Management, 2023, 345,118844. (中科院 2区TOP,IF=8.7)

[14] Guo Wenxian, He Ning, Wang Hongxiang, Zhang·Haitao, Fu Yicheng. Protecting river eco-hydrological processes: insights from water temperature studies[J]. Aquatic Sciences, 2023,85: 110. (中科院 2区,IF=2.7)

[15] Yang Huan, Guo Wenxian(通讯), Ju Junyan, Zhou Haotong, Bai Xiangyu, Wang Hongxiang. Comprehensive evaluation of watershed ecohydrological risk and ecohydrological satisfaction characteristics from the perspective of hydrological variability[J]. Journal of Water and Climate Change, 2023,14 (11): 4032–4052.

[16] Guo Wenxian, Hong Fengtian, Wang Baoliang, Yuan Weiqi, Wang Gaozhen, Cheng Siyuan,Wang Hongxiang. Evolution and attribution of ecological flow in the Xiangjiang River basin since 1961[J]. Environmental Science and Pollution Research, 2023,30: 104388–104407. (中科院 3区,IF=5.8)

[17] Hong Fengtian, Guo Wenxian, Wang Hongxiang. A Comprehensive assessment of the hydrological evolution and habitat quality of the Xiangjiang River basin[J].Water, 2023, 15, 3626. (中科院 3区,IF=3.5)

[18] 郭文献,金耀广,王鸿翔,查胡飞.近60年以来洞庭湖水文情势变异及生态效应 [J].应用基础与工程学报,2023,31(1):24-37.(EI收录)

[19] Lintong Huang, Mingke Luo, Xia Jiang, Peng Zhang , Hongxiang Wang, Fengtian Hong, Ning He, Wenxian Guo(通讯), Yong Niu. Quantifying the Potential Vegetation Distribution Under Climate Change:The case of Cryptomeria fortunei in Dongting Lake Watershed,China[J]. Forests,2023,14(3):614.(中科院2区,IF=3)

[20] Guo Wenxian, He Ning, Ban Xuan, Wang Hongxiang. Multi-scale variability of hydrothermal regime based on wavelet analysis :The middle reaches of the Yangtze River,China [J]. Science of The Total Environment, 2022,6. (中科院1区TOP,IF=10.753)

[21] Guo Wenxian, Fu Yicheng, Ruan, Benqing, Ge Huaifeng, Zhao Nana. Agricultural non-point source pollution in the YongdingRiver Basin [J].Ecological Indicators, 2014,36(1):254-261.(中科院 2区, IF= 6.263)

[22] Guo Wenxian, Hong Fengtian, Yang Huan, Huang Lintong, Ma Yingchu, Zhou Haotong, Wang Hongxiang. Quantitative evaluation of runoff variation and its driving forces based on multiscale separation framework [J]. Journal of Hydrology-Regional Studies, 2022,7.(中科院 2区,IF= 5.437)

[23] Guo Wenxian, Yang Huan, Ma Yinchu, Hong Fengtian, Wang Hongxiang. Multi-scale impact of climate change and cascade reservoirs on hydrothermal regime alteration in regulated rivers[J]. Journal of Hydrology-Regional Studies, 2022,12.(中科院 2区,IF= 5.437)

[24] Guo Wenxian, Jianwen Hu and Hongxiang Wang. Analysis of Runoff Variation Characteristics and Influencing Factors in the Wujiang River Basin in the Past 30 Years [J]. International Journal of Environmental Research and Public Health,2022,19,372.(中科院 3区,IF= 4.614)

[25] Guo Wenxian, Zhou Haotong, Jiao Xuyang, Huang Lintong, Wang Hongxiang. Analysis of Alterations of the Hydrological Situation and Causes of River Runoff in the Min River, China[J].  Water,2022,14,1093. (中科院 3区, IF= 3.53)

[26] Guo Wenxian, He Ning, Dou Gaofei, Hu Jianwen and Wang Hongxiang. Hydrothermal Regime Variation and Ecological Effects on Fish Reproduction in the Yangtze River [J]. International Journal of Environmental Research and Public Health,2021,18,12039.(中科院 3区,IF= 4.614)

[27] Guo Wenxian, Jiao Xuyang, Huang Lintong, Zhou Haotong, Zhao Ruichao, Wang Hongxiang. Analysis of sediment variation and influencing factors in the upper Yangtze River in the past 50 years, China [J]. Water Supply,2022,22(5):5012-5027. (中科院4区, IF=1.768)

[28] Guo Wenxian, Haotong Zhou, Xuyang Jiao, Lintong Huang, Hongxiang Wang. Evaluation of hydrological regime alteration and ecological effects in the middle and lower of the Yangtze River, China [J]. Water Supply,2022,6. (中科院4区, IF=1.768)

[29] Guo Wenxian, Xuyang Jiao, Haotong Zhou, Yongwei Zhu, Hongxiang Wang. Hydrologic regime alteration and influence factors in the Jialing River of the Yangtze River, China [J]. Scientific Reports,2022,6. (中科院 3区, IF= 4.997)

[30] Guo Wenxian,Jin Yaoguang,Zhao Ruichao,Wang Hongxiang,The impact of the ecohydrologic conditions of Three Gorges Reservoir on the spawning activity of four major Chinese carps in the middle of Yangtze River, China[J]. Applied Ecology and Environmental Research,2021,19(6):4313-4330. (中科院 4区, IF= 0.816)

[31] Guo Wenxian,Li Yue,Wang Hongxiang,Cha Hufei. Temporal variations and influencing factors of river runoff and sediment regimes in the Yangtze River, China[J]. Desalination and water treatment,2020,174:258-270. (中科院 4区, IF= 1.273)

[32] Ban Xuan, T. Qi, H. Z. Wang, H. Du, P. Diplas, F. Xiao, Y. Du, W. J. Gao ,Guo Wenxian, Huang Wei. Comprehensive Environmental Flows Assessment for Multi-Guilds in the Riparian Habitats of the Yangtze River[J]. Water Resources Research,2022,58(9). (中科院1区TOP,IF= 6.159)

[33] ZHU Yong-wei, WANG Hong-xiang, GUO Wen-xian(通讯). The impacts of water level fluctuations of East Dongting Lake on habitat suitability of migratory birds[J]. Ecological Indicators. 2021.132:108277. (中科院 2区, IF= 6.263)

[34] WANG Hong-xiang, Huang Lintong, Guo Wenxian(通讯), Zhu Yongwei, Yang Huan, Jiao, Xuyang, Zhou, Haotong. Evaluation of ecohydrological regime and its driving forces in the Dongting Lake, China. Journal of Hydrology-Regional Studies,2022,44. (SCI 2区,IF= 5.437)

[35] WANG Hong-xiang, Huang Lin-tong, Hu Jian-wen, Yang Huan, Guo Wen-xian(通讯). Effect of Urbanization on the River Network Structure in Zhengzhou City, China[J]. International Journal of Environmental Research and Public Health. 2022,19(4):2464. (中科院 3区,IF= 4.614)

[36] Wang Hongxiang, Ma Yinchu, Hong Fengtian, Yang Huan, Huang Lintong , Jiao Xuyang and Guo Wenxian(通讯). Evolution of Water–Sediment Situation and Attribution Analysis in the Upper Yangtze River, China[J]. Water,2023,15,574. (中科院 3区, IF= 3.53)

[37] Wang Hongxiang, Wang Wenping, Hu Jianwen, Sang Ye, Guo Wenxian(通讯). Characterization of the evolution of runoff-sediment relationship in Min River based on coupling coordination theory[J]. River Research and Applications,2023.4. (中科院 3区, IF= 2.78)

[38] Wang Hongxiang, Ma Yinchu, Yang Huan, Hong Fengtian, ,and Guo Wenxian(通讯). Quantitative evaluation of the impact of climate change and human activities on Jialing river runoff changes in the past 60 years, China[J]. Journal of Water and Climate Change,2023.2(中科院4区, IF=2.803)

[39] WANG Hong-xiang, Zhu Yong-wei, Jin Yao-guang, Guo Wen-xian(通讯). Quantitative assessment of hydrological alteration over multiple periods caused by human activities at the Jingjiang Three Outlets, China[J]. Water Science and Technology-Water Supply,2021.22(1):264-277. (中科院4区, IF=1.768)

[40] WANG Hong-xiang, ZHU Yong-wei, ZHA Hu-fei, GUO Wen-xian(通讯). Quantitative assessment of water level regime alterations during 1959-2016 caused by Three Gorges Reservoir in the Dongting Lake, China[J]. Water Science and Technology-Water Supply, 2021, 21(3):1188-1201. (中科院4区, IF=1.768)

[41] WANG Hong-xiang, Liu Jing-hang, GUO Wen-xian(通讯). The variation and attribution analysis of the runoff and sediment in the lower reach of the Yellow River during the past 60 years[J]. Water Science and Technology-Water Supply,2021,21(6):3193-3209. (中科院4区, IF=1.768)

[42] 郭文献,豆高飞,李越,王鸿翔.近60年来降水与人类活动对长江中下游泥沙影响影响研究[J].应用基础与工程学报,2021,29(1):39-54.(EI收录)

[43] 王鸿翔,朱永卫,查胡飞,郭文献(通讯).洞庭湖生态水位及其保障研究[J].湖泊科学,2020,32(5):1529-1538.(EI收录)

[44] 郭文献,夏自强,王鸿翔.近50年来长江中游宜昌站水温变化的多尺度分析研究[J].水利学报,2008,39(11):1197-1203.(EI收录)

[45] 郭文献,夏自强,王远坤,韩帅.三峡水库生态调度目标研究[J].水科学进展,2009,20(4):554-559.(EI收录)

[46] 郭文献,夏自强.对计算河道最小生态流量湿周法的改进研究[J].水力发电学报,2009,28(3):171-175.(EI收录)

[47] 郭文献,王鸿翔,夏自强,徐建新.三峡-葛洲坝梯级水库水温影响研究[J].水力发电学报,2009,28(6):182-187.(EI收录)

[48] 郭文献,王鸿翔,徐建新,谷红梅.近50多年来长江中游宜昌站泥沙情势变化研究[J].水力发电学报,2011,30(2):78-82.(EI收录)

[49] 郭文献,王鸿翔,徐建新,谷红梅.三峡水库对下游重要鱼类产卵期生态水文情势影响研究[J].水力发电学报,2011,30(3):22-26.(EI收录)

[50] GUO Wen-xian,WANG Hong-xiang, Xu Jian-xin, XIA Zi-qiang. Ecological operation for Three Gorges reservoir [J]. Water Science and Engineering,2011,4(2):143-156.(EI收录)

[51] 郭文献,谷红梅,王鸿翔,徐建新,夏自强.长江中游四大家鱼产卵场物理生境模拟研究[J].水力发电学报,2011,30(5):68-72.(EI收录)

[52] FU Yi-cheng, ZHANG Jian, GUO Wen-xian. Payments for Ecosystem Services for watershed water resource allocations[J]. Journal of Hydrology, 2018,556(1):689-700 (中科院 1区TOP, IF= 6.708)

[53] XING, Li-ming,LIU, Hai-fei,GUO Wen-xian. Numerical study of sulfonamide occurrence and transport at the near-shore area of Laizhou Ba[J]. Water,2019,11(10):2065 (中科院 3区, IF= 3.53)

[54] ZANG, Wen-bin, FU Yi-cheng, GUO Wen-xian. Application analysis of the ecological value of agricultural lands in the upper Yongding river basin[J]. Polish Journal of Environmental Studies,2019,28(2):943-951 (中科院4区, IF= 1.871)

[55] Zhang, Jian, FU Yi-cheng, GUO Wen-xian. A method for estimating watershed restoration feasibility under different treatment levels[J]. Water Science And Technology-Water Supply,2017,17(5):1232-1240 (中科院4区, IF= 1.768)

[56] 郭文献,金耀广,李越,史名洋,王鸿翔.近60年来气候变化和人类活动对长江中下游水文情势影响定量评价[J]. 长江流域资源与环境, 2021, 30(10): 2464-2470.(CSSCI收录)

[57] 郭文献,焦旭洋,周昊彤,金耀广,王鸿翔.嘉陵江水文情势变化及其鱼类影响研究[J].长江流域资源与环境,2022,31(04):805-813.(CSSCI收录)

[58] 郭文献李越,王鸿翔,查胡飞.基于IHA-RVA法三峡水库下游河流生态水文情势评价. 长江流域资源与环境.2018,27(9):2014-2021. (CSSCI收录)

[59] 郭文献,付意成,闫丽娟.治理修复型水生态补偿问题分析[J].自然资源学报,2013,28(9):1538-1546. (CSSCI收录)

[60] 郭文献,付意成,张龙飞.流域生态补偿社会资本模拟[J].中国人口.资源与环境,2014,24(7):10-15. (CSSCI收录)

[61] 王鸿翔, 朱永卫, 查胡飞, 郭文献(通讯). 东洞庭湖湿地生态水位阈值研究[J]. 长江流域资源与环境, 2021, 30(09): 2217-2226.(CSSCI收录)


出版专著:

1. 郭文献,夏自强,王鸿翔.《河流生态需水及生态调控理论与实践》,中国水利水电出版社,27万字,2013.12.

2. 郭文献,付意成,王鸿翔.《区域水资源优化调控理论与实践》,中国水利水电出版社,25万字,2015.6

3. 郭文献,刘武艺,王鸿翔,黄智华.《城市雨洪生态管理研究与应用》,中国水利水电出版社,28万字,2015.12

4. 郭文献,王贵作.《筑坝河流生态水文效应评估理论与实践》,中国水利水电出版社,21万字,2016.12.

5. 郭文献.《水电工程对长江水文生态影响研究》,中国水利水电出版社,29万字,2018.9.

6. 郭文献,钱湛,卓志宇,黄伟.《洞庭湖生态水文与生态需水研究》,中国水利水电出版社,28万字,2018.9.

7. 王鸿翔,郭文献.《黄河中下游水沙演变及湿地影响研究》,中国水利水电出版社,15万字,2021.8.

8. 王鸿翔,郭文献.《供水管网模型校正研究与应用》,中国水利水电出版社,21万字,2015.9.


授权专利:

1. 郭文献,王鸿翔,坝体下游受冲刷河床修复方法和系统,2020.10.23,中国,ZL201910349138.5

2. 郭文献,王鸿翔,河道淤泥疏浚处理系统,2020.10.13,中国,ZL201910309356.6

3. 郭文献,王鸿翔,桑明崎,河道近自然生态堤岸,2020.10.27,中国,ZL201910232435.1

4. 郭文献,王鸿翔.雨洪资源化利用方法与系统,2021.06.25,中国,ZL201910726927.6

5. 郭文献,王鸿翔.生态过鱼设施,2021.07.27,中国,ZL201910825823.0

6. 郭文献,王鸿翔,豆高飞.考虑下游农业作物适宜生长的水库生态调度方法,2021.06.25,中国,ZL201910171150.1

7. 王鸿翔,郭文献,赵颖异,一种城市河道雨洪资源调控系统,2020.12.8,中国,ZL201910156487.5

8. 王鸿翔,郭文献. 叠梁闸门功能的启闭自动排水结构,2021.01.22,中国,ZL201910346326.2

9. 王鸿翔,郭文献. 城市河道生态堤防,2021.06.22,中国,ZL201910828791X

10. 王鸿翔,郭文献.河流或水库生态清淤装置和生态清淤系统,2022.05.17,中国,ZL201910825730.8


主要的获奖成果:

1. 《河湖生态流量评估与保障关键技术及应用》,获得2021年河南省教育厅科技成果一等奖(排名第2)

2. 《南方丰水区生态河湖建设关键技术研究及应用》,获得2019年湖南省科技进步2等奖,排名第3。

3. 《筑坝河流生境累积生态效应及调控》,获得2017年河南省科技进步3等奖,主持。

4. 《城市雨洪资源生态学管理模式研究-以郑州市为例》,获2016年河南省政府发展研究三等奖,主持;

5. 项目《河川径流变化规律和生态调度模式》,获2013年河南省科技进步二等奖,第9;

6. 项目《郑州市生态水系建设与水资源优化调度研究》,获2012年河南省科技进步二等奖,第6;

7. 项目《三峡水库下游河流生态需水与生态调度研究》,获2011年河南省教育厅科技成果一等奖,第1;

8. 《筑坝河流生态水文效应评估理论与实践》,获2017年河南省优秀自然论著1等奖,第1;

9. 论文《三峡-葛洲坝梯级水库水温影响研究》,河南省首届自然科学优秀论文二等奖,第1;

10. 论文《Analysis on Surface Water Quality Purifying Effect of Constructed Wetland in North Area of China》,河南省首届自然科学优秀论文二等奖,第1;

11. 论文《近50多年来长江中游宜昌站泥沙情势变化研究》,河南省第2届自然科学优秀论文二等奖,第1;

12. 论文《三峡水库对下游重要鱼类产卵期生态水文情势影响研究》,河南省第2届自然科学优秀论文三等奖,第1

联系方式:

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