°®ÓÎÏ·Âí¾º¹Ù·½ºÏ×÷»ï°é

    Ö麣 EN

×óµÂÅô ¾©Ê¦ÌØƸ½ÌÊÚ ÇàÄ곤½­Ñ§Õß ²©Ê¿Éúµ¼Ê¦

Ñо¿·½Ïò£ºË®ÎÄѧ¼°Ë®×ÊÔ´¡¢»·¾³¿Æѧ

µç»°£º

E-mail£ºdpzuo@bnu.edu.cn

Ñо¿ÁìÓò£ºÁ÷Óòˮѭ»·Ä£Äâ¡¢Éú̬ˮÎĹý³Ì¡¢Ë®ºµÔÖº¦ÆÀ¹À¡¢ÃæÔ´ÎÛȾ¸ººÉºËË㡢ˮÉú̬½¡¿µÆÀ¼Û

¸öÈËÂÄÀú

ѧϰ¾­Àú£º

2007/9-2012/6£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬»·¾³¿Æѧרҵ£¬¹¤Ñ§²©Ê¿

2003/9-2007/6£¬ºÓº£´óѧˮ×ÊÔ´»·¾³°®ÓÎÏ·Âí¾º¹Ù·½ºÏ×÷»ï°é£¬Ë®ÎÄÓëË®×ÊÔ´¹¤³Ìרҵ£¬¹¤Ñ§Ñ§Ê¿


¹¤×÷¾­Àú£º

2022/6-ÖÁ½ñ£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬²©Ê¿Éúµ¼Ê¦

2022/2-ÖÁ½ñ£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬¸±Ôº³¤

2018/11-2022/3£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬Ôº³¤ÖúÀí

2018/6-2021/12£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬Ë®ÎÄÓëË®×ÊÔ´Ñо¿Ëù£¬µ³Ö§²¿Êé¼Ç

2017/8-ÖÁ½ñ£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬¸±½ÌÊÚ

2012/8-2017/7£¬±±¾©Ê¦·¶´óѧˮ¿ÆѧÑо¿Ôº£¬½²Ê¦¡¢Ë¶Ê¿Éúµ¼Ê¦

2011/2-2011/7£¬ÈðÊ¿Áª°îË®¿Æѧ¼¼ÊõÑо¿Ëù(EAWAG)£¬ÏµÍ³·ÖÎö¡¢×ÛºÏÆÀ¼ÛÓëÄ£ÄâÊÒ£¬·ÃÎÊѧÕß

¿ÆѧÑо¿

Ö÷³Ö¿ÆÑÐÏîÄ¿£º

1. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬¸Éºµ°ë¸ÉºµÁ÷ÓòÉú̬ˮÎÄϵͳñîºÏÄ£ÄâÓ뽡¿µãÐÖµµ÷¿ØÑо¿£¬2025-2028£¬Ö÷³Ö

2. ÇàÄ곤½­Ñ§ÕßÏîÄ¿£¬±ä»¯»·¾³ÏÂÁ÷ÓòÉú̬ˮÎĹý³ÌЭͬÇý¶¯»úÀíÓë×ÔÊÊÓ¦ñîºÏÄ£Ä⣬2024-2027£¬Ö÷³Ö

3. ¹ú¼ÒÖصãÑз¢¼Æ»®×Ó¿ÎÌ⣬»ùÓÚ¶àÔ´Êý¾ÝÇý¶¯µÄË®ÎÄ-Éú̬×ÔÊÊÓ¦ñîºÏÄ£Ð͹¹½¨£¬2021-2025£¬Ö÷³Ö

4. ¹ú¼ÒÖصãÑз¢¼Æ»®×Ó¿ÎÌ⣬Á÷ÓòÃæÔ´ÎÛȾģÐÍÓëÎÛȾ¸ººÉºËË㣬2021-2025£¬Ö÷³Ö

5. ±±¾©ÊÐ×ÔÈ»¿Æѧ»ù½ðÃæÉÏÏîÄ¿£¬±±¾©ÊеäÐÍÁ÷ÓòË®Éú̬ϵͳ½¡¿µÆÀ¼Û¼°Æä¹Ø¼üÇý¶¯Òò×Óʶ±ðÑо¿£¬2020-2022£¬Ö÷³Ö

6. ¹ú¼ÒÖصãÑз¢¼Æ»®×Ó¿ÎÌ⣬³ÇÊи´ÔÓϵæÃæÌõ¼þϽµÓ꾶Á÷Ä£ÄâÄ£ÐÍ£¬2018-2021£¬Ö÷³Ö

7. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄêÏîÄ¿£¬Î¼ºÓÁ÷ÓòÅ©Òµ¸ÉºµÆÀ¹ÀÓëÖÂÔÖ»úÀíÑо¿£¬2014-2016£¬Ö÷³Ö

8. ¹ú¼Ò¿Æ¼¼Ö§³Å¼Æ»®×Ó¿ÎÌ⣬ʾ·¶ÇøЧÒæ·ÖÎöÓëÆÀ¹À£¬2013-2016£¬Ö÷³Ö

9. ɽ¶«Ê¡Ë®Àû¿ÆѧÑо¿ÔºÎ¯ÍÐÏîÄ¿£¬¼ÃÄÏõÀͻȪȪÓòµäÐÍÖصãÉø©´øСÁ÷ÓòË®ÎļÆËãÓëÄ£Ä⣬2025-2025£¬Ö÷³Ö

10. ˮɳ¿ÆѧÓëË®ÀûË®µç¹¤³Ì¹ú¼ÒÖصãʵÑéÊÒ¿ª·Å»ù½ðÏîÄ¿£¬»ÆºÓÔ´ÇøË®ÎÄ-Éú̬¹ý³Ì×ÔÊÊÓ¦ñîºÏÄ£ÄâÑо¿£¬2022-2023£¬Ö÷³Ö

11. Ë®Àû²¿»ÆÍÁ¸ßÔ­Ë®ÍÁ±£³ÖÖصãʵÑéÊÒ¿ª·Å»ù½ðÏîÄ¿£¬»ÆÍÁ¸ßÔ­ÅøÉ°ÑÒÇøÍÁÈÀÇÖÊ´»úÀí¼°Ë®ÍÁ±£³ÖЧÒæÆÀ¼ÛÑо¿£¬2021ÖÁ2023£¬Ö÷³Ö

12. Ë®Àû²¿Öé½­ºÓ¿ÚÖÎÀíÓë±£»¤ÖصãʵÑéÊÒ¿ª·Å»ù½ðÏîÄ¿£¬Öé½­ºÓ¿ÚÉú̬ÐÞ¸´ºÍ±£»¤Ñо¿£¬2021-2023£¬Ö÷³Ö

13. Öйú¹úÍÁ¿±²â¹æ»®ÔºÍâЭÏîÄ¿£¬Ó¦¶ÔÆøºò±ä»¯µÄ×ÔÈ»×ÊÔ´×ÛºÏÆÀ¼ÛÓë¼à²âÖ¸±êÌåϵÑо¿£¬2021-2021£¬Ö÷³Ö

14. Ë®Éú̬ÎÄÃ÷½¨ÉèÏîÄ¿£¬Éú̬»ùÁ÷ºËËã·½·¨Ñо¿£¬2018-2018£¬Ö÷³Ö

15. Ë®Éú̬ÎÄÃ÷½¨ÉèÏîÄ¿£¬Ë®Éú̬ÆÀ¼Û¼¼ÊõÑо¿£¬2016-2017£¬Ö÷³Ö

16. ÖÐÑë¸ßУ»ù±¾¿ÆÑÐÒµÎñ·ÑרÏî×ʽð×ÊÖúÏîÄ¿£¬Î¼ºÓÁ÷ÓòÀ¶Ë®ÂÌË®×ÊÔ´ÆÀ¼ÛÑо¿£¬2013-2015£¬Ö÷³Ö


²ÎÓë¿ÆÑÐÏîÄ¿£º

1. ¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÖصãÏîÄ¿£¬±ä»¯»·¾³ÏµÄÑų²Ø²¼½­Á÷Óò¾¶Á÷ÏìÓ¦ÓëË®ÎĹý³ÌÑݱä»úÀíÑо¿£¬2017-2020£¬¿ÎÌâ¼¼Êõ¸ºÔðÈË

2. ¹ú¼ÒË®ÌåÎÛȾ¿ØÖÆÓëÖÎÀí¿Æ¼¼ÖØ´óרÏ¹ú¼ÒË®»·¾³¼à²â¼à¿Ø¼°Á÷ÓòË®»·¾³´óÊý¾Ýƽ̨¹¹½¨¹Ø¼ü¼¼ÊõÑо¿£¬2017-2020£¬¼¼Êõ¹Ç¸É

3. Ë®Àû²¿¹«ÒæÐÔÐÐÒµ¿ÆÑÐרÏ¶«±±Á¸Ê³Ö÷²úÇøºµÔÖÆÀ¹À¼¼Êõ¼°Ó¦ÓÃƽ̨Ñо¿£¬2014-2016£¬¿ÎÌâ¼¼Êõ¸ºÔðÈË

4. Ë®Àû²¿º£ºÓË®ÀûίԱ»áÕÄÎÀÄÏÔ˺ӹÜÀí¾ÖίÍÐÏîÄ¿£¬ÕÄÎÀкӺӿÚÉú̬ÐÞ¸´ºÍ±£»¤Ñо¿£¬2018-2018£¬¼¼Êõ¸ºÔðÈË

5. ¼ÃÄÏÊÐˮξÖίÍÐÏîÄ¿£¬¼ÃÄÏÊк£Ãà³ÇÊÐˮѭ»·ÑݱäÓëË®ÎĹý³ÌÄ£Ä⣬2017-2018£¬¿ÎÌ⸺ÔðÈË

6. Öйú¹¤³ÌÔºÖØ´ó×ÉѯÏîÄ¿Ö®¿ÎÌ⣬Î÷ÄϵØÇøºµÀÔʼþ¼¯ºÏÓ¦¶ÔÕ½ÂÔÑо¿£¬2012-2014£¬¼¼Êõ¸ºÔðÈË

7. ¿Æ¼¼²¿Öе¹ú¼ÊºÏ×÷ÏîÄ¿Ö®¿ÎÌ⣬·Ö²¼Ê½Ë®ÎÄÄ£Ð͹¹½¨¼°ÊýֵģÄ⣬2012-2015£¬¼¼Êõ¸ºÔðÈË

8. Ë®Éú̬ÎÄÃ÷ÊÔµã¿Æ¼¼Ö§³Å¼Æ»®Ö®¿ÎÌ⣬¼ÃÄÏÊÐË®Éú̬ÏÖ×´µ÷²éÓ뽡¿µÆÀ¼Û£¬2014-2016£¬¼¼Êõ¸ºÔðÈË

9. ÁÉÄþÊ¡Ë®ÎľÖίÍÐÏîÄ¿£¬ÁÉÄþÊ¡Ë®Éú̬µ÷²éÓë¼à²â¼°¹æ»®±àÖÆ£¬2015-2016£¬¼¼Êõ¸ºÔðÈË

10. Ë®Àû²¿·¢Õ¹Ñо¿ÖÐÐÄίÍÐÏîÄ¿£¬ÍêÉÆÖйúË®ÀûÏÖ´ú»¯½ø³ÌÆÀ¹À·½·¨Ñо¿-2015Äê¶È£¬2015-2015£¬¼¼Êõ¸ºÔðÈË

11. ±±¾©ÊÐË®ÎÄ×ÜÕ¾ÏîÄ¿£¬±±¾©ÊÐË®Éú̬µ÷²éÓëÑо¿£¨±±Ô˺ӵÚÒ»×飩£¬2015-2015£¬¼¼Êõ¸ºÔðÈË

12. ±±¾©ÊÐË®ÎÄ×ÜվίÍÐÏîÄ¿£¬±±¾©ÊÐË®Éú̬¼à²âµ÷²éÓëÑо¿£¨±¨¸æ»ã×Ü¡¢Í¼²á±à¼­¡¢ÆÀ¼ÛÌåϵÑо¿£©£¬2015-2015£¬¼¼Êõ¸ºÔðÈË

13. Ë®Àû²¿·¢Õ¹Ñо¿ÖÐÐÄίÍÐÏîÄ¿£¬ÍêÉÆÖйúË®ÀûÏÖ´ú»¯½ø³ÌÆÀ¹À·½·¨Ñо¿-2014Äê¶È£¬2014-2014£¬¼¼Êõ¸ºÔðÈË

14. ¹ú¼ÒË®ÌåÎÛȾ¿ØÖÆÓëÖÎÀí¿Æ¼¼ÖØ´óרÏî×Ó¿ÎÌ⣬μºÓ¹ØÖжÎÉú̬»ù´¡Á÷Á¿±£Õϼ¼ÊõÑо¿£¬2009-2012£¬¼¼Êõ¹Ç¸É

15. ¿Æ¼¼²¿ÖÐÈð¹ú¼ÊºÏ×÷ÏîÄ¿£¬Î¼ºÓÁ÷ÓòÉú̬»ùÁ÷¼°Æä±£ÕÏ´ëÊ©Ñо¿£¬2009-2011£¬¼¼Êõ¹Ç¸É

16. Å·ÃË-ÖйúÁ÷Óò×ۺϹÜÀí¼Æ»®Ñо¿ÏîÄ¿£¬»ÆºÓÁ÷ÓòÆøºò±ä»¯¼°ÊÊÓ¦ÐÔ¶Ô²ßÑо¿£¬2011-2011£¬¼¼Êõ¹Ç¸É

17. ¹ú¼ÊË®×ÊÔ´Ñо¿ËùÌôÕ½¼Æ»®ÏîÄ¿£¬»ÆºÓÁ÷ÓòË®×ÊÔ´ÆÀ¹À£¬2008-2009£¬¼¼Êõ¹Ç¸É

18. ¹ú¼Ò¿Æ¼¼Ö§³Å¼Æ»®×¨Ì⣬»ùÓÚSWATÄ£Ð͵ĻƺÓÉÏÖÐÓÎˮɳ±ä»¯Ç÷ÊÆ·ÖÎö£¬2006-2008£¬¼¼Êõ¹Ç¸É

´ú±íÐÔÂÛÎÄ£º

1. Chen Guo, Zuo Depeng*, Xu Zongxue, Wang Guoqing, Han Yuna, Peng Dingzhi, Pang Bo, Abbaspour Karim C., Yang Hong, 2024. Changes in water conservation in the Yellow River Basin of China during recent decades and possible causes. Journal of Hydrology, 637(2024): 131314.

2. Cai Siyang, Zuo Depeng*, Wang Huixiao*, Xu Zongxue, Wang Guoqing, Yang Hong, 2024. Improvement of drought assessment capability based on optimal weighting methods and a new threshold classification scheme. Journal of Hydrology, 641(2024): 130758.

3. Yang Fang, Pang Bo, Song Lixiang, Cheng Hongguang, Zhou Sicong, Zheng Ziqi, Peng Dingzhi, Zuo Depeng, 2024. Response of extreme precipitation to urban expansion over the Guangdong-Hong Kong-Macao Greater Bay Area. Urban Climate, 56(2024): 102062.

4. Cai Siyang, Zuo Depeng*, Wang Huixiao*, Wang Guoqing, Xu Zongxue, Peng Dingzhi, Pang Bo, Yang Hong, 2023. Assessment of agricultural drought based on multi-source remote sensing data in a major grain producing area of Northwest China. Agricultural Water Management, 278(2023): 108142.

5. Zuo Depeng*, Bi Yiqing, Xu Zongxue, Ma Guangwen, Kan Guangyuan, Pang Bo, Peng Dingzhi, Abbaspour Karim C., Yang Hong, 2023. The response of non-point source pollution to land use change and risk assessment based on model simulation and grey water footprint theory in an agricultural river basin of Yangtze River, China. Ecological Indicators, 154(2023): 110581.

6. Zuo Depeng*, Chen Guo, Wang Guoqing, Xu Zongxue, Han Yuna, Peng Dingzhi, Pang Bo, Yang Hong, 2023. Assessment of changes in water conservation capacity under land degradation neutrality effects in a typical watershed of Yellow River Basin, China. Ecological Indicators, 148(2023): 110145.

7. Han Yuna, Zuo Depeng*, Xu Zongxue, Wang Guoqing, Peng Dingzhi, Pang Bo, Yang Hong, 2023. Attributing the impacts of vegetation and climate changes on the spatial heterogeneity of terrestrial water storage over the Tibetan Plateau. Remote Sensing, 15, 117.

8. Hu Xiaohong, Zuo Depeng*, Yan Baowen, Xu Zongxue, Wang Guoqing, Peng Dingzhi, Pang Bo, Hong Yang, 2023. Changes in rainfall and flood characteristics under nonstationarity in a mountain basin of Northewest China. Journal of Hydrologic Engineering, 28(5): 05023006.

9. Zhang Caijin, Long Di, Liu Tingxi, Slater Louise J., Wang Guoqiang, Zuo Depeng, Duan Limin, Cui Yanhong, Cui Yingjie, 2023. Grassland Greening and Water Resource Availability May Coexist in a Warming Climate in Northern China and the Tibetan Plateau. Earth's Future, 11(12), e2023EF00°®ÓÎÏ·Âí¾º¹Ù·½ºÏ×÷»ï°é7.

10. Kan Guangyuan, Li Chenliang, Zuo Depeng, Fu Xiaodi, Liang Ke, 2023. Massively Parallel Monte Carlo Sampling for Xinanjiang Hydrological Model Parameter Optimization Using CPU-GPU Computer Cluster. Water, 15(15): 2810.

11. Li Yu, Pang Bo, Zheng Ziqi, Chen Haoming, Peng Dingzhi, Zhu Zhongfan, Zuo Depeng, 2023. Assessment of the Urban Extreme Precipitation by Satellite Estimates over Mainland China. Remote Sensing, 15(7): 1805.

12. Li Yu, Pang Bo, Zheng Ziqi, Chen Haoming, Peng Dingzhi, Zhu Zhongfan, Zuo Depeng, 2023. Evaluation of Four Satellite Precipitation Products over Mainland China Using Spatial Correlation Analysis. Remote Sensing, 15(7): 1823.

13. Zuo Depeng*, Han Yuna, Gao Xiaoxi, Xu Zongxue, Ma Guangwen, Bi Yiqing, Kan Guangyuan, Abbaspour Karim C., Yang Hong, 2022. Identification of priority management areas for non-point source pollution based on critical source areas in an agricultural watershed of Northeast China. Environmental Research, 214(2022): 113892.

14. Hu Xiaohong, Zuo Depeng*, Xu Zongxue, Huang Zhenfang, Liu Bo, Han Yuna, Bi Yiqing, 2022. Response of macroinvertebrate community to water quality factors and aquatic ecosystem health assessment in a typical river in Beijing, China. Environmental Research, 212(2022): 113474.

15. Ban Chunguang, Xu Zongxue, Zuo Depeng*, Zhang Rui, Chen Hao, Ye Chenlei, Wang Jing, 2022. Impact of variability in the water cycle components on vegetation growth in an alpine basin of the southeastern Tibet Plateau, China. Hydrology Research, 53(1): 124-140.

16. Li Yu, Pang Bo, Ren Meifang, Shi Shulan, Peng Dingzhi, Zhu Zhongfan, Zuo Depeng, 2022. Evaluation of Performance of Three Satellite-Derived Precipitation Products in Capturing Extreme Precipitation Events over Beijing, China. Remote Sensing, 14(11): 2698.

17. Cui Lizhuang, Pang Bo, Zhao Gang, Ban Chunguang, Ren Meifang, Peng Dingzhi, Zuo Depeng, Zhongfan Zhu, 2022. Assessing the sensitivity of vegetation cover to climate change in the Yarlung Zangbo River Basin using machine learning algorithms. Remote Sensing, 14(7): 1556.

18. Gu Yu, Peng Dingzhi, Deng Chenning, Zhao Keke, Pang Bo, Zuo Depeng. Atmospheric¨Chydrological modeling for Beijing's sub-center based on WRF and SWMM, 2022. Urban Climate. 41(2022): 1010066.

19. Han Hao, Hou Jingming, Xu Zongxue, Jing Haixiao, Gong Jiahui, Zuo Depeng, Li Bingyao, Yang Shaoxiong, Kang Yongde, Wang Run. A GPU-Accelerated Hydrodynamic Model for Urban Rainstorm Inundation Simulation: A Case Study in China, 2021. KSCE Journal of Civil Engineering, 26(3): 1494-1504.

20. Zuo Depeng, Han Yuna, Xu Zongxue, Ban Chunguang, Zhang Rui, Li Peijun, Sun Wenchao, Kan Guangyuan, Yang Hong, 2021. Time-lag effects of climatic change and drought on vegetation dynamics in an alpine river basin of the Tibet Plateau, China. Journal of Hydrology, 600(2021): 126532.

21. Li Peijun, Zuo Depeng*, Han Yuna, Xu Zongxue, Zhang Rui, Sun Wenchao, Ban Chunguang, Kan Guangyuan, Yang Hong, 2021. Dynamic changes of land use and landscape pattern in a typical alpine river basin of Qinghai-Tibet Plateau, China. Land Degradation and Development, 32(15): 4327-4339.

22. Ban Chunguang, Xu Zongxue, Zuo Depeng*, Liu Xiaowan, Zhang Rui, Wang Jing, 2021. Vertical influence of temperature and precipitation on snow cover variability in the Yarlung Zangbo River basin, China. International Journal of Climatology, 41(2): 1148-1161.

23. Zhang Rui, Xu Zongxue, Zuo Depeng, Ban Chunguang. Variation of snow cover in the Nyang River basin of southeastern Tibetan Plateau, China, 2021. Journal of Water and Climate Change, 12(8SI): 3505-3517.

24. Zhao Gang, Pang Bo, Xu Zongxue, Cui Lizhuang, Wang Jingjing, Zuo Depeng, Peng Dingzhi, 2021. Improving urban flood susceptibility mapping using transfer learning. Journal of Hydrology, 602 (2021): 126777.

25. Li Peijun, Zuo Depeng*, Xu Zongxue, Gao Xiaoxi, Peng Dingzhi, Kan Guangyuan, Sun Wenchao, Pang Bo, Yang Hong, 2020. Impact of urbanization on variability of annual and flood season precipitation in a typical city of North China. Hydrology Research, 51(5): 1150-1169.

26. Zhao Gang, Pang Bo, Xu Zongxue, Peng Dingzhi, Zuo Depeng, 2020. Urban flood susceptibility assessment based on convolutional neural networks. Journal of Hydrology, 590(2020): 125235.

27. Zhang Rui, Xu Zongxue, Zuo Depeng, Ban Chunguang, 2020. Hydro-Meteorological Trends in the Yarlung Zangbo River Basin and Possible Associations with Large-Scale Circulation. Water, 12(1): 144.

28. Zuo Depeng, Cai Siyang, Xu Zongxue, Peng Dingzhi, Kan Guangyuan, Sun Wenchao, Pang Bo, Yang Hong, 2019. Assessment of meteorological and agricultural droughts using in-situ observations and remote sensing data. Agricultural Water Management, 222(2019): 125-138.

29. Sun Wenchao, Wang Yuanyuan, Fu Yongshuo H., Xue Baolin, Wang Guoqiang, Yu Jingshan, Zuo Depeng, Xu Zongxue, 2019. Spatial heterogeneity of changes in vegetation growth and their driving forces based on satellite observations of the Yarlung Zangbo River Basin in the Tibetan Plateau. Journal of Hydrology, 574: 324-332.

30. Zuo Depeng, Cai Siyang, Xu Zongxue, Li Fulin, Sun Wenchao, Yang Xiaojing, Kan Guangyuan, Liu Pin, 2018. Spatiotemporal patterns of drought at various time scales in Shandong Province of Eastern China. Theoretical and Applied Climatology. 131(1-2): 271-284.£¨ESI¸ß±»ÒýÂÛÎÄ£©

31. Sun Wenchao, Fan Jiao, Wang Guoqiang, Ishidaira Hiroshi, Bastola Satish, Yu Jingshan, Fu Yongshuo H., Kiem Anthony S., Zuo Depeng, Xu Zongxue, 2018. Calibrating a hydrological model in a regional river of the Qinghai¨CTibet plateau using river water width determined from high spatial resolution satellite images. Remote Sensing of Environment, 214: 100-114.

32. Fan Jiao, Sun Wenchao, Zhao Yong, Xue Baolin, Zuo Depeng, Xu Zongxue, 2018. Trend analyses of Extreme Precipitation Events in the Yarlung Zangbo River Basin, China Using a High-resolution Precipitation Product. Sustainability, 10(5), 1396.

33. Kan Guangyuan, He Xiaoyan, Li Jiren, Ding Liuqian, Zhang Dawei, Lei Tianjie, Hong Yang, Liang Ke, Zuo Depeng, Bao Zhenxin, Zhang Mengjie, 2018. A novel hybrid data-driven model for multi-input single-output system simulation. Neural Computing & Applications, 29(7SI): 577-593.

34. Kan Guangyuan, Zhang Mengjie, Liang Ke, Wang Hao, Jiang Yunzhong, Li Jiren, Ding Liuqian, He Xiaoyan, Hong Yang, Zuo Depeng, Bao Zhenxin, Li Chaochao, 2018. Improving water quantity simulation & forecasting to solve the energy-water-food nexus issue by using heterogeneous computing accelerated global optimization method. Applied Energy, 210: 420-433.

35. Kan Guangyuan, He Xiaoyan, Ding Liuqian, Li Jiren, Hong Yang, Zuo Depeng, Ren Minglei, Lei Tianjie, Liang Ke, 2018. Fast hydrological model calibration based on the heterogeneous parallel computing accelerated shuffled complex evolution method. Engineering Optimization, 50(1): 106-119.

36. Kan Guangyuan, He Xiaoyan, Ding Liuqian, Li Jiren, Hong Yang, Ren Minglei, Lei Tianjie, Liang Ke, Zuo Depeng, Huang Pengnian, 2017. Daily streamflow simulation based on the improved machine learning method. TECNOLOGIA Y CIENCIAS DEL AGUA, 8(2): 51-60.

37. Kan Guangyuan, Lei Tianjie, Liang Ke, Li Jiren, Ding Liuqian, He Xiaoyan, Yu Haijun, Zhang Dawei, Zuo Depeng, Bao Zhenxin, Amo-Boateng Mark, Hu Youbing, Zhang Mengjie, 2017. A multi-core CPU and many-core GPU based fast parallel shuffled complex evolution global optimization approach. IEEE Transactions on Parallel and Distributed Systems, 28(2): 332-344.

38. Sun Wenchao, Wang Yuanyuan, Wang, Guoqiang, Cui Xingqi, Yu Jingshan, Zuo Depeng, Xu Zongxue, 2017. Physically-based distributed hydrological model calibration based on a short period of streamflow data: case studies in two Chinese basins, Hydrology and Earth System Sciences, 21(1): 251-265.

39. Zuo Depeng, Xu Zongxue, Yao Wenyi, Jin Shuangyan, Xiao Peiqing, Ran, Dachuan, 2016. Assessing the effects of changes in land use and climate on runoff and sediment yields from a watershed in the Loess Plateau of China. Science of the Total Environment, 544: 238-250.£¨ESI¸ß±»ÒýÂÛÎÄ£©

40. Zhao Jie, Xu Zongxue, Singh Vijay P., Zuo Depeng, Li Mo, 2016. Sensitivity of Potential Evapotranspiration to Climate and Vegetation in a Water-Limited Basin at the Northern Edge of Tibetan Plateau, Water Resources Management, 30(13): 4667-4680.

41. Li Lei, Xu Zongxue, Zuo Depeng, Zhao Jie, 2016. A Grid-based Integrated Surface¨CGroundwater Model (GISMOD). Journal of Water and Climate Change, 7(2): 296-320.

42. Wu Wei, Xu Zongxue, Kennard Mark J., Yin Xuwang, Zuo Depeng, 2016. Do human disturbance variables influence more on fish community structure and function than natural variables in the Wei River basin, China? Ecological Indicators, 61(2): 438-446.

43. Zhao Anzhou, Zhu Xiufang, Liu Xianfeng, Pan Yaozhong, Zuo Depeng, 2016. Impacts of land use change and climate variability on green and blue water resources in the Weihe River Basin of northwest China. Catena, 137: 318-327.

44. Yu Songyan, Xu Zongxue, Wu Wei, Zuo Depeng, 2016. Effect of land use types on stream water quality under seasonal variation and topographic characteristics in the Wei River basin, China. Ecological Indicators, 60: 202-212.

45. Chen Sheng, Kan Guangyuan, Liang Ke, Li Jiren, Hong Yang, Zuo Depeng, Lei Tianjie, Xu Weihong, Zhang Mengjie, Shi Wenbin, Chen Xiaona, 2016. Air Quality Analysis and Forecast for Environment and Public Health Protection: A Case Study in Beijing, China. Transylvanian Review, XXIV(12): 3575-3593.

46. Zuo Depeng, Xu Zongxue, Peng Dingzhi, Song Jinxi, Cheng Lei, Wei Shouke, Abbaspour Karim C., Yang Hong, 2015. Simulating spatiotemporal variability of blue and green water resources availability with uncertainty analysis. Hydrological Processes, 29(8): 1942-1955.

47. Zuo Depeng, Xu Zongxue, Zhao Jie, Abbaspour Karim C., Yang Hong, 2015. Response of runoff to climate change in the Wei River basin, China. Hydrological Sciences Journal, 60(3): 508-522.

48. Zuo Depeng, Xu Zongxue, Wu Wei, Zhao Jie, Zhao Fangfang, 2014. Identification of streamflow response to climate change and human activities in the Wei River basin, China. Water Resources Management, 28(3): 833-851.

49. Wu Wei, Xu Zongxue, Yin Xuwang, Zuo Depeng, 2014. Assessment of ecosystem health based on fish assemblages in the Wei River basin, China. Environmental Monitoring and Assessment, 186(6): 3701-3716.

50. Zuo Depeng, Xu Zongxue, Yang Hong, Liu Xingcai, 2012. Spatiotemporal variations and abrupt changes of potential evapotranspiration and its sensitivity to key meteorological variables in the Wei River basin, China. Hydrological Processes, 26(8): 1149-1160.

51. Wei Shouke, Zuo Depeng, Song Jinxi, 2012. Improving prediction accuracy of river discharge time series using a Wavelet-NAR artificial neural network. Journal of Hydroinformatics, 14(4): 974-991.

52. Zhao Fangfang, Xu Zongxue, Zhang Lu, Zuo Depeng, 2009. Streamflow response to climate variability and human activities in the upper catchment of the Yellow River Basin. Science in China Series E-Technological Sciences, 52(11): 3249-3256.

53. Cai Siyang, Zuo Depeng*, Xu Zongxue, Han Xianming, Gao Xiaoxi, 2018. Spatiotemporal variability and assessment of drought in the Wei River basin of China. IAHS Publ., 379: 73-82.

54. Han Xianming, Zuo Depeng*, Xu Zongxue, Cai Siyang, Gao Xiaoxi, 2018. Analysis of vegetation condition and its relationship with meteorological variables in the Yarlung Zangbo River Basin of China. IAHS Publ., 379: 105-112.

55. Gao Xiaoxi, Zuo Depeng*, Xu Zongxue, Cai Siyang, Han Xianming, 2018. Evaluation of blue and green water resources in the upper Yellow River basin of China. IAHS Publ., 379: 159-167.

56. Zuo Depeng, Xu Zongxue, 2015. Response of Runoff to Climate Change in the Wei River basin. Proceedings of the 5th International Yellow River Forum, 2: 15-26.

57. Xu Zongxue, Zuo Depeng, 2014. Simulation of blue and green water resources in the Wei River basin, China. IAHS Publ., 364: 486-491.

58. Zhao Jie, Xu Zongxue, Zuo Depeng, Wang Xuming, 2015. Temporal variations of reference evapotranspiration and its sensitivity to meteorological factors in Heihe River Basin, China. Water Science and Engineering, 8(1): 1-8.

59. Xu Zongxue, Yang Xiaojing, Zuo Depeng, Chu Qi, Liu Wenfeng, 2015. Spatiotemporal characteristics of extreme precipitation and temperature: a case study in Yunnan Province, China. IAHS Publ., 369: 121-127.

60. Yu Songyan, Xu Zongxue, Wu Wei, Zuo Depeng, 2015. Effect of land use on the seasonal variation of streamwater quality in the Wei River basin, China. IAHS Publ., 368: 454-459.

61. Zuo Depeng, Xu Zongxue, Xingcai Liu, Lei Cheng, 2011. Spatiotemporal variation and abrupt changes of potential evapotranspiration in the Wei River basin. IAHS Publ., 350: 28-37.

62. Liu Xingcai, Xu Zongxue, Liu Liu, Zuo Depeng, 2011. Parameterization of land surface processes in the Taihu basin. IAHS Publ., 350: 704-712.

63. Zuo Depeng, Xu Zongxue, Wenyi Yao, 2010. Radiation-based methods to estimate potential evapotranspiration: Case study in the Qin River Basin. Proceedings of the 4th International Yellow River Forum, 1: 354-364.

64. º«ìÏÄÈ, ×óµÂÅô*, Íõ¹úÇì, Ðì×Úѧ. ±ä»¯»·¾³ÏÂÇà²Ø¸ßԭ½µØË®´¢Á¿Ñݱ估¹éÒò·ÖÎö[J]. Ë®×ÊÔ´±£»¤, 2023, 39(2): 199-207+214.

65. ×óµÂÅô*, º«ìÏÄÈ, Ðì×Úѧ, ÀîÅå¾ý. Æøºò±ä»¯¶ÔÑų²Ø²¼½­Á÷ÓòÖ²±»¶¯Ì¬Ó°Ïì»úÖÆÑо¿[J]. Ë®×ÊÔ´±£»¤. 2022. 38(6): 1-8

66. ºúСºì, ×óµÂÅô*, Áõ²¨, »ÆÕñ·¼, Ðì×Úѧ. ±±¾©Êб±Ô˺Óˮϵµ×Æܶ¯ÎïȺÂäÓëË®»·¾³Çý¶¯Òò×ӵĹØϵ¼°Ë®Éú̬½¡¿µÆÀ¼Û[J]. »·¾³¿Æѧ, 2022, 43(1): 247-255.

67. ¸ßÏþêØ, ×óµÂÅô*, Âí¹ãÎÄ, Ðì×Úѧ, ºúСºì, ÀîÅå¾ý. ½µË®¿Õ¼äÒìÖÊÐԶԷǵãÔ´¹Ø¼üÔ´Çøʶ±ðÃæ»ý±ä»¯µÄÓ°Ïì[J]. »·¾³¿Æѧ, 2020, 41(10): 4564-4571.

68. ÑîÏþ¾², Ðì×Úѧ, ×óµÂÅô, ²Ì˼Ñï. ¶«±±ÈýÊ¡Å©ÒµºµÔÖ·çÏÕÆÀ¹ÀÑо¿[J]. µØÀíѧ±¨, 2018, 73(7): 1324-1337.

69. ¹ËÏþêÀ, Ðì×Úѧ, Íõãè, ÒóÐñÍú, Áõ÷ë·Æ, ÕÅÐÀ, ×óµÂÅô. ±±Ô˺Óˮϵµ×Æܶ¯ÎïȺÂä½á¹¹ÓëË®»·¾³ÖÊÁ¿ÆÀ¼Û[J]. ºþ²´¿Æѧ, 2017, 29(6): 1444-1454.

70. ÕÔ½Ý, Ðì×Úѧ, ×óµÂÅô. ºÚºÓÉÏÖÐÓÎDZÔÚÕôÉ¢·¢Ä£Äâ¼°±ä»¯ÌØÕ÷·ÖÎö[J]. Ë®¿Æѧ½øÕ¹, 2015, 26(9): 614-623.

71. Âí¹ãÎÄ, ÍõÊ¥Èð, ÍõÒµÒ«, ×óµÂÅô, ÓÚÑó, Ï㱦. Û¶ÑôºþÁ÷ÓòÃæÔ´ÎÛȾ¸ººÉÄ£ÄâÓ뵪ºÍÁ×ʱ¿Õ·Ö²¼ÌØÕ÷[J]. »·¾³¿Æѧѧ±¨, 2015, 35(5): 1285-1291.

72. ×óµÂÅô, Ðì×Úѧ, Àî¾°Óñ, ÁõÕ×·É. Æøºò±ä»¯Çé¾°ÏÂμºÓÁ÷ÓòDZÔÚÕôÉ¢Á¿Ê±¿Õ±ä»¯ÌØÕ÷[J]. Ë®¿Æѧ½øÕ¹, 2011, 22(4): 9-15.

73. °à´º¹ã, ×óµÂÅô, Ðì×Úѧ, ¶­ÒåÑô, Íõ¾², ´ïÍß´ÎÈÊ. ¸ßº®Çø¶àÔ´½µË®²úÆ·¾«¶ÈÓëË®ÎÄÄ£ÄâЧ¹ûÆÀ¹À¡ª¡ªÒÔÑų²Ø²¼½­Á÷ÓòºÍÀ­ÈøºÓÁ÷ÓòΪÀý[J]. Ë®ÍÁ±£³Öѧ±¨, 2023, 37(2): 159-168+226.

74. °à´º¹ã, Ðì×Úѧ, ×óµÂÅô, ÀîÅô, Íõ¾², ´ïÍß´ÎÈÊ. ¸ßº®Á÷ÓòË®ÎÄÄ£ÄâÓ뾶Á÷ˮԴ½âÎö¡ª¡ªÒÔÑų²Ø²¼½­ÅÁ¡²Ø²¼ÉÏÓÎÁ÷ÓòΪÀý[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2023, 59(1): 85-93.

75. ºúСºì, ×óµÂÅô*. ÉÂÄÏɽÇøÔºÓÁ÷Óò±©ÓêºéË®ÌØÕ÷±ä»¯·ÖÎö[J]. Öйú·ÀÑ´¿¹ºµ, 2022, 32(4): 82-88.

76. ÀîÅå¾ý, ×óµÂÅô*, Ðì×Úѧ, ¸ßÏþêØ. »ùÓÚµØÐÎÌݶȵÄÑų²Ø²¼½­Á÷ÓòÍÁµØÀûÓü°¾°¹Û¸ñ¾Ö·ÖÎö [J]. ɽµØѧ±¨, 2022. 40(1): 136-150.

77. º«ÏÈÃ÷, ×óµÂÅô*, ÀîÅå¾ý, Ðì×Úѧ, ¸ßÏþêØ. Ñų²Ø²¼½­Á÷ÓòÖ²±»¸²¸Ç±ä»¯¼°Æä¶ÔÆøºò±ä»¯µÄÏìÓ¦[J]. Ë®ÀûË®µç¿Æ¼¼½øÕ¹, 2021, 41(1): 16-23.

78. ¸ßÏþêØ, ×óµÂÅô*, Âí¹ãÎÄ, Ðì×Úѧ, ÀîÅå¾ý. °¢Ê²ºÓÁ÷ÓòµªÁ×Êä³ö¸ººÉ¼°ÆäÓëϵæÃæÌØÕ÷µÄ¹ØϵÑо¿[J]. ÖйúÅ©´åË®ÀûË®µç, 2020, 45(4): 5-12.

79. ÀîÅå¾ý, ×óµÂÅô*, Ðì×Úѧ, ¸ßÏþêØ. ¼ÃÄÏÊнµË®±ä»¯ÌØÕ÷·ÖÎö¼°ÆäÓëÍÁµØÀûÓñ仯µÄ¹Øϵ[J]. ±±¾©Ê¦·¶´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©, 2019, 55(5): 572-580.

80. ËÎËÕÁÖ£¬¸ßÏþêØ£¬×óµÂÅô£¬Ðì×Úѧ£¬º«ÏÈÃ÷£¬²Ì˼Ñï. СÇåºÓÁ÷ÓòÑ´ÆÚ¶àÄ꽵ˮ±ä»¯Ç÷ÊÆ[J]. ÄÏË®±±µ÷ÓëË®Àû¿Æ¼¼£¬2018, 16(6): 46-52.

81. Ðì×Úѧ, ¹ËÏþêÀ, ×óµÂÅô. ´ÓË®Éú̬ϵͳ½¡¿µµ½ºÓºþ½¡¿µÆÀ¼ÛÑо¿[J]. Öйú·ÀÑ´¿¹ºµ, 2018, 28(8): 17-24.

82. ²Ì˼Ñï, ×óµÂÅô*, Ðì×Úѧ, ÑîÏþ¾². »ùÓÚSPEI¸ÉºµÖ¸ÊýµÄ¶«±±µØÇø¸ÉºµÊ±¿Õ·Ö²¼ÌØÕ÷[J]. ÄÏË®±±µ÷ÓëË®Àû¿Æ¼¼, 2017, 15(5): 15-21.

83. ÑîÏþ¾², Ðì×Úѧ, ×óµÂÅô, ²Ì˼Ñï. ¶«±±ÈýÊ¡½ü55aºµÀÔʱ¿ÕÑݱäÌØÕ÷[J]. ×ÔÈ»ÔÖº¦Ñ§±¨, 2016, 25(4): 9-19.

84. ÑîÏþ¾², Ðì×Úѧ, ×óµÂÅô, ÕÔ»À. ÔÆÄÏÊ¡1958¡«2013Ä꼫¶ËÆøÎÂʱ¿Õ±ä»¯ÌØÕ÷·ÖÎö[J]. ³¤½­Á÷Óò×ÊÔ´Óë»·¾³, 2016, 25(3): 523-536.

85. ÕÔ¸Õ, ×óµÂÅô*, Ðì×Úѧ, ÑîÏþ¾², ÅÓ¾¸Åô. »ùÓÚ¼¯¶Ô·ÖÎö-¿É±äÄ£ºý¼¯µÄÖйúË®ÀûÏÖ´ú»¯Ê±¿Õ±ä»¯ÌØÕ÷·ÖÎö[J]. ×ÊÔ´¿Æѧ, 2015, 37(11): 2211-2218.

86. ÑîÏþ¾², Ðì×Úѧ, ×óµÂÅô, ÁõÁÕ. ÔÆÄÏÊ¡1958-2013Ä꼫¶Ë½µË®Ê±¿Õ±ä»¯ÌØÕ÷·ÖÎö[J]. ÔÖº¦Ñ§, 2015, 30(4): 178-186.

87. ×óµÂÅô, Ðì×Úѧ, ÀÁÖ, ÕÅÃ÷·¼, ÁõÆ·. »ùÓÚSWATÄ£Ð͵ÄĸÖíºÓÁ÷ÓòË®×ÊԴʱ¿Õ±ä»¯ÌØÕ÷[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2014, 50(5): 461-466.

88. ÑîÏþ¾², ×óµÂÅô, Ðì×Úѧ. »ùÓÚ±ê×¼»¯½µË®Ö¸ÊýµÄÔÆÄÏÊ¡½ü55 Ä꺵ÀÔÑݱäÌØÕ÷[J]. ×ÊÔ´¿Æѧ, 2014, 36(3): 473-480.

89. ÕÔ½Ý, Ðì×Úѧ, ×óµÂÅô, Íõ×Ó·á, ÓàѧÁÖ, ³Ì½¨ÖÒ. ºÚºÓÉÏÖÐÓÎÁ÷ÓòµØ±íÖ²±»¶Ô¸ÉºµµÄÏìÓ¦[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2014, 50(5): 543-548.

90. ×óµÂÅô, Ðì×Úѧ, Ëå²Êºç, Îäçâ, ÕÔ·¼·¼. Æøºò±ä»¯ºÍÈËÀà»î¶¯¶ÔμºÓÁ÷Óò¾¶Á÷µÄÓ°Ïì[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2013, 49(2/3): 115-123.

91. ×óµÂÅô, Ðì×Úѧ, ÕÔ½Ý, ÑîÏþ¾². Æøºò±ä»¯¶ÔμºÓÁ÷Óò¾¶Á÷µÄÓ°Ïì[J]. Ë®×ÊÔ´Ñо¿, 2013, 2(6): 364-370.

92. Ðì×Úѧ, ×óµÂÅô. ÍØ¿í˼·£¬¿ÆѧÆÀ¼ÛË®×ÊÔ´Á¿¡ª¡ªÒÔμºÓÁ÷ÓòÀ¶Ë®ÂÌË®×ÊÔ´Á¿ÆÀ¼ÛΪÀý[J]. ÄÏË®±±µ÷ÓëË®Àû¿Æ¼¼, 2013, 11(1): 12-16+49.

93. ÕÔ½Ý, Ðì×Úѧ, ×óµÂÅô, ÕÅÀ¼Ó°. »ùÓÚ·øÉäµÄDZÔÚÕôÉ¢·¢Á¿¹ÀËã·½·¨ÔÚºÚºÓÁ÷ÓòµÄÊÊÓÃÐÔ·ÖÎö[J]. ¸ÉºµÇø×ÊÔ´Óë»·¾³, 2013, 27(10): 107-114.

94. ÕÔ½Ý, Ðì×Úѧ, ×óµÂÅô. ºÚºÓÁ÷ÓòDZÔÚÕôÉ¢·¢Á¿Ê±¿Õ±ä»¯ÌØÕ÷·ÖÎö[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2013, 49(2/3): 164-169.

95. ×óµÂÅô, Ðì×Úѧ. »ùÓÚSWATÄ£ÐͺÍSUFI-2Ëã·¨µÄμºÓÁ÷Óò¾¶Á÷·Ö²¼Ê½Ä£Äâ[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2012, 48(5): 490-496.

96. ÌÆ·¼·¼, Ðì×Úѧ, ×óµÂÅô. »ÆºÓÉÏÓÎÁ÷ÓòÆøºò±ä»¯¶Ô¾¶Á÷µÄÓ°Ïì[J]. ×ÊÔ´¿Æѧ, 2012, 34(6), 1079-1088.

97. ×óµÂÅô, Ðì×Úѧ, ³ÌÀÚ, ÕÔ·¼·¼. »ùÓÚ·øÉäµÄDZÔÚÕôÉ¢Á¿¹ÀËã·½·¨ÊÊÓÃÐÔ·ÖÎö[J]. ¸ÉºµÇøµØÀí, 2011, 34(4): 565-574.

98. ×óµÂÅô, Ðì×Úѧ, ³ÌÀÚ, ÁõÐDzÅ. μºÓÁ÷ÓòDZÔÚÕôÉ¢Á¿Ê±¿Õ±ä»¯¼°ÆäÍ»±äÌØÕ÷[J]. ×ÊÔ´¿Æѧ, 2011, 33(5): 975-982.

99. Îäçâ, Ðì×Úѧ, ×óµÂÅô. μºÓ¹ØÖжκӵÀÉú̬»ùÁ÷Á¿³õ²½¹ÀËãÑо¿[J]. ¸ÉºµÇø×ÊÔ´Óë»·¾³, 2011, 25(10): 68-74.

100. ³ÌÀÚ, Ðì×Úѧ, ×óµÂÅô, ÀîÁÖÌÎ. »ùÓÚLandsat TMÊý¾ÝµÄ»ÆÍÁ¸ßÔ­ÇøË®Ìåʶ±ð·½·¨Ñо¿[J]. ±±¾©Ê¦·¶´óѧѧ±¨(×ÔÈ»¿Æѧ°æ), 2010, 46(3): 424-430.

101. ×óµÂÅô, Ðì×Úѧ, ÁõÕ×·É. »ùÓÚÆøεÄDZÔÚÕôÉ¢·¢Á¿¹ÀËã·½·¨ÔÚÎÒ¹úÎ÷±±¸ÉºµµØÇøµÄÓ¦ÓñȽÏ[J]. ¸ÉºµÇø×ÊÔ´Óë»·¾³, 2009, 23(10): 123-131.


³ö°æͼÊ飺

1. Ðì×Úѧ¡¢ÒóÐñÍú¡¢×óµÂÅô¡¢Íõãè¡¢ÍõÖÒ¾²µÈ£¬Òø´¨ÊÐÖ÷ҪˮÌå³£¼ûË®ÉúÉúÎïͼÆ×[M]£¬ÖйúË®ÀûË®µç³ö°æÉ磬2024.

2. Ðì×Úѧ£¬Áõº£¾ü£¬×óµÂÅô£¬ËïÎij¬£¬ËïºéȪµÈÖø. ¶«±±¸ÉºµºÍºµÔÖʱ¿Õ±ä»¯ÌØÕ÷£ºÀíÂÛÓëÓ¦ÓÃ[M]. ÖйúË®ÀûË®µç³ö°æÉ磬2023.

3. Ðì×Úѧ£¬Åí¶¨Ö¾£¬ÅÓ²©£¬×óµÂÅô. ºÓµÀÉú̬»ùÁ÷ÀíÂÛ»ù´¡Óë¼ÆËã·½·¨¡ª¡ªÒÔμºÓ¹ØÖжÎΪÀý[M]. ¿Æѧ³ö°æÉ磬2016.

4. Ðì×Úѧ£¬Åí¶¨Ö¾£¬ÅÓ²©£¬ËïÎij¬£¬ÀîÐãƼ£¬×óµÂÅôµÈ. Ñų²Ø²¼½­Á÷Óò¾¶Á÷ÑݱäÓëÉú̬ˮÎĹý³ÌÄ£Äâ[M]£¬¿Æѧ³ö°æÉ磬2023.

5. Xu Z. X., Peng D. Z., Sun W. C., Pang B., Zuo D. P., Schumann A., Chen Y. B. Innovative water resources management¨Cunderstanding and balancing interactions between humankind and nature[M]. IAHS, 2018.


½Ìѧ¹¤×÷


±¾¿ÆÉú¿Î³Ì£¨Í¨Ê¶¿Î£©£º

ÖйúÖÎˮʷ

Ë®×ÊÔ´Ç°ÑØÎÊÌâÓë¶Ô²ß

Ë®¿ÆѧÓëÈËÀàÉç»á·¢Õ¹


Ñо¿Éú¿Î³Ì£º

Ë®ÎÄÄ£ÐÍ

Éú̬ˮÎÄѧ

Ë®ÎÄÔ¤±¨

Éú̬±£»¤Óë¿Õ¼ä¹æ»®

ѧÊõÂÛÎÄд×÷


Éç»á¹¤×÷


È«¹úË®Àû¹¤³Ìѧ¿ÆÁªÃ˸±Àíʳ¤

¹ú¼ÊË®ÎÄ¿ÆѧЭ»áÖйúίԱ»áË®×ÊԴϵͳ·ÖίԱ»áίԱ

È«ÇòË®»ï°éÖйúίԱ»áίԱ

ÖйúË®Àûѧ»áÉú̬ˮÀû¹¤³ÌѧרҵίԱ»áίԱ

Öйú×ÔÈ»×ÊԴѧ»áË®×ÊԴרҵίԱ»áίԱ

Öйú²â»æѧ»á²»¶¯²ú²â»æ¹¤×÷ίԱ»áίԱ

Öйú¿ÆЭ¿ÆÆÕÖйú¿ÆÆÕר¼Ò

Öйú¿Æѧ¼¼Êõ³ö°æÉç¿Æ¼¼¿ÆÆÕר¼Ò

SCIÆÚ¿¯¡¶Frontiers in Water¡·¸±Ö÷±à

SCIÆÚ¿¯¡¶Hydrological Processes¡·×¨¿¯Ö÷±à

SCIÆÚ¿¯¡¶Water¡·Ö÷Ìâ±à¼­

¡¶¹à¸ÈÅÅˮѧ±¨¡·±àί

¡¶Ë®ÀûË®µç¼¼Êõ¡·£¨ÖÐÓ¢ÎÄ£©ÌØÑû±àί

¡¶ÄÏË®±±µ÷ÓëË®Àû¿Æ¼¼¡·£¨ÖÐÓ¢ÎÄ£©ÇàÄê±àί

¡¶Öйú·ÀÑ´¿¹ºµ¡·ÇàÄê±àί


ÈÙÓþ½±Àø


2023Äê ½ÌÓý²¿¡°³¤½­Ñ§Õß½±Àø¼Æ»®¡±ÇàÄêѧÕß

2023Äê ³¤½­¿Æѧ¼¼Êõ½±¿Æ¼¼½ø²½Ò»µÈ½±

2022Äê ±±¾©Ë®Àûѧ»á¿Æѧ¼¼Êõ¶þµÈ½±

2021Äê ɽ¶«Ê¡¿Æ¼¼½ø²½Ò»µÈ½±

2021Äê ÀøÔÅÓÅÐãÇàÄê½Ìʦ½±

2021Äê ±±¾©Ê¦·¶´óѧ¸ßµÈ½ÌÓý½Ìѧ³É¹ûÒ»µÈ½±

2021Äê ±±¾©Ê¦·¶´óѧ¸ßµÈ½ÌÓý½Ìѧ³É¹û¶þµÈ½±

2020Äê ´óÓíË®Àû¿Æ¼¼½ø²½ÈýµÈ½±

2020Äê Ë®Àû²¿º£ºÓË®ÀûίԱ»áË®Àû¿Æ¼¼½ø²½Ò»µÈ½±

2018Äê ±±¾©Ë®Àûѧ»á¿Æѧ¼¼ÊõÒ»µÈ½±

2017Äê ÁÉÄþË®Àû¿Æѧ¼¼Êõ½±¶þµÈ½±

2017Äê ±±¾©Ê¦·¶´óѧ¸ßµÈ½ÌÓý½Ìѧ³É¹û¶þµÈ½±

2016Äê ÁìÅÜÕß5000 Öйú¾«Æ·¿Æ¼¼ÆÚ¿¯¶¥¼âѧÊõÂÛÎĽ±

2014Äê ±±¾©Ê¦·¶´óѧÓÅÐ㸨µ¼Ô±ÈÙÓþ³ÆºÅ

2014Äê ÖйúË®¿ÆԺˮ×ÊÔ´ËùÇàÄêѧÊõÑÐÌÖ»áÓÅÐãÂÛÎĽ±

2013Äê ÖйúË®Àûѧ»áË®×ÊԴרҵίԱ»áÇàÄêÓÅÐãÂÛÎĽ±

2012Äê ±±¾©ÊÐÓÅÐã±ÏÒµÑо¿Éú

2012Äê ±±¾©Ê¦·¶´óѧÓÅÐã±ÏÒµÑо¿Éú

2012Äê µÚÈý½ì¡°ÖÜÍ¢ÈåԺʿ½±Ñ§½ð¡±


ÆäËû


°®ÓÎÏ·Âí¾º¹Ù·½ºÏ×÷»ï°é(¿Æ¼¼)ÓÐÏÞ¹«Ë¾
°®ÓÎÏ·Âí¾º¹Ù·½ºÏ×÷»ï°é(¿Æ¼¼)ÓÐÏÞ¹«Ë¾