1、著作:
[1] 许有鹏等. 城市化与水文过程[M]. 北京: 科学出版社. 2022.
2、期刊论文:
[1] Yu Xu, Youpeng Xu, Qiang Wang, Yuefeng Wang, Chao Gao*. Spatial Diversion and Coordination of Flood Water under the Urban Flood Control Project in Suzhou, China. Water Science and Engineering. 2023. (Accepted).
[2] Yanjuan Wu, Hongli Mu, Shuang-ye Wu, Yu Xu, Ming Xu, Huawu Wu, Robin T Clark, Chao Gao. Changes in mean and extreme homogeneous precipitation in China during 1960–2020. Atmospheric Research. 2023, 292: 106891.
[3] Yunqi Wu, Yu Xu*, Yan Zhao, Yuanze Luo, Junyu Lu, Yuchen Chen. Evolution of river network due to urbanization in the Southeast Yinzhou Plain of Yongjiang River Basin, China. Journal of Cleaner Production. 2022. 379: 134718.
[4] Yu Xu, Yan Zhao, Yanjuan Wu, Chao Gao. Change patterns of precipitation anomalies and possible teleconnections with large-scale climate oscillations over the Yangtze River Delta, China. Journal of Water and Climate Change. 2022, 13 (8): 2972–2990.
[5] Xiaofang Shi, Mingjie Zhao, Yu Xu, Yanjuan Wu, Xiaolin Sun, Ke Jin, Bo Qiu, Chao Gao. Research on the insurance of swimming crab temperature and salinity index insurance based on Copula function. Plos One. 2022,17(8): e0272940.
[6] Kaiyuan Zheng, Linshan Tan, Yanwei Sun, Yanjuan Wu, Zheng Duan, Yu Xu, Chao Gao. Impacts of climate change and anthropogenic activities on vegetation change: Evidence from typical areas in China. Ecological Indicators. 2021, 126, 107648.
[7] Yu Xu, Youpeng Xu, Qiang Wang. Evolution trends in water levels and their causes in the Taihu Basin, China. Hydrological Sciences Journal. 2020, 65(13): 2296-2308.
[8] Yanfei Wu, Yu Xu*. Assessing the climate tendency over the Yangtze River Delta, China: Properties, dry/wet event frequencies, and causes. Water. 2020, 12(10): 2734.
[9] Qiang Wang, Youpeng Xu, Yuefeng Wang, Yuqing Zhang, Jie Xiang, Yu Xu, Jie Wang. Individual and combined impacts of future land-use and climate conditions on extreme hydrological events in a representative basin of the Yangtze River Delta, China. Atmospheric Research. 2020, 236, 104805.
[10] Yu Xu, Yanfei Wu, Gang Xu. Variation of Reference Evapotranspiration and its teleconnection patterns with the multiple large-scale climate oscillation in Yangtze River Delta. International Journal of Climatology. 2019, 39(5): 2630-2645.
[11] Yuefeng Wang, Hossein Tabari, Youpeng Xu, Yu Xu, Qiang Wang. Unraveling the role of human activities and climate variability in water level changes in the Taihu Plain using artificial neural network. Water. 2019, 11, 720.
[12] Jia Yuan, Youpeng Xu, Lei Wu, Jie Wang, Yuefeng Wang, Yu Xu, Xiaoying Dai. Variability of precipitation extremes over the Yangtze River Delta, eastern China, during 1960–2016. Theoretical and Applied Climatology. 2019, 138: 305-319.
[13] Yu Xu, Youpeng Xu, Lei Wu. Changes of river networks and their storage and regulation capacities in the rapidly urbanized Taihu Basin, China. Hydrological Processes. 2018, 32(22): 3341-3351.
[14] Qiang Wang, Youpeng Xu, Yu Xu, Lei Wu, Yuefeng Wang, Longfei Han. Spatial hydrological responses to land use and land cover changes in a typical catchment of the Yangtze River Delta region. Catena. 2018, 170, 305-315.
[15] Lei Wu, Youpeng Xu, Jia Yuan, Yu Xu, Qiang Wang, Xing Xu, Haiyang Wen. Impacts of land use change on river systems for a river network plain. Water. 2018, 10, 609.
[16] Yu Xu, Youpeng Xu, Yuefeng Wang, Lei Wu, Guang Li, Song Song. Spatial and temporal trends of reference crop evapotranspiration and its influential variables in Yangtze River Delta, eastern China. Theoretical and Applied Climatology, 2017, 130(3-4): 945-958.
[17] Yuefeng Wang, Youpeng Xu, Yu Xu, Song Song, Guang Li, Lei Wu. Changing patterns of extreme water levels in urbanizing plain river network region of Taihu Basin, China: characteristics and causes. Hydrology and Earth System Sciences& Discussion, 2016.
[18] 徐羽, 傅维军, 赵艳, 王宗志. 甬江流域鄞州平原区极值降水-水位响应关系演变特征[J]. 水利水运工程学报. 2023. (已录用)
[19] 吴雷, 许有鹏, 王强, 徐羽, 高斌. 长三角地区夏季降水结构演变及其非平稳性[J]. 水科学进展. 2022. 33(5):730-742.
[20] 张菲菲, 谭琳珊, 赵强强, 吴燕娟, 徐羽, 高超. 基于水动力模型的城市内涝灾害研究—以宁波市白鹤社区为例[J]. 自然灾害学报. 2021, 30(6):209-218.
[21] 林芷欣, 许有鹏, 代晓颖, 王强, 高斌, 袁甲, 徐羽. 城市化进程对长江下游平原河网水系格局演变的影响研究[J]. 长江流域资源与环境. 2019, 28(11):2611-2619.
[22] 代晓颖, 许有鹏, 林芷欣, 王强, 徐羽, 高斌. 长江下游秦淮河流域径流变化及影响因素分析[J]. 水土保持研究. 2019, 26(4): 68-73.
[23] 杨柳, 许有鹏, 田亚平, 陆建伟, 雷超桂, 徐羽. 高度城镇化背景下水系演变及其相应研究[J]. 水科学进展. 2019, 30(2):166-174.
[24] 徐羽, 许有鹏, 吴雷, 袁甲, 杨金艳. 太湖平原河网区城镇化发展与水系变化关系[J]. 水科学进展. 2018, 29(4): 473-481.
[25] 徐羽, 许有鹏, 吴雷, 王强. 太湖平原水网区浅层地下水动态特征及影响因素[J]. 湖泊科学. 2018, 30(2): 464-471.
[26] 吴雷, 许有鹏, 徐羽, 袁甲, 项捷, 徐兴, 徐勇. 平原水网地区快速城市化对河流水系的影响[J]. 地理学报. 2018, 73(1): 104-114.
[27] 代晓颖, 许有鹏, 林芷欣, 王强, 徐羽, 袁甲. 太湖西苕溪流域径流变化归因分析[J]. 长江流域资源与环境. 2018, 27(6), 1279-1286.
[28] 徐羽, 吴艳飞, 徐刚, 刘敏. 长三角地区地表干湿状况及极端干湿事件时空变化特征[J]. 自然资源学报. 2017, 32(9):1579-1590.
[29] 吴艳飞, 徐羽, 徐刚. 近14年安徽省耕地资源安全时空特征分析[J]. 水土保持通报. 2017, 37(6): 236-241.
[30] 吴雷, 许有鹏, 王跃峰, 徐羽. 实验水文学的发展历程与研究进展[J]. 水科学进展. 2017, 28(4):632-640.
[31] 王强, 许有鹏, 高斌, 王跃峰, 徐羽, 吴雷. 西苕溪流域径流对土地利用变化的空间相应分析[J]. 自然资源学报. 2017, 32(4): 632-641.
[32] 杨洁, 许有鹏, 高斌, 王跃峰, 徐羽, 马倩. 城镇化下河流水质变化及其与景观格局关系分析-以太湖平原苏州市为例[J]. 湖泊科学. 2017, 29(4):827-835.
[33] 徐羽, 许有鹏, 吴艳飞, 徐刚, 吴雷. 近50年重庆市气象干旱时空分布特征研究[J]. 水土保持研究. 2016, 23(6): 363-368.
[34] 徐羽, 吴艳飞, 徐刚, 甘芬芳. 基于相对湿润指数的重庆市气象干旱时空分布研究[J]. 西南大学学报(自然科学版). 2016, 38(4): 96-103.
[35] 吴艳飞, 徐羽, 徐刚. 安徽省粮食作物单产影响因子及气象灾害损失风险评估[J]. 中国农业大学学报. 2016, 21(5): 115-121.
[36] 吴艳飞, 徐羽, 徐刚, 甘芬芳. 2012年安徽省耕地资源安全综合评价[J]. 西南师范大学学报(自然科学版). 2016, 41(1): 124-131.
[37] 徐羽, 徐刚, 吴艳飞, 甘芬芳. 重庆市参考作物蒸散量及湿润指数变化研究[J]. 水土保持研究. 2015, 22(3): 176-181.
[38] 甘芬芳, 徐刚, 徐羽, 吴艳飞. 基于GIS的构造单元地震空间分形研究—以四川省和重庆市为例[J]. 西南师范大学学报(自然科学版). 2015, 40(6): 80-84.
3、会议论文:
[1] 杨柳, 许有鹏, 徐羽, 杨洁, 高斌, 王强, 项捷, 吴雷. 近半个世纪以来长三角区苏州河网及调蓄能力时空变化分析[J]. 第十四届中国水论坛论文集. 2016.
