中国科学院大学个人主页：https://people.ucas.ac.cn/~0067705

研究领域及方向：湖泊流域水文水动力模拟；洪泛湿地生态水文；湖泊-地下水相互作用；湖泊-大气水热作用

简历：

    李云良：男，1983年生，辽宁人。2007年和2010年分别获长安大学水文水资源专业学士和硕士学位，2013年获中国科学院南京地理与湖泊研究所自然地理学博士学位。2013年8月至今，在中国科学院南京地理与湖泊研究所先后任助理研究员、副研究员、研究员。2020—2025年，担任中国科学院南京地理与湖泊研究所鄱阳湖湿地观测研究站/江西鄱阳湖湖泊湿地生态系统国家野外科学观测研究站副站长。目前担任中国地理学会长江分会理事、中国科学院青年创新促进会地学分会理事、宁夏野外科学观测研究站学术委员会委员、江西省水资源普查技术委员会委员、中国环境科学学会生态环境复杂系统协同治理专业委员会委员。

    主要从事洪泛湖泊水文学研究，揭示了湖泊洪泛过程扰动下地表-地下水相互转化动力 学过程及耦合机制，阐明了地下水循环对洪泛湖泊水量平衡贡献，提出了面向高度异质性洪泛湖泊水文连通理论内涵及新概念，发展了基于水文连通的生态环境评估与生态水文调控模式，自主研发了大尺度湖泊流域水动力-水环境耦合数值模型，系统评估了长江中游典型洪泛湖泊对洪旱水文事件和区域重大人类活动的复合响应。以第一/通讯作者发表论文78篇(近5年43篇)，其中SCI论文44篇(近5年28篇)，近5年出版学术专著2部（均排名1）。成果获中国大坝工程学会、长江经济技术学会科技进步二等奖（均排名1），获相关技术服务应用证明21项（均排名1）、专利/软著23项（均排名1）。先后获中国科学院青年创新促进会会员、中国科学院青年创新促进会优秀会员、江西省千人计划、水利部第八届青年科技英才等荣誉称号。

代表性论著：

1. 李云良; 张奇; 谭志强; 姚静; 鄱阳湖洪泛系统地表-地下水文水动力过程与模拟, 科学出版社, 2022

2. 李云良; 邢子康; 马苗苗; 刘波; 姚静 ; 鄱阳湖流域干旱发生机制与模拟预测, 科学出版社, 2024

3. Wenyu Jiang, Bo Liu*, Yunliang Li*, et al., 2024. The effects of damming and dam regulation on a river–lake-aquifer system: 3D groundwater flow modeling of Poyang Lake (China). Journal of Hydrology, 636: 131311.

4. Wenyu Jiang, Bo Liu*, Yunliang Li*, et al., 2024. Unravelling groundwater budget in the Poyang floodplain system under intensifying seasonal lake inundation. Journal of Hydrology: Regional Studies, 54: 101866.

5. Zikang Xing, Jianhui Wei*, Yunliang Li*, et al., 2024. Disentangling the spatially combined and temporally lagged influences of climate oscillations on seasonal droughts in the East Asian monsoon influenced Poyang Lake Basin. Atmospheric Research, 310: 107603.

6. Jing Chen, Yunliang Li*, Longcang Shu*, et al., 2023. The influence of the 2022 extreme drought on groundwater hydrodynamics in the floodplain wetland of Poyang Lake using a modeling assessment. Journal of Hydrology, 626: 130194.

7. Yunliang Li*, Sijia Cao, et al., 2023. Quantifying the impacts of a proposed hydraulic dam on groundwater flow behaviors and its eco-environmental implications in the large Poyang Lake-floodplain system. Journal of Environmental Management, 336: 117654.

8. Bo Liu, Yunliang Li*, et al., 2022. Understanding groundwater behaviors and exchange dynamics in a linked catchment-floodplain-lake system[J]. Science of the Total Environment, 853: 158558.

9. Yunliang Li*, Zhiqiang Tan*, Qi Zhang et al., 2021. Refining the concept of hydrological connectivity for large floodplain systems: Framework and implications for eco-environmental assessments. Water Research, 195, 117005. 

10. Zhiqiang Tan, Yunliang Li*, et al., 2021. Assessing effective hydrological connectivity for floodplains with a framework integrating habitat suitability and sediment suspension behavior. Water Research, 201, 117253.

11. Yunliang Li*, Qi Zhang* et al., 2020. On the hydrodynamic behavior of floodplain vegetation in a flood-pulse-influenced river-lake system (Poyang Lake, China). Journal of Hydrology, 585, 124852.

12. Jinfeng Zeng, Jingfeng Qiu, Xinggen Liu*, Yunliang Li*, 2024. Impact of the Three Gorges Dam on hydrological connectivity and vegetation growth of Poyang Lake floodplain, China, Journal of Hydrology, 631(130831)

13. Yunliang Li*, Qi Zhang et al., 2019. The role of a seasonal lake groups in the complex Poyang Lake-floodplain system (China): Insights into hydrological behaviors. Journal of Hydrology, 578, 124055.

14. Yunliang Li*, Qi Zhang et al., 2018. 3D hydrodynamic investigation of thermal regime in a large river-lake-floodplain system (Poyang Lake, China). Journal of Hydrology, 567, 86-101.

15. Yunliang Li*, Qi Zhang et al., 2019. Hydrodynamic investigation of surface hydrological connectivity and its effects on the water quality of seasonal lakes: Insights from a complex floodplain setting (Poyang Lake, China). Science of the Total Environment, 660, 245-259.

16. Yunliang Li, Qi Zhang* et al., 2020. Water balance and flashiness for a large floodplain system: A case study of Poyang Lake, China. Science of the Total Environment, 710, 135499.

17. Yunliang Li*, Qi Zhang*, Xinggen Liu et al., 2021. New insights on the surface hydrological connectivity of water depth thresholds in a flood-pulse-influenced floodplain system (Poyang Lake, China). Stochastic Environmental Research and Risk Assessment, 35, 861-879.

18. Xiuzhong Li, Guangchun Lei, Yunliang Li* et al., 2021. Assessing hydrodynamic effects of ecological restoration scenarios for a tidal-dominated wetland in Liaodong Bay (China). Science of the Total Environment, 752, 142339.

19. Yunliang Li*, Qi Zhang et al., 2021. Integrated model projections of climate change impacts on water level dynamics in the large Poyang Lake (China). Hydrology Research, 52, 43-60.

20. Xinggen Liu, Qi Zhang*, Yunliang Li* et al., 2020. Satellite image-based investigation of the seasonal variations in the hydrological connectivity of a large floodplain (Poyang Lake, China). Journal of Hydrology, 585, 124810.

21. Yunliang Li*, Qi Zhang et al., 2019. Assessing surface water-groundwater interactions in a complex river-floodplain wetland-isolated lake system. River Research and Applications, 35, 25-36.

22. Yunliang Li*, Qi Zhang et al., 2019. Assessment of water storage response to surface hydrological connectivity in a large floodplain system (Poyang Lake, China) using hydrodynamic and geostatistical analysis. Stochastic Environmental Research and Risk Assessment, 33, 2071-2088.

23. Yunliang Li*, Qi Zhang, 2018. Historical and predicted variations of baseflow in China’s Poyang Lake catchment. River Research and Applications, 34, 1286-1297.

24. Yunliang Li*, Qi Zhang* et al., 2017. Investigation of water temperature variations and sensitivities in a large floodplain lake system (Poyang Lake, China) using a hydrodynamic model. Remote Sensing, 9, 1231.

承担科研项目情况：

1. 2024.01～2026.12 项目名称：鄱阳湖洪泛系统水文学，中国科学院青年创新促进会优秀会员项目，负责人

2. 2020.01～2023.12 项目名称：鄱阳湖洪泛系统水文连通多维度耦联交互过程与动力学机制，国家自然科学基金面上项目，负责人

3. 2019.01～2023.12 项目名称：中国科学院青年创新促进会项目，中国科学院人才项目，负责人

4. 2018.01～2021.12 项目名称：鄱阳湖洪泛湿地地下水与湖水转化机制及对洪水脉冲的响应研究，国家自然科学基金面上项目，负责人