本科生教学: 讲授《给排水工程》《水工建筑物生命健康智能评估》课程 科研兴趣: 全球变化背景下水文与生态过程演变规律 科研项目: 国家自然科学基金青年项目,52309022,无真值条件下的全球蒸散发产品评估与融合及蒸散发变化分析,2024.01-2026.12,主持,在研 国家重点研发项目课题,2021YFC3000202,特大干旱条件下来水与分层需水预测预报研究,2021.12-2024.12,专题负责人,结题。 国家重点研发项目课题,2021YFC3002802,区域农业旱情综合评估技术,2022.11-2025.10,参与,在研。 国家自然科学基金面上项目,5293470,变化环境下的植被-水文耦合响应,2020.01-2023.12,参与,结题。 国家重点研发计划国际合作课题,2021YFC3000202,能源与水纽带关系及高效利用关键技术,2017.08-2018.04,参与,结题。
代表性成果 (*代表通讯作者,统计截至2025年7月,最新动态详见https://www.researchgate.net/profile/Changming-Li-lichangming): 蒸散发 (Evapotranspiration, ET) 过程与归因: Li, C., Liu, Z., Yang, W., Tu, Z., Han, J., Li, S., & Yang, H*. (2024). CAMELE: Collocation-Analyzed Multi-source Ensembled Land Evapotranspiration Data. Earth System Science Data, 16(4), 1811-1846. (全球多源蒸散发产品CAMELE) Li, C., Yang, H*., Yang, W., Liu, Z., Jia, Y., Li, S., & Yang, D. (2022). Error characterization of global land evapotranspiration products: Collocation-based approach. Journal of Hydrology, 612, 128102. (蒸散发产品不确定性分析) Li, C., Tang, G., & Hong, Y. (2019). Cross-evaluation of ground-based, multi-satellite and reanalysis precipitation products: Applicability of the Triple Collocation method across Mainland China. Journal of Hydrology, 562, 71-83.(QPE降雨数据评估) Liang, T., Li, C*., He, Y., Tan, J., Niu, W., Cui, Y., & Yang, H*. (2024). PML_30: A high resolution (30 m) estimates of evapotranspiration based on remote sensing model with application in an arid region. Journal of Hydrology, 131862. (30米分辨率蒸散发模型) Jia, Y., Li, C., Yang, H*., Yang, W., & Liu, Z. (2022). Assessments of three evapotranspiration products over China using extended triple collocation and water balance methods. Journal of Hydrology, 614, 128594. (流域尺度蒸散发产品评估) Liu, Z., Wang, T., Li, C., Yang, W., & Yang, H*. (2023). A physically-based potential evapotranspiration model for global water availability projections. Journal of Hydrology, 622, 129767. (考虑植被过程的潜在蒸散发模型)
径流 (Runoff, R) 演变 He, Y., Li, C*., & Yang, H*. (2024). The general formulation for runoff components estimation and attribution at mean annual time scale. Hydrology and Earth System Sciences Discussions, 2024, 1-34. (MPS径流组分分析方法) Chen, Y., Yang, H*., Li, C., & Liu, Z. (2024). Quantifying the warming-induced impact of glacier storage change on runoff using Budyko framework: A case study in the Tarim River basin. Journal of Hydrology: Regional Studies, 55, 101936. (融雪径流变化归因) Yang, W., Yang, H*., Li, C., Wang, T., Liu, Z., Hu, Q., & Yang, D. (2022). Long-term reconstruction of satellite-based precipitation, soil moisture, and snow water equivalent in China. Hydrology and Earth System Sciences, 26(24), 6427-6441. (中国重构径流数据) Han, J., Yang, Y*., Guo, Y., Li, C., Liu, Z., Tu, Z., & Xi, H. (2025). Changes in snow drought and the impacts on streamflow across northern catchments. Water Resources Research, 61(1), e2024WR037492. (北半球雪旱变化) Han, J., Liu, Z., Woods, R., McVicar, T. R., Yang, D., Wang, T., Li, C., Yang, Y*. (2024). Streamflow seasonality in a snow-dwindling world. Nature, 629(8014), 1075-1081. (降雪变化对径流季节性的复杂影响)
生态水文学 (Ecohydrology) Li, C., Han, J., Liu, Z., Tu, Z., & Yang, H*. (2024). A harmonized global gridded transpiration product based on collocation analysis. Scientific Data, 11(1), 604. (全球多源植被蒸腾融合数据集) Li, C., Han, J., He, Y., Shen, J., Liu, Z., & Yang, H*. (2024). Assessing global transpiration estimates: Insights from tree-scale sap flow analysis. Journal of Hydrology, 131419. (基于茎流观测的蒸腾数据分析) Li, C., Liu, Z., Tu, Z., Shen, J., He, Y., & Yang, H*. (2023). Assessment of global gridded transpiration products using the extended instrumental variable technique (EIVD). Journal of Hydrology, 623, 129880. (全球蒸腾产品不确定性分析) Shen, J., Yang, H*., Liu, Z., Li, C*., Li, S., Cui, Y., & Yang, D. (2024). Assessment of meteorological drought in a changing environment: An example in the Upper Yangtze River. Journal of Geophysical Research: Atmospheres, 129(20), e2024JD041019. (考虑植被变化的气象干旱分析)
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