2016.09-2023.06：兰州大学自然地理学，硕博连读，导师：贺缠生教授、张宝庆教授
2021.06-2022.10：卡尔斯鲁厄理工学院大气与环境研究所区域气候与水文组，联合培养，导师：Harald Kunstmann
2012.09-2016.06：兰州大学资源环境学院水文与水资源工程，本科

旱区水文过程、区域气候模拟、WRF-hydro、干旱时空演变

2023.11-至今：兰州大学，资源环境学院，青年研究员

Journal of Hydrology、iScience、Theoretical and Applied Climatology、Environmental Monitoring and Assessment等期刊审稿人

以中国北方农牧交错带为研究区域，基于遥感、观测和再分析数据资料，结合多种模型，系统研究了中国北方农牧交错带大规模植被恢复的水文气候效应，主要研究成果如下：
（1）基于遥感、观测和再分析数据，首次从降水再循环的角度揭示了农牧交错带大规模植被恢复对降水的贡献；利用WAM2追踪并量化农牧交错带降水的水汽来源及贡献，揭示了西风、印度洋季风以及东亚季风协同作用下农牧交错带的大气水循环基本特征，阐明了导致农牧交错带生长季干旱与湿润的水汽贡献归因。
（2）耦合ET水汽追踪方法与区域气候模式WRF并设置不同植被变化试验，定量分析了农牧交错带ET水分在大气中的传输路径以及ET水分对区域降水的贡献，发现了植被恢复导致的降水效率变化主导降水变化的响应模式，揭示了农牧交错带植被恢复-降水反馈的作用机制。
（3）基于三维干旱识别聚类算法，厘清了农牧交错带干旱的同步时空演变特征，初步建立了干旱空间传播与区域水汽输送及水分再循环之间的联系；提出了一个构建不同干旱类型之间联系的方法，量化了气象干旱向农业干旱传播的特征。

1. 国家重点研发计划项目子课题，"典型区域土壤—地下水系统多场耦合水质演化与污染机制"课题“污染源精准识别与污染物迁移路径示踪”子课题，2024-2027，70万元，参与
2. 兰州大学青年研究员科研启动费，农牧交错带土地利用变化的地表水文过程响应，2023.11-2028.11，100万元，主持
3. 国家自然科学基金重点项目“土壤水文属性对山区水文过程的影响机理及多尺度效应”，42030501，2021-2025，参与

2023年：
1. Wang, X.J., Zhang, B.Q.*, Zhang, Z.Y., Tian, L., Kunstmann, H., He, C.S.* Identifying spatiotemporal propagation of droughts in the agro-pastoral ecotone of northern China with long-term WRF simulations. Agricultural Forest and Meteorology, 2023, 336, 109474. 
2. Wang, X.J., Zhang, Z.Y., Zhang, B.Q.*, Tian, L., Tian, J., Arnault, J., Kunstmann, H., He, C.S.* Quantifying the impact of land use and land cover change on moisture recycling with convection-permitting WRF-tagging modeling in the agro-pastoral ecotone of northern China. Journal of Geophysical Research: Atmospheres, 2023, 128, e2022JD038421. 
3. Tian, J., Zhang, B.Q.*, Wang, X.J., He, C.S.* In situ observations of soil hydraulic properties and soil moisture in a high, cold mountainous area of the northeastern Qinghai-Tibet Plateau. Science China & Earth Science, 2023, 66, 1757-1775. 
4. 田杰, 张宝庆*, 王学锦, 贺缠生*. 青藏高原东北部高寒山区土壤水文属性数据和土壤水定位观测网. 中国科学: 地球科学, 2023, 53(8): 1775-1794.
5. Zhang, Z.Y.*, Laux, P., Baade, J., Arnault, J., Wei, J.H., Wang, X.J., Liu, Y.K., Schmullius, C., Kunstmann, H., Impact of alternative soil data sources on the uncertainties in simulated land-atmosphere interactions, Agricultural and Forest Meteorology, 2023, 339: 109565. 
6. Li, Y., Zhang, B.Q.*, Shao, R., Su, T.X., Wang, X.J., Tian, L., He, C.S. Estimating the maximum vegetation coverage and productivity capacity supported by rainwater resources on the Loess Plateau. Journal of Hydrology, 2023, 619, 129346. 
7. Chen, S.Y., Tian, L.*, Zhang, B.Q., Zhang, G.S., Zhang, F.M., Yang, K., Wang, X.J., Bai, Y., Pan, B.T.* Quantifying the impact of large-scale afforestation on the atmospheric water cycle during rainy season over the Chinese Loess Plateau. Journal of Hydrology, 2023, 619, 129326. 
2022年：
8. Tian, L., Zhang, B.Q., Chen, S.Y., Wang, X.J., Ma, X.G., Pan, B.T.* Large-Scale Afforestation Enhances Precipitation by Intensifying the Atmospheric Water Cycle Over the Chinese Loess Plateau. Journal of Geophysical Research: Atmospheres, 2022, 127(16), e2022JD036738. 
9. Tian, L., Zhang, B.Q., Wang, X.J., Chen, S.Y., Pan, B.T.* Large-Scale Afforestation Over the Loess Plateau in China Contributes to the Local Warming Trend. Journal of Geophysical Research: Atmospheres, 2022, 127(1), e2021JD035730. 
2021年：
10. Wang, X.J., Zhang, B.Q.*, Li, F., Li, X., Li, X.L., Wang, Y.B., Shao, R., Tian, J., He, C.S.* Vegetation restoration projects intensify intraregional water recycling processes in the agro-pastoral ecotone of Northern China. Journal of Hydrometeorology, 2021, 22(6): 1385-1403. 
11. Shao, R., Zhang, B.Q.*, He, X.G., Su, T.X., Li, Y., Long, B., Wang, X.J., Yang, W.J., He, C.S. Historical Water Storage Changes Over China‘s Loess Plateau. Water Resources Research, 2021, 57(3), e2020WR028661.
12. Li, X.L., Xu, X.F., Wang, X.J., Xu, S.Y., Tian, W., Tian, J., He, C.S.* Assessing the effects of spatial scales on regional evapotranspiration estimation by the SEBAL model and multiple satellite datasets: a case study in the agro-pastoral ecotone, Northwestern China. Remote Sensing, 2021, 13(8), 1524. 
2020年：
13. Wang, X.J., Zhang, B.Q.*, Xu, X.F., Tian, J., He, C.S.* Regional water-energy cycle response to land use/cover change in the agro-pastoral ecotone, Northwest China. Journal of Hydrology, 2020, 580:124246. 
14. Xu, X.F., Li, X.L., Wang, X.J., He, C.S.*, Tian, W. Estimating daily evapotranspiration in the agricultural-pastoral ecotone in Northwest China: A comparative analysis of the Complementary Relationship, WRF-CLM4.0, and WRF-Noah methods, Science of The Total Environment, 2020, 729:138635.

贺缠生, 等. 2023. 农牧交错带土地利用覆被变化对地表水热过程的影响.科学出版社. 北京. 第五章撰写
贺缠生, 等. 2018. 土壤水文异质性对流域水文过程的影响. 科学出版社. 北京. 参与撰写


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