研究領域

數值模擬和預報

區域氣候和氣候變化

陸面過程和陸氣相互作用

水循環和水資源變化

榮譽和獎勵

國務院政府特殊津貼獲得者

國家自然科學基金委優秀青年基金獲得者

甘肅省自然科學一等獎

青藏高原青年科技獎

教育背景

博士學位（2003年）😛，大氣物理學與大氣環境，中國科學院寒區旱區環境與工程研究所

碩士學位（2000年）👩🏿‍🎨👷🏽‍♂️，氣象學🅾️，中國科學院寒區旱區環境與工程研究所

學士學位（1995年），天氣動力學🚧🦹🏻‍♀️，成都氣象學院

任職經歷

2019/08- 至今，沐鸣2平台，沐鸣2娱乐/大氣科學研究院🥜，教授

2017/04-2019/07👆🏽，中科院寒旱區陸面過程與氣候變化重點實驗室🧑🏻‍🚀，主任

2015/08-2019/07，中科院寒旱區陸面過程與氣候變化重點實驗室，副主任

2013/12-2015/12🏊🏼，中國科學院寒區旱區環境與工程研究所，高原大氣研究室，副主任

2009/05-2011/10 ， 美國華盛頓大學

2009/05-2016/05，中國科學院寒區旱區環境與工程研究所，研究員/博導

2003/07 -2009/04🤦‍♂️，中國科學院寒區旱區環境與工程研究所，副研究員

近年來承擔課題

2020年10月 — 2024年9月🧖🏼‍♂️🛫，科技部第二次青藏高原科學考察項目（the second Tibetan Plateau Scientific Expedition and Research (STEP) program, 2019ZZKK0103）“地氣相互作用及其氣候效應”，參加

2018年1月 — 2021年12月⏱，國家重大研發計劃課題，副熱帶地區高分辨率模式復雜下墊面和關鍵過程，主持

2016年1月 — 2018年12月，國家自然科學基金委青藏高原地-氣耦合系統變化及其全球氣候效應重大研究計劃，青藏高原內循環降水率特征及其對全球變化的響應，主持

2014年1月 — 2016年12月🍬，國家自然科學基金委優秀青年科學基金💂‍♀️，水文氣象學，主持

2013年1月 — 2017年8月，國家全球變化重大科學研究計劃課題👫🏻，青藏高原沙漠化對氣候變化的響應機理🧓🏿，主持

2012年1月 — 2015年12月🫒，中國科學院“百人計劃”，青藏高原及周邊典型流域氣候變化及其對全球變化的響應，主持

發表主要論文

（本人名稱加粗，通訊作者加*號）

 1. Gao, Y.*, J. Xu, M. Zhang, C. Liu, and J. Dan, 2022: Regional climate dynamical downscaling over the Tibetan Plateau — From quarter-degree to kilometer-scale. SCIENTIA SINICA Terrae.

 2. Li, Z., and Y. Gao*, 2022: Impact of Interaction between Metropolitan Area and Shallow Lake on Daily Extreme Precipitation over Eastern China. Atmosphere, 13.

 3. Liu, Z., Y. Gao*, and G. Zhang, 2022: How well can a convection-permitting-modelling improve the simulation of summer precipitation diurnal cycle over the Tibetan Plateau. Climate Dynamics.

 4. Dan, J., Y. Gao*, and M. Zhang, 2021: Detecting and Attributing Evapotranspiration Deviations Using Dynamical Downscaling and Convection-Permitting Modeling over the Tibetan Plateau. Water.

 5. Zhang, H., and Y. Gao*, 2021: Projected Changes in Precipitation Recycling over the Tibetan Plateau Based on a Global and Regional Climate Model. Joural of Hydrometeorology, 22, 2633-2644.

 6. Pan Y., Y. Gao*, S. Li, 2021：Impacts of land use/land cover distributions and vegetation amount on land surface temperature simulation in East China, Earth and Space Science, 8.

 7. Jiang Y., Y. Gao*, C. He, B. Liu, Y. Pan, X. Li, 2021：Spatiotemporal distribution and variation of wind erosion over the Tibetan Plateau based on a coupled land-surface wind-erosion model, Aeolian Research🙎🏻‍♀️，50, 100699.

 8. Gao Y. *, F. Chen, Gonzalo Miguez-Macho, X. Li, 2020, Understanding precipitation recycling over the Tibetan Plateau using tracer analysis with WRF, Climate Dynamics, https://doi.org/10.1007/s00382-020-05426-9

 9. Jiang Y., F. Chen, Y. Gao *, C. He, M. Barlage, W. Huang, 2020, Assessment of uncertainty sources in snow cover simulation in the Tibetan plateau, Journal of Geophysical Research: Atmospheres, 125, e2020JD032674, https://doi.org/10.1029/2020JD032674

 10. Gao Y. *, F. Chen, Y. Jiang, 2020, Evaluation of a Convection-Permitting Modeling of Precipitation over the Tibetan Plateau and Its Influences on the Simulation of Snow-Cover Fraction, J. Hydrometeor., 21:1531-1548

 11. Zhang H., Y. Gao*, J. Xu, Y. Xu, Y. Jiang, Decomposition of Future Moisture Flux Change Projected by Global and Regional Climate Models over the Tibetan Plateau, Journal of Climate, 15, 7037-7053

 12. Li S., Y. Gao*, S. Lu, et al., 2019: Response of surface air temperature to the change of leaf area index in the source region of the Yellow River by the WRF model, Theor Appl Climatol, https://doi.org/10.1007/s00704-019-02931-8

 13. Jiang Y., F. Chen, Y. Gao*, M. Barlage, J. Li, 2019: Using multi-source satellite data to assess recent snow-cover change in the Qinghai-Tibet Plateau and its uncertainty, J. Hydrometeor., 20(7), https://doi.org/10.1175/JHM-D-18-0220.s1.10.1175/JHM-D-18-0220.1

 14. Li R., Y. Gao*, D. Chen, Y. Zhang, and S. Li, 2018: Contrasting vegetation changes in dry and humid regions of the Tibetan Plateau over recent decades, Sciences in Cold and Arid Regions, 10 (6): 482-492.

 15. Gao Y.*, F. Chen, D. P. Lettenmaier, J. Xu, L. Xiao, X. Li, 2018: Does elevation-dependent warming hold true above 5,000 m elevation: Lessons from the Tibetan Plateau? npj Climate and Atmosphere, DOI👩🏿‍⚕️：10.1038/s41612-018-0030-z.

 16. Li X., Y. Gao*, J. Xu, L. Xiao, 2018: Comparison of near-surface wind speed simulations over the Tibetan Plateau from three dynamical downscalings, Theoretical and Applied Climatology, 134,1399-1411. DOI 10.1007/s00704-017-2353-9.

 17. Gao, Y.*and Chen, D. Modeling of Regional Climate over the Tibetan Plateau, Oxford University Press. book chapter of “Regional climate and climate change in the region of Tibet” edited by D. Chen and T. Yao, 2017.

 18. Gao Y.*, L. Xiao, D. Chen, J. Xu, H. Zhang, 2017: Comparison between past and future extreme precipitations simulated by global and regional climate models over the Tibetan Plateau, International Journal of Climatology, 16. Doi: 10.1002/joc.5243.

 19. Gao Y.*, L. Xiao, D. Chen, F. Chen, J. Xu, Y. Xu, 2016: Quantification of the relative role of land surface processes and large scale forcing in dynamic downscaling over the Tibetan Plateau, Climate Dynamics, 48,1705-1721, DOI: 10.1007/s00382-016-3168-6.

 20. Xu J., Y. Gao*, D. Chen, L. Xiao, T. Ou, 2016: Evaluation of Global Climate Models for downscaling applications centered over the Tibetan Plateau, International Journal of Climatology, 37,657-671, DOI:10.1002/joc.4731.

 21. Gao Y.*, K. Li, F. Chen, Y. Jiang, C. Lu, 2015: Assessing and improving Noah-MP land model simulations for the central Tibetan Plateau. J. Geophys. Res. Atmos., 120, doi:10.1002/2015JD023404, 9258-9278.

 22. Gao Y.*, L. Ruby Leung, Y. Zhang, Lan Cuo, 2015: Changes in Moisture Flux over the Tibetan Plateau during 1979-2011: Insights from the high resolution simulation, Journal of Climate, doi: 10.1 175/JCLI-D-14-00581.1, 28(10), 4185-4197.

 23. Gao Y.*, J. Xu, and D. Chen, 2015: Evaluation of WRF Mesoscale Climate Simulations over the Tibetan Plateau during 1979-2011. J. Climate. doi:10.1175/JCLI-D-14-00300.1, 28(7), 2823-2841.

 24. Gao Y.*, X. Li, R. L. Leung, D. Chen, J. Xu, 2015: Aridity changes in the Tibet Plateau in a warming climate, Environmental Research Letters., doi:10.1088/1748-9326/10/3/034013, 10 034013.  

 25. Bao,Y., Y. Gao*,, ,S. Lü, Q. Wang, S. Zhang, J. Xu, R. Li, S. L, D. Ma, X. Meng, H. Chen, Y. Chang, 2014. Evaluation of CMIP5 Earth System Models in Reproducing Leaf Area Index and Vegetation Cover over the Tibetan Plateau, J. Meteor. Res., 28

 26. Gao Y.*, Lan Cuo, Y. Zhang, 2014, Changes in Moisture Flux over the Tibetan Plateau during 1979-2011 and Possible Mechanisms, Journal of Climate, doi:10.1175/JCLI-D-13-00321.1, 27(5), 1876-1893.

 27. Gao, Y., L. R. Leung, E. P. Salathé Jr., F. Dominguez, B. Nijssen, and D. P. Lettenmaier* 2012: Moisture flux convergence in regional and global climate models: Implications for droughts in the southwestern United States under climate change, Geophys. Res. Lett., 39, L09711, doi:10.1029/2012GL051560.

 28. Gao Y., J. A. Vano, C. Zhu, and D. P. Lettenmaier*, 2011: Evaluating climate change over the Colorado River basin using regional climate models, J. Geophys. Res., 116, D13104, doi:10.1029/2010JD015278.

 29. Gao Y.*, Y. Xue, W. Peng, H. Kang, D. Waliser, 2011: Assessment of Dynamic Downscaling of China Regional Summer Climate Using Regional Climate Model, Adv. Atmos. Sci., 28(5), 1077–1098, doi: 10.1007/s00376-010-0039-7.

 30. Gao, Y.*, F. Chen, M. Barlage, W. Liu, G. Cheng, X. Li, Y. Yu, Y. Ran, H. Li, H. Peng, and M. Ma, 2008: Enhancement of land surface information and its impact on atmospheric modeling in the Heihe River Basin, northwest China, J. Geophys. Res., 113, D20S90, doi:10.1029/2008JD010359.

其它情況

培養的研究生中🫲🏽，兩名榮獲國家獎學金，一名榮獲上海市優秀畢業生榮譽稱號，一名榮獲沐鸣2平台優秀共青團員榮譽稱號🫃🏻。

#以上信息由本人提供🧚🏿‍♀️，更新時間🧛🏻‍♀️：2022/09/02