2000-2004年，南京气象学院，大气科学系大气科学专业

2004-2007年，中国气象科学研究院，气象学专业

2007-2010年，中国科学院大气物理研究，气象学专业

2010-至今，国家气候中心

2016-2017年，美国康涅狄格大学，访问交流

[1]     Shi Y, Gao XJ, 2012. Projection of water availability in the Miyun Watershed from an RCM simulation. Atmospheric and Oceanic Science Letters, 5(6): 468–472

[2]     Shi Y, Gao XJ, Wu Jia, 2012. Projected changes in Köppen climate types in the 21st century over China. Atmospheric and Oceanic Science Letters, 5(6): 495–498

[3]     Shi Y, Gao XJ, Wu Jia, Giorgi Filippo, 2011. Changes in snow cover over China in the 21st century as simulated by a high resolution regional climate model. Environmental Research Letters, 6, doi:10.1088/1748-9326/6/4/045401 (SCI)

[4]     Shi Y, Wang GL, 2020. Changes in building climate zones over China based on high-resolution regional climate projections. Environmental Research Letters, 15, 114045, https://doi.org/10.1088/1748-9326/abbde8  (SCI)

[5]     Shi Y, Gao XJ Xu Y, Giorgi F, Chen DL, 2016. Impact of Climate Change on Heating and Cooling Degree Days and Potential Energy Demand in the Household Sector of China. Climate Research, 67: 135-149. (SCI)

[6]     Shi Y, Gao XJ, Zhang DF, Giorgi F, 2011. Climate change over the Yarlung Zangbo-Brahmaputra River Basin in the 21st century as simulated by a high resolution regional climate model. Quaternary International, 244, 159–168 (SCI)

[7]     Shi Y, Han ZY, Xu Y, Xiao C, 2021. Impacts of climate change on heating and cooling degree-hours over China. International Journal of Climatology, 41(3): 1571-1583 (SCI)

[8]     Shi Y, Wang GL, Gao XJ, 2018. Role of resolution in regional climate change projections over China. Climate Dynamics, 51: 2375-2396. (SCI)

[9]     Shi Y, Wang GL, Gao XJ, Xu Y, 2018. Effects of climate and potential policy changes on heating degree days in current heating areas of China. Scientific Report, 8: 10211. (SCI)

[10] Shi Y, Yu M, Erfanian A, Wang GL, 2018. Modeling the dynamic vegetation-climate system over China using a coupled regional model. Journal of Climate, 31: 6027-6049. (SCI)

[11] Shi Y, Zhang DF, Xu Y, Zhou BT, 2018. Changes of heating and cooling degree days over China in response to 1.5°C, 2°C, 3°C and 4°C global warming targets. Advances in Climate Change Research, 9: 192-200. (SCI)

[12] 石英, 韩振宇, 徐影, 周波涛, 吴佳, 2019. 6.25km高分辨率降尺度数据对雄安新区及整个京津冀地区未来极端气候事件的预估. 气候变化研究进展, 15(2): 140-149.

[13] 石英, 吴婕, 徐影, 2021. 区域气候模式水平分辨率对黄淮海流域当代气候模拟的影响. 水科学进展, 32(6): 843-854.

[14] 石英, 高学杰, 吴佳, Giorgi Filippo, 2010. 华北地区未来气候变化的高分辨率数值模拟. 应用气象学报, 21(6): 580–589

[15] Wu J, Shi Y*, 2021. Changes in surface wind speed and its different grades over China during 1961-2020 based on a high-resolution dataset. International Journal of Climatology, Doi: 10.1002/joc.7453. (SCI)

[16] Wu J, Shi Y*, Xu Y, 2020. Evaluation and projection of surface wind speed over China based on CMIP6 GCMs. Journal of Geophysical Research: Atmospheres, 125, e2020JD033611, https://doi.org/10.1029/2020JD033611. (SCI)

[17] Xu JY, Shi Y*, Gao XJ, 2012. Changes in extreme events as simulated by a high-resolution regional climate model for the next 20-30 years over China. Atmospheric and Oceanic Science Letters, 5(6): 483-488.

[18] Dong SY, Shi Y*, 2022. Impact of the dynamic vegetation on climate extremes during the wheat growing period over China. Science of the Total Environment, http://dx.doi.org/10.1016/j.scitotenv.2022.153079. (SCI)

[19] Gao XJ, Shi Y*, Filippo Giorgi, 2011. A high resolution simulation of climate change over China. Science China-Earth Sciences, 54(3): 462-472. (SCI)

[20] Gao XJ, Shi Y*, 2012. Uncertainties in monsoon precipitation projections over China: results from two high-resolution RCM simulations. Climate Research, 52: 213-226.

2017年度四川省科技进步三等奖

2019年度山西省气象学会研究开发奖一等奖

2023年度记功个人