Name: Wu Xueke
Research direction: Atmospheric electricity, thunderstorm meteorology, deep convection and tropospheric-stratospheric material exchange, extreme convective weather and climate change
Contact: wuxk@lzu.edu.cn
Educational experience:
2009/09–2014/06, Lanzhou University, College of Atmospheric Sciences/Institute of Atmospheric Physics, Chinese Academy of Sciences, Ph.D. Dissertation: Research on the characteristics and causes of deep convective systems in the Asian monsoon region
Supervisor: Xi Xiushu, researcher
2011/11–2012/01, University of León, Spain, exchange study
2005/09–2009/06, College of Atmospheric Sciences, Lanzhou University, Bachelor of Science
Work experience:
2014-present, associate professor, College of Atmospheric Sciences, Lanzhou University
2019/12-2020/12, University of Washington, USA, visiting scholar
Main scientific research projects:
The Second Qinghai-Tibet Plateau Scientific Research Project-Vertical Structure of Atmospheric Composition and Its Climate Influence (Project), Participate
Research on the characteristics of strong thunderstorms in the Asian monsoon area and its response to the summer monsoon, the National Natural Science Foundation of China Youth Project, lead
To what extent does the convection system develop before lightning can occur? The key laboratory of the Middle Atmosphere and Global Environment Observation (LAGEO), the Institute of Atmosphere of the Chinese Academy of Sciences, an open project, presided over
Research on the relationship between lightning and convection intensity in strong thunderstorms in the Asian monsoon area, 'Special Fund for Fundamental Scientific Research Funds for Central Universities' free exploration general project, presided over
Representative works:
1.Wu Xueke*; Tie Yuan; Kai Qie; Jiali Luo; Geographical distribution of extreme deep and intense convective storms on Earth, Atmospheric Research, 2020, 235.
2.Li Jinliang, Xueke Wu*, Jing Yang, Rubin Jiang, Tie Yuan, Jingyu Lu, Mengyu Sun. Lightning activity and its association with surface thermodynamics over the Tibetan Plateau, Atmospheric Research, 2020, 245.
3.Wu Xueke*, Xiushu Qie, Tie Yuan, and Jingliang Li. 2016: Meteorological regimes of the most intense convective systems along the southern Himalayan front. Journal of Climate, 29: 4383-4398.
4.Qie Xiushu*, Xueke Wu*, Tie Yuan, Jianchun Bian and Daren Lyu, 2014: Comprehensive pattern of deep convective systems over the tibetan plateau-south asian monsoon region based on trmm data. Journal of Climate, 27(17), 6612-6626.
5.Merino A., X. Wu, E. Gascón, C. Berthet, E. García-Ortega, & J. Dessens. 2014: Hailstorms in southwestern France: Incidence and atmospheric characterization. Atmos. Res., 140-141: 61–75.