电子邮箱：wangxiaoxin@mail.iap.ac.cn

教育经历：

2014.09–2019.06，中国科学院大气物理研究所，气象学，理学博士

2010.09–2014.06，兰州大学，大气科学学院，理学学士

研究经历：

2021.11-            ，中国科学院大气物理研究所，副研究员

2019.06-2021.10，中国科学院大气物理研究所，博士后

1.Wang X, Jiang D, Lang X. Future extreme climate changes linked to global warming intensity. Science Bulletin, 2017, 62(24): 1673–1680.

2.Wang X, Jiang D, Lang X. Climate change of 4℃ global warming above pre-industrial levels. Advances in Atmospheric Sciences, 2018, 35(7): 757–770.

3.Wang X, Jiang D, Lang X. Extreme temperature and precipitation changes associated with four degree of global warming above pre-industrial levels. International Journal of Climatology, 2019, 39(4): 1822–1838.

4.Wang X, Lang X, Jiang D.  Linkage of future regional climate extremes to globalwarming intensity. Climate Research, 2020, 81: 43–54.

5.Wang X, Jiang D, Lang X. Future changes in Aridity Index at two and four degrees of global warming above preindustrial levels. International Journal of Climatology, 2021, 41(1): 278–294.

6. Wang X, Lang X, Jiang D. Future changes in aridity in the Upper Indus Basin during the twenty-first century. Climate Research, 2022, 87: 117–132.
7. Wang X, Lang X, Jiang D. Detectable anthropogenic influence on summer compound hot events over China from 1965 to 2014. Environmental Research Letters, 2022, 17: 034042.

8. Wang, X., Lang, X., and Jiang, D. 2024: Human activities increased compound drought and heat events over China during 1961–2014. International Journal of Climatology, 44(14), 5090–5103.

9. Miao Y, Zhang T, Huang K, Wang X, et al. Pollen assemblages reflect a Mid-Miocene precipitation gradient in the  northeastern Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 2023, 617, 111514.

10. Zhang, X., X. Wang, B. Zhou, 2023: CMIP6-projected changes in drought over Xinjiang, Northwest China. International Journal of Climatology, 43, 6560−6577.

11. Zhang, X., J. Miao, X. Wang, and B. Zhou, 2024: Interannual variation of summer compound hot and drought events in Xinjiang and its relationship with the North Atlantic sea surface temperature. Journal of Climate, 37(18), 4949−4960.

12. Zhang, X., B. Zhou, X. Wang, W. Xie, and H. Li, 2025: Anthropogenic influence has intensified the severity of summer compound hot and drought events over xinjiang, China. Weather and Climate Extremes, 100774.

13.王晓欣，姜大膀，郎咸梅. CMIP5多模式预估的1.5℃升温背景下中国气温和降水变化.大气科学，2019，43：1158–1170.

14.吴蓓蕾，姜大膀，王晓欣. 1961～2018 年中国生长季变化. 大气科学，2021，45：424–434.

15.陈炜，姜大膀，王晓欣. CMIP6模式对青藏高原气候的模拟能力评估与预估研究.高原气象，2021，doi:10.7522/j.issn.1000-0534.2021.zk003

16.姜大膀，王晓欣. 对IPCC第六次评估报告中有关干旱变化的解读.大气科学学报，2021，44：650–653.

17. 张晓璐, 王晓欣, 华丽娟, 姜大膀. 新疆温度和降水变化的CMIP6模式预估. 大气科学, 2023, 47: 387−398.

18. 祝亚丽，刘洋，孔祥慧，王晓欣等，2025：中国高温、干旱及其复合事件的研究进展和展望，大气科学学报，48(1): 26-36. (CSCD)

国家重点研发计划项目：平流层地球工程的中国气候效应及对生态环境的影响（2025.01−2029.12），骨干

基金委，青年基金项目“中国区域复合型高温干旱变化的检测、归因及预估研究”，主持