基本情况

陈锐丹,女,理学博士,副教授,博士生导师。

 

联系方式

Email: chenrd3@mail.sysu.edu.cn

地址: 广东省珠海市唐家湾中山大学珠海校区海琴二号大气科学学院

 

教育及工作经历

  • 2018.04-至今          中山大学大气科学学院                                        副教授

  • 2015.11-2018.04    中山大学大气科学学院                                         讲师

  • 2015.07-2015.11  中山大学环境科学与工程学院大气科学系               讲师

  • 2013.09-2014.09  德国马普气象研究所                                         访问博士生

  • 2010.09-2015.06  中国科学院大气物理研究所                             免试硕博连读

  • 2006.09-2010.06  中山大学环境科学与工程学院大气科学系                学士

 

讲授课程

天气分析与预报、天气分析与预报综合实验、生产实习等

 

培养学生

指导研究生:在读博士1名、硕士3名,已毕业硕士5名

毕业生去向:广州市气象局、珠海市气象局、江西省气象局、南宁市生态环境局、南宁空管局等

指导本科生:毕业论文、研究性学习

 

科研方向

极端天气和气候,季风气象学,海气相互作用

 

科研和教改项目

  • 主持国家自然科学基金面上项目、国家自然科学基金青年项目、广东省自然科学基金面上项目、国家重点实验室开放基金、高校基本科研业务费青年教师重点培育项目等

  • 主持中山大学本科教学改革项目、中山大学青年教师起步资助计划等

  • 参与国家重点研发计划、国家自然科学基金气象联合基金等

 

论著一览

   第一作者、通讯作者*文章

  1. Tang, S., Chen R.*, Chen Z., 2025: Spatial diversity of the summer marine heat waves in the South China Sea. Journal of Climate, 38, 1051–1065.
  2. Chen, R.*, Liu J., Tang S., and Li X., 2024: Spatially compounding flood-nocturnal heat events over adjacent regions in the Northern Hemisphere. npj Climate and Atmospheric Science, 7(1), 237.
  3. Li, X., Chen R.*, Qiao Y., 2024: Assessing the extended‐range forecast skills of the extreme heat events over South China based on three S2S models. Atmospheric Science Letters, 25(9), e1253.
  4. Chen, R.*, Z. Wen, W. Lin and Y. Qiao, 2023: Diverse relationship between the tropical night in South China and the water vapor transport over the South China Sea and the plausible causes. Atmospheric Research, 296, 107080.
  5. Chen, R.*, and X. Li, 2023: Cause of the persistent merging of the western North Pacific subtropical high and the Iran high during late July 2022. Climate Dynamics, 61, 2285-2297.
  6. Li, X., and R. Chen*, 2023: Diversity in the quasi-biweekly oscillation sources of the daily maximum temperature over South China during summer. International Journal of Climatology, 1-20.
  7. Lin W., R. Chen*, Z. Wen, and W. Chen, 2022: Large-scale circulation features responsible for different types of extreme high temperatures with extreme coverage over South China. International Journal of Climatology, 42, 974–992.
  8. Zhan, H., R. Chen*, M. Lan, 2022: Interdecadal change in the interannual variation of the western edge of the western North Pacific subtropical high during early summer and the influence of tropical sea surface temperature. Journal of Tropical Meteorology, 28(1), 57-70.
  9. 陈慕妍,陈锐丹*,2022:夏季西北太平洋热带气旋生成频次与热带海温关系的年代际变化. 热带气象学报,38(1),58-67.
  10. Chen, R.*, Z. Wen, and R. Lu, 2021: Interdecadal changes in the interannual variability of the summer temperature over Northeast Asia. Journal of Climate, 34, 8361–8376.
  11. Liu W., R. Chen*, and Z. Wen, 2021: An interdecadal decrease in extreme heat days in August over Northeast China around the early 1990s. Atmospheric and Oceanic Science Letters, 14, 100001.
  12. Chen R.*, Z. Wen, and R. Lu, C. Wang, 2019: Causes of the extreme hot midsummer in Central and South China during 2017: Role of the western tropical Pacific warming. Advances in Atmospheric Sciences, 36, 465-478.
  13. Chen R.*, Z. Wen, and R. Lu, 2019: Influences of tropical circulation and sea surface temperature anomalies on extreme heat over Northeast Asia in the midsummer of 2018. Atmospheric and Oceanic Science Letters, 12, 238-245.
  14. Chen R*, Z. Wen, and R. Lu, 2018: Large-scale circulation anomalies and intraseasonal oscillations associated with long-lived extreme heat events in South China. Journal of Climate, 31, 213-232.
  15. Chen R.*, Z. Wen, and R. Lu, 2018: Interdecadal change on the relationship between the mid-summer temperature in South China and atmospheric circulation and sea surface temperature. Climate Dynamics, 54, 2113-2126.
  16. Chen R.*, Z. Wen, and R. Lu, 2016: Evolution of the circulation anomalies and the quasi-biweekly oscillations associated with extreme heat events in southern China. Journal of Climate, 29, 6909-6921.
  17. Chen R., and R. Lu, 2016: Role of large-scale circulation and terrain in causing extreme heat in western North China. Journal of Climate, 29, 2511–2527.
  18. Chen, R., and R. Lu, 2015: Comparisons of the circulation anomalies associated with extreme heat in different regions of eastern China. Journal of Climate, 28, 5830–5844.
  19. Chen, R., and L. Tomassini, 2015: The role of moisture in summertime low-level jet formation and associated rainfall over the East Asian Monsoon region. Journal of the Atmospheric Sciences, 72, 3871–3890.
  20. Chen, R., and R. Lu, 2014: Dry tropical nights and wet extreme heat in Beijing: Atypical configuration between high temperature and humidity. Monthly Weather Review, 142, 1792–1802.
  21. Chen, R., and R. Lu, 2014: Large-scale circulation anomalies associated with ‘Tropical Night’ weather in Beijing, China. International Journal of Climatology, 34, 1980–1989.
  22. 陈锐丹,温之平,陆日宇,吴丽姬, 2012: 华南6月降水异常及其与东亚-太平洋遥相关的关系. 大气科学, 36, 974–984.

 

         合作者文章(部分)

  1. Li, X., R. Lu, G. Chen, and R. Chen, 2024: Western North Pacific tropical cyclones suppress Maritime Continent rainfall. npj Climate and Atmospheric Science, 7(1): 251.
  2. Li, X., R. Lu, G. Chen, and R. Chen, 2023: Tropical cyclones over the South China Sea suppress the monsoonal rainfall in southern China. npj Climate and Atmospheric Science, 6, 207.
  3. Lu C., J. Jiang, R. Chen, and et al., 2021: Anthropogenic influence on 2019 May–June extremely low precipitation in southwestern China. Bulletin of the American Meteorological Society, 102, S97-S102.
  4. Wang Z., Z. Wen, R. Chen, and et al., 2020: Interdecadal enhancement in the interannual variability of the summer monsoon meridional circulation over the South China Sea around the early 1990s. Climate Dynamics, 55, 2149–2164.
  5. Zhu, Y., Z. Wen, Y. Guo, R. Chen, and et al. 2020: The characteristics and possible growth mechanisms of the quasibiweekly Pacific–Japan teleconnection in Boreal Summer. Climate Dynamics. 55, 3363–3380.
  6. Guo Y., Z. Wen, R. Chen, X. Li, and X. Yang, 2019: Effect of boreal spring precipitation anomaly pattern change in the late 1990s over tropical Pacific on the atmospheric teleconnection. Climate Dynamics, 52, 401-416.
  7. Huang S., Z. Wen, Z. Chen, X. Li, R. Chen and Y. Guo. 2019: Interdecadal change in the relationship between the tropical easterly jet and tropical sea surface temperature anomalies in boreal summer. Climate Dynamics, 53, 2119-2131.
  8. Zhang H., Z. Wen, R. Wu, X. Li, and R. Chen, 2019: An inter-decadal increase in summer sea level pressure over the Mongolian region around the early 1990s. Climate Dynamics, 52, 1935-1948.
  9. Zhu X., Y. Guo, H. Zhang, X. Li, R. Chen and Z. Wen, 2018: A southward withdrawal of the north edge of the East Asian summer monsoon around the early 1990s. Atmospheric and Oceanic Science Letters, 11:2, 136-142.
  10. Lin X., Z. Wen*, W. Zhou, R. Wu, and R. Chen, 2017: Effects of tropical cyclone activity on the boundary moisture budget over the eastern China monsoon region. Advances in Atmospheric Sciences, 34, 700–712.
  11. Lu, R., and R. Chen, 2016: A review of recent studies on extreme heat in China. Atmospheric and Oceanic Science Letters, 9:2, 114–121.