丁硕毅
青年副研究员
dsy@fudan.edu.cn
研究兴趣
1、北极海冰-气相互作用及其对欧亚天气事件和气候变率的影响
2、热带海-气相互作用及其对北半球中高纬遥相关波列的影响
3、多圈层相互作用及其气候效应
教育背景
2013.09-2018.06,中科院大气物理研究所,气象学,博士
2009.09-2013.06,中山大学,应用气象,本科
研究经历
2022.05-至今,复旦大学,青年副研究员
2018.09-2022.04,复旦大学,博士后
承担课题
2020.01-2022.12,秋季北极不同海域海冰对冬季欧亚大陆气候变异的影响和机理研究,41905058,国家自然青年科学基金,主持
2021.1-2022.12,秋季北极海冰融化对冬季中国极端低温事件的影响和机理,中科院国家重点实验室开放基金,主持
2019.06-2021.06,秋冬季北极不同海域海冰影响春季欧亚气候变异的机理,2019M651348,第65批中国博士后科学基金面上资助项目,主持
2018.01-2022.12,北极海-冰-气系统对冬季欧亚大陆极端气候事件的影响,41790472,国家自然科学基金重大项目课题,参与
发表论文
(本人名称加粗,通讯作者加*号)
1. Zhang, X., B. Wu, S. Ding (2022) Influence of spring Arctic sea ice melt on Eurasian surface air temperature. Climate Dynamics, DOI:10.1007/s00382-022-06267-4
2. Wu, B., Z. Li, JA. Francis, S. Ding (2022) A recent weakening of winter temperature association between Arctic and Asia. Environ Res Lett,doi:10.1088/1748-9326/ac4b51.
3. Liu, L., B. Wu, S. Ding (2022). On the association of the summertime shortwave cloud radiative effect in northern Russia with atmospheric circulation and climate over East Asia. Geophysical Research Letters, 49, e2021GL096606.
4. Ding, S., B. Wu (2021). Linkage between autumn sea ice loss and ensuing spring Eurasian temperature. Clim. Dyn., doi: 10.1007/ s00382-021-05839-0.
5. Ding, S., B. Wu, W. Chen (2021). Dominant characteristics of early autumn Arctic sea ice variability and its impact on winter Eurasian climate. J. Climate, 34(5): 1825-1846.
6. Xu, P., L.Wang, G. Vallis, R. Geen, JA. Screen, P. Wu, S. Ding, P. Huang, W. Chen (2021). Amplified waveguide teleconnections along the polar front jet favor summer temperature extremes over northern eurasia. Geophysical Research Letters.
7. Ren, L., D. Wang, N. An, S. Ding, K. Yang, Y. Rong, N. Freychet, FB. Tett, B. Dong, FC. Lott (2020) Anthropogenic Influences on the Persistent Night-Time Heat Wave in Summer 2018 over Northeast China. Bulletin of the American Meteorological Society, 101(1), S83-S88.
8. Ma, T., W. Chen, HF. Graf, S. Ding, P. Xu, L. Song, X. Lan (2020). Different Impacts of the East Asian Winter Monsoon on the Surface Air Temperature in North America during ENSO and Neutral ENSO Years. J. Climate, 33(24), 10671-10690.
9. Wang, S., W. Chen, S. Chen, S. Ding (2020). Interdecadal change in the North Atlantic storm track during boreal summer around the mid-2000s: role of the atmospheric internal processes. Clim. Dyn., 55(7), 1929-1944.
10. Ding, S., W. Chen, HF. Graf, Z. Chen, T. Ma (2019). Quasi-stationary extratropical wave trains associated with distinct tropical Pacific seasonal mean convection patterns: observational and AMIP model results. Clim. Dyn., 53: 2451-2476.
11. Ding, S., W. Chen, HF. Graf, Y. Guo (2018), Patterns of tropical Pacific convection anomalies and associated extratropical wave trains in AMIP5. Clim. Dyn., 52: 2565-2584.
12. Ding, S., W. Chen, HF. Graf, Y. Guo, D. Nath (2018), Distinct winter patterns of tropical Pacific convection anomaly and the associated extratropical wave trains in the Northern Hemisphere. Clim. Dyn., 51: 2003-2022.
13. 陈文, 丁硕毅, 冯娟, 陈尚锋, 薛旭, 周群. 不同类型 ENSO 对东亚季风的影响和机理研究进展[J]. 大气科学, 2018, 42(3): 640- 655.
14.Ding, S., W. Chen, J. Feng, HF. Graf (2017), Combined impacts of PDO and two types of La Niña on climate anomalies in Europe. J. Climate, 30(9): 3253-3278.
15. 丁硕毅, 温之平, 陈文. 南海夏季风爆发与热带太平洋两类海温型关系的年代际差异[J]. 大气科学, 2016, 40(2): 243-256.
#以上信息由本人提供,更新时间:2022/05/28