汪秋云

发布者:赵诗琳发布时间:2009-09-30浏览次数:10


汪秋云


副教授,

中国海洋大学 海洋与大气学院

青岛市松岭路238号,266100

E-mailwangqy@ouc.edu.cn


教育经历:

2015/09-2020/06北京师范大学 全球环境变化 博士

2011/09-2015/06西北师范大学 地理科学 学士


工作经历:

2024/01至今    中国海洋大学 海洋与大气学院  副教授

2020/10-2023/12 南京大学 大气科学学院  博士后


主要项目(近五年)

  1. 2022/01-2024/12,国家自然科学基金青年项目“年际尺度北太平洋热带气旋活动对厄尔尼诺空间分布多样性的影响及其机制”,在研,主持

  2. 2021/06-2023/12,中国博士后科学基金第14批特别资助(站中)“年际尺度东、西北太平洋热带气旋对厄尔尼诺强度的协同影响”,结项,主持

  3. 2021/12-2023/12,中国博士后科学基金面上资助“年际尺度东北太平洋热带气旋活动对厄尔尼诺-南方涛动强度的影响及其机制”,结项,主持

  4. 2022/01-2026/12,国家自然科学基金委员会重大项目,“台风路径、强度和结构变化动力学与可预报性研究”,在研,骨干

  5. 2023/01-2026/12,国家自然科学基金委员会面上项目,“热带气旋初始涡旋和暖心形成过程的辐射效应触发和反馈机制”,在研,参与

  6. 2020/01-2023/12,国家自然科学基金委员会面上项目, “太平洋年代际振荡对全球变暖的响应及机理”,结项,参与

  7. 2020/01-2023/12,国家自然科学基金委员会面上项目, “欧亚大陆冬季气温年代际变化归因及其驱动机制研究”,结项,参与


代表文章*为通讯作者)

  1. Q. Y. Wang and Z.-M. Tan*, 2023: Impact of tropical cyclones over the eastern North Pacific on El Niño–Southern Oscillation intensity, Climate Dynamics, DOI: 10.1007/s00382-023-06723-9.      

  2. Q. Y. Wang and J. P. Li*, 2022a: Feedback of tropical cyclones on El Niño diversity. Part Ⅰ: Phenomenon, Climate Dynamics, 59(1-2), 169-184.

  3. Q. Y. Wang and J. P. Li*, 2022b: Feedback of tropical cyclones on El Niño diversity. Part Ⅱ: Possible mechanism and prediction, Climate Dynamics, 59(3-4), 715-735.

  4. Q. Y. Wang and J. P. Li*, 2022c: Feedback of tropical cyclones over the western North Pacific on La Niña flavor, Geophysical Research Letters, 49, e2021GL097210.

  5.  D. Y. Gong, X. D. Tang*, J. C. L. Chan, Q. Y. Wang, 2022: Trends of Tropical Cyclone Translation Speed over the Western North Pacific during 19802018, Atmosphere 13, no. 6: 896.

  6.  T. Liu, J. P. Li*, Q. Y. Wang and S. Zhao, 2020: Influence of the Autumn SST in the Southern Pacific Ocean on Winter Precipitation in the North American Monsoon Region, Atmosphere, 11.

  7.  C. Sun*, Y. S. Liu, Z. Q. Gong, F. Kucharski, J. P. Li, Q. Y. Wang and X. Li, 2020: The footprint of Atlantic Multidecadal Oscillation on the intensity of tropical cyclones over the western North Pacific, Frontiers in Earth Science, 8.

  8. Q. Y. Wang, J. P. Li*, F.-F. Jin, J. C. L. Chan, C. Z. Wang, R. Q. Ding, C. Sun, F. Zheng, J. Feng, F. Xie, Y. J. Li, F. Li and Y. D. Xu, 2019: Tropical cyclones act to intensify El Niño, Nature Communications, 10, 3793.    

  9. Q. Y. Wang, J. P. Li*, Y. J. Li, J. Q. Xue, S. Zhao, Y. D. Xu, Y. H. Wang, Y. Z. Zhang, D. Dong and J. W. Zhang, 2019: Modulation of tropical cyclone tracks over the western North Pacific by intraseasonal Indo-western Pacific convection oscillation during the boreal extended summer, Climate Dynamics, 52, 913-927.                                                                                                      

  10.  Y. Z. Zhang, J. P. Li*, Q. Y. Wang, J. Q. Xue, 2019: Variations in atmospheric perturbation potential energy associated with the South China Sea summer monsoon. Climate Dynamics, 53, 2295-2308.

  11. Q. Y. Wang, J. P. Li*, Y. J. Li and J. W. Zhang, 2018: Modulation of tropical cyclogenesis location and frequency over the Indo-western North Pacific by the intra-seasonal Indo-western Pacific convection oscillation during the boreal extended summer, Journal of Climate, 31, 1435-1450.   

  12.  Y. D. Xu, J. P. Li*, C. Sun, X. P. Lin, L. N. Wang, Y. S. Liang, Q. Y. Wang, Y. Z. Zhang, Z. L. Hou, F. C. Wang, 2019: Contribution of SST change to multidecadal global and continental surface air temperature trends between 1910 and 2013, Climate Dynamics, 54, 1295-1313.

  13.  Y. H. Wang, J. P. Li*, Y. Z. Zhang, Q. Y. Wang and J. H. Qin, 2018: Atmospheric energetics over the tropical Indian Ocean during Indian Ocean dipole events. Climate Dynamics, 52, 6243–6256.

  14.  Y. Z. Zhang, J. P. Li*, J. Q. Xue, J. Feng, Q. Y. Wang, Y. D. Xu and Y. H. Wang, 2018: Impact of the South China Sea Summer Monsoon on the Indian Ocean Dipole. Journal of Climate, 31, 6557-6572.

  15.  Zheng, J. Y., Y. J. Li*, J. Li, J. Q. Xue, Y. P. Guo, T. Liu, and Q. Y. Wang, 2017: The Relationship between Indo-Pacific Convection Oscillation and Summer Surface Air Temperature in Southern Asia. SOLA, 13, 199-204.

  16. 徐一丹,李建平*, 汪秋云,林霄沛, 2019:全球变暖停滞的研究进展回顾. 地球科学进展[J], 34 (2), 175-190.

  17. 陈凯奇,李建平*,谢铁军, 汪秋云,王兰宁, 2019:全球大气能量的时空特征及变化趋势分析[J].大气科学.

  18. 李建平,汪秋云*,李艳杰,张净雯, 2016:基于能量学的热带气旋气候学研究进展和展望.北京师范大学学报(自然科学版) [J], 52(6), 705-713.



荣誉与奖励

2023年入选中国博士后科学基金资助者百人选介

2022年北京师范大学优秀博士毕业论文

2020年入选南京大学“毓秀青年学者”计划

2020年周廷儒优秀研究生奖

2020年北京师范大学优秀博士毕业生

2019年、2018年博士研究生国家奖学金

2019年第三届全国大气科学学科创新创业论坛大赛三等奖


学术兼职:

期刊审稿人:

Earth’s future, npj Climate and Atmospheric Science, Journal of Climate, Geophysical Research Letters, Climate Dynamics, Advances in Atmospheric Sciences

客座编辑:

Special Issue 'Impacts of Climate Change on Tropical Cyclone Activities: Cloud–Radiation Feedback and Dynamics' for Sustainability (2021.11-2022.12)  


研究兴趣:

热带气旋气候学

海气相互作用

热带气旋与ENSO的跨时间尺度研究





英文版

Qiuyun Wang


Associate Professor,  

 College of Oceanic and Atmospheric Sciences

Ocean University of China

238 Songling Rd, Qingdao 266100, China

Email: wangqy@ouc.edu.cn


Education

 09/2015-06/2020, Ph.D. in Global Environmental Change, Beijing Normal University

09/2011-06/2015, B.S. in Geographical Science, Northwest Normal University


EMPLOYMENT

01/2024-Present, Associate Professor, Ocean University of China

10/2020-12/2023, Postdoctoral Researcher, Nanjing University


Major PROJECTS

  1. 01/2022-12/2024, Natural Science Foundation of China (NSFC), Influence of tropical cyclones over the North Pacific on the spatial diversity of El Niño and the related physical mechanisms on interannual timescales, PI.

  2. 06/2021-12/2023, China Postdoctoral Science Foundation, Synergistic effects of tropical cyclones over the eastern and western North Pacific on El Niño intensity on interannual timescales, PI.

  3. 12/2021-12/2023, Impact of tropical cyclones over the eastern North Pacific on ENSO intensity, PI.


PUBLICATIONS (*CORRESPONDING AUTHOR)

  1. Q. Y. Wang and Z.-M. Tan*, 2023: Impact of tropical cyclones over the eastern North Pacific on El Niño–Southern Oscillation intensity, Climate Dynamics, DOI: 10.1007/s00382-023-06723-9.      

  2. Q. Y. Wang and J. P. Li*, 2022a: Feedback of tropical cyclones on El Niño diversity. Part Ⅰ: Phenomenon, Climate Dynamics, 59(1-2), 169-184.

  3. Q. Y. Wang and J. P. Li*, 2022b: Feedback of tropical cyclones on El Niño diversity. Part Ⅱ: Possible mechanism and prediction, Climate Dynamics, 59(3-4), 715-735.

  4. Q. Y. Wang and J. P. Li*, 2022c: Feedback of tropical cyclones over the western North Pacific on La Niña flavor, Geophysical Research Letters, 49, e2021GL097210.

  5.  D. Y. Gong, X. D. Tang*, J. C. L. Chan, Q. Y. Wang, 2022: Trends of Tropical Cyclone Translation Speed over the Western North Pacific during 1980−2018, Atmosphere 13, no. 6: 896.

  6.  T. Liu, J. P. Li*, Q. Y. Wang and S. Zhao, 2020: Influence of the Autumn SST in the Southern Pacific Ocean on Winter Precipitation in the North American Monsoon Region, Atmosphere, 11.

  7.  C. Sun*, Y. S. Liu, Z. Q. Gong, F. Kucharski, J. P. Li, Q. Y. Wang and X. Li, 2020: The footprint of Atlantic Multidecadal Oscillation on the intensity of tropical cyclones over the western North Pacific, Frontiers in Earth Science, 8.

  8. Q. Y. Wang, J. P. Li*, F.-F. Jin, J. C. L. Chan, C. Z. Wang, R. Q. Ding, C. Sun, F. Zheng, J. Feng, F. Xie, Y. J. Li, F. Li and Y. D. Xu, 2019: Tropical cyclones act to intensify El Niño, Nature Communications, 10, 3793.    

  9. Q. Y. Wang, J. P. Li*, Y. J. Li, J. Q. Xue, S. Zhao, Y. D. Xu, Y. H. Wang, Y. Z. Zhang, D. Dong and J. W. Zhang, 2019: Modulation of tropical cyclone tracks over the western North Pacific by intraseasonal Indo-western Pacific convection oscillation during the boreal extended summer, Climate Dynamics, 52, 913-927.                                                                                                      

  10.  Y. Z. Zhang, J. P. Li*, Q. Y. Wang, J. Q. Xue, 2019: Variations in atmospheric perturbation potential energy associated with the South China Sea summer monsoon. Climate Dynamics, 53, 2295-2308.

  11. Q. Y. Wang, J. P. Li*, Y. J. Li and J. W. Zhang, 2018: Modulation of tropical cyclogenesis location and frequency over the Indo-western North Pacific by the intra-seasonal Indo-western Pacific convection oscillation during the boreal extended summer, Journal of Climate, 31, 1435-1450.   

  12.  Y. D. Xu, J. P. Li*, C. Sun, X. P. Lin, L. N. Wang, Y. S. Liang, Q. Y. Wang, Y. Z. Zhang, Z. L. Hou, F. C. Wang, 2019: Contribution of SST change to multidecadal global and continental surface air temperature trends between 1910 and 2013, Climate Dynamics, 54, 1295-1313.

  13.  Y. H. Wang, J. P. Li*, Y. Z. Zhang, Q. Y. Wang and J. H. Qin, 2018: Atmospheric energetics over the tropical Indian Ocean during Indian Ocean dipole events. Climate Dynamics, 52, 6243–6256.

  14.  Y. Z. Zhang, J. P. Li*, J. Q. Xue, J. Feng, Q. Y. Wang, Y. D. Xu and Y. H. Wang, 2018: Impact of the South China Sea Summer Monsoon on the Indian Ocean Dipole. Journal of Climate, 31, 6557-6572.

  15.  Zheng, J. Y., Y. J. Li*, J. Li, J. Q. Xue, Y. P. Guo, T. Liu, and Q. Y. Wang, 2017: The Relationship between Indo-Pacific Convection Oscillation and Summer Surface Air Temperature in Southern Asia. SOLA, 13, 199-204.

  16. Y. D. Xu, J. P. Li, Q. Y. Wang, X. P. Lin. 2019: Review of the research progress in global warming hiatus (in Chinese). Advances in Earth Science, 34, 175-190.

  17. K. Q. Chen, J. P. Li, T. J. Xie, Q. Y. Wang, L. N. Wang, 2019: An Analysis of Spatiotemporal Characteristics and Trends of Global Atmospheric Energy (in Chinese). Chinese Journal of Atmospheric Sciences.

  18. J. P. Li, Q. Y. Wang, Y. J. Li and J. W. Zhang, 2016: Review and perspective on the climatological research of tropical cyclones in terms of energetics (in Chinese). Journal of Beijing Normal University (Natural Science), 52, 705-713.


Academic part-time

Journal reviewer

Earth’s future, npj Climate and Atmospheric Science, Journal of Climate, Geophysical Research Letters, Climate Dynamics, Advances in Atmospheric Sciences, etc.

Guest Editor

Special Issue 'Impacts of Climate Change on Tropical Cyclone Activities: Cloud–Radiation Feedback and Dynamics' for Sustainability (11/2021-12/2022)



Research Interests

Tropical Cyclone Climatology

Ocean-Atmosphere Interaction

Cross-Timescale Study of Tropical Cyclones and ENSO


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