占瑞芬(Ruifen Zhan)



占瑞芬

研究员

zhanrf@fudan.edu.cn

  

个人主页: https://www.researchgate.net/profile/Ruifen_Zhan

  

研究兴趣

主要研究方向为台风气候学,气候变化及预测,平流层-对流层交换等。目前特别关注台风快速加强的多尺度变化特征和机理、AI技术在台风预报中的应用等。


教育背景

学士学位(2001年),气象学,南京气象学院

硕士学位(2004年),气象学,南京气象学院和中国科学院大气物理研究所联合培养

博士学位(2007年),气象学,中国科学院大气物理研究所

  

研究经历

20078月—201011月,助理研究员,中国气象局上海台风研究所

20099月—200911月,访问学者,美国夏威夷大学,国际太平洋研究中心(IPRC

201011月—20111月,博士后,台湾大学

201012月—201711月,副研究员,中国气象局上海台风研究所

2016­10月—20179月,访问学者,美国夏威夷大学,国际太平洋研究中心(IPRC

2017­12月—201812月,研究员,中国气象局上海台风研究所

2019 1月—至今,研究员,复旦大学,大气科学研究院

  

承担课题

20191月 — 202212月,国家自然科学基金面上项目,热带气旋快速加强的年代际变化特征及机理研究,中国,62万,主持

20181月 — 202212月,国家重点研发计划课题,台风强度/结构变化的关键动力-热力过程及预报理论研究,中国,100万(子课题经费),骨干参加(子课题负责人)

20179月 — 201912月,中国气象科学研究院国家重点实验室开放课题,近海台风强度变化的特征分析及机理研究,中国,10万,主持

20171月 — 201712月,基本业务专项,热带气旋客观分析和预报系统建设,中国,30万,主持

20141月 — 201712月,国家自然科学基金面上项目,海洋热状况与西北太平洋热带气旋活动年际关系的年代际跃变及机理研究,中国,80万,主持

20121月 — 201612月,国家科技支撑计划,全球中期数值预报技术开发及应用,中国,47.5万(子课题经费),骨干参加(子课题负责人)

20121月 — 201612月,国家重点基础研究发展计划973,全球变暖下的海洋响应及其对东亚气候和近海储碳的影响,中国,685万,骨干参加

20091月 — 201112月,国家自然科学基金青年基金项目,西北太平洋热带气旋活动对平流层-对流层交换的影响,中国,20万,主持

  

学术兼职

2018年,世界气象组织(WMO)第九届国际台风研讨会台风季节预测工作组成员/台风次季节预测工作组成员

201611月 —201812月,上海市气象局台风科技创新团队小组负责人

20151月 —201612月,美国Weather and Forecasting,助理编辑

2014年,世界气象组织(WMO)第八届国际台风研讨会季节预测工作组成员

Climate Dynamics, Journal of Climate, Weather and Forecasting, Monthly Weather Review, Geophysical Research Letters, Journal of Geophysical ResearchSCI期刊,审稿人

  

获奖情况

2018年,我国邻近海域海气相互作用特征、机制及其影响,江苏省科学技术奖,中国

2014年,中国气象局首批青年英才,中国

  

发表论文(代表性论文)

1.Zhao, J. W., Zhan, R.-F.*, Y. Wang, and Haiming Xu, 2018: Contribution of Interdecadal Pacific Oscillation to the recent abrupt decrease in tropical cyclone genesis frequency over the western North Pacific since 1998. Journal of Climate, 31, 82118224, doi.org/10.1175/JCLI-D-18-0202.1.

2.Zhao, J. W., Zhan, R.-F.*, and Y. Wang, 2018: Global warming hiatus contributed to the increased occurrence of intense tropical cyclones in the coastal regions along East Asia. Scientific Reports, 8, 6023, doi:10.1038/s41598-018-24402-2.

3.Zhan, R.-F., B. D. Chen, and Y. H. Ding, 2018: Impacts of SST anomalies in the Indian-Pacific basin on the Northwest Pacific tropical cyclone activities during three Super El Niño years. Journal of Oceanology and Limnology, 36(1), 20-32, doi: 10.1007/s00343-018-6312-9.

4.Zhan, R.-F., Y. Wang, and J. W. Zhao, 2017: Intensified mega-ENSO increased the proportion of intense tropical cyclones over the western Northwest Pacific since the late 1970s. Geophysical Research Letters, 44(23), 11,95911,966, doi: 10.1002/2017GL075916.

5.Zhan, R.-F., Y. Wang, and Q. Y. Liu, 2017: Salient differences in tropical cyclone activity over the western North Pacific between 1998 and 2016. Journal of Climate, 30:24, 9979-9997, doi: 10.1175/JCLI-D-17-0263.1.

6.Zhan, R.-F., and Y. Wang, 2017: Weak tropical cyclones dominate the poleward migration of the mean location of lifetime maximum intensity of Northwest Pacific tropical cyclones since 1980. Journal of Climate, 30:17, 6873-6882, doi: 10.1175/JCLI-D-17-0019.1.

7.Zhan, R.-F. and Y. Wang, 2016: CFSv2-Based Statistical Prediction for Seasonal Accumulated Cyclone Energy (ACE) over the Western North Pacific. Journal of Climate, 29:2, 525-541.

8.Zhao, J. W., R.-F. Zhan*, and Y. Wang, 2016: Intensified Interannual Relationship between Tropical Cyclone Genesis Frequency over the Northwest Pacific and the SST Gradient between the Southwest Pacific and the Western Pacific Warm Pool since the Mid-1970s. Journal of Climate, 29:10, 3811-3830, doi: 10.1175/JCLI-D-15-0729.1.

9.Zhan R.-F., Y. H. Ding, L. G. Wu, X. T. Lei. 2016: Role of ENSO in the interannual relationship between Tibetan Plateau winter snow cover and Northwest Pacific tropical cyclone genesis frequency. Science China Earth Sciences, 59(10): 2009-2021, doi: 10.1007/s11430-015-5559-y (占瑞芬, 丁一汇, 吴立广, 雷小途. 2016. ENSO在青藏高原积雪与西北太平洋热带气旋生成频数关系中的作用. 中国科学: 地球科学, 46:1358-1370, doi: 10.1360/N072015-00559)

10.Zhan, R.-F., Y. Wang, and L. Tao, 2014: Intensified impact of East Indian Ocean SST anomaly on tropical cyclone genesis frequency over the western North Pacific. Journal of Climate, 27, 87248739.

11.Zhan, R.-F., M. Ying, and P. Y. Chen, 2013: On tropical cyclone activity over the western North Pacific in 2012. Tropical cyclone Res. Rev., 2(1), 35-44.

12.Zhan, R.-F., Y. Wang, and M. Wen, 2013: The SST gradient between the Southwest Pacific and the western Pacific warm pool  A new factor controlling the Northwest Pacific tropical cyclone genesis frequency. Journal of Climate, 26(7), 2408-2415.

13.Zhan, R.-F., Y. Wang, and M. Ying, 2012: Seasonal forecasts of tropical cyclone activity over the western North Pacific: A review. Tropical cyclone Res. Rev., 1, 307-324.

14.占瑞芬,李建平,2012:亚洲夏季平流层-对流层水汽交换年际变化与亚洲夏季风的联系,地球物理学报,55(10), 3181-3193.

15.Zhan, R.-F., and Y. Wang, 2012: Contribution of tropical cyclones to stratosphere-troposphere exchange over the Northwest Pacific: An estimation based on AIRS and reanalysis. J. Geophys. Res., 117, D12112, doi:10.1029/2012JD017494.

16.Wu, C.-C., R.-F. Zhan, Y. Lu, and Y. Wang, 2012: Internal variability of the dynamically downscaled tropical cyclone activity over the western North Pacific by the IPRC regional climate model. Journal of Climate,25, 2123-2128.

17.Zhan, R.-F., Y. Wang, and C.-C. Wu, 2011: Impact of SSTA in East Indian Ocean on the frequency of Northwest Pacific tropical cyclones: A regional atmospheric model study, Journal of Climate, 24, 6227-6242.

18.Zhan, R.-F., Y. Wang, and X.-T. Lei, 2011: Contributions of ENSO and East Indian Ocean SSTA to the interannual variability of Northwest Pacific tropical cyclone frequency. Journal of Climate, 24, 509-521

19.Zhan, R.-F., and J. Li, 2008: Influence of atmospheric heat sources over the Tibetan Plateau and the tropical western North Pacific on the inter-decadal variations of the stratosphere-troposphere exchange of water vapor. Science in China, Ser D. 51(8), 1179-1193(中文版:占瑞芬, 李建平,2008: 青藏高原和热带西北太平洋大气热源在亚洲地区夏季平流层-对流层水汽交换的年代际变化中的作用, 中国科学(D), 38(8), 1028-1040.

20.Zhan, R.-F., J. Li, J. He, and Q. Li, 2008: A case study of double ridges of subtropical high over the western north Pacific: The role in the 1998 second Mei-yu over the Yangtze River valley. J. Meteor. Soc. Japan, 86(1), 167-181.

  

出版书籍

占瑞芬,雷小途,汤杰,2018: 台风群发的成因,见《10000个科学难题.海洋科学卷》,北京:科学出版社,180-183


#以上信息由本人提供,更新时间:2019/01/11