首页  中国海洋大学筑峰人才工程

甘波澜 / GAN Bolan

教授,博士生导师

出生年月:1988.02

研究方向:物理海洋、海-气相互作用与气候变化

联系方式:gbl0203@ouc.edu.cn

个人履历:

        2010年本科毕业于中国海洋大学海洋科学专业,2014年获得中国海洋大学物理海洋专业博士学位;2014-2016年,中国海洋大学,物理海洋教育部重点实验室,讲师;2017-2019年,中国海洋大学,物理海洋教育部重点实验室,副教授;2020-2024年,中国海洋大学,物理海洋教育部重点实验室,“青年英才工程”第一层次教授;2025-至今,中国海洋大学,物理海洋教育部重点实验室,“筑峰人才工程”第三层次教授;2021-至今,中国海洋大学,未来海洋学院,副院长;2017/11-至今, 美国Woods Hole海洋研究所, 物理海洋系, Long Term Guest Investigator。

        国家自然科学基金优秀青年基金获得者;第六届中国青年科技工作者协会理事;国际“气候与海洋:变率、可预测性及变化”研究计划(CLIVAR)科学指导委员会(Scientific Steering Group)委员;中国海洋湖沼学会海洋与气候分会理事;国际气象学与大气科学协会(IAMAS)中国委员会委员;美国气象学会(AMS)期刊 Journal of Climate副主编;Springer Nature旗下期刊Discover Oceans编委。



研究方向及成果:

  研究方向和兴趣包括:中纬度多尺度海-气相互作用机理及效应,热带外-热带相互作用,海洋环流对人类活动的响应与反馈,人类活动与自然变率对区域气候的影响。目前在Nature Climate Change、National Science Review、Science Advances、Journal of Climate、Journal of Physical Oceanography等国际一流期刊发表SCI论文50余篇,被Nature和Science系列期刊、PNAS等SCI期刊总引用3000余次。相关研究成果获2016年教育部自然科学一等奖,入选2019年度中国高等学校十大科技进展、2021年度和2023年度中国海洋与湖沼十大科技进展。个人获得山东省优秀博士论文、山东省教育系统女职工建功立业标兵等荣誉,指导博士研究生获得国家自然科学基金委博士生项目、国家博士后创新人才支持计划资助。

  主要创新成果包括:系统阐明了全球副热带西边界流及其延伸体区大尺度海温低频变异与风暴轴的耦合关系及机理;提出了海洋中尺度涡驱动的海气耦合年代际振荡新机制,首次指出海洋中尺度动力过程增强PDO及其可预测性;首次阐明了海洋中尺度动力过程对大气的强迫效应在副热带模态水形成中的关键作用;揭示了黑潮延伸体区多尺度动力过程调控海洋CO2吸收的机理及效应;阐明了北太平洋海气系统平均态变化对ENSO时空特征的低频调制以及海洋中小尺度过程对ENSO模拟的重要性;发现全球变暖对阿留申低压、太平洋-北美遥相关的强化作用,阐明了气候增暖下热带太平洋热动力过程变化及其对中纬度区域变化的重要影响。



代表性论著:

34. Gan, B.* et al., 2026: Oceanic mesoscale eddies enhance the Pacific Decadal Oscillation and its predictability. Science Advances, in press 

33. Xie, Y., B. Gan*, and L. Wu, 2026: Emerging human-induced changes in the Southern Hemisphere ocean surface winds. npj Climate and Atmospheric Science, in press

32. Wang, X., B. Gan*, L. Wu, and H. Wang, 2026: Future weakening of the Kuroshio Extension decadal variability revealed by an eddy‐resolving global climate model. Geophysical Research Letters, 53(4), e2025GL118480.

31. Li, Y., B. Gan*, R. Zhu, X. Chen, Y. Cui, H. Wang, and L. Wu, 2026: Significance of Atlantic sea surface temperature anomalies to Arctic sea ice variability revealed by deep learning. npj Climate and Atmospheric Science, 9(70).

30. Zeng, R., J. Cai*, H. Yang*, B. Gan*, J. Yu, and X. Zhang, 2026: Intensified western boundary currents in South China Sea under global warming. Journal of Geophysical Research: Oceans, 131(1), e2025JC022920.

29. Li, X., and B. Gan*, 2025: Modulation of oceanic CO2 uptake by the Kuroshio Extension bimodal states. Geophysical Research Letters, 52(12), e2025GL116195.

28. Li, X., B. Gan*, Z. Zhang, Z. Cao, B. Qiu, Z. Chen, and L. Wu, 2025: Oceanic uptake of CO2 enhanced by mesoscale eddies. Science Advances, 11(24), eadt4195.

27. Yu, J., B. Gan*, H. Yang, Z. Chen, L. Xu, and L. Wu, 2024: Mesoscale ocean-atmosphere coupling effects on the North Pacific subtropical mode water. Journal of Physical Oceanography, 54, 1467-1488.

26. Gu, P., B. Gan*, W. Cai, H. Wang and L. Wu, 2024: Future slower reduction of anthropogenic aerosols enhances extratropical ocean surface warming trends. Geophysical Research Letters, 51, e2023GL107772.

25. Gu, P., B. Gan*, W. Cai, and L. Wu, 2024: Role of External Forcing in the Time-varying Trends of Global-mean Surface Temperature under Current and Future Climates. Environmental Research Letters, 19, 044038.

24. Liu, B., B. Gan*, F. Jia*, and L. Wu, 2024: Impact of the North Pacific Meridional Mode on the Tropical Pacific Modulated by the Interdecadal Pacific Oscillation. Journal of Climate. 37, 2199-2216, https://doi.org/10.1175/JCLI-D-23-0448.1.

23. Geng, T., F. Jia*, W. Cai*, L. Wu, B. Gan, Z. Jing, S. Li and M. J. McPhaden, 2023: Increased occurrences of consecutive La Niña events under global warming. Nature, 619, 774-781.

22. Gan, B.*#, J. Yu#, L. Wu, G. Danabasoglu, R. J. Small, A. H. Baker, F. Jia, Z. Jing, X. Ma, H. Yang, and Z. Chen, 2023: North Atlantic subtropical mode water formation controlled by Gulf Stream fronts.  National Science Review, 10(9), nwad133.

21. Gan, B.*#, T. Wang#, L. Wu, J. Li, B. Qiu, H. Yang, and L. Zhang, 2023: A Mesoscale Ocean–Atmosphere Coupled Pathway for Decadal Variability of the Kuroshio Extension System. Journal of Climate, 36, 485-510.

20. Li Y., L. Zhang, B. Gan*, H. Wang, X. Li, and L. Wu, 2023: Observed contribution of Barents-Kara sea ice loss to warm Arctic-cold Eurasia anomalies by submonthly processes in winter. Environmental Research Letters, 18, 034019.

19. Liu, B., B. Gan*, W. Cai, L. Wu, T. Geng, H. Wang, S. Wang, Z. Jing, and F. Jia, 2022: Will increasing climate model resolution be beneficial for ENSO simulation? Geophysical Research Letters, 49, e2021GL096932.

18. Jia, F., W. Cai*, B. Gan, L. Wu*, and E. Di Lorenzo, 2021: Enhanced North Pacific impact on El Niño/Southern Oscillation under greenhouse warming. Nature Climate Change, 11, 840–847. https://doi.org/10.1038/s41558-021-01139-x

17. Zhang, L., B. Gan*, X. Li, H. Wang, C.-Y. Wang, W. Cai, and L. Wu, 2021: Remote influence of the midlatitude South Atlantic variability in spring on Antarctic summer sea ice. Geophysical Research Letters, 48, e2020GL090810.

16. Yu, J., B. Gan*, Z. Jing, and L. Wu, 2020: Winter Extreme Mixed Layer Depth South of the Kuroshio Extension. Journal of Climate, 33, 10419-10436.

15. Zhang, L., B. Gan*, H. Wang, L. Wu, and W. Cai, 2020: Essential Role of the Midlatitude South Atlantic Variability in Altering the Southern Hemisphere Summer Storm Tracks. Geophysical Research Letters, 47, e2020GL087910.

14. Li, S., L. Wu*, Y. Yang, T. Geng, W. Cai*, B. Gan, Z. Chen, Z. Jing, G. Wang, and X. Ma, 2019: The Pacific Decadal Oscillation less predictable under greenhouse warming. Nature Climate Change,doi:10.1038/s41558-019-0663-x

13. Jia, F., W. Cai*, L. Wu*, B. Gan, G. Wang, F. Kucharski, P. Chang, and N. Keenlyside, 2019: Weakening Atlantic Niño-Pacific connection under greenhouse warming. Science Advances, 5, eaax4111.

12. Gan, B.*, Y.-O. Kwon, T. Joyce, K. Chen, L. Wu, 2019: Influence of the Kuroshio interannual variability on the summertime precipitation over the East China and adjacent area.Journal of Climate, 32, 2185-2205.

11. Cai, W., L. Wu*, … B. Gan, et al., 2019: Pantropical climate interactions. Science, 363, 1-11.

10. Zhang, L., B. Gan*, L. Wu, W. Cai and H. Ma, 2018: Seasonal Dependence of Coupling between Storm Tracks and Sea Surface Temperature in the Southern Hemisphere Midlatitudes: A Statistical Assessment. Journal of Climate, 31, 4055-4074.

9. Cai, W.*, G. Wang, B. Gan, L. Wu*, A. Santoso, X. Lin, Z. Chen, F. Jia and T. Yamagata, 2018: Stabilised frequency of extreme positive Indian Ocean Dipole under 1.5 °C warming. Nature Communications, 9, 1419.

8. Chen, Z., B. Gan*, L. Wu and F. Jia, 2018: Pacific-North American Teleconnection and North Pacific Oscillation: Historical Simulation and Future Projection in CMIP5 models. Climate Dynamics, 50, 4379-4403.

7. Wang G., W. Cai*, B. Gan, L. Wu*, A. Santoso, X. Lin, Z. Chen and M. McPhaden, 2017: Continued increase of extreme El Niño frequency long after 1.5˚C warming stabilization, Nature Climate Change,7, 568-572.

6. Gan, B.*, L. Wu, F. Jia, S. Li, W. Cai, H. Nakamura, M. A. Alexander, and A. J. Miller, 2017: On the Response of the Aleutian Low to Greenhouse Warming. Journal of Climate, 30, 3907-3925.

5. Gan, B.*, and L. Wu, 2015: Feedbacks of Sea Surface Temperature to Wintertime Storm Tracks in the North Atlantic. Journal of Climate, 28, 306-323.

4. Gan, B.*, and L. Wu2014: Centennial Trends in Northern Hemisphere Winter Storm Tracks over the Twentieth Century. Quarterly Journal of the Royal Meteorological Society,140, 1945-1957.

3. Gan, B., and L. Wu*,2013: Seasonal and Long-term Associations between Wintertime Storm Tracks and Sea Surface Temperature in the North Pacific. Journal of Climate, 26, 6123-6136.

2. Gan, B., and L. Wu*, 2012: Modulation of Atmospheric Response to North Pacific SST Anomalies under Global Warming: A Statistical Assessment. Journal of Climate, 25, 6554-6566.

1. Gan, B., and L. Wu*, 2012: Possible Origins of the Western Pacific Warm Pool Decadal Variability.Advances in Atmospheric Sciences, 29, 169-176.



*Corresponding author

https://www.researchgate.net/profile/Bolan_Gan


联系方式:

  山东省青岛市崂山区松岭路238号中国海洋大学物理海洋教育部重点实验室 邮编:266100

  Email: gbl0203@ouc.edu.cn