主要从事深海动力过程研究、实时潜标装备研发、海洋组网观测等工作。围绕吕宋海峡深水瀑布、南海及菲律宾海深层环流的时空特征及机理研究取得系列成果；主持研发了海洋环境实时监测潜标，多次作为航次首席科学家执行国家基金委共享航次、海洋局专项水体调查航次等大型综合航次，航次涉及西太平洋、南海、东印度洋、北大西洋等，作为骨干参与中国海洋大学“南海立体观测网”、“两洋一海”立体观测网的构建。

· 主持部分项目：

1. 2024-2025年，国家自然科学基金共享航次，共享航次计划2023年度南海东北部-吕宋海峡科学考察实验研究（航次编号：NORC2024-05，首席科学家）

2. 2023-2026年，海南省重点研发项目，海洋复杂地形无人机、艇协同组网测量技术研究

3. 2022-2023年，国家自然科学基金共享航次，共享航次计划2021年度南海东北部-吕宋海峡科学考察实验研究（航次编号：NORC2022-05，首席科学家）

4. 2021-2024年，国家自然科学基金面上项目，菲律宾海深层环流时空特征及其调控机理

5. 2021-2025年，国家重点研发计划项目课题，××××观测网××××

6. 2017-2020年，国家重点研发计划项目课题，浮子式准实时通讯潜标系统集成测试与应用

7. 2017-2019年，国家自然科学基金青年基金，菲律宾海深层西边界流时空特征及其对吕宋海峡深层流的调控作用

· 科研奖励与称号：

1. 2023年，泰山学者青年专家

2. 2023年，第十届海南省青年科技奖

3. 2023年，国家级教学成果奖二等奖，矢志“谋海济国”的高层次海洋创新人才培养体系探索与实践（12/14）

4. 2023年，2022年度中国海洋与湖沼十大科技进展，“南海立体观测网”的构建与信息保障应用取得重要突破，完成人：赵玮、蒋兴伟、周春、王延辉、田纪伟 

5. 2022年，海南省教学成果奖一等奖，围绕“海洋科技实现高水平自立自强” 的复合型海洋人才培养（3/10） 

6. 2020年，2019年度军队科学技术进步一等奖（4/12）

7. 2018年，2017年度中国海洋与湖沼十大科技进展，“南海潜标观测网”成功实现南海深海盆全覆盖，完成人：田纪伟、赵玮、周春、杨庆轩、黄晓冬、张志伟

· 发表论文：

2024：

55. Wang, Y., Guan, S., Zhang, Z., Zhou, C., Xu, X., Guo, C., Zhao, W., Tian, J. (2024) Observations of Parametric Subharmonic Instability of Diurnal Internal Tidesin the Northwest Pacific. Journal of Physical Oceanography.

2023：

54. Zhou, C., Xiao, X., Zhao, W^*., Yang, J., Huang, X., Guan, S., Zhang, Z., & Tian, J^*. (2023). Increasing deep-water overflow from the Pacific into the South China Sea revealed by mooring observations.Nature Communications,14:2013.

53. Xiao, X., Zhou, C^*., Yang, Q., Jing, Z., Liu, Z., Yuan, D., Xu, Z., Zhao, W., & Tian, J. (2023). Diapycnal Upwelling Over the Kyushu-Palau Ridge in the North Pacific Ocean.Geophysical Research Letters,50: e2023GL104369.

52. Lu, W., Zhou, C^*., Zhao, W., Zhang, C., Geng, T., Xiao, X. (2023). Comparing the Contributions of Temperature and Salinity Changes to the AMOC Decline at 26.5°N.Journal of Physical Oceanography, 53(4): 1107-1122.

51. Xu, Q., Zhang^*, L., Xiao, X., Zhou, C^*., Wang, F., & Hu, D.(2023) Seasonal Link Between Deepwater Overflow Through the Luzon Strait and Deep Western Boundary Current in the Philippine Sea.Geophysical Research Letters,50: e2023GL105405.

50. 王廷浩，周春^*，成佳俊，彭贤涛. (2023) 基于多数据集的菲律宾海深层环流研究. 中国海洋大学学报(自然科学版), 53(5): 32-46.

49. 张冬青，周春^*，赵小龙，邹童. (2023) 基于Argo浮标的北太平洋中层环流时空特征研究. 中国海洋大学学报(自然科学版), 53(7): 1-9.

48. 曲宝洋，周春^*.(2023) 多层海洋背景下的位涡均一化理论研究. 中国海洋大学学报(自然科学版), 53(9): 19-26.

47. Xu, Q., Zhou, C., Zhang, L., Wang, F., Zhao, W., & Hu, D. (2023). Variability of the Deep Western Boundary Current in the Northern Philippine Sea.Journal of Physical Oceanography,53(8): 2029-2041.

46. Yang, Y., Huang, X., Zhao, W., Zhou, C., Zhang, Z., Guan, S., & Tian, J. (2023) Kelvin waves from the equatorial Indian Ocean modulate the nonlinear internal waves in the Andaman Sea.Environmental Research Letters,18: 094037.

45. Sun, Z., Zhang, Z., Huang, R., Gan, J., Zhou, C., Zhao, W., Tian, J. (2023). Novel Insights into the Zonal Flow and Transport in the Luzon Strait Based on Long-Term Mooring Observations.Journal of Geophysical Research: Oceans, 128: e2022JC019017.

44. Sun, Z., Zhang, Z., Li, C., Yuan, D., Yuan, Q., Lu, W., Liu, Y., Zhou, C., Wang, J., Yang, Y., Zhao, W., & Tian, J. (2023) Mooring measurements of full-depth zonal currents along 143°E meridian in the northwestern Pacific Ocean.Journal of Physical Oceanography,10.1175/JPO-D-22-0210.1.

2022：

43. Xu, Q., Zhou, C^*., Zhao, W., Hu, Q., Xiao, X., Zhang, D., Yang, F., Huang, X., and Tian, J., (2022). Dynamics of the Baroclinic Rossby Waves Regulating the abyssal South China Sea, Journal of Physical Oceanography. doi: 10.1175/JPO-D-21-0207.1.

42. Zhou, C., Xu, H., Xiao, X., Zhao, W., Yang, J., Yang, Q., ... & Tian, J. (2022). Intense abyssal flow through the Yap‐Mariana Junction in the western North Pacific. Geophysical Research Letters, e2021GL096530.

41. Ye, R., X. Shang, W. Zhao, Zhou C^*., Q. Yang, Z. Tian, Y. Qi, C. Liang, X. Huang, Z. Zhang, S. Guan, J. Tian (2022). Circulation Driven by Multihump Turbulent Mixing Over a Seamount in the South China Sea. Frontiers in Marine Science.

40. 邹童，徐勤博，周春^*，张冬青. (2022) 南海中尺度涡对深层流调控作用的个例研究. 海洋与湖沼, 53(06): 1299-1310.

39. Hu Q.，Huang X^*., Xu Q.,Zhou C., Guan S., Xu X., Zhao W., Yang Q., Tian J. (2022). Parametric Subharmonic Instability of Diurnal Internal Tides in the Abyssal South China Sea. Journal of Physical Oceanography.

38. Yang, Y., Huang, X., Zhou, C., Zhang, Z., Zhao, W., Tian, J. (2022). Three-dimensional structures of internal solitary waves in the northern south China sea revealed by mooring array observations. Progress in Oceanography.

37.Sun, Z., Zhang, Z., Qiu, B., Zhou, C., Zhao, W., & Tian, J. (2022). Subsurface mesoscale eddies observed in the northeastern South China Sea: dynamic features and water mass transport. Journal of Physical Oceanography.

36. 陈朝晖,吴立新,林霄沛,马昕,管延锋,周春,张岳奇,马克.(2022).西北太平洋黑潮延伸体观测回顾和展望.地学前缘:1-12. DOI:10.13745/j.esf.sf.2021.3.16.

35. Huang, X., Huang, S., Zhao, W., Zhang, Z., Zhou, C., & Tian, J. (2022). Temporal variability of internal solitary waves in the northern South China Sea revealed by long-term mooring observations. Progress in Oceanography, 201, 102716.

34. Xu, X., Zhao, W., Huang, X., Hu, Q., Guan, S., Zhou, C., Tian, J. (2022) Observed Near-Inertial Waves Trapped in a Propagating Anticyclonic Eddy.Journal of Physical Oceanography. 52 (9), 2029-2047

33. Gao, C., Liang, Y., Jiang, Y., ... Zhou, C., ... Wang Min. (2022). Virioplankton assemblages from challenger deep, the deepest place in the oceans. iScience (8), 104680-104680.

2021：

32. Tian, Z., Zhou, C^*., Xiao, X., Wang, T., Qu, T., Yang, Q., … & Tian, J. (2021). Water‐Mass Properties and Circulation in the Deep and Abyssal Philippine Sea. Journal of Geophysical Research: Oceans, 126(6), e2020JC016994.

31. Yang, Y., Huang, X., Zhao, W., Zhou, C., Huang, S., Zhang, Z., & Tian, J. (2021). Internal Solitary Waves in the Andaman Sea Revealed by Long-term Mooring Observations. Journal of Physical Oceanography. 51 (12), 3609-3627

30. Miao, M., Zhang, Z., Qiu, B., Liu, Z., Zhang, X., Zhou, C., ... & Tian, J. (2021). On contributions of multiscale dynamic processes to the steric height in the northeastern South China Sea as revealed by moored observations. Geophysical Research Letters, 48(14), e2021GL093829.

29. Li, F., Lozier, M. S., Bacon, S., Bower, A. S., Cunningham, S. A., de Jong, M. F., … & Zhou, C. (2021). Subpolar North Atlantic western boundary density anomalies and the Meridional Overturning Circulation. Nature communications, 12(1), 1-9.

28. Guan, S., Zhao, W., Sun, L., Zhou, C., Liu, Z., Hong, X., & Hou, Y. (2021). Tropical cyclone-induced sea surface cooling over the Yellow Sea and Bohai Sea in the 2019 Pacific typhoon season. Journal of Marine Systems, 217, 103509.

27. Zhang, Z., Zhang, X., Qiu, B., Zhao, W., Zhou, C., Huang, X., & Tian, J. (2021). Submesoscale currents in the subtropical upper ocean observed by long-term high-resolution mooring arrays. Journal of Physical Oceanography, 51(1), 187-206.

26. Li, F., Lozier, MS., Bacon, S., Cunningham, SA., Bower, AS., de Jong, MF & Zhou, C. (2021) Meridional Heat and Salinity Transports and the Surface FreshwaterExchange Derived from the Overturning in the Subpolar North AtlanticProgram (OSNAP) Array between August. Georgia Institute of Technology.

25. Li, F., Lozier, MS., Bacon, S., Bower, AS., Cunningham, SA., de Jong, MF ... Zhou， C. Subpolar North Atlantic western boundary density anomalies and the Meridional Overturning Circulation, Nature. Communications., 12, 3002

2020：

24. Zhao, X., Zhou, C^*., Xu, X., Ye, R., & Zhao, W. (2020). Deep circulation in the South China Sea simulated in a regional model. Ocean Dynamics, 70(11), 1461-1473.

23. Wang, M., Gao, C., Liang, Y., Jiang, Y., Paez-Espino, D., Han, M., … Zhou, C., & Suttle, C. A. (2020). Unveiling the Ocean Viromes of Challenger Deep, the Deepest Place in the World’s Oceans.

22. Shan, S., Qi, Y., Tian, J., Wang, X., Luo, C., Zhou, C., ... & Wang, Y. (2020). Carbon cycling in the deep Mariana Trench in the western north Pacific Ocean: Insights from radiocarbon proxy data. Deep Sea Research Part I: Oceanographic Research Papers, 164, 103370.

21. Sun, Z., Zhang, Z., Qiu, B., Zhang, X., Zhou, C., Huang, X., ... & Tian, J. (2020). Three-dimensional structure and interannual variability of the Kuroshio Loop Current in the northeastern South China Sea. Journal of Physical Oceanography, 50(9), 2437-2455.

20. Hu, Q., Huang, X., Zhang, Z., Zhang, X., Xu, X., Sun, H., Zhou, C., Zhao, W., & Tian, J. (2020). Cascade of internal wave energy catalyzed by eddy‐topography interactions in the deep South China Sea. Geophysical Research Letters, 47(4), e2019GL086510.

19. Wang, Z., Huang, X., Yang, Y., Zhang, Z., Zhou, C., Zhao, W., & Tian, J. (2020). Impacts of subtidal motions and the earth rotation on modal characteristics of the semidiurnal internal tide. Journal of Oceanography, 76(1), 15-27.

18. Sun Z., Zhang Z., Qiu B., Huang X., Zhou C., Zhao W., Tian J. (2020) The Kuroshio Loop Current west of Luzon Strait observed by the long-termSouth China Sea Mooring Array. Ocean Sciences Meeting.

17. 于非,陈永华,周春,张孝薇,邓锴,韩云峰,刘岩松,刘庆奎,王蓓,胡贺岗,姜静波,倪佐涛,姜斌,李晓龙.(2020).国产深海准实时传输潜标系统设计.海洋科学,44(07):194-200.

2019：

16. Ye, R., Zhou, C^*., Zhao, W., Tian, J., Yang, Q., Huang, X., ... & Zhao, X. (2019). Variability in the deep overflow through the Heng-Chun Ridge of the Luzon Strait. Journal of Physical Oceanography, 49(3), 811-825.

15. Pujari, L., Wu, C., Kan, J., Li, N., Wang, X., Zhang, G., Shang, X., Wang, M., Zhou, C., Sun, J. (2019) Diversity and spatial distribution of chromophytic phytoplankton in the Bay of Bengal revealed by RuBisCO genes (rbcL). Frontiers in microbiology, 10, 1501.

14. Zhang, Z., Liu, Z., Richards, K., Shang, G., Zhao, W., Tian, J., ... & Zhou, C. (2019). Elevated diapycnal mixing by a subthermocline eddy in the western equatorial Pacific. Geophysical Research Letters, 46(5), 2628-2636.

2018：

13. Zhou, C., Zhao, W., Tian, J., Yang, Q., Huang, X., Zhang, Z., & Qu, T. (2018). Observations of deep current at the western boundary of the northern Philippine Basin. Scientific reports, 8(1), 1-10.

12. Huang, X., Wang, Z., Zhang, Z., Yang, Y., Zhou, C., Yang, Q., ... & Tian, J. (2018). Role of mesoscale eddies in modulating the semidiurnal internal tide: Observation results in the northern South China Sea. Journal of Physical Oceanography, 48(8), 1749-1770.

11. Zhao, J., Bower, A., Yang, J., Lin, X., & Zhou, C. (2018). Structure and formation of anticyclonic eddies in the Iceland Basin. Journal of Geophysical Research: Oceans, 123(8), 5341-5359.

10. Zhang, X., Huang, X., Zhang, Z., Zhou, C.,Tian, J., & Zhao, W. (2018). Polarity variations of internal solitary waves over the continental shelf of the northern South China Sea: Impacts of seasonal stratification, mesoscale eddies, and internal tides. Journal of Physical Oceanography, 48(6), 1349-1365.

9. Zhao J., Bower AS., Yang J., Lin X., Zhou C. (2018) Mesoscale eddies modulate meridional heat flux variability in the subpolarNorth Atlantic. Ocean Sciences Meeting.

2013-2017：

8. Zhou, C., Zhao, W., Tian, J., Zhao, X., Zhu, Y., Yang, Q., & Qu, T. (2017). Deep western boundary current in the South China Sea. Scientific reports, 7(1), 1-7.

7. Zhao J., Bower A., Yang J., Lin X., Zhou C. (2017) Mesoscale eddies control meridional heat flux variability in the subpolarNorth Atlantic. EGU General Assembly Conference Abstracts.

6. Huang, X., Chen, Z., Zhao, W., Zhang, Z., Zhou, C., Yang, Q., & Tian, J. (2016). An extreme internal solitary wave event observed in the northern South China Sea. Scientific reports, 6(1), 1-10.

5. Zhao, X., Zhou, C., Zhao, W., Tian, J., & Xu, X. (2016). Deepwater overflow observed by three bottom-anchored moorings in the Bashi Channel. Deep Sea Research Part I: Oceanographic Research Papers, 110, 65-74.

4. Zhou C., Hodges B., Bower AS., Yang J., Lin X. (2016) Subpolar North Atlantic glider observations for OSNAP. American Geophysical Union, PO44A-3118

3. Zhou, C., Zhao, W., Tian, J., Yang, Q., & Qu, T. (2014). Variability of the deep-water overflow in the Luzon Strait. Journal of Physical Oceanography, 44(11), 2972-2986.

2. Zhao, W., Zhou, C., Tian, J., Yang, Q., Wang, B., Xie, L., & Qu, T. (2014). Deep water circulation in the Luzon Strait. Journal of Geophysical Research: Oceans, 119(2), 790-804.

1. Wang, Z. Y., Zhao, W., Zhou, C., Wang, B., Tian, J. W., & Zhang, J. (2013). The diagnostic analysis of deep water volume transport through the Luzon Strait. Marine Sciences, 04.

· 发明专利授权：  

1. 周春，赵玮，徐铭，田纪伟，杨庆轩，管延锋，秦承志，汪明星，机械式水下定深释放器，ZL201810616595.1，2023.10.24

2. 赵玮，田纪伟，徐铭，周春，杨庆轩，秦承志，管延锋，汤志豪，一种基于压差驱动的机械式触发方法，ZL201810616593.2，2019.12.31

3. 赵玮，田纪伟，徐铭，杨庆轩，周春，秦承志定时卫星通讯潜标，ZL201510243938.0，2016.05.14

4. 田纪伟，赵玮，宋大雷，杨庆轩，周春，秦承志，海洋动力环境多尺度同步观测潜标，ZL201510244120.0，2016.03.09

Research Gate:

https://www.researchgate.net/profile/Chun-Zhou-5

Google Scholar:

https://scholar.google.com/citations?user=YixU5uQAAAAJ&hl=zh-CN

  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: chunzhou@ouc.edu.cn