1. Bian C., Z. Jing*, H. Wang and L. -X. Wu, 2024: Scale‐Dependent Drivers of Marine Heatwaves Globally, Geophysical Research Letters, 51(3), e2023GL107306.

2. Sun D., F. -R. Li*, Z. Jing, S. -J. Hu and B. -H. Zhang, 2023: Frequent Marine Heatwaves Hidden below the Surface of the Global Ocean, Nature Geoscience, 16(12), 1099-1104.

3. Li Z. -R., Z. Jing*, L. -X. Wu, R. Johnson, Z. -B. Yang, Z. Song, Z. -H. Chen, B. -L. Gan and X. -H. Ma, 2023: Enhanced Turbulent Diapycnal Mixing in the Northern Sargasso Sea Inferred from a Finescale Parameterization, Journal of Geophysical Research: Oceans, 128(12), e2023JC020220.

4. Bian C., Z. Jing*, H. Wang, L. -X. Wu, Z. -H. Chen, B. -L. Gan and H. -Y. Yang, 2023: Oceanic Mesoscale Eddies as Crucial Drivers of Global Marine Heatwaves, Nature Communications, 14(1), 2970. 

5. Du T. -S., S. -P. Wang*, Z. Jing, H. Wang and L. -X. Wu, 2023: Greenhouse warming Weakens the Seasonal Cycle of the Eastern Boundary Upwelling, Geophysical Research Letters, 50, e2023GL103857.

6. Hu X., J. Shi*, X. -H. Ma, R. -C. Ding, Z. Jing and Y. Zhang, 2023: Distinct Features of Mid-winter North Pacific Storm Track Suppression Associated with Central and Eastern Pacific El Niños. Atmospheric Research, 289, 106769. https://doi.org/10.1016/j.atmosres.2023.106769.

7. Yang Z. -B., Z. Jing* and X. -M. Zhai, 2023: The Role of Small‐Scale Topography in Modulating Eddy Scale in the Northern South China Sea, Journal of Geophysical Research: Oceans, 128(3).

8. Yang Z. -B., Z. Jing* and X. -M. Zhai, 2023: Greenhouse Warming Reduces Global Energy Conversion into Oceanic Lee Waves, Geophysical Research Letters, 50, e2023GL104467.

9. Zhang X. -Y., Z. Jing* and P. -R. Yang, 2023: Seasonality of Upper-ocean Vertical Eddy Buoyancy Flux in the Kuroshio Extension, Journal of Physical Oceanography, 53(6): 1577-1590. https://doi.org/10.1175/JPO-D-22-0173.1.

10. Wang C. -C., S. -P. Wang*, Z. Jing, T. Geng, H. Wang and L. -X. Wu, 2023: Equatorial Submesoscale Eddies Contribute to the Asymmetry in ENSO Amplitude, Geophysical Research Letters, 50(5): e2022GL101352.

11. Yang Z. -B., Z. Jing* and X. -M. Zhai*, 2023: Energy Sinks for Lee Waves in the Northern South China Sea, Journal of Geophysical Research: Oceans, 128(1): ec2022JC019060.

12. Wang S. -P., Z. Jing*, L. -X. Wu, S. -T. Sun, Q. -H. Peng, H, Wang, Y. Zhang and J. Shi, 2023: Southern Hemisphere Eastern Boundary Upwelling Systems Emerging as Future Marine Heatwave Hotspots under Greenhouse Warming, Nature Communications, 14, 28.

13. Jing Z., S. -P. Wang, L. -X. Wu*, H. Wang, S. -H. Zhou, B. -R. Sun, Z. -H. Chen, X. -H. Ma, B. -L. Gan and H. -Y. Yang, 2023: Geostrophic Flows Control Future Changes of Oceanic Eastern Boundary Upwelling, Nature Climate Change, 13:148-154.

14. Sun D., Z. Jing*, F. -R. Li, L. -X. Wu, 2023: Characterizing Global Marine Heatwaves under a Spatio-temporal Framework, Progress in Oceanography, 211, 102947.

15. Du T. -S., Z. Jing*, L. -X. Wu, H. Wang, Z. -H. Chen, X. -H. Ma, B. -L. Gan and H. -Y. Yang, 2022: Growth of Ocean Thermal Energy Conversion Resources under Greenhouse Warming Regulated by Oceanic Eddies, Nature Communications, 13(1): 7249.  

16. Geng T., W. -J. Cai*, L. -X. Wu*, A. Santoso, G. -J. Wang, Z. Jing, B. -L. Gan, Y. Yang, S. -J. Li, S. -P. Wang, Z. -H. Chen and M. J. McPhaden, 2022: Emergence of Changing Central-Pacific and Eastern-Pacific El Niño-Southern Oscillation in a Wwarming Climate, Nature Communications, 13(1):6616.

17. Wang S. -P., Z. Jing*, L. -X. Wu, W. -J. Cai, T. Geng, P. Chang, G. Danabasoglu, H. Wang, C. C. Wang, Z. -H. Chen, X. -H. Ma, B. -L. Gan and H. -Y. Yang, 2022: Weakened Submesoscale Eddies in the Equatorial Pacific Under Greenhouse Warming, Geophysical Research Letters, 49(21): e2022GL100533.

18. Du T. -S., P. -R. Yang* and Z. Jing, 2022: On the Variability of Vertical Eddy Heat Flux in the Upper Ocean, Acta Oceanologica Sinica, 41(10):94-99.

19. Qu Y. -S., S. -P. Wang*, Z. Jing, H. Wang and L. -X. Wu, 2022: Spatial Structure of Vertical Motions and Associated Heat Flux Induced by Mesoscale Eddies in the Upper Kuroshio‐Oyashio Extension, Journal of Geophysical Research: Oceans, 127(10): e2022JC018781.

20. Yang Z. -B., Z. Jing* and X. -M. Zhai*, 2022: Effect of Small-Scale Topography on Eddy Dissipation in the Northern South China Sea, Journal of Physical Oceanography, 52(10):2397-2416.

21. Yuan M., Z. Song*, Z. Jing, Z. -R. Li and L. -X. Wu, 2022: Distinct Roles of Global Cyclonic and Anticyclonic Eddies in Regulating Near-inertial Internal Waves in the Ocean Interior, Frontiers in Marine Science, 9:949610.

22. Li Q., Z. -H. Chen*, S. Guan, H. -Y. Yang, Z. Jing, Y. -Z. Liu, B. -R. Sun and L. -X. Wu, 2022: Enhanced Near-Inertial Waves and Turbulent Diapycnal Mixing Observed in a Cold- and Warm-Core Eddy in the Kuroshio Extension Region, Journal of Physical Oceanography, 52(8):1849-1866.

23. Xu F., Z. Jing*, P. -R. Yang and S. -H. Zhou, 2022: Vertical Motions Driven by Geostrophic Stress in Surface Boundary Layer Under a Finite Ekman Number Regime, Journal of Physical Oceanography, 52(12):3033-3047.

24. Yang P. -R., Z. Jing*, H. Wang, L. -X. Wu, Y. -H. Chen and S. -H. Zhou, 2022: Role of Frictional Processes in Mesoscale Eddy Available Potential Energy Budget in the Global Ocean, Geophysical Research Letters, 49(13): e2021GL097557.

25. Xu G. -P.*, P. Chang, S. Ramachandran, G. Danabasoglu, S. Yeager, J. Small, Q. -Y. Zhang, Z. Jing and L. -X. Wu, 2022: Impacts of Model Horizontal Resolution on Mean Sea-Surface Temperature Biases in the Community Earth System Model, Journal of Geophysical Research: Oceans, e2022JC019065.

26. Liu B., B. -L. Gan*, W. -J. Cai, L. -X. Wu, T. Geng, H. Wang, S. -P. Wang, Z. Jing and F. Jia, 2022: Will Increasing Climate Model Resolution Be Beneficial for ENSO Simulation? Geophysical Research Letters, 49(11): e2021GL096932.

27. Wang S. -P., Z. Jing*, D. Sun, J. Shi and L. -X. Wu, 2022: A new model for isolating the marine heatwave changes under warming scenarios, Journal of Atmospheric and Oceanic Technology, 39(9): 1353-1366.

28. Wang S. -P., Z. Jing*, L. -X. Wu, H. Wang, J. Shi, Z. -H. Chen, X. -H. Ma, B. -L. Gan, H. -Y. Yang and X. Liu, 2022: Changing Ocean Seasonal Cycle Escalates Destructive Marine Heatwaves in a Warming Climate, Environmental Research Letters, 17(5):054024.

29. Wang S. -P., Z. Jing*, L. -X. Wu, W. -J. Cai, P. Chang, H. Wang, T. Geng, G. Danabasoglu, Z. -H. Chen, X. -H. Ma, B. -L. Gan and H. -Y. Yang, 2022: El Niño/Southern Oscillation Inhibited by Submesoscale Ocean Eddies, Nature Geoscience, 15(2):112-117.

30. Yuan M., Z. Song*, Z. -R. Li, Z. Jing, P. Chang, B. -R. Sun, H. Wang, X. Liu, S. -H. Zhou and L. -X. Wu, 2021: An Improved Parameterization of Wind‐Driven Turbulent Vertical Mixing Based on an Eddy‐Resolving Climate Model, Journal of Advances in Modeling Earth Systems, 13(10): e2021MS002630.

31. Yang P. -R., Z. Jing*, B. -R. Sun, L. -X. Wu, B. Qiu, P. -Chang, S. Ramachandran and C. -X. Yuan, 2021: On the Upper-Ocean Vertical Eddy Heat Transport in the Kuroshio Extension. Part II: Effects of Air-Sea Interactions, Journal of Physical Oceanography, 51(10):3297-3312.

32. Yang Y.*, L. -X. Wu, Y. Guo, B. -L. Gan, W. -J. Cai, G. Huang, X. -C. Li, T. Geng, Z. Jing, S. -J. Li, X. Liang and S. -P. Xie, 2021: Greenhouse warming intensifies north tropical Atlantic climate variability, Science Advances, 7(35): eabg9690.

33. Li D*. -P., P. Chang, S. Ramachandran, Z. Jing, Q. -Y. Zhang, J. Kurian, A. Gopal and H. -Y. Yang, 2021: Contribution of the Two Types of Ekman Pumping Induced Eddy Heat Flux to the Total Vertical Eddy Heat Flux, Geophysical Research Letters, 48(9): e2021GL092982.

34. Sun B. -R., S. -P Wang*, M. Yuan, H. Wang, Z. Jing, Z. -H. Chen and L. -X. Wu, 2021: Energy Flux into Near-Inertial Internal Waves Below the Surface Boundary Layer in the Global Ocean, Journal of Physical Oceanography, 51(7):2315-2328.

35. Yang P. -R., Z. Jing*, B. -R. Sun, L. -X. Wu, B. Qiu, P. Chang and S. Ramachandran, 2021: On the Upper-Ocean Vertical Eddy Heat Transport in the Kuroshio Extension. Part I: Variability and Dynamics, Journal of Physical Oceanography, 51(1):229-246.

36. Yang H. -Y.*, L. -X. Wu, P. Chang, B. Qiu, Z. Jing, Q. -Y. Zhang and Z. -H. Chen, 2020: Mesoscale Energy Balance and Air–Sea Interaction in the Kuroshio Extension: Low-Frequency versus High-Frequency Variability, Journal of Physical Oceanography, 51(3):895-910.

37. Shan X.*, Z. Jing, B. -R. Sun and L. -X. Wu, 2020: Impacts of Ocean Current-atmosphere Interactions on Mesoscale Eddy Energetics in the Kuroshio Extension Region, Geoscience Letters, 7:3.

38. Chang P.*, S. -Q. Zhang*, G. Danabasoglu*, S. G. Yeager, H. -H. Fu, H. Wang, F. S. Castruccio, Y. -H. Chen, J. Edwards, D. Fu, Y. L. Jia, L. C. Laurindo, X. Liu, N. Rosenbloom, D. A. Bailey, X. -H. Duan, A. K. Duviviier, D. -P. Li, Y. -X. Li, R. Neale, A. Stossel, L. Wang, Y. Zhuang, A. Baker, S. Bates, J. Dennis, X. -L. Diao, B. -L. Gan, A. Gopal, D. -N. Jia, Z. Jing, X. -H. Ma, R. Saravanan, W. G. Strand, J. Tao, H. -Y. Yang, X. -Q. Wang, Z. -Q. Wei and L. -X. Wu, 2020: An Unprecedented Set of High-Resolution Earth System Simulations for Understanding Multiscale Interactions in Climate Variability and Change, Journal of Advances in Modeling Earth Systems, 12(12): e2020MS002298.

39. Yu J. -J., B. -L. Gan*, Z. Jing and L. -X. Wu, 2020: Winter Extreme Mixed Layer Depth South of the Kuroshio Extension, Journal of Climate, 33(24):10419-10436.

40. Shan X., Z. Jing*, B. -R. Sun, P. Chang, L. -X. Wu and X. -H. Ma, 2020: Influence of the Ocean Mesoscale Eddy-Atmosphere Thermal Feedback on the Upper-Ocean Haline Stratification, Journal of Physical Oceanography, 50(9):2475-2490.

41. Jing Z., S. -P. Wang, L. -X. Wu*, P. Chang, Q. -Y. Zhang, B. -R. Sun, X. -H. Ma, B. Qiu, J. Small, F. -F. Jin, Z. -H. Chen, B. -L. Gan, Y. Yang, H. -Y. Yang and X. -Q. Wan, 2020: Maintenance of Mid-latitude Oceanic Fronts by Mesoscale Eddies, Science Advances, 6(31):eaba7880.

42. Li S. -J., L. -X. Wu*, Y. Yang, T. Geng, W. -J. Cai*, B. -L. Gan, Z. -H. Chen, Z. Jing, G. -J. Wang and X. -H. Ma, 2020: The Pacific Decadal Oscillation Less Predictable under Greenhouse Warming, Nature Climate Change, 10(1):30-34.

43. Shan X., Z. Jing*, B. -L. Gan, L. -X. Wu, P. Chang, X. -H. Ma, S. -P. Wang, Z. -H. Chen and H. -Y. Yang, 2020: Surface Heat Flux Induced by Mesoscale Eddies Cools the Kuroshio‐Oyashio Extension Region, Geophysical Research Letters, 47(1): e2019GL086050.

44. Wang S. -P., Z. Jing*, Q. -Y. Zhang, P. Chang, Z. -H. Chen, H. -L. Liu and L. -X. Wu, 2019: Ocean Eddy Energetics in the Spectral Space as Revealed by High-Resolution General Circulation Models, Journal of Physical Oceanography, 49(11):2815-2827.

45. d’Ovidio F.*, A. Pascual, J. -B. Wang, A. M. Doglioli, Z. Jing, S. Moreau, G. Gregori, S. Swart, S. Speich, F. Cyr, B. Legresy, Y. Chao, L. Fu and R. A. Morrow, 2019: Frontiers in Fine-Scale in situ Studies: Opportunities during the SWOT Fast Sampling Phase, Frontiers in Marine Science, 6:168.

46. Jing Z.*, P. Chang, X. Shan, S. -P. Wang, L. -X. Wu and J. Kurian, 2019: Mesoscale SST Dynamics in the Kuroshio-Oyashio Extension Region, Journal of Physical Oceanography, 49(5):1339-1352.

47. Liu Y. -Z., Z. Jing* and L. -X. Wu, 2019: Wind Power on Oceanic Near-Inertial Oscillations in the Global Ocean Estimated from Surface Drifters, Geophysical Research Letters, 46(5): 2647-2653.

48. Song Z., Z. Jing* and L. -X. Wu, 2018: Online Isolation of Near-Inertial Internal Waves in Ocean General Circulation Models, Ocean Modelling, 134:30-41.

49. Yang P. -R., Z. Jing* and L. -X. Wu, 2018: An Assessment of Representation of Oceanic Mesoscale Eddy-Atmosphere Interaction in the Current Generation of General Circulation Models and Reanalyses, Geophysical Research Letters, 45(4):11856-11865.

50. Jing, Z.*, P. Chang, S. F. Dimarco and L. -X. Wu, 2018: Observed Energy Exchange between Low-Frequency Flows and Internal Waves in the Gulf of Mexico, Journal of Physical Oceanography, 48(4):995-1008.

51. Wang S. -P., Z. Jing*, H. -L. Long and L. -X. Wu, 2018: Spatial and Seasonal Variations of Submesoscale Eddies in the Eastern Tropical Pacific Ocean, Journal of Physical Oceanography, 48(1):101-116.

52. Liu Y. -Z.*, Z. Jing and L. -X. Wu, 2017: The Variation of Turbulent Diapycnal Mixing at 18°N in the South China Sea Stirred by Wind Stress, Acta Oceanologica Sinica, 36(5):26-30.

53. Li F. -R., H. -Y. Sang and Z. Jing*, 2017: Quantify the Continuous Dependence of SST-Turbulent Heat Flux Relationship on Spatial Scales: Dependence of T-Q Relationship on Scales, Geophysical Research Letters, 44(12):6326-6333.

54. Li R.*, Z. Jing, Z. -H. Chen and L. -X. Wu, 2017: Response of the Kuroshio Extension path state to near‐term global warming in CMIP5 experiments with MIROC4h, Journal of Geophysical Research: Oceans, 122(4):2871-2883.

55. Xu L. -X.*, S. -P. Xie, Z. Jing, L. -X. Wu, Q. -Y. Liu, P. -L. Li and Y. Du, 2017: Observing Subsurface Changes of Two Anticyclonic Eddies Passing over the Izu-Ogasawara Ridge: Changes of Eddies Passing over Izu Ridge, Geophysical Research Letters, 44(4):1857-1865.

56. Jing Z.*, L. -X. Wu and X. -H. Ma, 2017: Energy Exchange between the Mesoscale Oceanic Eddies and Wind-Forced Near-Inertial Oscillations, Journal of Physical Oceanography, 47(3):721-733.

57. Jing Z.*, L. -X. Wu, X. -H. Ma and P. Chang, 2016: Overlooked Role of Mesoscale Winds in Powering Ocean Diapycnal Mixing, Scientific Reports, 6(1):37180.

58. Jing Z.* and P. Chang, 2016: Modulation of Small-Scale Super-Inertial Internal Waves by Near-Inertial Internal Waves, Journal of Physical Oceanography, 46(12):3529-3548.

59. Ma X. -H., Z. Jing, P. Chang*, X. Liu, R. Montuoro, R. J. Small, F. O. Bryan, R. J. Greatbatch, P. Brandt, D. -X. Wu, X. -P. Lin and L. -X. Wu, 2016: Western Boundary Currents Regulated by Interaction between Ocean Eddies and the Atmosphere, Nature, 535(7613):533-537.

60. Jing Z.*, L. -X. Wu and X. -H. Ma, 2016: Sensitivity of Near-Inertial Internal Waves to Spatial Interpolations of Wind Stress in Ocean Generation Circulation Models, Ocean Modelling, 99:15-21.

61. Ma X. -H., P. Chang, R. Saravanan, R. Montuoro, J. S. Hsieh, D. -X. Wu, X. -P. Lin, L. -X. Wu and Z. Jing, 2015: Distant Influence of Kuroshio Eddies on North Pacific Weather Patterns? Scientific Reports, 5(1):17785.

62. Jing Z.*, P. Chang, S. F. Dimarco and L. -X. Wu, 2015: Role of Near-Inertial Internal Waves in Sub-thermocline Diapycnal Mixing in the Northern Gulf of Mexico, Journal of Physical Oceanography, 45(12):3137-3154.

63. Jing Z.*, L. -X. Wu and X. -H. Ma, 2015: Improve the Simulations of Near-Inertial Internal Waves in the Ocean General Circulation Models, Journal of Atmospheric and Oceanic Technology, 32(10):1960-1970.

64. Jing Z.* and L. -X. Wu, 2014: Intensified Diapycnal Mixing in the Midlatitude Western Boundary Currents, Scientific Reports, 4(1):7412.

65. Jing Z.*, L. -X. Wu, D. -X. Wu and B. Qiu, 2014: Enhanced 2-h–8-day Oscillations Associated with Tropical Instability Waves, Journal of Physical Oceanography, 44(7):1908-1918.

66. Bandin G.*, R. G. Williams, Z. Jing and L. -X. Wu, 2013: Water Mass Transformations in the Southern Ocean Diagnosed from Observations: Contrasting Effects of Air-Sea Fluxes and Diapycnal Mixing, Journal of Physical Oceanography, 43(7):1472-1484.

67. Jing Z.* and L. -X. Wu, 2013: Low-Frequency Modulation of Turbulent Diapycnal Mixing by Anticyclonic Eddies Inferred from the HOT Time Series, Journal of Physical Oceanography, 43(4):824-835.

68. Jing Z.*, L. -X. Wu, L. Li, C. -Y. Liu, X. Liang, Z. -H. Chen, D. -X. Hu and Q. -Y. Liu, 2011: Turbulent Diapycnal Mixing in the Subtropical Northwestern Pacific: Spatial-seasonal Variations and Role of Eddies, Journal of Geophysical Research: Oceans, 116(C10028)

69. Wu L. -X.*, Z. Jing, S. Riser and M. Visbeck, 2011: Seasonal and Spatial Variations of Southern Ocean Diapycnal Mixing from Argo Profiling Floats, Nature Geoscience, 4(6):363-366

70. Jing Z.*, and L. -X. Wu, 2010: Seasonal Variation of Turbulent Diapycnal Mixing in the Northwestern Pacific Stirred by Wind Stress, Geophysical Research Letters, 37(L23604)

  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: jingzhao@ouc.edu.cn