1. Yang, Y., X. Huang*, S. Huang, W. Zhao, J. Guo, C. Sangmanee, C. Zhou, and J. Tian, 2025: Mooring Observation and Numerical Simulation of the Oblique Wave-Wave Interactions in the Andaman Sea. Journal of Geophysical Research: Oceans, 130, e2024JC021968.

2. Shang, G., Z. Zhang, S. Guan, X. Huang, C. Zhou, W. Zhao, and J. Tian, 2024: Mesoscale Eddies and Near-Inertial Internal Waves Modulate Seasonal Variations of Vertical Shear Variance in the Northern South China Sea. Journal of Physical Oceanography, 54, 1449-1465.

3. Guan, S., F.-F. Jin, J. Tian, I. I. Lin, I.-F. Pun, W. Zhao, J. Huthnance, Z. Xu, W. Cai, Z. Jing, L. Zhou, P. Liu, Y. Zhang, Z. Zhang, C. Zhou, Q. Yang, X. Huang, Y. Hou, and J. Song, 2024: Ocean internal tides suppress tropical cyclones in the South China Sea. Nature Communications, 15, 3903.

4. Hu, Q., X. Huang*, Q. Xu, C. Zhou, S. Guan, X. Xu, W. Zhao, Q. Yang, and J. Tian, 2023: Parametric Subharmonic Instability of Diurnal Internal Tides in the Abyssal South China Sea. Journal of Physical Oceanography, 53, 195-213.

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

6. Li, J., X. Huang, Y. Shi, Y. Yang, and W. Zhao, 2023: Effects of internal solitary waves on three-dimensional sound propagation and DOA estimation in the South China Sea. Applied Acoustics, 212, 109612.

7. Zhang, X., X. Huang, Y. Yang, W. Zhao, H. Wang, C. Yuan, and J. Tian, 2023: Energy Cascade from Internal Solitary Waves to Turbulence via Near-N Waves in the Northern South China Sea. Journal of Physical Oceanography, 53, 1453-1466.

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

9. Huang, S., X. Huang*, W. Zhao, Z. Chang, X. Xu, Q. Yang, and J. Tian, 2022: Shear Instability in Internal Solitary Waves in the Northern South China Sea Induced by Multiscale Background Processes. Journal of Physical Oceanography, 52, 2975-2994.

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

11. Sun, H., Q. Yang, K. Zheng, W. Zhao, X. Huang, and J. Tian, 2022: Internal Lee Waves Generated by Shear Flow Over Small-Scale Topography. Journal of Geophysical Research: Oceans, 127, e2022JC018547.

12. Wang, T., X. Huang*, W. Zhao, S. Zheng, Y. Yang, and J. Tian, 2022: Internal Solitary Wave Activities near the Indonesian Submarine Wreck Site Inferred from Satellite Images. Journal of Marine Science and Engineering, 10, 1-12.

13. Xu, Q., C. Zhou, W. Zhao, Q. Hu, X. Xiao, D. Zhang, F. Yang, X. Huang, and J. Tian, 2022a: Dynamics of the Baroclinic Rossby Waves Regulating the Abyssal South China Sea. Journal of Physical Oceanography, 52, 873-887.

14. Xu, X., W. Zhao*, X. Huang*, Q. Hu, S. Guan, C. Zhou, and J. Tian, 2022b: Observed Near-Inertial Waves Trapped in a Propagating Anticyclonic Eddy. Journal of Physical Oceanography, 52, 2029-2047.

15. Yang, Y., X. Huang*, C. Zhou, Z. Zhang, W. Zhao, and J. Tian, 2022: Three-dimensional structures of internal solitary waves in the northern south China sea revealed by mooring array observations. Progress in Oceanography, 209, 102907.

16. Ye, R., X. Shang, W. Zhao, C. Zhou, Q. Yang, Z. Tian, Y. Qi, C. Liang, X. Huang, Z. Zhang, S. Guan, and J. Tian, 2022: Circulation Driven by Multihump Turbulent Mixing Over a Seamount in the South China Sea. Frontiers in Marine Science, 8.

17. Zhou, C., H. Xu, X. Xiao, W. Zhao, J. Yang, Q. Yang, H. Jiang, Q. Xie, T. Long, T. Wang, X. Huang, Z. Zhang, S. Guan, and J. Tian, 2022: Intense Abyssal Flow Through the Yap-Mariana Junction in the Western North Pacific. Geophysical Research Letters, 49, e2021GL096530.

18. Gao, Z., Z. Chen, X. Huang, Z. Xu, H. Yang, Z. Zhao, C. Ren, and L. Wu, 2021: Internal Wave Imprints on Temperature Fluctuations as Revealed by Rapid-Sampling Deep Profiling Floats. Journal of Geophysical Research: Oceans, 126, e2021JC017878.

19. Miao, M., Z. Zhang, B. Qiu, Z. Liu, X. Zhang, C. Zhou, S. Guan, X. Huang, W. Zhao, and J. Tian, 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, e2021GL093829.

20. Yang, Y., X. Huang, W. Zhao, C. Zhou, S. Huang, Z. Zhang, and J. Tian, 2021: Internal Solitary Waves in the Andaman Sea Revealed by Long-Term Mooring Observations. Journal of Physical Oceanography, 51, 3609-3627.

21. Zhang, Z., X. Zhang, B. Qiu, W. Zhao, C. Zhou, X. Huang, and J. Tian, 2021: Submesoscale Currents in the Subtropical Upper Ocean Observed by Long-Term High-Resolution Mooring Arrays. Journal of Physical Oceanography, 51, 187-206.

22. Hu, Q., X. Huang*, Z. Zhang, X. Zhang, X. Xu, H. Sun, C. Zhou, W. Zhao, and J. Tian, 2020: Cascade of Internal Wave Energy Catalyzed by Eddy-Topography Interactions in the Deep South China Sea. Geophysical Research Letters, 47, e2019GL086510.

23. Sun, Z., Z. Zhang, B. Qiu, X. Zhang, C. Zhou, X. Huang, W. Zhao, and J. Tian, 2020: Three-Dimensional Structure and Interannual Variability of the Kuroshio Loop Current in the Northeastern South China Sea. Journal of Physical Oceanography, 50, 2437-2455.

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

25. Ye, R., C. Zhou, W. Zhao, J. Tian, Q. Yang, X. Huang, Z. Zhang, and X. Zhao, 2019: Variability in the Deep Overflow through the Heng-Chun Ridge of the Luzon Strait. Journal of Physical Oceanography, 49, 811-825.

26. Zhang, Z., Z. Liu, K. Richardsi, G. Shang, W. Zhao, J. Tian, X. Huang, and C. Zhou, 2019: Elevated diapycnal mixing by a sub‐thermocline eddy in the western equatorial Pacific. Geophysical Research Letters, 46, 2628-2636.

27. Huang, X., Z. Wang, Z. Zhang, Y. Yang, C. Zhou, Q. Yang, W. Zhao, and J. Tian, 2018: Role of Mesoscale Eddies in Modulating the Semidiurnal Internal Tide: Observation Results in the Northern South China Sea. Journal of Physical Oceanography, 48, 1749-1770.

28. Zhang, X., X. Huang, Z. Zhang, C. Zhou, J. Tian, and W. Zhao, 2018a: 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, 1349-1365.

29. Zhang, Z., B. Qiu, J. Tian, W. Zhao, and X. Huang, 2018: Latitude-dependent finescale turbulent shear generations in the Pacific tropical-extratropical upper ocean. Nature Communications, 9, 4086.

30. Zhou, C., W. Zhao, J. Tian, Q. Yang, X. Huang, Z. Zhang, and T. Qu, 2018: Observations of Deep Current at the Western Boundary of the Northern Philippine Basin. Scientific Reports, 8, 14334.

31. Huang, X., Z. Zhang, X. Zhang, H. Qian, W. Zhao, and J. Tian, 2017: Impacts of a Mesoscale Eddy Pair on Internal Solitary Waves in the Northern South China Sea revealed by Mooring Array Observations. Journal of Physical Oceanography, 47, 1539-1554.

32. Huang, X., Z. Chen, W. Zhao, Z. Zhang, C. Zhou, Q. Yang, and J. Tian, 2016: An extreme internal solitary wave event observed in the northern South China Sea. Scientific Reports, 6, 30041.

33. Qian, H., X. Huang*, J. Tian, and W. Zhao, 2015: Shoaling of the internal solitary waves over the continental shelf of the northern South China Sea. Acta Oceanologica Sinica, 34, 35-42.

34. Huang, X., W. Zhao, J. Tian, and Q. Yang, 2014: Mooring observations of internal solitary waves in the deep basin west of Luzon Strait. Acta Oceanologica Sinica, 33, 82-89.

35. Zhao, W., X. Huang, and J. Tian, 2012: A new method to estimate phase speed and vertical velocity of internal solitary waves in the South China Sea. Journal of Oceanography, 68, 761-769.

  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

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