Variability in the Deep Overflow through the Heng-Chun Ridge of the Luzon Strait
Title: Variability in the Deep Overflow through the Heng-Chun Ridge of the Luzon Strait
Journal: Journal of Physical Oceanography, 49(3): 811-825
Authors: YE R. -J., C. Zhou*, W. Zhao, J. -W. Tian, Q. -X. Yang, X. -D. Huang, Z. -W. Zhang, and X. -L. Zhao
Abstract: The deep water overflow at three gaps in the Heng-Chun Ridge of the Luzon Strait is investigated based on long-term continuous mooring observations. For the first time, these observations enable us to assess the detailed structure and variability in the deep water overflow directly spilling into the South China Sea (SCS). The strong bottom-intensified flows at moorings WG2 and WG3 intrude into the deep SCS with maximum along-stream velocities of 19.2 6 9.9 and 15.2 6 6.8 cm s21, respectively, at approximately 50m above the bottom. At mooring WG1, the bottom current revealed spillage into the Luzon Trough from the SCS. The volume transport estimates are 0.736 0.08 Sv at WG2 and 0.456 0.02 Sv at WG3, suggesting that WG2 is the main entrance for the deep water overflow crossing the Heng-Chun Ridge into the SCS. By including the longterm observational results from previous studies, the pathway of the deep water overflow through the Luzon Strait is also presented. In addition, significant intraseasonal variations with dominant time scales of approximately 26 days at WG2 and WG3 have been revealed, which tend to be enhanced in spring and may reverse the deep water overflow.