Effects of tides on the cross-isobath movement of the low-salinity plume in the western Yellow and East China Seas in winter

Bin Wang, Kyushu University, Kasuga, Japan, Naoki Hirose, Kyushu University, Research Institute for Applied Mechanics, Fukuoka, Japan, Dongliang Yuan, Institute of Oceanography, Chinese Academy of Sciences, China and Jae-Hong Moon, Jeju National University, Korea, Republic of (South)
Abstract:
Offshore extension of the fresh Subei coast water is identified in winter based on in site salinity observation data in this and previous studies. A high-resolution regional ocean circulation model is used to investigate the cross-isobath movement of low salinity-water over the Yellow and East China Seas, and it has reproduced the salinity distribution observed in the winter of 2014-2015 successfully. The model suggests that the low-salinity water is basically degenerated back to the eastern coast of China in winter because of strong northeasterly wind. However, a part of the low-salinity water extends offshore in the southeast direction across the 20–50 m isobaths over the Yangtze Bank, which cannot be explained by either the northerly winter monsoon or the Changjiang discharge. Numerical experiments suggest that the cross-isobath transport of the soluble substances is highly attributed to the Tidal Residual Current, flowing southeastward across 20–50m isobaths over the whole Yangtze Bank. The results of controlled experiments also indicate that the bottom shear of the tidal current, rather than the tidal mixing, plays a significant role in the cross-isobath current during winter.