A Summer Meridional Subsurface Temperature Dipole Mode in the South China Sea

TL;DR

This study identifies a summer subsurface temperature dipole mode in the South China Sea that influences regional heat content variability and is driven by wind stress and monsoon-related climate variability.

Contribution

It reveals a previously uncharacterized summer subsurface temperature dipole mode and its driving mechanisms in the South China Sea.

Findings

The dipole mode controls interannual heat content variability.

Vertical heat transport and wind stress curl anomalies drive the dipole.

A shallow meridional overturning circulation redistributes heat.

Abstract

The ocean heat content variability in the South China Sea (SCS) plays a pivotal role in regional climate and extreme weather events, such as tropical cyclones. Using high-resolution ocean reanalysis data, we show that the SCS exhibits a summer subsurface temperature dipole mode that controls the interannual variability of ocean heat content in the upper SCS. This dipole mode manifests as warm anomalies in the north and cold anomalies in the south during strong monsoon years, and a reversed pattern during weak monsoons years. The monsoon variability is linked to large-scale climate variability associated with El Ni\~no-Southern Oscillation transitions. Heat budget analysis indicates that this dipole pattern is primarily driven by vertical heat transport linked to opposite wind stress curl anomalies in the northern and southern basin. Accompanying the vertical heat transports is a shallow meridional overturning circulation that redistributes heat between the northern and southern SCS.