The South China Sea throughflow： linkage with local monsoon system and impact on upper thermal structure of the ocean

The tendency of South China Sea throughflow （SCSTF） variation associated with the local monsoon system, and its impact on upper-layer thermal structure, are studied using the Simple Ocean Data Assimilation （SODA） dataset, combined with Ishii reanalysis data. Luzon Strait Transport （LST） is measured and used as an index for studying the SCSTF variation. Results show that LST had an increasing tendency over the last 50 years, mainly in summer and fall. The increasing tendency was 0.017 1 Sv/a in summer and 0.027 4 Sv/a in fall, as estimated by SODA, and 0.018 0 Sv/a in summer and 0.018 9 Sv/a in fall, as estimated by ＂Island Rule＂ theory. LST increased by 0.53 Sv in JJA （June-July-August） and 0.98 Sv in SON （September-October-November） after climate shift, as inferred by SODA data. The average LST anomaly in JJA and SON is strongly related to the local monsoon system, especially to variability of the meridional wind stress anomaly after application of a 3-year running mean, with correlation coefficients 0.57 and 0.51, respectively. In addition to the basin-scale wind forcing, the local northeasterly wind stress anomaly in the SCS can push Pacific water entering the SCS more readily in JJA and SON after climate shift, and an SCSTF-associated cooling effect may favor subsurface cooling more frequently after climate shift.