Abstract
This study uses the China Coastal Waters and Adjacent Seas Reanalysis (CORA) data to investigate the interannual and decadal variability of the Yellow Sea cold water mass (YSCWM) and its relationship to climate indices including the Arctic Oscillation (AO), El Niño/Southern Oscillation (ENSO), and Pacific Decadal Oscillation (PDO). On the interannual timescale, the strong correlation between winter PDO and the YSCWM may indicate the dominant effect of winter PDO on the YSCWM through the modulation of local heat flux and wind stress. It is also found that the local wind stress and heat flux in summer have little impact on the interannual variability of the YSCWM. On the decadal time scale, the YSCWM is associated with winter AO and winter PDO. Winter AO mainly controls local heat flux, modulating the decadal variability of the YSCWM. In contrast, winter PDO is strongly connected with winter heat flux and wind stress to modulate the decadal variability of the YSCWM. In summer, for three climate factors, ENSO is the dominant factor controlling the decadal variability of the YSCWM.
Highlights
The Yellow Sea is a semienclosed marginal sea of the PacificOcean, bordered by the Chinese mainland to the west, the Korean Peninsula to the east, and the Bohai Bay to the north
To examine what climate factors are associated with the Yellow Sea cold water mass (YSCWM) variability, three climate indices are selected: Arctic Oscillation (AO) index [18], Multivariable El Nino/Southern Oscillation (ENSO) index (MEI) [19, 20], and Pacific Decadal Oscillation (PDO) index [21, 22]
The correlations between MEI, PDO and A-YSCWM, the anomaly in A-YSCWM (TYSCWM) are low and not statistically significant (Figure 4(b) and Table 1). This suggests that ENSO and PDO may not be the main factors controlling the interannual variability of the YSCWM in summer
Summary
Ocean, bordered by the Chinese mainland to the west, the Korean Peninsula to the east, and the Bohai Bay to the north. The YSCWM has an important effect on the hydrographic features and the phytoplankton biomass and production in the Yellow Sea [2,3,4,5] He et al [6] first studied the formation and properties of the YSCWM and identified that the water mass locally formed during the previous winter by the sea surface cooling and strong vertical mixing. Several studies were conducted to investigate the characteristics of the YSCWM using temperature and salinity observation. CORA assimilated the in situ observed temperature and salinity profiles collected by the National Marine Data and Information.
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