| Previous studies suggest that the atmospheric precursor of El Nino-Southern Oscillation (ENSO) in the extratropical Southern Hemisphere (SH) might trigger a quadrapole sea surface temperature anomaly (SSTA) in the South Pacific and subsequently influence the following ENSO. Such a quadrapole SSTA is referred to as the South Pacific quadrapole (SPQ). The present study investigated the relationships between the atmospheric precursor signal of ENSO and leading modes of atmospheric variability in the extratropical SH [including the SH annular mode(SAM), the first Pacific-South America (PSA1) mode, and the second Pacific-South America (PSA2) mode]. The results showed that the atmospheric precursor signal in the extratropical SH basically exhibits a barotropic wavenumber-3 structure over the South Pacific and is significantly correlated with the SAM and the PSA2 mode during austral summer. Nevertheless, only the PSA2 mode was found to be a precursor for the following ENSO. It leads the SPQ-like SSTA by around one month,while the SAM and the PSA1 mode do not show any obvious linkage with either ENSO or the SPQ. This suggests that the PSA2 mode may provide a bridge between the preceding circulation anomalies over the extratropical SH and the following ENSO through the SPQ-like SSTA.In addition, the austral summertime atmospheric precursor may have an impact on the austral wintertime precipitation in tropical South Pacific Convergence Zone(SPCZ) regions through the SPQ-like SSTA. The warming induced by the seasonal processes in central tropical Pacific and the cooling in western tropical Pacific enhance the SSTA gradient in SPCZ regions. At the same time, enhanced upward motion and the enhancement of convection may result in increased precipitation in tropical SPCZ regions. |
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