South Pacific Decadal Climate Variability and Potential Predictability

Author:

Lou Jiale1ORCID,Holbrook Neil J.2,O’Kane Terence J.3

Affiliation:

1. Institute for Marine and Antarctic Studies, and ARC Centre of Excellence for Climate System Science, University of Tasmania, Hobart, Tasmania, Australia

2. Institute for Marine and Antarctic Studies, and ARC Centre of Excellence for Climate Extremes, University of Tasmania, Hobart, Tasmania, Australia

3. CSIRO Oceans and Atmosphere, Hobart, Tasmania, Australia

Abstract

Abstract The South Pacific decadal oscillation (SPDO) characterizes the Southern Hemisphere contribution to the Pacific-wide interdecadal Pacific oscillation (IPO) and is analogous to the Pacific decadal oscillation (PDO) centered in the North Pacific. In this study, upper ocean variability and potential predictability of the SPDO is examined in HadISST data and an atmosphere-forced ocean general circulation model. The potential predictability of the IPO-related variability is investigated in terms of both the fractional contribution made by the decadal component in the South, tropical and North Pacific Oceans and in terms of a doubly integrated first-order autoregressive (AR1) model. Despite explaining a smaller fraction of the total variance, we find larger potential predictability of the SPDO relative to the PDO. We identify distinct local drivers in the western subtropical South Pacific, where nonlinear baroclinic Rossby wave–topographic interactions act to low-pass filter decadal variability. In particular, we show that the Kermadec Ridge in the southwest Pacific enhances the decadal signature more prominently than anywhere else in the Pacific basin. Applying the doubly integrated AR1 model, we demonstrate that variability associated with the Pacific–South American pattern is a critically important atmospheric driver of the SPDO via a reddening process analogous to the relationship between the Aleutian low and PDO in the North Pacific—albeit that the relationship in the South Pacific appears to be even stronger. Our results point to the largely unrecognized importance of South Pacific processes as a key source of decadal variability and predictability.

Funder

ARC Centre of Excellence for Climate System Science

Publisher

American Meteorological Society

Subject

Atmospheric Science

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