Abstract
While Pacific climate variability is largely understood based on El Niño-Southern Oscillation (ENSO), the North Pacific focused Pacific decadal oscillation and the basin-wide interdecadal Pacific oscillation, the role of the South Pacific, including atmospheric drivers and cross-scale interactions, has received less attention. Using reanalysis data and model outputs, here we propose a paradigm for South Pacific climate variability whereby the atmospheric Pacific-South American (PSA) mode acts to excite multiscale spatiotemporal responses in the upper South Pacific Ocean. We find the second mid-troposphere PSA pattern is fundamental to stochastically generate a mid-latitude sea surface temperature quadrupole pattern that represents the optimal precursor for the predictability and evolution of both the South Pacific decadal oscillation and ENSO several seasons in advance. We find that the PSA mode is the key driver of oceanic variability in the South Pacific subtropics that generates a potentially predictable climate signal linked to the tropics.
Highlights
While Pacific climate variability is largely understood based on El Niño-Southern Oscillation (ENSO), the North Pacific focused Pacific decadal oscillation and the basin-wide interdecadal Pacific oscillation, the role of the South Pacific, including atmospheric drivers and cross-scale interactions, has received less attention
We propose a paradigm for South Pacific climate variability whereby the atmospheric eastward-propagating PacificSouth American (PSA) mode pair can excite extratropical South Pacific Ocean responses on multiple time scales ranging from seasonal to decadal
The PSA mode is represented by an eastward-propagating wave train extending from eastern Australia to Argentina, characterised in midtropospheric geopotential height by two invariant empirical orthogonal function (EOF) patterns with associated principal component (PC) time series (PSA1 and PSA2; see Fig. S1) whose phases are nearly in quadrature with each other and whose explained variances are of nearly equal amplitude[12,13]
Summary
While Pacific climate variability is largely understood based on El Niño-Southern Oscillation (ENSO), the North Pacific focused Pacific decadal oscillation and the basin-wide interdecadal Pacific oscillation, the role of the South Pacific, including atmospheric drivers and cross-scale interactions, has received less attention. We propose a paradigm for South Pacific climate variability whereby the atmospheric eastward-propagating PSA mode pair can excite extratropical South Pacific Ocean responses on multiple time scales ranging from seasonal to decadal.
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