Abstract
We examine several characteristics of the Western Pacific Warm Pool (WP) in the past thirty years of mixed interannual variability and climate change. Our study presents the three-dimensional WP centroid (WPC) movement, WP heat content anomaly (HC) and WP volume (WPV) on interannual to decadal time scales. We show the statistically significant correlation between each parameter’s interannual anomaly and the NINO 3, NINO 3.4, NINO 4, SOI, and PDO indices. The longitudinal component of the WPC is most strongly correlated with NINO 4 (R = 0.78). The depth component of the WPC has the highest correlation (R = −0.6) with NINO3.4. The WPV and NINO4 have an R-Value of −0.65. HC has the highest correlation with NINO3.4 (R = −0.52). During the study period of 1982–2014, the non-linear trends, derived from ensemble empirical mode decomposition (EEMD), show that the WPV, WP depth and HC have all increased. The WPV has increased by 14% since 1982 and the HC has increased from −1 × 108 J/m2 in 1993 to 10 × 108 J/m2 in 2014. While the largest variances in the latitudinal and longitudinal WPC locations are associated with annual and seasonal timescales, the largest variances in the WPV and HC are due to the multi-decadal non-linear trend.
Highlights
Our study improves the understanding of the variations of WP characteristics through a systematic investigation of various WP characteristics on decadal and interdecadal time scales
intrinsic mode functions (IMF) 4–6 of each parameter highlight the detrended interannual oscillations of time scales ranging from 3 years to 30 years
While the longitudinal WPC component is a much-studied aspect of ENSO, the interannual variability of the WPC depth, WPV and HC have not been extensively reviewed
Summary
We examine several characteristics of the Western Pacific Warm Pool (WP) in the past thirty years of mixed interannual variability and climate change. This increase is related to the increase in intensity and frequency of central Pacific type (CP-type) El Niños since the 1990s6 While those results indicate that an SST warming trend in the CP region is due to the increase in CP-type El Niño activity, other research has indicated that CP-type El Niño events could occur more frequently under a projected global warming scenario[7]. Satellite observations show that the SST and scale change of the WP can be related to solar irradiance variabilities, ENSO events, volcanic activities, and global warming[21]. The WP, by changing the heating and cooling of the tropical Pacific Ocean, is an important aspect of natural global climate variability with
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