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The Extraordinary Equatorial Atlantic Warming in Late 2019

Ingo Richter, Hiroki Tokinaga, Yuko Okumura

2022Geophysical Research Letters19 citationsDOIOpen Access PDF

Abstract

Abstract Sea‐surface temperatures (SSTs) in the eastern equatorial Atlantic are subject to variability on interannual timescales but during the last 20 years, this variability has shown comparatively little activity. In late 2019, however, the warmest event in the satellite observation period developed. Analysis suggests that zonal wind stress anomalies in the western equatorial Atlantic contributed to the development of the warm SST anomalies. Furthermore, wind stress curl anomalies north of the equator generated downwelling Rossby waves that propagated to the western boundary and were reflected into downwelling Kelvin waves that helped to precondition the event. Neither the contemporaneous positive Indian Ocean Dipole nor the El Niño Modoki appears to have contributed substantially to the Atlantic warming, though some uncertainty remains. Based on large‐scale multidecadal variability patterns, a return to enhanced variability is not imminent but careful monitoring will be important.

Topics & Concepts

DownwellingEquatorClimatologyRossby waveGeologyKelvin waveAtlantic multidecadal oscillationIndian Ocean DipoleSea surface temperatureOceanographyWind stressSea-surface heightLatitudeUpwellingGeodesyClimate variability and modelsOceanographic and Atmospheric ProcessesOcean Waves and Remote Sensing
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