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Pacific warm pool subsurface heat sequestration modulated Walker circulation and ENSO activity during the Holocene

Haowen Dang, Zhimin Jian, Yue Wang, Mahyar Mohtadi, Yair Rosenthal, Liming Ye, Franck Bassinot, Wolfgang Kuhnt

2020Science Advances82 citationsDOIOpen Access PDF

Abstract

Dynamics driving the El Niño-Southern Oscillation (ENSO) over longer-than-interannual time scales are poorly understood. Here, we compile thermocline temperature records of the Indo-Pacific warm pool over the past 25,000 years, which reveal a major warming in the Early Holocene and a secondary warming in the Middle Holocene. We suggest that the first thermocline warming corresponds to heat transport of southern Pacific shallow overturning circulation driven by June (austral winter) insolation maximum. The second thermocline warming follows equatorial September insolation maximum, which may have caused a steeper west-east upper-ocean thermal gradient and an intensified Walker circulation in the equatorial Pacific. We propose that the warm pool thermocline warming ultimately reduced the interannual ENSO activity in the Early to Middle Holocene. Thus, a substantially increased oceanic heat content of the warm pool, acting as a negative feedback for ENSO in the past, may play its role in the ongoing global warming.

Topics & Concepts

ThermoclineHoloceneClimatologyWalker circulationOceanographyEl Niño Southern OscillationGlobal warmingGeologyEnvironmental scienceOcean heat contentOcean currentClimate changeGeology and Paleoclimatology ResearchClimate variability and modelsIsotope Analysis in Ecology
Pacific warm pool subsurface heat sequestration modulated Walker circulation and ENSO activity during the Holocene | Litcius