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Recent acceleration in global ocean heat accumulation by mode and intermediate waters

Zhi Li (), Matthew H. England and Sjoerd Groeskamp
Additional contact information
Zhi Li: University of New South Wales
Matthew H. England: University of New South Wales
Sjoerd Groeskamp: NIOZ Royal Netherlands Institute for Sea Research, Department of Ocean Systems

Nature Communications, 2023, vol. 14, issue 1, 1-14

Abstract: Abstract The ocean absorbs >90% of anthropogenic heat in the Earth system, moderating global atmospheric warming. However, it remains unclear how this heat uptake is distributed by basin and across water masses. Here we analyze historical and recent observations to show that ocean heat uptake has accelerated dramatically since the 1990s, nearly doubling during 2010–2020 relative to 1990–2000. Of the total ocean heat uptake over the Argo era 2005–2020, about 89% can be found in global mode and intermediate water layers, spanning both hemispheres and both subtropical and subpolar mode waters. Due to anthropogenic warming, there are significant changes in the volume of these water-mass layers as they warm and freshen. After factoring out volumetric changes, the combined warming of these layers accounts for ~76% of global ocean warming. We further decompose these water-mass layers into regional water masses over the subtropical Pacific and Atlantic Oceans and in the Southern Ocean. This shows that regional mode and intermediate waters are responsible for a disproportionate fraction of total heat uptake compared to their volume, with important implications for understanding ongoing ocean warming, sea-level rise, and climate impacts.

Date: 2023
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DOI: 10.1038/s41467-023-42468-z

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