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Overturning Pathways Control AMOC Weakening in CMIP6 Models

Jonathan Baker, Michael J. Bell, Laura Jackson, Richard Renshaw, Geoffrey K. Vallis, Andrew Watson, Richard Wood

2023Geophysical Research Letters34 citationsDOIOpen Access PDF

Abstract

Abstract Future projections indicate the Atlantic Meridional Overturning Circulation (AMOC) will weaken and shoal in response to global warming, but models disagree widely over the amount of weakening. We analyze projected AMOC weakening in 27 CMIP6 climate models, in terms of changes in three return pathways of the AMOC. The branch of the AMOC that returns through diffusive upwelling in the Indo‐Pacific, but does not later upwell in the Southern Ocean (SO), is particularly sensitive to warming, in part, because shallowing of the deep flow prevents it from entering the Indo‐Pacific via the SO. The present‐day strength of this Indo‐Pacific pathway provides a strong constraint on the projected AMOC weakening. However, estimates of this pathway using four observationally based methods imply a wide range of AMOC weakening under the SSP5‐8.5 scenario of 29%–61% by 2100. Our results suggest that improved observational constraints on this pathway would substantially reduce uncertainty in 21st century AMOC decline.

Topics & Concepts

ClimatologyUpwellingGeneral Circulation ModelLead (geology)ShoalOcean currentCoupled model intercomparison projectClimate modelGeologyOceanographyEnvironmental scienceClimate changeGeomorphologyClimate variability and modelsOceanographic and Atmospheric ProcessesMarine and coastal ecosystems
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