AMOC decline and recovery in a warmer climate

Authors :: Paulo Nobre
Sandro F. Veiga
Emanuel Giarolla
André L. Marquez
Manoel B. da Silva
Vinícius B. Capistrano
Marta Malagutti
Julio P. R. Fernandez
Helena C. Soares
Marcus J. Bottino
Paulo Y. Kubota
Silvio N. Figueroa
José P. Bonatti
Gilvan Sampaio
Fernanda Casagrande
Mabel C. Costa
Carlos A. Nobre
Source :: Scientific Reports, Vol 13, Iss 1, Pp 1-12 (2023)
Publication Year :: 2023
Publisher :: Nature Portfolio, 2023.
Abstract: Abstract This study presents novel insight into the mechanisms of Atlantic Meridional Overturning Circulation (AMOC) reduction and its recovery under a warmer climate scenario. An one-thousand-year-long numerical simulation of a global coupled ocean–ice–atmosphere climate model, subjected to a stationary atmospheric radiative forcing, depict a coherent picture of the Arctic sea ice melting as a trigger for the initial AMOC reduction, along with decreases in the northward fluxes of salt and heat. Further atmospheric-driven ocean processes contribute to an erosion of the stable stratification of the fresher, yet colder waters in the surface layers of the North Atlantic, contributing to the recovery of a permanently altered AMOC.

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