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North Atlantic subtropical mode water formation controlled by Gulf Stream fronts

Gan, B., Yu, J., Wu, L., Danabasoglu, G., Small, R. J., et al. (2023). North Atlantic subtropical mode water formation controlled by Gulf Stream fronts. National Science Review, doi:10.1093/nsr/nwad133

Title North Atlantic subtropical mode water formation controlled by Gulf Stream fronts
Author(s) Bolan Gan, Jingjie Yu, Lixin Wu, Gokhan Danabasoglu, R. Justin Small, Allison H Baker, Fan Jia, Zhao Jing, Xiaohui Ma, Haiyuan Yang, Zhaohui Chen
Abstract The North Atlantic Ocean hosts the largest volume of global subtropical mode waters (STMWs) in the world, which serve as heat, carbon and oxygen silos in the ocean interior. STMWs are formed in the Gulf Stream region where thermal fronts are pervasive and result in feedback with the atmosphere. However, their roles in STMW formation have been overlooked. Using eddy-resolving global climate simulations, we find that suppressing local frontal-scale ocean-to-atmosphere (FOA) feedback leads to STMW formation being reduced almost by half. This is because FOA feedback enlarges STMW outcropping, attributable to the mixed layer deepening associated with cumulative excessive latent heat loss due to higher wind speeds and greater air-sea humidity contrast driven by the Gulf Stream fronts. Such enhanced heat loss overshadows the stronger restratification induced by vertical eddies and turbulent heat transport, making STMW colder and heavier. With more realistic representation of FOA feedback, the eddy-present/rich coupled global climate models reproduce the observed STMWs much better than the eddy-free ones. Such improvement in STMW production cannot be achieved, even with the oceanic resolution solely refined but without coupling to the overlying atmosphere in oceanic general circulation models. Our findings highlight the need to resolve FOA feedback to ameliorate the common severe underestimation of STMW and associated heat and carbon uptakes in earth system models.
Publication Title National Science Review
Publication Date Sep 1, 2023
Publisher's Version of Record https://dx.doi.org/10.1093/nsr/nwad133
OpenSky Citable URL https://n2t.net/ark:/85065/d76h4nfc
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CISL Affiliations TDD, ASAP

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