Journal
CLIMATE DYNAMICS
Volume 58, Issue 11-12, Pages 3317-3333Publisher
SPRINGER
DOI: 10.1007/s00382-021-06098-9
Keywords
Air-sea interaction; Mesoscale coupling; Gulf Stream; Vertical mixing mechanism (VMM); Pressure adjustment mechanism (PAM)
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Funding
- European Commission [641727]
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This study investigates the resolution dependence of ocean-atmosphere coupling along the Gulf Stream using six Global Climate Models. It explores two interaction mechanisms and finds that increasing resolution leads to stronger coupling and better agreement with observations.
We have investigated the horizontal resolution dependence of the ocean-atmosphere coupling along the Gulf Stream, of simulations made by six Global Climate Models according to the HighResMIP protocol, and compared it with reanalysis and remote sensing observations. Two ocean-atmosphere interaction mechanisms are explored in detail: The Vertical Mixing Mechanism (VMM) associated with the intensification of downward momentum transfer, and the Pressure Adjustment Mechanism (PAM) associated with secondary circulations driven by pressure gradients. Both VMM and PAM are found to be active even in the eddy-parameterized models. However, increasing ocean and/or atmosphere resolution leads to enhanced ocean-atmosphere coupling and improved agreement with reanalysis and observations. Our results indicate that while one part of the stronger air-sea coupling is attributable to the refinement of the oceanic component to eddy-permitting, optimal results are obtained only by further increase of the atmosphere resolution too. The use of the eddy-resolving model show weaker or same coupling strength over the eddy-permitting resolution. We conclude that at least eddy-permiting ocean resolution and comparable atmosphere resolution are required for a reliable ocean-atmosphere coupling along the Gulf Stream.
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