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Air-Sea interaction over the Gulf Stream in an ensemble of HighResMIP present climate simulations

Alessio Bellucci, Panos Athanasiadis, Enrico Scoccimarro, Paolo Ruggieri, Silvio Gualdi, Giusy Fedele, Rein Haarsma, Javier García‐Serrano, Miguel Castrillo, D. Putrahasan, Emilia Sánchez-Gómez, Marie‐Pierre Moine, Christopher D. Roberts, Malcolm Roberts, Jon Seddon, Pier Luigi Vidale

2021Climate Dynamics66 citationsDOIOpen Access PDF

Abstract

Abstract A dominant paradigm for mid-latitude air-sea interaction identifies the synoptic-scale atmospheric “noise” as the main driver for the observed ocean surface variability. While this conceptual model successfully holds over most of the mid-latitude ocean surface, its soundness over frontal zones (including western boundary currents; WBC) characterized by intense mesoscale activity, has been questioned in a number of studies suggesting a driving role for the small scale ocean dynamics (mesoscale oceanic eddies) in the modulation of air-sea interaction. In this context, climate models provide a powerful experimental device to inspect the emerging scale-dependent nature of mid-latitude air-sea interaction. This study assesses the impact of model resolution on the representation of air-sea interaction over the Gulf Stream region, in a multi-model ensemble of present-climate simulations performed using a common experimental design. Lead-lag correlation and covariance patterns between sea surface temperature (SST) and turbulent heat flux (THF) are diagnosed to identify the leading regimes of air-sea interaction in a region encompassing both the Gulf Stream system and the North Atlantic subtropical basin. Based on these statistical metrics it is found that coupled models based on “laminar” (eddy-parameterised) and eddy-permitting oceans are able to discriminate between an ocean-driven regime, dominating the region controlled by the Gulf Stream dynamics, and an atmosphere-driven regime, typical of the open ocean regions. However, the increase of model resolution leads to a better representation of SST and THF cross-covariance patterns and functional forms, and the major improvements can be largely ascribed to a refinement of the oceanic model component.

Topics & Concepts

ClimatologyMesoscale meteorologyGulf StreamSea surface temperatureBoundary currentEnvironmental scienceEddyContext (archaeology)Climate modelGeologyOcean currentClimate changeMeteorologyOceanographyTurbulenceGeographyPaleontologyClimate variability and modelsOceanographic and Atmospheric ProcessesMeteorological Phenomena and Simulations
Air-Sea interaction over the Gulf Stream in an ensemble of HighResMIP present climate simulations | Litcius