Seo, Hyodae, O’Neill, Larry W., Bourassa, Mark A., Czaja, Arnaud, Drushka, Kyla, Edson, James B., Fox-Kemper, Baylor, Frenger, Ivy , Gille, Sarah T., Kirtman, Benjamin P., Minobe, Shoshiro, Pendergrass, Angeline G., Renault, Lionel, Roberts, Malcolm J., Schneider, Niklas, Small, R. Justin, Stoffelen, Ad and Wang, Qing (2023) Ocean Mesoscale and Frontal-Scale Ocean–Atmosphere Interactions and Influence on Large-Scale Climate: A Review. Journal of Climate, 36 (7). pp. 1981-2013. DOI 10.1175/JCLI-D-21-0982.1.

Preview

Text 1520-0442-JCLI-D-21-0982.1.pdf - Published Version Available under License Creative Commons: Attribution 4.0. Download (6MB) | Preview

Abstract

Two decades of high-resolution satellite observations and climate modeling studies have indicated strong ocean–atmosphere coupled feedback mediated by ocean mesoscale processes, including semipermanent and meandrous SST fronts, mesoscale eddies, and filaments. The air–sea exchanges in latent heat, sensible heat, momentum, and carbon dioxide associated with this so-called mesoscale air–sea interaction are robust near the major western boundary currents, Southern Ocean fronts, and equatorial and coastal upwelling zones, but they are also ubiquitous over the global oceans wherever ocean mesoscale processes are active. Current theories, informed by rapidly advancing observational and modeling capabilities, have established the importance of mesoscale and frontal-scale air–sea interaction processes for understanding large-scale ocean circulation, biogeochemistry, and weather and climate variability. However, numerous challenges remain to accurately diagnose, observe, and simulate mesoscale air–sea interaction to quantify its impacts on large-scale processes. This article provides a comprehensive review of key aspects pertinent to mesoscale air–sea interaction, synthesizes current understanding with remaining gaps and uncertainties, and provides recommendations on theoretical, observational, and modeling strategies for future air–sea interaction research.

Actions (login required)

View Item