J. B. Sallée, K. G. Speer & S. R. Rintoul, Nature Geoscience, Zonally asymmetric response of the Southern Ocean mixed-layer depth to the Southern Annular Mode

Nature Geoscience, published online 14 March 2010; doi:10.1038/ngeo812

Zonally asymmetric response of the Southern Ocean mixed-layer depth to the Southern Annular Mode

J. B. Sallée* (CSIRO-CMAR/CAWCR, Castray Esplanade, Hobart 7000, Tasmania, Australia), K. G. Speer (Oceanography, Florida State University, 900 Call St, Tallahassee, FL 32306, U.S.A.) and S. R. Rintoul (CSIRO-CMAR/CAWCR, Castray Esplanade, Hobart 7000, Tasmania, Australia)

Abstract

Interactions between the atmosphere and ocean are mediated by the mixed layer at the ocean surface. The depth of this layer is determined by wind forcing and heating from the atmosphere. Variations in mixed-layer depth affect the rate of exchange between the atmosphere and deeper ocean, the capacity of the ocean to store heat and carbon and the availability of light and nutrients to support the growth of phytoplankton. However, the response of the Southern Ocean mixed layer to changes in the atmosphere is not well known. Here we analyse temperature and salinity data from Argo profiling floats to show that the Southern Annular Mode (SAM), the dominant mode of atmospheric variability in the Southern Hemisphere, leads to large-scale anomalies in mixed-layer depth that are zonally asymmetric. From a simple heat budget of the mixed layer we conclude that meridional winds associated with departures of the SAM from zonal symmetry cause anomalies in heat flux that can, in turn, explain the observed changes of mixed-layer depth and sea surface temperature. Our results suggest that changes in the SAM, including recent and projected trends attributed to human activity, drive variations in Southern Ocean mixed-layer depth, with consequences for air–sea exchange, ocean sequestration of heat and carbon, and biological productivity.

*Correspondence e-mail: jbsallee@gmail.com