Determining the Origins of Advective Heat Transport Convergence Variability in the North Atlantic
Author(s)
Buckley, Martha W.; Ponte, Rui M.; Forget, Gael; Heimbach, Patrick
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A recent state estimate covering the period 1992–2010 from the Estimating the Circulation and Climate of the Ocean (ECCO) project is utilized to quantify the roles of air–sea heat fluxes and advective heat transport convergences in setting upper-ocean heat content anomalies H in the North Atlantic Ocean on monthly to interannual time scales. Anomalies in (linear) advective heat transport convergences, as well as Ekman and geostrophic contributions, are decomposed into parts that are due to velocity variability, temperature variability, and their covariability. Ekman convergences are generally dominated by variability in Ekman mass transports, which reflect the instantaneous response to local wind forcing, except in the tropics, where variability in the temperature field plays a significant role. In contrast, both budget analyses and simple dynamical arguments demonstrate that geostrophic heat transport convergences that are due to temperature and velocity variability are anticorrelated, and thus their separate treatment is not insightful. In the interior of the subtropical gyre, the sum of air–sea heat fluxes and Ekman heat transport convergences is a reasonable measure of local atmospheric forcing, and such forcing explains the majority of H variability on all time scales resolved by ECCO. In contrast, in the Gulf Stream region and subpolar gyre, ocean dynamics are found to be important in setting H on interannual time scales. Air–sea heat fluxes damp anomalies created by the ocean and thus are not set by local atmospheric variability.
Date issued
2015-05Department
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary SciencesJournal
Journal of Climate
Publisher
American Meteorological Society
Citation
Buckley, Martha W., Rui M. Ponte, Gael Forget, and Patrick Heimbach. “Determining the Origins of Advective Heat Transport Convergence Variability in the North Atlantic.” J. Climate 28, no. 10 (May 2015): 3943–3956. © 2015 American Meteorological Society
Version: Final published version
ISSN
0894-8755
1520-0442