Importance of Midlatitude Oceanic Frontal Zones for the Annular Mode Variability: Interbasin Differences in the Southern Annular Mode Signature

Author:

Ogawa Fumiaki1,Nakamura Hisashi2,Nishii Kazuaki3,Miyasaka Takafumi3,Kuwano-Yoshida Akira4

Affiliation:

1. Geophysical Institute, University of Bergen, and Bjerknes Centre for Climate Research, Bergen, Norway

2. Research Center for Advanced Science and Technology, University of Tokyo, Tokyo, and Japan Agency for Marine-Earth Science and Technology, Yokohama, Japan

3. Research Center for Advanced Science and Technology, University of Tokyo, Tokyo, Japan

4. Japan Agency for Marine-Earth Science and Technology, Yokohama, Japan

Abstract

Abstract A midlatitude oceanic frontal zone is a confluent region of warm and cool ocean currents, characterized by a strong meridional gradient in both sea surface temperature (SST) and surface air temperature (SAT). While recent observational and modeling studies indicate potential impacts of midlatitude oceanic fronts on the extratropical climatological circulation, including storm tracks and eddy-driven westerlies, their impacts on the atmospheric-dominant low-frequency variability (i.e., the annular mode) still remain to be understood. This study explores possible impacts of midlatitude oceanic frontal zones on annular mode signatures in the wintertime Southern Hemisphere (SH). To mimic the SH, sets of idealized aquaplanet experiments are conducted with zonally symmetric distributions of SST prescribed globally at the lower boundary of an atmospheric general circulation model. By systematically changing the latitude of frontal gradient in the SST profile, the experiments reveal that the characteristics of the wintertime annular mode exhibit strong sensitivity to the position of the SST front if situated at midlatitude or subpolar latitude. The annular mode may be interpreted as a manifestation of wobble of the extratropical tropospheric circulation between two “dynamical regimes”—one under the strong influence of SST gradient and the other under the strong control of atmospheric internal dynamics unrelated to the lower-boundary condition. In fact, this interpretation offers insight into the observed interbasin differences in the wintertime signature of the southern annular mode (SAM) that are embedded in the zonally symmetric anomalies. The findings suggest a possible reinterpretation of the climatological-mean state observed in the wintertime SH as the superposition of those two dynamical regimes.

Publisher

American Meteorological Society

Subject

Atmospheric Science

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