Mechanisms for the NAO Responses to the North Atlantic SST Tripole

Abstract

The response of an atmospheric general circulation model (GCM) to the North Atlantic SST tripole exhibits both symmetric and asymmetric components with respect to the sign of the SST anomaly. The symmetric part of the response is characterized by a North Atlantic Oscillation (NAO)–like dipole with an equivalent barotropic structure over the Atlantic. The asymmetry is manifested in a weaker and smaller-scale dipole response to the positive SST tripole in contrast to a stronger and more zonally elongated dipole response to the negative tripole. Mechanisms for developing and maintaining these GCM responses are elucidated through diagnostic experiments using a linear baroclinic model and a statistical storm track model based on GCM intrinsic variability. The NAO-like symmetric response is primarily maintained by a dipolar anomalous eddy forcing that results from interactions between the heating-forced anomalous flow and the Atlantic storm track, as expected from an eddy-feedback mechanism. To account... Abstract The response of an atmospheric general circulation model (GCM) to the North Atlantic SST tripole exhibits both symmetric and asymmetric components with respect to the sign of the SST anomaly. The symmetric part of the response is characterized by a North Atlantic Oscillation (NAO)–like dipole with an equivalent barotropic structure over the Atlantic. The asymmetry is manifested in a weaker and smaller-scale dipole response to the positive SST tripole in contrast to a stronger and more zonally elongated dipole response to the negative tripole. Mechanisms for developing and maintaining these GCM responses are elucidated through diagnostic experiments using a linear baroclinic model and a statistical storm track model based on GCM intrinsic variability. The NAO-like symmetric response is primarily maintained by a dipolar anomalous eddy forcing that results from interactions between the heating-forced anomalous flow and the Atlantic storm track, as expected from an eddy-feedback mechanism. To account...