Vertical Structure of Midlatitude Mesoscale Instabilities

Abstract

Abstract Instability processes in frontal jet regions outside the western boundary currents are examined for their ability to produce mesoscale variability comparable to that observed in the open ocean. The important of sufficient numerical resolution for a correct modeling of these processes is considered. Using a local β-plane quasi-geostrophic multilevel model with periodic horizontal boundary conditions, the combined effects of special density and current profiles typical for the midlatitude eastern North Atlantic are studied. The linearized approach yields a set of vertical shear modes with different vertical structure depending on the zonal wavelength of the perturbation. Some of these shear modes are unstable; the mesoscale range (50–500 km) reveals two different types; a surface intensified shear mode and a deep-sea intensified one. The growth rates of the former are usually largely exceeding those of the latter due to the larger velocities and shears. Their exponential amplification time scale ra...