Symmetric Stability of Zonal Flow under Full-Component Coriolis Force : Effect of the Horizontal Component of the Planetary Vorticity

概要

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The effect of the horizontal component f_H of the planetary vorticity on the symmetric stability of zonal flow is investigated using the linearized Boussinesq equations on the f-plane. It is shown that, as in the case of neglecting f_H, the stability under full-component Coriolis force is determined by the sign of the potential vorticity. It is also revealed that even in such a generalized situation, the movement associated with the symmetric instability can be decomposed into two independent motions, i.e., the buoyancy oscillation (or instability) modified by the Coriolis force and the inertial oscillation (or instability) modified by the buoyancy. The squared product of their frequencies remains proportional to the potential vorticity of the zonal flow. Meanwhile, the horizontal component of the planetary vorticity is found to exhibit both stabilizing and destabilizing effects, although there is a wide range of stable regions that are not affected by f_H. The existence of f_H also causes an asymmetry such that the stability changes depending on the sign of the vertical shear of the zonal flow, even if the Richardson number and the dimensionless relative vorticity are maintained constant.
社団法人日本気象学会の論文
2009-08-25