BAROTROPIC SIMULATION OF LARGE-SCALE MIXING IN THE ANTARCTIC POLAR VORTEX Academic Article uri icon

abstract

  • The model is forced by relaxation to observed climatological monthly mean zonal-mean winds and by an idealized wave 1 or 2 forcing at the lower boundary. Mixing and transport are diagnosed primarily through Lagrangian tracer trajectories. For September, October, and November basic states, there is little or no mixing in the interior of the vortex. Mixing occurs near the critical lines for the waves: in the tropics and subtropics for a stationary wave 1, and in midlatitudes on the equatorward flank of the jet for an eastward-moving wave 2. For the December basic state, the wave 2 forcing rapidly mixes the interior of the vortex. Mixing of Lagrangian tracer particles can be significant even when the waves do not "break,' as evidenced by the potential vorticity field. In the model there does not appear to be any significant transport of air out of the interior of the polar vortex prior to the vortex breakdown. The principal factor that leads to the vortex breakdown and mixing of the vortex interior is the deceleration of the jet to the point where winds in the interior of the vortex are close to the phase velocity of the wavenumber 2 forcing. -from Author

published proceedings

  • JOURNAL OF THE ATMOSPHERIC SCIENCES

author list (cited authors)

  • BOWMAN, K. P.

citation count

  • 24

complete list of authors

  • BOWMAN, KP

publication date

  • September 1993