Article
Effect of Surface Fluxes on the Nonlinear Development of Baroclinic Waves
Journal of the Atmospheric Sciences
(1989)
Abstract
The nonlinear development of baroclinically unstable waves in the presence of surface friction and heat flux is studied, using a global primitive equation model. The experiments use zonal wavenumber 3.7 or 12 and a variety of initial conditions, mostly representative of observed initial states. Other initial states consist of solidbody rotation with vertical shear of the zonal wind. In addition to comparisons of inviscid and dissipative experiments, the effect of linear and nonlinear drag formulations is compared. Starting from a small-amplitude perturbation in the temperature field, a modal structure emerges and grows exponentially for a few days. Unstable waves assume a structure that reduces frictional energy IOU when surface drag is present, but they still retain a normal mode character during a period of rapid growth. As the wave grows in amplitude, the ratio of upper-level to low-level eddy kinetic energy increases substantially in the presence of nonlinear surface drag. In the absence of surface drag or in the presence of linear drag the waves experience less structural change. Surface processes reduce the maximum amplitude achieved by the wave and damp the slowly growing wavenumber-3 and shallow wavenumber-12 disturbances more effectively than the rapidly growing, deep wavenumber 7.In the mature wave, surface momentum drag and heat flux suppress eddy velocity and temperature fields near the surface, causing the meridional heat flux to peak at about 800 mb rather than near the surface as itdoes when surface fluxes are excluded. When surface fluxes are present, the structures of mature waves resemble observations more closely than when the fluxes are absent. When initial conditions are similar to those used by Simmons and Hoskins, the Eliassen-Palm flux produced by the mature wave tends to converge in the upper troposphere, primarily as the result of the vertical gradient in poleward heat flux. However, the convergence is sensitive to initial conditions and is spread more broadly through the troposphere for other configurations of the initial state.
Disciplines
Publication Date
February, 1989
DOI
10.1175/1520-0469(1989)046<0460:EOSFOT>2.0.CO;2
Publisher Statement
This article is published as Branscome, Lee E., William J. Gutowski Jr, and Douglas A. Stewart. "Effect of surface fluxes on the nonlinear development of baroclinic waves." Journal of the atmospheric sciences 46, no. 4 (1989): 460-475. 10.1175/1520-0469(1989)046<0460:EOSFOT>2.0.CO;2. Posted with permission. © Copyright 1989 AMS.
Citation Information
Lee E Branscome, William J. Gutowski and Douglas A Stewart. "Effect of Surface Fluxes on the Nonlinear Development of Baroclinic Waves" Journal of the Atmospheric Sciences Vol. 46 Iss. 4 (1989) p. 460 - 475 Available at: http://works.bepress.com/william-gutowski/86/