Other
Scientific paper
Dec 1994
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994jats...51.3706o&link_type=abstract
Journal of Atmospheric Sciences, vol. 51, Issue 24, pp.3706-3721
Other
27
Scientific paper
The seasonal (wintertime) development of middle atmosphere circulation in opposite phases of the equatorial quasi-biennial oscillation (QBO) was simulated with a three-dimensional nonlinear numerical model. In the stratosphere, the effect of equatorial QBO was generally consistent with the extratropical QBO observed by Holton and Tan, namely, a stronger midwinter polar vortex in the westerly phase, and vice versa. However, the extratropical response to the QBO was sensitive to other factors such as mesospheric gravity wave drag and the amplitude of Rossby waves specified at the model's lower boundary. The extratropical QBO was realistic only when a drag parameterization was included and Rossby wave amplitudes lay in an intermediate range close to the observed. At somewhat stronger forcing, the model's response was largest in the mesosphere where (in this case) westerlies were stronger in the easterly phase of equatorial QBO. This was apparently due to a shielding effect.The theory of planetary wave-mean flow interaction suggests that the sensitivity to equatorial QBO should be greatest for wave forcings near a `bifurcation' point. Below this threshold the stratosphere approaches radiative equilibrium, shutting off vertical propagation of planetary waves. Supercritical forcing leads to a major warming. The model's sensitivity to forcing, while consistent with this idea, was most apparent in perpetual solstice runs without parameterized wave drag. Seasonal integrations with wave drag produced a more realistic extratropical QBO, making the bifurcation less conspicuous.
Dunkerton Timothy J.
O'Sullivan Donal
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