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- Title
Axisymmetric Constraints on Cross-Equatorial Hadley Cell Extent.
- Authors
Hill, Spencer A.; Bordoni, Simona; Mitchell, Jonathan L.
- Abstract
We consider the relevance of known constraints from each of Hide's theorem, the angular momentum–conserving (AMC) model, and the equal-area model on the extent of cross-equatorial Hadley cells. These theories respectively posit that a Hadley circulation must span all latitudes where the radiative–convective equilibrium (RCE) absolute angular momentum satisfies or or where the RCE absolute vorticity satisfies ; all latitudes where the RCE zonal wind exceeds the AMC zonal wind; and over a range such that depth-averaged potential temperature is continuous and that energy is conserved. The AMC model requires knowledge of the ascent latitude , which needs not equal the RCE forcing maximum latitude . Whatever the value of , we demonstrate that an AMC cell must extend at least as far into the winter hemisphere as the summer hemisphere. The equal-area model predicts , always placing it poleward of . As is moved poleward (at a given thermal Rossby number), the equal-area-predicted Hadley circulation becomes implausibly large, while both and become increasingly displaced poleward of the minimal cell extent based on Hide's theorem (i.e., of supercritical forcing). In an idealized dry general circulation model, cross-equatorial Hadley cells are generated, some spanning nearly pole to pole. All homogenize angular momentum imperfectly, are roughly symmetric in extent about the equator, and appear in extent controlled by the span of supercritical forcing.
- Subjects
GENERAL circulation model; ROSSBY number; ZONAL winds; ANGULAR momentum (Mechanics)
- Publication
Journal of the Atmospheric Sciences, 2019, Vol 76, Issue 6, p1547
- ISSN
0022-4928
- Publication type
Article
- DOI
10.1175/JAS-D-18-0306.1