Back to Search Start Over

Rayleigh-Taylor instability as a mechanism for corona formation on Venus

Authors :
Hoogenboom, Trudi
Houseman, Gregory A.
Source :
Icarus. Feb, 2006, Vol. 180 Issue 2, p292, 16 p.
Publication Year :
2006

Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.icarus.2005.11.001 Byline: Trudi Hoogenboom, Gregory A. Houseman Keywords: Venus Abstract: In this study we explore the idea that coronae have formed on Venus as a result of gravitational (Rayleigh-Taylor) instability of the lithosphere. The lithosphere is represented by a system of stratified homogeneous viscous layers (low-density crust over high density mantle, over lower density layer beneath the lithosphere). A small harmonic perturbation imposed on the base of the lithosphere is observed to result in gravitational instability under the constraint of assumed axisymmetry. Topography develops with time under the influence of dynamic stress associated with downwelling or upwelling, and spatially variable crustal thickening or thinning. Topography may therefore be elevated or depressed above a mantle downwelling, but the computed gravity anomaly is always negative above a mantle downwelling in a homogeneous asthenosphere. The ratio of peak gravity to topography anomaly depends primarily on the ratio of crust to lithospheric viscosity. Average observed ratios are well resolved for two groups of coronae ([approximately equal to]40 mgalakm.sup.-1), consistent with models in which the crust is perhaps 5 times stronger than the lithosphere. Group 3a (rim surrounding elevated central region) coronae are inferred to arise from a central upwelling model, whereas Group 8 (depression) coronae are inferred to arise from central downwelling. Observed average coronae radii are consistent with a lithospheric thickness of only 50 km. An upper low-density crustal layer is 10-20 km thick, as inferred from the amplitude of gravity and topography anomalies. Author Affiliation: School of Earth Sciences, University of Leeds, Leeds, LS2 9JT, UK Article History: Received 4 October 2004; Revised 4 August 2005

Details

Language :
English
ISSN :
00191035
Volume :
180
Issue :
2
Database :
Gale General OneFile
Journal :
Icarus
Publication Type :
Academic Journal
Accession number :
edsgcl.194064653