Physics
Scientific paper
Oct 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983jgr....88.8305m&link_type=abstract
Journal of Geophysical Research (ISSN 0148-0227), vol. 88, Oct. 10, 1983, p. 8305-8317.
Physics
114
Cooling, Heat Transfer, Lithosphere, Planetary Structure, Planetary Temperature, Venus (Planet), Earth Planetary Structure, Planetary Crusts, Plates (Tectonics), Topography, Planets, Venus, Hot Spots, Heat Transfer, Earth, Comparisons, Heat, Models, Surface, Elevation, Lithosphere, Thickness, Flux, Topography, Compensation, Radii, Crust, Volcanism, Depth, Hypotheses, Analysis
Scientific paper
Using a model that gives a relationship between surface elevation, lithospheric thickness, and heat flux, the hot spot heat loss mechanism is tested for Venus. The mechanism is found to readily explain the predicted heat loss of the planet with a modest number of hot spots (of the order of 35). Lithospheric thickness variations can explain approximately 93 percent of the mapped topography of Venus. Above a radius of 6053 km, additional compensation is required, and this can be effected by incorporating a variable thickness crust into the model. If it is assumed that the crust is generated on the crests of the hot spots, probably by processes associated with volcanism, the model is consistent with nearly 99 percent of the mapped topography of Venus. In addition, the model is basically consistent with available gravity data and interpretations that suggest compensated topography and great depths of compensation (100-1000 km) for the midlatitudes of the planet. It is thought that the approximately 1 percent of the topography not explained by hot spot crustal generation is compensated at a shallower depth primarily by variations in crustal thickness that are not directly related to hot spot volcanism.
Morgan Peter
Phillips James R.
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