Geophysical observations pertaining to solid-state convection in the terrestrial planets

Details Geophysical observations pertaining to solid-state convection in the terrestrial planets Geophysical observations pertaining to solid-state convection in the terrestrial planets

Jun 1979

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1979pepi...19..107p&link_type=abstract

(Lunar and Planetary Institute and NASA, Workshop on Solid Convection in the Terrestrial Planets, Moffett Field, Calif., Dec. 12

Physics

Geophysics

17

Free Convection, Geophysics, Solid State, Terrestrial Planets, Bathymeters, Convective Heat Transfer, Earth Planetary Structure, Electrical Resistivity, Graphs (Charts), Gravity Anomalies, Lithosphere, Seismology, Stress Distribution, Topography, Review, Planets, Terrestrial Planets, Geophysics, Observations, Earth, Tectonism, Theoretical Studies, Stress, Distribution, Lithosphere, Heat, Seismology, Flow, Gravity, Anomalies, Maps, Data, Topography, Mars, Mantles, Wavelengths, Models, Comparisons, Origin, Th

Scientific paper

Observational evidence for solid-state convection in the interiors of the terrestrial planets is reviewed. For the earth, the motion of the lithospheric plates constitutes clear evidence of large-scale convection in the mantle. Although Mars has been found to lack evidence of plate tectonics, the morphology of the Tharsis uplift and the elevation dichotomy between the northern and southern hemispheres may be evidence of mantle convection at one time. Measurements of lunar heat flow and seismic Q imply a convective mechanism limited to the lower mantle. Evidence for internal convection on Mercury consists of its dipole magnetic field and the 3/2 resonance between its rotational motion and its orbital motion, both of which can also be explained by other processes. The limited radar imagery of Venus has not yet provided conclusive evidence of either the presence or absence of convection features. It is concluded that although interior convection in terrestrial planets is implied by rheological, energy and momentum considerations, only on earth is the lithosphere thin enough to provide conclusive evidence of convection.

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