Physics
Scientific paper
Feb 1985
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1985natur.313..775b&link_type=abstract
Nature (ISSN 0028-0836), vol. 313, Feb. 28, 1985, p. 775-777.
Physics
28
Convection, Earth Mantle, Lithosphere, Ocean Bottom, Gravity Anomalies, Planetary Boundary Layer, Plates (Tectonics), Subsidence, Viscous Flow
Scientific paper
A numerical model of small-scale convection in a fluid of variable viscosity is described. The results indicate that recently observed gravity anomalies showing a pattern of highs and lows aligned in the direction of oceanic plate motion may be the result of small-scale mantle flow. The convective flow must begin in the first six Myr of lithospheric cooling to produce the observed signals, which is not inconsistent with constraints on the viscosity of the mantle. The calculated trend for the subsidence of the ocean floor is found to be almost linear with the square root of time even when small-scale convection has significantly changed the rate of subsidence. For average shallow asthenospheric viscosities of about 10 to the 18th Pa/s, the model subsidence can match data for the oceans and reproduce the magnitude and wavelength of the observed gravity anomalies.
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