THE EFFECT OF A SHALLOW LOW VISCOSITY ZONE ON THE APPARENT COMPENSATION OF MID-PLATE SWELLS

Robinson, E; Parsons, B; Daly, S

Journal article

THE EFFECT OF A SHALLOW LOW VISCOSITY ZONE ON THE APPARENT COMPENSATION OF MID-PLATE SWELLS

Abstract:: A simple model for mid-plate swells is that of convection in a fluid which has a low viscosity layer lying between a rigid bed and a constant viscosity region. Finite element calculations have been used to determine the effects of the viscosity contrast, the layer thickness and the Rayleigh number on the flow and on the perceived compensation mechanism for the resulting topographic swell. As the viscosity decreases in the low viscosity zone, the effective local Rayleigh number for the top boundary layer of the convecting cell increases. Also, because the lower viscosity facilitates greater velocities in the low viscosity zone, the low viscosity layer produces proportionally greater horizontal flow near the conducting lid, causing the base of the conducting lid to appear like a free boundary. The change in the local Rayleigh number and in the effective boundary condition both cause the top boundary layer to thin. Through a Green's function analysis, we have found that the low viscosity zone damps the response of the surface topography to the temperature anomalies at depth, whereas it causes the gravity and geoid response functions to change sign at depth counteracting the positive contributions from the shallower temperature variations. By increasing the viscosity contrast, the conbined effects of the thinning of the boundary layer and the behaviour of the response functions allow the apparent depth of compensation to become arbitrarily small. Therefore, shallow depths of compensation cannot be used to argue against dynamic support of mid-plate swells. Furthermore, we compared the distribution of the effective compensating densities, which is used to obtain the geoid, to that of Pratt compensation, which is often used to calculate the depth of compensation from geoid and topography data for mid-plate swells. For all of our calculations including those with no low viscosity layer, the effective gravitational mass distribution is more complex than assumed in simple Pratt models, so that the Pratt models are not an appropriate gauge of the compensation mechanism. © 1987.

Publication status:: Published

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APA Style

Robinson, E., Parsons, B., & Daly, S. (1987). THE EFFECT OF A SHALLOW LOW VISCOSITY ZONE ON THE APPARENT COMPENSATION OF MID-PLATE SWELLS. EARTH AND PLANETARY SCIENCE LETTERS, 82(3-4), 335–348.

MLA Style

Robinson, E, et al. “THE EFFECT OF A SHALLOW LOW VISCOSITY ZONE ON THE APPARENT COMPENSATION OF MID-PLATE SWELLS.” EARTH AND PLANETARY SCIENCE LETTERS, vol. 82, nos. 3-4, 1987, pp. 335–48.

Chicago Style

Robinson, E, B Parsons, and S Daly. 1987. “THE EFFECT OF A SHALLOW LOW VISCOSITY ZONE ON THE APPARENT COMPENSATION OF MID-PLATE SWELLS.” EARTH AND PLANETARY SCIENCE LETTERS 82 (3-4): 335–48.
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