Subduction dynamics: Constraints from gravity field observations
Abstract
Satellite systems do the best job of resolving the long wavelength components of the Earth's gravity field. Over the oceans, satellite-borne radar altimeters such as SEASAT provide the best resolution observations of the intermediate wavelength components. Satellite observations of gravity contributed to the understanding of the dynamics of subduction. Large, long wavelength geoidal highs generally occur over subduction zones. These highs are attributed to the superposition of two effects of subduction: (1) the positive mass anomalies of subducting slabs themselves; and (2) the surface deformations such as the trenches convectively inducted by these slabs as they sink into the mantle. Models of this subduction process suggest that the mantle behaves as a nonNewtonian fluid, its effective viscosity increases significantly with depth, and that large positive mass anomalies may occur beneath the seismically defined Benioff zones.
- Publication:
-
Geopotential Research Mission (GRM)
- Pub Date:
- October 1985
- Bibcode:
- 1985grm..nasa...46M
- Keywords:
-
- Earth Gravitation;
- Geopotential;
- Gravitational Fields;
- Nonnewtonian Flow;
- Subduction (Geology);
- Viscosity;
- Wavelengths;
- Mathematical Models;
- Satellite Observation;
- Steady Flow;
- Surface Defects;
- Geophysics