On the effect of a low viscosity asthenosphere on the temporal change of the geoid—A challenge for future gravity missions |
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| Authors: | Gabriele Marquart Bernhard Steinberger Karen Niehuus |
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| Institution: | aSRON and Institute of Earth Science, University of Utrecht, The Netherlands;bInstitute for Frontier Research in Earth Evolution, Yokosuka, Japan;cInstitute of Meteorology and Geophysics, J.W. Goethe University, Frankfurt, Germany |
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| Abstract: | New satellite technology to measure changes in the Earth’s gravity field gives new possibilities to detect layers of low viscosity inside the Earth. We used density models for the Earth mantle based on slab history as well as on tomography and fitted the viscosity by comparison of predicted gravity to the new CHAMP gravity model. We first confirm that the fit to the observed geoid is insensitive to the presence of a low viscosity anomaly in the upper mantle as long as the layer is thin ( 200 km) and the viscosity reduction is less than two orders of magnitude. Then we investigated the temporal change in geoid by comparing two stages of slablet sinking based on subduction history or by advection of tomography derived densities and compared the spectra of the geoid change for cases with and without a low viscosity layer, but about equal fit to the observed geoid. The presence of a low viscosity layer causes relaxation at smaller wavelength and thus leads to a spectrum with relatively stronger power in higher modes and a peak around degrees 5 and 6. Comparing the spectra to the expected degree resolution for GRACE data for a 5 years mission duration shows a weak possibility to detect changes in the Earth’s gravity field due to large scale mantle circulation, provided that other causes of geoid changes can be taken into account with sufficient accuracy. A discrimination between the two viscosity cases, however, demands a new generation of gravity field observing satellites. |
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| Keywords: | Geoid Geoid anomalies Mantle dynamics Mantle viscosity GRACE satellite mission |
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