Abstract
SUMMARY Models of geodetic observations of postseismic relaxation most often represent the lithosphere with only a few layers with constant viscosity. This is surpr ising, because rock mechanical experiments consistently demonstrate that we should expect a profound vertical gradient in lithospheric viscosities, due to the geothermal gradient i n this thermal boundary layer. We isolate the effect of lower crustal flow, where the effect of visc osity gradients has the largest impact on surface deformation. We therefore explore postseismic deformation in models with realistic vertical viscosity gradients, and seek to illustrate th e differences between these models and those with idealized uniform viscosity layers. By means of synthetic experiments with a semianalytical viscoelastic relaxation model, we show how, for a given earthquake, the averaged viscosity value obtained for a thick viscoelastic layer is d ependent on both the layout of the geodetic network and on the observation time window.
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