Publication 130
Joint inversion of long-period magnetotelluric data and surface-wave dispersion curves for anisotropic structure:
Application to data from Central Germany
Roux, E., M. Moorkamp, A.G. Jones, M. Bischoff, B. Endrun, S. Levedev, and T. Meier
Abstract
Geophysical datasets sensitive to different physical parameters can be used to
improve resolution of Earth's internal structure. Herein, we jointly invert long-period
magnetotelluric (MT) data and surface-wave dispersion curves. Our approach is based
on a joint inversion using a genetic algorithm for a one-dimensional (1-D) isotropic
structure, which we extend to 1-D anisotropic media. We apply our new anisotropic
joint inversion to datasets from Central Germany demonstrating the capacity of our
joint inversion algorithm to establish a 1-D anisotropic model that fits MT and
seismic datasets simultaneously and providing new information regarding the deep
structure in Central Germany. The lithosphere/asthenosphere boundary is found at
approx. 84 km depth and two main anisotropic layers with coincident most
conductive/seismic fast-axis direction are resolved at lower crustal and asthenospheric
depths. We also quantify the amount of seismic and electrical anisotropy in the
asthenosphere showing an emerging agreement between the two anisotropic
coefficients.
Source
Geophysical Research Letters, 38, L05304, doi:10.1029/2010GL046358, pp 5.
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Alan G Jones / 25 September 2011 /
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