Evaluating post-perovskite as a cause of D" anisotropy in regions of palaeosubduction

Abstract

Seismic anisotropy in the Earth's lowermost mantle (D") is often attributed to the alignment of MgSiO3 post-perovskite (ppv) by the movement of dislocations in response to mantle flow. However, ppv's plastic yield surface is not known; nor do we know if this is the main deformation mechanism. We make use of a heterogeneous, generally anisotropic model of elasticity in D" derived from a 3-D model of mantle flow, which is obtained by inversion of geophysical observables. Unlike previous approaches, completely general, 3-D flow and full anisotropy are permitted, yielding more information to compare with observations than has been possible before. We model observations of anisotropy in D" by calculating the shear wave splitting predicted in ScS waves for a series of models of ppv plasticity. We find that observations in regions of the lowermost mantle beneath subduction zones are best fit by a modelwhich accommodates slip on (010). Our results showthat, within one standard deviation, slip on (010)-or a mechanism giving the same style of anisotropy-explains D" anisotropy beneath these regions. © The Authors 2012. Published by Oxford University Press on behalf of The Royal Astronomical Society.