Development of anisotropic structure in the Earth's lower mantle by solid-state convection

Allen K. McNamara, Peter E. Van Keken, Shun Ichiro Karato

Research output: Contribution to journalLetterpeer-review

125 Scopus citations


Seismological observations reveal highly anisotropic patches at the bottom of the Earth's lower mantle, whereas the bulk of the mantle has been observed to be largely isotropic1-4. These patches have been interpreted to correspond to areas where subduction has taken place in the past or to areas where mantle plumes are upwelling, but the underlying cause for the anisotropy is unknown - both shape-preferred orientation of elastically heterogenous materials5 and lattice-preferred orientation of a homogeneous material6-8 have been proposed. Both of these mechanisms imply that large-strain deformation occurs within the anisotropic regions, but the geodynamic implications of the mechanisms differ. Shape-preferred orientation would imply the presence of large elastic (and hence chemical) heterogeneity whereas lattice-preferred orientation requires deformation at high stresses. Here we show, on the basis of numerical modelling incorporating mineral physics of elasticity and development of lattice-preferred orientation, that slab deformation in the deep lower mantle can account for the presence of strong anisotropy in the circum-Pacific region. In this model -where development of the mineral fabric (the alignment of mineral grains) is caused solely by solid-state deformation of chemically homogeneous mantle material - anisotropy is caused by large-strain deformation at high stresses, due to the collision of subducted slabs with the core-mantle boundary.

Original languageEnglish (US)
Pages (from-to)310-314
Number of pages5
Issue number6878
StatePublished - Mar 21 2002
Externally publishedYes

ASJC Scopus subject areas

  • General


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