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Mapping the evolving strain field during continental breakup from crustal anisotropy in the Afar Depression

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  • Derek Keir

    (School of Earth and Environment, University of Leeds
    Present address: National Oceanography Centre, University of Southampton, Southampton SO14 3ZH, UK.)

  • M. Belachew

    (University of Rochester
    Institute of Geophysics, Space Science and Astronomy, Addis Ababa University)

  • C.J. Ebinger

    (University of Rochester)

  • J.-M. Kendall

    (University of Bristol)

  • J.O.S. Hammond

    (University of Bristol)

  • G.W. Stuart

    (School of Earth and Environment, University of Leeds)

  • A. Ayele

    (Institute of Geophysics, Space Science and Astronomy, Addis Ababa University)

  • J.V. Rowland

    (School of Environment, University of Auckland)

Abstract

Rifting of the continents leading to plate rupture occurs by a combination of mechanical deformation and magma intrusion, yet the spatial and temporal scales over which these alternate mechanisms localize extensional strain remain controversial. Here we quantify anisotropy of the upper crust across the volcanically active Afar Triple Junction using shear-wave splitting from local earthquakes to evaluate the distribution and orientation of strain in a region of continental breakup. The pattern of S-wave splitting in Afar is best explained by anisotropy from deformation-related structures, with the dramatic change in splitting parameters into the rift axis from the increased density of dyke-induced faulting combined with a contribution from oriented melt pockets near volcanic centres. The lack of rift-perpendicular anisotropy in the lithosphere, and corroborating geoscientific evidence of extension dominated by dyking, provide strong evidence that magma intrusion achieves the majority of plate opening in this zone of incipient plate rupture.

Suggested Citation

  • Derek Keir & M. Belachew & C.J. Ebinger & J.-M. Kendall & J.O.S. Hammond & G.W. Stuart & A. Ayele & J.V. Rowland, 2011. "Mapping the evolving strain field during continental breakup from crustal anisotropy in the Afar Depression," Nature Communications, Nature, vol. 2(1), pages 1-7, September.
    • Handle: RePEc:nat:natcom:v:2:y:2011:i:1:d:10.1038_ncomms1287
    DOI: 10.1038/ncomms1287
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