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Showing 1–2 of 2 results
Advanced filters: Author: Luigi Burlini Clear advanced filters

  • It is shown that the amount and geometry of seismic anisotropy measured in the forearc regions of subduction zones strongly depend on the preferred orientation of hydrated faults in the subducting oceanic plate. The anisotropy originates from the crystallographic preferred orientation of highly anisotropic hydrous minerals formed along steeply dipping faults and from the larger-scale vertical layering consisting of dry and hydrated crust–mantle sections, the spacing of which is several times smaller than teleseismic wavelengths.

    • Manuele Faccenda
    • Luigi Burlini
    • David Mainprice
    Research
    Nature
    Volume: 455, P: 1097-1100

  • Geophysical data reveal that at subduction zones oceanic plates could be pervasively hydrated for several kilometres below the crust–mantle boundary. Numerical experiments suggest that such deep hydration is facilitated by negative pressure gradients that lead to the downward pumping of water along bending-related normal faults.

    • Manuele Faccenda
    • Taras V. Gerya
    • Luigi Burlini
    Research
    Nature Geoscience
    Volume: 2, P: 790-793