Title of article
The structure and dynamics of the mantle wedge
Author/Authors
van Keken، نويسنده , , Peter E، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
16
From page
323
To page
338
Abstract
A large amount of water is brought into the Earth’s mantle at subduction zones. Upon subduction, water is released from the subducting slab in a series of metamorphic reactions. The resulting flux into the mantle wedge modifies its chemical and physical properties by mineral hydration with associated weakening, flux melting and changes in the dynamics and thermal structure of subduction zones. Water guides the formation of volcanoes, earthquakes, continent formation and the long-term chemical evolution of the Earth’s mantle. Recent observational advances include the better documentation of the role of water in causing melting from minor and trace elements in arc lavas, improved structure of the mantle wedge derived from seismic tomography, and documentation of hydration of the mantle wedge from converted phases. High-pressure experiments allow for a quantification of the role of water on seismic velocities and attenuation and rheological changes, which provide essential input into models of subduction zones. Computational models provide additional evidence for the importance of the mantle wedge in subduction zone dynamics.
Keywords
Mantle wedge , Arc volcanism , subduction zones , Seismic tomography , MODELING , geodynamics , geodynamical modeling , Seismic anisotropy , Deformation mechanisms , Benioff zones
Journal title
Earth and Planetary Science Letters
Serial Year
2003
Journal title
Earth and Planetary Science Letters
Record number
2323263
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