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26.2: Rocks and structures associated with the subduction of oceanic crust

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    22800
    • Callan Bentley, Karen Layou, Russ Kohrs, Shelley Jaye, Matt Affolter, and Brian Ricketts
    • OpenGeology

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    The original seafloor rock types that were fed into the subduction zone included:

    • Mantle peridotite
    • Oceanic crustal rocks: Basalt and gabbro
    • Deep sea sediments: chert + shale
    • Turbidites: shale + graywacke
    • Continental margin sediments: Sandstone + conglomerate
    A cross-section showing the position of various metasedimentary and metavolcanic rocks in a subduction zone: basalt of the oceanic crust and overlying sandstone and shale are shoved under the accretionary wedge at a depth of about 10 km. As they descend, the basalt turns first into greenstone (~20 to ~35km depth), then into blueschist (~30 to ~50km depth), then into eclogite (~45km to 60 km depth). The sandstone and shale overlying the crust metamorphosed to make meta-sandstone and phyllite, and eventually schist.
    Figure \(\PageIndex{1}\): A general diagram showing the position of various meta-sedimentary and meta-volcanic rocks within a classic “cold” subduction zone relative to the accretionary wedge that forms on the leading edge of the overriding plate.

    Once subducted, these rocks metamorphosed to various degrees, making new rocks:

    • Serpentinite
    • Greenstone (greenschist where foliated)
    • Blueschist
    • Eclogite
    • Metachert
    • Phyllite
    • Schist
    • Metaconglomerate

    Besides metamorphosing, being subducted wasn’t easy on these rocks. They accrued several kinds of deformation as a result of the tectonic stresses they experienced:

    • Chevron folds
    • Thrust faults
    • Mélange

    Let’s examine the metamorphic transformations in turn: first the oceanic lithosphere itself, and then the sedimentary cover. We’ll look at the protolith, and then at the metamorphic rock (or rocks) it can become. Finally, we’ll examine the deformational structures that record evidence of the stresses of subduction.

    This page titled 26.2: Rocks and structures associated with the subduction of oceanic crust is shared under a CC BY-NC 4.0 license and was authored, remixed, and/or curated by Callan Bentley, Karen Layou, Russ Kohrs, Shelley Jaye, Matt Affolter, and Brian Ricketts (OpenGeology) via source content that was edited to the style and standards of the LibreTexts platform.