Skip to Main Content


Subduction Zone

Overlain by pillow basalt, oceanic ophiolite generated at the ocean ridges with local additions through plume volcanoes and transform faults, rides on convecting mantle to the converging plate margin, where it is subducted along the Benioff plane of seismic foci. Where a continent overlies a subduction zone (e.g., North America), orogenes form; but subduction zones are known in the Pacific Basin associated only with island arcs. How far the Benioff subduction zone extends beneath the continent is questionable, but mantle-derived taphrogenic intrusives suggest that it may extend past orogenic forelands (Figs. 4, 21).

Juvenile fluids and volatiles, mantle-derived silicate and metallic minerals including thorium and uranium, and ocean water entrained and fixed in oceanic crust all migrate in the seafloor to the orogene, where they can be remobilized. Some portion of these materials probably enters the ocean, where they remain stabilized unless selectively extracted by chemical sedimentation. A large portion of fluids and metals may remain fixed in oceanic crust as it moves down the subduction plane, and the movable elements may not be mobilized, to penetrate the overlying crust, before the ophiolite reenters the mantle. The relative portions of the mobile elements added to the orogene root or returned to the mantle are speculative.

Figures & Tables





Citing Books via

Close Modal
This Feature Is Available To Subscribers Only

Sign In or Create an Account

Close Modal
Close Modal