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The fate of oceanic plateaus: subduction versus accretion

Zhiyong Yan, Lin Chen, Andrew V. Zuza, Jiaxuan Tang, Bo Wan, Qing‐Ren Meng

2022Geophysical Journal International15 citationsDOI

Abstract

SUMMARY Oceanic plateaus (or aseismic ridges) can be either subducted into the deep mantle, or accreted onto the overriding plate. Furthermore, some oceanic plateaus can change subduction mode from steep to flat-slab subduction. What factors control the fate of oceanic plateaus during subduction remain enigmatic. Here, we investigate the controls on these modes and their respective geological effects using 2-D thermomechanical simulations. We systematically examine the characteristics of an oceanic plateau (including crustal thickness and length), plateau-trench distance, convergence rate and eclogitization of the oceanic crust. Our models confirm that the size of the plateau and eclogitization are the main factors controlling the subduction characteristics. For the eclogite models, a relatively thin oceanic plateau (≤20 km thick) undergoes steep subduction, a moderate-scale plateau (25–30 km thick) favours flat-slab subduction and large-scale plateaus (≥35 km thick) are more susceptible to collide and accrete to the overriding upper plate. Eclogitization significantly reduces the formation chance and duration of flat-slab subduction. The switch from flat-slab to steep subduction occurs rapidly (<5 Ma), and the steepening occurs twice as fast as the flattening. The plateau-trench distance determines the location of the break-off, and shallow break-off (<300 km) of the frontal slab will significantly change the subduction pattern. Either fast convergence rates (≥8 cm yr−1) or overthrusting of the overriding plate promotes the formation of flat-slab subduction. The mode changed from flat-slab to steep subduction explains the landward migration of magmatism followed by a trenchward migration in Eastern China since the Mesozoic.

Topics & Concepts

SubductionEclogitizationGeologySlabSlab windowEclogiteMantle (geology)Plateau (mathematics)SeismologyMagmatismOceanic crustGeophysicsPetrologyTectonicsMathematicsMathematical analysisGeological and Geochemical AnalysisHigh-pressure geophysics and materialsearthquake and tectonic studies
The fate of oceanic plateaus: subduction versus accretion | Litcius