Thermal softening induced subduction initiation at a passive margin

We present 2-D numerical simulations of convergence at a hyperextended passive margin with exhumed subcontinental mantle. We consider viscoelasto-plastic deformation, heat transfer and thermomechanical coupling by shear heating and associated thermal softening due to temperature dependent viscosity....

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Veröffentlicht in:	Geophysical journal international 2020-03, Vol.220 (3), p.2068-2073
Hauptverfasser:	Kiss, Dániel, Candioti, Lorenzo G, Duretz, Thibault, Schmalholz, Stefan M
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Sprache:	eng
Schlagworte:	Earth Sciences Sciences of the Universe Tectonics
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container_title	Geophysical journal international
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creator	Kiss, Dániel Candioti, Lorenzo G Duretz, Thibault Schmalholz, Stefan M
description	We present 2-D numerical simulations of convergence at a hyperextended passive margin with exhumed subcontinental mantle. We consider viscoelasto-plastic deformation, heat transfer and thermomechanical coupling by shear heating and associated thermal softening due to temperature dependent viscosity. The simulations show subduction initiation for convergence velocities of 2 cm yr−1, initial Moho temperatures of 525 °C and maximal deviatoric stresses of ca. 800 MPa, around the Moho, prior to localization. Subduction initiates in the region with thinned continental crust and is controlled by a thermally activated ductile shear zone in the mantle lithosphere. The shear zone temperature can be predicted with a recently published analytical expression. The criterion for subduction initiation is a temperature difference of at least 225 °C between predicted temperature and initial Moho temperature. The modelled forced subduction broadly agrees with geological data and reconstructions of subduction during closure of the Piemont-Liguria basin, caused by convergence of the European and Adriatic plates during the Alpine orogeny.
doi_str_mv	10.1093/gji/ggz572
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title	Thermal softening induced subduction initiation at a passive margin
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