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24 janvier 2025
- 10938/25915
- 2-s2.0-85033456881
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Journal of Geodynamics
Mots-clés
Dynamics of lithosphere and mantle Planetary interiors Receiver function Seismic anisotropy Shear wave splitting Turkey African plate Arabian plate Faulting Lithosphere Mantle S-wave Shear zone Strike-slip fault Tectonic setting Wave splittingSujets proches
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Lemnifi et al., « Complex seismic anisotropy and mantle dynamics beneath Turkey », American University of Beirut ScholarWorks
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Résumé
Seismic anisotropy is an unambiguous property of the deep Earth that is often detected through shear wave splitting (SWS) and anisotropic receiver function (RF) techniques, which are then used to infer the lithospheric and asthenospheric deformational structure. The Anatolian plate and its associated Mediterranean, Eurasian, and Arabian plate boundaries represent the consequences of a variety of convergent and transform tectonic regimes; these boundaries are thus well-suited for studying seismic anisotropy related to subduction, orogenic, and strike-slip processes. We apply a joint SWS and RF analysis to identify the magnitude and orientation of deformation associated with lithosphere-asthenosphere coupling beneath the Anatolian plate system as well as intra-plate fossil fabrics resulting from ancient and ongoing collision. SWS analysis reveals the existence of complex anisotropic fabrics beneath the Anatolian region, where the upper-layer fast orientations are either parallel to strike-slip faults or orthogonal to reverse faults. Strongly oriented NE-SW lower-layer fast orientations suggest that they originate from slab-modulated flow in the mantle wedge overlying the northward-subducting African plate. The results of the RF analysis show that the fast orientations are spatially variable but are generally consistent with crustal fabrics developed mostly through intensive faulting and are possibly associated with sub-vertical lower crustal shear zones. © 2017 Elsevier Ltd
