Search results for " subduction"

showing 6 items of 16 documents

Extensive backthrusting features in the northern Sicily continental margin highlight a late collisional stage of the Sicilian Fold and Thrust Belt

2016

Backthrusting, nappe refolding, and normal faulting frequently characterize late collisional stage of an orogen. Shortening driven by backthrusting is widely reported in the Alpine orogen, and it has been proposed to be responsible for the increase of subsidence. Moreover delamination and backthrusting has been considered as related to subcritical condition of a Coulomb-type accretional wedge (Torres Carbonell et al., 2011). The Sicilian Fold and Thrust Belt (SFTB) was characterized by a three-stage evolution during the last 15 My: two main shortening events generated and developed at different structural levels (shallow- and deep-seated thrusts in thinskinned thrust-model) and different ti…

Settore GEO/02 - Geologia Stratigrafica E Sedimentologicabackthrusting late collisional stage Sicilan Fold and Thrust Belt subduction polarity
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Arc and forearc rifting in the Tyrrhenian subduction system

2022

The evolution of forearc and backarc domains is usually treated separately, as they are separated by a volcanic arc. We analyse their spatial and temporal relationships in the Tyrrhenian subduction system, using seismic profiles and numerical modelling. A volcanic arc, which included the Marsili volcano, was involved in arc-rifting during the Pliocene. This process led to the formation of an oceanic backarc basin (~ 1.8 Ma) to the west of the Marsili volcano. The eastern region corresponded to the forearc domain, floored by serpentinised mantle. Here, a new volcanic arc formed at ~ 1 Ma, marking the onset of the forearc-rifting. This work highlights that fluids and melts induce weakening of…

Solid Earth sciencesMultidisciplinarySettore GEO/02 - Geologia Stratigrafica E SedimentologicaSettore GEO/03 - Geologia StrutturaleGeodynamicsGeodynamics; Solid Earth sciencesTyrrhenian Basin Forearc Backarc Tyrrhenian-Ionian Subduction System
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Magmatism Along Lateral Slab Edges: Insights From the Diamante-Enotrio-Ovidio Volcanic-Intrusive Complex (Southern Tyrrhenian Sea)

2019

Volcanic‐intrusive complexes often formed along lateral slab edges as a consequence of subduction‐induced mantle flow. We investigate this process in the southern Tyrrhenian Sea by integrating multibeam bathymetry, seismic‐reflection data, regional magnetic anomalies data, and seismological data. The interpretation of the data highlights the presence of magmatic intrusions that locally reach the seafloor forming volcanic edifices. Chimneys, lava flows, and laccoliths are observed beneath and surrounding the volcanoes. The emplacement and cooling of the magma occurred during the Brunhes Chron. The volcanoes are not active even if the hydrothermal activity occurs. The volcanic‐intrusive compl…

Tyrrhenian Seageographygeography.geographical_feature_categorySettore GEO/02 - Geologia Stratigrafica E Sedimentologicacalabrian acrccalabrian acrc; flat-topped seamount; slab tearing; STEP fault; subduction-induced mantle flow; Tyrrhenian SeaSettore GEO/03 - Geologia StrutturaleGeochemistryflat-topped seamountsubduction-induced mantle flowCalabrian Arc; flat-topped seamount; slab tearing; STEP fault; subduction-induced mantle flow; Tyrrhenian SeaCalabrian ArcGeophysicsCalabrian Arc Tyrrhenian Sea Subduction-induced mantle flow STEP fault slab tearing flat-topped seamount.VolcanoGeochemistry and PetrologySettore GEO/11 - Geofisica ApplicataMagmatismSlabslab tearingGeologySTEP faultCalabrian Arc Tyrrhenian Sea subduction induced mantle flow STEP fault slab tearing flat‐topped seamount
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Tethyan vs. Cordilleran ophiolites: a reappraisal of distintctive tectono-magmatic features of supra-subduction complexes in relation to the subducti…

2004

Abstract Supra-subduction zone (SSZ) ophiolites deserve special attention because they represent fundamental markers of intraoceanic convergence and generation of new lithosphere above subduction zones. Moreover, owing to their structural characteristics and location in the overriding plate, these complexes are far better represented and preserved than Mid-Ocean-Ridge-Basalt (MORB) ophiolites in orogenic belts. In terms of their structure, tectonics, and magmatic features, SSZ ophiolites may be classified in two main types: (1) “Tethyan complexes” (such as those of the Albanide-Hellenide belt), which mostly consist of complete and extensive volcanic, dyke, plutonic, and mantle sections with…

UnderplatingSubductionEarth scienceGeochemistryOphioliteGeophysicsBack-arc basinIsland arcConvergent boundaryForearcTethyan Cordilleran Suprasubduction zone ophiolites Subduction mode Tectono-magmatic modelsGeologyEarth-Surface ProcessesTerrane
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Hinterland-Verging Thrusting in the Northern Sicily Continental Margin: Evidences for a Late Collisional Stage of the Sicilian Fold and Thrust Belt?

2018

The Sicilian Fold and Thrust Belt developed during Neogene-Quaternary times characterized by main African-wards tectonic transport direction. Recent investigations highlighted extensive hinterland-verging tectonic structures active during late Pliocene-Pleistocene time suggesting a late collisional stage of the Sicilian Fold and Thrust Belt that could be a precursor of a change in the subduction polarity in the central belt of Mediterranean.

geographygeography.geographical_feature_categorySubductionPolarity (physics)Central beltlanguage.human_languageBackthrusting Subduction polarity Sicilian Fold and Thrust Belt Central Mediterranean geodynamicsPaleontologyTectonicsContinental marginStage (stratigraphy)Fold and thrust beltlanguageSicilianGeology
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Active north-vergent thrusting in the northern Sicily continental margin in the frame of the quaternary evolution of the Sicilian collisional system

2021

Abstract A three-stage evolution has characterized the Sicilian Fold and Thrust Belt (SFTB) during the last 15 My: two main thin-skinned shortening events involving mainly Meso-Cenozoic carbonate units, followed by thick-skinned thrusting involving Plio-Pleistocene deposits in the frontal area as well as the crystalline basement in the inner and deeper sector of the chain. We investigated the northern Sicily continental margin, by using differently-penetrative seismic reflection data and new field surveys, which revealed, both offshore and onshore, north-vergent compressional structures that affected the tectonic edifice during Quaternary time. These structures, correlated with the kinemati…

geographygeography.geographical_feature_categorySubductionSettore GEO/03 - Geologia StrutturaleActive Tectonics Backthrust Fold and Thrust Belt Seismicity Subductionlanguage.human_languagePaleontologyTectonicsGeophysicsContinental marginFold and thrust beltlanguageSubmarine pipelineSeismic riskQuaternarySicilianGeologyEarth-Surface Processes
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