Search results for "Ophiolites"

showing 3 items of 3 documents

Caribbean Plate margin evolution: constraints and current problems

2021

Oceanic crust was generated at multiple spreading centres during the Jurassic and Early Cretaceous, forming a "proto-Caribbean" oceanic domain. During the Cretaceous, part of that crustal domain thickened into an oceanic plateau, of petrologic Mid-Ocean Ridge (MOR) to Ocean Island Basalt (OIB) affinity. Simultaneously, the South and North American continental plates developed rifting and tholeiitic magmatism in the Middle America region (Venezuela and Cuba). The rifting created space for the proto-Caribbean oceanic domain. Petrological and regional correlations suggest that, beginning in the Cretaceous, the proto-Caribbean domain was involved into two main stages of subduction, referred to …

Caribbean PlatePlate-tectonic models.Tectono-magmatic settingCaribbean Plate Ophiolites Tectono-magmatic setting Geodynamic evolution Plate-tectonic models.Caribbean Plate Ophiolites Tectono-magmatic setting Geodynamic evolution Plate-tectonic modelOphiolitesPlate-tectonic modelsGeodynamic evolutionNO
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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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Cold plumes trigger contamination of oceanic mantle wedges with continental crust-derived sediments: Evidence from chromitite zircon grains of easter…

2018

The origin of zircon grains, and other exotic minerals of typical crustal origin, in mantle-hosted ophiolitic chromitites are hotly debated.We report a population of zircon grains with ages ranging from Cretaceous (99 Ma) to Neoarchean (2750 Ma), separated from massive chromitite bodies hosted in the mantle section of the supra-subduction (SSZ)-type Mayarí-Baracoa Ophiolitic Belt in eastern Cuba. Most analyzed zircon grains (n = 20, 287 +/- 3 Ma to 2750 +/- 60 Ma) are older than the early Cretaceous age of the ophiolite body, show negative εHf(t) (+/-26 to +/-0.6) and occasional inclusions of quartz, K-feldspar, biotite, and apatite that indicate derivation from a granitic continental crust…

ZirconU-Pb geochronologyGeologia submarina010504 meteorology & atmospheric sciencesMantle wedgeGeochronologyGeochemistryOphiolites010502 geochemistry & geophysicsOphiolite01 natural sciencesChromititesMantle (geology)Ofiolites0105 earth and related environmental sciencesgeographygeography.geographical_feature_categorySubductionVolcanic arcContinental crustZirconilcsh:QE1-996.5Cubalcsh:GeologyGeocronologiaGeneral Earth and Planetary SciencesChromititeSubmarine geologyCold plumesZirconiumGeologyZirconGeoscience Frontiers
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