The Betic Ophiolites and the Mesozoic Evolution of the Western Tethys
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Díaz Puga, Miguel Ángel; Puga, Encarnación; Díaz de Federico, Antonio; Fanning, Mark; Nieto, José Miguel; [et al.]Fecha
2017-04-20Resumen
The Betic Ophiolites consist of numerous tectonic slices, metric to kilometric in size, of eclogitized mafic and ultramafic rocks associated to oceanic metasediments, deriving from the Betic oceanic domain. The outcrop of these ophiolites is aligned along 250 km in the Mulhacén Complex of the Nevado-Filábride Domain, located at the center-eastern zone of the Betic Cordillera (SE Spain). According to petrological/geochemical inferences and SHRIMP (Sensitive High Resolution Ion Micro-Probe) dating of igneous zircons, the Betic oceanic lithosphere originated along an ultra-slow mid-ocean ridge, after rifting, thinning and breakup of the preexisting continental crust. The Betic oceanic sector, located at the westernmost end of the Tethys Ocean, developed from the Lower to Middle Jurassic (185–170 Ma), just at the beginning of the Pangaea break-up between the Iberia-European and the Africa-Adrian plates. Subsequently, the oceanic spreading migrated northeastward to form the Ligurian and Alp...
Palabra/s clave
zircon U–Pb SHRIMP dating
eclogitized ophiolites
Pangaea break-up
Western Tethys
Betic Cordillera