Tracing the Cambro-Ordovician ferrosilicic to calc-alkaline magmatic
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Abstract
U–Pb geochronological study of zircons from nodular granites and Qtz-diorites comprising part of Variscan high-
grade metamorphic complexes in Gredos massif (Spanish Central System batholith) points out the significant
presence of Cambro-Ordovician protoliths among the Variscan migmatitic rocks that host the Late Carboniferous
intrusive granitoids. Indeed, the studied zone was affected by two contrasted tectono-magmatic episodes, Car-
boniferous (Variscan) and Cambro-Ordovician. Three main characteristics denote a close relation between the
Cambro-Ordovician protholiths of the Prado de las Pozas high-grade metamorphic complex, strongly reworked
during the Variscan Orogeny, and other Cambro-Ordovician igneous domains in the Central Iberian Zone of the
Iberian Massif: (1) geochemical features show the ferrosilicic signature of nodular granites. They plot very
close to the average analysis of themetavolcanic rocks of the Ollo de Sapo formation (Iberia). Qtz-diorites present
typical calc-alkaline signatures and are geochemically similar to intermediate cordilleran granitoids. (2) Both
Qtz-diorite and nodular granite samples yield a significant population of Cambro-Ordovician ages, ranging
between 483 and 473 Ma and between 487 and 457 Ma, respectively. Besides, (3) the abundance of zircon inher-
itance observed on nodular granites matches the significant component of inheritance reported on Cambro-
Ordovician metagranites and metavolcanic rocks of central and NW Iberia.
The spatial and temporal coincidence of both peraluminous and intermediate granitoids, and specifically in
nodular granites and Qtz-diorite enclaves of the Prado de las Pozas high-grade complex, is conducive to a
common petrogenetic context for the formation of both magmatic types.
Tectonic and geochemical characteristics describe the activity of a Cambro-Ordovician arc-back-arc tectonic set-
ting associated with the subduction of the Iapetus–Tornquist Ocean and the birth of the Rheic Ocean. The exten-
sional setting is favorable for the generation, emplacement, and fast rise of subduction-related cold diapirs,
supported by the presence of typical calc-alkaline cordilleran granitoids contemporary with ferrosilicic
volcanism.
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Citation
Díaz-Alvarado J, Fernández C, Chichorro M, Castro A, Pereira MF (2016).Tracing the Cambro-Ordovician ferrosilicic to calc-alkaline magmatic
association in Iberia by in situ U–Pb SHRIMP zircon geochronology
(Gredos massif, Spanish Central System batholith). Tectonophysics 681:95–110