J.F. Molina scite author profile

A B S T R A C TThe Avila batholith of central Spain is composed of upper Carboniferous peraluminous granitoids that were preceded by volumetrically insignificant bodies of mafic-ultramafic hybrid magmas and postdated by several dike swarms of camptonitic lamprophyres. Rb-Sr dating indicates continuous magmatic activity from 350 Ma to 280 Ma, starting ∼ ∼ with the mafic precursors and a few midcrustal anatectic leucogranites, followed by massive autochthonous and allochthonous granodiorites and granites, and ending with the camptonitic lamprophyres. Early hybrid mafic magmas ( ; ) were produced in small batches during or immediately after the main deformation 340 Ma 340 Ma Sr ∼ 25 Nd ∼ Ϫ1.5 phase, probably by the partial melting of a mixture of 8 : 2 mantle and biotite-bearing crustal rocks at the crust-∼ mantle interface. These magmas were emplaced in the middle crust at 340 Ma, advecting a negligible amount of ∼ heat. The generation of crustal granites during the main deformation phase was very scarce and limited to highly fertile protoliths, rich in heat-producing elements, affected by strong shear zones. The generation of crustal granitoids on a batholithic scale took place from 330 Ma to 290 Ma, during the main extensional period. Granites ∼ ∼ ( -150; ) were produced by the partial melting of fertile crustal rocks 310 Ma 310 Ma Sr ∼ 45 Nd ∼ Ϫ2.1 to Ϫ 9 ( -218; ), characterized by high heat production ( 2.5-3 mW m Ϫ3 ). The zone of 310 Ma 310 Ma Sr ∼ 48Nd ∼ Ϫ2.2 to Ϫ 9 ∼ partial melting, 15-22 km in depth, was heated by thermal conduction from below after crustal thinning, but the ∼ contribution of radiogenic heat and the fertility of source rocks would have been essential for anatexis. The fast thinning of the crust from 310 Ma to 285 Ma released lithostatic pressure in the upper mantle and caused decom-∼ ∼ pressional melting of the metasome layer at 60-85 km in depth, producing camptonitic melts dated at 283 Ma. ∼ ∼ The existence of a fertile metasome layer implies that the lithospheric mantle beneath central Iberia was not actively involved in subduction during the Variscan orogeny.

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Carbonate stability and fluid composition in subducted oceanic crust: an experimental study on H2O–CO2-bearing basalts

Molina

Poli

2000

194

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Rb/Sr record of fluid-rock interaction in eclogites: The Marun-Keu complex, Polar Urals, Russia

Glodny

Austrheim

Molina

et al. 2003

Geochimica et Cosmochimica Acta

101

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Calcic amphibole thermobarometry in metamorphic and igneous rocks: New calibrations based on plagioclase/amphibole Al-Si partitioning and amphibole/liquid Mg partitioning

Molina

Moreno

Castro

et al. 2015

Lithos

163

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Critical factors and results of quality management: an empirical study

Claver¹,

Tarı́²,

Molina³

2003

Total Quality Management and Business Excellence

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High-Ti amphibole as a petrogenetic indicator of magma chemistry: evidence for mildly alkalic-hybrid melts during evolution of Variscan basic–ultrabasic magmatism of Central Iberia

Molina

Scarrow

Montero

et al. 2009

Contrib Mineral Petrol

109

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J.F. Molina

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Mafic Precursors, Peraluminous Granitoids, and Late Lamprophyres in the Avila Batholith: A Model for the Generation of Variscan Batholiths in Iberia

Carbonate stability and fluid composition in subducted oceanic crust: an experimental study on H2O–CO2-bearing basalts

Rb/Sr record of fluid-rock interaction in eclogites: The Marun-Keu complex, Polar Urals, Russia

Calcic amphibole thermobarometry in metamorphic and igneous rocks: New calibrations based on plagioclase/amphibole Al-Si partitioning and amphibole/liquid Mg partitioning

Critical factors and results of quality management: an empirical study

High-Ti amphibole as a petrogenetic indicator of magma chemistry: evidence for mildly alkalic-hybrid melts during evolution of Variscan basic–ultrabasic magmatism of Central Iberia

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