I. Moreno‐Ventas scite author profile

This paper gives the results of a set of laboratory experiments designed to analyse the petrological implications of mantle wedge plumesçlarge buoyant structures predicted by thermomechanical numerical modelling of subduction zones. A particular design of layered capsule was used to simulate the complex multilayer formed by intense flow within the mantle wedge as predicted by numerical models. A basaltic [mid-ocean ridge basalt (MORB)-derived amphibolite] component was sandwiched between two adjacent layers of a sedimentary (Bt-rich metagreywacke) component. Conditions were fixed at temperatures of 1000^12008C at pressures of 1•5^2•0 GPa. Our results suggest that significant volumes of hybrid, Cordilleran-type granodioritic magmas can be generated by sub-lithospheric partial melting of a mechanically mixed source. Partial melting of the end-members is not buffered, forming granitic (melting of metasediment) and trondhjemitic (melting of MORB) melts in high-variance assemblages Melt þ Grt þ Pl and Melt þ Grt þ Cpx, respectively. However, the composition of melts formed from partial melting of metasediment^MORB me¤ langes is buffered for sediment-to-MORB ratios ranging from 3:1 to 1:3, producing liquids of granodiorite to tonalite composition along a cotectic with the lower-variance phase assemblage Melt þ Grt þ Cpx þ Pl. Our model explains the geochemical and isotopic characteristics of Cordilleran batholiths. In particular, it accounts for the observed decoupling between major element and isotopic compositions. Large variations in isotopic ratios can be inherited from a compositionally heterogeneous source; however, major element compositions are more strongly dependent on the temperature of melting rather than on the composition of the source.

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Significance of MORB-derived Amphibolites from the Aracena Metamorphic Belt, Southwest Spain

Castro

Fernández

Rosa

et al. 1996

J Petrology

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The Aracena metamorphic belt, in the southwest Iberian Massif, is characterized by the presence of MORB-derived amphibolites and continental rocks deformed and metamorphosed during the Hercynian orogeny. Geochemical relationships of these amphibolites indicate the existence of a multiple fractionation process from a set of parental magmas, implying the existence of a multi-chamber system beneath the ridge where the basalt protolith was extruded. Neodymium isotopic ratios are typical of MORB, and oxygen isotopes indicate that these amphibolites have been derived from the uppermost part of the oceanic crust Thermal evolution, revealed from the study of chemical variations in the amphibole chemistry, is interpreted as resulting from subduction in a low-pressure regime in which the thermal structure of the continental hanging-wall played an important role. This continental wall was previously heated by subduction of a slab window resulting from migration of a triple junction along the continental edge during plate convergence. Three petrologic arguments support this tectonic model These are: (1) the low-pressure inverted metamorphic gradient of amphibolites of the oceanic domain; (2) the high-temperaturelow-pressure metamorphism of the continental hanging wall; (3) the early intrusion of boninites into the continental domain.

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H-type (hybrid) granitoids: a proposed revision of the granite-type classification and nomenclature

Castro

Moreno‐Ventas

Rosa

1991

Earth-Science Reviews

155

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Petrology and SHRIMP U–Pb zircon geochronology of Cordilleran granitoids of the Bariloche area, Argentina

Castro

Moreno‐Ventas

Fernández

et al. 2011

Journal of South American Earth Sciences

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Assessing Bulk Assimilation in Cordierite-bearing Granitoids from the Central System Batholith, Spain; Experimental, Geochemical and Geochronological Constraints

Díaz‐Alvarado

Castro

Fernández

et al. 2010

Journal of Petrology

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I. Moreno‐Ventas

Melting Relations of MORB-Sediment Melanges in Underplated Mantle Wedge Plumes; Implications for the Origin of Cordilleran-type Batholiths

Significance of MORB-derived Amphibolites from the Aracena Metamorphic Belt, Southwest Spain

H-type (hybrid) granitoids: a proposed revision of the granite-type classification and nomenclature

Petrology and SHRIMP U–Pb zircon geochronology of Cordilleran granitoids of the Bariloche area, Argentina

Assessing Bulk Assimilation in Cordierite-bearing Granitoids from the Central System Batholith, Spain; Experimental, Geochemical and Geochronological Constraints

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