Geochemical signature and reservoir conditions of Early Jurassic calc-alkaline volcanic rocks from Lonco Trapial Formation, Central Patagonia

Central Patagonia is traversed by a belt of Early to Middle Jurassic calc-alkaline intermediate volcanic rocks interspersed with more felsic volcanic rocks which are associated with the widespread magmatism that took place during Gondwana break-up times. This work uses KAr and ArAr dating and whole-...

Full description

Saved in:
Bibliographic Details
Published in:Journal of South American earth sciences 2018-12, Vol.88, p.415-445
Main Authors: Zaffarana, Claudia, Gallastegui, Gloria, Lagorio, Silvia, Poma, Stella, Busteros, Alicia, Serra Varela, Samanta, Orts, Darío, Silva Nieto, Diego, Giacosa, Raúl, Ruiz González, Víctor, Puigdomenech, Carla, Boltshauser, Bárbara, Somoza, Rubén
Format: Article
Language:English
Subjects:
Andesite
Central patagonia
Jurassic
Mineral chemistry
Whole-rock geochemistry
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Central Patagonia is traversed by a belt of Early to Middle Jurassic calc-alkaline intermediate volcanic rocks interspersed with more felsic volcanic rocks which are associated with the widespread magmatism that took place during Gondwana break-up times. This work uses KAr and ArAr dating and whole-rock and phenocryst (plagioclase, amphibole, clinopyroxene and titanomagnetite) compositional data to refine the age, geochemical signature and reservoir conditions of these volcanic rocks, which are known as Lonco Trapial Formation. The andesites, dacites and trachydacites which were the object of this study have either amphibole or clinopyroxene as the main mafic phenocryst (amphibole-bearing and clinopyroxene-bearing volcanic rocks, respectively), though amphibole is the main mafic phase. Despite the calc-alkaline signature a mild alkaline affinity emerges from some whole-rock trace elements content and from mineral chemistry (amphibole, clinopyroxene and titanomagnetite compositions). The magmatic evolution of the Lonco Trapial andesites, dacites and trachydacites was governed by fractionation of amphibole, clinopyroxene, plagioclase, titanite, titanomagnetite and apatite. Amphibole phenocrysts show an overall normal chemical zoning. The cores of the amphiboles crystallized over a temperature range of 869–916 °C, whereas the rims crystallized over a temperature range of 826–867 °C. Shallow to intermediate depths (2–8 kbar, ∼7–26 km) were inferred from geobarometric calculations. Crystallization temperatures are slightly higher in the clinopyroxene-bearing volcanic rocks, consistent with their more primitive character. The geobarometric estimations of this work are coherent with the lack of marine ingressions and with geophysical estimations which suggest that the Early Jurassic Moho depth would have been ≥35 km The combination of whole-rock and mineral geochemistry is consistent with an extensional affinity for this paleo-volcanic belt. •A crystallization temperature range between 826 and 916 °C was established.•Shallow to intermediate crystallization depths (2–8 kbar, ∼7–26 km) were inferred.•High oxygen fugacity conditions were found.•Moho depth in Early Jurassic times was more than 35 km.•Mineral chemistry data was useful to unravel an extensional geochemical signature.
ISSN:0895-9811
1873-0647
DOI:10.1016/j.jsames.2018.09.006