The Bizielle vein (valle de Gistain): A case of iron oxide transformations at the Pyrenees of Spain

The Bizielle vein has some unique features among the Pyrenean alpine veins that allow us to address the question of the nature of iron oxides transformations under low temperature hydrothermal conditions, which is well known to prevailed over wide areas of western Europe between early Triassic to ea...

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Veröffentlicht in:	Chemie der Erde 2014-03, Vol.74 (1), p.77-85
Hauptverfasser:	DeFelipe, Irene, Fanlo, Isabel, Mateo, Ester, Subías, Ignacio
Format:	Artikel
Sprache:	eng
Schlagworte:	Dissolution Fluid flow Fluids Hematite Iron oxides Origins Pyrenees Stable isotopes Transformations Vein Veins
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creator	DeFelipe, Irene Fanlo, Isabel Mateo, Ester Subías, Ignacio
description	The Bizielle vein has some unique features among the Pyrenean alpine veins that allow us to address the question of the nature of iron oxides transformations under low temperature hydrothermal conditions, which is well known to prevailed over wide areas of western Europe between early Triassic to early Cretaceous times. Isotopic studies indicate a deep-seated origin of the ore-forming fluids and suggest that the metals were leached from the Variscan basement (mainly from granites). Isotopic geothermometry and regional evidences point to a 250°C and reducing fluid, being SH2 the predominant S specie. Under such conditions, the proposed in situ deposition of hematite is a consequence of Fe carbonates dissolution and oxidation involving dissolution/precipitation processes in the sense of Putnis. Non-redox model is a quite plausible origin for subsequent hematite to magnetite conversion.
doi_str_mv	10.1016/j.chemer.2013.09.007
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subjects	Dissolution Fluid flow Fluids Hematite Iron oxides Origins Pyrenees Stable isotopes Transformations Vein Veins
title	The Bizielle vein (valle de Gistain): A case of iron oxide transformations at the Pyrenees of Spain
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