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6902975 
Journal Article 
The Vilalba gold district, a new discovery in the Variscan terranes of the NW of Spain: A geologic, fluid inclusion and stable isotope study 
Martinez-Abad, I; Cepedal, A; Arias, D; Martin-Izard, A; , 
2015 
Ore Geology Reviews
ISSN: 0169-1368
EISSN: 1872-7360 
ELSEVIER 
AMSTERDAM 
66 
344-365 
English 
WOS:000348620500018 
This work defines the Vilalba gold district, a new gold region in the NW of Spain comprising three mineralized areas (Castro de Rei, Valina-Azumara and Arcos) and two different types of mineralization: 1) W-Au skarn in Castro de Rei, and 2) Au-As (Ag-Pb-Zn-Cu-Sb) vein/disseminated mineralization in Valina-Azumara and Arcos. Mineralization is mainly hosted by impure limestone and black slates (lower Cambrian) and spatially related to Variscan and Late-Variscan structures. Rhyolite dikes occur in Arcos (299 +/- 6 Ma) and Castro de Rei, both consisting of peraluminous, high-potassium and calc-alkaline rocks. These dikes represent the fractionated expression of unexposed post-tectonic granitoids located at depth. The Castro de Rei area exhibits a contact aureole with biotite +/- cordierite and calc-silicate hornfels. Prograde skarn consists of garnet, pyroxene, quartz, wollastonite and scheelite. The retrograde alteration took place in two stages and mainly consists of amphibole, epidote, zoisite, quartz, calcite, chlorite and sulfides. Gold mineralization in the skarn occurs as invisible gold in sulfoarsenides and as electrum related to Bi-Te-S minerals. The mineralization of Valina-Azumara and Arcos comprises two stages. The first consists of As-rich pyrite and arsenopyrite with invisible gold. The second stage mainly consists of base metal sulfides and Ag-Pb-Zn-Cu-Sb sulfosalts.Hydrothermal fluids involved in the skarn formation are low salinity (up to 6.6 wt.% NaCl eq.) aqueous carbonic fluids (H2O) + CO2 +/- CH4 +/- N-2) evolving into aqueous fluids during the last stage of gold mineralization. Stable isotope geochemistry indicates the importance of a magmatic fluid in the early stages (delta O-18(SMOW) from 7.5 to 11 parts per thousand; delta S-34(CDT) from 2.7 to 5.9 parts per thousand) that evolved through interaction with host-rocks and mixing with metamorphic and/or meteoric fluids. The delta S-34(CDT) values (7.8-10.9 parts per thousand) of second retrograde stage sulfides suggest the incorporation of S-34-enriched from host-rocks. In Valina-Azumara and Arcos, the fluid inclusion and isotope studies indicate similar hydrothermal fluids to those associated with the second retrograde skarn stage. Taking into account the fluid inclusion study and mineral geothermometry, an attempt was made to determine the P-T conditions of ore formation. The prograde skarn of Castro de Rei formed at temperatures and pressures ranging from 520 to 560 C and from 1.7 to 2.5 kb. The mineralization of Valina-Azumara formed at minimum P-T conditions of 1.7 kb and 355 T. The estimated temperatures for the Arcos mineralization are similar to those of Valina-Azumara (up to 383 C) but at lower pressures.We propose the model of intrusion related gold systems (IRGSs) to explain the mineralizations of the Vilalba gold district. In this model, the Castro de Rei skarn and the Valina-Azumara mineralization represent a proximal and a distal deposit, respectively, relative to an unexposed granitoid situated at depth. We also consider Arcos as a distal deposit in relation to another unexposed granitoid located further south in the district. (C) 2014 Elsevier B.V. All rights reserved. 
NW Iberian Massif; Gold; Fluid inclusions; Sulfur isotope geochemistry; Intrusion-related gold systems; W-Au skarn