Structural and temporal relationships between volcanic activity, hydrothermal alteration, epithermal Ag–Pb–Zn mineralization and regional stress regime in the Quevar Volcanic Complex (Puna plateau, Salta Province, NW Argentina)

Structural and temporal relationships between volcanic activity, hydrothermal alteration, epithermal Ag–Pb–Zn mineralization and regional stress regime in the Quevar Volcanic Complex (Puna plateau, Salta Province, NW Argentina)

In the Cenozoic Central Volcanic Zone of the Andes, the genetic relationships between regional deformation, volcanic activity, and epithermal mineralization are not fully established. In order to shed some light on the matter, we present new macro and mesoscopic structural data, fault-slip data inve...

Full description

Saved in:
Bibliographic Details
Published in:Journal of structural geology Vol. 158; p. 104582
Main Authors: Escuder-Viruete, Javier, Molina, Eduardo A., Chinchilla, Darío, Gabites, Janet, Seggiaro, Raúl, Marquetti, Cintia A., Heredia, Nemesio
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-05-2022
Subjects:
Epithermal mineralization
Fault-slip data inversion
Geochronology
Hydrothermal alteration
Puna plateau
Volcanism
Geochronology
Fault-slip data inversion
Hydrothermal alteration
Epithermal mineralization
Puna plateau
Volcanism
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In the Cenozoic Central Volcanic Zone of the Andes, the genetic relationships between regional deformation, volcanic activity, and epithermal mineralization are not fully established. In order to shed some light on the matter, we present new macro and mesoscopic structural data, fault-slip data inversion and 40Ar-39Ar geochronology for volcanic rocks, hydrothermally altered equivalents and epithermal Ag–Pb–Zn mineralization of the Quevar Volcanic Complex, which is located in the Puna plateau of NE Argentina. These data allow us to establish a first evolutionary stage with the eruption of the lavas and pyroclastic deposits of the Quevar Dacite in the Tortonian (9.9–8.7 Ma), when the volcanic activity was controlled by the NW-trending Calama-Olacapato-Toro lineament (COT). A second stage included the implantation of a hydrothermal alteration system and the related formation of the epithermal mineralization in the Messinian (7.7–6.3 Ma). These processes were contemporaneous with an ENE to E-directed shortening regime, which produced the reactivation of the COT and the formation of a left-lateral strike-slip stepover between WNW-trending regional faults. The third stage included the cessation of the hydrothermal activity and the erosion of the volcanic edifice. During this stage, mineralized veins and strike-slip faults were reactivated as normal faults by a NNW-directed extensional regime. [Display omitted] •Volcanic activity was controlled by the NW-trending COT lineament.•ENE to E-directed shortening produced a left-lateral strike-slip stepover.•Hydrothermal alteration and epithermal mineralization were syn-tectonic.•Mineralized veins and strike-slip faults were later reactivated as normal faults.
ISSN:0191-8141
1873-1201
DOI:10.1016/j.jsg.2022.104582