Litcius/Paper detail

Transtension, brittle-ductile shear zones and hydrothermal ore deposits: Towards quantitative structural and kinematic models

Sebastián Oriolo, Anabel L.R. Gómez, María Natalia Maffini, Pedro Oyhantçabal, Manuela Morales Demarco, Mariana Sofía Vargas Perucca, María Verónica Bastías Torres, Nora A. Rubinstein

2024Journal of Structural Geology12 citationsDOIOpen Access PDF

Abstract

Transtension is a fundamental process for the development of hydrothermal ore deposits , since it allows the required extension and dilatancy for hydrothermal fluid circulation and resulting ore mineralization. Transtension operates at multiple scales and, therefore, is not only relevant for deposits linked with extensional tectonics but also for those related to contraction/transpression. In this context, brittle-ductile shear zones represent a first-order metallotect that control the emplacement of mineralization. The distribution of ore minerals is largely influenced by bulk strain, kinematics and strain fabrics of these mineralized structures. The modified strain triangle is proposed as a simple tool to characterize strain conditions of transtension-related ore deposits associated with brittle-ductile shear zones, providing valuable information for metallogenetic models. In addition, a structural classification of ore deposits is proposed, based on the discussion of key deposit types and case studies. The main advantage of this approach is that it mainly relies on quantitative structural data and, therefore, is extremely useful for exploration. Furthermore, this classification avoids a priori assumptions on the tectonic setting , which can subsequently be inferred based on further regional evidence.

Topics & Concepts

TranstensionGeologyShear zoneKinematicsBrittlenessShear (geology)Hydrothermal circulationGeochemistryPetrologySeismologyComposite materialTectonicsSinistral and dextralMaterials sciencePhysicsClassical mechanicsRock Mechanics and ModelingGeological and Geochemical AnalysisGeotechnical and Geomechanical Engineering
Transtension, brittle-ductile shear zones and hydrothermal ore deposits: Towards quantitative structural and kinematic models | Litcius