2021
DOI: 10.1186/s40623-021-01400-9
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Crustal architecture of a metallogenic belt and ophiolite belt: implications for mineral genesis and emplacement from 3-D electrical resistivity models (Bayankhongor area, Mongolia)

Abstract: Crustal architecture strongly influences the development and emplacement of mineral zones. In this study, we image the crustal structure beneath a metallogenic belt and its surroundings in the Bayankhongor area of central Mongolia. In this region, an ophiolite belt marks the location of an ancient suture zone, which is presently associated with a reactivated fault system. Nearby, metamorphic and volcanic belts host important mineralization zones and constitute a significant metallogenic belt that includes sour… Show more

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Cited by 23 publications
(29 citation statements)
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“…The electrical resistivity models show that some low-resistivity anomalies align with the suture zone, and that they extend to great depths. Thus the results show that the ancient suture zone, marked by the Bayankhongor Ophiolite Belt and associated with a paleo-ocean closure, is a deep-reaching structure (crustal or lithospheric scale) and a major crustal boundary [19]. The low-resistivity anomalies may be explained by hydrothermal alteration along fossil fluid pathways, which the MT method is sensitive enough to detect.…”
Section: Discussionmentioning
confidence: 82%
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“…The electrical resistivity models show that some low-resistivity anomalies align with the suture zone, and that they extend to great depths. Thus the results show that the ancient suture zone, marked by the Bayankhongor Ophiolite Belt and associated with a paleo-ocean closure, is a deep-reaching structure (crustal or lithospheric scale) and a major crustal boundary [19]. The low-resistivity anomalies may be explained by hydrothermal alteration along fossil fluid pathways, which the MT method is sensitive enough to detect.…”
Section: Discussionmentioning
confidence: 82%
“…They were likely formed by fluid flow through the crust during metamorphism and indicate deeply-connected, ore-forming fluid pathways [3]. The observed low-resistivity signature may be explained by hydrothermal alteration along fossil Conference Proceedings 4 of 5 fluid pathways and associated sulfide mineralogy within the host complex related to ore emplacement [19].…”
Section: Discussionmentioning
confidence: 96%
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“…Considering the available evidence, we favor a model that hypothesizes: 1) fluids were generated by devolatilization within a subducting slab during paleoocean closure, prior to the suturing of micro-continental blocks; 2) fluids migrated upwards along the plate boundary to the mantle wedge and hydrated the lithosphere; 3) later, enriched ore-forming fluids moved to the upper crust along pre-existing weaknesses and pathways, including crustal-scale suture zones between micro-continental blocks and shallow thrusts faults (see Goldfarb and Groves, 2015;Comeau et al, 2021).…”
Section: Methods: Magnetotelluric Explorationmentioning
confidence: 99%
“…We analyze data from magnetotelluric (MT) measurements across southern Mongolia (data described in Becken et al, 2021a, b) and explore three dimensional (3-D) models of the electrical resistivity structure throughout the whole lithosphere, from the upper crust to the asthenosphere (see Comeau et al, 2021; see also Kä ufl et al, 2020). This region has notable occurrences of gold and copper mineralization over an extended area and is located near the edge of a micro-continental block.…”
mentioning
confidence: 99%