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Imaging the Architecture of Mineral Systems and the Pathways of Ore-forming Fluids across Mongolia with Magnetotellurics

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摘要 In the framework of a mineral system approach,a combination of components is required to develop a mineral system.This includes the whole-lithosphere architecture,which controls the transport of ore-forming fluids,and favorable tectonic and geodynamic processes,occurring at various spatial and temporal scales,that influence the genesis and evolution of ore-forming fluids(Huston et al.,2016;Groves et al.,2018;Davies et al.,2020).Knowledge of the deep structural framework can advance the understanding of the development of a mineral system and the emplacement of mineral deposits.Deep geophysical exploration carried out with this aim is increasingly important for targeting new ore deposits in unexplored and underexplored regions(Dentith et al.,2018;Dentith,2019).
作者 Matthew J.COMEAU Rafael RIGAUD Erdenechimeg BATMAGNAI Shoovdor TSERENDUG Sodnomsambuu DEMBEREL Michael BECKEN Alexey KUVSHINOV
机构地区 Department of Geoscience&Engineering Delft University of Technology Institute of Geophysics Institute of Astronomy and Geophysics Institut für Geophysik
出处 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2024年第S01期11-13,共3页 地质学报(英文版)
关键词 MAGNETOTELLURICS electrical resistivity mineral exploration mineral emplacement ORE fluids fluid transport
分类号 P631.325 [天文地球—地质矿产勘探]
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  • 2Ayush, 0., 2006. Stratigraphy, geochemical characteristics and tectonic interpreta- tion of Middle to Late Paleozoic arc sequences from the Oyu Tolgoi porphyry Cu-Au deposit. MSc thesis (in Mongolian). Mongolian Univ. Science and Tech- nolog}/, Ulan Bator, Mongolia, 80 p.
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Acta Geologica Sinica(English Edition)
2024年 第S01期

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