Origins and geochemical characterization of the Iron-Oxide-Copper-Gold deposits in the Great Bear Magmatic Zone, NWT, Canada

Degree: Doctor of Philosophy Abstract: The Great Bear magmatic zone (GBMZ) in the Northwest Territories, Canada, contains the NICO (Au-Co-Bi±Cu-W) and Sue Dianne (Cu-Ag-Au-±U-Co) deposits, and the DAMP and FAB prospects, all of which represent iron-oxide dominated polymetallic systems with comparabl...

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Bibliographic Details
Main Author: Acosta, P
Other Authors: Gleeson, Sarah (Department of Earth and Atmospheric Sciences), Richards, Jeremy (Department of Earth and Atmospheric Sciences), Marshall, Dan (Simon Fraser University, BC), Chacko, Thomas (Department of Earth and Atmospheric Sciences), Currie, Claire (Department of Physics)
Format: Thesis
Language:English
Published: University of Alberta. Department of Earth and Atmospheric Sciences. 2014
Subjects:
geo
envir
Canada
Nori
Northwest Territories
Online Access:http://hdl.handle.net/10402/era.39012
Description
Summary:Degree: Doctor of Philosophy Abstract: The Great Bear magmatic zone (GBMZ) in the Northwest Territories, Canada, contains the NICO (Au-Co-Bi±Cu-W) and Sue Dianne (Cu-Ag-Au-±U-Co) deposits, and the DAMP and FAB prospects, all of which represent iron-oxide dominated polymetallic systems with comparable alteration and mineralization styles similar to iron-oxide copper gold (IOCG) deposits in Chile and Australia. Also in the study area, is the vein hosted Nori/RA (Mo-U±Cu-REE), which has less affinity to the IOCG class of deposits. In this work, trace and major element analyses, along with stable (C, H, S, O and Cu), radiogenic isotopes (Re-Os), and fluid inclusion studies were used to constrain the origin of the IOCG systems, and the Nori/RA showing, and to suggest the potential of magnetite as a mineral indicator in till sampling exploration surveys. Regionally, the Cr/Co ratio is higher in barren and pre-ore magnetite compared to that of magnetite co-precipitated with ore minerals and/or present in ore-rich veins and breccias. At DAMP and Sue Dianne the Co/Ni ratio is extremely high and clearly different from those of other GBMZ magnetite samples. Collectively, the analytical data supports a magmatic-hydrothermal origin for all these systems that are temporally associated with the emplacement of the Great Bear volcanic arc between 1875 and 1865 Ma. However, some sulfur, copper and arsenic could have been recycled from carbonate-rich metasedimentary and rocks and incorporated in the ore-bearing fluids as is suggested for the NICO deposit. Some copper might have also been leached from felsic volcanic rocks and metasedimentary rocks and incorporated into the GBMZ mineralized systems. In NICO deposit, Ca-Na-Bi(Au?)-bearing, and saline (~20 wt.% NaCl equiv + CaCl2 equiv) to hyper-saline aqueous fluids (>42 wt. % NaCl equiv.) formed at 4 to 8 km depth. The Au mineralization in this system occurred via: (i) remobilization of refractory gold and Bi(?) from Fe-S-As-S mineral phases during re-crystallization of the ...

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