Abstract
In gold-endowed greenstone belts, ore bodies generally correspond to orogenic gold systems (OGS) formed during the main deformation stage that led to craton stabilization (syntectonic period). Most OGS deposits postdate and locally overprint magmatic-hydrothermal systems, such as Au-Cu porphyry that mostly formed during the main magmatic stage (synvolcanic period) and polymetallic intrusion-related gold systems (IRGS) of the syntectonic period. Porphyries are associated with tonalite-dominated and sanukitoid plutons, whereas most IRGS are related to alkaline magmatism. As reviewed here, most intrusion-associated mineralization in the Abitibi greenstone belt is the result of complex and local multistage metallogenic processes. A new classification is proposed that includes (1) OGS and OGS-like deposits dominated by metamorphic and magmatic fluids, respectively; (2) porphyry and IRGS that may contain gold remobilized during subsequent deformation episodes; (3) porphyry and IRGS that are overprinted by OGS. Both OGS and OGS-like deposits are associated with crustal-scale faults and display similar gold-deposition mechanisms. The main difference is that magmatic fluid input may increase the oxidation state and CO2 content of the mineralizing fluid for OGS-like deposits, while OGS are characterized by the circulation of reduced metamorphic fluids. For porphyry and IRGS, mineralizing fluids and metals have a magmatic origin. Porphyries are defined as base metal and gold-bearing deposits associated with large-volume intrusions, while IRGS are gold deposits that may display a polymetallic signature and that can be associated with small-volume syntectonic intrusions. Some porphyry, such as the Côté Gold deposit, demonstrate that magmatic systems can generate economically significant gold mineralization. In addition, many deposits display evidence of multistage processes and correspond to gold-bearing or gold-barren magmatic-hydrothermal systems overprinted by OGS or by gold-barren metamorphic fluids. In most cases, the source of gold remains debated. Whether magmatic activity was essential or marginal for fertilizing the upper crust during the Neoarchean remains a major topic for future research, and petrogenetic investigations may be paramount for distinguishing gold-endowed from barren greenstone belts.
Highlights
The association between gold mineralization and small-volume felsic magmatism has long been recognized in Neoarchean supracrustal rocks, such as those of the Abitibi greenstone belt, Superior craton, Canada
Porphyries are defined as base metal and gold-bearing deposits associated with large-volume intrusions, while intrusion-related gold systems (IRGS) are gold deposits that may display a polymetallic signature and that can be associated with small-volume syntectonic intrusions
This review focuses on metallogenic models because they are essential to exploration
Summary
The association between gold mineralization and small-volume felsic magmatism has long been recognized in Neoarchean supracrustal rocks, such as those of the Abitibi greenstone belt, Superior craton, Canada. The spatial association between these systems and alkaline magmatism is well documented, the genetic association with magmatism is controversial, e.g., the Canadian Malartic deposit, which was interpreted as a magmatic-hydrothermal system and re-interpreted as an OGS deposit [2,3] This contribution reviews the main characteristics of the magmatic-hydrothermal and intrusion-hosted deposits of the Abitibi greenstone belt and aims to clarify the metallogenic models that best apply to Archean intrusion-associated mineralization. The IRGS of the Abitibi belt tend to be associated with small-volume magma that rose along crustal-scale faults to reach the upper crust As these faults channelize metamorphic fluids, IRGS and OGS tend to be spatially associated. The capacity of magmas to fertilize the upper crust during the Neoarchean remains a major research topic for the Abitibi and other greenstone belts
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
