Tectonomagmatic Evolution of the Southern Great Bear Magmatic Zone (Northwest Territories, Canada): Implications for the Genesis of Iron Oxide-Alkali-Altered Hydrothermal Systems

摘要

The Great Bear magmatic zone in northwestern Canada is a Paleoproterozoic volcano-plutonic belt of high K, calc-alkaline to shoshonitic affinity interpreted as a continental arc that formed between 1.87 and 1.85 Ga following the short-lived Calderian orogeny. Tectonomagmatic evolution of this magmatic zone favored the formation of multiple iron oxide and alkali alteration systems within a time frame of 10 m. y., as constrained geochronologically within error between 1875 and 1865 Ma. This illustrates a temporal and genetic relationship between shoshonitic to high K, calc-alkaline continental arc magmatism and the formation of iron oxide-rich deposits and alkali alteration associated with iron oxide-copper-gold (IOCG) mineralization. Early rhyolitic magmatism formed the basal sequence of the Lou assemblage under a compressive (or transpressive) tectonic regime. Between 1872 and 1867 Ma, an apparent higher magmatic production is linked to a marked change in composition of the volcanic and plutonic rocks, from rhyolite to intermediate/felsic and locally mafic. Compositional homogeneity of the intrusive and volcanic rocks of the Mazenod and Bea assemblages, termination of ductile to brittle-ductile deformation along the main deformation zones, and transition to widespread brittle fracturing and breccia formation are interpreted to reflect a change in the regional stress regime, from compressional/ transpressional to extensional/transtensional. This change in stress regimes is associated with iron oxide-rich mineralization that initially formed the NICO Au-Bi-Co deposit, followed by IOCG mineralization in the NICO and Sue-Dianne deposits as well as albitite-hosted U mineralization in the Southern Breccia.