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Northwest Territories
The Northwest Territories hosts some of Canada’s most prospective geology, spanning Archean greenstone belts, Proterozoic basins, and the unique Slave Craton. Its long history of discovery, including diamonds, zinc-lead deposits, and rare earths, reflects a well-understood and well-mapped geological foundation. The territory offers supportive permitting frameworks, clear land tenure, and significant funding incentives like the Mining Incentive Program (MIP), making it one of the best regions in Canada for advancing new mineral projects.
Diamonds
AVAILABLE
The Curiosity Project covers a prospective area north of the Ekati Mine within the Slave Craton, where historic drilling confirmed diamond-bearing kimberlite. Multiple magnetic anomalies remain untested, highlighting strong potential for additional kimberlite discoveries in a proven diamond district.
Tungsten
COMING SOON
The Flat Sky Project spans a district-scale land package in the Selwyn Mountains of the Northwest Territories. Historic work identified scheelite-bearing skarn mineralization and vanadium-zinc horizons across the property, new critical-metal discoveries supported by nearby infrastructure.
The Tharsis Project
Rare Earth Elements
SOLD
The Tharsis Project encompasses a carbonatite within the Squalus Lake area of the Northwest Territories. Historical work identified multiple magnetic and geochemical anomalies across this underexplored alkaline complex, offering strong discovery potential for rare earth elements.
Gold
AVAILABLE
The Huygens Project lies east of Yellowknife along the Ingraham Trail, covering known gold and polymetallic showings. Historic sampling returned high-grade gold in quartz veins with associated silver and copper, indicating excellent potential for precious metal discoveries near existing infrastructure.
Rare Earth Elements
PENDING SALE
The Allende Project covers the Leith Lake alkaline complex, where carbonatite outcrops and boulders host rare earth and high-field-strength element mineralization. Historical work and strong magnetic signatures point to an untested intrusive system with potential for critical elements.