Radar Project Drilling Unveiling A Large Mineralized Layered Mafic Intrusion
VANCOUVER - SAGA Metals Corp. reported on the successful execution of its 2025 maiden drill program at the Radar Project, located near the town of Cartwright in Labrador, Canada. This program confirmed a large mineralized layered mafic intrusion with early indications suggesting it is completely undeformed and contains its original primary magmatic textures from over 1 billion years ago. The Dykes River intrusion, which hosts the entirety of the Radar Ti-V project, has been historically mapped over an area of 160km2, which is similar in size to Greenland’s Skargaard intrusion. This size underscores the immense untapped potential of the region for hosting critical metals, including vanadium and titanium, essential to the global green energy transition.
SAGA’s targeted exploration of the Dykes River Intrusion aims to redefine the region’s potential by leveraging modern geoscience techniques and seeking resources previously under-valued. Following two intensive summer field programs, SAGA has built a robust geological database, confirming the presence of key mineralization indicators: 1) 388 rock samples analyzed. 2) Titanium Dioxide (TiO2): 49 samples exceeded 4.0% TiO2, with a peak of 11.1%. 3) Vanadium Pentoxide (V2O5): 36 samples reported values above 0.2% V2O5, with a maximum of 0.66%. 4) Iron (Fe): 34 samples returned values over 20% Fe, reaching up to 46.7%.
Additionally, petrographic and SEM analyses confirm that magnetite is the primary host of both titanium and vanadium, further validating the project’s potential significance.
SAGA’s confidence in the project had been further bolstered by geophysical surveys, particularly the identification of a highly magnetic “donut-shaped” anomaly. High-resolution magnetic and EM surveys provided crucial insights into the layered structure of the intrusion, allowing for precise drill targeting.
“What is most intriguing is the clarity of the layering sequences observed in magnetic inversions and drill core data,” stated Michael Garagan, CGO & Director. “We have been able to predict intercepts of massive to pervasive magnetite layers within 10–20m accuracy, even on our first drill hole. Detailed sampling, logging and structural interpretation reaffirms that the system remains open at depth.”