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Canter Resources Receives Approval of Amended Notice of Intent, Clearing Path for Expanded Drilling at the Columbus Lithium-Boron Project
Vancouver, British Columbia--(Newsfile Corp. - April 7, 2025) - Canter Resources Corp. (CSE: CRC) (OTC Pink: CNRCF) (FSE: 6O1) ("Canter" or the "Company") is pleased to announce that the Bureau of Land Management (BLM) has approved the Company's amended Notice of Intent (NOI) for exploration plans at the Columbus Lithium-Boron Project in Nevada. This approval provides the necessary authorization for the Company to execute an expanded drilling program targeting deeper and more extensive lithium-b
About this update from Canter Resources Corp
[{"type":"text","content":"Vancouver, British Columbia--(Newsfile Corp. - April 7, 2025) - Canter Resources Corp. (CSE: CRC) (OTC Pink: CNRCF) (FSE: 6O1) ("Canter" or the "Company") is pleased to announce that the Bureau of Land Management (BLM) has approved the Company's amended Notice of Intent (NOI) for exploration plans at the Columbus Lithium-Boron Project in Nevada. This approval provides the necessary authorization for the Company to execute an expanded drilling program targeting deeper and more extensive lithium-boron mineralization (see press releases dated February 13th, March 4th and Figure 1).","length":609,"tagName":"p"},{"type":"text","content":"The Columbus Basin represents a highly prospective setting for lithium-boron brine accumulation, where structural controls and stratigraphic variations play a critical role in fluid migration and mineral deposition. The Company's refined exploration model focuses on key structural features, including fault-bounded sub-basins, permeability contrasts, and lithologic traps that may serve as brine reservoirs. The updated NOI allows the Company to test previously unassessed deeper targets where geophysical and geochemical data suggest the potential for enriched lithium and boron concentrations.","length":600,"tagName":"p"},{"type":"text","content":"Targeting High-Potential Structural Traps","length":41,"tagName":"p"},{"type":"text","content":"The newly permitted drill sites have been strategically selected based on:","length":74,"tagName":"p"},{"type":"list","items":[{"val":[{"type":"text","content":"Deep Structural Traps - Interpretation of basin architecture suggests that lithium-bearing fluids may be concentrating in down-dropped fault blocks and paleo-depressions, where stratigraphic sealing mechanisms help preserve brine accumulations.","length":244,"tagName":"p"}]},{"val":[{"type":"text","content":"Hydrothermal Influence & Fault-Controlled Migration - Geothermal activity and structural conduits within the basin supporting potential for mobilized lithium-rich fluids, concentrating mineralization within lower-permeability stratigraphic horizons.","length":253,"tagName":"p"}]},{"val":[{"type":"text","content":"Salinity & Boron Indicators - Previous surface and shallow subsurface sampling have identified elevated boron and lithium values, indicative of brine transport...