VANCOUVER, British Columbia, July 27, 2022 (GLOBE NEWSWIRE) — NorthWest Copper Corp. (“NorthWest” or “the Company”) (TSX-V: NWST) (OTCQX: NWCCF) is pleased to announce a new updated independent, Mineral Resource Estimate (“MRE”) for its Lorraine property (the “Lorraine Project”), located approximately 280km northwest of Prince George, BC and approximately 40km from the Company’s Kwanika-Stardust Projects. The MRE has an effective date of June 30, 2022 and is based on historical drilling from 1949 to 2009. Details of the MRE are shown in Table 1.
Table 1: Mineral Resource Estimate for the Lorraine Project at 0.20% copper cut-off grade
| Resource Classification 1 | Tonnes (000s) | Grades | ||
| %Cu | g/t Au | CuEq 2 | ||
| Indicated Resources | 12,952 | 0.55 | 0.16 | 0.66 |
| Inferred Resources | 45,252 | 0.43 | 0.10 | 0.50 |
Differences may occur in totals due to rounding
The updated MRE is based on “reasonable prospects for eventual economic extraction” and is constrained in a Lerchs Grossman (LG) open pit shell that was constructed using $US3.50/pound for Cu and $US1,650/ounce for Au. The Lorraine Project has multiple characteristics that are positive for potential future development:
- Located in proximity to the proposed infrastructure at the Kwanika-Stardust Projects (Figure 1); and has the potential to be included in a regional hub and spoke evaluation;
- Existing road access on the east side of the 56,000-hectare Lorraine Project area;
- Mineralization is shallow, with high copper grades at surface;
- The deposit appears to have favourable geometry for mining (Figure 2 – Figure 7);
- Large property with multiple exploration targets (Figure 8); and
- Located in the middle of NorthWest’s extensive portfolio of projects in the region.
“This updated Mineral Resource Estimate adds to our overall copper-gold resource base with both size and good grades close to surface,” said President and CEO Peter Bell. “Our portfolio continues to deliver results and the proximity of Lorraine to our flagship Kwanika-Stardust Projects is significant. We have just begun our work at Lorraine and look forward to our planned first drilling program later this summer.”
The Lorraine Project
The Lorraine Project is located in central British Columbia, 280km northwest of Prince George, BC and approximately 40km from NorthWest’s Kwanika-Stardust Projects (Figure 1), with favourable topography between the deposits. The Lorraine Project covers 56,000 hectares of ground, while the area containing the MRE at the 0.20% copper cut-off is 42.1 hectares in size and has a footprint of about 1.8 km by 0.5 km (Figure 9).
The Lorraine Project deposit is a silica-undersaturated alkalic copper-gold porphyry deposit, which is the same classification as the Galore Creek and Mount Polley deposits 3 . Mineralization at the Lorraine Project is hosted by Early Jurassic syenite, monzonite, and pyroxenite intrusions that are part of the Duckling Creek Syenite Complex (“DCSC”). At least 20 exploration targets have been identified across the DCSC by past geological, geochemical, and/or geophysical surveys, however drilling on these prospects is either absent or very limited.
The MRE at the Lorraine Project extends to surface and includes the historical Lower Main, Upper Main, and Bishop Zones and intervening rock (Figures 2-7). Copper sulphides manifest various combinations of chalcopyrite, bornite and chalcocite, and the concentration of pyrite is relatively low. Gold is spatially related to the copper mineralization, and elevated concentrations of palladium have been reported in several published papers.
The Company has a strategic drilling program planned for 2H 2022 in the MRE area at the Lorraine Project to increase the understanding of the deposit. Additionally, there is a large amount of historical data that is currently being analyzed, including historical drill core that is being relogged. Moving forward the Company plans to use this data to increase the geological understanding of the project and target new areas for exploration.
The MRE is exclusive to the certain portions of the Lorraine Project (Bishop, Lower Main and Upper Main) and does not include the nearby Top Cat mineral claims.
About The MRE
The updated Lorraine MRE was prepared by Mr. Michael Dufresne, M.Sc., P.Geol., P.Geo. President and Principal of APEX Geoscience Ltd. (APEX) and an independent Qualified Person (QP) with assistance from Mr. Deon Van der Heever of RockRidge Partnership & Associates with an effective date of June 30 th , 2022. Mr. Dufresne takes responsibility for the MRE, which replaces the previous historic Lorraine mineral resource estimate 4 . The MRE was prepared in accordance with National Instrument 43-101 – Standards of Disclosure for Mineral Projects (“NI 43-101”) and CIM Definition standards (2014) . The database for the Lorraine Project contains 398 drillholes representing 63,445.03 meters of drilling. Grade estimation in the MRE is based on 167 drillholes and 25,506.42 meters of drilling. Of this, 23,226.51 meters was in 143 diamond drill holes and 2,279.91 meters in 24 percussion drill holes. Drill Hole spacing is generally less than 50m in densely drilled portions of the project with a plan view showing the drill hole locations in the resource boundary domain is in Figure 10. The MRE incorporates geological and structural constraints developed through lithological and structural modeling as well as familiarity of the deposit by NorthWest’s geologists. An optimized pit shell further constrains the MRE volume to fulfil the requirement for “reasonable prospects for eventual economic extraction” and the assumptions are outlined below:
Table 2: Assumptions used for the LG pit shell and reasonable prospects for eventual economic extraction
| Item | unit | value |
| Copper Price | USD/lb | $3.50 |
| Gold Price | USD/oz | $1650.00 |
| Mining Cost | CAD/t | $3.50 |
| Processing + G&A | CAD/t | $14.50 |
| USD – CAD Exchange Rate | – | 0.77 |
| Assumed Copper Recovery | % | 90 |
| Assumed Gold Recovery | % | 85 |
For grade estimation, 3 m composites were created within the domain boundaries using the best-fit method. Capping values on composites were used to limit the impact of outliers. Copper was capped at 2.95%, 2.00% and 2.78% for the Bishop, Lower Main, and Upper Main Zones, respectively. Gold values were capped at 0.80 g/t, 1.00 g/t and 2.50 g/t for the Bishop, Lower Main, and Upper Main Zones, respectively. Block tonnes were estimated using 2.70 g/cm 3 for mineralized material.
The block model was created using 20 m x 20 m x 5 m blocks in the X, Y and Z directions. To honor the volumes, the model was sub-blocked to 5 m x 5 m in the X and Y direction and truncated against domain boundaries in the Z direction. Sub-blocks retained the grade of the parent block. Grades were estimated with ordinary kriging and anisotropic search orientations along mineralized trends. Three estimation passes were used, whereby each successive pass utilized a less restrictive sample search strategy for block estimation. Search radii for the first estimation pass equals half of the variogram range. The second pass increases the search distance to the variogram range, and the third pass further expands to more than twice the variogram range.
The block model was classified into Indicated and Inferred Mineral Resource categories. Blocks were assigned a preliminary classification based on the variography, drillhole spacing, domain and number of samples used in the estimation of each pass. The Indicated category consists of blocks estimated in the first pass with the range being half of the variogram distance. Blocks estimated in the second pass employed a search distance of the full variogram range and were allocated to the Inferred Resource category. Blocks that were estimated in the third pass with the more relaxed search parameters were also assigned to the Inferred Mineral Resource category.
A NI 43-101 technical report will be filed under the Company’s SEDAR profile at www.sedar.com within 45 days.
Table 3: MRE Table by Zone
| Domain | Class 5 | Tonnes (000s) | Avg Cu Grade (pct) | Avg Au Grade (g/t) | Cu (‘000 lbs) | Au (‘000 t. 0z) |
| Bishop | Indicated | 2,541 | 0.58 | 0.12 | 32,284 | 10 |
| Inferred | 9,082 | 0.51 | 0.10 | 101,730 | 29 | |
| Lower Main | Indicated | 3,828 | 0.45 | 0.15 | 38,342 | 18 |
| Inferred | 21,282 | 0.38 | 0.07 | 179,032 | 49 | |
| Upper Main | Indicated | 6,584 | 0.59 | 0.19 | 85,467 | 40 |
| Inferred | 15,089 | 0.44 | 0.14 | 147,169 | 67 | |
| Total | Indicated | 12,952 | 0.55 | 0.16 | 156,093 | 68 |
| Inferred | 45,452 | 0.43 | 0.10 | 427,931 | 145 |
Differences may occur in totals due to rounding
About Lorraine
The Company’s subsidiary Sun Metals Corp. (“Sun Metals”) entered into an agreement with Teck Resources Limited (“Teck”) in November 2020 pursuant to which Sun Metals acquired Teck’s 51% joint venture interest in the Lorraine Project and became the 100%-owner of the Lorraine Project claims. Pursuant to the terms of the purchase agreement and as of the date of this news release, Teck is entitled to certain outstanding and contingent payments that may be made in cash or common shares of the Company as follows:
- $500,000 payable on November 25, 2022;
- $500,000 upon a preliminary economic assessment;
- $2,000,000 upon a feasibility study; and
- $5,000,000 upon a construction decision.
Under the terms of the purchase agreement, Teck has also retained a 1.0% net smelter returns (“NSR”) royalty on all claims that are not already burdened by a royalty and a 0.25% NSR royalty on all claims that are subject to the existing Tam-Misty royalties. Additionally, if the Company sells or options all or a portion of the property to a third party at any time during a 60-month period commencing from the date of the agreement, NorthWest will pay to Teck 20% of the sale proceeds, net of exploration expenses incurred on the property by NorthWest following closing.
Figure 1. Plan view map of the Lorraine Project and Kwanika-Stardust Project
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Figure 2. Plan View of Lorraine Block model and section lines. Reasonable prospects for eventual economic extraction as dark grey surface.
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Figure 3. Long Section A-A’ looking northeast. “Reasonable prospects for eventual economic extraction” open pit displayed as black line. The main mineralized domains are highlighted with a red line.
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Figure 4. Long Section B-B’ looking northeast. “Reasonable prospects for eventual economic extraction” open pit displayed as black line. The main mineralized domains are highlighted with a red line.
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Figure 5. Cross section C-C’ looking southeast. “Reasonable prospects for eventual economic extraction” open pit displayed as black line. The main mineralized domains are highlighted with a red line.
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Figure 6. Cross section D-D’ looking southeast. “Reasonable prospects for eventual economic extraction” open pit displayed as black line. The main mineralized domains are highlighted with a red line.
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Figure 7. Cross section E-E’ looking southeast. “Reasonable prospects for eventual economic extraction” open pit displayed as black line. The main mineralized domains are highlighted with a red line.
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Figure 8. Regional Geology & Target Areas
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Figure 9. Surface projection of the block model with 0.20 % copper cut-off (orange polygon) and “reasonable prospects for economic extraction” open pit (red polyline).
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Figure 10. Drill hole locations and spacing.
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Data Verification
Drilling was supervised by Mincord Exploration Consultants Ltd. from 2000-2005, and by Teck Comnco Ltd. from 2005-2009. From 2000-2003 Quality Assurance/Quality Control (QA/QC) consisted of laboratory standards inserted into the sample stream. From 2004-2009 the QA/QC program consisted of a fully implemented QA/QC program using blanks, standards, and duplicates to monitor analytical accuracy and precision. This represents 9,55.41 meters of drilling in 44 holes out of the 25,506.46 meters used in the MRE. Additionally, in 2010 Lorraine Copper Corp. (Lorraine) collected 137 samples as part of a lithogeochemical sampling programs as well as for check assays on historical drill core. Lorraine personnel concluded that the metallic assay data from the historical drilling when compared with the 2010 resampling verifies the earlier original results adequately increasing the confidence in historical data in supporting resource estimates 6 .
Mr. Alfonso Rodriguez P.Geo. – Project Leader of APEX and an independent QP visited the Lorraine Project on September 23, 2021 and collected samples from four different drill holes to verify historical assays as well as verifying drill collar locations of multiple drill holes.
Qualified Persons and 43-101 Disclosure
The updated Lorraine MRE was reviewed and approved for release by Michael Dufresne, M.Sc., P.Geol., P.Geo., President and Principal of APEX and an independent QP in accordance with the requirements of National Instrument 43-101 – Standards of Disclosure for Mineral Projects (“NI 43-101”).
Technical aspects of this news release have been reviewed, verified and approved by Tyler Caswell P.Geo., Principal Geologist of NorthWest, who is a QP as defined by NI 43-101. NorthWest’s Mr. Tyler Caswell P.Geo confirms that there were no limitations from the Company in verifying the drilling and sample data underlying the MRE which were verified through site visit observations and data review.
About NorthWest Copper
NorthWest Copper is a new copper-gold explorer and developer with an exciting pipeline of projects in British Columbia. With a robust portfolio in a tier one jurisdiction, NorthWest Copper is well positioned to participate fully in a strengthening global copper market. We are committed to working collaboratively with First Nations to advance our work in a culturally and environmentally respectful manner. Additional information can be found on the Company’s website at www.northwestcopper.ca .
On Behalf of the Board of Directors of NorthWest Copper Corp.
“Peter Bell”
Director, President and CEO
For further information, please contact:
Peter Lekich, Director Investor Relations
Tel: 778-389-2446
Email: plekich@northwestcopper.ca
