Northwire Canada EditionFriday, July 10, 2026
Northwire
TLO 5.37 +5.7% BNKR 4.88 +1.7% GG 2.25 +3.2% MJS 0.100 +5.3% PAAS 62.54 +3.6% PE 0.230 +0.0% SGML 17.19 +4.8% LAR 10.34 −1.1% NED 0.025 +0.0% GEN 0.080 +0.0% TVI 0.060 +0.0% SKYG 0.025 −37.5% WRLG 0.660 +6.5% FFU 0.120 −7.7% LOD 0.310 +3.3% CBI 0.110 +0.0% TLO 5.37 +5.7% BNKR 4.88 +1.7% GG 2.25 +3.2% MJS 0.100 +5.3% PAAS 62.54 +3.6% PE 0.230 +0.0% SGML 17.19 +4.8% LAR 10.34 −1.1% NED 0.025 +0.0% GEN 0.080 +0.0% TVI 0.060 +0.0% SKYG 0.025 −37.5% WRLG 0.660 +6.5% FFU 0.120 −7.7% LOD 0.310 +3.3% CBI 0.110 +0.0%

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Salazar Resources Further Defines Copper-Gold Porphyry Mineralization at Monja Project, Ecuador, with Rock Samples Up To 1.71% Cu and Strong Soil Anomalies

Vancouver, British Columbia--(Newsfile Corp. - June 30, 2026) - SALAZAR RESOURCES LIMITED (TSXV: SRL) (OTCQB: SRLZF) (FSE: CCG) ("Salazar" or the "Company") is pleased to report results from its recent rock and soil sampling program and detailed geological mapping at its 100%-owned Monja Project in Ecuador. These results build upon the Company's previously reported (press release from April 8, 2026) identification of a high-priority copper-gold porphyry target and further demonstrate the scale and continuity of mineralization at surface. Highlights Porphyry-style mineralization confirmed with high-grade rock samples, including: 1.71% Cu, 0.99 g/t Au, 10.3 g/t Ag, 162 ppm Mo (Sample 200101) 1.09% Cu, 0.61 g/t Au (Sample 200079) 1.29% Cu, 0.61 g/t Au, 10.4 g/t Ag (Sample 51744) Soil sampling returned 70% of samples >100 ppm Cu, indicating lateral extension of mineralization Detailed mapping confirms strong stockwork veining with densities averaging ~10 veins per meter in a 150-meter creek Mineralized footprint with porphyry-related alteration defined over an area of approximately 1.5 km by 0.5 km CEO Commentary Freddy Salazar, President and CEO, commented: "These results continue to support our interpretation of Monja as a well-developed copper-gold porphyry system. The consistency of copper values across surface samples, combined with encouraging gold grades and strong veining observed in mapping, provides us with increased confidence in the scale of the system." Rock Sampling Results Following the results reported on April 8, 2026, Salazar has collected a total of 99 rock samples across the Monja Project target area, consisting primarily of rock chip samples with two channel samples. Results show that 64 samples (64%) returned copper values greater than 300 ppm, including 20 samples (20%) exceeding 1,000 ppm Cu. Table 1. Mineralization is hosted within granodiorite and quartz-feldspar porphyry and occurs as hydrothermal breccias (breccia pipes) and stockwork veining. Observed sulphide mineralization includes chalcopyrite, pyrite, and bornite and is accompanied by silica, mostly in veins type B and D. Alteration is characterized by propylitic assemblages that transition into phyllic and argillic zones, marked by chlorite-rich intervals grading into silica- and sericite-dominated alteration. Localized occurrences of K-feldspar, magnetite, and green sericite are also present. The distribution of alteration styles is consistent with a vertically and laterally zoned porphyry system and may represent either a high-level exposure or a structurally complex, telescoped system¹. Further work is required to refine the interpretation. Map 1. Lithology Map, Sample locations, and Copper results in rock and soil samples To view an enhanced version of this graphic, please visit: https://images.newsfilecorp.com/files/4631/303350_e49231e19404c9a6_002full.jpg Table 1. Rock Samples with values > 1,000 ppm Cu SAMPLE TYPE WIDTH Au (ppm) Ag (ppm) Cu (ppm) Mo (ppm) 51744 Chips 3 0.608 10.4 12910 9 51748 Chips 5 0.644 1.5 6250 4 54238 Chips 4 0.04 1.4 1741 109 200073 Chips 4 0.081 0.9 2354 28 200079 Chips 4 0.613 2.7 10940 10 200098 Chips 3 0.028 0.6 1058 31 200101 Chips 3.5 0.989 10.3 17070 162 200113 Chips 3 0.054 1.2 1222 3 200237 Chips 2.5 0.024 0.9 1529 11 700154 Channel 3 0.252 1.2 5363 4 700155 Channel 3 0.143 0.5 1719 4 700156 Chips 3 0.064 0.4 1751 34 700157 Chips 3 0.05 0.2 1233 13 700162 Chips 3 0.061 0.4 1959 130 700166 Chips 3.5 0.04 0.5 1317 18 700167 Chips 3 0.043 0.9 2094 112 700222 Chips 4 0.061 1.3 2227 44 700228 Chips 4 0.012 0.4 1245 47 700229 Chips 2.5 0.012 0.6 1888 47 700246 Chips 3 0.053 0.4 1441 3   Note: The rock chip samples described in this release are selective in nature and are taken to identify the presence of mineralization. Soil Sampling A total of 23 soil samples were collected along three north-south oriented lines on a 100 m by 100 m grid pattern. Sampling targeted a soil-covered topographic high located east of a previously reported high-grade copper occurrence, including a sample grading 4.7% Cu (press release from April 8, 2026). Samples were collected from soil B at depths ranging from 0.5 to 2.5 meters using an auger. Sixteen samples (70%) returned copper values exceeding 100 ppm. Table 2. These results are considered encouraging and suggest the presence of copper mineralization over an area of approximately 180,000 m². Follow-up work will include additional infill soil sampling to better define this target. Table 2. Soil Samples with values > 100ppm Cu SAMPLE DEPTH (m) Au (ppm) Mo(ppm) Cu(ppm) 53501 1.2 0.026 9 244 53502 0.6 0.035 4 2242 53503 1.5 0.033 12 543 53504 1 0.005 2 572 53505 0.8 0.016 5 1599 53506 0.9 0.102 133 573 53507 1.9 0.013 2 197 53509 1.95 0.020 6 217 53511 1 0.007 2 218 53512 0.5 0.054 16 398 53514 1.1 0.018 7 255 53518 2.5 0.033 2 403 53519 1.8 0.020 2 246 53521 2.3 0.010 2 116 53524 0.85 0.018 16 1720 53525 1.2 0.028 3 996   Detailed Geological Mapping -Creek 1 Detailed mapping along a southwest-to-northeast trending creek ("Creek 1"), measuring approximately 150 m, has provided continuous exposure of the mineralized system. Mapping identified well-developed stockwork veining, with densities averaging approximately 10 veins per meter. The dominant structural orientation is northwest-southeast. Most observed veins are quartz-rich and contain pyrite, chalcopyrite, and bornite, Type B. Some veins exhibit sericite alteration halos, proposing an overprinting of phyllic alteration with Type D veins². Image1. Image 1. Creek 1 - Type B vein with quartz, chalcopyrite, bornite and pyrite. To view an enhanced version of this graphic, please visit: https://images.newsfilecorp.com/files/4631/303350_e49231e19404c9a6_003full.jpg These observations enhance the Company's understanding of the structural controls and mineralization style within the system. A detailed geologic map of Creek 1 is available on Salazar's website: https://salazarresources.com/projects/100-salazar-owned/monja/. Interpretation and Next Steps This recent geochemical and mapping campaign focused on the central area of the previously reported 2km by 1km porphyry core (press release from April 8, 2026). This recent work confirms copper and gold mineralization in the focused 1.5 by 0.5 km area km. The boundaries of the mineralization are not defined yet; thus, the Company plans to continue surface geochemical work and mapping in the remaining parts of the porphyry core while further planning future geophysical surveys to refine possible drill targets. Monja Project The 100%-owned Monja Project is located in Loja Province, Ecuador, and covers 9,088 ha across two mineral concessions. For a location map, please refer to the Company's website. About Salazar Resources Limited Salazar Resources Limited (TSXV: SRL) (OTCQB: SRLZF) (FSE: CCG) is a Canadian junior exploration company focused on the discovery and development of mineral deposits in Ecuador. The Company's strategy combines in-house geological expertise with a disciplined, systematic approach to project generation and advancement. For further information, please contact Nick DeMare, Director, at [email protected] or at 604-685-9316. Please also visit our website at https://salazarresources.com. Reference ¹Lowell, J.D., and Guilbert, J.M., 1970. Lateral and vertical alteration-mineralization zoning in porphyry ore deposits. Economic Geology, 65(4), 373-408. https://doi.org/10.2113/gsecongeo.65.4.373. ²Candela, P. A., & Piccoli, P. M. (2005). Magmatic processes in the development of porphyry-type ore systems. In J. W. Hedenquist, J. F. H. Thompson, R. J. Goldfarb, & J. P. Richards (eds.), Economic Geology: One Hundredth Anniversary Volume (pp. 25-37). Society of Economic Geologists. QA/QC Program Rock samples were submitted to Bureau Veritas Ecuador, an independent accredited laboratory, for analysis and were prepared in Quito and sent to be analyzed in Lima using 44-multielement analysis by aqua regia digestion and Optical Emission Spectroscopy (ICP-OES) while Ag, Cu,Pb, Zn, As, Ni, Co determination was done by Aqua Regia Digestion and Atomic Absorption Spectroscopy(AAS). Gold analysis was completed by lead collection fire assay fusion with AAS finish (<10 g/t Au) and the overlimits were completed by fire assay fusion with gravimetric finish. Soil samples were prepared in Burea Veritas, Quito, an independent accredited laboratory, by drying and pulverizing to 95% 150 mesh then sent to Bureau Veritas, Callao to be analyzed using 44 elements aqua regia digestion with ICP-AES finish. Gold analysis for soil samples was done using Lead Collection Fire -Assay with AAS finish. The Company implements a quality assurance/quality control (QA/QC) program that includes chain of custody and the insertion of standards, blanks, and duplicates. Qualified Person Mr. Kieran Downes, the Company's Qualified Person ("QP") as defined by National Instrument 43-101 - Standards of Disclosure for Mineral Projects, has reviewed and approved the technical content of this news release. In accordance with TSX Rules and Policies, Part 1, Section 1.5, the Company further clarifies that Mr. Downes is independent of the Company (as defined under NI 43-101). To view the source version of this press release, please visit https://www.newsfilecorp.com/release/303350
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