Mr. Brian Goss reports

NOVARED MINING PROPOSES TO ADVANCE WILMAC COPPER-GOLD PROJECT WITH 2026 GEOPHYSICAL PROGRAM

Novared Mining Inc. has received no permit required authorizations for four combined induced polarization/audiomagnetotelluric geophysical surveys on its 100-per-cent-optioned Wilmac copper-gold project, located within the Quesnel porphyry belt in the Similkameen mining division of British Columbia, approximately 10 kilometres west of Hudbay Minerals Inc.'s producing Copper Mountain mine.

Proposed 2026 program

The proposed 2026 program will include four geophysical surveys on four survey grids -- North Lamont, West Lamont, Wilmac and Plume -- designed to systematically expand and infill the company's geophysical coverage along Lamont Ridge. Two of the four surveys (North Lamont and West Lamont) will be merged with the previously completed Lamont survey to create a single, integrated data set covering the interpreted alteration and mineralized halo of the western portion of the West Lamont intrusive complex. A third survey will complete the Wilmac survey, which the company partially completed in November, 2025. The fourth survey, Plume, targets two separate and extensive iron carbonate-silica alteration zones approximately four kilometres to the south-southwest of the Wilmac survey.

The combined IP/AMT survey method provides both near-surface chargeability mapping and deep resistivity imaging to depths exceeding 1,500 metres, enabling the company to evaluate porphyry copper-gold targets from surface to significant depth across the survey area.

"The 2026 geophysical program represents a significant step forward in systematically evaluating the porphyry copper-gold potential along Lamont Ridge," said Brian Goss, chief executive officer. "Building on encouraging results from the initial Lamont survey -- which identified chargeability anomalies spatially associated with anomalous copper mineralization in surface soil and rock samples -- these four new grids will substantially expand our understanding of the scale and continuity of the mineralized system. Completion of the Wilmac grid, in which previous partial surveying identified a high-chargeability anomaly with significant volume at depth, is a particular priority."

Survey design and methodology

Each survey will employ multiline acquisition sets comprising receiver lines and adjacent transmitting lines. Audiomagnetotelluric data will be collected simultaneously with IP data by deploying high-sensitivity induction magnetometers during IP transmitter off times. This dual-method approach yields complementary chargeability and resistivity models without requiring additional field mobilization. Longer lines will be surveyed in two overlapping segments to ensure full data coverage.

All surveys will be completed with minimal ground disturbance, limited to clearing undergrowth and deadfall along east-west-oriented survey lines using hand tools.

Wilmac grid (priority)

The Wilmac grid covers three previously exposed trenches from which porphyry-style alteration and mineralization have been documented, including the Wilmac Minfile occurrence. Analytical results for copper from 2023 surface samples ranged between 200 parts per million (two values returning 1.235 per cent and 1.670 per cent), with an average of 6,390 parts per million (0.639 per cent copper) across nine samples. Mineralization is hosted in coarse-grained to pegmatitic hornblendite, and is characterized by epidote alteration, chalcopyrite in quartz-carbonate veins with weakly to moderately developed stockworks, and possible AB-type porphyry veins (quartz-carbonate veins with sulphide cores).

The full Wilmac grid comprises 10 east-west lines totalling 21.5 line kilometres and covering approximately 371 hectares. An initial partial survey of five lines (totalling 9.95 line km and covering approximately 195 hectares) was completed in the southern portion of the grid before being curtailed by snow cover and limited road access in early November, 2025. That partial survey documented a high-chargeability anomaly spatially associated with the trench area, hosting porphyry-style alteration and high-grade mineralization, along with several similar anomalies of larger apparent volume at depth. Detailed results will be reported in a subsequent news release. Completion of the remaining five survey lines is a high priority for the 2026 field season.

North Lamont grid

The proposed North Lamont grid is located north of the previously completed Lamont grid and within the interpreted alteration and mineralized halo at the west end of the West Lamont intrusive complex. Two soil lines along forestry roads returned anomalous copper values. The proposed survey will consist of seven east-west survey lines between 1.36 and 2.53 kilometres in length, totalling 14 line km and covering approximately 179 hectares. Data will be merged with the existing Lamont data set.

West Lamont grid

The proposed West Lamont grid is located west of the previously completed Lamont grid, and is also within the interpreted alteration and mineralized halo at the west end of the West Lamont intrusive complex. The proposed survey will consist of four east-west survey lines between 3.52 and 3.85 km in length, totalling 14.94 line km and covering approximately 222 hectares. Data will be merged with the North Lamont and existing Lamont data sets to create a single integrated survey.

Plume grid

Located approximately 4.0 km south-southwest of the Wilmac grid, the Plume survey covers two relatively large areas of extensive iron carbonate-silica alteration mapped by Massey et al. (2008), interpreted to represent hydrothermal alteration driven by a large underlying intrusive complex. The proposed survey totals nine east-west lines between 1.73 km and 4.19 km in length, totalling approximately 29.53 line km and covering approximately 539 hectares.

Background: previous Lamont grid survey

A combined IP/AMT survey previously completed by the former operator on the Lamont grid is interpreted to have documented an intrusive complex comprising two parent magmas. The eastern portion of the grid is characterized by high-chargeability anomalies near surface that correspond with anomalous surface soils and extend to significant depth as delineated by the AMT survey. The western portion is characterized by a high-resistivity anomaly associated with a lower level of surface soil anomalies. The two interpreted magmas interfinger, with comparatively narrow extensions toward surface, that are interpreted as potential porphyries.

Wilmac copper-gold project overview

The Wilmac project comprises 11,504 hectares of mineral tenures located within the Quesnel porphyry belt in south-central British Columbia, southwest of Princeton. The project is situated in a well-documented copper-gold porphyry belt and is interpreted to host potential for identification of one or more copper-gold alkalic porphyry occurrences similar in age and deposit type to those hosting the nearby Copper Mountain mine, which currently hosts a proven and probable mineral reserve of 702 million tonnes at 0.24 per cent Cu (source: Hudbay Minerals Inc.).

The project is separated from the Copper Mountain camp by the regionally significant Boundary fault. Saleken (2013) interpreted the geological setting west of the fault to be analogous to that of the Copper Mountain intrusive complex, but at a shallower level of erosional exposure, with numerous small, high-level diorite, gabbro and pyroxenite intrusions interpreted to represent the uppermost portions of an underlying intrusive complex.

Located immediately west of Highway 3, the project is road accessible within a well-established mining district with existing infrastructure and support services.

Qualified person

The scientific and technical information in this news release has been reviewed and approved by Rick Walker, PGeo, a qualified person as defined by National Instrument 43-101. Mr. Walker is not independent of the company within the meaning of NI 43-101.

About Novared Mining Inc.

Novared is a mineral exploration company focused on the identification, acquisition, exploration and development of copper-gold porphyry projects in British Columbia. The company's optioned Wilmac copper-gold project comprises 11,504 hectares located within the Quesnel porphyry belt in the Similkameen mining division, southwest of Princeton and approximately 10 kilometres west of Hudbay Minerals' producing Copper Mountain mine.

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