Wedoany.com Report on Mar 11th, Orange Minerals has identified three new conductive anomalies through a DHEM survey at its Lennon's Find polymetallic project in Western Australia. These anomalies originate from the recently drilled OLFD001 diamond drill hole, which reached a depth of 650 meters and aimed to probe deep copper-gold IP anomalies, potentially indicating a VMS-style mineralization system.

The first anomaly, at approximately 150 meters depth, is interpreted as a strong off-hole conductor, possibly related to sulfides. A second, moderate anomaly was detected between 380 and 400 meters below the surface, associated with quartz-carbonate-magnetite veining. The third conductor, found at about 480 meters depth, aligns with the main mineralized zone intersected in OLFD001 between 510 and 526.6 meters. Its low conductivity signature suggests the potential for zinc-dominant mineralization.

Orange Minerals (ASX:OMX) believes the discovery of these polymetallic anomalies enhances the prospectivity of the Lennon's Find project for hosting a VMS mineralization system. Managing Director Chris Michael stated: "The completion of the DHEM survey is a key step forward in advancing the geological understanding of the project. The identification of multiple conductive anomalies provides important guidance for follow-up drilling."

The Lennon's Find project is situated along a 4.5-kilometer mineralized trend, with five established polymetallic deposits containing a total resource of 1.55 million tonnes. Grades include 5.9% zinc, 0.2% copper, 1.6% lead, 0.28 g/t gold, and 84 g/t silver. Previous drilling was relatively shallow and focused on oxide potential, while the OLFD001 hole represents the project's first deep test, partially funded by the Western Australian Government's Exploration Incentive Scheme.

The company is awaiting assay results from OLFD001 and plans to integrate the data to determine future drilling targets. It also intends to conduct high-resolution drone magnetic and LiDAR surveys to refine geological interpretations. Michael added: "We look forward to the assay results, which, combined with the geophysical data, will guide the next phase of exploration." These discoveries are expected to provide new leads for polymetallic resource exploration in the Western Australian region.