Golden Deeps Limited has reported another major advance at its Graceland prospect in Namibia’s Otavi Mountain Land, where new soil and rock-chip assays have stretched the copper-silver-zinc-lead-germanium-antimony corridor by an additional 500 metres to more than 2.5 kilometres in strike length.
The company said the fresh samples—returning up to 3.12 % zinc and 1.94 % lead in sample A6GS069 and 46.5 g/t silver and 0.4 % copper in A6GS073—extend the high-grade Gossan 1 and 2 trends toward the northeast.
According to Golden Deeps Chief Executive Jon Dugdale, the latest data confirm that Gossan 2 merges with Gossan 1 north of the Gossan 1 East outcrop, an area already renowned for its spectacular grades, including 42% copper and 154 g/t silver.
Channel-sampling results are still pending from this strongly mineralised zone, which previously yielded assays of up to 7 792 g/t silver, 47.3 % copper and 224 g/t germanium.
At the same time, crews have begun an extensive induced polarisation (IP) and resistivity survey designed to detect both near-surface and deeper “Tsumeb-style” sulphide bodies rich in copper, lead, zinc, silver, and germanium.
The Tsumeb mine, located just 20 kilometres away, has historically produced 27 million tonnes grading 4.3% copper, 10% lead, 3.5% zinc, 95 g/t silver, and 50 g/t germanium, and remains one of the world’s most mineralogically diverse deposits.
The Graceland programme now integrates three-dimensional satellite imagery, elevation data and IP inversion modelling to define drill targets once all channel-sample and geophysical results are received. Dugdale said the company has already identified rigs capable of operating on the prospect’s hilly terrain and plans to move quickly into drill testing once the targets are finalised.
Graceland lies within Golden Deeps’ 440-square-kilometre landholding in the Otavi Mountain Land metallogenic belt, host to Namibia’s famed Tsumeb and Kombat mines.
The company’s expanding portfolio—covering copper, silver, zinc, lead, vanadium, gallium, germanium, and antimony—positions it squarely in the hunt for the next generation of critical metal discoveries that feed renewable energy and semiconductor supply chains.
