Odin Metals Limited announced soil geochemical anomalies for Copper and Base Metals have been identified in the northern areas of Odin Metals Limited 100% owned Koonenberry Project. The Company holds a Copper and Base Metals exploration package covering 2,800km2 land holding, ~150km strike of the significantly under-explored Koonenberry Belt, located 80km east of Broken Hill, New South Wales. Odin Metals' current exploration program is focussed on developing its district scale Koonenberry Belt project.

Odin's tenements cover more than 2,800km2 of the Belt, which is located 80km east of Broken Hill, NSW. The Koonenberry Belt is highly prospective for VMS-hosted Copper and magmatic Ni-Cu-PGE, and contains three highly prospective projects, Grasmere, Cymbric Vale and Wertago, identified to date. All three prospects were historically mined in the late 1800's until focus shifted to Broken Hill.

Grasmere contains a JORC resource of 5.75 million tonnes grading 1.03% Cu, 0.35% Zn, 2.3g/t Ag, & 0.05g/t Au1. Odin Metals has received results from a large scale gridded geochemical soil survey conducted over prospective areas within its northern tenure. The survey is the first of its scale and extent to be completed over an under-explored area of known historic production.

The survey was designed to provide evidence of mineralisation and to accelerate and prioritise planned drilling. The survey is ongoing, including infill and expansion testing proximal to recently identified anomalies at Cymbric Vale and Rawlin's tank as well as testing of an area of interest within the western section of Odin's Tenure. To date, Odin has received results from the first three phases of the programme, with the most recent phase (>2,000 samples) comprising grids across the Wertago Copper, and Nuntherungie Silver fields, as well as across the Rawlin's Tank orogenic gold prospect.

Historic mining activity at Wertago Copper Field, Rawlin's Tank and Nuntherungie Silver Field, as well as the geophysical target of Jackson's Bore have all been confirmed as geochemically anomalous.