Cohiba Minerals Limited provided an update to the market in relation to the drilling at the Horse Well Prospect. HWDD08 was completed to 1509.9m on 12 October 2022 with the drill rig subsequently stranded on site until 25 November 2022 due to significant rainfall. The hole was designed to follow up on low level but persistent copper mineralisation encountered in Gawler Range Volcanics (GRV) in the historic WMC (Western Mining Corporation) hole, HWD1, drilled in June 1982.

Importantly, HWDD08 fulfills many of the preconditions Cohiba is looking for in an IOCG target: Structural preparation and the creation of porosity with pervasive brecciation. Fluid pathway from deep mantle derived fluids to surface through a major structure. Evidence of reduced deep fluid input with magnetite-chalcopyrite-pyrite mineralization.

Evidence of two fluid mixing with oxidized magnetite-hematite-chalcopyrite-pyrite veins. Strength of mineralization with disseminated chalcopyrite-pyrite. HWDD08 encountered the newly described `Horse Well Fault', an ENE-WSW striking Reverse Fault dipping steeply to the NNE.

Stratigraphic offset over this fault is a minimum of 600m, making this a large fault feature. The basement geology in the hanging wall of the fault consists of granite-gneiss, sedimentary gneiss, diorite, and a mafic dyke, which is consistent with the geology seen in other holes on the tenement. In the foot wall of the fault, HWDD08 encountered a thick package of Wallaroo Group finely bedded sandstones and some volcanic tuff.

The interpretation is that the Gawler Range Volcanics encountered in HWD1 lie stratigraphically above the Wallaroo Group sediments. Pervasive copper mineralisation of varying intensity was encountered through most of the basement rock units, including the base of the cover sequence in the Pandurra basal conglomerate. The deformation properties of the rock units strongly affected mineralisation intensity, with the granite-gneiss deforming brittlely and having the strongest mineralisation, conversely the Wallaroo Group tending the deform at a large scale and having the least mineralisation.

A particularly strong bornite zone was encountered from 937-945m at the base of paleo-weathering. Copper in chalcopyrite was the dominant mineralisation in HWDD08 and was associated with chlorite/magnetite/chalcopyrite/pyrite breccia infill and veins; magnetite/magnetite-hematite/hematite-chalcopyrite/pyrite veins and breccia infill; disseminated chalcopyrite/pyrite; and siderite/chalcopyrite/pyrite stringers. Some degree of breccia development occurs throughout HWDD08, from irregular microfaults to crackle breccia, clast supported breccia and minor milled breccias, with crackle brecciation being the most common.

Brecciation appears to relate to the Horse Well Fault. The Horse Well Fault and associated breccias are considered to have formed during the timeline of regional IOCG (Iron Ore Copper Gold) deposit formation. This interpretation is based on the breccia textures that mirror those seen in and around other IOCG deposits, and the copper mineralisation is exploiting the porosity created by this brecciation event, indicating that brecciation and mineralisation occurred at the same time.

Follow-up work may include drilling a wedge hole off HWDD08 in order to test for a `near-miss' and to increase confidence in the orientation of the Horse Well Fault, as a fault cannot be orientated from one drill hole with a high degree of accuracy. Additional broad-spaced drilling may be required. A review of the geophysics will be used to prioritize targets.

Additionally, HWDD08 does not explain the 100m jump in the basement contact, with further sub-parallel faults predicted.