Arc Minerals reported additional Reverse Circulation (KRC) and Diamond Drill (KDD) assay results from the company's 11,000 m drilling programme at the Kalaba prospect, part of its Zamsort Copper-Cobalt Project (Zamsort). Drilling Programme: These diamond and reverse circulation drill holes have been collared so that they test the strike and down dip extensions to the mineralisation that is exposed on surface at the Kalaba open pit. The mineralisation is hosted by a dolomitic unit which crops out on surface in the south and dips in a northerly direction below an overlying schistose unit. The mineralisation at present has been tested down dip for 600 m and along strike for 500 m and remains open to the north and west, bounded by the Kalaba river to the east and south. An 11,000-metre drilling programme (4,400 m of diamond and 6,600 m of Reverse Circulation drilling) is currently underway at the Kalaba prospect, part of Zamsort. Part of the drilling programme is designed with the view to create a shallow oxide resource for the Commercial Scale Demonstration Plant (CSD plant) that is currently in the process of being completed. The principal aim is to establish a Maiden Mineral Resource Estimate at the Kalaba prospect. To date, 25 diamond holes have been completed totaling over 3,750 meters and 21 RC holes for over 1,900 meters. Assays for the remaining drill holes are expected during the coming weeks and months. The spatial location of the samples is derived using GPS collar survey pickups. True widths have not been determined as the level of detail required to calculate accurate true widths is not yet available, as a result down hole widths have been reported. However true widths are not expected to differ significantly from the down hole widths reported. Quality Assurance/Quality Control (QA/QC): The core from the diamond core was sampled at up to 1.5 m metre intervals with the split core (PQ - ¼ core; HQ - ½ core) bagged and sent to SGS Inspection Service Ltd. in Kalulushi, Zambia, an ISO accredited laboratory for assaying. The samples from the reverse circulation drill programme were collected at one metre intervals following which they are weighed. Samples were split at the drill site using a riffle splitter with the split sample bagged separately and reject inserted back in the original sample bag. The split RC sample of approximately 2 kg was sent to SGS Inspection Service Ltd. in Kalulushi, Zambia, an ISO accredited laboratory for assaying. The samples were sorted, dried, crushed and pulped before final chemical analysis using ICP-OES methods. Standards, blanks and duplicates were inserted regularly in the sample stream and checks were done for copper and cobalt.