CopperCorp Resources Inc. reported new assay results from seven diamond drill holes at the Alpine prospect, part of its 100%-owned, approximately 1,066km AMC Copper Project located in the 100% renewable energy state of Tasmania, Australia. The Company's first round of drilling at the Alpine Stellar zone is now complete, with a total of 16 diamond holes drilled for a total of 5,490m. The Stellar zone drill program comprised infill and step-out holes designed to test the extent and continuity of the mineralizing system and investigate vectors towards targeting high-grade portions of the system.

The drill rig has now moved 500m to the west (the Alpine West zone) and commenced drilling of hole AP037 targeting a combined magnetic-gravity anomaly and coincident copper in soils anomalous zone interpreted to be a possible strike extension to the Alpine Stellar zone mineralization. New assay results from 7 drill holes AP028, AP029, AP030, AP031B, AP032, AP033 and AP034 have been received and reviewed. Most holes were successful in intersecting zones of significant copper mineralization.

AP028, drilled to 459.9m total length, was designed to test strike extensions to the east of mineralization encountered in hole AP027A. The drill hole successfully intercepted three zones of copper mineralization, including 7.0m at 0.46% Cu from 55.1m, 20.0m at 0.51% Cu from 248m, and 64m at 0.26% Cu from 296m (Figure 6). The upper zone, representing an interpreted eastern extension of the hanging wall magnetite-pyrite-siderite lens, had a lower faulted contact which supports the interpretation of a structurally controlled eastern boundary to the hanging wall lens in this area of the system.

AP029, drilled to 247.0m total length on the same section as AP028, was designed as an infill hole testing mineralization between AP0062 and AP027A5. The drill hole successfully intercepted magnetite-pyrite-siderite ironstone hosted and disseminated, blebby and vein style mineralization returning an intercept of 71.0 at 0.38% Cu from 133m. AP030, drilled to a total length of 364.0m, was drilled as an infill hole between historical drillholes AP0062,4 and AP0132,4. AP030 successfully intersected multiple zones of mineralization, including 26.2m at 0.53% Cu from 85.8m, 37.0m at 0.57% Cu from 181.0m including a high-grade zone of 10.0m at 1.2% Cu from 185.0m, 8.0m at 0.25% Cu from 240m, 18.0 at 0.70% Cu from 307.0m including a high-grade zone of 4.9m at 1.5% Cu from 312.1m.

AP031B, drilled to 424.0m total length, and AP032, drilled to 328.0m total length, were both designed to test for eastern strike extensions of the Stellar zone mineralization. Both holes intersection narrow zones of low to moderate grade copper mineralization including; AP031B: 7.0m at 0.44% Cu from 227.0m and 4.1m at 0.34% Cu from 386.0m; and AP032: 6.0m at 0.13% Cu from 122m, 3.7m at 0.57% Cu from 136.3m, and 26.0m at 0.11% Cu from 228.0m. A northwest trending fault is currently interpreted to be truncating or offsetting the eastern extension of the Stellar zone in the vicinity of AP031B and AP032.

AP033, drilled to 429.5m total length, was designed to test down-dip extensions to mineralization encountered in holes AP027A5, AP0172,4, AP0112,4 and AP0042,4. The drill hole successfully intercepted two zones of mineralization, including 32.5m at 0.59% Cu from 270.5m, and 82.2m at 0.33% Cu from 347.3m to end of hole (EOH) including 10.5m at 0.75% Cu from 419.0m to EOH. The AP033 results extend copper mineralization by approximately 60m down-dip of hole AP017 (24.7m at 0.52% Cu from 222m) and 240m down-dip of hole AP004 (38.2m at 0.79% Cu from 57.7m4, including 28.2m at 1.03% Cu from 58.7m4). AP033 ended in high-grade disseminated, blebby and vein style copper mineralization grading 0.75% Cu over the final 10.5m of the hole but unfortunately the hole had to be terminated due to technical issues associated with fault zones in the upper parts of the hole.

AP034, drilled to 460.0m total length on the same section as AP033, was designed as an infill hole. The hole successfully encountered multiple zones of mineralization, including 31.6m at 0.64% Cu from 177.7m, 9.0m at 0.42% Cu from 258.0m, 19.0m at 0.23% Cu from 285m, 76.0m at 0.23% Cu from 322m, and 3.0m at 0.24% Cu from 452m. AP035 (assays pending), drilled to 447.8m total length, was designed to test down-dip extensions to mineralization encountered in hole AP0244 (including 42.1m at 0.60% Cu from 55.9m, 6m at 0.96% Cu from 133m, and 43m at 0.33% Cu from 157m4).

AP035 successfully intercepted variably chalcopyrite mineralized ironstone (magnetite-pyrite-hematite-siderite) zones at 217.2 to 232.5m and 241.5 to 255.4m depth down hole, and then intermittent trace to disseminated, blebby and stringer vein style chalcopyrite mineralization zones associated with quartz-siderite alteration and veining to 430.7m downhole. AP035 was terminated due to technical issues associated with a +5m wide graphitic shear zone from 442.4m. AP036 (assays pending), drilled to 600.1m total length, was designed to test for possible northeast strike extensions to the Stellar zone mineralization at depth below hole AP030.

AP036 successfully intercepted variable intensity (trace to moderate) disseminated, blebby and vein style chalcopyrite1 mineralization zones associated with quartz-siderite alteration and veining from 334.8m to end of hole with zones of chalcopyrite mineralized ironstone (magnetite-pyrite-hematite-siderite) at 336.8 to 341m and 394.3 to 415.2m down hole.