Greatland Gold plc announced the results of the first three drill holes completed at its 100% owned Scallywag licence. In addition, the Company has identified multiple new targets at Scallywag following analysis of results of a Heliborne Electromagnetic ("EM") survey conducted last year and further geological interpretation of regional aeromagnetics. Exploration work at Scallywag is focussed on the discovery of intrusion related gold-copper deposits such as Havieron, Telfer and Winu. Greatland completed seven drill holes at Scallywag in the second half of calendar 2020, testing targets at the Kraken, London and Blackbeard prospects. Assay results have been received for the first three holes (LOD001, KRD001 and BLD001). The Company completed a total of seven holes for 3,761m at Scallywag during the 2020 field season, testing targets at the Kraken, London and Blackbeard prospects. Exploration work at Scallywag is focussed on the discovery of intrusion related gold-copper deposits such as Havieron, Telfer and Winu. The 2020 Scallywag drill programme was designed to test a series of Induced Polarisation ('IP'), magnetic altered or demagnetised geophysical targets located around the closure and limbs of the Scallywag Syncline, a tight fold structure located to the west of the Havieron discovery. The Syncline folds a package of Puntapunta Formation calc-silicates and overlying Wilki Formation siliciclastic metasediments, with a prominent magnetic anomaly marking the contact between the two units. The Puntapunta Formation sediments host the Havieron Au-Cu system on the east limb of the Scallywag Syncline, some 8.5km east south east of the fold nose or closure of the Syncline. Three targets have been partially tested by seven drill holes, of which results for three drill holes are reported today: LOD001 on the London prospect, KRD001 on the Kraken prospect, and BLD001 on the Blackbeard prospect for 1,919m of drilling. Samples from a further four drill holes for 1,842m are currently with assay laboratories, which are experiencing high sample deliveries resulting in significant delays in return of results.