Otis Gold Corp. announced additional results from its recently completed 2018 exploration program at the Oakley Project, Cassia County, Idaho. Surface geochemical studies consisting of rock outcrop mapping, rock-chip sampling, and soil surveys, have identified several areas of mineralized outcrop and soils with significant gold and silver results at both the Blue Hill Creek and Emery Creek targets. Assay results from rock chip samples include gold values up to 1.75 g/t gold (or "Au") and silver values up to 105.0 g/t silver (or "Ag"). Blue Hill Creek contains an existing Inferred Resource of 163,000 ounces gold in 9.97 million tonnes at a grade of 0.51 g/t Au; Emery Creek is an early stage exploration target. Soil sample results at Blue Hill Creek indicate a continuation of the northwest trending Au and Ag anomaly observed at the Matrix Creek claims located to the East-Southeast of Blue Hill Creek, where a zone of high silver values in soils has been identified in an area approximately 3.5kms long. The Blue Hill Creek and Emery Creek targets contain gold-silver epithermal hot spring-type alteration and mineralization. This is predominantly hosted in the Tertiary Salt Lake formation (Tcg), a series of epiclastic sedimentary rocks, ash layers and tuffaceous volcanic rocks; work conducted in 2018 also shows occurrences of mineralized Palaeozoic sedimentary rocks. The Tcg underlies the majority of the Blue Hill Creek property and is the primary target for exploration at Cold Creek. Highlights of the 2018 Blue Hill Creek Work: A total of 475 soil samples were analyzed for gold and silver. Results up to 0.15 ppm Au and 1.36 ppm Ag show a continuation of mineralized soils from Matrix Creek northwest along trend into Blue Hill Creek; 2017 soil sample results from Matrix Creek identified a 2-km-long gold- and silver-in-soil anomaly defining a detachment structure and associated mineralized; Black Matrix Breccia body with gold values up to 0.988 g/t Au and silver values up to 5.4 g/t Ag; 140 rock-chip samples were collected across the target area and were analyzed for gold and silver. Samples from the Tertiary Salt Lake Formation conglomerate unit returned results of up to 0.969 g/t Au and 6.492 g/t Ag. Samples from the Tertiary Salt Lake Formation sinter deposits returned results of up to 0.842 g/t Au and 4.528 g/t Ag. These rock sample results further reinforce Otis' current understanding of the mineralization at Blue Hill Creek; Of the 140 rock-chip samples collected during Summer 2018, two samples collected from the Paleozoic marine sedimentary rocks (including carbonates and quartzite breccias) exposed in the northeast corner of the Blue Hill Creek claims, returned two anomalous results with high Au and Ag values; Sample 480556 had 0.525 g/t Au and 105.0 g/t Ag; Sample 480568 had 1.754 g/t Au and 74.9 g/t Ag; These samples were taken from a brecciated zone that resembles Black Matrix Breccia seen at Matrix Creek, which returned Au and Ag values up to 3.0 g/t Au and up to 306 g/t Ag; and This area may be a continuation of the detachment zone and a target for future exploration Highlights of the 2018 Emery Creek Work: A total of 235 soil samples were analyzed for gold and silver. Results of up to 0.14 ppm Au and 1.02 ppm Ag were encountered; Mineralization at Emery Creek trends NW-SE, similar to that seen at nearby Cold Creek and Blue Hill Creek, pointing to similar larger scale structural controls; and The anomaly at Emery Creek identifies the presence of mineralization between Cold Creek to the North and Matrix Creek to the South, creating a mineralized zone stretching over 11kms. Exploration plans for Blue Hill Creek and Matrix Creek in 2019 include developing a drill program for Blue Hill Creek, continued geologic and structural mapping efforts to the south at Matrix Creek, and the completion of a LiDAR survey to better identify potential structural controls on the distribution of mineralization in the near surface. Future work at Emery Creek includes detailed geologic mapping and sampling with a focus on structure, along with assimilating all data into a 3D model.