Western Sierra Resource Corporation announced results of an ‘Assay Review and Enhanced Recovery Report’ (July 21, 2021) commissioned with California’s R&P, LLC. The R&P Report determines that a 69% recovery rate increase from the company’s earlier estimates is likely—translating to projected net annual revenues of $4.6 billion (versus $3.2 billion) at scale of 1100 tons of ore processed per day. The R&P Report was initiated prior to the company’s acquisition of 70% of SSMG’s common stock (announced June 30, 2021). This Report will be updated continuously through the requisite 90-day permitting process during which allowable testing and preliminary on-site development is taking place, and thereafter concurrent with full production. Upon permit approval, the company will immediately begin construction of the SSMG 100 ton per day Pilot Plant. Prior to, and during Plant construction,off-site processing and ongoing testing by R&P will ensure refinement and optimization of processing protocols to maximize yield balance from gold, silver, platinum, palladium, rhodium, and iridium present in the mineral-rich source material being extracted at the Sage Hen site. Additional on-site samples were excavated July 19th through July 23rd and delivered to R&P in California for that purpose. The company also announces that on July 22, 2021, an Agreement was executed that expands the Sage Hen Mine boundary by 660 acres to a total of 1300 acres. This expansion provides the Company with over 200 years of source material at 1100 tons per day of production at a depth of 100 feet. The Company is also pleased to confirm that Site Works Logistics, LLC has been engaged as SSMG’s development partner for the Sage Hen Project. ‘Site Works’ experience in heavy construction and material handling will be integral in maintaining production schedules and meeting budgetary objectives. Their addition to the SSMG team helps ensure the timely final design approval and fabrication of the 100 ton per day Pilot Plant for subsequent expansion to a capacity of 1100 tons per day. Many traditional mining companies would be incredulous at SSMG’s recovery results for gold in the 2.86 ounces per ton range. However, the July 21, 2021 R&P “Assay Review and Enhanced Recovery Report” not only validates the accumulated findings of prior Assays completed for the Sage Hen Mining Claims, it also establishes that the proprietary SSMG Microscopic Recovery Technology (utilized by R&P in processing the Sage Hen source material) dramatically increases recovery volumes from those obtained through traditional processing methodologies. Sage Hen Mine Principals and SSMG have demonstrated the efficacy of these “discovery and recovery” protocols and continue to make advancements and improve on results achieved over decades of painstaking effort. SSMG’s enhanced Microscopic Recovery Technology utilizes equipment used extensively in other industries, but with additional proprietary chemical and mechanical refinements (and adaptations) that have demonstrated markedly improved recovery rates for each of the precious metals found in the Sage Hen Mine’s Oreana Trend geologic formation. This proprietary process was developed and continuously improved over two decades by the same Principals (Andy Kay and Lonnie Treadwell) who are involved directly in the production and processing operations on-site at the Sage Hen Mine under the General Management of Clifton Turley, SSMG’s President. A defining difference between traditional methodologies and SSMG’s proprietary process is that SSMG’s technology pretreats the source material which enables detection of precious metals contained in the source material, but which are not necessarily detectable using traditional protocols. Traditional deep extraction methods can be inordinately expensive, and recovery rates low because much of the precious metal content is “undiscoverable” and therefore “unrecoverable.” SSMG’s technology allows it to “discover” and “recover” precious metals mined at shallower depths (and at lower cost) which are not recovered by traditional methodologies.