Canwealth Minerals Corporation and partner ICBS Ltd. announced results assay sample program for spring 2012, on its Highland Gold, and Highland Gold 2 properties completed. A complete geophysics and geochemistry tests have been completed samples sent for assay to determine the length and width of the mineralized zone. The assay sample program was based on a 100m grid. Drilling will follow immediately after the assay results are received from AGAT Laboratories. The assays will be performed using a standard fire assay with a 30-gram aliquot. The Highland Gold property and Highland Gold 2, falls in the highly orogenic mineralized zone report based on a February 2006 assessment by the Ministry of Natural Resources for Quebec. Over the past 2 years the government has documented every mineralized orogenic zone also known as epithermal or mesodermal veins. Veins of this type, range in thickness from a few centimetres to four meters and they can be several hundred meters long and extend to depths in excess of 5km. Mineralization commonly occurs in shoots within the vein structures. Based on historical production gold grades have been in the range of 10.0-17.1 g/t. The Highland Gold, and Highland Gold 2 properties are located in the Townships of Poirier and Dalet approx. 78 km north of Amos Quebec in the prolific Abitibi Greenstone Belt. The claim is 100% owned by Canwealth Minerals Corporation. It is comprised of 40 claim cells totaling 5,555 acres. The claim area includes a mountain range 4.8km by 2.1km with an elevation of 448 m of unexplored area. The 40 claim cells are located well within the Abitibi Green Stone belt zone of the Grenville province. This orogenic geological structure is considered a highly site for the exploration of gold and copper. It will provide with greater knowledge and understanding to unlock the potential value of Highland Gold The company's current strategic direction is to seek out properties known to have high mineral values for Gold, Silver, Copper, PGE and REE, (rare earth elements), which will lead rapidly to the advanced exploration and development stages.