Commerce Resources Corp. reported the results for four drill holes completed during the summer/fall exploration program at the Ashram Rare Earth Element (REE) Deposit, at the Eldor Project in northern Quebec. As drilling progresses north, significant REE mineralization continues to be intersected at surface down to considerable depths. Highlights are as follows: drill hole EC11-084: 325.31 m of 1.96% Total Rare Earth Oxides (TREO); including 52.25 m of 2.26% TREO; drill hole EC11-085: 144.52 m of 1.94% TREO; including 90.38 m of 2.21% TREO; drill hole EC11-083: 88.68 m of 2.14% TREO; srill hole EC11-086: 80.56 m of 2.14% TREO. The Middle and Heavy Rare Earth Oxide (MHREO) zone at Ashram has expanded significantly with the results from the 2011 summer/fall drill program and now has a surface footprint of approximately 175 m along strike, 200 m in width, and to a depth of 175 m, with considerable room for expansion remaining. Middle and heavy rare earth enrichment remains consistent throughout the deposit with the main enriched zone still present in EC11-083, 084, and 085 as small zones averaging 10% MHREO grading in and out down hole. Peak values greater than 20% MHREO continue to be returned including one sample with 410 ppm dysprosium and 201 ppm europium at a TREO of 1.86%. Drill holes EC11-083 and 085 targeted the north-western contact of the deposit while EC11-084 was collared vertically near its north end. All three holes focused on infilling for increased confidence in support of updating current inferred status resources to indicated status. EC11-086 was collared off a small peninsula on the eastern side of Centre Pond, attempting to cross-cut the centre of the deposit. This hole intersected 50 m of what is interpreted to be the north end of a poorly mineralized breccia unit diluting the grade of an otherwise well mineralized 389 m intercept. Drill holes EC11-083, 084, and 085 all collared in mineralization while EC11-086 collared in a heterogeneous mix of calico carbonatite, dolomite carbonatite, and glimmerite, while ending in mineralization.