Analyte Symbol Sample | Os ppb | Ir ppb | Ru ppb | Rh ppb | Pt ppb | Pd ppb | Ni % | Pt+Pd g/t | 6E g/t | 6E % Increase |
K918097 | 14 | 14.4 | 77 | 21.2 | 184 | 309 | 0.342 | 0.493 | 0.62 | 25.80% |
K918110 | 38 | 17.3 | 53 | 14.6 | 113 | 241 | 0.432 | 0.503 | 0.592 | 17.70% |
K918129 | < 2 | 0.1 | 6 | 0.3 | 7 | 14 | < 0.005 | 0.416 | 0.541 | 30.00% |
K918131 | 21 | 16.1 | 39 | 17.2 | 124 | 165 | 0.33 | 0.448 | 0.568 | 26.80% |
K918132 | 23 | 22 | 56 | 23.8 | 181 | 235 | 0.34 | 0.411 | 0.525 | 27.70% |
K918140 | 12 | 12.8 | 40 | 17.5 | 136 | 207 | 0.392 | 0.56 | 0.68 | 21.40% |
K918141 | 8 | 12 | 38 | 16 | 148 | 229 | 0.359 | 0.522 | 0.648 | 24.10% |
K918142 | 12 | 12.8 | 40 | 17.2 | 160 | 241 | 0.363 | 0.43 | 0.553 | 28.60% |
K918143 | 23 | 19 | 54 | 23.5 | 229 | 331 | 0.41 | 0.626 | 0.75 | 19.80% |
K918145 | 25 | 20.5 | 55 | 22.9 | 187 | 243 | 0.334 | 0.512 | 0.657 | 28.30% |
K918146 | 23 | 21.1 | 55 | 24.6 | 269 | 357 | 0.379 | 0.567 | 0.733 | 29.30% |
K918147 | < 2 | < 0.1 | < 5 | < 0.2 | < 5 | < 2 | < 0.005 | 0.548 | 0.695 | 26.80% |
K918148 | 27 | 26.6 | 65 | 26.7 | 216 | 296 | 0.38 | 0.425 | 0.522 | 22.80% |
K918150 | 29 | 25.8 | 65 | 27 | 237 | 311 | 0.404 | 0.513 | 0.621 | 21.10% |
K918152 | 16 | 12.8 | 36 | 17 | 148 | 223 | 0.31 | 0.442 | 0.538 | 21.70% |
K918154 | 13 | 14.1 | 45 | 19.1 | 156 | 247 | 0.389 | 0.539 | 0.666 | 23.60% |
K918155 | 18 | 15.8 | 42 | 20 | 171 | 271 | 0.362 | 0.593 | 0.705 | 18.90% |
K918157 | 14 | 15.9 | 42 | 20.7 | 155 | 246 | 0.326 | 0.446 | 0.607 | 36.10% |
K918158 | 27 | 20.1 | 51 | 28.8 | 209 | 330 | 0.394 | 0.607 | 0.713 | 17.50% |
K918164 | 12 | 10.1 | 35 | 14.1 | 89 | 154 | 0.331 | 0.414 | 0.52 | 25.60% |
K918166 | 13 | 10.8 | 34 | 15.8 | 85 | 148 | 0.305 | 0.438 | 0.541 | 23.50% |
K918168 | 22 | 13.3 | 38 | 17.6 | 104 | 178 | 0.332 | 0.546 | 0.739 | 35.30% |
K918169 | 31 | 15.1 | 39 | 17.7 | 181 | 257 | 0.307 | 0.45 | 0.589 | 30.90% |
K918171 | 50 | 30.3 | 78 | 35 | 212 | 334 | 0.476 | 0.559 | 0.718 | 28.40% |
K918172 | 32 | 21.7 | 58 | 27.7 | 177 | 273 | 0.432 | 0.534 | 0.666 | 24.70% |
K918184 | < 2 | 8.3 | 23 | 13.1 | 115 | 173 | 0.318 | 0.623 | 0.745 | 19.60% |
K918186 | 14 | 8.2 | 23 | 10.4 | 117 | 170 | 0.288 | 0.559 | 0.665 | 19.00% |
K918187 | 23 | 22.8 | 46 | 30 | 259 | 364 | 0.435 | 0.952 | 1.15 | 20.80% |
Following are the initial assay results from WS11-188 which were reported in September 26, 2011:
From | To | Length m | Ni % | Cu % | Pt+Pd+Au g/t | NiEq % | From Surface m |
7.53 | 464.91 | 457.38 | 0.29 | 0.18 | 0.72 | 0.47 | 7.07 |
268.38 | 389.29 | 120.91 | 0.36 | 0.30 | 1.26 | 0.67 | 252.19 |
280.72 | 298.55 | 17.83 | 1.03 | 0.75 | 3.14 | 1.77 | 263.79 |
6E assay results are still pending for an additional 260 samples taken from WS11-188, including samples from sections that showed higher Pt and Pd grades in the above table.
In 2007, 800 chip channel samples taken at 2 metre intervals along the underground workings were assayed for platinum and palladium at the ALS Chemex Lab in Vancouver, B.C. Of these, 174 samples where platinum or palladium grades exceeded 1 g/t were assayed for Rh, Ru, Os and Ir. The 2007 sampling program was overseen by Rory Calhoun, P. Geo., now a consultant of Prophecy. Subsequent 6E assay results were announced in a Prophecy Coal’s press release on November 3, 2010. For comparison, assay results where Rhodium exceeded 500 ppb (0.5 g/t) are tabulated below. Concentrations of Rh, Ru, Os and Ir were present in all of the follow-up samples, and the total PGE content (6E) increased by an average of 114.8% over prior assay results which only included Pt and Pd.
Analyte Symbol Sample | Os ppb | Ir ppb | Ru ppb | Rh ppb | Pt ppb | Pd Ppb | Pt+Pd g/t | 6E g/t | 6E % Increase |
C509697 | 850 | 1770 | 660 | 729 | 2260 | 900 | 3.16 | 7.169 | 126.9% |
C509698 | 680 | 1590 | 830 | 754 | 2030 | 1300 | 3.33 | 7.184 | 115.7% |
C509701 | 540 | 1230 | 510 | 591 | 1500 | 760 | 2.26 | 5.131 | 127.0% |
C509704 | 660 | 1450 | 670 | 677 | 1500 | 530 | 2.03 | 5.487 | 170.3% |
C509811 | 500 | 919 | 730 | 567 | 1600 | 1000 | 2.6 | 5.316 | 104.5% |
C509813 | 810 | 1110 | 1200 | 758 | 830 | 1100 | 1.93 | 5.808 | 200.9% |
C509814 | 920 | 1060 | 1400 | 839 | 1900 | 2070 | 3.97 | 8.189 | 106.3% |
C509087 | 1170 | 1410 | 1500 | 795 | 1600 | 660 | 2.26 | 7.135 | 215.7% |
C509089 | 1320 | 1600 | 1800 | 1140 | 1400 | 2700 | 4.1 | 9.96 | 142.9% |
C509092 | 970 | 1390 | 1400 | 971 | 1900 | 1400 | 3.3 | 8.031 | 143.4% |
C509097 | 1270 | 1720 | 1900 | 895 | 3700 | 2240 | 5.94 | 11.725 | 97.4% |
C509098 | 700 | 983 | 840 | 629 | 2150 | 3540 | 5.69 | 8.842 | 55.4% |
C509101 | 730 | 876 | 1100 | 551 | 2000 | 850 | 2.85 | 6.107 | 114.3% |
C509104 | 630 | 776 | 800 | 698 | 2250 | 2360 | 4.61 | 7.514 | 63.0% |
C509111 | 1030 | 1120 | 1400 | 966 | 3610 | 1100 | 4.71 | 9.226 | 95.9% |
C509112 | 910 | 990 | 1100 | 853 | 2590 | 2880 | 5.47 | 9.323 | 70.4% |
C509114 | 700 | 999 | 910 | 643 | 3670 | 3870 | 7.54 | 10.792 | 43.1% |
C509131 | 880 | 1130 | 1300 | 675 | 4770 | 1800 | 6.57 | 10.555 | 60.7% |
C509140 | 780 | 1120 | 1000 | 672 | 3010 | 3550 | 6.56 | 10.132 | 54.5% |
C509145 | 940 | 1320 | 1500 | 653 | 1400 | 1200 | 2.6 | 7.013 | 169.7% |
C509146 | 1390 | 2080 | 2000 | 827 | 1800 | 760 | 2.56 | 8.857 | 246.0% |
C509147 | 760 | 1080 | 1000 | 725 | 3290 | 1200 | 4.49 | 8.055 | 79.4% |
C509150 | 490 | 721 | 760 | 516 | 2890 | 3670 | 6.56 | 9.047 | 37.9% |
Prophecy Platinum’s Chairman, John Lee, notes: “The assay results suggest that 6E (Pt, Pd, Rh, Ru, Os & Ir) PGE composite grades increase by an average of 28% (disseminated sulphide) to 114.8% (massive sulphide) over grades previously announced when only platinum and palladium were considered. Today’s results could potentially translate into a significant rare PGE resource addition to an already impressive platinum and palladium resource base* at Wellgreen.”
*Refer to July 14, 2011 news release regarding Wellgreen 43-101 resource update.
Mineral resources that are not mineral reserves do not have demonstrated economic viability.
Quality Control and Quality Assurance
Prophecy Platinum executes a quality control program to ensure best practice in sampling and analysis. Samples are cut and split for assay with the remaining sample retained for reference. Blanks, Standard Reference Material (SRM), and duplicates were inserted into the sample stream every 20th sample. A duplicate sample is taken every 20th sample of core. The selected sample is sawn in half and then sawn in half again. The quartered core is then placed into two different sample bags with different sample numbers and sealed. The SRM material comes from Natural Resources Canada and Analytical Solutions Limited. These were inserted into the sample stream immediately after the second duplicate. The SRMs used are WMS-1, WPR-1 and WGB-1. Sample Blanks are obtained from two sources: granodiorite from a local quarry and garden marble from hardware stores in Whitehorse, Yukon. A Blank sample is inserted into the sample stream after the SRM. Assayed samples are transported in sealed and secured bags for preparation at ALS Chemex Prep Lab located in Whitehorse, Yukon. Pulverized (pulp) samples are shipped for analysis to ALS Chemex Assay Laboratory in Vancouver, B.C. ALS Chemex is an ISO/IEC 17025:2005 accredited laboratory and registered under ISO 9001:2000.
Full spectrum PGE analysis was completed by Activation Laboratories (Actlabs) based out of Ancaster, Ontario. Samples from 5 – 50 g in size are fire assayed using a nickel sulphide (NiS) fire assay procedure. With this procedure, the Ni, Cu, Cr and S content of the sample is predetermined and each sample is fluxed separately with the flux adjusted for sample composition. The flux contains high-purity Ni produced by the carbonyl process, borax, sodium carbonate, silica and high purity sulphur. The sample is fused at 1100°C in fireclay crucibles and allowed to cool in the crucible. The nickel sulphide button at the base of the crucible is dissolved in concentrated HCl and the resulting residue which contains all the PGE and Au are collected on a filter paper. This residue undergoes 2 irradiations and 3 separate counts to measure all the PGE and Au.
Quality assurance and quality control are monitored using scatterplots, Thompson-Howarth plots and statistical analysis to ensure duplicates, blanks and standard data are reliable and indicate robustness of overall results. ALS Chemex quality-assurance procedures are also included in this process.
This news release has been reviewed and approved by Danniel Oosterman, P.Geo., a Qualified Person as defined in NI 43-101.
About Prophecy Platinum
Prophecy Platinum Corp. is a mineral exploration company focused on developing platinum group metals (PGM) and nickel sulphide projects. Defining and driving the company is its flagship Wellgreen PGM Nickel property in Canada’s Yukon Territory. Prophecy’s further holdings include the Lynn Lake Nickel Copper project in Manitoba, the Las Aguilas Nickel PGM deposit in Argentina, as well as five prospective claims in Uruguay. In June 2011, Prophecy Platinum was spun off from Prophecy Coal (TSX:PCY). Prophecy Coal currently owns 22.5 million shares (approx. 42%) of Prophecy Platinum.
ON BEHALF OF THE BOARD OF DIRECTORS
Prophecy Platinum Corp.
John Lee, Chairman
Forward Looking Statements: This news release includes certain statements that may be deemed “forward-looking statements”. All statements in this release, other than statements of historical facts, including, without limitation, statements of potential mineralization, the estimation of mineral resources, the realization of mineral resource estimates, interpretation of prior exploration and potential exploration results, the timing and success of exploration activities generally, the timing and results of future resource estimates, permitting time lines, metal prices and currency exchange rates, availability of capital, government regulation of exploration operations, environmental risks, reclamation, title, and future plans and objectives of the Company are forward-looking statements that involve various risks and uncertainties. Although Prophecy believes the expectations expressed in such forward-looking statements are based on reasonable assumptions, such statements are not guarantees of future performance and actual results or developments may differ materially from those in the forward-looking statements. Forward-looking statements are based on a number of material factors and assumptions. Factors that could cause actual results to differ materially from those in forward-looking statements include unsuccessful exploration results, changes in project parameters as plans continue to be refined, results of future resource estimates, future metal prices, availability of capital and financing on acceptable terms, general economic, market or business conditions, risks associated with operating in foreign jurisdictions, uninsured risks, regulatory changes, defects in title, availability of personnel, materials and equipment on a timely basis, accidents or equipment breakdowns, delays in receiving government approvals, unanticipated environmental impacts on operations and costs to remedy same, and other exploration or other risks detailed herein and from time to time in the filings made by the companies with securities regulators. Readers are cautioned that mineral resources that are not mineral reserves do not have demonstrated economic viability. Mineral exploration and development of mines is an inherently risky business. Accordingly the actual events may differ materially from those projected in the forward-looking statements. For more information on Prophecy and the risks and challenges of their businesses, investors should review their annual filings that are available atwww.sedar.com.
“Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.”