CanAlaska Uranium Ltd. Uranium Exploration in North West Manitoba Ross Polutnik K. Schimann, R. Duff, S. Napier Manitoba Mining and Minerals Convention: Nov 15-17, 2012 1
NW Manitoba Project: Outline Project Location Regional Geology Exploration History Target Areas Geophysical Exploration Model Gravity & DC Resistivity Survey Comparison with the Andrew Lake Deposit, Nunavut Conclusion 2
Location Points North Lac Brochet 3
Regional Geology McArthur River Cigar Lake Key Lake Eagle Point Primarily within the Wollaston Domain immediately East of the Saskatchewan / Manitoba border. Composed predominantly of ca. 2.1-1.9 Ga Paleoproterozoic metasedimentary rocks of the Wollaston Supergroup. Dominated by a strong northeast trending fabric related to the ca. 1.84 to 1.77 Ga Trans-Hudson Orogen. Region underwent extensive glaciation, and the modern day landscape is dominated by glacial features. 4
NW Manitoba Project Regional Magnetic Field Map Manitoba uranium belt The extension of the Saskatchewan uranium belt Uranium is found in all rock types MOU in place with Lac Brochet First Nations Maguire Trend targets drill ready Manitoba drilling moratorium lifted 2012 5
Exploration History A systematic exploration program across the entire property: yr. 2005 2006 2007 2008 2009 2010 2011 2012 Lake Sediment Sampling Prospecting Geological Mapping Boulder and Soil Sampling Airborne MAG-VLF-RAD Survey & VTEM Survey Memorandum of Understanding (MOU) with the community of Lac Brochet signed Acquired Ground Exploration put on hold while the Manitoba Government and First Nations communities held consultations Winter ground geophysics program DC Resistivity Gravity 6
Lake Sediment Geochemistry U ppm # of Lake Sediment Samples = 1831 20 km U ppm 3 9 16 28 41 53 66 78 91 Maximum Value = 532 ppm U 7
Prospecting Samples Total Samples Assayed: 1509 Samples > 1.0 % U 3 O 8 are clustered in prospective target areas (Background is Lake Sediment U ppm) U 3 O 8 > 0.1 % U 3 O 8 > 1.0 % 20 km (1068 Samples - 71%) (86 Samples 5.7%) 8
NW Manitoba Project Lake Sediment Geochemistry 1831 Lake Sediment Samples collected from helicopter (see map dots) Maximum Value = 532 ppm U Extensive sampling lead to Uranium outcrop and dispersion trails. U ppm 3 9 16 28 41 53 66 78 91 Sample on left is pitchblende with clay coating. (>60% U3O8) 7
Major Target Areas 30 km Compilation of all exploration data resulted in the identification of 7 major target areas requiring follow up work. Uranium mineralization has been found in many rock types: Calc-silicates Pegmatitic tonalites Arkosic gneisses Amphibolite / pelite / leucocratic granites 20 km Geological mapping and prospecting indicates that mineralization is frequently associated with major structural features. Property Area: 143,603 ha 9
Geophysical Exploration Model Key Geophysical Exploration Criteria for Basement-hosted Uranium Deposits: Located along a major structure or at the intersection of crosscutting structures Directly associated with a distinct high amplitude gravity low Gravity low is associated with a resistivity low In Nunavut, the combination of gravity and DC resistivity surveys has proved to be an effective exploration strategy in the search for basement hosted unconformity style deposits. In 2012 we continued our strategy of defining drill targets using methodologies employed in Nunavut to explore for basement-hosted uranium deposits. 10
Geophysical Exploration Model DC Resistivity Low Contour Why are Gravity and DC Resistivity surveys effective? Hydrothermal alteration potentially related to uranium mineralization generally produces clay alteration halos that have a lower density and lower resistivity than fresh host rock. 200 m Gravity Andrew Lake / Kiggavik Deposit Basement hosted unconformity style Uranium in a clay alteration halo Coincident DC resistivity low and gravity low 59 million lbs U 3 O 8 at 0.38 % Project Area: Andrew Lake + Kiggavik + End Grid Deposits 134 million lbs U3O8 at 0.23 % (Geological Resources from Areva Resources Canada Inc, Report The Kiggavik Project: Project Proposal, Nov 2008) 11
Priority Targets Grid 2a Grid 2b Grid 2c Two Priority Target Areas were identified Grid 1 (Snyder 4) Grid 2 (Maguire Trend) Grid 1 is located on a broad Archean antiformal structure. Grid 2 lies within the Maguire structural trend. Grid 1 Detailed 2006 Airborne Magnetic Survey 10 km 12
Grid 2: Magnetic Data Maguire Trend (Major Structural Trend) Maguire Graphitic Conductor Grid 2a Grid 2b Grid 2c Detailed 2006 Airborne Magnetic Survey A large scale NE trending structure crossing the entire property Within lower Wollaston Group rocks in an antiformal position and possibly thrusted. Graphitic conductor Cross-cutting magnetic lineaments Shearing Clay alteration High grade Uranium boulders 5 km 13
Grid 2: Gravity & DC Res Results Grid 2: Gravity Grid 2: DC Resistivity 14
Grid 2: DC Res Section Residual Gravity (mgal) Gravity Low 900 m Target A Resistivity (ohm.m) Inverted Resistivity (ohm.m) Broad, intense gravity low (Up to 1.2 mgal) Two DC resistivity lows with considerable depth extent Coincident Gravity & DC Resistivity Low observed 15
NW Manitoba Maguire Trend Target Mineralization at surface suggests open pit potential. Multiple gravity-resistivity targets Outcrop containing 9.5% U 3 0 8 Boulders in glacial till 66.3% U 3 0 8 Ground resistivity & ground gravity survey 2012 on Maguire Trend 1km Gravity Low indicates clay alteration within target area Priority drill target A Structural breaks with: IP Chargeability Gravity Low ( blue zones) Resistivity Low Project Comparison- Andrew Lake (+50M lbs): Low gravity and low resistivity define main alteration zone within uranium target. 17 Clay alteration around uranium zone
Comparison with Andrew Lake Deposit How does Target A compare with Andrew Lake? Both have coincident gravity lows and DC resistivity lows Gravity lows are similar in shape Target A is larger in size and amplitude than the Andrew Lake anomaly Andrew Lake 400 m Target A Gravity Gravity 16
Comparison with Andrew Lake Deposit Same Scale 500 m Four priority drill targets identified All have coincident gravity and DC resistivity lows Located adjacent to crosscutting structures Five secondary drill targets identified 2000 m Gravity DC Resistivity 17
Conclusion $6.7 M spent on exploration of the NW Manitoba Project lead to the identification of 7 major target areas and 10 defined targets Four year work hiatus as the Government developed a consultation framework with local First Nations communities Memorandum of understanding (MOU) executed between CanAlaska and Northlands Dene community of Lac Brochet in early 2012 Priority Gravity DC Resistivity drill targets defined and ready for drilling 18
CanAlaska Uranium Ltd. Thank You www.canalaska.com #1020-625 Howe Street Vancouver BC, V6C 2T6 1-604-688-3211 TSX: CVV OTCBB: CVVUF Frankfurt: DH7N 19